EPA-402/R19/002 | August 2019
VAWv.epa.gov/radiation
United States
Environmental Protection
Agency
External Exposure
TO RADIONUCLIDES IN AIR, WATER AND SOIL
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EPA 402-R-19-002
FEDERAL GUIDANCE REPORT NO. 15
EXTERNAL EXPOSURE TO RADIONUCLIDES
IN AIR, WATER AND SOIL
External Dose Rate Coefficients for General Application
M. B. Bellamy, S. A. Dewji, R. W. Leggett, M. Hiller, K. Veinot, R. P. Manger,
K. F. Eckerman, J. C. Ryman, C. E. Easterly, N. E. Hertel & D. J. Stewart
Oak Ridge National Laboratory
Oak Ridge, Tennessee 37831
Office of Radiation and Indoor Air
U.S. Environmental Protection Agency
Washington, DC 20460
Revised August 2019
Original publication June 2018
For a summary of revisions, see errata at end of report
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PREFACE
The purpose of federal radiation protection guidance is to provide a common framework for ensuring
that the assessment of exposure to ionizing radiation is carried out in a consistent manner. Federal guidance
is issued by the Administrator of the U.S. Environmental Protection Agency (EPA) as part of his or her
responsibility, under Executive Order 10831, to "...advise the President with respect to radiation matters,
directly or indirectly affecting health, including guidance for all federal agencies in the formulation of radiation
standards and in the establishment and execution of programs of cooperation with States."
Federal Guidance Report No. 15, External Exposure to Radionuclides in Air, Water and Soil, is part
of a series designed to provide technical information for use in implementing radiation protection programs.
This report tabulates age-specific, reference person effective dose rate coefficients for 1,252 radionuclides
based on external exposure to radionuclides distributed in air, water and soil. This report updates and expands
Federal Guidance Report No. 12, External Exposure to Radionuclides in Air, Water, and Soil (EPA, 1993).
Federal Guidance Report No. 15 incorporates advancements in scientific knowledge to help ensure that
regulation of radiation exposure makes use of the best available information for relating concentrations of
radionuclides in environmental media to dose in human populations due to external radiation.
The dose rate coefficients are intended for calculating age-specific effective doses from external
exposure to environmental radionuclides. They were developed for use by federal agencies having regulatory
responsibilities for protection of members of the public and/or workers. This guidance also may be used by
those federal agencies with responsibilities related to the management of their own personnel and their
contractor operations; for example, the U.S. Department of Energy (DOE) has derived age- and sex-weighted
dose coefficients in DOE-STD-1196-2011 for assessing compliance with annual public dose limits. State and
local authorities are encouraged to use the dose coefficients under their radiation protection authorities.
For the vast majority of radionuclides, external dose is due to x-rays, gamma radiation, conversion
electrons and beta (negatron and positron) radiations. Dose rate coefficients are provided for the following
exposure pathways: submersion in a contaminated atmospheric cloud (air submersion), immersion in
contaminated water (water immersion), and exposure to contamination on or below the ground surface (ground
exposure). For each exposure pathway, dose rate coefficients are provided for each of 1,252 radionuclides.
The dose coefficients developed in this report address the equivalent dose to tissues of the body and
the effective dose as defined in International Commission on Radiological Protection (ICRP) Publication 103
(2007). The coefficients are based on the nuclear decay data of ICRP Publication 107 (2008) and a series of
computational phantoms containing both male- and female-specific tissues (i.e., stylized hermaphrodites)
representing newborns, children ages 1,5,10 and 15 years, and adults. Equivalent dose coefficients are derived
for the tissues of the body including the male and female sex-specific tissues. Effective dose coefficients, the
weighted sum of the average tissue-weighted equivalent dose in the male and female, are tabulated for the six
ages. The equivalent dose and effective dose coefficients for external exposure to 1,252 radionuclides in the
four environmental pathways are available electronically.1 The effective dose coefficients tabulated in this
report apply to a "reference person" of the stated age.
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This report discusses various methods for weighting or calculating a single coefficient for an
individual isotope. Information is provided to allow the reader to modify dose rate coefficients relative to site-
specific conditions (source depth profiles, air density or soil density).
The pertinent physical properties of the radionuclide are its radiological (physical) half-life and the
types and energies of its emitted radiations. The methodology is built around the unifying concept of absorbed
dose, defined as the mean energy deposited by ionizing radiation in the absorbing tissue per unit mass of
tissue. The International System (SI) unit of absorbed dose is joules per kilogram (J kg"1), called the gray (Gy).
Absorbed doses from ionizing radiation originating from radionuclides outside the body are predicted
by radiation transport models that describe the movement of different types and energies of ionizing radiation
through different materials and their deposition of energy in those materials. The external dose rate coefficient
for a specific radionuclide depends on the type, intensity and energy of the emitted radiations, along with the
mode of exposure, the age of the reference person, and the anatomy that governs the energy deposition in body.
The radiation dose depends strongly on the temporal and spatial distribution of the radionuclide to which a
reference person is exposed and the duration of the exposure.
The previous version of this report, Federal Guidance Report No. 12 (1993), used the principal dose
quantity, effective dose, recommended in Radiation Protection Guidance to Federal Agencies for
Occupational Exposure (EPA, 1987). New estimates of radiation risk to the organs and tissues have been
published since then (United Nations Scientific Committee on the Effects of Atomic Radiation [UNSCEAR],
2000, 2008; National Academy of Sciences-National Research Council [NAS-NRC], 2006; ICRP, 2007;
EPA, 2011) and updated weighting factors have been recommended by ICRP (2007).
The tables in this report are available online,2 allowing the user to easily integrate the data into
programs for assessing dose.
We gratefully acknowledge the work of the authors—M. B. Bellamy, S. A. Dewji, R. W. Leggett, M.
Hiller, K. Veinot, R. P. Manger, K. F. Eckerman, J. C. Ryman, C. E. Easterly, N. E. Hertel and D. J. Stewart—
without whose outstanding contributions, tables such as these would not exist. This project was made possible
through joint funding from three federal agencies: EPA, DOE, and the U.S. Nuclear Regulatory Commission
(NRC). We appreciate the consistent support of project officers from EPA (M. Boyd), DOE (A. Wallo and D.
Favret) and NRC (A. Huffert and V. Holahan) throughout the lengthy term of this work.
Comments and suggested improvements should be addressed to Mike Boyd, Radiation Protection
Division, U.S. Environmental Protection Agency, 1200 Pennsylvania Ave NW (MC 6608-T), Washington,
D.C. 20460flrboyd.mike@epa.gov.
JorfSthftn Edwards, Director
OKi&wf Radiation and Indoor Air
U.S. Environmental Protection Agency
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CONTENTS
PREFACE iii
LIST OF TABLES vii
LIST OF FIGURES viii
CHAPTER 1. INTRODUCTION 1
1.1 Dosimetric quantities 3
1.2 Differences between Federal Guidance Report No. 15 and Federal Guidance Report No. 12 5
1.3 Organization of this report 6
CHAPTER 2. BACKGROUND 7
CHAPTER 3. METHOD FOR MONOENERGETIC RESPONSE 10
3.1 Computational phantoms 10
3.2 Exposure to contaminated soil 11
3.2.1 Summary of soil method 11
3.2.2 Environmental transport photons in soil 14
3.2.2.1 Geometry overview 14
3.2.2.2 Soil composition 14
3.2.2.3 Soil depths considered 15
3.2.2.4 Ground roughness considerations 15
3.2.2.5 Total soil depth 16
3.2.2.6 Recording photons incident on the cylinder 16
3.2.2.7 Geometry of the air above the soil 16
3.2.3 Monoenergetic organ dose from photons in soil 16
3.2.3.1 Irradiation geometry 17
3.2.3.2 Calculating absorbed dose 17
3.2.3.3 Variance reduction 17
3.2.4 Dose rate coefficients for volumetric sources 17
3.2.5 Dose rate coefficients for electrons in soil 18
3.2.5.1 Electron skin dose 18
3.2.5.2 Electron dose from bremsstrahlung 20
3.3 Submersion in contaminated air 21
3.3.1 Summary of air calculation 21
3.3.2 Environmental transport of photons in air 21
3.3.2.1 Description of scenario 21
3.3.2.2 Air composition and density 21
3.3.2.3 Computational geometry 22
3.3.3 Submersion monoenergetic tissue dose rate coefficients from photons 24
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3.3.4 Organ dose from electrons in air 24
3.3.4.1 Electron dose from bremsstrahlung 25
3.4 Immersion in contaminated water 25
3.4.1 Summary of the method for water immersion 25
3.4.2 Monoenergetic organ dose from photons in water 26
3.4.3 Organ dose from electrons in water 27
3.4.3.1 Electron dose from bremsstrahlung 28
3.5 Tables of monoenergetic dose rate coefficients 28
CHAPTER 4. RADIONUCLIDE DOSE RATE COEFFICIENTS 29
4.1 Dose rate coefficients for radionuclides 29
4.1.1 The ICRP Publication 107 Nuclear Decay Database 29
4.1.1.1 Derivation of radionuclide-specific dose rate coefficients based on monoenergetic data and
radionuclide spectra 30
CHAPTER 5. APPLICATION CONSIDERATIONS 248
5.1 Radionuclide decay chains 248
5.2 Spontaneous fission 248
5.3 Computational models of the human body 249
5.4 Pathway-specific modifying factors and exposures 249
5.4.1 Contaminated shorelines 250
5.4.2 Exposure during boating activities 251
5.4.3 Effects of indoor residence 252
5.4.4 Conclusions 254
5.5 Non-uniform volume source distributions 255
APPENDIX A. NUCLEAR DECAY DATA 256
APPENDIX B. MODIFICATIONS TO THE HUMAN PHANTOM 309
APPENDIX C. EXTERNAL BREMSSTRAHLUNG 313
APPENDIX D. EXAMPLE CALCULATIONS 319
APPENDIX E. LIST OF ACRONYMS 324
ERRATA 325
ACKNOWLEDGMENTS 327
REFERENCES 328
VI
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LIST OF TABLES
Table 2-1. Details of the Federal Guidance Report No. 15 methodology 9
Table 3-1. ICRP Publication 103 (2007) tissue weighting factors for calculating effective dose rate
coefficients 12
Table 3-2. Soil composition 15
Table 3-3. Air composition 21
Table 4-1. Reference person effective dose rate coefficients for ground surface 31
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm 62
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm 93
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm 124
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth 155
Table 4-6. Reference person effective dose rate coefficients for air submersion 186
Table 4-7. Reference person effective dose rate coefficients for water immersion 217
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number 259
Table C-l. Scaled external bremsstrahlung spectra from electrons for air 315
Table C-2. Scaled external bremsstrahlung spectra from electrons for water 316
Table C-3. Scaled external bremsstrahlung spectra from electrons for soil 317
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LIST OF FIGURES
Figure 1-1. Comparison of the tissue weighting factors of ICRP Publication 60 (1991) with those used in
this report (ICRP Publication 103, 2007) 4
Figure 3-1. "Family" of phantoms including newborn through 15 years plus adults used in the derivation of
external dose rate coefficients 11
Figure 3-2. Radiation field due to a contaminated ground plane, on a cylinder surrounding the phantom.... 13
Figure 3-3. Angular current source on the coupling cylinder surrounding thephantom 13
Figure 3-4. Electron skin dose rate coefficients for exposure to contaminated soil 20
Figure 3-5. Kerma as a function of air density for 1 MeV photons 22
Figure 3-6. Geometry used for generating the air submersion coupling surface 23
Figure 3-7. Comparison of energy spectra of 0.1 MeV scattered photons for a contaminated air source as
estimated here and in Federal Guidance Report No. 12 23
Figure 3-8. Electron skin dose rate coefficient for submersion in contaminated air 25
Figure 3-9. Computational geometry used for water immersion for estimating the adult organ dose rate
coefficients 26
Figure 3-10. Electron skin dose rate coefficient for immersion in contaminated water 28
Figure B-l. Shape of the brain in the dosimetric phantoms applied in this report 310
Figure C-1. External bremsstrahlung spectrum of 85Kr in air 318
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CHAPTER 1. INTRODUCTION
This report tabulates age-specific, reference person3 effective dose rate coefficients for external
exposure to photons and electrons emitted by radionuclides distributed in air, water and soil. The dose rate
coefficients are intended for use in the calculation of age-specific effective doses from external exposure to
radionuclides in the environment. Dose rate coefficients for calculation of equivalent doses to specific
tissues are available online.4
Dose rate coefficients are provided for the following exposure pathways: submersion in a
contaminated atmospheric cloud (air submersion); exposure to contamination on or below the ground
surface (ground exposure); and immersion in contaminated water (water immersion). For each exposure
pathway, dose rate coefficients are provided for 1,252 radionuclides. The coefficients are based on nuclear
decay data of International Commission on Radiological Protection (ICRP) Publication 107 (2008) and a
series of stylized hermaphrodite phantoms (i.e., phantoms containing both male and female reproductive
organs) representing newborns, children ages 1, 5, 10 and 15 years, and adults (Han et al., 2006). These
phantoms are modifications of age-specific mathematical phantoms originally developed at Oak Ridge
National Laboratory (ORNL) (Cristy and Eckerman, 1987). The modifications address tissues considered
in ICRP Publication 103 (2007) that were not identified in the original phantoms.
This report is made available to provide dose coefficients for external exposures consistent with ICRP
Publication 103 (2007). At time of publication, no federal agencies have applied the ICRP Publication
103 system of protection in federal regulations. In addition, neither ICRP nor the National Council on
Radiation Protection and Measurements (NCRP) have made recommendations regarding the
appropriate use of age-specific dose coefficients in the radiation protection system. Federal Guidance
Report No. 15 dose coefficients are not applicable for determining compliance with regulations that are
based on earlier ICRP dosimetry methodologies. Although no federal agencies have used ICRP
Publication 103-based age-specific dose coefficients in radiation protection systems, there have been
limited examples of the use of age-specific coefficients. The U.S. Department of Energy (DOE) adopted
ICRP Publication 60 (1991) in its radiation protection system (DOE Order 458.1) (DOE, 2011a) and
used ICRP Publication 72 (1996) and Federal Guidance Report No. 13 (EPA, 1999) age-specific dose
coefficients in DOE-STD-1196-2011 (DOE, 2011b) for estimating public doses from chronic (long-
term) exposures of the public for assessing compliance with its dose limits. The standard utilizes age-
and sex-weighted coefficients based on the population from 2010 U.S. census. The EPA Superfund
program used Federal Guidance Report No. 13 age-specific risk factors when conducting assessments
to estimate lifetime risks from chronic exposures. Unless an agency specifically authorizes use of ICRP
Publication 103 in its regulations, the dose coefficients in this report should not be used for compliance
purposes without approval of the appropriate regulatory authority.
3 In ICRP Publication 103 (2007), "reference person" is defined as "An idealised person for whom the organ or tissue
equivalent doses are calculated by averaging the corresponding doses of the Reference Male and Reference Female.
The equivalent doses of the Reference Person are used for the calculation of the effective dose by multiplying these
doses by the corresponding tissue weighting factors." (p. 31)
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This report updates and expands Federal Guidance Report No. 12 (EPA, 1993), which tabulates
external dose coefficients for a reference adult for 825 radionuclides. The coefficients provided in Federal
Guidance Report No. 12 were based on nuclear decay data of ICRP Publication 38 (1983) and a stylized
dosimetric hermaphrodite phantom representing the reference adult.
Dose rate coefficients for external exposure relate the dose rate to organs and tissues of the body
to the concentrations of radionuclides in environmental media. This situation is in contrast to the intake of
radionuclides by inhalation or ingestion, where the radiations are emitted within the body and the committed
dose is dependent on the activity intake of the radionuclide. In either circumstance, the dosimetric quantities
of interest are the radiation doses received by the radiosensitive organs and tissues of the body. The types
of radiation of concern for external exposures are those sufficiently penetrating to traverse the overlying
tissues of the body and deposit ionizing energy in radiosensitive organs and tissues. Penetrating radiations
considered in this report are limited to photons (x-rays, gamma rays and bremsstrahlung) and electrons
(negatrons and positrons). The radiation dose depends strongly on the temporal and spatial distribution of
the radionuclide to which a reference person is exposed and the duration of the exposure.
It is common practice to consider idealized exposure geometries in which the radionuclide
concentration in the medium, seen from the location of an exposed individual, is uniform and effectively
infinite or semi-infinite in extent. Even for such simplified geometries, calculation of the energy and angular
distributions of radiations incident on the body and the transport of radiation within the body is a demanding
computational problem.
If one assumes an infinite or semi-infinite source region with a uniform concentration C(r) of a
radionuclide at time r, the equivalent dose Ht(Ta, Te) in tissue T of an individual of age 7j during an
exposure of duration Te can be expressed as
where hT( t) is the time-dependent dose rate coefficient for external exposure. The coefficient hT
represents the dose rate to tissue T of the body of an individual of initial age /' , per unit time-integrated
exposure expressed in terms of the time-integrated concentration of the radionuclide. This coefficient varies
with time due to anatomical changes as the receptor grows from a newborn to an adult.
In the case of the adult, the integral dose in tissue T can be calculated as the product of the adult's
dose rate coefficient and the time-integrated activity concentration of the radionuclide in the environment.
This is possible because, unlike nonadults, the dose rate coefficient of the adult is assumed to be time-
independent. In most applications of the dose coefficients, the annual equivalent dose // , . rather than the
instantaneous dose rate, is the quantity of interest, so for the adult, the time integral of the concentration
must be evaluated. For nonadults, the integral defined in Eq. (1) must be evaluated. Depending on the nature
of the application it may be advantageous to view the numerical value of the coefficient as either the
instantaneous dose rate per unit concentration or as the dose per unit time-integrated concentration.
o
(1)
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However, when considering nonadults, attention needs to be given to the magnitude of error in neglecting
to consider the changes in the dose coefficient as the individual ages. In this report we follow the latter
presentation.
The external dose rate coefficient for a specific radionuclide depends on the type, intensity and
energy of the emitted radiations; the mode of exposure; the age of the reference person; and the anatomy
that governs the energy deposition in the body. The dose rate coefficient incorporates the transport of
emitted radiations in the environment, their subsequent transport in the body, and estimation of the
deposition of ionizing energy in the tissues of the body. Calculations of the radionuclide-specific dose rate
coefficients involve three main steps:
1. Computation of the energy and angular distributions of the radiations incident on the body for a
range of discrete initial energies of monoenergetic sources distributed in the environmental medium
of interest.
2. For the incident radiation spectrum computed in step 1, evaluation of the transport and energy
deposition in tissues of the body.
3. Calculation of the tissue dose rate coefficient for specific radionuclides, considering the energies
and yields of the radiations emitted during nuclear decay of that radionuclide.
The result of the first two steps is a set of dose rate coefficients for monoenergetic sources of
photons or electrons. The last step scales these coefficients to the emissions of the specified radionuclide.
1.1 Dosimetric quantities
The fundamental measure of exposure to ionizing radiation is the absorbed dose. The absorbed
dose to a tissue in which ionizing radiation is absorbed is the mean energy deposited in the tissue per unit
mass of tissue. The International System (SI) unit of absorbed dose is joules per kilogram (J kg"1), which is
called the gray (Gy).
The quantity equivalent dose places all ionizing radiations on a common scale with regard to their
potential stochastic risk (ICRP, 2007). The equivalent dose to a tissue is the absorbed dose multiplied by a
radiation weighting factor that reflects the relative biological effectiveness (RBE) of the radiation type. A
radiation weighting factor of 1 is recommended by ICRP for photons and electrons (ICRP, 2007). Because
radiation weighting factors are unitless, the SI unit of equivalent dose is the same as that of absorbed dose
(J kg"1); however, it is called the sievert (Sv).
Dose-response relations for radiation-induced cancer, the dominant stochastic effect of ionizing
radiation, are based largely on data for external exposures involving nearly uniform external irradiation of
the human body by gamma rays or x-rays. In virtually all cases of radionuclide intake and in many cases of
external exposure, radiation doses are distributed non-uniformly among tissues. A quantity called effective
dose is used to compare stochastic risk from non-uniformly delivered dose with stochastic risk from uniform
external exposure of the whole body (ICRP, 2007). Effective dose is used as a measure of stochastic risk
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for either external exposure or internally deposited radionuclides, thus enabling the summation of these two
types of exposure in the context of radiation protection. ICRP Publication 103 (2007) states, "effective dose
is not recommended for epidemiological evaluations, nor should it be used for detailed specific
retrospective investigations of individual exposure and risk" (p. 13).
The effective dose takes into account epidemiological findings that the relationship between
equivalent dose and the probability of radiation effects depends on the organ or tissue irradiated. The
effective dose is a weighted sum of equivalent doses to radiosensitive tissues, with the equivalent dose for
a given tissue T weighted by a "tissue weighting factor," w7. The weighting factors represent the relative
contribution of the different tissues to the total risk for the case of uniform irradiation of the whole body.
Effective dose is expressed in the same unit as equivalent dose (i.e., Sv). The tissue weighting factors
applied in this report are those recommended in ICRP Publication 103 (2007). The weighting factors
specified in ICRP Publication 103 are presented in Figure 1-1, along with the weighting factors
recommended in ICRP Publication 60 (1991).
Esophagus
5%
Remainder
5%
Bone
(red)
12%
Lung
12%
Gonads
20%
Bone surface
1%
Urinary
bladder
5%
Breast
5%
Colon
12%
Liver
5%
Skin
Thyroid
Stomach
12%
1% 5%
ICRP Publication 60 (1991)
In ICRP Publication 60, the uy for Remainder is applied
to the mass-weighted average dose to adrenals, brain,
extrathoracic airways, small intestine, kidneys, muscle,
pancreas, spleen, thymus and uterus, except when the
following "splitting rule" applies: if one of these 10
tissues receives a dose greater than any of the 12
individual tissues for which weighting factors are
specified, half of the weighting factor (0.025) is applied
to that tissue and the other half is applied to the
mass-weighted committed equivalent dose in the rest of
the Remainder tissues.
Esophagus
4%
Brain
1%
Bone
marrow
(red)
12%
Remainder
12%
Gonads
8%_
Bone
surface
1%
Lung
12%
Salivary
glands
1%
Urinary
bladder
4%
Stomach
12%
Breast
12%
Colon
12%
Skin
1%
Thyroid LiVer
4% 4%
ICRP Publication 103 (2007)
ICRP Publication 103 tissue weighting factors are used
in this report to calculate effective dose rate coefficients.
In ICRP Publication 103, the wT for Remainder is
applied to the arithmetic mean of doses to adrenals,
extrathoracic region, gallbladder, heart, kidneys,
lymphatic nodes, muscle, oral mucosa, pancreas,
prostate, small intestine, spleen, thymus and
uterus/cervix.
Figure 1-1. Comparison of the tissue weighting factors of ICRP Publication 60 (1991) with those
used in this report (ICRP Publication 103, 2007).
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The dose coefficients developed in this report address the equivalent dose to tissues and the
effective dose as defined in ICRP Publication 103 (2007). Effective dose rate coefficients are tabulated in
this report and equivalent dose rate coefficients for individual tissues are available online.5
All effective dose rate coefficients presented in this report are sex-averaged and derived using
mathematical hermaphrodite phantoms for newborns, children ages 1, 5, 10 and 15 years, and adults.
Averaging of dose rate coefficients for males and females of a given age yields a dose rate coefficient for
a "reference person" of that age. For example, the average of the tissue-specific dose rate coefficients
developed separately for the 1-year-old male and the 1-year-old female (using doses to sex-specific
reproductive organs in each case) for a given exposure scenario are available online.
This report tabulates dose rate coefficients for the radionuclides addressed in ICRP Publication 107
(2008). For the vast majority of radionuclides, external dose is due to x-rays, gamma, conversion electrons
and beta (negatron and positron) radiations. For a few radionuclides, spontaneous fission produces
penetrating radiations of potential importance, including fast neutrons. Prompt and delayed emissions for
photons and beta particles following spontaneous fission are included in the decay data tabulations of ICRP
Publication 107 (2008) and included in the calculations of dose rate coefficients in this report. The dose
contribution from neutrons accompanying spontaneous fission, however, has not been considered because
information has not been assembled on the neutron field resulting from environmental distribution of
radionuclides undergoing spontaneous fission. The potential contribution to dose of long-lived fission
products from radionuclides undergoing spontaneous fission also is not considered in the tabulated dose
rate coefficient calculation.
1.2 Differences between Federal Guidance Report No. 15 and Federal Guidance Report No. 12
Since the publication of Federal Guidance Report No. 12 (EPA, 1993), there have been substantial
changes in computational capabilities, radiation protection databases, anthropomorphic computational
phantoms and ICRP guidance. These changes have facilitated improved calculation of organ dose as a result
of exposure to contaminated environmental media. This section discusses some of the differences between
this report and Federal Guidance Report No. 12.
The largest difference between the two reports is that this report incorporates six age-specific
phantoms from newborn through adult while Federal Guidance Report No. 12 only considers a single age.
Thus, this report contains six times more tissue and effective dose rate coefficient tables and the associated
datasets are correspondingly larger.
Next, this report's effective doses are based on ICRP Publication 103 (2007) weighting factors
while the Federal Guidance Report No. 12 effective dose numbers are based on ICRP Publication 26 (1977).
In the context of external emitters, the most substantial effect of the updated tissue weighting coefficients
is the inclusion of skin in the definition of effective dose. Many radionuclides, especially those that
exclusively emit energy below 50 keV, have a skin dose which is much higher than other organ doses. For
these radionuclides, the ICRP Publication 103 definition of effective dose would in general be larger than
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the effective dose computed under ICRP Publication 26 guidance. The most extreme example would be
radionuclides for which 100 percent of the dose is deposited in skin. For these radionuclides, the Federal
Guidance Report No. 12 (based on ICRP Publication 26) effective dose would be zero, while the Federal
Guidance Report No. 15 (based on ICRP Publication 103) effective dose would be some positive quantity.
Advances in Monte Carlo computational power can be categorized into software advances and
hardware advances. In the 25 years between the development of Federal Guidance Report No. 12 and this
report, major advancements have been made in computer speed, availability, approachability and stability.
The calculations in this work employed Monte Carlo N-Particle 6 (MCNP6) (Goorley et al., 2012) transport
code in conjunction with Evaluated Nuclear Data File (ENDF/B-VI.8) (Herman and Trkov, 2005) cross
sections. These advances have allowed for more precise calculations of organ doses from the Monte Carlo
phase of the calculation, particularly at low photon energies.
Radionuclide dose rate coefficients included in this report are based on ICRP Publication 107
(2008), which includes a larger number of radionuclides and refinements to the decay data relative to ICRP
Publication 38 (1983) that was used in Federal Guidance Report No. 12 calculations. Electron (negatron
and positron) and photon emissions of the radionuclides addressed in ICRP Publication 107 were used to
calculate the dose coefficients tabulated in this report. Notable differences between dose coefficients in this
report and Federal Guidance Report No. 12 are present where substantial corrections have been made
between the nuclear decay databases. Finally, because ICRP Publication 107 provides decay information
for a larger number of radionuclides, this report correspondingly provides external dose rate coefficients
for a larger number of radionuclides than were provided in Federal Guidance Report No. 12.
1.3 Organization of this report
The remainder of this report is organized as follows. Chapter 2 describes previous external dose
computational methods leading up to the present work. Chapter 3 describes the calculation of the
monoenergetic dose rate coefficients and tabulates these coefficients. Information is provided to allow the
reader to modify dose rate coefficients relative to site-specific conditions (source depth profiles, air density
or soil density). Chapter 4 tabulates effective dose rate coefficients for individual radionuclides for the six
reference persons. Chapter 5 addresses some practical issues regarding application of the tabulated
coefficients of Chapter 4.
Further details of the computational methods are discussed in the appendices. Appendix A
summarizes the nuclear decay data required to evaluate the total external dose from exposure to radioactive
decay chains. Appendix B describes the mathematical phantoms used in the calculations of external dose
rate coefficients. Appendix C tabulates information on the bremsstrahlung spectra used in the calculations.
Appendix D provides sample calculations illustrating the application of external dose rate coefficients.
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CHAPTER 2. BACKGROUND
A number of reports have tabulated dose coefficients for external irradiation of the body from
radionuclides distributed in the environment (Poston and Snyder, 1974; Dillman, 1974; O'Brien and Sanna,
1978; Koblinger and Nagy, 1985; Jacob et al., 1986, 1988a, 1988b; Kocher, 1981, 1983; DOE, 1988; Saito
et al., 1990; Chen, 1991; Petoussi et al., 1991; EPA, 1993; Petoussi-Henss et al., 2012). As a result of
limitations in computational hardware and, to a limited extent, methods, these tabulations generally have
relied on idealized assumptions regarding the exposure conditions. In some cases, the radiations incident
on the body have been assumed to be uniformly distributed in angle (an isotropic field) or to be incident
perpendicular to the body surface while the body is uniformly rotated about its vertical axis (a rotational
exposure). Variations in the intensity of the radiations with height above the ground frequently have been
ignored in assessing the dose from radionuclides on or below the ground surface. Irradiation from
bremsstrahlung has been ignored in many cases, even though for many pure beta emitters it is the only
radiation that is sufficiently penetrating to reach tissues below the surface of the body. In this report, we have
minimized simplifying assumptions in an effort to improve estimates of dose rates to human tissues based on
the hypothesized distributions of radionuclides in the environment.
Early estimates of submersion dose (Poston and Snyder, 1974; O'Brien and Sanna, 1978; Eckerman
et al., 1980; Kocher, 1981, 1983; DOE, 1988) generally were based on Monte Carlo calculations with poor
statistics for some organ doses due to limitations in the computer systems or minor errors in sampling the
radiation field. Saito et al. (1990) published a compilation of organ doses due to air submersion based on
Monte Carlo methods that appear to have overcome the limitations in earlier work.
The seminal work of Beck and de Planque (1968) on external dose due to contaminated soil was
limited to calculation of air dose for photon energies between 0.25 and 2.25 MeV. These data were used
later to generate a tabulation of air exposure rates for a number of radionuclides (Beck, 1980). The next
generation of calculations (Kocher, 1981, 1983; Kocher and Sjoreen, 1985; DOE, 1988) produced dose
estimates for many radionuclides but was limited by simplifying assumptions regarding the energy and
angular dependence of the radiation field. The field was assumed to be equivalent to that of submersion and
the point kernel method used for characterizing the field strength. Other efforts (Williams et al., 1985;
Koblinger and Nagy, 1985; Jacob et al., 1986, 1988a, 1988b; Saito et al., 1990; Petoussi et al., 1991) have
been based on relatively sophisticated methods for analyzing the energy, angular and spatial dependence of
the radiation field and computing organ doses for both mathematical and CT-derived phantoms of various
ages. These data are primarily for plane sources at or near the air-ground interface, or for naturally-occurring
radionuclides distributed to effectively infinite depth in the soil. The calculations of Chen (1991) include
volume sources of various thicknesses, as well as plane sources at the air-ground interface, but are only for
effective dose based on rotational normal beam exposure (ICRP, 1987). The computational approach of
Federal Guidance Report No. 12 (EPA, 1993) was a combination of deterministic and Monte Carlo
methods. In that document, external dose rate coefficients for radionuclides in air, water and soil were derived
using an adult hermaphrodite phantom (Cristy and Eckerman, 1987). With the exception of dose rate
coefficients for skin, the dose rate coefficients in this report are based entirely on a Monte Carlo approach.
The contribution of electrons to the skin dose rate coefficient is based on point kernel methodology.
7
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As stated in Section 1.2, over two decades have transpired between the introduction of Federal
Guidance Report No. 12 and the publication of this report. During that time, advances in both software and
hardware facilitated improved calculation of organ dose as a result of exposure to contaminated air, water
and soil. The dose coefficients calculated in this report are derived using MCNP6 (Goorley et al., 2012)
radiation transport codes and ENDF/B-VI.8 (Herman and Trkov, 2005) cross sections. Aside from the
computational streamlining, this report incorporates six age-specific phantoms from newborn through adult;
Federal Guidance Report No. 12 (EPA, 1993) considered only an adult. Radionuclide dose rate coefficients
are based on ICRP Publication 107 (2008), which includes a larger number of radionuclides and updated
physical data relative to the ICRP Publication 38 (1983) dataset used in Federal Guidance Report No. 12.
Several details of this report's methodology are summarized in Table 2-1.
8
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Table 2-1. Details of the Federal Guidance Report No. 15 methodology.
Radiation transport
Only Monte Carlo, except for electron dose to skin (uses point kernel
methodology)
Cross section library
ENDF/B-VI.8 (Herman and Trkov, 2005)
Mean free path definition
Total cross section, including coherent scatter
Phantom library
Reference newborns, children age 1,5, 10 and 15 years, and adults
Tissue weighting factors
ICRP Publication 103 (2007) tissue weighting factors
Number of organs/tissues
considered
29
Photons and electrons (negatrons and positrons). Beta and photon
radiations associated with spontaneous fission are considered; neutrons
are not addressed.
Radiations considered
Decay data
ICRP Publication 107 (2008) decay data
Number of radionuclides
1,252 radionuclides
Radiation transport code
MCNP6 (Goorley et al., 2012)
Water immersion method
Single-step with no coupling surface
Soil profile
Uniform concentration with depth
Monoenergetic interpolation
grid
13 energies
Treatment of ground
roughness
Ground roughness is represented as an infinite plane source at a depth
of 0.5 g cm"2, equivalent to 3 mm for a soil density of 1.6 x 103 kg m"3
Variance reduction
Employed path-length stretching and reflective boundary conditions
(primarily for low-energy photons)
Tissue compositions
Tissue-specific compositions and densities from ICRP Publication 89
(2002) and ICRU Report 46 (1992)
ENDF = Evaluated Nuclear Data File
ICRP = International Commission on Radiological Protection
ICRU = International Commission on Radiation Units and Measurements
9
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CHAPTER 3. METHOD FOR MONOENERGETIC RESPONSE
Photons and electrons are the most significant radiations emitted by environmental radionuclides
that can penetrate the body from outside to deposit ionizing energy in radiosensitive tissues. This chapter
describes the radiation dose quantities used in this report and presents the methods used to calculate dose
rate coefficients for external exposure to photons and electrons emitted from contaminated air, water, ground
surfaces and ground volumes.
The calculation of organ doses from irradiation of the human body by photon emitters distributed
in the environment requires the solution of a complex radiation transport problem. It is impractical to solve
this problem for the precise spectrum of photons emitted by each radionuclide of interest. Thus tissue-
specific dose rate coefficients are computed in stylized phantoms representing newborns, children age 1, 5,
10 and 15 years, and adults for monoenergetic photon sources at 13 energies, ranging from 0.01 to 5.0 MeV
(Figure 3-1). Skin dose values for electrons are derived using the point kernel approximation.
Bremsstrahlung photons generated by electrons in the environment are evaluated using the monoenergetic
photon dose rate coefficients. Radionuclide-specific dose rate coefficients are derived by summing the
product of the frequency of emission of each emitted photon and the energy-interpolated monoenergetic
dose rate coefficient.
This chapter describes the methods used to compute tissue dose rate coefficients and effective dose
rate coefficients. Effective dose rate coefficients are tabulated in this report. Effective dose rate coefficients
and equivalent dose rate coefficients for individual organs are available online.6
3.1 Computational phantoms
This work utilizes a series of stylized computational phantoms. These phantoms were originally
developed at ORNL in the early 1980s (Cristy and Eckerman, 1987) and modified in the mid-2000s by Han
et al. (2006). The reader is referred to Appendix B for more information on the history and development of
the phantoms.
The update of the phantoms by Han et al. included changes to the head, brain, extra-thoracic
airways, kidneys and rectosigmoid colon, and explicit representations of the salivary glands, alimentary
track mucosa, respiratory tract airways and the urinary bladder. Tissue compositions and densities were
updated in accordance with ICRP Publication 89 (2002) and International Commission on Radiation Units
and Measurements (ICRU) Report 46 (1992). The series of phantoms was translated for use with the
MCNP6 (Goorley et al., 2012) general purpose radiation transport code.
During quality assurance efforts, several organ volumes in the updated phantoms were found to be
imprecisely declared. These differences were found by comparing the track-length estimated volume
obtained by the ray tracing capability within MCNP6 with the declared volume. Corrections were made
whenever the disparity in volume was greater than 3 percent.
6 https://www.epa.gov/radiation/federal-guidance-report-no-15-external-exposure-radionuclides-air-water-and-soil
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Adult
15-year-old 10-year-old 5-year-old 1-year-old Newborn
Figure 3-1. "Family" of phantoms including newborn through 15 years plus adults used in the
derivation of external dose rate coefficients.
3.2 Exposure to contaminated soil
3.2.1 Summary of soil method
Dose rate coefficients for exposure to contaminated ground planes are based on the assumption that
an individual is standing on the ground. A direct Monte Carlo simulation involves the combination of a
deep penetration (i.e., transport through many mean free paths of air and/or soil) and a complex geometry
(the human phantom). The approach used in this work involves dividing the problem into two steps:
1. Calculation of photons incident on the phantom (angular and energy fluence) recorded on aclosed
surface surrounding the phantom (Figure 3-2). In this report, a cylinder of height 200 cm and
radius 30 cm was used to represent the closed surface. This closed surface serves as a coupling
surface for the second step in the simulations.
2. Calculation of organ dose rate coefficients due to photons transported from the cylinder into the
phantom (Figure 3-3). The effective dose rates for the reference persons are computed from the
tissue dose rates using the tissue weighting factors recommended in ICRP Publication 103 (2007)
(see Figure 1-1 and Table 3-1).
11
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Table 3-1. ICRP Publication 103 (2007) tissue weighting factors for calculating
effective dose rate coefficients.
Tissue
wT
Representation in Phantom
Red marrow
0.12
Multiple trabecular bone regions
Colon
0.12
Multiple segments represented
Lung
0.12
Both left & right lobes
Stomach
0.12
Contents excluded
Breast
0.12
Both male & female
Gonads
Testes
0.04
Male tissue
Ovaries
0.04
Female tissue
Bladder
0.04
Contents excluded
Esophagus
0.04
Explicit tissue region
Liver
0.04
Explicit tissue region
Thyroid
0.04
Explicit tissue region
Bone surface
0.01
Trabecular & cortical bone regions
Brain
0.01
Explicit tissue region
Salivary glands
0.01
Explicit tissue region
Skin
0.01
Explicit tissue region
Remainder
Adrenals
0.00923
Explicit tissue region
Extrathoracic region
0.00923
Explicit tissue region
Gall bladder
0.00923
Contents excluded
Heart
0.00923
Contents excluded
Kidneys
0.00923
Explicit tissue region
Lymphatic nodes
0.00923
Soft tissue surrogate
Muscle
0.00923
Explicit tissue region
Oral mucosa
0.00923
Explicit tissue region
Pancreas
0.00923
Explicit tissue region
Prostate
0.00462
Male tissue
Small intestine
0.00923
Contents excluded
Spleen
0.00923
Explicit tissue region
Thymus
0.00923
Soft tissue surrogate
Uterus/cervix
0.00462
Female tissue
12
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isotropic
surrounding
cylinder
Air
00
Soil
Isotropic
plane source
at depth ds
00
Figure 3-2. Radiation field due to a contaminated ground plane, on a cylinder surrounding the
phantom.
Figure 3-3. Angular current source on the coupling cylinder surrounding the phantom.
13
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3.2.2 Environmental transport photons in soil
To eliminate the complexity of the human phantom from the calculation of the incident radiation
field, the phantom was removed from the geometry description. This may be done if the presence of the
phantom does not significantly perturb the incoming angular flow rate across the coupling cylinder. The
phantom can affect the incoming directions of the radiation field only for those photons which, having
interacted in the phantom, pass out of the surrounding surface, scatter in the surrounding media, and return
across the closed surface. This is at most a second-order effect, as demonstrated by Saito et al. (1990).
3.2.2.1 Geometry overview
The sources for the contaminated soil calculations are infinite planar sources of monoenergetic
photons with unit strength in becquerel per square meter (1 Bq m"2), located at the air-ground interface or at
a specified depth in the soil. The photons are emitted in an isotropic manner. The results of these plane
source calculations are used to determine the tissue dose coefficients for a reference person standing at the
air-ground interface. For instance, the tissue dose rate due to a source in the soil that is uniformly distributed
from the surface to a specified depth may be computed by integrating the dose rates due to a series of plane
sources at different depths. This approach is easily extended to a variety of subsurface distributions of
radionuclides by performing an appropriately weighted integration of the doses due to a series of plane
sources at different depths.
3.2.2.2 Soil composition
The assumed soil composition, given in Table 3-2, is typical of silty soil (ICRU, 1994) containing
30 percent water and 20 percent air by volume. The air composition (see Table 3-3) is the same as for the
submersion dose calculations. The assumed soil density is 1.6 x 103 kg m"3. In some circumstances, the
radiation field above the air-ground interface can be scaled to account for differences in soil density (Beck
and de Planque, 1968; Chen, 1991; Yu et al., 2015). The radiation field above the air-ground interface is
relatively insensitive to soil composition for a plane surface source (Beck and de Planque, 1968), but this
is not the case for photon emission within the soil at energies less than 100 keV (ICRU, 1994). At such
energies the absorption properties differ for different soil types. Detailed information on the chemical
composition of various soils has been tabulated by Helmke (1999). The issue of surface roughness for a
contaminated surface plane is discussed in section 3.2.2.4. Changes in soil density have a much larger effect
on the dose rate coefficient than changes to the elemental composition.
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Table 3-2. Soil composition.
Element
Mass Fraction
H
0.021
C
0.016
O
0.577
Al
0.050
Si
0.271
K
0.013
Ca
0.041
Fe
0.011
Total
1.000
3.2.2.3 Soil depths considered
The radiation field due to isotropic infinite plane sources was computed for 13 energies and six
depths into the soil. The monoenergetic photon energies ranged from 0.01 to 5.0 MeV. Source plane depths
included 0 and 3 mm and four depths in an energy-dependent manner; that is, corresponding to 0.2, 1.0, 2.5
and 4.0 mean free paths at the specified photon energy. These depths were chosen to facilitate an accurate
integration when determining dose rate coefficients for continuous source-depth profiles. The air-ground
interface (0 mm) source is the mathematical idealized flat plane without anything other than air over the
surface. This idealized geometry is rarely, if ever, present in the real world. Rather, there are a variety of
conditions that provide shielding from ground surface sources, including the presence of vegetation, surface
irregularities and, of course, migration of the deposited activity downward into the soil. The 3 mm source
planar often is used to provide an accounting of the reduction in the dose rate resulting from the real-world
departures (referred to as ground roughness) from a mathematical plane.
3.2.2.4 Ground roughness considerations
To account for these recognized dose-reduction conditions (collectively referred to as ground
roughness), the dose rate coefficients for exposure to a contaminated ground surface have been calculated
for an infinite planar source at a depth of 0.5 g cm"2 (equivalent to 3 mm for a soil density of 1.6 x 103 kg
m"3). The use of this relaxation mass of 0.5 g cm"2 is consistent with the results of previous studies in which
it was shown that for a 137Cs/137mBa source with this geometry, the air kerma is reduced by a factor of 0.67
compared to a plane source on the ground. This reduction corresponds to the plane source at 0.5 g cm"2 in
the ground and is applicable in the first months after a wet deposition (Jacob et al., 1990; ICRU, 1994). It
is consistent with earlier work by Jacob et al. (1986), Saito et al. (1990) and Petoussi et al. (1991) and with
the more recent work of Petoussi-Henss et al. (2012). Dose rate coefficients are provided in this report for
a contaminated planar source covered by 3 mm of soil representing ground roughness.
15
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3.2.2.5 Total soil depth
The assumed effective dimensions of the half space of soil in the simulation varies with the depth
of the ground plane. A total soil thickness of 3 mean free paths is employed for ground plane sources for
depths of 0 mm, 3 mm and 0.2 and 1.0 mean free paths. However, for source planes at depths of 2.5 and 4
mean free paths, the total soil thicknesses are 3.5 and 5 mean free paths, respectively. Photons scattered at
depths beyond the lower soil boundary are assumed to represent insignificant contributions to the dose rate
coefficients because those photons would travel a minimum of 6 mean free paths and thus undergo
significant attenuation.
3.2.2.6 Recording photons incident on the cylinder
As previously mentioned in the first step for computing the dose rate coefficients, the radiation
field incident on the cylindrical closed surface, in which the phantom is located in the second step of the
calculation, was computed using the Monte Carlo transport code MCNP6 (Goorley et al.. 2012). The
"surface source write" feature of the code was used to record the position, angle and energy of photons
incident on a coupling surface cylinder due to emission of monoenergetic photons from the ground plane
source. As the phantom was not present in this step, the same surface source write file could be used for all
reference persons. During this step, the volume inside of the coupling surface is filled with air.
Electrons liberated by photon interactions were not transported, but bremsstrahlung photons were
generated and transported using the thick target assumption model available in MCNP6. For all photon
energies and source depths, coupling cylinders 200 cm high with 30 cm radii were used. These coupling
cylinders were chosen to be as small as possible while still completely enclosing the largest phantom. The
distance between the base of the coupling cylinder and the air-soil interface was 0.01 cm. The coupling
cylinder served as a passive detector/recorder of incident photons, thus the presence of the coupling surface
did not affect the photon transport.
3.2.2.7 Geometry of the air above the soil
In all soil calculations, the maximum altitude of air was 3 mean free paths (at the source energy)
above the height of the coupling cylinder. Photons scattered in the atmosphere at a height greater than 3
mean free paths will travel more than 6 mean free paths from the source plane to reach the coupling surface
and, therefore, would not make a significant contribution to tissue dose.
3.2.3 Monoenergetic organ dose from photons in soil
Tissue dose rate coefficients in each phantom were computed using the photon fluence of the source
write file. As described earlier, the uncollided and scattered photons from isotropic plane sources of
radiation were recorded as a function of energy, angle and height above the air-ground interface. These
recorded photons then serve as the source on the coupling cylinder surrounding the phantom for the tissue
dose rate calculation. This was accomplished using the surface source read capabilities of MCNP6 in
conjunction with the surface source write data previously described. Tissue dose rate coefficients were
calculated for each combination of 13 source energies, 6 source plane depths and 6 phantoms.
16
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3.2.3.1 Irradiation geometry
Phantoms were placed individually inside the coupling cylinder with the volume between the
cylinder and phantom filled with air. The distance between the cylinder base and the phantom was less than
0.1 cm.
3.2.3.2 Calculating absorbed dose
Absorbed doses to tissues were computed using the kerma approximation. Tissue doses were
calculated as the product of photon fluence and tissue-specific kerma coefficients. This photon fluence was
calculated using the track-length estimator in MCNP6 (*F6:P tally).7 Absorbed dose rate coefficients for
active marrow and bone surface were based on a track-length estimate of skeletal fluence, combined with
ICRP skeletal fluence-to-dose response functions (Eckerman 1984; Eckerman and Cristy, 1984). Sufficient
photon histories were generated to yield an MCNP6 statistical error in muscle less than 1 percent for all
source energies. Effective dose rate coefficients are presented in this report. Organ equivalent dose rate
coefficients are available online.8
3.2.3.3 Variance reduction
Variance reduction (exponential transform path-length stretching) was employed in all materials
for several low-energy photon cases. This was done to achieve statistical convergence on the deep, heavily
shielded organs, such as the kidneys. Exponential transform path-length stretching as implemented in
MCNP6 often was used for 30, 20, 15 and 10 keV photon energies. This Monte Carlo approach improves
the performance of radiation transport calculations in highly shielded targets by simultaneously lengthening
the calculational path-length and reducing the transported photon's statistical weight to allow a larger
population of photon tracks to enter the target volume.
3.2.4 Dose rate coefficients for volumetric sources
Dose rate coefficients for volumetric sources were obtained by first interpolating the dose rate
coefficients for the six planes over soil depth and then integrating over the source volume. This allowed
determination of dose rate coefficients corresponding to thicknesses of 1,5 and 15 cm, and for an effectively
infinite source (4 mean free paths thick). For volumetric sources, the source concentration was assumed to
be uniform over the entire volume.
If hT P (E, t) cIt is the dose rate coefficient (Sv Bq 1 s"1 m2) for tissue T for a plane isotropic source
P at energy E and depth x (mean free paths), then the dose rate coefficient for a volumetric source extending
from the air-ground interface to depth L (cm) is
7 The MCNP kerma tally (*F6:P) estimates the energy deposited by photons in tissue by considering the average
photon track length, the photon energy, the tissue elemental composition and the tissue density.
8 https://www.epa.gov/radiation/federal-guidance-report-no-15-external-exposure-radionuclides-air-water-and-soil
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1
hr.ii-E) = - I hTP{E,x)dx
(2)
where u is the linear attenuation coefficient (including coherent scattering) for soil at energy E (Berger et
al., 1998). The dose rate coefficients for each organ at the six source depths were interpolated on a fine grid
using a log-linear Hermite cubic spline (Fritsch and Carlson, 1980). The interpolated data then were
numerically integrated.
3.2.5 Dose rate coefficients for electrons in soil
3.2.5.1 Electron skin dose
The contribution of electrons to dose to tissues other than skin need not be considered due to the
short range in tissue of electrons emitted by radionuclides. However, bremsstrahlung produced by electrons
slowing down in environmental media is sufficiently penetrating to contribute to the dose to underlying
tissues. Bremsstrahlung production is discussed in Appendix C. The DOSFACTER code developed by
Kocher (DOE, 1988) was used to calculate skin dose rate coefficients for a series of monoenergetic electron
emissions that were convoluted to the spectra of the various radionuclides, using the energy and intensity
of beta and electron emissions of radionuclides tabulated in ICRP Publication 107 (2008). The discussion
of the computational details, presented below, is taken from Kocher (DOE, 1988).
In the calculations performed by DOSFACTER, the transport of energy through air and into the
body was reduced to consideration of an equivalent thickness in air alone. Thus, for a height z of the body
surface above the ground and depth x into the body, the effective height z' in air above the ground is given
where pt and pa are the densities of tissue and air, respectively, and the factor 1.14 approximates the ratio
of mass stopping powers in tissue and air for any electron energy (NAS-NRC, 1964).
The electron dose rate coefficient for skin at the height z' in air above ground defined by Eq. (3)
then is given by
where the integral is over the ground surface, Ra is the ratio of mass stopping powers in tissue and air
evaluated at the emitted energy E, a denotes the ground surface, &a is the specific absorbed fraction for
electrons in air, and r is the distance from any point on the ground surface to the receptor located at height
z' in air above the ground. The factor accounts for the impenetrability of the body by electrons, so that
any point on the body surface is irradiated by only half of the source region.
by
z' = z + 1.14— x
Pa
(3)
®sfcin C^O
(4)
18
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The DOSFACTER code evaluates Eq. (4) numerically using the electron scaled point kernel, F,
developed by Berger (1974). The scaled point kernel is defined in terms of the specific absorbed fraction
0 as
F(r/r0,E) d(r/r0) = Anp4>(j,E) r2 dr
(5)
where rD is the electron range for energy E in a medium of density p. Thus, the scaling of the specific
absorbed fraction is accomplished by expressing distances in units of electron range.
Scaled point kernels in air, are obtained from those for water, l'"'\ given by Berger (1974) as
where a' is a scaling parameter that depends on the energy E. By expressing Eq. (4) in terms of the scaled
point kernel in air, the electron dose rate coefficient for skin is
where u is the scaled distance r/r0a.
The above formulations are not directly applicable to the situation where the source is uniformly
distributed within the soil. To approximate this situation, an additional term was added to Eq. (3) to convert
the depth of a planar source into its equivalent air thickness. Because of the limited range of electrons in
the soil, the source may be regarded as infinitely thick. Calculations were performed for a series of planar
sources, ranging from the surface to a depth beyond the range of the electrons. The result for a source
distributed in the volume then was approximated by superposition of the results for the planar sources. The
resulting coefficients for monoenergetic electron emitters on the surface and in the volume are seen in
Figure 3-4.
Fa(r/rg,E) = a'Fw(a'r/r0a, E)
(6)
®sfcin C^O
19
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• Surface
~ m Volume
10° 10'
Electron Energy (MeV)
Figure 3-4. Electron skin dose rate coefficients for exposure to contaminated soil.
3.2.5.2 Electron dose from bremsstrahlung
When electrons slow down in a medium, a small fraction of their initial kinetic energy is converted
into energy in the form of photons called bremsstrahlung. Some radionuclides produce bremsstrahlung that
is sufficiently penetrating to be of potential importance in the estimation of external dose. In this work, the
contribution to dose rate coefficients from bremsstrahlung has been evaluated for all exposure modes.
Bremsstrahlung energy is distributed from zero up to the initial electron energy. Although the
bremsstrahlung yield is small (only about 0.2% for a 1.0 MeV electron in air) for pure beta emitters, it can
be the only source of radiation sufficiently penetrating to irradiate deeper-lying radiosensitive tissues.
Appendix C discusses the manner in which the bremsstrahlung spectra were evaluated in this report.
The energy spectra of emitted radiations are either discrete, as in the case of gamma emissions, or
continuous, as in the case of beta particles and bremsstrahlung. The beta spectra from the ICRP Publication
107 (2008) dosimetric data file are used to evaluate the contribution of the beta particles to the skin dose
and to determine the yield of bremsstrahlung.
20
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3.3
Submersion in contaminated air
3.3.1 Summary of air calculation
Air submersion dose rate coefficients are calculated assuming an individual is exposed to uniformly
contaminated air with a monoenergetic photon emitter. The approach involves dividing the problem into
two steps:
1. Calculation of photons incident on the coupling surface similar to the soil calculation.
2. Calculation of tissue equivalent dose rate coefficients due to photons transported from the coupling
cylinder into the phantom. The effective dose rate coefficient for each reference person is derived using
the tissue weighting factors recommended in ICRP Publication 103 (2007) (Table 3-1).
3.3.2 Environmental transport of photons in air
3.3.2.1 Description of scenario
The air submersion exposure geometry involves an individual standing in a large volume of
uniformly contaminated air. It is assumed that the individual is standing on an uncontaminated flat surface
of infinite area. The source of radiation is a semi-infinite cloud containing a uniformly distributed
monoenergetic photon emitter of strength (1 Bq m"3) surrounding a human phantom standing on the air-
ground interface.
3.3.2.2 Air composition and density
The air composition given in Table 3-3 is for conditions of 40 percent relative humidity, a pressure
of 760 mmHg, a temperature of 20 °C, and a density of 1.2 kgm"3. The dose rate coefficients for submersion
can be scaled to account for a different air density. Air kerma as a function of air density is illustrated for
1 MeV photons in Figure 3-5. The functional relation between air kerma and air density is virtually
independent of photon energy.
Table 3-3. Air composition.
Element
Mass Fraction
H
0.00064
C
0.00014
N
0.75086
O
0.23555
Ar
0.01281
Total
1.00000
21
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E
CO
cr 1.6x1013
CQ
01
Q_
>•
13
01
1.2x10 13
<
9x10" 10"3 l.lxlO3 1.2xlO"3 1.3xl03 1.4xl03
Density (g/cm3)
Figure 3-5. Kerma as a function of air density for 1 MeV photons.
3.3.2.3 Computational geometry
The dose near the air-ground interface from a semi-infinite cloud source has been taken to be one-
half that due to an infinite cloud source, following the practice of Dillman (1974), Poston and Snyder
(1974), and Kocher (1981, 1983). Ryman et al. (1981) showed this to be a good approximation for air dose
(within 20%) at energies of 20 keV or greater. At energies less than 10 keV (the lowest energy considered
here), the dose at the interface should still be one-half that due to an infinite source, but there will be an
increase in dose with increasing height along the phantom. The mean free path of these photons is so short
that the upper portions of the phantom are effectively exposed to an infinite source. Between 10 and 20 keV
there will be some increase in dose with increasing height, but this has not been considered here because
the increase over the dimensions of the body should be small.
The uniformly distributed monoenergetic photon emitter in an infinite volume is simulated using a
finite geometry in the following manner. Consider a cube with side length 10 m containing an emitter of
strength 1 Bq m"3. An infinite volume is represented by setting reflective boundary conditions (Chilton et
al., 1984) on the six walls of the cube. Photons contacting the wall do not pass through, but are reflected so
that the angle of incidence is equal to the angle of reflection. No simulated photons escape; rather, they are
down-scattered and absorbed within the air of the cube. Photon energy is not affected by wall reflections.
The cylindrical coupling surface (surface source write feature of MCNP6) is placed in the middle of the
cube and records the position, angle and energy of incident photons as discussed in the soil section. The
geometry is illustrated in Figure 3-6. This method produces energy-dependent fluence nearly identical to
the deterministic method used in Federal Guidance Report No. 12 (EPA, 1993), as illustrated in Figure 3-
7. Calculations were performed for 13 monoenergetic sources, ranging from 0.01 to 5.0 MeV.
22
-------�
Coupling Surface
Problem Boundary
Figure 3-6. Geometry used for generating the air submersion coupling surface.
The dots denote source particle generated randomly within the cube.
l.o
» This report 0.1 MeV Air spectrum
FGR 12 0.1 MeV Air spectrum
0.8
>
CD
0.6
to
E
o
0.4
9-
0.2
0
0.02
0.04
0.06
0.08
0.1
Photon Energy (MeV)
Figure 3-7. Comparison of energy spectra of 0.1 MeV scattered photons for a contaminated air
source as estimated here and in Federal Guidance Report No. 12.
An air concentration of 1 Bq m~J is assumed.
23
-------�
3.3.3 Submersion monoenergetic tissue dose rate coefficients from photons
As for the ground plane sources, tissue dose rate coefficients in each phantom are computed using
the photon current of the source write file. Tissue doses were calculated as the product of a track-length
fluence estimator (MCNP6 *F6:P tally) and tissue-specific kerma coefficients. This product then is divided
by 2 to account for the semi-infinite geometry. Dose rate coefficients for active marrow and bone surface
were based on a track-length fluence estimator combined with ICRP skeletal fluence-to-dose response
functions (Cristy and Eckerman, 1987). Calculations were iterated until the MCNP6 statistical error in
muscle was less than 1 percent. Effective dose rate coefficients are tabulated in this report. Effective dose
rate coefficients and equivalent dose rate coefficients for individual organs are provided electronically.9
3.3.4 Organ dose from electrons in air
For an exposed individual standing at the boundary of a semi-infinite, uniformly contaminated
atmospheric cloud, we assume that the electron continuous-slowing-down range in air is 1 m. Therefore,
the source region is assumed to be effectively infinite in extent, and the electron dose rate coefficient at the
depth of interest in tissue (70 (.un) is given in terms of the geometrical reduction factor C/v/,„, for immersion
in contaminated water, which, according to Berger (1974), is
where pa is the density of air, Ra/a is the ratio of energy absorption in tissue to that in air at the emitted
energy E, q is the leakage correction factor, and (}sk,„ is the geometrical reduction factor. Section 3.5.3
contains a more detailed description of q and Gskm.
The energy-absorption rate Ra/a consists of two factors. The first factor is the ratio of the mass
stopping powers in tissue and air (NAS-NRC, 1964),
which is evaluated at the emitted energy E. The second factor, a, also depends on the emitted energy and
accounts for the variations in mass stopping powers in tissue and air over the continuous energy spectrum
of electrons incident on the body for a monoenergetic source of energy E in an infinite, uniformly
contaminated atmospheric cloud (Berger, 1974). Dose rate coefficients for skin calculated using the
DOSFACTER code for air submersion are shown in Figure 3-8.
9 https://www.epa.gov/radiation/federal-guidance-report-no-15-external-exposure-radionuclides-air-water-and-soil
E Ra
®skin C^O Rex' E^Gskin^E^
Pn a
Pa
(8)
(9)
24
-------�
10"
10 1 f
10 s ¦
10- r /
10^ r t
10 s r 1
10.s . . ... . *
10"' 10° 10'
Electron Energy (MeV)
Figure 3-8. Electron skin dose rate coefficient for submersion in contaminated air.
3.3.4.1 Electron dose from bremsstrahlung
In this report, the contribution to dose rate coefficients from bremsstrahlung has been evaluated for
electrons slowing down in air. Although the bremsstrahlung yield is small (about 0.2% for a 1.0 MeV
electron) for pure beta emitters, it can be the only source of radiations sufficiently penetrating to irradiate
deeper-lying radiosensitive tissues. Appendix C discusses the manner in which the bremsstrahlung spectra
were evaluated.
3.4 Immersion in contaminated water
3.4.1 Summary of the method for water immersion
Tissue dose rate coefficients for water immersion are calculated under the assumption that an
individual is completely immersed in an infinite volume of uniformly contaminated water. In contrast to air
submersion, with Monte Carlo methods it is possible to simulate an effectively infinite pool using relatively
small dimensions. This is because the linear attenuation coefficient of water is much greater than that of air.
For derivation of dose rate coefficients for monoenergetic photons for the case of immersion in contaminated
water, each phantom is placed in a relatively small container of water, source photons are generated, and
organ doses are derived. This is in contrast to the soil and air methods where photon dose rates are derived
by a two-step process. The radionuclide-specific contribution of electrons to skin dose is derived using a
point kernel method, as in the case of air submersion. The radionuclide-specific contribution of
bremsstrahlung photons from the electron source is derived by folding the monoenergetic photon dose rate
coefficients with the bremsstrahlung spectrum. Effective dose rate coefficients for the reference persons are
derived using the tissue weighting factors recommended in ICRP Publication 103 (2007) (Table 3-1).
cr
CD
®
Q.
>
CO
CL
25
-------�
Contaminated Water
\
\
Computational Phantom
Figure 3-9. Computational geometry used for water immersion for estimating the adult organ dose
rate coefficients.
3.4.2 Monoenergetic organ dose from photons in water
The source for the water immersion calculations is an infinite pool of water containing a uniformly
distributed monoenergetic photon emitter of strength 1 Bq m"3. A phantom is assumed to be completely
immersed in the pool, as illustrated m Figure 3-9. The water density is 1.0 x 103 kg rrT' and the composition
by mass fraction is 0.112 H and 0.888 O, representing pure water.
The computational phantoms are placed in a cube with 400 cm sides. This distance corresponds to
11 mean free paths for a 5 MeV photon. Monoenergetic source photons are generated uniformly in the
contaminated water. Tissue dose rate coefficients are denved using the track-length fluence estimator as
implemented in the soil and water calculation.
Although this method works for higher energies, it becomes inefficient below about 30 keV. For
these energies, the theory of reciprocity is applied (Hiller et al., 2016). All tissues that were considered as
target in the forward run were modeled as sources and the water surrounding the body is now the target.
This is possible for the case of the phantom immersed in water, where the energy absorption coefficients
of all materials (water and tissue) are approximately similar.
26
-------�
3.4.3 Organ dose from electrons in water
For immersion in an infinite, uniformly contaminated water medium, the skin dose rate coefficient
at a depth of 70 |im for a unit concentration of a monoenergetic electron emitter of energy E can be
expressed as
In this equation, pw is the density of water, Rw is the ratio of the energy absorption in tissue to energy
absorption in water at energy E, q is a leakage correction factor, and Ci±-m is a geometrical reduction factor
defined as the ratio of the absorbed dose at the depth of interest in a semi-infinite tissue medium to the
absorbed dose in the contaminated water for the energy E. The energy-absorption ratio Rw is obtained from
Because the stopping powers in tissue and water are nearly independent of energy, the ratio in Eq.
(11) is evaluated at the emitted energy. The mass stopping powers in tissue and water used in the
DOSFACTER code were reported in National Academy of Sciences-National Research Council
Publication 1133 (NAS-NRC, 1964).
The geometrical reduction factor Gsun relates the dose to skin (at a depth of 70 |im) to the dose in
water. This factor is obtained from electron-specific absorbed fractions in water calculated using Monte
Carlo methods, as described by Berger (1974). In calculations of the geometrical reduction factors, it is
assumed that a half-space occupied by water (as a surrogate for tissue) is in contact with a uniformly
contaminated half-space containing water (the source). Thus, C7,/„„ has a value of one-half at the interface
(i.e., the body surface) and decreases with increasing depth into the body. The geometrical reduction factors
used in the present calculations were derived by Berger (1974).
The leakage correction factor q accounts for the finite lateral extent of the body surface and is
given by the empirical formula (Berger, 1974):
where x is the depth of interest, here taken as 70 |_im. and the parameter a depends only on the emitted
energy E. Values of qva and q2 used in the DOSFACTER code were those given by Berger (1974). The
DOSFACTER code was used to tabulate the dose rate coefficient for the skin, esk,n (dose per unit volume
source), in water. The results are shown graphically in Figure 3-10.
eskin(E) = Rw(E)q(E)Gskin(E)
(10)
the mass stopping powers,
in tissue (7) and water (W) as
(11)
q(x,E) = 1 - q!(E)q2 (x/a)
(12)
27
-------�
10 3
10" r
10 5 ¦ jr
10s r f \
10 7 ¦ t
108 r i
109 ' ¦ ¦¦' ¦— 1—
10-' 10° 10'
Electron Energy (MeV)
Figure 3-10. Electron skin dose rate coefficient for immersion in contaminated water.
3.4.3.1 Electron dose from bremsstrahlung
In this report, the contribution to dose rate coefficients from bremsstrahlung has been evaluated for
water. Although the bremsstrahlung yield is small for pure beta emitters, it can be the only source of
radiations sufficiently penetrating to irradiate deeper-lying radiosensitive tissues. Appendix C discusses the
manner in which the bremsstrahlung spectra were evaluated in this report.
3.5 Tables of monoenergetic dose rate coefficients
Equivalent dose rate coefficients for monoenergetic photons irradiating each age-specific reference
person are available online at https://www.epa.gov/radiation/federal-guidance-report-no-15-external-
exposure-radionuclides-air-water-and-soil.
cr
m
a>
Q_
>
CO
Q_
28
-------�
CHAPTER 4. RADIONUCLIDE DOSE RATE COEFFICIENTS
4.1 Dose rate coefficients for radionuclides
As described in earlier sections, the first step in the development of external dose rate coefficients
for radionuclides is to derive dose rates to tissues for monoenergetic photon sources at 13 energies, ranging
from 0.01 to 5.0 MeV. The next step is to derive radionuclide-specific dose rate coefficients by using the
results for monoenergetic sources to construct the dose rate coefficients for the spectrum of energies for
individual radionuclides.
For nearly all radionuclides addressed in this report, external dose is due entirely to gamma and
electron emissions. For a few radionuclides, spontaneous fission also may produce penetrating radiations
of potential importance. Prompt and delayed emissions for photons and (3+ and |3" particles following
spontaneous fission are included in the decay data tabulations of ICRP Publication 107 (2008) and thus are
included in the calculations of dose rate coefficients in this report. The contribution from neutrons
accompanying spontaneous fission is not included in the dose rate coefficients tabulated in this report
because detailed information has not been assembled on the radiation field resulting from distributed
sources of neutrons in the environment. Remaining fission products also are not considered in the dose rate
coefficient calculation.
The dose rate coefficients provided in this report are based on the radiations emitted by the indicated
radionuclide and do not include the radiations emitted by radioactive decay products. Users should take
caution when applying dose rate coefficients, particularly when considering radionuclides for which decay
chain progeny are likely to have a greater contribution to dose than the parent (e.g., 90Sr, 137Cs and 222Rn).
For more information on application of the provided dose rate coefficients, see Chapter 5: Application
Considerations. For each radionuclide, radioactive decay products, if formed, are identified in Appendix A:
Nuclear Decay Data.
To facilitate application of the dose coefficients, including conversion to other units, the
coefficients are tabulated to three significant figures. No indication of the level of uncertainty, a term for
describing the lack of precision and accuracy of a given estimate, is intended or should be inferred from
this practice. A calculated dose should be rounded appropriately. For a comprehensive discussion of
uncertainties associated with estimates of dose from external exposures, see NCRP Report No. 158 (2007).
4.1.1 The ICRP Publication 107 Nuclear Decay Database
The energies and intensities of the radiations emitted in spontaneous nuclear transformations of
radionuclides are provided in ICRP Publication 107 (2008), prepared by the Japan Atomic Energy Research
Institute (JAERI) and ORNL. The nuclear decay data of Publication 107 are based on the Evaluated Nuclear
Structure Data Files (ENSDF) of the U.S. Department of Energy's Nuclear Data Project as processed with
an updated version of the EDISTR code (Dillman, 1980). The electronic data files accompanying ICRP
Publication 107 (2008) include not only the full tabulations of the energies (average or unique) and
intensities of the radiations, but also the beta spectra. The dose rate coefficients presented here for all
environmental media (air, water and soil) are based on these data.
29
-------�
4.1.1.1 Derivation of radionuclide-specific dose rate coefficients based on monoenergetic data and
radionuclide spectra
The equivalent dose rate coefficient hf for tissue T and exposure mode S can be expressed as
1 1 pCO
k$T=% nh(Ed+ J yj(E) hsT,j{EddE
j=e,y
(13)
where j{E{) is the equivalent dose rate coefficient for tissue T irradiated in exposure mode S by
monoenergetic radiation of type j and energy Ei, y/E) is the yield of discrete radiations of type j and energy
Ej, and y/E) denotes the yield of continuous radiations per nuclear transformation with energy between E
and E + dE. The outer summation is over all electron and photon emissions. Each radiation potentially has
two components: (1) the discrete energy emissions and (2) the continuous emissions. The contribution of
the radiations to the dose in tissue or organ T is defined by the quantity hj j{E{), which is tabulated as a
function of energy for tissue and organ T for each exposure mode. In the case of the discrete emissions, a
value appropriate to the energy of the discrete radiation being evaluated is obtained by interpolation. For
photons (including bremsstrahlung), these data are tabulated for 29 target tissues of the body at each of 13
monoenergetic emissions; for electrons, only the skin is irradiated. Effective dose rate coefficients for
reference persons, derived using the tissue weighting factors recommended in ICRP Publication 103 (2007)
(Table 3-1), are presented for 1,252 radionuclides in Tables 4-1 through 4-7. Effective dose rate coefficients
and equivalent dose rate coefficients for individual tissues are provided electronically.10
10 https://www.epa.gov/radiation/federal-guidance-report-no-15-external-exposure-radionuclides-air-water-and-soil
30
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface.
Explanation of entries
For each radionuclide, values for the age-dependent effective dose rate coefficients e. based on the
weighting factors of Table 3-1, are given in SI units. The coefficients are for a soil density of 1.6 x 103 kg
m3. The values in Table 4-1 account for ground roughness by assuming a 3 mm ground plane depth (see
section 3.3.2.4 for explanation). Reference person organ equivalent dose coefficients /?-, are provided
electronically.11
e: The effective dose rate coefficient (Sv Bq 1 s"1 m2), that is, the effective dose rate per
where hT is the equivalent dose rate coefficient (Sv Bq"1 s"1 m2) for tissue T.
The dose rate coefficients provided in Table 4-1 are based on the radiations emitted by the indicated
radionuclide and do not include the radiations emitted by radioactive decay products. Radioactive decay
products for each radionuclide are identified in Appendix A.
To convert from SI units (Sv Bq"1 s"1 m2) to conventional units (mrem jaCi"1 y"1 cm2), multiply table
entries by 1.168 x 1021.
The coefficients are applicable for any soil density.
planar activity concentration of the radionuclide
wT- The tissue weighting factor
T
11 https://www.epa.gov/radiation/federal-guidance-report-no-15-external-exposure-radionuclides-air-water-and-soil
31
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface.
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hydrogen
H-3
Beryllium
Be-7
Be-10
Carbon
C-10
C-ll
C-14
Nitrogen
N-13
N-16
Oxygen
0-14
0-15
0-19
Fluorine
F-17
F-18
Neon
Ne-19
Ne-24
Sodium
Na-22
Na-24
Magnesium
Mg-27
Mg-28
Aluminum
Al-26
Al-28
Al-29
Silicon
Si-31
Si-32
Phosphorus
P-30
P-32
P-33
Sulfur
S-35
S-37
S-38
Chlorine
Cl-34
Cl-34m
8.52E-22
4.17E-17
1.21E-17
1.59E-15
8.97E-16
7.83E-19
9.25E-16
2.97E-15
2.62E-15
9.79E-16
1.01E-15
9.79E-16
8.39E-16
1.02E-15
5.88E-16
1.77E-15
3.02E-15
8.37E-16
1.07E-15
2.14E-15
1.53E-15
1.23E-15
9.80E-17
1.38E-18
1.09E-15
1.18E-16
1.64E-18
7.87E-19
2.07E-15
1.31E-15
1.17E-15
1.65E-15
7.94E-22
3.93E-17
1.15E-17
1.49E-15
8.47E-16
7.29E-19
8.74E-16
2.85E-15
2.46E-15
9.27E-16
9.53E-16
9.27E-16
7.90E-16
9.66E-16
5.59E-16
1.65E-15
2.83E-15
7.86E-16
l.OOE-15
2.01E-15
1.44E-15
1.15E-15
9.60E-17
1.29E-18
1.03E-15
1.15E-16
1.53E-18
7.33E-19
1.96E-15
1.23E-15
1.11E-15
1.55E-15
7.89E-22
3.62E-17
1.14E-17
1.42E-15
7.87E-16
7.25E-19
8.14E-16
2.79E-15
2.32E-15
8.67E-16
9.24E-16
8.68E-16
7.32E-16
9.06E-16
5.29E-16
1.58E-15
2.71E-15
7.79E-16
9.72E-16
1.89E-15
1.38E-15
1.12E-15
9.57E-17
1.28E-18
9.74E-16
1.15E-16
1.52E-18
7.29E-19
1.86E-15
1.17E-15
1.05E-15
1.46E-15
7.31E-22
3.49E-17
1.08E-17
1.35E-15
7.55E-16
6.72E-19
7.82E-16
2.75E-15
2.27E-15
8.34E-16
8.91E-16
8.34E-16
7.02E-16
8.72E-16
5.10E-16
1.50E-15
2.65E-15
7.27E-16
9.19E-16
1.84E-15
1.35E-15
1.07E-15
9.38E-17
1.19E-18
9.38E-16
1.13E-16
1.41E-18
6.76E-19
1.84E-15
1.14E-15
1.01E-15
1.43E-15
6.79E-22
3.30E-17
1.03E-17
1.28E-15
7.18E-16
6.24E-19
7.44E-16
2.63E-15
2.15E-15
7.95E-16
8.30E-16
7.96E-16
6.66E-16
8.32E-16
4.86E-16
1.41E-15
2.49E-15
6.83E-16
8.55E-16
1.74E-15
1.27E-15
1.01E-15
9.21E-17
1.10E-18
8.96E-16
1.11E-16
1.31E-18
6.27E-19
1.75E-15
1.08E-15
9.67E-16
1.35E-15
6.65E-22
3.21E-17
1.01E-17
1.25E-15
7.00E-16
6.12E-19
7.26E-16
2.61E-15
2.11E-15
7.77E-16
8.18E-16
7.77E-16
6.49E-16
8.14E-16
4.76E-16
1.38E-15
2.46E-15
6.70E-16
8.38E-16
1.70E-15
1.25E-15
9.92E-16
9.16E-17
1.08E-18
8.77E-16
1.10E-16
1.28E-18
6.15E-19
1.72E-15
1.06E-15
9.47E-16
1.32E-15
32
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cl-36
2.10E-17
2.03E-17
2.02E-17
1.95E-17
1.89E-17
1.87E-17
Cl-38
1.29E-15
1.22E-15
1.17E-15
1.14E-15
1.08E-15
1.06E-15
Cl-39
1.26E-15
1.18E-15
1.15E-15
1.10E-15
1.03E-15
1.01E-15
Cl-40
3.10E-15
2.92E-15
2.80E-15
2.73E-15
2.58E-15
2.54E-15
Argon
Ar-37
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ar-39
9.80E-18
9.28E-18
9.23E-18
8.73E-18
8.27E-18
8.15E-18
Ar-41
1.06E-15
9.94E-16
9.73E-16
9.23E-16
8.63E-16
8.48E-16
Ar-42
1.20E-17
1.14E-17
1.14E-17
1.08E-17
1.03E-17
1.02E-17
Ar-43
1.38E-15
1.30E-15
1.27E-15
1.21E-15
1.14E-15
1.12E-15
Ar-44
1.54E-15
1.44E-15
1.37E-15
1.34E-15
1.25E-15
1.23E-15
Potassium
K-38
2.61E-15
2.46E-15
2.32E-15
2.26E-15
2.15E-15
2.11E-15
K-40
2.06E-16
1.96E-16
1.92E-16
1.86E-16
1.78E-16
1.76E-16
K-42
4.44E-16
4.23E-16
4.15E-16
4.02E-16
3.85E-16
3.80E-16
K-43
8.28E-16
7.78E-16
7.32E-16
7.01E-16
6.54E-16
6.39E-16
K-44
1.98E-15
1.87E-15
1.81E-15
1.74E-15
1.64E-15
1.61E-15
K-45
1.54E-15
1.45E-15
1.38E-15
1.34E-15
1.26E-15
1.24E-15
K-46
2.39E-15
2.26E-15
2.19E-15
2.11E-15
1.99E-15
1.97E-15
Calcium
Ca-41
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ca-45
1.68E-18
1.56E-18
1.55E-18
1.44E-18
1.34E-18
1.31E-18
Ca-47
8.59E-16
8.03E-16
7.84E-16
7.43E-16
6.94E-16
6.81E-16
Ca-49
2.23E-15
2.11E-15
2.01E-15
1.99E-15
1.89E-15
1.86E-15
Scandium
Sc-42m
3.54E-15
3.32E-15
3.18E-15
3.04E-15
2.86E-15
2.81E-15
Sc-43
8.81E-16
8.32E-16
7.74E-16
7.45E-16
7.06E-16
6.89E-16
Sc-44
1.82E-15
1.71E-15
1.65E-15
1.56E-15
1.47E-15
1.44E-15
Sc-44m
2.22E-16
2.06E-16
1.95E-16
1.91E-16
1.65E-16
1.62E-16
Sc-46
1.60E-15
1.49E-15
1.48E-15
1.37E-15
1.28E-15
1.25E-15
Sc-47
8.96E-17
8.80E-17
7.63E-17
7.46E-17
6.70E-17
6.61E-17
Sc-48
2.65E-15
2.47E-15
2.44E-15
2.28E-15
2.12E-15
2.08E-15
Sc-49
1.41E-16
1.38E-16
1.38E-16
1.35E-16
1.32E-16
1.32E-16
Sc-50
2.76E-15
2.59E-15
2.50E-15
2.39E-15
2.25E-15
2.21E-15
Titanium
Ti-44
1.04E-16
9.84E-17
8.61E-17
8.61E-17
7.47E-17
7.19E-17
Ti-45
7.76E-16
7.33E-16
6.82E-16
6.55E-16
6.23E-16
6.08E-16
Ti-51
4.51E-16
4.27E-16
4.11E-16
4.01E-16
3.69E-16
3.63E-16
Ti-52
2.23E-16
2.14E-16
2.04E-16
1.97E-16
1.90E-16
1.87E-16
Vanadium
V-47
9.70E-16
9.19E-16
8.60E-16
8.28E-16
7.90E-16
7.72E-16
V-48
2.32E-15
2.17E-15
2.11E-15
1.99E-15
1.86E-15
1.82E-15
V-49
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
V-50
1.09E-15
1.02E-15
9.78E-16
9.39E-16
8.80E-16
8.64E-16
V-52
1.29E-15
1.21E-15
1.18E-15
1.13E-15
1.06E-15
1.05E-15
V-53
9.96E-16
9.36E-16
9.29E-16
8.71E-16
8.17E-16
8.04E-16
33
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Chromium
Cr-48
3.52E-16
3.23E-16
3.03E-16
2.94E-16
2.63E-16
2.56E-16
Cr-49
9.73E-16
9.19E-16
8.56E-16
8.23E-16
7.82E-16
7.63E-16
Cr-51
2.60E-17
2.43E-17
2.27E-17
2.23E-17
1.96E-17
1.92E-17
Cr-55
1.87E-16
1.83E-16
1.82E-16
1.78E-16
1.74E-16
1.73E-16
Cr-56
1.60E-16
1.51E-16
1.46E-16
1.41E-16
1.35E-16
1.33E-16
Manganese
Mn-50m
3.94E-15
3.70E-15
3.57E-15
3.39E-15
3.18E-15
3.12E-15
Mn-51
9.95E-16
9.43E-16
8.85E-16
8.51E-16
8.13E-16
7.94E-16
Mn-52
2.74E-15
2.56E-15
2.49E-15
2.35E-15
2.20E-15
2.15E-15
Mn-52m
2.11E-15
1.98E-15
1.89E-15
1.81E-15
1.71E-15
1.68E-15
Mn-53
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Mn-54
6.77E-16
6.32E-16
6.23E-16
5.76E-16
5.38E-16
5.26E-16
Mn-56
1.43E-15
1.35E-15
1.31E-15
1.25E-15
1.17E-15
1.15E-15
Mn-57
2.61E-16
2.52E-16
2.47E-16
2.40E-16
2.32E-16
2.30E-16
Mn-58m
2.14E-15
2.01E-15
1.96E-15
1.86E-15
1.75E-15
1.72E-15
Iron
Fe-52
6.25E-16
5.93E-16
5.44E-16
5.25E-16
4.91E-16
4.79E-16
Fe-53
1.17E-15
1.11E-15
1.04E-15
1.00E-15
9.50E-16
9.29E-16
Fe-53m
2.40E-15
2.24E-15
2.18E-15
2.06E-15
1.92E-15
1.88E-15
Fe-55
1.25E-25
1.17E-25
1.04E-25
9.80E-26
9.21E-26
8.97E-26
Fe-59
9.34E-16
8.71E-16
8.57E-16
8.04E-16
7.47E-16
7.33E-16
Fe-60
1.21E-18
1.13E-18
1.12E-18
1.04E-18
9.68E-19
9.48E-19
Fe-61
1.27E-15
1.19E-15
1.17E-15
1.11E-15
1.04E-15
1.02E-15
Fe-62
5.65E-16
5.37E-16
5.07E-16
4.89E-16
4.68E-16
4.59E-16
Cobalt
Co-54m
3.45E-15
3.24E-15
3.12E-15
2.97E-15
2.79E-15
2.74E-15
Co-55
1.68E-15
1.58E-15
1.52E-15
1.44E-15
1.35E-15
1.32E-15
Co-56
2.77E-15
2.59E-15
2.50E-15
2.39E-15
2.24E-15
2.20E-15
Co-57
9.34E-17
8.60E-17
7.76E-17
7.29E-17
6.87E-17
6.68E-17
Co-58
7.95E-16
7.43E-16
7.24E-16
6.74E-16
6.32E-16
6.18E-16
Co-58m
2.03E-21
1.38E-21
1.02E-21
9.40E-22
6.39E-22
6.18E-22
Co-60
1.95E-15
1.82E-15
1.78E-15
1.68E-15
1.57E-15
1.54E-15
Co-60m
3.61E-18
3.36E-18
3.20E-18
3.07E-18
2.82E-18
2.76E-18
Co-61
1.41E-16
1.36E-16
1.30E-16
1.28E-16
1.18E-16
1.17E-16
Co-62
1.48E-15
1.39E-15
1.36E-15
1.30E-15
1.22E-15
1.20E-15
Co-62m
2.26E-15
2.11E-15
2.06E-15
1.96E-15
1.84E-15
1.81E-15
Nickel
Ni-56
1.38E-15
1.30E-15
1.24E-15
1.17E-15
1.09E-15
1.07E-15
Ni-57
1.53E-15
1.43E-15
1.36E-15
1.31E-15
1.23E-15
1.20E-15
Ni-59
1.30E-20
1.22E-20
1.13E-20
1.09E-20
1.03E-20
1.00E-20
Ni-63
1.02E-19
9.52E-20
9.46E-20
8.76E-20
8.14E-20
7.98E-20
Ni-65
5.30E-16
4.99E-16
4.87E-16
4.66E-16
4.39E-16
4.32E-16
Ni-66
1.56E-18
1.45E-18
1.44E-18
1.34E-18
1.24E-18
1.22E-18
Copper
Cu-57
1.50E-15
1.42E-15
1.36E-15
1.30E-15
1.24E-15
1.22E-15
34
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cu-59
1.43E-15
1.35E-15
1.28E-15
1.23E-15
1.17E-15
1.14E-15
Cu-60
3.17E-15
2.97E-15
2.84E-15
2.73E-15
2.58E-15
2.53E-15
Cu-61
7.27E-16
6.86E-16
6.43E-16
6.16E-16
5.82E-16
5.68E-16
Cu-62
1.06E-15
1.00E-15
9.42E-16
9.07E-16
8.66E-16
8.47E-16
Cu-64
1.59E-16
1.50E-16
1.40E-16
1.34E-16
1.27E-16
1.24E-16
Cu-66
2.58E-16
2.48E-16
2.47E-16
2.38E-16
2.30E-16
2.27E-16
Cu-67
9.51E-17
8.90E-17
8.14E-17
7.92E-17
6.93E-17
6.77E-17
Cu-69
5.70E-16
5.39E-16
5.31E-16
5.02E-16
4.75E-16
4.67E-16
Zinc
Zn-60
1.46E-15
1.38E-15
1.30E-15
1.25E-15
1.18E-15
1.15E-15
Zn-61
1.53E-15
1.45E-15
1.37E-15
1.32E-15
1.26E-15
1.23E-15
Zn-62
3.64E-16
3.41E-16
3.18E-16
3.04E-16
2.87E-16
2.79E-16
Zn-63
1.07E-15
1.01E-15
9.53E-16
9.14E-16
8.71E-16
8.51E-16
Zn-65
4.57E-16
4.26E-16
4.21E-16
3.93E-16
3.65E-16
3.58E-16
Zn-69
3.32E-17
3.23E-17
3.22E-17
3.14E-17
3.06E-17
3.04E-17
Zn-69m
3.48E-16
3.28E-16
3.02E-16
2.92E-16
2.74E-16
2.67E-16
Zn-71
4.34E-16
4.14E-16
4.01E-16
3.86E-16
3.69E-16
3.63E-16
Zn-71m
1.37E-15
1.29E-15
1.22E-15
1.17E-15
1.10E-15
1.07E-15
Zn-72
1.15E-16
1.13E-16
9.70E-17
9.39E-17
8.54E-17
8.40E-17
Gallium
Ga-64
2.83E-15
2.66E-15
2.55E-15
2.45E-15
2.32E-15
2.27E-15
Ga-65
1.10E-15
1.03E-15
9.72E-16
9.31E-16
8.85E-16
8.65E-16
Ga-66
1.96E-15
1.85E-15
1.77E-15
1.71E-15
1.62E-15
1.59E-15
Ga-67
1.24E-16
1.14E-16
1.06E-16
1.03E-16
9.17E-17
8.91E-17
Ga-68
9.18E-16
8.69E-16
8.16E-16
7.84E-16
7.47E-16
7.30E-16
Ga-70
1.13E-16
1.11E-16
1.10E-16
1.08E-16
1.06E-16
1.05E-16
Ga-72
2.13E-15
2.00E-15
1.92E-15
1.84E-15
1.73E-15
1.70E-15
Ga-73
3.46E-16
3.25E-16
3.10E-16
3.02E-16
2.73E-16
2.67E-16
Ga-74
2.52E-15
2.37E-15
2.26E-15
2.19E-15
2.07E-15
2.03E-15
Germanium
Ge-66
5.59E-16
5.23E-16
4.88E-16
4.70E-16
4.35E-16
4.25E-16
Ge-67
1.35E-15
1.28E-15
1.21E-15
1.16E-15
1.10E-15
1.07E-15
Ge-68
2.96E-24
2.33E-24
9.16E-25
2.56E-25
1.67E-25
1.66E-25
Ge-69
7.79E-16
7.29E-16
7.04E-16
6.65E-16
6.23E-16
6.10E-16
Ge-71
3.01E-24
2.37E-24
9.29E-25
2.60E-25
1.70E-25
1.68E-25
Ge-75
8.61E-17
8.29E-17
8.10E-17
7.95E-17
7.48E-17
7.41E-17
Ge-77
9.71E-16
9.13E-16
8.72E-16
8.39E-16
7.71E-16
7.56E-16
Ge-78
2.39E-16
2.23E-16
2.10E-16
2.07E-16
1.78E-16
1.75E-16
Arsenic
As-6 8
3.24E-15
3.05E-15
2.92E-15
2.79E-15
2.63E-15
2.58E-15
As-6 9
1.15E-15
1.08E-15
1.02E-15
9.84E-16
9.35E-16
9.16E-16
As-70
3.52E-15
3.30E-15
3.17E-15
3.02E-15
2.84E-15
2.78E-15
As-71
4.76E-16
4.50E-16
4.18E-16
4.02E-16
3.72E-16
3.64E-16
As-72
1.63E-15
1.54E-15
1.47E-15
1.40E-15
1.32E-15
1.29E-15
As-7 3
3.75E-18
3.19E-18
2.89E-18
2.79E-18
2.32E-18
2.25E-18
As-74
6.64E-16
6.25E-16
5.88E-16
5.60E-16
5.32E-16
5.19E-16
35
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
As-76
5.17E-16
4.92E-16
4.74E-16
4.55E-16
4.35E-16
4.28E-16
As-77
1.99E-17
1.90E-17
1.85E-17
1.78E-17
1.66E-17
1.64E-17
As-7 8
1.23E-15
1.15E-15
1.11E-15
1.07E-15
1.01E-15
9.89E-16
As-7 9
1.78E-16
1.73E-16
1.71E-16
1.67E-16
1.62E-16
1.61E-16
Selenium
Se-70
6.15E-16
5.78E-16
5.37E-16
5.17E-16
4.85E-16
4.73E-16
Se-71
1.54E-15
1.45E-15
1.38E-15
1.32E-15
1.25E-15
1.22E-15
Se-72
1.64E-17
1.31E-17
1.19E-17
1.14E-17
9.20E-18
8.87E-18
Se-73
9.60E-16
9.06E-16
8.41E-16
8.15E-16
7.60E-16
7.42E-16
Se-73m
2.42E-16
2.29E-16
2.14E-16
2.06E-16
1.95E-16
1.90E-16
Se-75
3.08E-16
2.89E-16
2.65E-16
2.59E-16
2.28E-16
2.23E-16
Se-77m
6.65E-17
6.53E-17
5.64E-17
5.53E-17
4.93E-17
4.86E-17
Se-79
8.71E-19
8.12E-19
8.07E-19
7.48E-19
6.94E-19
6.80E-19
Se-79m
7.14E-18
6.07E-18
5.82E-18
5.35E-18
5.11E-18
4.87E-18
Se-81
1.07E-16
1.05E-16
1.04E-16
1.02E-16
9.95E-17
9.90E-17
Se-81m
1.08E-17
9.14E-18
8.84E-18
8.13E-18
7.76E-18
7.42E-18
Se-83
2.12E-15
1.99E-15
1.90E-15
1.82E-15
1.70E-15
1.67E-15
Se-83m
9.75E-16
9.19E-16
8.97E-16
8.56E-16
8.07E-16
7.94E-16
Se-84
4.37E-16
4.15E-16
3.89E-16
3.78E-16
3.55E-16
3.48E-16
Bromine
Br-72
2.79E-15
2.63E-15
2.53E-15
2.41E-15
2.27E-15
2.23E-15
Br-73
1.40E-15
1.33E-15
1.26E-15
1.20E-15
1.14E-15
1.11E-15
Br-74
3.50E-15
3.30E-15
3.14E-15
3.05E-15
2.89E-15
2.84E-15
Br-74m
3.36E-15
3.17E-15
3.02E-15
2.90E-15
2.74E-15
2.69E-15
Br-75
1.08E-15
1.02E-15
9.53E-16
9.20E-16
8.57E-16
8.38E-16
Br-76
2.24E-15
2.11E-15
2.00E-15
1.93E-15
1.82E-15
1.79E-15
Br-76m
2.34E-17
1.99E-17
1.82E-17
1.74E-17
1.49E-17
1.45E-17
Br-77
2.59E-16
2.43E-16
2.28E-16
2.19E-16
2.01E-16
1.96E-16
Br-77m
1.15E-17
9.76E-18
9.41E-18
8.65E-18
8.27E-18
7.91E-18
Br-78
1.04E-15
9.83E-16
9.24E-16
8.88E-16
8.47E-16
8.29E-16
Br-80
1.86E-16
1.79E-16
1.75E-16
1.70E-16
1.65E-16
1.63E-16
Br-80m
7.57E-18
5.71E-18
4.75E-18
4.41E-18
3.50E-18
3.33E-18
Br-82
2.13E-15
2.00E-15
1.93E-15
1.81E-15
1.70E-15
1.67E-15
Br-82m
7.33E-18
7.04E-18
6.96E-18
6.71E-18
6.47E-18
6.40E-18
Br-83
4.04E-17
3.92E-17
3.87E-17
3.76E-17
3.66E-17
3.63E-17
Br-84
1.46E-15
1.38E-15
1.33E-15
1.29E-15
1.22E-15
1.20E-15
Br-84m
2.34E-15
2.19E-15
2.12E-15
2.02E-15
1.89E-15
1.85E-15
Br-85
2.28E-16
2.21E-16
2.19E-16
2.12E-16
2.05E-16
2.03E-16
Krypton
Kr-74
9.71E-16
9.16E-16
8.56E-16
8.24E-16
7.75E-16
7.57E-16
Kr-75
1.30E-15
1.23E-15
1.16E-15
1.11E-15
1.06E-15
1.03E-15
Kr-76
3.42E-16
3.20E-16
2.98E-16
2.90E-16
2.60E-16
2.54E-16
Kr-77
9.70E-16
9.21E-16
8.54E-16
8.21E-16
7.79E-16
7.62E-16
Kr-79
2.06E-16
1.93E-16
1.81E-16
1.74E-16
1.60E-16
1.56E-16
Kr-81
6.69E-19
6.22E-19
5.82E-19
5.75E-19
4.92E-19
4.81E-19
Kr-81m
1.03E-16
9.72E-17
8.84E-17
8.72E-17
7.42E-17
7.28E-17
36
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Kr-83m
9.12E-21
6.20E-21
4.70E-21
4.09E-21
2.93E-21
2.76E-21
Kr-85
1.91E-17
1.84E-17
1.82E-17
1.75E-17
1.68E-17
1.67E-17
Kr-85m
1.43E-16
1.39E-16
1.24E-16
1.21E-16
1.10E-16
1.09E-16
Kr-87
8.06E-16
7.64E-16
7.31E-16
7.13E-16
6.76E-16
6.65E-16
Kr-88
1.47E-15
1.38E-15
1.31E-15
1.28E-15
1.20E-15
1.18E-15
Kr-89
1.65E-15
1.56E-15
1.50E-15
1.45E-15
1.36E-15
1.34E-15
Rubidium
Rb-77
1.53E-15
1.45E-15
1.37E-15
1.32E-15
1.24E-15
1.22E-15
Rb-78
3.17E-15
3.00E-15
2.84E-15
2.76E-15
2.62E-15
2.57E-15
Rb-78m
2.78E-15
2.62E-15
2.49E-15
2.39E-15
2.26E-15
2.21E-15
Rb-79
1.32E-15
1.25E-15
1.17E-15
1.13E-15
1.06E-15
1.04E-15
Rb-80
1.31E-15
1.24E-15
1.17E-15
1.13E-15
1.08E-15
1.05E-15
Rb-81
4.33E-16
4.08E-16
3.81E-16
3.65E-16
3.45E-16
3.37E-16
Rb-81m
2.03E-17
1.89E-17
1.78E-17
1.70E-17
1.60E-17
1.56E-17
Rb-82
1.15E-15
1.09E-15
1.03E-15
9.91E-16
9.45E-16
9.25E-16
Rb-82m
2.36E-15
2.21E-15
2.13E-15
2.01E-15
1.88E-15
1.84E-15
Rb-83
4.04E-16
3.80E-16
3.53E-16
3.38E-16
3.21E-16
3.13E-16
Rb-84
7.58E-16
7.10E-16
6.89E-16
6.45E-16
6.05E-16
5.92E-16
Rb-84m
3.12E-16
2.92E-16
2.72E-16
2.66E-16
2.36E-16
2.30E-16
Rb-86
1.84E-16
1.77E-16
1.76E-16
1.69E-16
1.62E-16
1.61E-16
Rb-86m
4.56E-16
4.29E-16
4.00E-16
3.82E-16
3.63E-16
3.53E-16
Rb-87
2.98E-18
2.78E-18
2.76E-18
2.56E-18
2.38E-18
2.33E-18
Rb-88
7.94E-16
7.53E-16
7.31E-16
7.09E-16
6.75E-16
6.66E-16
Rb-89
1.85E-15
1.74E-15
1.69E-15
1.62E-15
1.52E-15
1.49E-15
Rb-90
1.67E-15
1.58E-15
1.53E-15
1.49E-15
1.41E-15
1.39E-15
Rb-90m
2.57E-15
2.42E-15
2.34E-15
2.25E-15
2.12E-15
2.09E-15
Strontium
Sr-79
1.27E-15
1.20E-15
1.13E-15
1.09E-15
1.03E-15
1.01E-15
Sr-80
3.60E-16
3.39E-16
3.16E-16
3.03E-16
2.85E-16
2.78E-16
Sr-81
1.31E-15
1.24E-15
1.16E-15
1.11E-15
1.05E-15
1.03E-15
Sr-82
2.13E-20
1.16E-20
8.47E-21
7.52E-21
2.63E-21
2.31E-21
Sr-83
6.80E-16
6.38E-16
6.08E-16
5.78E-16
5.43E-16
5.30E-16
Sr-85
4.11E-16
3.87E-16
3.59E-16
3.44E-16
3.26E-16
3.18E-16
Sr-85m
1.73E-16
1.63E-16
1.51E-16
1.49E-16
1.26E-16
1.23E-16
Sr-87m
2.65E-16
2.49E-16
2.30E-16
2.24E-16
2.05E-16
2.00E-16
Sr-89
9.53E-17
9.34E-17
9.31E-17
9.13E-17
8.96E-17
8.91E-17
Sr-90
7.96E-18
7.51E-18
7.47E-18
7.03E-18
6.63E-18
6.52E-18
Sr-91
6.71E-16
6.30E-16
6.20E-16
5.82E-16
5.48E-16
5.38E-16
Sr-92
1.04E-15
9.75E-16
9.47E-16
9.01E-16
8.41E-16
8.26E-16
Sr-93
1.90E-15
1.79E-15
1.72E-15
1.64E-15
1.54E-15
1.51E-15
Sr-94
1.24E-15
1.16E-15
1.13E-15
1.08E-15
1.02E-15
1.00E-15
Yttrium
Y-81
1.27E-15
1.20E-15
1.13E-15
1.09E-15
1.03E-15
1.01E-15
Y-83
1.31E-15
1.24E-15
1.17E-15
1.13E-15
1.07E-15
1.05E-15
Y-83m
8.22E-16
7.77E-16
7.29E-16
7.05E-16
6.61E-16
6.47E-16
Y-84m
3.41E-15
3.20E-15
3.10E-15
2.92E-15
2.74E-15
2.68E-15
37
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Y-85
9.79E-16
9.24E-16
8.66E-16
8.30E-16
7.89E-16
7.70E-16
Y-85m
1.15E-15
1.08E-15
1.03E-15
9.87E-16
9.32E-16
9.13E-16
Y-86
2.84E-15
2.66E-15
2.57E-15
2.44E-15
2.28E-15
2.24E-15
Y-86m
1.77E-16
1.66E-16
1.54E-16
1.52E-16
1.29E-16
1.26E-16
Y-87
3.66E-16
3.45E-16
3.18E-16
3.06E-16
2.90E-16
2.82E-16
Y-87m
2.54E-16
2.38E-16
2.20E-16
2.15E-16
1.97E-16
1.92E-16
Y-88
2.04E-15
1.91E-15
1.84E-15
1.76E-15
1.66E-15
1.63E-15
Y-89m
7.26E-16
6.77E-16
6.72E-16
6.21E-16
5.77E-16
5.66E-16
Y-90
1.58E-16
1.54E-16
1.54E-16
1.50E-16
1.47E-16
1.47E-16
Y-90m
5.26E-16
4.96E-16
4.57E-16
4.43E-16
4.06E-16
3.96E-16
Y-91
1.01E-16
9.92E-17
9.89E-17
9.69E-17
9.49E-17
9.44E-17
Y-91m
4.43E-16
4.17E-16
3.89E-16
3.72E-16
3.53E-16
3.44E-16
Y-92
4.32E-16
4.12E-16
4.07E-16
3.90E-16
3.73E-16
3.68E-16
Y-93
2.68E-16
2.58E-16
2.54E-16
2.48E-16
2.38E-16
2.36E-16
Y-94
8.94E-16
8.45E-16
8.33E-16
7.90E-16
7.47E-16
7.35E-16
Y-95
1.01E-15
9.57E-16
9.24E-16
8.98E-16
8.51E-16
8.40E-16
Zirconium
Zr-85
1.43E-15
1.35E-15
1.27E-15
1.23E-15
1.16E-15
1.14E-15
Zr-86
2.22E-16
2.07E-16
1.93E-16
1.90E-16
1.63E-16
1.60E-16
Zr-87
9.09E-16
8.61E-16
8.10E-16
7.79E-16
7.42E-16
7.26E-16
Zr-88
3.18E-16
2.98E-16
2.76E-16
2.68E-16
2.47E-16
2.40E-16
Zr-89
9.43E-16
8.82E-16
8.63E-16
8.04E-16
7.51E-16
7.35E-16
Zr-89m
5.24E-16
4.93E-16
4.64E-16
4.42E-16
4.19E-16
4.09E-16
Zr-93
1.21E-19
1.13E-19
1.12E-19
1.04E-19
9.64E-20
9.45E-20
Zr-95
6.03E-16
5.64E-16
5.48E-16
5.11E-16
4.79E-16
4.69E-16
Zr-97
8.36E-16
7.87E-16
7.66E-16
7.22E-16
6.82E-16
6.69E-16
Niobium
Nb-87
1.27E-15
1.21E-15
1.13E-15
1.09E-15
1.03E-15
1.01E-15
Nb-88
3.64E-15
3.41E-15
3.29E-15
3.11E-15
2.92E-15
2.86E-15
Nb-88m
3.53E-15
3.31E-15
3.19E-15
3.03E-15
2.84E-15
2.78E-15
Nb-89
1.25E-15
1.18E-15
1.12E-15
1.08E-15
1.03E-15
1.01E-15
Nb-89m
1.22E-15
1.16E-15
1.08E-15
1.04E-15
9.89E-16
9.66E-16
Nb-90
3.21E-15
3.02E-15
2.87E-15
2.78E-15
2.61E-15
2.57E-15
Nb-91
1.50E-18
1.36E-18
1.25E-18
1.21E-18
1.10E-18
1.07E-18
Nb-91m
1.97E-17
1.83E-17
1.80E-17
1.69E-17
1.56E-17
1.53E-17
Nb-92
1.22E-15
1.14E-15
1.11E-15
1.03E-15
9.68E-16
9.46E-16
Nb-92m
7.68E-16
7.16E-16
7.11E-16
6.58E-16
6.11E-16
5.99E-16
Nb-93m
4.42E-20
2.91E-20
2.43E-20
2.43E-20
1.13E-20
1.09E-20
Nb-94
1.27E-15
1.19E-15
1.16E-15
1.08E-15
1.01E-15
9.90E-16
Nb-94m
4.04E-18
3.73E-18
3.67E-18
3.43E-18
3.16E-18
3.09E-18
Nb-95
6.25E-16
5.84E-16
5.70E-16
5.30E-16
4.97E-16
4.86E-16
Nb-95m
5.34E-17
4.99E-17
4.68E-17
4.63E-17
3.93E-17
3.85E-17
Nb-96
2.01E-15
1.88E-15
1.82E-15
1.71E-15
1.60E-15
1.56E-15
Nb-97
6.17E-16
5.82E-16
5.59E-16
5.28E-16
5.01E-16
4.90E-16
Nb-98m
2.37E-15
2.22E-15
2.15E-15
2.03E-15
1.91E-15
1.87E-15
Nb-99
3.66E-16
3.53E-16
3.37E-16
3.26E-16
3.13E-16
3.09E-16
38
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Nb-99m
7.78E-16
7.37E-16
7.10E-16
6.91E-16
6.57E-16
6.47E-16
Molybdenum
Mo-89
1.31E-15
1.24E-15
1.18E-15
1.13E-15
1.08E-15
1.05E-15
Mo-90
6.80E-16
6.36E-16
5.98E-16
5.76E-16
5.27E-16
5.15E-16
Mo-91
1.05E-15
9.96E-16
9.39E-16
9.04E-16
8.64E-16
8.45E-16
Mo-91m
1.21E-15
1.13E-15
1.08E-15
1.03E-15
9.76E-16
9.56E-16
Mo-93
2.47E-19
1.63E-19
1.36E-19
1.36E-19
6.30E-20
6.10E-20
Mo-93m
1.82E-15
1.70E-15
1.63E-15
1.56E-15
1.45E-15
1.42E-15
Mo-99
1.73E-16
1.64E-16
1.60E-16
1.52E-16
1.44E-16
1.42E-16
Mo-101
1.23E-15
1.15E-15
1.11E-15
1.06E-15
9.92E-16
9.74E-16
Mo-102
5.55E-17
5.38E-17
5.23E-17
5.12E-17
4.86E-17
4.82E-17
Technetium
Tc-91
2.18E-15
2.06E-15
1.95E-15
1.89E-15
1.79E-15
1.76E-15
Tc-91m
1.47E-15
1.39E-15
1.32E-15
1.26E-15
1.20E-15
1.18E-15
Tc-92
3.31E-15
3.12E-15
2.97E-15
2.85E-15
2.67E-15
2.62E-15
Tc-93
1.21E-15
1.13E-15
1.09E-15
1.04E-15
9.72E-16
9.55E-16
Tc-93m
6.99E-16
6.57E-16
6.19E-16
6.06E-16
5.69E-16
5.58E-16
Tc-94
2.16E-15
2.02E-15
1.97E-15
1.83E-15
1.71E-15
1.68E-15
Tc-94m
1.69E-15
1.59E-15
1.53E-15
1.45E-15
1.37E-15
1.34E-15
Tc-95
6.40E-16
5.98E-16
5.84E-16
5.43E-16
5.08E-16
4.97E-16
Tc-95m
5.52E-16
5.17E-16
4.96E-16
4.68E-16
4.31E-16
4.21E-16
Tc-96
2.02E-15
1.89E-15
1.85E-15
1.72E-15
1.61E-15
1.57E-15
Tc-96m
3.35E-17
3.12E-17
3.04E-17
2.85E-17
2.66E-17
2.60E-17
Tc-97
3.77E-19
2.59E-19
2.12E-19
2.12E-19
1.04E-19
1.01E-19
Tc-97m
6.63E-19
5.02E-19
4.25E-19
4.25E-19
2.93E-19
2.82E-19
Tc-98
1.17E-15
1.09E-15
1.05E-15
9.85E-16
9.26E-16
9.05E-16
Tc-99
2.52E-18
2.35E-18
2.33E-18
2.16E-18
2.01E-18
1.97E-18
Tc-99m
9.66E-17
9.51E-17
8.08E-17
7.78E-17
7.18E-17
7.06E-17
Tc-101
3.44E-16
3.25E-16
3.08E-16
3.01E-16
2.73E-16
2.68E-16
Tc-102
3.68E-16
3.55E-16
3.50E-16
3.40E-16
3.28E-16
3.25E-16
Tc-102m
2.05E-15
1.93E-15
1.84E-15
1.77E-15
1.67E-15
1.64E-15
Tc-104
1.96E-15
1.84E-15
1.76E-15
1.71E-15
1.60E-15
1.58E-15
Tc-105
8.31E-16
7.87E-16
7.53E-16
7.27E-16
6.82E-16
6.71E-16
Ruthenium
Ru-92
1.76E-15
1.65E-15
1.56E-15
1.51E-15
1.39E-15
1.36E-15
Ru-94
4.15E-16
3.88E-16
3.71E-16
3.53E-16
3.24E-16
3.16E-16
Ru-95
9.97E-16
9.33E-16
8.94E-16
8.52E-16
7.90E-16
7.73E-16
Ru-97
1.84E-16
1.72E-16
1.60E-16
1.58E-16
1.34E-16
1.31E-16
Ru-103
4.16E-16
3.92E-16
3.63E-16
3.48E-16
3.30E-16
3.21E-16
Ru-105
6.68E-16
6.28E-16
6.03E-16
5.71E-16
5.35E-16
5.24E-16
Ru-106
2.16E-20
2.01E-20
2.00E-20
1.85E-20
1.72E-20
1.69E-20
Ru-107
4.54E-16
4.31E-16
4.21E-16
4.04E-16
3.83E-16
3.78E-16
Ru-108
1.16E-16
1.13E-16
1.07E-16
1.05E-16
9.94E-17
9.85E-17
Rhodium
Rh-94
3.40E-15
3.20E-15
3.07E-15
2.94E-15
2.77E-15
2.72E-15
Rh-95
2.16E-15
2.03E-15
1.95E-15
1.86E-15
1.75E-15
1.71E-15
39
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Rh-95m
7.10E-16
6.70E-16
6.32E-16
6.09E-16
5.78E-16
5.66E-16
Rh-96
3.29E-15
3.09E-15
2.96E-15
2.81E-15
2.64E-15
2.59E-15
Rh-96m
1.10E-15
1.03E-15
9.89E-16
9.44E-16
8.90E-16
8.72E-16
Rh-97
1.26E-15
1.19E-15
1.12E-15
1.07E-15
1.01E-15
9.91E-16
Rh-97m
1.68E-15
1.57E-15
1.49E-15
1.45E-15
1.36E-15
1.33E-15
Rh-98
1.70E-15
1.61E-15
1.52E-15
1.46E-15
1.38E-15
1.35E-15
Rh-99
4.49E-16
4.19E-16
3.92E-16
3.77E-16
3.50E-16
3.41E-16
Rh-99m
5.22E-16
4.89E-16
4.63E-16
4.44E-16
4.09E-16
3.99E-16
Rh-100
2.09E-15
1.96E-15
1.86E-15
1.80E-15
1.69E-15
1.66E-15
Rh-lOOm
3.71E-17
3.42E-17
3.18E-17
3.07E-17
2.82E-17
2.75E-17
Rh-101
2.18E-16
2.04E-16
1.86E-16
1.81E-16
1.59E-16
1.55E-16
Rh-lOlm
2.25E-16
2.10E-16
1.96E-16
1.93E-16
1.69E-16
1.65E-16
Rh-102
4.36E-16
4.11E-16
3.85E-16
3.69E-16
3.49E-16
3.41E-16
Rh-102m
1.75E-15
1.64E-15
1.57E-15
1.48E-15
1.39E-15
1.36E-15
Rh-103m
1.39E-19
9.89E-20
7.59E-20
7.59E-20
4.45E-20
4.34E-20
Rh-104
1.77E-16
1.73E-16
1.72E-16
1.68E-16
1.64E-16
1.63E-16
Rh-104m
2.17E-17
1.82E-17
1.65E-17
1.59E-17
1.33E-17
1.29E-17
Rh-105
6.88E-17
6.43E-17
6.03E-17
5.91E-17
5.22E-17
5.11E-17
Rh-106
4.00E-16
3.83E-16
3.73E-16
3.60E-16
3.47E-16
3.43E-16
Rh-106m
2.33E-15
2.18E-15
2.10E-15
1.99E-15
1.86E-15
1.82E-15
Rh-107
3.18E-16
3.00E-16
2.84E-16
2.78E-16
2.51E-16
2.47E-16
Rh-108
5.50E-16
5.26E-16
5.07E-16
4.91E-16
4.70E-16
4.63E-16
Rh-109
4.00E-16
3.81E-16
3.64E-16
3.57E-16
3.30E-16
3.25E-16
Palladium
Pd-96
1.20E-15
1.12E-15
1.07E-15
1.01E-15
9.52E-16
9.31E-16
Pd-97
1.99E-15
1.87E-15
1.78E-15
1.71E-15
1.60E-15
1.57E-15
Pd-98
3.24E-16
2.99E-16
2.86E-16
2.69E-16
2.52E-16
2.45E-16
Pd-99
1.09E-15
1.03E-15
9.70E-16
9.32E-16
8.77E-16
8.59E-16
Pd-100
7.53E-17
6.88E-17
6.11E-17
5.94E-17
5.30E-17
5.10E-17
Pd-101
2.69E-16
2.51E-16
2.38E-16
2.28E-16
2.10E-16
2.05E-16
Pd-103
1.26E-18
9.06E-19
7.01E-19
7.01E-19
4.18E-19
4.09E-19
Pd-107
1.70E-20
1.59E-20
1.58E-20
1.46E-20
1.36E-20
1.33E-20
Pd-109
4.74E-17
4.58E-17
4.53E-17
4.41E-17
4.29E-17
4.25E-17
Pd-109m
8.45E-17
8.01E-17
7.27E-17
7.17E-17
6.10E-17
5.98E-17
Pd-111
1.81E-16
1.76E-16
1.74E-16
1.69E-16
1.64E-16
1.63E-16
Pd-112
1.88E-18
1.71E-18
1.66E-18
1.56E-18
1.39E-18
1.37E-18
Pd-114
1.04E-16
1.01E-16
9.88E-17
9.68E-17
9.32E-17
9.24E-17
Silver
Ag-99
2.05E-15
1.93E-15
1.84E-15
1.76E-15
1.66E-15
1.62E-15
Ag-lOOm
2.56E-15
2.41E-15
2.30E-15
2.20E-15
2.08E-15
2.04E-15
Ag-101
1.41E-15
1.33E-15
1.26E-15
1.21E-15
1.14E-15
1.11E-15
Ag-102
2.83E-15
2.66E-15
2.54E-15
2.43E-15
2.29E-15
2.25E-15
Ag-102m
1.56E-15
1.47E-15
1.39E-15
1.35E-15
1.28E-15
1.25E-15
Ag-103
7.00E-16
6.57E-16
6.22E-16
5.94E-16
5.55E-16
5.43E-16
Ag-104
2.18E-15
2.04E-15
1.97E-15
1.86E-15
1.74E-15
1.70E-15
Ag-104m
1.55E-15
1.46E-15
1.38E-15
1.33E-15
1.26E-15
1.23E-15
40
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ag-105
4.08E-16
3.82E-16
3.58E-16
3.46E-16
3.14E-16
3.06E-16
Ag-105m
8.12E-19
7.58E-19
7.14E-19
6.92E-19
6.20E-19
6.06E-19
Ag-106
6.65E-16
6.30E-16
5.89E-16
5.67E-16
5.40E-16
5.28E-16
Ag-106m
2.25E-15
2.11E-15
2.02E-15
1.91E-15
1.79E-15
1.75E-15
Ag-108
1.15E-16
1.12E-16
1.11E-16
1.09E-16
1.06E-16
1.05E-16
Ag-108m
1.33E-15
1.25E-15
1.18E-15
1.12E-15
1.05E-15
1.03E-15
Ag-109m
3.49E-18
2.86E-18
2.54E-18
2.38E-18
2.08E-18
1.99E-18
Ag-110
2.23E-16
2.16E-16
2.14E-16
2.09E-16
2.03E-16
2.02E-16
Ag-llOm
2.22E-15
2.08E-15
2.02E-15
1.89E-15
1.77E-15
1.74E-15
Ag-111
6.36E-17
6.11E-17
5.96E-17
5.83E-17
5.53E-17
5.47E-17
Ag-lllm
3.44E-18
3.08E-18
2.80E-18
2.72E-18
2.36E-18
2.31E-18
Ag-112
7.58E-16
7.18E-16
6.93E-16
6.67E-16
6.35E-16
6.24E-16
Ag-113
1.87E-16
1.80E-16
1.77E-16
1.73E-16
1.65E-16
1.64E-16
Ag-113m
2.05E-16
1.93E-16
1.83E-16
1.77E-16
1.63E-16
1.60E-16
Ag-114
5.30E-16
5.07E-16
4.94E-16
4.78E-16
4.59E-16
4.53E-16
Ag-115
5.48E-16
5.20E-16
5.01E-16
4.87E-16
4.60E-16
4.53E-16
Ag-116
1.88E-15
1.78E-15
1.70E-15
1.65E-15
1.56E-15
1.53E-15
Ag-117
1.17E-15
1.10E-15
1.05E-15
1.03E-15
9.69E-16
9.54E-16
Cadmium
Cd-101
2.12E-15
1.99E-15
1.89E-15
1.82E-15
1.72E-15
1.68E-15
Cd-102
6.83E-16
6.41E-16
6.04E-16
5.76E-16
5.41E-16
5.28E-16
Cd-103
1.64E-15
1.54E-15
1.47E-15
1.42E-15
1.33E-15
1.31E-15
Cd-104
1.89E-16
1.76E-16
1.66E-16
1.57E-16
1.47E-16
1.43E-16
Cd-105
1.04E-15
9.73E-16
9.27E-16
8.92E-16
8.40E-16
8.23E-16
Cd-107
1.04E-17
8.68E-18
7.81E-18
7.36E-18
6.43E-18
6.22E-18
Cd-109
5.50E-18
4.24E-18
3.56E-18
3.38E-18
2.69E-18
2.59E-18
Cd-lllm
2.22E-16
2.08E-16
1.92E-16
1.89E-16
1.61E-16
1.58E-16
Cd-113
2.25E-18
2.10E-18
2.08E-18
1.93E-18
1.79E-18
1.76E-18
Cd-113m
7.63E-18
7.21E-18
7.16E-18
6.76E-18
6.38E-18
6.29E-18
Cd-115
1.95E-16
1.85E-16
1.74E-16
1.67E-16
1.59E-16
1.56E-16
Cd-115m
1.25E-16
1.21E-16
1.21E-16
1.17E-16
1.14E-16
1.13E-16
Cd-117
9.05E-16
8.47E-16
8.19E-16
7.83E-16
7.27E-16
7.14E-16
Cd-117m
1.57E-15
1.47E-15
1.42E-15
1.36E-15
1.27E-15
1.25E-15
Cd-118
5.46E-18
5.11E-18
5.08E-18
4.74E-18
4.43E-18
4.35E-18
Cd-119
1.38E-15
1.29E-15
1.24E-15
1.20E-15
1.12E-15
1.10E-15
Cd-119m
1.87E-15
1.75E-15
1.69E-15
1.62E-15
1.53E-15
1.50E-15
Indium
In-103
2.40E-15
2.26E-15
2.16E-15
2.07E-15
1.95E-15
1.91E-15
In-105
1.71E-15
1.61E-15
1.52E-15
1.46E-15
1.38E-15
1.35E-15
In-106
3.07E-15
2.88E-15
2.78E-15
2.62E-15
2.47E-15
2.41E-15
In-106m
2.45E-15
2.31E-15
2.19E-15
2.11E-15
2.00E-15
1.96E-15
In-107
1.24E-15
1.17E-15
1.10E-15
1.07E-15
9.98E-16
9.78E-16
In-108
3.14E-15
2.94E-15
2.85E-15
2.68E-15
2.50E-15
2.45E-15
In-108m
2.17E-15
2.05E-15
1.94E-15
1.88E-15
1.78E-15
1.75E-15
In-109
5.06E-16
4.73E-16
4.49E-16
4.30E-16
3.93E-16
3.84E-16
In-109m
5.08E-16
4.77E-16
4.55E-16
4.29E-16
4.05E-16
3.96E-16
41
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
In-110
2.50E-15
2.34E-15
2.28E-15
2.13E-15
1.99E-15
1.95E-15
In-110m
1.38E-15
1.30E-15
1.23E-15
1.18E-15
1.12E-15
1.09E-15
In-Ill
3.11E-16
2.93E-16
2.67E-16
2.64E-16
2.26E-16
2.21E-16
In-lllm
3.98E-16
3.75E-16
3.49E-16
3.34E-16
3.17E-16
3.09E-16
In-112
2.49E-16
2.35E-16
2.21E-16
2.12E-16
2.02E-16
1.97E-16
In-112m
1.85E-17
1.75E-17
1.47E-17
1.43E-17
1.26E-17
1.24E-17
In-113m
2.13E-16
1.99E-16
1.84E-16
1.79E-16
1.65E-16
1.60E-16
In-114
1.34E-16
1.31E-16
1.30E-16
1.28E-16
1.25E-16
1.24E-16
In-114m
5.97E-17
5.58E-17
5.20E-17
4.99E-17
4.50E-17
4.40E-17
In-115
4.88E-18
4.57E-18
4.54E-18
4.22E-18
3.94E-18
3.86E-18
In-115m
1.30E-16
1.21E-16
1.12E-16
1.10E-16
9.80E-17
9.57E-17
In-116m
1.95E-15
1.82E-15
1.77E-15
1.68E-15
1.57E-15
1.54E-15
In-117
5.85E-16
5.55E-16
5.11E-16
4.90E-16
4.61E-16
4.50E-16
In-117m
1.28E-16
1.23E-16
1.17E-16
1.14E-16
1.06E-16
1.05E-16
In-118
3.55E-16
3.42E-16
3.39E-16
3.29E-16
3.17E-16
3.14E-16
In-118m
2.30E-15
2.15E-15
2.11E-15
1.99E-15
1.86E-15
1.82E-15
In-119
7.23E-16
6.80E-16
6.65E-16
6.24E-16
5.88E-16
5.77E-16
In-119m
2.20E-16
2.13E-16
2.11E-16
2.05E-16
1.98E-16
1.97E-16
In-121
9.13E-16
8.59E-16
8.51E-16
7.97E-16
7.48E-16
7.35E-16
In-121m
2.86E-16
2.76E-16
2.72E-16
2.65E-16
2.56E-16
2.54E-16
Tin
Sn-106
9.87E-16
9.24E-16
8.80E-16
8.37E-16
7.76E-16
7.59E-16
Sn-108
5.48E-16
5.12E-16
4.79E-16
4.62E-16
4.21E-16
4.11E-16
Sn-109
1.69E-15
1.58E-15
1.52E-15
1.46E-15
1.36E-15
1.34E-15
Sn-110
2.26E-16
2.10E-16
1.96E-16
1.93E-16
1.66E-16
1.62E-16
Sn-111
4.20E-16
3.95E-16
3.72E-16
3.57E-16
3.38E-16
3.31E-16
Sn-113
7.96E-18
6.52E-18
5.62E-18
5.45E-18
4.33E-18
4.22E-18
Sn-113m
3.31E-18
2.35E-18
1.77E-18
1.64E-18
1.19E-18
1.15E-18
Sn-117m
1.12E-16
1.09E-16
9.34E-17
9.14E-17
8.16E-17
8.05E-17
Sn-119m
3.11E-18
2.13E-18
1.58E-18
1.45E-18
9.99E-19
9.64E-19
Sn-121
3.13E-18
2.91E-18
2.89E-18
2.68E-18
2.49E-18
2.44E-18
Sn-121m
2.26E-18
1.77E-18
1.51E-18
1.38E-18
1.15E-18
1.11E-18
Sn-123
8.76E-17
8.55E-17
8.53E-17
8.34E-17
8.15E-17
8.11E-17
Sn-123m
1.74E-16
1.71E-16
1.56E-16
1.53E-16
1.42E-16
1.41E-16
Sn-125
3.96E-16
3.75E-16
3.70E-16
3.52E-16
3.34E-16
3.29E-16
Sn-125m
4.19E-16
3.98E-16
3.80E-16
3.72E-16
3.43E-16
3.37E-16
Sn-126
4.02E-17
3.53E-17
3.23E-17
3.04E-17
2.79E-17
2.67E-17
Sn-127
1.56E-15
1.46E-15
1.42E-15
1.35E-15
1.26E-15
1.23E-15
Sn-127m
6.54E-16
6.21E-16
5.91E-16
5.71E-16
5.45E-16
5.35E-16
Sn-128
4.86E-16
4.55E-16
4.21E-16
4.03E-16
3.78E-16
3.68E-16
Sn-129
1.02E-15
9.61E-16
9.30E-16
8.85E-16
8.39E-16
8.23E-16
Sn-130
8.10E-16
7.61E-16
7.29E-16
6.92E-16
6.37E-16
6.24E-16
Sn-130m
9.19E-16
8.67E-16
8.44E-16
8.03E-16
7.57E-16
7.45E-16
Antimony
Sb-111
1.44E-15
1.36E-15
1.28E-15
1.23E-15
1.16E-15
1.14E-15
Sb-113
1.17E-15
1.10E-15
1.04E-15
9.95E-16
9.43E-16
9.22E-16
42
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sb-114
2.33E-15
2.18E-15
2.10E-15
2.00E-15
1.89E-15
1.85E-15
Sb-115
7.71E-16
7.27E-16
6.76E-16
6.49E-16
6.16E-16
6.01E-16
Sb-116
1.86E-15
1.75E-15
1.68E-15
1.61E-15
1.51E-15
1.48E-15
Sb-116m
2.47E-15
2.30E-15
2.23E-15
2.10E-15
1.96E-15
1.92E-15
Sb-117
1.34E-16
1.29E-16
1.12E-16
1.09E-16
9.84E-17
9.68E-17
Sb-118
8.14E-16
7.71E-16
7.26E-16
6.98E-16
6.66E-16
6.51E-16
Sb-118m
2.04E-15
1.90E-15
1.86E-15
1.75E-15
1.61E-15
1.58E-15
Sb-119
5.15E-18
3.54E-18
2.61E-18
2.39E-18
1.67E-18
1.61E-18
Sb-120
4.22E-16
3.99E-16
3.74E-16
3.59E-16
3.42E-16
3.34E-16
Sb-120m
1.93E-15
1.80E-15
1.77E-15
1.65E-15
1.53E-15
1.50E-15
Sb-122
4.58E-16
4.34E-16
4.12E-16
3.95E-16
3.77E-16
3.69E-16
Sb-122m
4.15E-17
3.75E-17
3.20E-17
3.18E-17
2.68E-17
2.58E-17
Sb-124
1.50E-15
1.41E-15
1.34E-15
1.29E-15
1.21E-15
1.19E-15
Sb-124m
3.80E-16
3.57E-16
3.37E-16
3.21E-16
3.04E-16
2.97E-16
Sb-124n
1.97E-22
1.35E-22
9.95E-23
9.00E-23
6.36E-23
6.13E-23
Sb-125
3.58E-16
3.36E-16
3.13E-16
2.99E-16
2.80E-16
2.73E-16
Sb-126
2.31E-15
2.16E-15
2.07E-15
1.95E-15
1.84E-15
1.80E-15
Sb-126m
1.38E-15
1.30E-15
1.24E-15
1.18E-15
1.11E-15
1.09E-15
Sb-127
6.03E-16
5.67E-16
5.41E-16
5.12E-16
4.81E-16
4.70E-16
Sb-128
2.60E-15
2.44E-15
2.35E-15
2.21E-15
2.07E-15
2.02E-15
Sb-128m
1.72E-15
1.61E-15
1.56E-15
1.47E-15
1.38E-15
1.35E-15
Sb-129
1.21E-15
1.14E-15
1.11E-15
1.04E-15
9.75E-16
9.56E-16
Sb-130
2.75E-15
2.58E-15
2.50E-15
2.36E-15
2.19E-15
2.15E-15
Sb-130m
2.35E-15
2.20E-15
2.16E-15
2.02E-15
1.89E-15
1.85E-15
Sb-131
1.71E-15
1.60E-15
1.56E-15
1.48E-15
1.38E-15
1.36E-15
Sb-133
2.20E-15
2.06E-15
1.99E-15
1.91E-15
1.79E-15
1.76E-15
Tellurium
Te-113
2.03E-15
1.91E-15
1.83E-15
1.75E-15
1.66E-15
1.62E-15
Te-114
1.01E-15
9.43E-16
9.00E-16
8.62E-16
8.06E-16
7.90E-16
Te-115
1.92E-15
1.81E-15
1.73E-15
1.65E-15
1.55E-15
1.52E-15
Te-115m
2.17E-15
2.03E-15
1.95E-15
1.86E-15
1.75E-15
1.72E-15
Te-116
7.34E-17
6.46E-17
6.02E-17
5.62E-17
5.23E-17
5.06E-17
Te-117
1.25E-15
1.17E-15
1.12E-15
1.07E-15
1.00E-15
9.84E-16
Te-118
5.41E-18
3.77E-18
2.78E-18
2.50E-18
1.82E-18
1.74E-18
Te-119
6.17E-16
5.77E-16
5.49E-16
5.19E-16
4.89E-16
4.78E-16
Te-119m
1.17E-15
1.09E-15
1.06E-15
9.99E-16
9.24E-16
9.06E-16
Te-121
4.69E-16
4.40E-16
4.11E-16
3.91E-16
3.70E-16
3.61E-16
Te-121m
1.67E-16
1.55E-16
1.44E-16
1.41E-16
1.20E-16
1.18E-16
Te-123
9.41E-21
6.56E-21
4.83E-21
4.34E-21
3.16E-21
3.03E-21
Te-123m
1.07E-16
1.04E-16
8.93E-17
8.73E-17
7.79E-17
7.68E-17
Te-125m
1.16E-17
8.30E-18
6.25E-18
5.61E-18
4.25E-18
4.06E-18
Te-127
1.75E-17
1.68E-17
1.64E-17
1.58E-17
1.50E-17
1.48E-17
Te-127m
4.11E-18
3.09E-18
2.45E-18
2.24E-18
1.80E-18
1.74E-18
Te-129
1.30E-16
1.25E-16
1.22E-16
1.18E-16
1.14E-16
1.13E-16
Te-129m
6.08E-17
5.78E-17
5.64E-17
5.42E-17
5.21E-17
5.14E-17
Te-131
4.48E-16
4.29E-16
4.06E-16
3.90E-16
3.68E-16
3.62E-16
43
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Te-131m
1.17E-15
1.09E-15
1.06E-15
9.98E-16
9.28E-16
9.09E-16
Te-132
1.79E-16
1.64E-16
1.52E-16
1.50E-16
1.26E-16
1.23E-16
Te-133
1.05E-15
9.89E-16
9.51E-16
9.13E-16
8.51E-16
8.35E-16
Te-133m
1.52E-15
1.42E-15
1.38E-15
1.30E-15
1.22E-15
1.19E-15
Te-134
7.18E-16
6.72E-16
6.38E-16
6.06E-16
5.59E-16
5.46E-16
Iodine
1-118
1.95E-15
1.84E-15
1.75E-15
1.67E-15
1.59E-15
1.56E-15
I-118m
3.25E-15
3.05E-15
2.91E-15
2.76E-15
2.60E-15
2.55E-15
1-119
8.31E-16
7.82E-16
7.35E-16
7.10E-16
6.59E-16
6.44E-16
1-120
2.23E-15
2.10E-15
1.99E-15
1.92E-15
1.82E-15
1.79E-15
I-120m
2.98E-15
2.80E-15
2.66E-15
2.54E-15
2.40E-15
2.35E-15
1-121
3.21E-16
3.00E-16
2.79E-16
2.71E-16
2.42E-16
2.37E-16
1-122
9.80E-16
9.28E-16
8.74E-16
8.40E-16
8.01E-16
7.84E-16
1-123
1.23E-16
1.18E-16
1.02E-16
9.90E-17
8.88E-17
8.74E-17
1-124
9.16E-16
8.59E-16
8.13E-16
7.79E-16
7.36E-16
7.20E-16
1-125
1.37E-17
9.69E-18
7.23E-18
6.48E-18
4.86E-18
4.64E-18
1-126
3.71E-16
3.48E-16
3.29E-16
3.13E-16
2.93E-16
2.86E-16
1-128
1.82E-16
1.76E-16
1.72E-16
1.67E-16
1.62E-16
1.60E-16
1-129
1.08E-17
8.07E-18
6.40E-18
5.80E-18
4.61E-18
4.41E-18
1-130
1.78E-15
1.67E-15
1.60E-15
1.51E-15
1.42E-15
1.39E-15
I-130m
1.13E-16
1.07E-16
1.01E-16
9.70E-17
9.25E-17
9.07E-17
1-131
3.23E-16
3.03E-16
2.83E-16
2.74E-16
2.50E-16
2.44E-16
1-132
1.91E-15
1.79E-15
1.73E-15
1.63E-15
1.53E-15
1.50E-15
I-132m
2.84E-16
2.66E-16
2.54E-16
2.39E-16
2.25E-16
2.20E-16
1-133
5.63E-16
5.31E-16
5.02E-16
4.79E-16
4.55E-16
4.45E-16
1-134
2.17E-15
2.03E-15
1.98E-15
1.86E-15
1.74E-15
1.71E-15
I-134m
2.26E-16
2.09E-16
1.96E-16
1.91E-16
1.66E-16
1.62E-16
1-135
1.27E-15
1.18E-15
1.15E-15
1.09E-15
1.02E-15
1.01E-15
Xenon
Xe-120
3.07E-16
2.85E-16
2.70E-16
2.55E-16
2.35E-16
2.30E-16
Xe-121
1.23E-15
1.15E-15
1.09E-15
1.06E-15
9.94E-16
9.75E-16
Xe-122
4.49E-17
4.04E-17
3.61E-17
3.49E-17
3.09E-17
3.01E-17
Xe-123
5.26E-16
4.97E-16
4.64E-16
4.45E-16
4.16E-16
4.07E-16
Xe-125
2.04E-16
1.89E-16
1.74E-16
1.70E-16
1.47E-16
1.44E-16
Xe-127
2.13E-16
2.00E-16
1.81E-16
1.78E-16
1.54E-16
1.51E-16
Xe-127m
1.24E-16
1.16E-16
1.03E-16
9.82E-17
8.90E-17
8.70E-17
Xe-129m
2.38E-17
1.89E-17
1.55E-17
1.45E-17
1.17E-17
1.12E-17
Xe-131m
8.97E-18
7.12E-18
5.65E-18
5.24E-18
4.28E-18
4.14E-18
Xe-133
3.29E-17
2.90E-17
2.57E-17
2.44E-17
2.17E-17
2.09E-17
Xe-133m
2.54E-17
2.23E-17
2.00E-17
1.95E-17
1.61E-17
1.57E-17
Xe-135
2.31E-16
2.16E-16
2.04E-16
2.01E-16
1.75E-16
1.72E-16
Xe-135m
3.62E-16
3.41E-16
3.17E-16
3.04E-16
2.89E-16
2.82E-16
Xe-137
4.24E-16
4.07E-16
3.95E-16
3.84E-16
3.69E-16
3.65E-16
Xe-138
9.46E-16
8.89E-16
8.45E-16
8.25E-16
7.73E-16
7.60E-16
Cesium
Cs-121
1.24E-15
1.18E-15
1.11E-15
1.07E-15
1.01E-15
9.91E-16
44
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cs-121m
1.18E-15
1.12E-15
1.05E-15
1.01E-15
9.53E-16
9.33E-16
Cs-123
1.05E-15
9.86E-16
9.31E-16
8.92E-16
8.46E-16
8.28E-16
Cs-124
1.27E-15
1.20E-15
1.13E-15
1.09E-15
1.04E-15
1.02E-15
Cs-125
6.74E-16
6.34E-16
5.95E-16
5.71E-16
5.41E-16
5.29E-16
Cs-126
1.17E-15
1.10E-15
1.04E-15
1.00E-15
9.50E-16
9.30E-16
Cs-127
3.48E-16
3.25E-16
3.01E-16
2.90E-16
2.69E-16
2.62E-16
Cs-128
8.85E-16
8.37E-16
7.86E-16
7.57E-16
7.20E-16
7.04E-16
Cs-129
2.17E-16
2.01E-16
1.85E-16
1.79E-16
1.63E-16
1.59E-16
Cs-130
4.79E-16
4.52E-16
4.24E-16
4.07E-16
3.88E-16
3.79E-16
Cs-130m
4.55E-17
4.00E-17
3.46E-17
3.29E-17
2.91E-17
2.81E-17
Cs-131
8.72E-18
6.31E-18
4.77E-18
4.26E-18
3.29E-18
3.13E-18
Cs-132
5.80E-16
5.41E-16
5.17E-16
4.86E-16
4.57E-16
4.47E-16
Cs-134
1.28E-15
1.20E-15
1.16E-15
1.09E-15
1.02E-15
9.98E-16
Cs-134m
1.65E-17
1.47E-17
1.27E-17
1.19E-17
1.08E-17
1.05E-17
Cs-135
2.09E-18
1.95E-18
1.94E-18
1.80E-18
1.67E-18
1.63E-18
Cs-135m
1.30E-15
1.22E-15
1.20E-15
1.11E-15
1.04E-15
1.01E-15
Cs-136
1.71E-15
1.59E-15
1.56E-15
1.46E-15
1.35E-15
1.32E-15
Cs-137
9.23E-18
8.80E-18
8.76E-18
8.33E-18
7.95E-18
7.85E-18
Cs-138
2.01E-15
1.88E-15
1.82E-15
1.75E-15
1.64E-15
1.62E-15
Cs-138m
3.63E-16
3.40E-16
3.25E-16
3.13E-16
2.92E-16
2.87E-16
Cs-139
4.89E-16
4.67E-16
4.57E-16
4.43E-16
4.24E-16
4.19E-16
Cs-140
1.62E-15
1.52E-15
1.46E-15
1.42E-15
1.34E-15
1.32E-15
Barium
Ba-124
4.81E-16
4.50E-16
4.26E-16
4.06E-16
3.78E-16
3.70E-16
Ba-126
4.57E-16
4.25E-16
4.08E-16
3.87E-16
3.53E-16
3.46E-16
Ba-127
6.89E-16
6.51E-16
6.11E-16
5.88E-16
5.58E-16
5.46E-16
Ba-128
4.40E-17
3.90E-17
3.52E-17
3.43E-17
2.90E-17
2.83E-17
Ba-129
2.81E-16
2.63E-16
2.45E-16
2.36E-16
2.21E-16
2.16E-16
Ba-129m
1.25E-15
1.17E-15
1.12E-15
1.07E-15
9.88E-16
9.66E-16
Ba-131
3.79E-16
3.53E-16
3.26E-16
3.13E-16
2.89E-16
2.82E-16
Ba-131m
5.44E-17
4.60E-17
4.31E-17
3.97E-17
3.72E-17
3.57E-17
Ba-133
3.13E-16
2.90E-16
2.66E-16
2.60E-16
2.32E-16
2.26E-16
Ba-133m
4.79E-17
4.31E-17
3.94E-17
3.86E-17
3.27E-17
3.19E-17
Ba-135m
4.18E-17
3.74E-17
3.41E-17
3.34E-17
2.82E-17
2.75E-17
Ba-137m
5.01E-16
4.70E-16
4.49E-16
4.23E-16
4.00E-16
3.90E-16
Ba-139
1.87E-16
1.82E-16
1.78E-16
1.74E-16
1.68E-16
1.67E-16
Ba-140
1.78E-16
1.68E-16
1.57E-16
1.51E-16
1.43E-16
1.40E-16
Ba-141
8.94E-16
8.43E-16
8.08E-16
7.79E-16
7.22E-16
7.09E-16
Ba-142
8.81E-16
8.24E-16
8.05E-16
7.59E-16
7.01E-16
6.88E-16
Lanthanum
La-128
2.50E-15
2.35E-15
2.24E-15
2.14E-15
2.01E-15
1.96E-15
La-129
8.56E-16
8.05E-16
7.56E-16
7.28E-16
6.84E-16
6.69E-16
La-130
1.98E-15
1.86E-15
1.77E-15
1.69E-15
1.59E-15
1.56E-15
La-131
5.64E-16
5.27E-16
4.92E-16
4.73E-16
4.41E-16
4.30E-16
La-132
1.66E-15
1.56E-15
1.47E-15
1.42E-15
1.34E-15
1.31E-15
La-13 2m
5.48E-16
5.14E-16
4.84E-16
4.59E-16
4.29E-16
4.19E-16
45
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
La-133
1.27E-16
1.17E-16
1.09E-16
1.04E-16
9.64E-17
9.40E-17
La-134
7.24E-16
6.85E-16
6.44E-16
6.20E-16
5.91E-16
5.78E-16
La-135
1.96E-17
1.61E-17
1.39E-17
1.29E-17
1.12E-17
1.09E-17
La-136
3.83E-16
3.61E-16
3.38E-16
3.24E-16
3.08E-16
3.01E-16
La-137
1.07E-17
7.91E-18
6.20E-18
5.61E-18
4.40E-18
4.18E-18
La-138
9.54E-16
8.89E-16
8.62E-16
8.19E-16
7.65E-16
7.50E-16
La-140
1.86E-15
1.75E-15
1.67E-15
1.61E-15
1.51E-15
1.48E-15
La-141
1.88E-16
1.83E-16
1.81E-16
1.77E-16
1.73E-16
1.72E-16
La-142
1.87E-15
1.76E-15
1.68E-15
1.63E-15
1.54E-15
1.52E-15
La-143
4.13E-16
3.94E-16
3.86E-16
3.73E-16
3.58E-16
3.53E-16
Cerium
Ce-130
3.93E-16
3.65E-16
3.44E-16
3.27E-16
3.00E-16
2.93E-16
Ce-131
1.40E-15
1.31E-15
1.25E-15
1.19E-15
1.12E-15
1.10E-15
Ce-132
2.08E-16
1.95E-16
1.76E-16
1.72E-16
1.50E-16
1.47E-16
Ce-133
4.90E-16
4.57E-16
4.26E-16
4.08E-16
3.87E-16
3.77E-16
Ce-133m
1.37E-15
1.28E-15
1.22E-15
1.16E-15
1.09E-15
1.06E-15
Ce-134
1.33E-17
1.01E-17
8.19E-18
7.54E-18
6.05E-18
5.77E-18
Ce-135
6.64E-16
6.19E-16
5.86E-16
5.59E-16
5.13E-16
5.01E-16
Ce-137
2.14E-17
1.77E-17
1.53E-17
1.43E-17
1.24E-17
1.20E-17
Ce-137m
3.82E-17
3.38E-17
3.10E-17
3.00E-17
2.55E-17
2.48E-17
Ce-139
1.15E-16
1.09E-16
9.39E-17
9.18E-17
8.05E-17
7.92E-17
Ce-141
6.22E-17
6.07E-17
5.19E-17
5.00E-17
4.57E-17
4.50E-17
Ce-143
2.75E-16
2.57E-16
2.45E-16
2.37E-16
2.16E-16
2.12E-16
Ce-144
1.59E-17
1.49E-17
1.31E-17
1.24E-17
1.14E-17
1.11E-17
Ce-145
7.56E-16
7.09E-16
6.85E-16
6.48E-16
6.08E-16
5.96E-16
Praseodymium
Pr-134
2.73E-15
2.57E-15
2.44E-15
2.33E-15
2.18E-15
2.13E-15
Pr-134m
2.08E-15
1.96E-15
1.86E-15
1.79E-15
1.69E-15
1.65E-15
Pr-135
8.02E-16
7.54E-16
7.08E-16
6.82E-16
6.40E-16
6.26E-16
Pr-136
1.84E-15
1.73E-15
1.64E-15
1.57E-15
1.49E-15
1.45E-15
Pr-137
3.29E-16
3.09E-16
2.90E-16
2.78E-16
2.63E-16
2.57E-16
Pr-138
8.66E-16
8.21E-16
7.73E-16
7.44E-16
7.10E-16
6.95E-16
Pr-138m
2.02E-15
1.89E-15
1.84E-15
1.72E-15
1.60E-15
1.57E-15
Pr-139
1.04E-16
9.56E-17
8.84E-17
8.46E-17
7.92E-17
7.72E-17
Pr-140
5.46E-16
5.16E-16
4.84E-16
4.66E-16
4.44E-16
4.34E-16
Pr-142
1.79E-16
1.73E-16
1.71E-16
1.67E-16
1.62E-16
1.61E-16
Pr-142m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pr-143
3.28E-17
3.19E-17
3.18E-17
3.10E-17
3.02E-17
3.00E-17
Pr-144
2.23E-16
2.16E-16
2.14E-16
2.09E-16
2.04E-16
2.02E-16
Pr-144m
6.96E-18
5.49E-18
4.72E-18
4.41E-18
3.67E-18
3.52E-18
Pr-145
1.28E-16
1.25E-16
1.24E-16
1.21E-16
1.18E-16
1.17E-16
Pr-146
9.99E-16
9.43E-16
9.07E-16
8.74E-16
8.27E-16
8.14E-16
Pr-147
5.21E-16
4.90E-16
4.70E-16
4.52E-16
4.25E-16
4.17E-16
Pr-148
1.04E-15
9.77E-16
9.47E-16
9.11E-16
8.53E-16
8.39E-16
Pr-148m
1.03E-15
9.71E-16
9.30E-16
8.97E-16
8.37E-16
8.21E-16
46
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Neodymium
Nd-134
4.57E-16
4.30E-16
3.98E-16
3.84E-16
3.53E-16
3.45E-16
Nd-135
1.19E-15
1.12E-15
1.05E-15
1.01E-15
9.50E-16
9.30E-16
Nd-136
2.15E-16
1.96E-16
1.83E-16
1.73E-16
1.61E-16
1.56E-16
Nd-137
9.87E-16
9.24E-16
8.79E-16
8.39E-16
7.86E-16
7.69E-16
Nd-138
2.64E-17
2.20E-17
1.94E-17
1.85E-17
1.56E-17
1.50E-17
Nd-139
3.93E-16
3.68E-16
3.47E-16
3.32E-16
3.13E-16
3.06E-16
Nd-139m
1.26E-15
1.17E-15
1.14E-15
1.07E-15
9.96E-16
9.73E-16
Nd-140
1.43E-17
1.08E-17
8.96E-18
8.31E-18
6.60E-18
6.28E-18
Nd-141
5.40E-17
4.81E-17
4.44E-17
4.20E-17
3.83E-17
3.73E-17
Nd-141m
5.76E-16
5.39E-16
5.25E-16
4.90E-16
4.60E-16
4.50E-16
Nd-144
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Nd-147
1.28E-16
1.18E-16
1.10E-16
1.05E-16
9.86E-17
9.60E-17
Nd-149
3.65E-16
3.43E-16
3.24E-16
3.14E-16
2.87E-16
2.81E-16
Nd-151
7.69E-16
7.20E-16
6.98E-16
6.62E-16
6.18E-16
6.06E-16
Nd-152
1.66E-16
1.56E-16
1.48E-16
1.46E-16
1.30E-16
1.27E-16
Promethium
Pm-136
2.56E-15
2.41E-15
2.30E-15
2.19E-15
2.06E-15
2.02E-15
Pm-137m
1.62E-15
1.52E-15
1.43E-15
1.37E-15
1.28E-15
1.26E-15
Pm-139
9.41E-16
8.90E-16
8.39E-16
8.07E-16
7.67E-16
7.50E-16
Pm-140
1.18E-15
1.12E-15
1.06E-15
1.02E-15
9.75E-16
9.55E-16
Pm-140m
2.62E-15
2.46E-15
2.37E-15
2.24E-15
2.10E-15
2.06E-15
Pm-141
6.98E-16
6.58E-16
6.22E-16
5.97E-16
5.67E-16
5.55E-16
Pm-142
9.18E-16
8.70E-16
8.20E-16
7.90E-16
7.54E-16
7.38E-16
Pm-143
2.50E-16
2.31E-16
2.23E-16
2.08E-16
1.93E-16
1.89E-16
Pm-144
1.28E-15
1.20E-15
1.14E-15
1.08E-15
1.02E-15
9.91E-16
Pm-145
1.66E-17
1.29E-17
1.09E-17
1.03E-17
8.26E-18
7.88E-18
Pm-146
6.21E-16
5.81E-16
5.52E-16
5.21E-16
4.89E-16
4.77E-16
Pm-147
1.20E-18
1.12E-18
1.11E-18
1.03E-18
9.55E-19
9.37E-19
Pm-148
5.70E-16
5.37E-16
5.21E-16
4.99E-16
4.72E-16
4.64E-16
Pm-148m
1.65E-15
1.54E-15
1.47E-15
1.39E-15
1.31E-15
1.27E-15
Pm-149
5.44E-17
5.26E-17
5.20E-17
5.08E-17
4.89E-17
4.85E-17
Pm-150
1.29E-15
1.21E-15
1.17E-15
1.12E-15
1.04E-15
1.02E-15
Pm-151
2.92E-16
2.73E-16
2.57E-16
2.48E-16
2.26E-16
2.21E-16
Pm-152
4.38E-16
4.17E-16
4.09E-16
3.93E-16
3.75E-16
3.69E-16
Pm-152m
1.33E-15
1.25E-15
1.21E-15
1.15E-15
1.07E-15
1.05E-15
Pm-153
1.67E-16
1.60E-16
1.54E-16
1.50E-16
1.44E-16
1.43E-16
Pm-154
1.49E-15
1.40E-15
1.35E-15
1.30E-15
1.22E-15
1.20E-15
Pm-154m
1.55E-15
1.45E-15
1.40E-15
1.34E-15
1.25E-15
1.23E-15
Samarium
Sm-139
1.36E-15
1.28E-15
1.21E-15
1.16E-15
1.09E-15
1.07E-15
Sm-140
4.76E-16
4.45E-16
4.22E-16
4.03E-16
3.76E-16
3.68E-16
Sm-141
1.25E-15
1.18E-15
1.11E-15
1.07E-15
1.01E-15
9.88E-16
Sm-141m
1.62E-15
1.51E-15
1.45E-15
1.38E-15
1.28E-15
1.26E-15
Sm-142
8.88E-17
8.11E-17
7.49E-17
7.17E-17
6.66E-17
6.49E-17
Sm-143
5.19E-16
4.90E-16
4.61E-16
4.43E-16
4.21E-16
4.12E-16
47
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sm-143m
5.69E-16
5.33E-16
5.19E-16
4.84E-16
4.54E-16
4.45E-16
Sm-145
3.57E-17
2.82E-17
2.43E-17
2.31E-17
1.87E-17
1.79E-17
Sm-146
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-147
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-151
1.39E-19
1.29E-19
1.28E-19
1.19E-19
1.10E-19
1.08E-19
Sm-153
5.81E-17
5.02E-17
4.76E-17
4.49E-17
4.12E-17
3.98E-17
Sm-155
1.67E-16
1.54E-16
1.51E-16
1.45E-16
1.39E-16
1.36E-16
Sm-156
9.75E-17
9.05E-17
8.35E-17
8.13E-17
7.13E-17
6.96E-17
Sm-157
4.72E-16
4.47E-16
4.29E-16
4.15E-16
3.83E-16
3.78E-16
Europium
Eu-142
1.40E-15
1.33E-15
1.26E-15
1.22E-15
1.16E-15
1.14E-15
Eu-142m
3.06E-15
2.88E-15
2.77E-15
2.62E-15
2.47E-15
2.41E-15
Eu-143
1.12E-15
1.06E-15
1.01E-15
9.68E-16
9.20E-16
9.01E-16
Eu-144
1.21E-15
1.15E-15
1.09E-15
1.05E-15
9.99E-16
9.79E-16
Eu-145
9.98E-16
9.30E-16
9.01E-16
8.52E-16
7.96E-16
7.80E-16
Eu-146
1.92E-15
1.79E-15
1.72E-15
1.63E-15
1.53E-15
1.50E-15
Eu-147
3.69E-16
3.41E-16
3.27E-16
3.08E-16
2.82E-16
2.76E-16
Eu-148
1.81E-15
1.69E-15
1.61E-15
1.53E-15
1.44E-15
1.40E-15
Eu-149
4.46E-17
3.87E-17
3.52E-17
3.41E-17
2.93E-17
2.84E-17
Eu-150
1.27E-15
1.18E-15
1.12E-15
1.07E-15
9.90E-16
9.66E-16
Eu-150m
7.54E-17
7.18E-17
6.94E-17
6.73E-17
6.38E-17
6.29E-17
Eu-152
9.34E-16
8.68E-16
8.43E-16
7.95E-16
7.37E-16
7.22E-16
Eu-152m
3.18E-16
2.99E-16
2.95E-16
2.78E-16
2.62E-16
2.58E-16
Eu-152n
5.52E-17
4.75E-17
4.44E-17
4.12E-17
3.84E-17
3.67E-17
Eu-154
1.01E-15
9.41E-16
9.19E-16
8.62E-16
8.04E-16
7.88E-16
Eu-154m
4.77E-17
4.19E-17
3.76E-17
3.67E-17
3.21E-17
3.08E-17
Eu-155
4.60E-17
3.95E-17
3.70E-17
3.45E-17
3.19E-17
3.06E-17
Eu-156
1.01E-15
9.44E-16
9.15E-16
8.73E-16
8.20E-16
8.05E-16
Eu-157
2.79E-16
2.61E-16
2.45E-16
2.37E-16
2.20E-16
2.15E-16
Eu-158
1.16E-15
1.09E-15
1.07E-15
1.01E-15
9.44E-16
9.27E-16
Eu-159
3.77E-16
3.55E-16
3.44E-16
3.30E-16
3.11E-16
3.06E-16
Gadolinium
Gd-142
9.64E-16
9.08E-16
8.59E-16
8.25E-16
7.78E-16
7.62E-16
Gd-143m
1.89E-15
1.78E-15
1.69E-15
1.62E-15
1.52E-15
1.48E-15
Gd-144
8.09E-16
7.63E-16
7.20E-16
6.96E-16
6.59E-16
6.46E-16
Gd-145
1.87E-15
1.75E-15
1.66E-15
1.62E-15
1.52E-15
1.49E-15
Gd-145m
5.83E-16
5.46E-16
5.27E-16
4.95E-16
4.66E-16
4.55E-16
Gd-146
1.79E-16
1.59E-16
1.43E-16
1.35E-16
1.22E-16
1.18E-16
Gd-147
1.12E-15
1.05E-15
1.01E-15
9.54E-16
8.76E-16
8.56E-16
Gd-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-149
4.18E-16
3.90E-16
3.64E-16
3.49E-16
3.16E-16
3.09E-16
Gd-150
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-151
4.68E-17
4.11E-17
3.68E-17
3.58E-17
3.02E-17
2.94E-17
Gd-152
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-153
7.12E-17
5.85E-17
5.43E-17
5.07E-17
4.53E-17
4.33E-17
48
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Gd-159
7.32E-17
6.90E-17
6.59E-17
6.42E-17
5.98E-17
5.88E-17
Gd-162
3.81E-16
3.59E-16
3.33E-16
3.23E-16
3.02E-16
2.95E-16
Terbium
Tb-146
3.02E-15
2.84E-15
2.72E-15
2.61E-15
2.46E-15
2.41E-15
Tb-147
1.76E-15
1.65E-15
1.59E-15
1.51E-15
1.41E-15
1.38E-15
Tb-147m
1.52E-15
1.42E-15
1.36E-15
1.31E-15
1.23E-15
1.21E-15
Tb-148
1.99E-15
1.87E-15
1.79E-15
1.71E-15
1.61E-15
1.58E-15
Tb-148m
2.61E-15
2.44E-15
2.35E-15
2.21E-15
2.07E-15
2.02E-15
Tb-149
1.07E-15
1.00E-15
9.58E-16
9.15E-16
8.51E-16
8.33E-16
Tb-149m
1.15E-15
1.08E-15
1.04E-15
9.76E-16
9.16E-16
8.95E-16
Tb-150
1.89E-15
1.77E-15
1.69E-15
1.62E-15
1.53E-15
1.50E-15
Tb-150m
2.09E-15
1.96E-15
1.86E-15
1.76E-15
1.66E-15
1.62E-15
Tb-151
7.98E-16
7.42E-16
6.99E-16
6.70E-16
6.16E-16
6.01E-16
Tb-151m
6.12E-17
5.63E-17
5.32E-17
5.06E-17
4.63E-17
4.52E-17
Tb-152
1.20E-15
1.12E-15
1.06E-15
1.03E-15
9.55E-16
9.36E-16
Tb-152m
6.12E-16
5.70E-16
5.34E-16
5.16E-16
4.66E-16
4.55E-16
Tb-153
2.56E-16
2.35E-16
2.21E-16
2.12E-16
1.89E-16
1.85E-16
Tb-154
1.70E-15
1.59E-15
1.52E-15
1.46E-15
1.37E-15
1.35E-15
Tb-155
1.29E-16
1.15E-16
1.05E-16
1.01E-16
8.93E-17
8.65E-17
Tb-156
1.53E-15
1.42E-15
1.37E-15
1.30E-15
1.20E-15
1.18E-15
Tb-156m
2.36E-17
1.93E-17
1.76E-17
1.70E-17
1.39E-17
1.35E-17
Tb-156n
2.39E-18
1.96E-18
1.79E-18
1.70E-18
1.46E-18
1.40E-18
Tb-157
2.74E-18
2.16E-18
1.93E-18
1.85E-18
1.49E-18
1.43E-18
Tb-158
6.39E-16
5.93E-16
5.84E-16
5.42E-16
5.02E-16
4.91E-16
Tb-160
9.09E-16
8.47E-16
8.32E-16
7.79E-16
7.19E-16
7.05E-16
Tb-161
2.59E-17
2.24E-17
2.04E-17
1.97E-17
1.68E-17
1.63E-17
Tb-162
9.66E-16
9.05E-16
8.82E-16
8.32E-16
7.65E-16
7.50E-16
Tb-163
6.90E-16
6.49E-16
6.05E-16
5.85E-16
5.43E-16
5.30E-16
Tb-164
2.06E-15
1.93E-15
1.86E-15
1.77E-15
1.65E-15
1.62E-15
Tb-165
7.94E-16
7.48E-16
7.27E-16
6.96E-16
6.56E-16
6.45E-16
Dysprosium
Dy-148
5.87E-16
5.48E-16
5.18E-16
4.91E-16
4.62E-16
4.51E-16
Dy-149
1.27E-15
1.18E-15
1.14E-15
1.08E-15
1.01E-15
9.92E-16
Dy-150
2.26E-16
2.10E-16
1.94E-16
1.88E-16
1.73E-16
1.68E-16
Dy-151
1.09E-15
1.01E-15
9.72E-16
9.24E-16
8.60E-16
8.42E-16
Dy-152
2.24E-16
2.06E-16
1.92E-16
1.90E-16
1.60E-16
1.57E-16
Dy-153
6.80E-16
6.29E-16
6.00E-16
5.72E-16
5.24E-16
5.13E-16
Dy-154
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Dy-155
5.24E-16
4.86E-16
4.66E-16
4.45E-16
4.02E-16
3.94E-16
Dy-157
2.76E-16
2.55E-16
2.36E-16
2.32E-16
2.04E-16
1.99E-16
Dy-159
2.71E-17
2.17E-17
1.95E-17
1.88E-17
1.52E-17
1.46E-17
Dy-165
8.41E-17
8.08E-17
7.96E-17
7.74E-17
7.48E-17
7.41E-17
Dy-165m
1.45E-17
1.31E-17
1.22E-17
1.17E-17
1.08E-17
1.04E-17
Dy-166
3.23E-17
2.80E-17
2.57E-17
2.46E-17
2.15E-17
2.08E-17
Dy-167
5.44E-16
5.14E-16
4.88E-16
4.72E-16
4.39E-16
4.30E-16
Dy-168
3.65E-16
3.44E-16
3.21E-16
3.10E-16
2.88E-16
2.82E-16
49
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Holmium
Ho-150
1.86E-15
1.75E-15
1.68E-15
1.59E-15
1.51E-15
1.47E-15
Ho-153
9.22E-16
8.65E-16
8.20E-16
7.87E-16
7.31E-16
7.15E-16
Ho-153m
9.73E-16
9.14E-16
8.61E-16
8.26E-16
7.74E-16
7.57E-16
Ho-154
1.70E-15
1.60E-15
1.52E-15
1.45E-15
1.36E-15
1.33E-15
Ho-154m
2.08E-15
1.96E-15
1.84E-15
1.77E-15
1.65E-15
1.61E-15
Ho-155
5.14E-16
4.80E-16
4.51E-16
4.35E-16
4.02E-16
3.94E-16
Ho-156
1.75E-15
1.64E-15
1.56E-15
1.50E-15
1.40E-15
1.37E-15
Ho-157
4.63E-16
4.28E-16
4.04E-16
3.88E-16
3.51E-16
3.43E-16
Ho-159
2.93E-16
2.68E-16
2.49E-16
2.39E-16
2.13E-16
2.08E-16
Ho-160
1.36E-15
1.27E-15
1.24E-15
1.15E-15
1.07E-15
1.05E-15
Ho-161
3.34E-17
2.73E-17
2.47E-17
2.36E-17
1.96E-17
1.90E-17
Ho-162
1.25E-16
1.13E-16
1.07E-16
1.02E-16
9.35E-17
9.13E-17
Ho-162m
4.34E-16
4.01E-16
3.89E-16
3.67E-16
3.35E-16
3.28E-16
Ho-163
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ho-164
3.13E-17
2.77E-17
2.62E-17
2.54E-17
2.28E-17
2.23E-17
Ho-164m
2.75E-17
2.25E-17
2.03E-17
1.95E-17
1.60E-17
1.54E-17
Ho-166
1.32E-16
1.28E-16
1.27E-16
1.24E-16
1.20E-16
1.19E-16
Ho-166m
1.32E-15
1.24E-15
1.19E-15
1.12E-15
1.04E-15
1.01E-15
Ho-167
3.13E-16
2.92E-16
2.72E-16
2.66E-16
2.39E-16
2.33E-16
Ho-168
8.37E-16
7.88E-16
7.70E-16
7.25E-16
6.82E-16
6.70E-16
Ho-168m
3.88E-18
3.17E-18
2.88E-18
2.78E-18
2.27E-18
2.19E-18
Ho-170
1.48E-15
1.39E-15
1.36E-15
1.28E-15
1.18E-15
1.16E-15
Erbium
Er-154
5.11E-17
4.47E-17
4.08E-17
3.92E-17
3.48E-17
3.38E-17
Er-156
4.12E-17
3.47E-17
3.12E-17
3.01E-17
2.52E-17
2.44E-17
Er-159
7.69E-16
7.18E-16
6.83E-16
6.51E-16
6.08E-16
5.95E-16
Er-161
7.87E-16
7.31E-16
7.14E-16
6.68E-16
6.18E-16
6.05E-16
Er-163
2.50E-17
2.05E-17
1.87E-17
1.80E-17
1.48E-17
1.43E-17
Er-165
2.33E-17
1.90E-17
1.73E-17
1.67E-17
1.36E-17
1.31E-17
Er-167m
7.54E-17
7.01E-17
6.47E-17
6.39E-17
5.36E-17
5.25E-17
Er-169
2.51E-18
2.34E-18
2.33E-18
2.16E-18
2.00E-18
1.96E-18
Er-171
3.43E-16
3.19E-16
3.01E-16
2.94E-16
2.63E-16
2.57E-16
Er-172
4.26E-16
3.98E-16
3.72E-16
3.56E-16
3.32E-16
3.24E-16
Er-173
7.65E-16
7.16E-16
6.95E-16
6.57E-16
6.05E-16
5.94E-16
Thulium
Tm-161
1.01E-15
9.40E-16
8.88E-16
8.58E-16
7.97E-16
7.81E-16
Tm-162
1.54E-15
1.45E-15
1.38E-15
1.33E-15
1.25E-15
1.23E-15
Tm-163
1.02E-15
9.46E-16
9.09E-16
8.68E-16
8.03E-16
7.87E-16
Tm-164
7.14E-16
6.72E-16
6.37E-16
6.12E-16
5.79E-16
5.67E-16
Tm-165
4.45E-16
4.11E-16
3.89E-16
3.74E-16
3.36E-16
3.29E-16
Tm-166
1.52E-15
1.42E-15
1.36E-15
1.30E-15
1.22E-15
1.19E-15
Tm-167
1.09E-16
9.93E-17
9.13E-17
8.95E-17
7.55E-17
7.37E-17
Tm-168
1.00E-15
9.35E-16
8.99E-16
8.46E-16
7.81E-16
7.64E-16
Tm-170
3.63E-17
3.51E-17
3.48E-17
3.39E-17
3.28E-17
3.26E-17
Tm-171
6.31E-19
5.66E-19
5.26E-19
5.05E-19
4.39E-19
4.27E-19
50
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Tm-172
4.41E-16
4.15E-16
4.03E-16
3.87E-16
3.64E-16
3.58E-16
Tm-173
3.50E-16
3.30E-16
3.06E-16
2.98E-16
2.76E-16
2.70E-16
Tm-174
1.48E-15
1.38E-15
1.33E-15
1.27E-15
1.16E-15
1.13E-15
Tm-175
9.42E-16
8.84E-16
8.50E-16
8.05E-16
7.55E-16
7.39E-16
Tm-176
1.65E-15
1.55E-15
1.49E-15
1.43E-15
1.33E-15
1.31E-15
Ytterbium
Yb-162
1.93E-16
1.79E-16
1.63E-16
1.56E-16
1.42E-16
1.39E-16
Yb-163
6.18E-16
5.79E-16
5.52E-16
5.27E-16
4.94E-16
4.83E-16
Yb-164
3.66E-17
3.18E-17
2.91E-17
2.80E-17
2.40E-17
2.33E-17
Yb-165
2.65E-16
2.43E-16
2.30E-16
2.20E-16
2.01E-16
1.96E-16
Yb-166
5.67E-17
4.84E-17
4.38E-17
4.23E-17
3.56E-17
3.44E-17
Yb-167
1.95E-16
1.72E-16
1.59E-16
1.51E-16
1.35E-16
1.31E-16
Yb-169
2.42E-16
2.20E-16
2.00E-16
1.95E-16
1.67E-16
1.63E-16
Yb-175
3.55E-17
3.31E-17
3.08E-17
2.99E-17
2.71E-17
2.64E-17
Yb-177
2.13E-16
2.03E-16
1.97E-16
1.87E-16
1.76E-16
1.74E-16
Yb-178
4.05E-17
3.81E-17
3.59E-17
3.48E-17
3.20E-17
3.13E-17
Yb-179
9.13E-16
8.62E-16
8.16E-16
7.80E-16
7.38E-16
7.22E-16
Lutetium
Lu-165
9.24E-16
8.64E-16
8.16E-16
7.85E-16
7.32E-16
7.17E-16
Lu-167
1.30E-15
1.21E-15
1.16E-15
1.11E-15
1.04E-15
1.02E-15
Lu-169
1.02E-15
9.49E-16
9.19E-16
8.71E-16
8.07E-16
7.91E-16
Lu-169m
1.05E-22
7.50E-23
5.52E-23
4.89E-23
3.71E-23
3.54E-23
Lu-170
1.89E-15
1.77E-15
1.70E-15
1.64E-15
1.53E-15
1.51E-15
Lu-171
5.16E-16
4.79E-16
4.61E-16
4.32E-16
4.01E-16
3.92E-16
Lu-171m
2.22E-19
2.04E-19
1.79E-19
1.79E-19
1.51E-19
1.45E-19
Lu-172
1.55E-15
1.44E-15
1.41E-15
1.32E-15
1.22E-15
1.20E-15
Lu-172m
9.08E-22
7.04E-22
6.19E-22
5.88E-22
4.71E-22
4.51E-22
Lu-173
1.34E-16
1.21E-16
1.11E-16
1.08E-16
9.28E-17
9.04E-17
Lu-174
8.37E-17
7.58E-17
7.20E-17
6.86E-17
6.15E-17
6.01E-17
Lu-174m
4.02E-17
3.56E-17
3.21E-17
3.13E-17
2.65E-17
2.57E-17
Lu-176
3.93E-16
3.67E-16
3.41E-16
3.35E-16
2.90E-16
2.83E-16
Lu-176m
7.26E-17
7.01E-17
6.92E-17
6.75E-17
6.55E-17
6.50E-17
Lu-177
3.15E-17
2.91E-17
2.72E-17
2.63E-17
2.30E-17
2.24E-17
Lu-177m
8.00E-16
7.47E-16
6.87E-16
6.72E-16
5.94E-16
5.80E-16
Lu-178
2.19E-16
2.09E-16
2.06E-16
1.99E-16
1.91E-16
1.89E-16
Lu-178m
8.93E-16
8.34E-16
7.75E-16
7.56E-16
6.82E-16
6.65E-16
Lu-179
9.68E-17
9.38E-17
9.20E-17
9.03E-17
8.59E-17
8.52E-17
Lu-180
1.28E-15
1.20E-15
1.16E-15
1.11E-15
1.03E-15
1.01E-15
Lu-181
5.90E-16
5.57E-16
5.35E-16
5.11E-16
4.79E-16
4.70E-16
Hafnium
Hf-167
5.88E-16
5.54E-16
5.19E-16
5.03E-16
4.68E-16
4.57E-16
Hf-169
5.47E-16
5.14E-16
4.76E-16
4.58E-16
4.31E-16
4.20E-16
Hf-170
3.48E-16
3.25E-16
3.01E-16
2.88E-16
2.65E-16
2.59E-16
Hf-172
6.88E-17
6.12E-17
5.45E-17
5.29E-17
4.56E-17
4.42E-17
Hf-173
3.08E-16
2.85E-16
2.62E-16
2.53E-16
2.26E-16
2.20E-16
Hf-174
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
51
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hf-175
2.82E-16
2.62E-16
2.42E-16
2.37E-16
2.11E-16
2.05E-16
Hf-177m
1.84E-15
1.72E-15
1.60E-15
1.56E-15
1.38E-15
1.35E-15
Hf-178m
1.84E-15
1.72E-15
1.60E-15
1.55E-15
1.41E-15
1.38E-15
Hf-179m
7.43E-16
6.97E-16
6.39E-16
6.22E-16
5.63E-16
5.50E-16
Hf-180m
8.06E-16
7.54E-16
6.98E-16
6.80E-16
6.13E-16
5.98E-16
Hf-181
4.40E-16
4.15E-16
3.80E-16
3.66E-16
3.43E-16
3.34E-16
Hf-182
1.93E-16
1.80E-16
1.68E-16
1.66E-16
1.42E-16
1.39E-16
Hf-182m
7.43E-16
6.94E-16
6.55E-16
6.26E-16
5.73E-16
5.59E-16
Hf-183
6.88E-16
6.47E-16
6.24E-16
5.89E-16
5.52E-16
5.40E-16
Hf-184
2.16E-16
2.05E-16
1.88E-16
1.83E-16
1.66E-16
1.63E-16
Tantalum
Ta-170
1.11E-15
1.04E-15
9.94E-16
9.52E-16
9.01E-16
8.81E-16
Ta-172
1.42E-15
1.33E-15
1.28E-15
1.21E-15
1.13E-15
1.11E-15
Ta-173
4.65E-16
4.34E-16
4.11E-16
3.94E-16
3.64E-16
3.57E-16
Ta-174
8.27E-16
7.76E-16
7.36E-16
7.08E-16
6.57E-16
6.44E-16
Ta-175
8.58E-16
7.99E-16
7.63E-16
7.32E-16
6.75E-16
6.61E-16
Ta-176
1.69E-15
1.58E-15
1.52E-15
1.46E-15
1.36E-15
1.33E-15
Ta-177
4.71E-17
4.22E-17
3.82E-17
3.70E-17
3.21E-17
3.11E-17
Ta-178
8.99E-17
8.22E-17
7.69E-17
7.38E-17
6.66E-17
6.50E-17
Ta-178m
9.34E-16
8.69E-16
8.04E-16
7.84E-16
7.03E-16
6.85E-16
Ta-179
1.64E-17
1.46E-17
1.29E-17
1.27E-17
1.06E-17
1.03E-17
Ta-180
3.40E-17
3.03E-17
2.72E-17
2.65E-17
2.28E-17
2.20E-17
Ta-182
1.01E-15
9.44E-16
9.22E-16
8.69E-16
8.02E-16
7.86E-16
Ta-182m
1.99E-16
1.90E-16
1.68E-16
1.65E-16
1.44E-16
1.41E-16
Ta-183
2.36E-16
2.20E-16
2.02E-16
1.98E-16
1.73E-16
1.69E-16
Ta-184
1.33E-15
1.24E-15
1.19E-15
1.13E-15
1.04E-15
1.02E-15
Ta-185
2.24E-16
2.15E-16
2.04E-16
2.00E-16
1.86E-16
1.83E-16
Ta-186
1.32E-15
1.25E-15
1.19E-15
1.14E-15
1.06E-15
1.03E-15
Tungsten
W-177
7.26E-16
6.75E-16
6.42E-16
6.09E-16
5.60E-16
5.47E-16
W-178
1.00E-17
9.11E-18
7.98E-18
7.91E-18
6.65E-18
6.44E-18
W-179
3.44E-17
3.08E-17
2.68E-17
2.64E-17
2.22E-17
2.14E-17
W-179m
4.02E-17
3.73E-17
3.34E-17
3.32E-17
2.80E-17
2.72E-17
W-181
2.67E-17
2.42E-17
2.12E-17
2.11E-17
1.77E-17
1.71E-17
W-185
3.64E-18
3.39E-18
3.37E-18
3.13E-18
2.90E-18
2.85E-18
W-185m
1.80E-17
1.71E-17
1.50E-17
1.48E-17
1.29E-17
1.26E-17
W-187
3.94E-16
3.71E-16
3.51E-16
3.34E-16
3.14E-16
3.07E-16
W-188
4.00E-18
3.73E-18
3.62E-18
3.44E-18
3.09E-18
3.03E-18
W-190
1.43E-16
1.38E-16
1.23E-16
1.21E-16
1.09E-16
1.07E-16
Rhenium
Re-178
1.37E-15
1.29E-15
1.23E-15
1.18E-15
1.11E-15
1.09E-15
Re-179
8.57E-16
8.02E-16
7.54E-16
7.29E-16
6.72E-16
6.57E-16
Re-180
9.76E-16
9.10E-16
8.90E-16
8.30E-16
7.73E-16
7.56E-16
Re-181
6.44E-16
6.02E-16
5.69E-16
5.45E-16
4.99E-16
4.87E-16
Re-182
1.40E-15
1.31E-15
1.26E-15
1.20E-15
1.09E-15
1.07E-15
Re-182m
9.48E-16
8.84E-16
8.58E-16
8.11E-16
7.50E-16
7.35E-16
52
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Re-183
1.13E-16
1.05E-16
9.31E-17
9.19E-17
7.94E-17
7.74E-17
Re-184
7.13E-16
6.64E-16
6.51E-16
6.05E-16
5.61E-16
5.49E-16
Re-184m
3.00E-16
2.80E-16
2.66E-16
2.53E-16
2.29E-16
2.24E-16
Re-186
5.30E-17
5.15E-17
4.94E-17
4.81E-17
4.61E-17
4.57E-17
Re-186m
9.96E-18
8.85E-18
7.80E-18
7.62E-18
6.48E-18
6.25E-18
Re-187
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Re-188
1.77E-16
1.72E-16
1.67E-16
1.63E-16
1.57E-16
1.56E-16
Re-188m
4.90E-17
4.50E-17
3.97E-17
3.93E-17
3.42E-17
3.29E-17
Re-189
7.61E-17
7.26E-17
6.92E-17
6.78E-17
6.20E-17
6.11E-17
Re-190
1.20E-15
1.13E-15
1.07E-15
1.03E-15
9.55E-16
9.34E-16
Re-190m
8.13E-16
7.65E-16
7.21E-16
6.91E-16
6.44E-16
6.29E-16
Osmium
Os-180
9.31E-17
8.72E-17
7.96E-17
7.76E-17
6.92E-17
6.73E-17
Os-181
1.09E-15
1.01E-15
9.77E-16
9.29E-16
8.55E-16
8.37E-16
Os-182
3.47E-16
3.27E-16
2.99E-16
2.90E-16
2.67E-16
2.60E-16
Os-183
5.01E-16
4.69E-16
4.35E-16
4.21E-16
3.83E-16
3.73E-16
Os-183m
7.91E-16
7.37E-16
7.24E-16
6.78E-16
6.27E-16
6.15E-16
Os-185
5.63E-16
5.28E-16
5.03E-16
4.75E-16
4.44E-16
4.34E-16
Os-186
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Os-189m
6.15E-23
4.01E-23
2.84E-23
2.19E-23
1.56E-23
1.47E-23
Os-190m
1.31E-15
1.23E-15
1.15E-15
1.10E-15
1.03E-15
1.00E-15
Os-191
6.01E-17
5.71E-17
4.96E-17
4.90E-17
4.34E-17
4.21E-17
Os-191m
4.06E-18
3.85E-18
3.34E-18
3.34E-18
2.83E-18
2.74E-18
Os-193
9.56E-17
9.16E-17
8.69E-17
8.48E-17
8.00E-17
7.87E-17
Os-194
1.52E-18
1.21E-18
1.09E-18
1.04E-18
8.46E-19
8.14E-19
Os-196
1.10E-16
1.05E-16
9.99E-17
9.75E-17
9.13E-17
8.98E-17
Iridium
Ir-180
1.49E-15
1.40E-15
1.33E-15
1.27E-15
1.19E-15
1.16E-15
Ir-182
1.30E-15
1.22E-15
1.16E-15
1.11E-15
1.04E-15
1.01E-15
Ir-183
9.34E-16
8.75E-16
8.29E-16
8.00E-16
7.42E-16
7.27E-16
Ir-184
1.59E-15
1.48E-15
1.42E-15
1.36E-15
1.26E-15
1.23E-15
Ir-185
6.52E-16
6.10E-16
5.75E-16
5.58E-16
5.17E-16
5.06E-16
Ir-186
1.32E-15
1.23E-15
1.17E-15
1.12E-15
1.04E-15
1.02E-15
Ir-186m
9.89E-16
9.27E-16
8.87E-16
8.45E-16
7.89E-16
7.73E-16
Ir-187
2.61E-16
2.45E-16
2.31E-16
2.21E-16
2.02E-16
1.97E-16
Ir-188
1.57E-15
1.47E-15
1.39E-15
1.36E-15
1.27E-15
1.25E-15
Ir-189
5.59E-17
5.26E-17
4.66E-17
4.66E-17
3.95E-17
3.83E-17
Ir-190
1.21E-15
1.14E-15
1.06E-15
1.02E-15
9.46E-16
9.23E-16
Ir-190m
4.89E-23
2.74E-23
1.76E-23
1.05E-23
5.04E-24
4.62E-24
Ir-190n
3.97E-17
3.75E-17
3.25E-17
3.25E-17
2.77E-17
2.68E-17
Ir-191m
5.36E-17
5.10E-17
4.42E-17
4.37E-17
3.87E-17
3.76E-17
Ir-192
6.81E-16
6.38E-16
5.94E-16
5.78E-16
5.24E-16
5.11E-16
Ir-192m
5.57E-20
5.18E-20
4.84E-20
4.74E-20
4.24E-20
4.15E-20
Ir-192n
4.35E-19
4.19E-19
3.61E-19
3.61E-19
3.11E-19
3.02E-19
Ir-193m
2.19E-19
2.09E-19
1.81E-19
1.81E-19
1.54E-19
1.49E-19
Ir-194
2.09E-16
2.02E-16
1.98E-16
1.93E-16
1.84E-16
1.82E-16
53
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ir-194m
1.93E-15
1.81E-15
1.70E-15
1.63E-15
1.52E-15
1.48E-15
Ir-195
7.87E-17
7.50E-17
7.03E-17
6.95E-17
6.40E-17
6.27E-17
Ir-195m
3.20E-16
3.00E-16
2.80E-16
2.71E-16
2.48E-16
2.42E-16
Ir-196
3.81E-16
3.64E-16
3.55E-16
3.43E-16
3.26E-16
3.22E-16
Ir-196m
2.07E-15
1.94E-15
1.82E-15
1.74E-15
1.63E-15
1.59E-15
Platinum
Pt-184
5.74E-16
5.42E-16
4.97E-16
4.83E-16
4.37E-16
4.26E-16
Pt-186
5.54E-16
5.20E-16
4.92E-16
4.67E-16
4.34E-16
4.23E-16
Pt-187
4.98E-16
4.67E-16
4.40E-16
4.22E-16
3.86E-16
3.76E-16
Pt-188
1.57E-16
1.49E-16
1.33E-16
1.33E-16
1.15E-16
1.12E-16
Pt-189
3.85E-16
3.61E-16
3.37E-16
3.25E-16
2.97E-16
2.90E-16
Pt-190
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pt-191
2.31E-16
2.18E-16
1.98E-16
1.94E-16
1.75E-16
1.70E-16
Pt-193
2.22E-22
1.14E-22
7.66E-23
4.48E-23
1.58E-23
1.35E-23
Pt-193m
7.45E-18
7.14E-18
6.21E-18
6.21E-18
5.31E-18
5.12E-18
Pt-195m
5.17E-17
4.84E-17
4.25E-17
4.25E-17
3.69E-17
3.55E-17
Pt-197
2.75E-17
2.60E-17
2.41E-17
2.35E-17
2.12E-17
2.06E-17
Pt-197m
6.21E-17
5.86E-17
5.28E-17
5.28E-17
4.61E-17
4.48E-17
Pt-199
2.45E-16
2.33E-16
2.23E-16
2.15E-16
2.04E-16
2.01E-16
Pt-200
5.12E-17
4.84E-17
4.38E-17
4.33E-17
3.81E-17
3.71E-17
Pt-202
1.08E-16
1.06E-16
1.06E-16
1.04E-16
1.02E-16
1.01E-16
Gold
Au-186
1.37E-15
1.29E-15
1.22E-15
1.17E-15
1.09E-15
1.07E-15
Au-187
8.36E-16
7.84E-16
7.46E-16
7.18E-16
6.69E-16
6.55E-16
Au-190
1.79E-15
1.68E-15
1.59E-15
1.55E-15
1.45E-15
1.42E-15
Au-191
4.79E-16
4.50E-16
4.18E-16
4.05E-16
3.69E-16
3.60E-16
Au-192
1.47E-15
1.38E-15
1.31E-15
1.27E-15
1.18E-15
1.16E-15
Au-193
1.27E-16
1.20E-16
1.07E-16
1.07E-16
9.29E-17
9.03E-17
Au-193m
1.56E-16
1.45E-16
1.35E-16
1.35E-16
1.14E-16
1.11E-16
Au-194
8.07E-16
7.55E-16
7.16E-16
6.94E-16
6.38E-16
6.25E-16
Au-195
5.79E-17
5.45E-17
4.78E-17
4.78E-17
4.13E-17
3.98E-17
Aii-195m
1.59E-16
1.48E-16
1.38E-16
1.37E-16
1.16E-16
1.14E-16
Ail-196
3.84E-16
3.60E-16
3.32E-16
3.26E-16
2.92E-16
2.85E-16
Aii-196m
1.84E-16
1.77E-16
1.55E-16
1.54E-16
1.34E-16
1.31E-16
Aii-198
3.68E-16
3.47E-16
3.23E-16
3.13E-16
2.92E-16
2.85E-16
Aii-198m
4.17E-16
3.89E-16
3.57E-16
3.51E-16
3.03E-16
2.95E-16
Aii-199
7.49E-17
7.27E-17
6.36E-17
6.26E-17
5.52E-17
5.42E-17
Au-200
3.36E-16
3.19E-16
3.11E-16
2.99E-16
2.83E-16
2.79E-16
Au-200m
1.64E-15
1.53E-15
1.45E-15
1.38E-15
1.28E-15
1.25E-15
Au-201
8.62E-17
8.33E-17
8.13E-17
7.91E-17
7.65E-17
7.57E-17
Au-202
3.16E-16
3.03E-16
2.97E-16
2.87E-16
2.75E-16
2.71E-16
Mercury
Hg-190
1.49E-16
1.45E-16
1.25E-16
1.23E-16
1.10E-16
1.07E-16
Hg-191m
1.19E-15
1.11E-15
1.06E-15
1.02E-15
9.33E-16
9.12E-16
Hg-192
2.12E-16
1.99E-16
1.81E-16
1.81E-16
1.55E-16
1.51E-16
Hg-193
6.53E-16
6.12E-16
5.85E-16
5.60E-16
5.15E-16
5.05E-16
54
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hg-193m
8.13E-16
7.61E-16
7.26E-16
6.94E-16
6.44E-16
6.30E-16
Hg-194
8.10E-22
4.36E-22
3.04E-22
2.36E-22
8.04E-23
6.81E-23
Hg-195
1.54E-16
1.45E-16
1.36E-16
1.31E-16
1.18E-16
1.15E-16
Hg-195m
1.58E-16
1.48E-16
1.37E-16
1.34E-16
1.19E-16
1.16E-16
Hg-197
5.10E-17
4.86E-17
4.25E-17
4.25E-17
3.66E-17
3.53E-17
Hg-197m
7.13E-17
6.81E-17
5.98E-17
5.88E-17
5.23E-17
5.10E-17
Hg-199m
1.40E-16
1.35E-16
1.19E-16
1.17E-16
1.04E-16
1.02E-16
Hg-203
1.93E-16
1.80E-16
1.68E-16
1.67E-16
1.43E-16
1.40E-16
Hg-205
8.88E-17
8.68E-17
8.63E-17
8.46E-17
8.25E-17
8.21E-17
Hg-206
1.50E-16
1.42E-16
1.36E-16
1.33E-16
1.22E-16
1.20E-16
Hg-207
2.16E-15
2.03E-15
1.95E-15
1.88E-15
1.76E-15
1.73E-15
Thallium
Tl-190
1.30E-15
1.23E-15
1.16E-15
1.11E-15
1.05E-15
1.03E-15
Tl-190m
2.14E-15
2.01E-15
1.91E-15
1.81E-15
1.70E-15
1.67E-15
Tl-194
8.46E-16
7.99E-16
7.50E-16
7.20E-16
6.79E-16
6.63E-16
Tl-194m
2.10E-15
1.97E-15
1.87E-15
1.77E-15
1.66E-15
1.62E-15
Tl-195
9.41E-16
8.81E-16
8.42E-16
8.09E-16
7.53E-16
7.38E-16
Tl-196
1.48E-15
1.39E-15
1.32E-15
1.27E-15
1.19E-15
1.17E-15
Tl-197
3.62E-16
3.40E-16
3.19E-16
3.07E-16
2.83E-16
2.77E-16
Tl-198
1.55E-15
1.45E-15
1.38E-15
1.33E-15
1.24E-15
1.22E-15
Tl-198m
9.99E-16
9.38E-16
8.78E-16
8.42E-16
7.83E-16
7.63E-16
Tl-199
1.97E-16
1.86E-16
1.71E-16
1.67E-16
1.49E-16
1.45E-16
Tl-200
1.04E-15
9.75E-16
9.33E-16
8.91E-16
8.23E-16
8.05E-16
Tl-201
6.67E-17
6.39E-17
5.57E-17
5.57E-17
4.83E-17
4.68E-17
Tl-202
3.81E-16
3.59E-16
3.29E-16
3.20E-16
2.97E-16
2.89E-16
Tl-204
1.92E-17
1.85E-17
1.83E-17
1.78E-17
1.71E-17
1.70E-17
Tl-206
8.51E-17
8.33E-17
8.31E-17
8.15E-17
7.99E-17
7.96E-17
Tl-206m
1.98E-15
1.85E-15
1.77E-15
1.68E-15
1.55E-15
1.51E-15
Tl-207
7.73E-17
7.56E-17
7.54E-17
7.38E-17
7.23E-17
7.19E-17
Tl-208
2.51E-15
2.37E-15
2.24E-15
2.19E-15
2.07E-15
2.04E-15
Tl-209
1.77E-15
1.66E-15
1.58E-15
1.52E-15
1.43E-15
1.41E-15
Tl-210
2.33E-15
2.19E-15
2.12E-15
2.02E-15
1.89E-15
1.85E-15
Lead
Pb-194
8.52E-16
7.98E-16
7.59E-16
7.27E-16
6.73E-16
6.58E-16
Pb-195m
1.37E-15
1.28E-15
1.22E-15
1.16E-15
1.08E-15
1.05E-15
Pb-196
3.97E-16
3.73E-16
3.45E-16
3.36E-16
3.03E-16
2.96E-16
Pb-197
1.20E-15
1.12E-15
1.08E-15
1.03E-15
9.58E-16
9.38E-16
Pb-197m
9.50E-16
8.90E-16
8.43E-16
8.06E-16
7.43E-16
7.25E-16
Pb-198
3.49E-16
3.28E-16
3.04E-16
2.96E-16
2.65E-16
2.58E-16
Pb-199
8.17E-16
7.64E-16
7.29E-16
6.99E-16
6.48E-16
6.34E-16
Pb-200
1.57E-16
1.50E-16
1.33E-16
1.31E-16
1.16E-16
1.13E-16
Pb-201
6.07E-16
5.68E-16
5.40E-16
5.17E-16
4.71E-16
4.60E-16
Pb-201m
3.33E-16
3.14E-16
2.99E-16
2.85E-16
2.70E-16
2.65E-16
Pb-202
3.02E-22
1.59E-22
1.08E-22
7.04E-23
2.62E-23
2.35E-23
Pb-202m
1.63E-15
1.52E-15
1.48E-15
1.39E-15
1.29E-15
1.26E-15
Pb-203
2.48E-16
2.32E-16
2.14E-16
2.12E-16
1.83E-16
1.79E-16
55
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Pb-204m
1.68E-15
1.57E-15
1.54E-15
1.43E-15
1.33E-15
1.30E-15
Pb-205
3.09E-22
1.62E-22
1.10E-22
7.24E-23
2.69E-23
2.41E-23
Pb-209
9.64E-18
9.18E-18
9.14E-18
8.69E-18
8.28E-18
8.18E-18
Pb-210
1.25E-18
9.97E-19
9.06E-19
8.71E-19
7.05E-19
6.80E-19
Pb-211
1.19E-16
1.14E-16
1.12E-16
1.08E-16
1.03E-16
1.02E-16
Pb-212
1.17E-16
1.09E-16
1.01E-16
9.97E-17
8.52E-17
8.31E-17
Pb-214
2.19E-16
2.05E-16
1.92E-16
1.87E-16
1.67E-16
1.64E-16
Bismuth
Bi-197
1.39E-15
1.30E-15
1.26E-15
1.19E-15
1.11E-15
1.09E-15
Bi-200
2.00E-15
1.88E-15
1.79E-15
1.70E-15
1.58E-15
1.54E-15
Bi-201
1.35E-15
1.26E-15
1.22E-15
1.16E-15
1.08E-15
1.06E-15
Bi-202
2.22E-15
2.08E-15
2.01E-15
1.89E-15
1.77E-15
1.73E-15
Bi-203
1.85E-15
1.73E-15
1.67E-15
1.59E-15
1.48E-15
1.46E-15
Bi-204
2.32E-15
2.16E-15
2.11E-15
1.98E-15
1.84E-15
1.80E-15
Bi-205
1.31E-15
1.22E-15
1.17E-15
1.12E-15
1.05E-15
1.03E-15
Bi-206
2.62E-15
2.45E-15
2.36E-15
2.23E-15
2.08E-15
2.04E-15
Bi-207
1.24E-15
1.16E-15
1.12E-15
1.06E-15
9.91E-16
9.70E-16
Bi-208
1.82E-15
1.72E-15
1.62E-15
1.60E-15
1.51E-15
1.49E-15
Bi-210
5.09E-17
4.98E-17
4.97E-17
4.86E-17
4.76E-17
4.73E-17
Bi-210m
2.11E-16
1.97E-16
1.84E-16
1.82E-16
1.58E-16
1.54E-16
Bi-211
3.88E-17
3.63E-17
3.36E-17
3.30E-17
2.96E-17
2.89E-17
Bi-212
1.64E-16
1.57E-16
1.54E-16
1.48E-16
1.42E-16
1.41E-16
Bi-212n
8.41E-17
8.23E-17
8.21E-17
8.05E-17
7.89E-17
7.85E-17
Bi-213
1.66E-16
1.58E-16
1.51E-16
1.46E-16
1.39E-16
1.37E-16
Bi-214
1.25E-15
1.17E-15
1.13E-15
1.08E-15
1.02E-15
1.00E-15
Bi-215
3.03E-16
2.87E-16
2.78E-16
2.69E-16
2.50E-16
2.46E-16
Bi-216
8.29E-16
7.87E-16
7.45E-16
7.18E-16
6.84E-16
6.71E-16
Polonium
Po-203
1.30E-15
1.22E-15
1.18E-15
1.11E-15
1.03E-15
1.01E-15
Po-204
9.26E-16
8.64E-16
8.34E-16
7.85E-16
7.23E-16
7.07E-16
Po-205
1.26E-15
1.17E-15
1.14E-15
1.07E-15
9.99E-16
9.78E-16
Po-206
9.58E-16
8.95E-16
8.62E-16
8.14E-16
7.53E-16
7.36E-16
Po-207
1.03E-15
9.57E-16
9.36E-16
8.75E-16
8.13E-16
7.95E-16
Po-208
1.73E-20
1.62E-20
1.53E-20
1.46E-20
1.35E-20
1.32E-20
Po-209
4.95E-18
4.61E-18
4.48E-18
4.23E-18
3.84E-18
3.75E-18
Po-210
7.92E-21
7.40E-21
7.27E-21
6.74E-21
6.30E-21
6.16E-21
Po-211
6.68E-18
6.26E-18
6.07E-18
5.67E-18
5.32E-18
5.20E-18
Po-212
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Po-212m
5.63E-17
5.29E-17
4.99E-17
4.91E-17
4.64E-17
4.56E-17
Po-213
3.07E-20
2.87E-20
2.81E-20
2.61E-20
2.45E-20
2.39E-20
Po-214
6.76E-20
6.32E-20
6.20E-20
5.75E-20
5.38E-20
5.26E-20
Po-215
1.47E-19
1.39E-19
1.28E-19
1.23E-19
1.16E-19
1.13E-19
Po-216
1.25E-20
1.16E-20
1.14E-20
1.06E-20
9.91E-21
9.70E-21
Po-218
3.01E-22
2.80E-22
2.78E-22
2.58E-22
2.40E-22
2.35E-22
Astatine
At-204
1.98E-15
1.86E-15
1.76E-15
1.67E-15
1.57E-15
1.54E-15
56
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
At-205
9.48E-16
8.89E-16
8.49E-16
8.06E-16
7.57E-16
7.40E-16
At-206
2.06E-15
1.93E-15
1.84E-15
1.75E-15
1.64E-15
1.60E-15
At-207
1.59E-15
1.48E-15
1.43E-15
1.35E-15
1.27E-15
1.24E-15
At-208
2.43E-15
2.28E-15
2.19E-15
2.07E-15
1.94E-15
1.89E-15
At-209
1.85E-15
1.73E-15
1.66E-15
1.56E-15
1.46E-15
1.43E-15
At-210
2.29E-15
2.14E-15
2.07E-15
1.97E-15
1.83E-15
1.79E-15
At-211
2.61E-17
2.39E-17
2.16E-17
2.08E-17
1.89E-17
1.82E-17
At-215
1.42E-19
1.34E-19
1.23E-19
1.20E-19
1.10E-19
1.08E-19
At-216
1.88E-18
1.73E-18
1.58E-18
1.54E-18
1.37E-18
1.32E-18
At-217
1.97E-19
1.84E-19
1.71E-19
1.68E-19
1.48E-19
1.44E-19
At-218
1.83E-19
1.79E-19
1.78E-19
1.74E-19
1.70E-19
1.69E-19
At-219
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
At-220
5.57E-16
5.28E-16
5.05E-16
4.93E-16
4.53E-16
4.45E-16
Radon
Rn-207
8.31E-16
7.79E-16
7.41E-16
7.05E-16
6.57E-16
6.41E-16
Rn-209
9.61E-16
8.99E-16
8.56E-16
8.17E-16
7.62E-16
7.45E-16
Rn-210
4.93E-17
4.61E-17
4.40E-17
4.16E-17
3.87E-17
3.78E-17
Rn-211
1.49E-15
1.39E-15
1.35E-15
1.27E-15
1.19E-15
1.16E-15
Rn-212
2.79E-19
2.62E-19
2.51E-19
2.36E-19
2.22E-19
2.17E-19
Rn-215
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-216
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-217
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-218
6.29E-19
5.91E-19
5.58E-19
5.29E-19
5.01E-19
4.88E-19
Rn-219
4.79E-17
4.48E-17
4.16E-17
4.08E-17
3.62E-17
3.54E-17
Rn-220
5.25E-19
4.94E-19
4.60E-19
4.39E-19
4.17E-19
4.06E-19
Rn-222
3.25E-19
3.06E-19
2.84E-19
2.72E-19
2.58E-19
2.51E-19
Rn-223
3.60E-16
3.40E-16
3.27E-16
3.12E-16
2.96E-16
2.91E-16
Francium
Fr-212
9.02E-16
8.40E-16
8.15E-16
7.72E-16
7.13E-16
6.99E-16
Fr-219
2.94E-18
2.76E-18
2.55E-18
2.48E-18
2.27E-18
2.21E-18
Fr-220
7.14E-18
6.55E-18
5.94E-18
5.70E-18
5.19E-18
5.02E-18
Fr-221
2.33E-17
2.17E-17
2.02E-17
1.99E-17
1.69E-17
1.65E-17
Fr-222
2.42E-16
2.30E-16
2.22E-16
2.16E-16
1.99E-16
1.96E-16
Fr-223
8.11E-17
7.58E-17
7.32E-17
7.10E-17
6.62E-17
6.52E-17
Fr-224
5.68E-16
5.36E-16
5.20E-16
4.99E-16
4.66E-16
4.59E-16
Fr-227
4.81E-16
4.53E-16
4.31E-16
4.14E-16
3.92E-16
3.84E-16
Radium
Ra-219
1.38E-16
1.28E-16
1.20E-16
1.17E-16
1.04E-16
1.01E-16
Ra-220
3.91E-18
3.68E-18
3.40E-18
3.27E-18
3.09E-18
3.00E-18
Ra-221
2.75E-17
2.62E-17
2.30E-17
2.21E-17
2.02E-17
1.97E-17
Ra-222
7.53E-18
7.03E-18
6.55E-18
6.43E-18
5.68E-18
5.55E-18
Ra-223
1.09E-16
1.01E-16
9.31E-17
9.02E-17
8.08E-17
7.86E-17
Ra-224
8.32E-18
7.75E-18
7.24E-18
7.17E-18
6.05E-18
5.92E-18
Ra-225
8.91E-18
7.19E-18
6.47E-18
6.07E-18
5.09E-18
4.90E-18
Ra-226
5.76E-18
5.46E-18
4.94E-18
4.86E-18
4.17E-18
4.09E-18
Ra-227
1.65E-16
1.55E-16
1.48E-16
1.44E-16
1.33E-16
1.31E-16
57
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ra-228
4.38E-20
3.05E-20
2.67E-20
2.67E-20
1.62E-20
1.57E-20
Ra-230
7.14E-17
6.65E-17
6.19E-17
5.98E-17
5.49E-17
5.34E-17
Actinium
Ac-22 3
1.38E-17
1.28E-17
1.18E-17
1.14E-17
1.03E-17
1.00E-17
Ac-224
1.77E-16
1.63E-16
1.50E-16
1.45E-16
1.28E-16
1.25E-16
Ac-22 5
1.09E-17
9.98E-18
9.13E-18
8.73E-18
7.95E-18
7.71E-18
Ac-226
1.30E-16
1.23E-16
1.15E-16
1.12E-16
1.00E-16
9.82E-17
Ac-227
9.54E-20
8.33E-20
7.55E-20
7.19E-20
6.29E-20
6.10E-20
Ac-22 8
7.37E-16
6.90E-16
6.74E-16
6.35E-16
5.92E-16
5.80E-16
Ac-230
5.63E-16
5.33E-16
5.15E-16
4.97E-16
4.72E-16
4.65E-16
Ac-231
4.21E-16
3.95E-16
3.74E-16
3.66E-16
3.30E-16
3.23E-16
Ac-232
1.03E-15
9.67E-16
9.30E-16
8.99E-16
8.51E-16
8.37E-16
Ac-23 3
5.54E-16
5.27E-16
4.99E-16
4.80E-16
4.60E-16
4.51E-16
Thorium
Th-223
5.44E-17
4.89E-17
4.50E-17
4.23E-17
3.94E-17
3.79E-17
Th-224
1.80E-17
1.71E-17
1.54E-17
1.51E-17
1.33E-17
1.30E-17
Th-226
6.05E-18
5.42E-18
5.09E-18
4.83E-18
4.39E-18
4.25E-18
Th-227
9.82E-17
9.07E-17
8.46E-17
8.31E-17
7.17E-17
7.00E-17
Th-228
1.59E-18
1.46E-18
1.33E-18
1.28E-18
1.14E-18
1.11E-18
Th-229
6.50E-17
5.85E-17
5.39E-17
5.12E-17
4.67E-17
4.50E-17
Th-230
3.01E-19
2.87E-19
2.49E-19
2.49E-19
2.12E-19
2.05E-19
Th-231
1.10E-17
9.71E-18
8.92E-18
8.40E-18
7.64E-18
7.36E-18
Th-232
1.59E-19
1.49E-19
1.27E-19
1.27E-19
1.07E-19
1.04E-19
Th-233
8.11E-17
7.79E-17
7.61E-17
7.37E-17
7.11E-17
7.03E-17
Th-234
7.36E-18
6.57E-18
6.07E-18
5.78E-18
5.27E-18
5.06E-18
Th-235
1.54E-16
1.49E-16
1.47E-16
1.42E-16
1.38E-16
1.37E-16
Th-236
6.91E-17
6.59E-17
6.43E-17
6.22E-17
5.97E-17
5.90E-17
Protactinium
Pa-227
1.47E-17
1.30E-17
1.20E-17
1.14E-17
1.05E-17
1.00E-17
Pa-228
1.08E-15
1.00E-15
9.73E-16
9.17E-16
8.53E-16
8.34E-16
Pa-229
4.67E-17
4.01E-17
3.81E-17
3.52E-17
3.34E-17
3.19E-17
Pa-230
5.33E-16
4.94E-16
4.83E-16
4.50E-16
4.20E-16
4.10E-16
Pa-231
2.75E-17
2.53E-17
2.35E-17
2.30E-17
2.01E-17
1.96E-17
Pa-232
7.56E-16
7.06E-16
6.90E-16
6.43E-16
5.99E-16
5.86E-16
Pa-233
1.75E-16
1.61E-16
1.51E-16
1.46E-16
1.31E-16
1.27E-16
Pa-234
1.18E-15
1.10E-15
1.07E-15
1.01E-15
9.37E-16
9.17E-16
Pa-234m
1.50E-16
1.46E-16
1.46E-16
1.42E-16
1.39E-16
1.38E-16
Pa-235
7.10E-17
6.95E-17
6.93E-17
6.79E-17
6.66E-17
6.62E-17
Pa-236
8.33E-16
7.84E-16
7.55E-16
7.24E-16
6.86E-16
6.73E-16
Pa-237
5.85E-16
5.51E-16
5.38E-16
5.06E-16
4.77E-16
4.68E-16
Uranium
U-227
9.12E-17
8.31E-17
7.79E-17
7.55E-17
6.63E-17
6.45E-17
U-228
3.05E-18
2.74E-18
2.55E-18
2.44E-18
2.19E-18
2.12E-18
U-230
8.71E-19
8.23E-19
7.26E-19
7.26E-19
6.20E-19
6.04E-19
U-231
5.33E-17
4.57E-17
4.33E-17
4.00E-17
3.78E-17
3.61E-17
U-232
2.05E-19
1.81E-19
1.59E-19
1.55E-19
1.31E-19
1.27E-19
58
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
U-233
2.03E-19
1.80E-19
1.63E-19
1.59E-19
1.37E-19
1.33E-19
U-234
1.15E-19
9.47E-20
8.39E-20
8.18E-20
6.63E-20
6.42E-20
U-235
1.27E-16
1.21E-16
1.09E-16
1.07E-16
9.26E-17
9.07E-17
U-235m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
U-236
6.79E-20
5.29E-20
4.66E-20
4.62E-20
3.48E-20
3.36E-20
U-237
1.04E-16
9.37E-17
8.70E-17
8.35E-17
7.44E-17
7.20E-17
U-238
5.70E-20
4.52E-20
4.00E-20
3.97E-20
3.04E-20
2.94E-20
U-239
9.00E-17
8.66E-17
8.28E-17
8.14E-17
7.65E-17
7.54E-17
U-240
5.98E-18
5.35E-18
5.12E-18
4.79E-18
4.40E-18
4.27E-18
U-242
8.19E-17
7.88E-17
7.62E-17
7.43E-17
7.09E-17
7.00E-17
Neptunium
Np-232
9.58E-16
8.89E-16
8.66E-16
8.12E-16
7.49E-16
7.32E-16
Np-233
6.63E-17
5.72E-17
5.46E-17
5.06E-17
4.79E-17
4.59E-17
Np-234
8.49E-16
7.89E-16
7.61E-16
7.27E-16
6.81E-16
6.68E-16
Np-235
5.33E-19
4.33E-19
3.99E-19
3.78E-19
3.28E-19
3.14E-19
Np-236
1.05E-16
9.57E-17
8.74E-17
8.27E-17
7.67E-17
7.43E-17
Np-236m
3.91E-17
3.41E-17
3.27E-17
3.03E-17
2.88E-17
2.77E-17
Np-237
1.79E-17
1.55E-17
1.42E-17
1.33E-17
1.22E-17
1.17E-17
Np-238
4.89E-16
4.56E-16
4.54E-16
4.21E-16
3.92E-16
3.85E-16
Np-239
1.42E-16
1.27E-16
1.20E-16
1.15E-16
1.03E-16
1.00E-16
Np-240
8.75E-16
8.18E-16
7.93E-16
7.44E-16
6.96E-16
6.81E-16
Np-240m
3.63E-16
3.45E-16
3.32E-16
3.19E-16
3.04E-16
2.98E-16
Np-241
8.44E-17
8.01E-17
7.84E-17
7.57E-17
7.32E-17
7.21E-17
Np-242
3.54E-16
3.37E-16
3.30E-16
3.18E-16
3.04E-16
3.00E-16
Np-242m
8.16E-16
7.66E-16
7.51E-16
7.04E-16
6.58E-16
6.45E-16
Plutonium
Pu-232
4.53E-17
3.88E-17
3.71E-17
3.42E-17
3.26E-17
3.12E-17
Pu-234
4.90E-17
4.19E-17
4.01E-17
3.69E-17
3.52E-17
3.37E-17
Pu-235
6.73E-17
5.81E-17
5.58E-17
5.14E-17
4.89E-17
4.69E-17
Pu-236
7.86E-20
5.87E-20
5.00E-20
5.00E-20
3.39E-20
3.28E-20
Pu-237
3.53E-17
3.02E-17
2.88E-17
2.66E-17
2.53E-17
2.42E-17
Pu-238
5.85E-20
4.21E-20
3.51E-20
3.51E-20
2.18E-20
2.11E-20
Pu-239
7.12E-20
6.00E-20
5.33E-20
5.23E-20
4.31E-20
4.18E-20
Pu-240
5.82E-20
4.22E-20
3.54E-20
3.54E-20
2.25E-20
2.17E-20
Pu-241
2.35E-21
2.13E-21
2.05E-21
1.90E-21
1.78E-21
1.73E-21
Pu-242
1.12E-19
9.47E-20
8.61E-20
8.53E-20
7.04E-20
6.90E-20
Pu-243
2.39E-17
2.18E-17
2.04E-17
1.93E-17
1.78E-17
1.73E-17
Pu-244
1.69E-17
1.59E-17
1.53E-17
1.47E-17
1.38E-17
1.36E-17
Pu-245
3.47E-16
3.23E-16
3.10E-16
2.95E-16
2.73E-16
2.67E-16
Pu-246
1.05E-16
9.44E-17
8.78E-17
8.46E-17
7.45E-17
7.24E-17
Americium
Am-237
2.91E-16
2.67E-16
2.51E-16
2.41E-16
2.19E-16
2.13E-16
Am-238
7.12E-16
6.61E-16
6.45E-16
6.03E-16
5.64E-16
5.51E-16
Am-239
1.78E-16
1.58E-16
1.50E-16
1.42E-16
1.29E-16
1.25E-16
Am-240
8.16E-16
7.57E-16
7.50E-16
6.94E-16
6.46E-16
6.32E-16
Am-241
1.55E-17
1.41E-17
1.23E-17
1.21E-17
1.02E-17
9.90E-18
59
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Am-242
1.80E-17
1.61E-17
1.56E-17
1.46E-17
1.39E-17
1.35E-17
Am-242m
4.01E-19
3.20E-19
2.69E-19
2.68E-19
1.99E-19
1.93E-19
Am-243
4.08E-17
3.84E-17
3.37E-17
3.37E-17
2.91E-17
2.81E-17
Am-244
6.47E-16
6.05E-16
5.89E-16
5.49E-16
5.13E-16
5.02E-16
Am-244m
8.90E-17
8.65E-17
8.62E-17
8.40E-17
8.18E-17
8.13E-17
Am-245
4.61E-17
4.31E-17
4.17E-17
4.03E-17
3.75E-17
3.68E-17
Am-246
6.41E-16
6.03E-16
5.77E-16
5.46E-16
5.09E-16
4.98E-16
Am-246m
8.44E-16
7.90E-16
7.80E-16
7.29E-16
6.82E-16
6.69E-16
Am-247
1.71E-16
1.61E-16
1.55E-16
1.50E-16
1.40E-16
1.37E-16
Curium
Cm-238
5.89E-17
5.11E-17
4.85E-17
4.48E-17
4.26E-17
4.09E-17
Cm-239
1.96E-16
1.81E-16
1.66E-16
1.60E-16
1.42E-16
1.39E-16
Cm-240
8.80E-20
6.41E-20
5.19E-20
5.19E-20
3.20E-20
3.11E-20
Cm-241
4.01E-16
3.73E-16
3.46E-16
3.30E-16
3.12E-16
3.03E-16
Cm-242
7.55E-20
5.43E-20
4.39E-20
4.39E-20
2.64E-20
2.56E-20
Cm-243
1.00E-16
9.04E-17
8.51E-17
8.20E-17
7.28E-17
7.06E-17
Cm-244
7.55E-20
5.69E-20
4.73E-20
4.73E-20
3.17E-20
3.10E-20
Cm-245
7.68E-17
6.77E-17
6.35E-17
5.93E-17
5.55E-17
5.35E-17
Cm-246
3.07E-18
2.87E-18
2.76E-18
2.66E-18
2.49E-18
2.44E-18
Cm-247
2.60E-16
2.44E-16
2.26E-16
2.19E-16
2.02E-16
1.97E-16
Cm-248
1.11E-15
1.04E-15
1.00E-15
9.66E-16
9.08E-16
8.93E-16
Cm-249
4.06E-17
3.89E-17
3.79E-17
3.65E-17
3.51E-17
3.47E-17
Cm-250
1.13E-14
1.07E-14
1.03E-14
9.89E-15
9.31E-15
9.15E-15
Cm-251
1.50E-16
1.43E-16
1.38E-16
1.33E-16
1.27E-16
1.25E-16
Berkelium
Bk-245
1.75E-16
1.57E-16
1.48E-16
1.41E-16
1.28E-16
1.24E-16
Bk-246
6.75E-16
6.27E-16
6.15E-16
5.71E-16
5.33E-16
5.22E-16
Bk-247
1.14E-16
1.04E-16
9.69E-17
9.37E-17
8.30E-17
8.05E-17
Bk-248m
5.61E-17
5.19E-17
4.95E-17
4.70E-17
4.49E-17
4.38E-17
Bk-249
3.85E-19
3.59E-19
3.56E-19
3.30E-19
3.07E-19
3.01E-19
Bk-250
7.36E-16
6.87E-16
6.83E-16
6.33E-16
5.89E-16
5.78E-16
Bk-251
9.14E-17
8.48E-17
7.97E-17
7.59E-17
7.18E-17
7.03E-17
Californium
Cf-244
9.38E-20
6.55E-20
5.00E-20
5.00E-20
2.77E-20
2.71E-20
Cf-246
9.93E-20
7.68E-20
6.36E-20
6.36E-20
4.56E-20
4.44E-20
Cf-247
6.83E-17
6.06E-17
5.64E-17
5.27E-17
4.96E-17
4.79E-17
Cf-248
3.58E-19
3.16E-19
2.92E-19
2.84E-19
2.50E-19
2.45E-19
Cf-249
2.68E-16
2.51E-16
2.32E-16
2.26E-16
2.06E-16
2.01E-16
Cf-250
8.22E-18
7.72E-18
7.41E-18
7.14E-18
6.69E-18
6.58E-18
Cf-251
9.02E-17
8.22E-17
7.59E-17
7.26E-17
6.55E-17
6.37E-17
Cf-252
3.82E-16
3.60E-16
3.46E-16
3.33E-16
3.13E-16
3.08E-16
Cf-253
2.00E-18
1.77E-18
1.69E-18
1.58E-18
1.40E-18
1.37E-18
Cf-254
1.43E-14
1.34E-14
1.29E-14
1.24E-14
1.17E-14
1.15E-14
Cf-255
1.32E-17
1.26E-17
1.26E-17
1.21E-17
1.16E-17
1.15E-17
Einsteinium
Es-249
3.25E-16
3.02E-16
2.85E-16
2.70E-16
2.51E-16
2.44E-16
60
-------�
Table 4-1. Reference person effective dose rate coefficients for ground surface, (continued)
Reference Person Coefficients (Sv Bq1 s_1 m2)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Es-250
9.48E-16
8.80E-16
8.49E-16
7.95E-16
7.37E-16
7.19E-16
Es-250m
4.31E-16
3.99E-16
3.90E-16
3.64E-16
3.39E-16
3.32E-16
Es-251
6.78E-17
6.09E-17
5.60E-17
5.24E-17
4.92E-17
4.77E-17
Es-253
2.90E-19
2.63E-19
2.39E-19
2.32E-19
2.08E-19
2.03E-19
Es-254
3.14E-18
2.72E-18
2.35E-18
2.35E-18
1.89E-18
1.83E-18
Es-254m
4.03E-16
3.78E-16
3.62E-16
3.41E-16
3.22E-16
3.15E-16
Es-255
2.20E-18
2.06E-18
2.03E-18
1.90E-18
1.77E-18
1.73E-18
Es-256
9.12E-17
8.92E-17
8.89E-17
8.72E-17
8.54E-17
8.50E-17
Fermium
Fm-251
1.18E-16
1.08E-16
1.01E-16
9.48E-17
8.88E-17
8.64E-17
Fm-252
3.22E-19
2.75E-19
2.49E-19
2.42E-19
2.08E-19
2.04E-19
Fm-253
4.38E-17
3.96E-17
3.63E-17
3.42E-17
3.17E-17
3.07E-17
Fm-254
5.90E-18
5.52E-18
5.28E-18
5.09E-18
4.76E-18
4.68E-18
Fm-255
2.05E-18
1.70E-18
1.44E-18
1.42E-18
1.13E-18
1.09E-18
Fm-256
1.04E-14
9.76E-15
9.38E-15
9.03E-15
8.49E-15
8.34E-15
Fm-257
1.10E-16
1.02E-16
9.44E-17
9.04E-17
8.24E-17
8.04E-17
61
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm.
Explanation of entries
For each radionuclide, values for the age-dependent effective dose rate coefficients e. based on the
weighting factors of Table 3-1, are given in SI units. Reference person organ equivalent dose coefficients
hr are provided electronically.12
e: The effective dose rate coefficient (Sv Bq 1 s"1 m3), that is, the effective dose per unit
time-integrated exposure to a radionuclide
wf- The tissue weighting factor
6 = Wt ^T
T
where hT is the equivalent dose rate coefficient (Sv Bq"1 s"1 m3) for tissue T.
The dose rate coefficients provided in Table 4-2 are based on the radiations emitted by the indicated
radionuclide and do not include the radiations emitted by radioactive decay products. Radioactive decay
products for each radionuclide are identified in Appendix A.
To convert from a source per unit volume (Sv Bq"1 s"1 m3) to a source per unit mass basis (Sv Bq"1 s"1
kg), multiply table entries by 1.6 x 103.
To convert from SI units (Sv Bq"1 s"1 m3) to conventional units (mrem jxCi"1 y"1 cm3), multiply table
entries by 1.168 x 1023.
To convert from SI units for a source per unit volume (Sv Bq"1 s"1 m3) to conventional units for a source
per unit mass basis (mrem jxCi"1 y"1 g), multiply table entries by 1.868 x 1023.
Radionuclide dose rate coefficients for soil contaminated to a finite depth cannot be scaled to
account for a different soil density.
12 https://www.epa.gov/radiation/federal-guidance-report-no-15-external-exposure-radionuclides-air-water-and-soil
62
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm.
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hydrogen
H-3
Beryllium
Be-7
Be-10
Carbon
C-10
C-ll
C-14
Nitrogen
N-13
N-16
Oxygen
0-14
0-15
0-19
Fluorine
F-17
F-18
Neon
Ne-19
Ne-24
Sodium
Na-22
Na-24
Magnesium
Mg-27
Mg-28
Aluminum
Al-26
Al-28
Al-29
Silicon
Si-31
Si-32
Phosphorus
P-30
P-32
P-33
Sulfur
S-35
S-37
S-38
Chlorine
Cl-34
Cl-34m
8.10E-24
3.94E-19
8.57E-20
1.41E-17
8.20E-18
7.44E-21
8.28E-18
2.78E-17
2.42E-17
8.47E-18
8.39E-18
8.47E-18
7.88E-18
8.66E-18
4.74E-18
1.67E-17
2.84E-17
7.20E-18
1.02E-17
1.99E-17
1.35E-17
1.07E-17
3.15E-19
1.31E-20
9.13E-18
3.86E-19
1.56E-20
7.48E-21
1.92E-17
1.22E-17
9.79E-18
1.53E-17
7.54E-24
68E-19
98E-20
32E-17
67E-18
93E-21
74E-18
66E-17
27E-17
92E-18
84E-18
92E-18
37E-18
;.10E-18
.43E-18
.56E-17
.67E-17
.71E-18
.51E-18
.86E-17
.27E-17
.00E-17
.96E-19
.22E-20
.54E-18
.63E-19
.45E-20
.97E-21
.81E-17
.14E-17
.17E-18
.44E-17
7.43E-24
3.41E-19
7.85E-20
1.25E-17
7.14E-18
6.82E-21
7.20E-18
2.59E-17
2.13E-17
7.38E-18
7.55E-18
7.38E-18
6.85E-18
7.56E-18
4.16E-18
1.49E-17
2.54E-17
6.58E-18
9.19E-18
1.75E-17
1.21E-17
9.71E-18
2.91E-19
1.20E-20
7.99E-18
3.57E-19
1.43E-20
6.86E-21
1.72E-17
1.08E-17
8.61E-18
1.35E-17
6.92E-24
3.29E-19
7.33E-20
1.19E-17
6.85E-18
6.36E-21
6.92E-18
2.55E-17
2.08E-17
7.09E-18
7.22E-18
7.09E-18
6.58E-18
7.26E-18
3.98E-18
1.42E-17
2.48E-17
6.14E-18
8.71E-18
1.70E-17
1.17E-17
9.24E-18
2.74E-19
1.12E-20
7.67E-18
3.38E-19
1.33E-20
6.39E-21
1.70E-17
1.06E-17
8.26E-18
1.32E-17
6.42E-24
3.08E-19
6.81E-20
1.11E-17
6.43E-18
5.90E-21
6.49E-18
2.44E-17
1.96E-17
6.65E-18
6.69E-18
6.65E-18
6.18E-18
6.82E-18
3.73E-18
1.33E-17
2.33E-17
5.71E-18
8.11E-18
1.60E-17
1.10E-17
8.63E-18
2.58E-19
1.04E-20
7.21E-18
3.17E-19
1.24E-20
5.93E-21
1.60E-17
9.95E-18
7.77E-18
1.24E-17
6.30E-24
3.00E-19
6.68E-20
1.09E-17
6.28E-18
5.79E-21
6.34E-18
2.42E-17
1.92E-17
6.49E-18
6.58E-18
6.50E-18
6.03E-18
6.66E-18
3.65E-18
1.30E-17
2.30E-17
5.60E-18
7.95E-18
1.57E-17
1.09E-17
8.49E-18
2.53E-19
1.02E-20
7.04E-18
3.13E-19
1.21E-20
5.82E-21
1.58E-17
9.79E-18
7.59E-18
1.22E-17
63
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cl-36
1.01E-19
9.38E-20
9.23E-20
8.63E-20
8.02E-20
7.88E-20
Cl-38
1.14E-17
1.07E-17
1.02E-17
9.92E-18
9.35E-18
9.20E-18
Cl-39
1.12E-17
1.05E-17
1.01E-17
9.64E-18
8.97E-18
8.81E-18
Cl-40
2.86E-17
2.69E-17
2.57E-17
2.51E-17
2.36E-17
2.33E-17
Argon
Ar-37
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ar-39
7.20E-20
6.70E-20
6.59E-20
6.16E-20
5.72E-20
5.61E-20
Ar-41
9.71E-18
9.05E-18
8.80E-18
8.34E-18
7.78E-18
7.64E-18
Ar-42
7.85E-20
7.31E-20
7.19E-20
6.72E-20
6.24E-20
6.13E-20
Ar-43
1.22E-17
1.14E-17
1.10E-17
1.05E-17
9.83E-18
9.66E-18
Ar-44
1.42E-17
1.33E-17
1.26E-17
1.23E-17
1.15E-17
1.13E-17
Potassium
K-38
2.38E-17
2.23E-17
2.10E-17
2.05E-17
1.93E-17
1.89E-17
K-40
1.41E-18
1.32E-18
1.28E-18
1.22E-18
1.14E-18
1.12E-18
K-42
3.11E-18
2.91E-18
2.82E-18
2.70E-18
2.54E-18
2.50E-18
K-43
7.68E-18
7.16E-18
6.74E-18
6.45E-18
5.99E-18
5.86E-18
K-44
1.80E-17
1.68E-17
1.62E-17
1.56E-17
1.46E-17
1.44E-17
K-45
1.38E-17
1.29E-17
1.23E-17
1.19E-17
1.11E-17
1.09E-17
K-46
2.17E-17
2.04E-17
1.96E-17
1.90E-17
1.78E-17
1.76E-17
Calcium
Ca-41
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ca-45
1.59E-20
1.48E-20
1.46E-20
1.36E-20
1.26E-20
1.24E-20
Ca-47
7.97E-18
7.43E-18
7.21E-18
6.84E-18
6.38E-18
6.26E-18
Ca-49
2.07E-17
1.95E-17
1.85E-17
1.83E-17
1.73E-17
1.71E-17
Scandium
Sc-42m
3.25E-17
3.04E-17
2.90E-17
2.77E-17
2.59E-17
2.54E-17
Sc-43
7.95E-18
7.43E-18
6.92E-18
6.65E-18
6.23E-18
6.08E-18
Sc-44
1.67E-17
1.56E-17
1.49E-17
1.41E-17
1.32E-17
1.29E-17
Sc-44m
2.12E-18
1.97E-18
1.86E-18
1.80E-18
1.60E-18
1.57E-18
Sc-46
1.52E-17
1.42E-17
1.39E-17
1.30E-17
1.21E-17
1.19E-17
Sc-47
8.64E-19
8.25E-19
7.43E-19
7.19E-19
6.49E-19
6.39E-19
Sc-48
2.52E-17
2.35E-17
2.30E-17
2.16E-17
2.01E-17
1.97E-17
Sc-49
4.96E-19
4.67E-19
4.59E-19
4.35E-19
4.10E-19
4.04E-19
Sc-50
2.50E-17
2.34E-17
2.25E-17
2.15E-17
2.01E-17
1.97E-17
Titanium
Ti-44
1.01E-18
9.29E-19
8.39E-19
8.14E-19
7.09E-19
6.89E-19
Ti-45
7.03E-18
6.57E-18
6.11E-18
5.87E-18
5.51E-18
5.38E-18
Ti-51
3.41E-18
3.17E-18
3.02E-18
2.90E-18
2.64E-18
2.59E-18
Ti-52
1.36E-18
1.27E-18
1.18E-18
1.12E-18
1.04E-18
1.02E-18
Vanadium
V-47
8.32E-18
7.78E-18
7.26E-18
6.97E-18
6.54E-18
6.39E-18
V-48
2.20E-17
2.05E-17
1.99E-17
1.88E-17
1.75E-17
1.72E-17
V-49
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
V-50
1.04E-17
9.70E-18
9.29E-18
8.94E-18
8.37E-18
8.23E-18
V-52
1.13E-17
1.05E-17
1.02E-17
9.73E-18
9.10E-18
8.94E-18
V-53
8.49E-18
7.91E-18
7.78E-18
7.27E-18
6.76E-18
6.64E-18
64
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Chromium
Cr-48
3.37E-18
3.10E-18
2.90E-18
2.80E-18
2.53E-18
2.48E-18
Cr-49
8.58E-18
8.01E-18
7.45E-18
7.15E-18
6.69E-18
6.53E-18
Cr-51
2.49E-19
2.31E-19
2.16E-19
2.10E-19
1.89E-19
1.85E-19
Cr-55
7.46E-19
7.04E-19
6.92E-19
6.57E-19
6.20E-19
6.11E-19
Cr-56
9.21E-19
8.38E-19
7.87E-19
7.47E-19
6.78E-19
6.62E-19
Manganese
Mn-50m
3.62E-17
3.38E-17
3.25E-17
3.09E-17
2.88E-17
2.83E-17
Mn-51
8.46E-18
7.91E-18
7.38E-18
7.09E-18
6.65E-18
6.50E-18
Mn-52
2.61E-17
2.43E-17
2.35E-17
2.22E-17
2.07E-17
2.03E-17
Mn-52m
1.90E-17
1.77E-17
1.68E-17
1.61E-17
1.51E-17
1.48E-17
Mn-53
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Mn-54
6.42E-18
5.97E-18
5.84E-18
5.44E-18
5.06E-18
4.96E-18
Mn-56
1.30E-17
1.21E-17
1.17E-17
1.11E-17
1.04E-17
1.02E-17
Mn-57
1.47E-18
1.38E-18
1.33E-18
1.26E-18
1.18E-18
1.16E-18
Mn-58m
1.92E-17
1.79E-17
1.73E-17
1.64E-17
1.54E-17
1.51E-17
Iron
Fe-52
5.85E-18
5.49E-18
5.07E-18
4.88E-18
4.54E-18
4.44E-18
Fe-53
1.00E-17
9.36E-18
8.74E-18
8.40E-18
7.87E-18
7.69E-18
Fe-53m
2.28E-17
2.13E-17
2.06E-17
1.95E-17
1.82E-17
1.79E-17
Fe-55
1.20E-27
1.12E-27
1.02E-27
9.74E-28
8.94E-28
8.75E-28
Fe-59
8.89E-18
8.28E-18
8.09E-18
7.62E-18
7.09E-18
6.96E-18
Fe-60
1.15E-20
1.07E-20
1.06E-20
9.87E-21
9.16E-21
8.99E-21
Fe-61
1.11E-17
1.03E-17
1.00E-17
9.50E-18
8.85E-18
8.69E-18
Fe-62
4.49E-18
4.20E-18
3.93E-18
3.77E-18
3.54E-18
3.46E-18
Cobalt
Co-54m
3.15E-17
2.94E-17
2.82E-17
2.68E-17
2.51E-17
2.46E-17
Co-55
1.55E-17
1.45E-17
1.39E-17
1.32E-17
1.23E-17
1.20E-17
Co-56
2.63E-17
2.46E-17
2.37E-17
2.26E-17
2.12E-17
2.08E-17
Co-57
8.99E-19
8.34E-19
7.62E-19
7.26E-19
6.67E-19
6.52E-19
Co-58
7.53E-18
7.02E-18
6.79E-18
6.37E-18
5.94E-18
5.81E-18
Co-58m
2.37E-23
1.59E-23
1.23E-23
1.12E-23
7.56E-24
7.18E-24
Co-60
1.86E-17
1.73E-17
1.69E-17
1.60E-17
1.49E-17
1.46E-17
Co-60m
3.38E-20
3.10E-20
2.94E-20
2.80E-20
2.56E-20
2.51E-20
Co-61
9.32E-19
8.63E-19
8.14E-19
7.75E-19
6.97E-19
6.82E-19
Co-62
1.29E-17
1.21E-17
1.17E-17
1.12E-17
1.04E-17
1.03E-17
Co-62m
2.05E-17
1.91E-17
1.86E-17
1.77E-17
1.65E-17
1.62E-17
Nickel
Ni-56
1.32E-17
1.23E-17
1.18E-17
1.11E-17
1.03E-17
1.01E-17
Ni-57
1.44E-17
1.35E-17
1.29E-17
1.23E-17
1.16E-17
1.13E-17
Ni-59
1.23E-22
1.15E-22
1.07E-22
1.02E-22
9.61E-23
9.37E-23
Ni-63
9.71E-22
9.04E-22
8.90E-22
8.29E-22
7.70E-22
7.55E-22
Ni-65
4.48E-18
4.18E-18
4.04E-18
3.85E-18
3.60E-18
3.53E-18
Ni-66
1.48E-20
1.38E-20
1.36E-20
1.27E-20
1.17E-20
1.15E-20
Copper
Cu-57
1.28E-17
1.20E-17
1.14E-17
1.09E-17
1.03E-17
1.01E-17
65
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cu-59
1.24E-17
1.16E-17
1.09E-17
1.04E-17
9.79E-18
9.58E-18
Cu-60
2.93E-17
2.74E-17
2.61E-17
2.51E-17
2.35E-17
2.31E-17
Cu-61
6.59E-18
6.16E-18
5.77E-18
5.53E-18
5.17E-18
5.05E-18
Cu-62
8.85E-18
8.29E-18
7.75E-18
7.44E-18
6.99E-18
6.83E-18
Cu-64
1.49E-18
1.39E-18
1.30E-18
1.25E-18
1.17E-18
1.14E-18
Cu-66
1.45E-18
1.36E-18
1.34E-18
1.26E-18
1.18E-18
1.16E-18
Cu-67
9.10E-19
8.48E-19
7.84E-19
7.56E-19
6.74E-19
6.60E-19
Cu-69
4.57E-18
4.26E-18
4.16E-18
3.91E-18
3.64E-18
3.58E-18
Zinc
Zn-60
1.28E-17
1.19E-17
1.12E-17
1.07E-17
1.00E-17
9.79E-18
Zn-61
1.33E-17
1.24E-17
1.17E-17
1.13E-17
1.06E-17
1.04E-17
Zn-62
3.45E-18
3.21E-18
3.00E-18
2.87E-18
2.68E-18
2.62E-18
Zn-63
9.19E-18
8.60E-18
8.06E-18
7.72E-18
7.24E-18
7.08E-18
Zn-65
4.35E-18
4.05E-18
3.97E-18
3.72E-18
3.46E-18
3.39E-18
Zn-69
1.27E-19
1.18E-19
1.17E-19
1.09E-19
1.02E-19
1.00E-19
Zn-69m
3.29E-18
3.07E-18
2.84E-18
2.74E-18
2.56E-18
2.50E-18
Zn-71
3.14E-18
2.94E-18
2.81E-18
2.67E-18
2.50E-18
2.45E-18
Zn-71m
1.25E-17
1.17E-17
1.10E-17
1.05E-17
9.78E-18
9.56E-18
Zn-72
1.12E-18
1.06E-18
9.52E-19
9.19E-19
8.32E-19
8.18E-19
Gallium
Ga-64
2.58E-17
2.42E-17
2.30E-17
2.21E-17
2.08E-17
2.04E-17
Ga-65
9.57E-18
8.93E-18
8.37E-18
8.01E-18
7.49E-18
7.32E-18
Ga-66
1.81E-17
1.70E-17
1.62E-17
1.57E-17
1.48E-17
1.45E-17
Ga-67
1.19E-18
1.09E-18
1.02E-18
9.83E-19
8.85E-19
8.65E-19
Ga-68
7.90E-18
7.39E-18
6.90E-18
6.62E-18
6.21E-18
6.07E-18
Ga-70
4.04E-19
3.80E-19
3.73E-19
3.52E-19
3.30E-19
3.25E-19
Ga-72
1.99E-17
1.86E-17
1.79E-17
1.71E-17
1.61E-17
1.58E-17
Ga-73
2.91E-18
2.69E-18
2.54E-18
2.45E-18
2.22E-18
2.17E-18
Ga-74
2.32E-17
2.17E-17
2.06E-17
2.00E-17
1.88E-17
1.85E-17
Germanium
Ge-66
5.27E-18
4.90E-18
4.58E-18
4.40E-18
4.07E-18
3.98E-18
Ge-67
1.18E-17
1.11E-17
1.04E-17
9.97E-18
9.32E-18
9.12E-18
Ge-68
5.58E-23
3.58E-23
2.04E-23
1.84E-23
6.64E-24
6.13E-24
Ge-69
7.28E-18
6.79E-18
6.53E-18
6.18E-18
5.76E-18
5.65E-18
Ge-71
5.67E-23
3.63E-23
2.07E-23
1.87E-23
6.74E-24
6.22E-24
Ge-75
4.62E-19
4.30E-19
4.12E-19
3.94E-19
3.58E-19
3.51E-19
Ge-77
8.63E-18
8.04E-18
7.65E-18
7.32E-18
6.73E-18
6.60E-18
Ge-78
2.24E-18
2.08E-18
1.95E-18
1.90E-18
1.69E-18
1.65E-18
Arsenic
As-68
2.95E-17
2.76E-17
2.64E-17
2.52E-17
2.36E-17
2.31E-17
As-69
9.78E-18
9.15E-18
8.57E-18
8.23E-18
7.72E-18
7.54E-18
As-70
3.25E-17
3.04E-17
2.91E-17
2.77E-17
2.59E-17
2.54E-17
As-71
4.48E-18
4.19E-18
3.91E-18
3.75E-18
3.47E-18
3.40E-18
As-72
1.45E-17
1.35E-17
1.29E-17
1.22E-17
1.14E-17
1.12E-17
As-73
4.11E-20
3.48E-20
3.08E-20
2.85E-20
2.41E-20
2.35E-20
As-74
6.06E-18
5.66E-18
5.32E-18
5.08E-18
4.76E-18
4.65E-18
66
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
As-76
3.94E-18
3.69E-18
3.51E-18
3.35E-18
3.14E-18
3.08E-18
As-77
1.41E-19
1.32E-19
1.26E-19
1.20E-19
1.10E-19
1.08E-19
As-78
1.07E-17
1.00E-17
9.59E-18
9.15E-18
8.57E-18
8.41E-18
As-79
8.05E-19
7.56E-19
7.36E-19
6.98E-19
6.54E-19
6.43E-19
Selenium
Se-70
5.68E-18
5.29E-18
4.91E-18
4.72E-18
4.39E-18
4.29E-18
Se-71
1.34E-17
1.26E-17
1.19E-17
1.13E-17
1.06E-17
1.04E-17
Se-72
1.85E-19
1.48E-19
1.29E-19
1.17E-19
9.64E-20
9.38E-20
Se-73
8.73E-18
8.14E-18
7.58E-18
7.30E-18
6.77E-18
6.61E-18
Se-73m
2.14E-18
2.00E-18
1.87E-18
1.79E-18
1.67E-18
1.63E-18
Se-75
2.95E-18
2.75E-18
2.55E-18
2.47E-18
2.22E-18
2.17E-18
Se-77m
6.48E-19
6.18E-19
5.55E-19
5.38E-19
4.84E-19
4.77E-19
Se-79
8.28E-21
7.71E-21
7.59E-21
7.07E-21
6.57E-21
6.45E-21
Se-79m
6.84E-20
6.06E-20
5.70E-20
5.36E-20
4.91E-20
4.75E-20
Se-81
3.86E-19
3.62E-19
3.54E-19
3.35E-19
3.13E-19
3.08E-19
Se-81m
1.03E-19
9.16E-20
8.64E-20
8.13E-20
7.47E-20
7.25E-20
Se-83
1.98E-17
1.85E-17
1.77E-17
1.69E-17
1.58E-17
1.55E-17
Se-83m
8.23E-18
7.69E-18
7.44E-18
7.07E-18
6.60E-18
6.48E-18
Se-84
3.59E-18
3.35E-18
3.12E-18
3.01E-18
2.80E-18
2.73E-18
Bromine
Br-72
2.51E-17
2.35E-17
2.25E-17
2.14E-17
2.01E-17
1.97E-17
Br-73
1.22E-17
1.14E-17
1.07E-17
1.02E-17
9.58E-18
9.36E-18
Br-74
3.26E-17
3.07E-17
2.91E-17
2.82E-17
2.66E-17
2.61E-17
Br-74m
3.11E-17
2.91E-17
2.77E-17
2.66E-17
2.50E-17
2.46E-17
Br-75
9.68E-18
9.03E-18
8.45E-18
8.12E-18
7.53E-18
7.36E-18
Br-76
2.08E-17
1.95E-17
1.84E-17
1.78E-17
1.67E-17
1.64E-17
Br-76m
2.47E-19
2.08E-19
1.85E-19
1.71E-19
1.47E-19
1.43E-19
Br-77
2.46E-18
2.29E-18
2.15E-18
2.07E-18
1.90E-18
1.86E-18
Br-77m
1.10E-19
9.82E-20
9.25E-20
8.71E-20
8.00E-20
7.77E-20
Br-78
8.82E-18
8.26E-18
7.72E-18
7.40E-18
6.95E-18
6.79E-18
Br-80
1.02E-18
9.55E-19
9.17E-19
8.71E-19
8.18E-19
8.02E-19
Br-80m
8.23E-20
6.18E-20
5.06E-20
4.53E-20
3.55E-20
3.42E-20
Br-82
2.02E-17
1.89E-17
1.82E-17
1.72E-17
1.60E-17
1.57E-17
Br-82m
4.51E-20
4.20E-20
4.06E-20
3.84E-20
3.57E-20
3.51E-20
Br-83
1.84E-19
1.72E-19
1.66E-19
1.57E-19
1.47E-19
1.44E-19
Br-84
1.31E-17
1.23E-17
1.19E-17
1.14E-17
1.07E-17
1.06E-17
Br-84m
2.13E-17
1.99E-17
1.92E-17
1.82E-17
1.70E-17
1.67E-17
Br-85
1.19E-18
1.12E-18
1.09E-18
1.03E-18
9.69E-19
9.53E-19
Krypton
Kr-74
8.59E-18
8.01E-18
7.47E-18
7.18E-18
6.67E-18
6.52E-18
Kr-75
1.11E-17
1.04E-17
9.76E-18
9.36E-18
8.76E-18
8.57E-18
Kr-76
3.27E-18
3.03E-18
2.84E-18
2.74E-18
2.49E-18
2.43E-18
Kr-77
8.49E-18
7.95E-18
7.38E-18
7.09E-18
6.62E-18
6.47E-18
Kr-79
1.95E-18
1.82E-18
1.71E-18
1.64E-18
1.51E-18
1.48E-18
Kr-81
7.69E-21
6.87E-21
6.20E-21
6.00E-21
4.99E-21
4.87E-21
Kr-81m
9.85E-19
9.24E-19
8.52E-19
8.27E-19
7.28E-19
7.15E-19
67
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Kr-83m
5.74E-22
4.33E-22
3.10E-22
2.90E-22
1.15E-22
1.06E-22
Kr-85
1.06E-19
9.91E-20
9.66E-20
9.07E-20
8.44E-20
8.28E-20
Kr-85m
1.27E-18
1.21E-18
1.10E-18
1.06E-18
9.59E-19
9.42E-19
Kr-87
6.66E-18
6.25E-18
5.94E-18
5.76E-18
5.40E-18
5.31E-18
Kr-88
1.39E-17
1.30E-17
1.23E-17
1.20E-17
1.13E-17
1.11E-17
Kr-89
1.48E-17
1.39E-17
1.33E-17
1.28E-17
1.20E-17
1.18E-17
Rubidium
Rb-77
1.33E-17
1.25E-17
1.17E-17
1.12E-17
1.05E-17
1.03E-17
Rb-78
2.94E-17
2.76E-17
2.61E-17
2.54E-17
2.39E-17
2.35E-17
Rb-78m
2.53E-17
2.37E-17
2.25E-17
2.16E-17
2.02E-17
1.98E-17
Rb-79
1.18E-17
1.10E-17
1.03E-17
9.86E-18
9.21E-18
9.00E-18
Rb-80
1.11E-17
1.04E-17
9.78E-18
9.37E-18
8.80E-18
8.61E-18
Rb-81
4.00E-18
3.74E-18
3.49E-18
3.35E-18
3.14E-18
3.06E-18
Rb-81m
1.89E-19
1.75E-19
1.65E-19
1.57E-19
1.45E-19
1.42E-19
Rb-82
9.77E-18
9.14E-18
8.58E-18
8.22E-18
7.71E-18
7.54E-18
Rb-82m
2.24E-17
2.09E-17
2.00E-17
1.90E-17
1.77E-17
1.73E-17
Rb-83
3.81E-18
3.57E-18
3.32E-18
3.19E-18
2.99E-18
2.92E-18
Rb-84
7.05E-18
6.57E-18
6.34E-18
5.96E-18
5.56E-18
5.44E-18
Rb-84m
2.97E-18
2.76E-18
2.58E-18
2.50E-18
2.26E-18
2.21E-18
Rb-86
1.08E-18
1.01E-18
9.90E-19
9.29E-19
8.67E-19
8.52E-19
Rb-86m
4.30E-18
4.01E-18
3.75E-18
3.59E-18
3.37E-18
3.29E-18
Rb-87
2.84E-20
2.64E-20
2.60E-20
2.42E-20
2.25E-20
2.21E-20
Rb-88
6.36E-18
5.97E-18
5.75E-18
5.54E-18
5.22E-18
5.13E-18
Rb-89
1.69E-17
1.58E-17
1.53E-17
1.46E-17
1.36E-17
1.34E-17
Rb-90
1.49E-17
1.41E-17
1.36E-17
1.31E-17
1.24E-17
1.22E-17
Rb-90m
2.36E-17
2.21E-17
2.13E-17
2.05E-17
1.92E-17
1.89E-17
Strontium
Sr-79
1.07E-17
1.00E-17
9.40E-18
9.02E-18
8.45E-18
8.26E-18
Sr-80
3.39E-18
3.17E-18
2.96E-18
2.84E-18
2.65E-18
2.59E-18
Sr-81
1.15E-17
1.07E-17
1.00E-17
9.62E-18
8.98E-18
8.78E-18
Sr-82
2.46E-21
1.90E-21
1.40E-21
1.33E-21
4.75E-22
4.31E-22
Sr-83
6.33E-18
5.90E-18
5.61E-18
5.34E-18
4.98E-18
4.87E-18
Sr-85
3.88E-18
3.63E-18
3.38E-18
3.24E-18
3.04E-18
2.97E-18
Sr-85m
1.67E-18
1.55E-18
1.45E-18
1.41E-18
1.24E-18
1.21E-18
Sr-87m
2.51E-18
2.34E-18
2.17E-18
2.10E-18
1.94E-18
1.89E-18
Sr-89
3.08E-19
2.89E-19
2.84E-19
2.68E-19
2.52E-19
2.48E-19
Sr-90
6.24E-20
5.81E-20
5.72E-20
5.34E-20
4.95E-20
4.86E-20
Sr-91
5.78E-18
5.39E-18
5.25E-18
4.92E-18
4.58E-18
4.49E-18
Sr-92
9.92E-18
9.25E-18
8.94E-18
8.52E-18
7.95E-18
7.81E-18
Sr-93
1.74E-17
1.62E-17
1.56E-17
1.48E-17
1.39E-17
1.36E-17
Sr-94
1.10E-17
1.02E-17
9.88E-18
9.45E-18
8.84E-18
8.68E-18
Yttrium
Y-81
1.07E-17
1.00E-17
9.40E-18
9.02E-18
8.45E-18
8.26E-18
Y-83
1.14E-17
1.06E-17
9.99E-18
9.57E-18
8.97E-18
8.77E-18
Y-83m
7.13E-18
6.66E-18
6.22E-18
5.99E-18
5.57E-18
5.44E-18
Y-84m
3.13E-17
2.92E-17
2.81E-17
2.66E-17
2.48E-17
2.43E-17
68
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Y-85
8.74E-18
8.17E-18
7.64E-18
7.32E-18
6.86E-18
6.70E-18
Y-85m
1.03E-17
9.67E-18
9.13E-18
8.78E-18
8.22E-18
8.05E-18
Y-86
2.68E-17
2.50E-17
2.41E-17
2.29E-17
2.14E-17
2.10E-17
Y-86m
1.69E-18
1.57E-18
1.47E-18
1.43E-18
1.26E-18
1.23E-18
Y-87
3.46E-18
3.23E-18
3.00E-18
2.88E-18
2.70E-18
2.64E-18
Y-87m
2.41E-18
2.24E-18
2.08E-18
2.02E-18
1.86E-18
1.81E-18
Y-88
1.95E-17
1.82E-17
1.75E-17
1.68E-17
1.57E-17
1.55E-17
Y-89m
6.88E-18
6.41E-18
6.30E-18
5.86E-18
5.44E-18
5.33E-18
Y-90
5.97E-19
5.62E-19
5.53E-19
5.25E-19
4.95E-19
4.88E-19
Y-90m
4.97E-18
4.64E-18
4.31E-18
4.16E-18
3.82E-18
3.73E-18
Y-91
3.45E-19
3.24E-19
3.19E-19
3.01E-19
2.82E-19
2.78E-19
Y-91m
4.15E-18
3.88E-18
3.63E-18
3.47E-18
3.26E-18
3.18E-18
Y-92
3.01E-18
2.82E-18
2.75E-18
2.60E-18
2.43E-18
2.39E-18
Y-93
1.53E-18
1.44E-18
1.39E-18
1.33E-18
1.25E-18
1.23E-18
Y-94
7.30E-18
6.82E-18
6.66E-18
6.28E-18
5.87E-18
5.76E-18
Y-95
8.74E-18
8.21E-18
7.87E-18
7.63E-18
7.18E-18
7.07E-18
Zirconium
Zr-85
1.25E-17
1.17E-17
1.09E-17
1.05E-17
9.84E-18
9.62E-18
Zr-86
2.14E-18
1.97E-18
1.85E-18
1.80E-18
1.59E-18
1.56E-18
Zr-87
7.78E-18
7.27E-18
6.81E-18
6.53E-18
6.13E-18
5.99E-18
Zr-88
3.02E-18
2.81E-18
2.61E-18
2.52E-18
2.33E-18
2.27E-18
Zr-89
8.88E-18
8.27E-18
8.04E-18
7.53E-18
7.01E-18
6.86E-18
Zr-89m
4.93E-18
4.60E-18
4.34E-18
4.14E-18
3.89E-18
3.80E-18
Zr-93
1.15E-21
1.07E-21
1.05E-21
9.82E-22
9.12E-22
8.95E-22
Zr-95
5.71E-18
5.32E-18
5.14E-18
4.82E-18
4.50E-18
4.40E-18
Zr-97
7.18E-18
6.70E-18
6.47E-18
6.09E-18
5.68E-18
5.57E-18
Niobium
Nb-87
1.08E-17
1.02E-17
9.49E-18
9.12E-18
8.49E-18
8.30E-18
Nb-88
3.34E-17
3.11E-17
2.99E-17
2.83E-17
2.64E-17
2.58E-17
Nb-88m
3.24E-17
3.02E-17
2.90E-17
2.75E-17
2.57E-17
2.52E-17
Nb-89
1.10E-17
1.03E-17
9.69E-18
9.35E-18
8.78E-18
8.61E-18
Nb-89m
1.08E-17
1.01E-17
9.40E-18
9.02E-18
8.46E-18
8.26E-18
Nb-90
3.03E-17
2.84E-17
2.70E-17
2.61E-17
2.45E-17
2.41E-17
Nb-91
1.85E-20
1.62E-20
1.44E-20
1.39E-20
1.14E-20
1.10E-20
Nb-91m
1.92E-19
1.77E-19
1.72E-19
1.63E-19
1.50E-19
1.47E-19
Nb-92
1.15E-17
1.08E-17
1.04E-17
9.76E-18
9.10E-18
8.91E-18
Nb-92m
7.30E-18
6.79E-18
6.68E-18
6.22E-18
5.77E-18
5.66E-18
Nb-93m
1.30E-21
9.38E-22
7.46E-22
7.34E-22
3.34E-22
3.06E-22
Nb-94
1.21E-17
1.12E-17
1.09E-17
1.02E-17
9.52E-18
9.33E-18
Nb-94m
3.97E-20
3.59E-20
3.45E-20
3.23E-20
2.87E-20
2.80E-20
Nb-95
5.92E-18
5.52E-18
5.35E-18
5.01E-18
4.67E-18
4.57E-18
Nb-95m
4.98E-19
4.61E-19
4.32E-19
4.20E-19
3.68E-19
3.61E-19
Nb-96
1.90E-17
1.77E-17
1.71E-17
1.61E-17
1.50E-17
1.47E-17
Nb-97
5.41E-18
5.05E-18
4.81E-18
4.55E-18
4.26E-18
4.17E-18
Nb-98m
2.17E-17
2.03E-17
1.96E-17
1.85E-17
1.73E-17
1.69E-17
Nb-99
2.34E-18
2.20E-18
2.07E-18
1.97E-18
1.83E-18
1.80E-18
69
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Nb-99m
6.39E-18
6.00E-18
5.73E-18
5.55E-18
5.21E-18
5.13E-18
Molybdenum
Mo-89
1.11E-17
1.04E-17
9.83E-18
9.42E-18
8.85E-18
8.66E-18
Mo-90
6.37E-18
5.93E-18
5.58E-18
5.35E-18
4.91E-18
4.81E-18
Mo-91
8.79E-18
8.23E-18
7.70E-18
7.39E-18
6.95E-18
6.79E-18
Mo-91m
1.09E-17
1.02E-17
9.72E-18
9.28E-18
8.69E-18
8.51E-18
Mo-93
7.27E-21
5.25E-21
4.18E-21
4.11E-21
1.87E-21
1.71E-21
Mo-93m
1.73E-17
1.61E-17
1.55E-17
1.48E-17
1.38E-17
1.35E-17
Mo-99
1.32E-18
1.23E-18
1.18E-18
1.11E-18
1.03E-18
1.01E-18
Mo-101
1.12E-17
1.05E-17
1.01E-17
9.60E-18
8.96E-18
8.79E-18
Mo-102
2.86E-19
2.68E-19
2.55E-19
2.43E-19
2.21E-19
2.17E-19
Technetium
Tc-91
1.96E-17
1.84E-17
1.74E-17
1.68E-17
1.58E-17
1.55E-17
Tc-91m
1.27E-17
1.19E-17
1.12E-17
1.07E-17
1.01E-17
9.83E-18
Tc-92
3.03E-17
2.83E-17
2.69E-17
2.58E-17
2.41E-17
2.36E-17
Tc-93
1.15E-17
1.07E-17
1.03E-17
9.87E-18
9.22E-18
9.06E-18
Tc-93m
6.67E-18
6.26E-18
5.90E-18
5.76E-18
5.40E-18
5.31E-18
Tc-94
2.04E-17
1.90E-17
1.85E-17
1.73E-17
1.61E-17
1.58E-17
Tc-94m
1.53E-17
1.43E-17
1.37E-17
1.30E-17
1.22E-17
1.19E-17
Tc-95
6.07E-18
5.65E-18
5.48E-18
5.13E-18
4.78E-18
4.68E-18
Tc-95m
5.24E-18
4.89E-18
4.68E-18
4.42E-18
4.08E-18
3.99E-18
Tc-96
1.92E-17
1.78E-17
1.74E-17
1.63E-17
1.51E-17
1.48E-17
Tc-96m
3.21E-19
2.98E-19
2.88E-19
2.72E-19
2.52E-19
2.47E-19
Tc-97
9.22E-21
6.47E-21
5.17E-21
5.09E-21
2.47E-21
2.28E-21
Tc-97m
1.11E-20
8.08E-21
6.75E-21
6.54E-21
4.10E-21
3.86E-21
Tc-98
1.10E-17
1.03E-17
9.86E-18
9.29E-18
8.68E-18
8.50E-18
Tc-99
2.39E-20
2.23E-20
2.19E-20
2.05E-20
1.90E-20
1.87E-20
Tc-99m
9.36E-19
8.95E-19
7.96E-19
7.67E-19
6.99E-19
6.87E-19
Tc-101
2.85E-18
2.65E-18
2.49E-18
2.41E-18
2.18E-18
2.13E-18
Tc-102
2.24E-18
2.11E-18
2.05E-18
1.96E-18
1.85E-18
1.82E-18
Tc-102m
1.87E-17
1.75E-17
1.67E-17
1.60E-17
1.50E-17
1.47E-17
Tc-104
1.75E-17
1.64E-17
1.56E-17
1.51E-17
1.41E-17
1.39E-17
Tc-105
6.88E-18
6.43E-18
6.11E-18
5.86E-18
5.44E-18
5.34E-18
Ruthenium
Ru-92
1.61E-17
1.51E-17
1.42E-17
1.36E-17
1.26E-17
1.23E-17
Ru-94
3.95E-18
3.68E-18
3.50E-18
3.33E-18
3.07E-18
3.00E-18
Ru-95
9.41E-18
8.77E-18
8.38E-18
7.99E-18
7.41E-18
7.26E-18
Ru-97
1.77E-18
1.64E-18
1.54E-18
1.49E-18
1.31E-18
1.29E-18
Ru-103
3.92E-18
3.67E-18
3.41E-18
3.28E-18
3.07E-18
3.00E-18
Ru-105
5.99E-18
5.58E-18
5.33E-18
5.04E-18
4.69E-18
4.59E-18
Ru-106
2.05E-22
1.91E-22
1.88E-22
1.75E-22
1.63E-22
1.60E-22
Ru-107
3.35E-18
3.13E-18
3.02E-18
2.87E-18
2.67E-18
2.62E-18
Ru-108
6.80E-19
6.43E-19
5.96E-19
5.72E-19
5.21E-19
5.13E-19
Rhodium
Rh-94
3.10E-17
2.90E-17
2.77E-17
2.65E-17
2.48E-17
2.44E-17
Rh-95
1.97E-17
1.84E-17
1.76E-17
1.68E-17
1.57E-17
1.54E-17
70
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Rh-95m
6.62E-18
6.21E-18
5.85E-18
5.65E-18
5.31E-18
5.21E-18
Rh-96
3.05E-17
2.85E-17
2.72E-17
2.58E-17
2.42E-17
2.36E-17
Rh-96m
1.00E-17
9.35E-18
8.93E-18
8.52E-18
7.98E-18
7.82E-18
Rh-97
1.14E-17
1.07E-17
1.00E-17
9.62E-18
8.99E-18
8.80E-18
Rh-97m
1.59E-17
1.48E-17
1.41E-17
1.36E-17
1.28E-17
1.25E-17
Rh-98
1.50E-17
1.41E-17
1.33E-17
1.27E-17
1.19E-17
1.16E-17
Rh-99
4.26E-18
3.96E-18
3.71E-18
3.56E-18
3.30E-18
3.22E-18
Rh-99m
4.96E-18
4.61E-18
4.37E-18
4.18E-18
3.86E-18
3.78E-18
Rh-100
1.99E-17
1.86E-17
1.77E-17
1.71E-17
1.60E-17
1.57E-17
Rh-lOOm
3.61E-19
3.28E-19
3.05E-19
2.92E-19
2.66E-19
2.60E-19
Rh-101
2.10E-18
1.95E-18
1.80E-18
1.74E-18
1.55E-18
1.52E-18
Rh-lOlm
2.16E-18
2.00E-18
1.87E-18
1.81E-18
1.63E-18
1.60E-18
Rh-102
3.98E-18
3.72E-18
3.48E-18
3.34E-18
3.12E-18
3.05E-18
Rh-102m
1.66E-17
1.55E-17
1.48E-17
1.40E-17
1.30E-17
1.28E-17
Rh-103m
2.19E-21
1.48E-21
1.18E-21
1.13E-21
6.67E-22
6.27E-22
Rh-104
7.34E-19
6.91E-19
6.76E-19
6.42E-19
6.05E-19
5.95E-19
Rh-104m
2.39E-19
1.99E-19
1.77E-19
1.64E-19
1.38E-19
1.34E-19
Rh-105
6.50E-19
6.03E-19
5.66E-19
5.48E-19
4.94E-19
4.84E-19
Rh-106
2.66E-18
2.49E-18
2.39E-18
2.28E-18
2.14E-18
2.10E-18
Rh-106m
2.19E-17
2.04E-17
1.96E-17
1.86E-17
1.73E-17
1.70E-17
Rh-107
2.65E-18
2.46E-18
2.31E-18
2.24E-18
2.03E-18
1.98E-18
Rh-108
3.98E-18
3.73E-18
3.55E-18
3.40E-18
3.19E-18
3.13E-18
Rh-109
2.91E-18
2.70E-18
2.55E-18
2.46E-18
2.24E-18
2.20E-18
Palladium
Pd-96
1.11E-17
1.04E-17
9.90E-18
9.37E-18
8.75E-18
8.56E-18
Pd-97
1.82E-17
1.70E-17
1.62E-17
1.55E-17
1.45E-17
1.42E-17
Pd-98
3.08E-18
2.85E-18
2.71E-18
2.56E-18
2.38E-18
2.32E-18
Pd-99
9.94E-18
9.30E-18
8.76E-18
8.40E-18
7.84E-18
7.68E-18
Pd-100
7.42E-19
6.68E-19
6.06E-19
5.81E-19
5.11E-19
4.97E-19
Pd-101
2.56E-18
2.37E-18
2.25E-18
2.15E-18
1.98E-18
1.94E-18
Pd-103
1.99E-20
1.35E-20
1.08E-20
1.04E-20
6.22E-21
5.85E-21
Pd-107
1.62E-22
1.51E-22
1.48E-22
1.38E-22
1.28E-22
1.26E-22
Pd-109
1.93E-19
1.76E-19
1.70E-19
1.60E-19
1.47E-19
1.44E-19
Pd-109m
8.16E-19
7.63E-19
7.03E-19
6.82E-19
5.99E-19
5.89E-19
Pd-111
8.76E-19
8.22E-19
7.98E-19
7.58E-19
7.11E-19
6.99E-19
Pd-112
2.05E-20
1.80E-20
1.71E-20
1.61E-20
1.39E-20
1.36E-20
Pd-114
4.63E-19
4.32E-19
4.15E-19
3.95E-19
3.64E-19
3.57E-19
Silver
Ag-99
1.85E-17
1.73E-17
1.64E-17
1.57E-17
1.46E-17
1.44E-17
Ag-lOOm
2.31E-17
2.16E-17
2.05E-17
1.96E-17
1.84E-17
1.80E-17
Ag-101
1.26E-17
1.18E-17
1.11E-17
1.07E-17
9.95E-18
9.74E-18
Ag-102
2.61E-17
2.44E-17
2.32E-17
2.22E-17
2.08E-17
2.04E-17
Ag-102m
1.45E-17
1.36E-17
1.29E-17
1.25E-17
1.18E-17
1.15E-17
Ag-103
6.47E-18
6.04E-18
5.71E-18
5.45E-18
5.06E-18
4.96E-18
Ag-104
2.06E-17
1.92E-17
1.85E-17
1.75E-17
1.63E-17
1.60E-17
Ag-104m
1.40E-17
1.31E-17
1.24E-17
1.19E-17
1.12E-17
1.10E-17
71
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ag-105
3.89E-18
3.61E-18
3.40E-18
3.27E-18
2.99E-18
2.92E-18
Ag-105m
7.77E-21
7.19E-21
6.78E-21
6.52E-21
5.93E-21
5.80E-21
Ag-106
5.77E-18
5.39E-18
5.03E-18
4.83E-18
4.53E-18
4.42E-18
Ag-106m
2.14E-17
1.99E-17
1.91E-17
1.81E-17
1.69E-17
1.66E-17
Ag-108
4.69E-19
4.39E-19
4.27E-19
4.04E-19
3.79E-19
3.73E-19
Ag-108m
1.26E-17
1.17E-17
1.11E-17
1.06E-17
9.86E-18
9.64E-18
Ag-109m
3.72E-20
3.02E-20
2.68E-20
2.53E-20
2.11E-20
2.03E-20
Ag-110
1.06E-18
9.99E-19
9.75E-19
9.27E-19
8.73E-19
8.60E-19
Ag-llOm
2.11E-17
1.96E-17
1.90E-17
1.79E-17
1.67E-17
1.64E-17
Ag-111
3.54E-19
3.30E-19
3.15E-19
3.01E-19
2.76E-19
2.71E-19
Ag-lllm
3.47E-20
3.02E-20
2.75E-20
2.63E-20
2.28E-20
2.22E-20
Ag-112
6.17E-18
5.78E-18
5.53E-18
5.29E-18
4.97E-18
4.88E-18
Ag-113
1.00E-18
9.37E-19
9.04E-19
8.62E-19
7.97E-19
7.82E-19
Ag-113m
1.76E-18
1.64E-18
1.54E-18
1.48E-18
1.36E-18
1.33E-18
Ag-114
3.76E-18
3.54E-18
3.40E-18
3.26E-18
3.08E-18
3.02E-18
Ag-115
4.29E-18
4.01E-18
3.83E-18
3.70E-18
3.45E-18
3.39E-18
Ag-116
1.68E-17
1.57E-17
1.50E-17
1.45E-17
1.36E-17
1.34E-17
Ag-117
1.02E-17
9.52E-18
9.03E-18
8.79E-18
8.24E-18
8.11E-18
Cadmium
Cd-101
1.93E-17
1.80E-17
1.71E-17
1.64E-17
1.54E-17
1.51E-17
Cd-102
6.43E-18
5.99E-18
5.65E-18
5.40E-18
5.03E-18
4.92E-18
Cd-103
1.53E-17
1.44E-17
1.36E-17
1.32E-17
1.23E-17
1.21E-17
Cd-104
1.81E-18
1.67E-18
1.58E-18
1.49E-18
1.38E-18
1.35E-18
Cd-105
9.66E-18
9.02E-18
8.57E-18
8.25E-18
7.73E-18
7.58E-18
Cd-107
1.12E-19
9.11E-20
8.16E-20
7.69E-20
6.48E-20
6.27E-20
Cd-109
6.45E-20
4.83E-20
4.10E-20
3.86E-20
2.94E-20
2.82E-20
Cd-lllm
2.14E-18
1.98E-18
1.85E-18
1.79E-18
1.58E-18
1.55E-18
Cd-113
2.14E-20
1.99E-20
1.96E-20
1.83E-20
1.70E-20
1.67E-20
Cd-113m
5.84E-20
5.43E-20
5.35E-20
4.99E-20
4.63E-20
4.55E-20
Cd-115
1.64E-18
1.53E-18
1.43E-18
1.37E-18
1.29E-18
1.26E-18
Cd-115m
5.70E-19
5.34E-19
5.24E-19
4.93E-19
4.61E-19
4.53E-19
Cd-117
8.27E-18
7.71E-18
7.42E-18
7.08E-18
6.57E-18
6.45E-18
Cd-117m
1.49E-17
1.39E-17
1.34E-17
1.28E-17
1.20E-17
1.18E-17
Cd-118
4.80E-20
4.46E-20
4.39E-20
4.10E-20
3.81E-20
3.74E-20
Cd-119
1.24E-17
1.16E-17
1.11E-17
1.07E-17
9.96E-18
9.79E-18
Cd-119m
1.71E-17
1.60E-17
1.54E-17
1.48E-17
1.38E-17
1.36E-17
Indium
In-103
2.17E-17
2.03E-17
1.93E-17
1.85E-17
1.73E-17
1.70E-17
In-105
1.54E-17
1.44E-17
1.36E-17
1.30E-17
1.22E-17
1.19E-17
In-106
2.82E-17
2.63E-17
2.52E-17
2.39E-17
2.23E-17
2.18E-17
In-106m
2.22E-17
2.08E-17
1.97E-17
1.89E-17
1.78E-17
1.75E-17
In-107
1.15E-17
1.07E-17
1.02E-17
9.80E-18
9.14E-18
8.97E-18
In-108
2.97E-17
2.77E-17
2.67E-17
2.53E-17
2.35E-17
2.30E-17
In-108m
2.02E-17
1.89E-17
1.79E-17
1.73E-17
1.63E-17
1.60E-17
In-109
4.81E-18
4.48E-18
4.25E-18
4.06E-18
3.73E-18
3.66E-18
In-109m
4.75E-18
4.43E-18
4.21E-18
3.99E-18
3.74E-18
3.65E-18
72
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
In-110
2.37E-17
2.21E-17
2.14E-17
2.01E-17
1.87E-17
1.83E-17
In-110m
1.25E-17
1.16E-17
1.10E-17
1.05E-17
9.86E-18
9.65E-18
In-Ill
3.00E-18
2.80E-18
2.59E-18
2.51E-18
2.22E-18
2.18E-18
In-lllm
3.69E-18
3.45E-18
3.22E-18
3.09E-18
2.90E-18
2.83E-18
In-112
2.18E-18
2.04E-18
1.90E-18
1.82E-18
1.71E-18
1.67E-18
In-112m
1.86E-19
1.69E-19
1.48E-19
1.43E-19
1.25E-19
1.23E-19
In-113m
2.02E-18
1.88E-18
1.74E-18
1.69E-18
1.55E-18
1.52E-18
In-114
4.74E-19
4.46E-19
4.38E-19
4.15E-19
3.90E-19
3.85E-19
In-114m
5.73E-19
5.30E-19
4.95E-19
4.73E-19
4.30E-19
4.21E-19
In-115
4.43E-20
4.12E-20
4.06E-20
3.79E-20
3.51E-20
3.45E-20
In-115m
1.24E-18
1.14E-18
1.06E-18
1.03E-18
9.33E-19
9.12E-19
In-116m
1.84E-17
1.71E-17
1.66E-17
1.58E-17
1.47E-17
1.44E-17
In-117
5.48E-18
5.14E-18
4.77E-18
4.58E-18
4.26E-18
4.17E-18
In-117m
8.66E-19
8.07E-19
7.56E-19
7.29E-19
6.61E-19
6.49E-19
In-118
2.13E-18
2.01E-18
1.97E-18
1.87E-18
1.76E-18
1.74E-18
In-118m
2.12E-17
1.98E-17
1.93E-17
1.81E-17
1.69E-17
1.66E-17
In-119
6.25E-18
5.82E-18
5.64E-18
5.29E-18
4.93E-18
4.83E-18
In-119m
1.16E-18
1.09E-18
1.06E-18
1.01E-18
9.43E-19
9.28E-19
In-121
7.71E-18
7.19E-18
7.05E-18
6.58E-18
6.12E-18
6.00E-18
In-121m
1.57E-18
1.47E-18
1.43E-18
1.36E-18
1.27E-18
1.25E-18
Tin
Sn-106
9.28E-18
8.64E-18
8.21E-18
7.81E-18
7.24E-18
7.08E-18
Sn-108
5.22E-18
4.85E-18
4.55E-18
4.36E-18
4.00E-18
3.91E-18
Sn-109
1.61E-17
1.50E-17
1.44E-17
1.38E-17
1.29E-17
1.27E-17
Sn-110
2.17E-18
2.00E-18
1.87E-18
1.82E-18
1.61E-18
1.58E-18
Sn-111
3.78E-18
3.53E-18
3.32E-18
3.19E-18
2.98E-18
2.92E-18
Sn-113
8.42E-20
6.71E-20
5.84E-20
5.55E-20
4.47E-20
4.34E-20
Sn-113m
3.68E-20
2.55E-20
2.01E-20
1.84E-20
1.31E-20
1.25E-20
Sn-117m
1.10E-18
1.04E-18
9.24E-19
8.95E-19
8.02E-19
7.90E-19
Sn-119m
3.58E-20
2.41E-20
1.87E-20
1.70E-20
1.16E-20
1.10E-20
Sn-121
2.97E-20
2.77E-20
2.72E-20
2.54E-20
2.36E-20
2.31E-20
Sn-121m
2.33E-20
1.80E-20
1.54E-20
1.41E-20
1.15E-20
1.11E-20
Sn-123
3.15E-19
2.95E-19
2.90E-19
2.74E-19
2.56E-19
2.52E-19
Sn-123m
1.26E-18
1.19E-18
1.09E-18
1.05E-18
9.50E-19
9.36E-19
Sn-125
3.02E-18
2.82E-18
2.75E-18
2.59E-18
2.42E-18
2.37E-18
Sn-125m
3.18E-18
2.96E-18
2.79E-18
2.70E-18
2.46E-18
2.41E-18
Sn-126
3.89E-19
3.44E-19
3.17E-19
3.00E-19
2.68E-19
2.60E-19
Sn-127
1.45E-17
1.35E-17
1.31E-17
1.24E-17
1.16E-17
1.13E-17
Sn-127m
5.17E-18
4.84E-18
4.56E-18
4.37E-18
4.10E-18
4.02E-18
Sn-128
4.60E-18
4.26E-18
3.96E-18
3.79E-18
3.52E-18
3.44E-18
Sn-129
8.61E-18
8.05E-18
7.73E-18
7.33E-18
6.86E-18
6.72E-18
Sn-130
7.36E-18
6.85E-18
6.54E-18
6.19E-18
5.69E-18
5.57E-18
Sn-130m
7.66E-18
7.15E-18
6.90E-18
6.53E-18
6.09E-18
5.97E-18
Antimony
Sb-111
1.26E-17
1.18E-17
1.11E-17
1.06E-17
9.90E-18
9.68E-18
Sb-113
1.04E-17
9.69E-18
9.06E-18
8.69E-18
8.14E-18
7.95E-18
73
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sb-114
2.12E-17
1.98E-17
1.89E-17
1.80E-17
1.69E-17
1.65E-17
Sb-115
7.05E-18
6.58E-18
6.12E-18
5.88E-18
5.51E-18
5.38E-18
Sb-116
1.72E-17
1.61E-17
1.54E-17
1.47E-17
1.38E-17
1.35E-17
Sb-116m
2.34E-17
2.18E-17
2.10E-17
1.99E-17
1.85E-17
1.81E-17
Sb-117
1.30E-18
1.22E-18
1.10E-18
1.06E-18
9.58E-19
9.42E-19
Sb-118
6.89E-18
6.44E-18
6.03E-18
5.78E-18
5.43E-18
5.30E-18
Sb-118m
1.94E-17
1.81E-17
1.76E-17
1.66E-17
1.53E-17
1.50E-17
Sb-119
5.84E-20
3.94E-20
3.06E-20
2.77E-20
1.90E-20
1.81E-20
Sb-120
3.67E-18
3.42E-18
3.19E-18
3.06E-18
2.87E-18
2.80E-18
Sb-120m
1.84E-17
1.71E-17
1.67E-17
1.57E-17
1.45E-17
1.42E-17
Sb-122
3.78E-18
3.54E-18
3.33E-18
3.18E-18
2.98E-18
2.92E-18
Sb-122m
4.22E-19
3.67E-19
3.23E-19
3.08E-19
2.61E-19
2.54E-19
Sb-124
1.40E-17
1.31E-17
1.24E-17
1.19E-17
1.12E-17
1.10E-17
Sb-124m
3.50E-18
3.27E-18
3.08E-18
2.93E-18
2.75E-18
2.68E-18
Sb-124n
2.19E-24
1.48E-24
1.14E-24
1.03E-24
7.15E-25
6.79E-25
Sb-125
3.39E-18
3.15E-18
2.94E-18
2.82E-18
2.62E-18
2.56E-18
Sb-126
2.16E-17
2.01E-17
1.92E-17
1.82E-17
1.70E-17
1.66E-17
Sb-126m
1.24E-17
1.16E-17
1.10E-17
1.05E-17
9.78E-18
9.56E-18
Sb-127
5.53E-18
5.15E-18
4.90E-18
4.65E-18
4.33E-18
4.24E-18
Sb-128
2.42E-17
2.26E-17
2.16E-17
2.04E-17
1.90E-17
1.86E-17
Sb-128m
1.54E-17
1.43E-17
1.38E-17
1.30E-17
1.21E-17
1.18E-17
Sb-129
1.12E-17
1.05E-17
1.01E-17
9.57E-18
8.92E-18
8.75E-18
Sb-130
2.55E-17
2.37E-17
2.29E-17
2.16E-17
2.01E-17
1.96E-17
Sb-130m
2.13E-17
1.99E-17
1.93E-17
1.81E-17
1.69E-17
1.65E-17
Sb-131
1.57E-17
1.47E-17
1.42E-17
1.35E-17
1.26E-17
1.23E-17
Sb-133
2.03E-17
1.90E-17
1.83E-17
1.75E-17
1.64E-17
1.61E-17
Tellurium
Te-113
1.82E-17
1.70E-17
1.62E-17
1.55E-17
1.45E-17
1.42E-17
Te-114
9.50E-18
8.85E-18
8.42E-18
8.07E-18
7.53E-18
7.38E-18
Te-115
1.75E-17
1.64E-17
1.56E-17
1.49E-17
1.39E-17
1.37E-17
Te-115m
2.00E-17
1.87E-17
1.78E-17
1.70E-17
1.59E-17
1.56E-17
Te-116
7.07E-19
6.26E-19
5.81E-19
5.47E-19
4.98E-19
4.85E-19
Te-117
1.16E-17
1.09E-17
1.03E-17
9.89E-18
9.26E-18
9.08E-18
Te-118
5.83E-20
3.98E-20
3.08E-20
2.77E-20
1.97E-20
1.87E-20
Te-119
5.84E-18
5.44E-18
5.17E-18
4.91E-18
4.59E-18
4.49E-18
Te-119m
1.11E-17
1.04E-17
1.00E-17
9.49E-18
8.79E-18
8.63E-18
Te-121
4.44E-18
4.13E-18
3.86E-18
3.69E-18
3.46E-18
3.38E-18
Te-121m
1.60E-18
1.48E-18
1.38E-18
1.34E-18
1.18E-18
1.15E-18
Te-123
1.01E-22
6.92E-23
5.36E-23
4.81E-23
3.42E-23
3.26E-23
Te-123m
1.05E-18
9.89E-19
8.82E-19
8.53E-19
7.65E-19
7.53E-19
Te-125m
1.22E-19
8.53E-20
6.68E-20
5.98E-20
4.41E-20
4.22E-20
Te-127
1.15E-19
1.07E-19
1.03E-19
9.75E-20
9.05E-20
8.87E-20
Te-127m
4.03E-20
2.91E-20
2.34E-20
2.11E-20
1.61E-20
1.55E-20
Te-129
7.25E-19
6.75E-19
6.42E-19
6.11E-19
5.69E-19
5.57E-19
Te-129m
3.68E-19
3.38E-19
3.23E-19
3.04E-19
2.82E-19
2.76E-19
Te-131
3.59E-18
3.37E-18
3.18E-18
3.03E-18
2.81E-18
2.75E-18
74
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Te-131m
1.11E-17
1.03E-17
9.99E-18
9.41E-18
8.74E-18
8.56E-18
Te-132
1.73E-18
1.58E-18
1.47E-18
1.42E-18
1.24E-18
1.22E-18
Te-133
9.39E-18
8.76E-18
8.37E-18
8.02E-18
7.45E-18
7.30E-18
Te-133m
1.42E-17
1.32E-17
1.28E-17
1.21E-17
1.12E-17
1.10E-17
Te-134
6.79E-18
6.32E-18
6.00E-18
5.70E-18
5.26E-18
5.15E-18
Iodine
1-118
1.73E-17
1.62E-17
1.53E-17
1.46E-17
1.37E-17
1.34E-17
I-118m
2.98E-17
2.78E-17
2.65E-17
2.52E-17
2.35E-17
2.30E-17
1-119
7.38E-18
6.87E-18
6.44E-18
6.19E-18
5.72E-18
5.59E-18
1-120
2.04E-17
1.91E-17
1.81E-17
1.74E-17
1.64E-17
1.61E-17
I-120m
2.75E-17
2.57E-17
2.43E-17
2.33E-17
2.18E-17
2.13E-17
1-121
3.03E-18
2.80E-18
2.62E-18
2.52E-18
2.28E-18
2.23E-18
1-122
8.34E-18
7.80E-18
7.31E-18
7.01E-18
6.58E-18
6.43E-18
1-123
1.20E-18
1.12E-18
1.00E-18
9.66E-19
8.67E-19
8.53E-19
1-124
8.50E-18
7.93E-18
7.49E-18
7.18E-18
6.73E-18
6.59E-18
1-125
1.43E-19
9.97E-20
7.75E-20
6.93E-20
5.06E-20
4.84E-20
1-126
3.42E-18
3.18E-18
3.00E-18
2.86E-18
2.66E-18
2.60E-18
1-128
9.72E-19
9.10E-19
8.69E-19
8.29E-19
7.77E-19
7.62E-19
1-129
1.11E-19
8.15E-20
6.60E-20
5.91E-20
4.61E-20
4.44E-20
1-130
1.67E-17
1.56E-17
1.49E-17
1.41E-17
1.32E-17
1.29E-17
I-130m
9.25E-19
8.62E-19
8.08E-19
7.74E-19
7.25E-19
7.09E-19
1-131
3.06E-18
2.84E-18
2.66E-18
2.56E-18
2.35E-18
2.30E-18
1-132
1.77E-17
1.65E-17
1.58E-17
1.49E-17
1.40E-17
1.37E-17
I-132m
2.63E-18
2.45E-18
2.33E-18
2.20E-18
2.05E-18
2.01E-18
1-133
4.97E-18
4.64E-18
4.37E-18
4.17E-18
3.91E-18
3.82E-18
1-134
2.00E-17
1.87E-17
1.81E-17
1.70E-17
1.59E-17
1.56E-17
I-134m
2.15E-18
1.97E-18
1.85E-18
1.78E-18
1.59E-18
1.55E-18
1-135
1.18E-17
1.10E-17
1.06E-17
1.01E-17
9.47E-18
9.30E-18
Xenon
Xe-120
2.93E-18
2.70E-18
2.55E-18
2.42E-18
2.22E-18
2.17E-18
Xe-121
1.12E-17
1.04E-17
9.85E-18
9.51E-18
8.90E-18
8.73E-18
Xe-122
4.34E-19
3.86E-19
3.49E-19
3.34E-19
2.98E-19
2.90E-19
Xe-123
4.86E-18
4.53E-18
4.25E-18
4.07E-18
3.78E-18
3.70E-18
Xe-125
1.96E-18
1.80E-18
1.68E-18
1.61E-18
1.43E-18
1.40E-18
Xe-127
2.05E-18
1.90E-18
1.75E-18
1.69E-18
1.50E-18
1.47E-18
Xe-127m
1.20E-18
1.11E-18
1.01E-18
9.65E-19
8.69E-19
8.52E-19
Xe-129m
2.40E-19
1.87E-19
1.56E-19
1.44E-19
1.16E-19
1.13E-19
Xe-131m
9.06E-20
7.01E-20
5.75E-20
5.28E-20
4.26E-20
4.13E-20
Xe-133
3.21E-19
2.79E-19
2.52E-19
2.38E-19
2.08E-19
2.02E-19
Xe-133m
2.48E-19
2.15E-19
1.94E-19
1.86E-19
1.59E-19
1.55E-19
Xe-135
2.04E-18
1.89E-18
1.78E-18
1.72E-18
1.53E-18
1.50E-18
Xe-135m
3.33E-18
3.11E-18
2.90E-18
2.78E-18
2.61E-18
2.55E-18
Xe-137
2.82E-18
2.65E-18
2.54E-18
2.43E-18
2.29E-18
2.25E-18
Xe-138
8.49E-18
7.94E-18
7.52E-18
7.31E-18
6.83E-18
6.71E-18
Cesium
Cs-121
1.06E-17
9.92E-18
9.31E-18
8.93E-18
8.36E-18
8.18E-18
75
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cs-121m
1.03E-17
9.60E-18
9.01E-18
8.64E-18
8.05E-18
7.88E-18
Cs-123
9.09E-18
8.48E-18
7.97E-18
7.62E-18
7.13E-18
6.97E-18
Cs-124
1.08E-17
1.01E-17
9.49E-18
9.11E-18
8.55E-18
8.36E-18
Cs-125
6.02E-18
5.61E-18
5.25E-18
5.04E-18
4.72E-18
4.61E-18
Cs-126
1.00E-17
9.39E-18
8.80E-18
8.45E-18
7.91E-18
7.74E-18
Cs-127
3.30E-18
3.06E-18
2.84E-18
2.73E-18
2.53E-18
2.47E-18
Cs-128
7.59E-18
7.09E-18
6.63E-18
6.36E-18
5.97E-18
5.83E-18
Cs-129
2.07E-18
1.90E-18
1.75E-18
1.69E-18
1.55E-18
1.51E-18
Cs-130
4.13E-18
3.85E-18
3.59E-18
3.44E-18
3.23E-18
3.15E-18
Cs-130m
4.49E-19
3.88E-19
3.43E-19
3.24E-19
2.82E-19
2.74E-19
Cs-131
8.93E-20
6.33E-20
4.95E-20
4.41E-20
3.31E-20
3.17E-20
Cs-132
5.49E-18
5.10E-18
4.85E-18
4.58E-18
4.28E-18
4.19E-18
Cs-134
1.21E-17
1.13E-17
1.08E-17
1.02E-17
9.55E-18
9.35E-18
Cs-134m
1.62E-19
1.43E-19
1.25E-19
1.18E-19
1.05E-19
1.03E-19
Cs-135
1.99E-20
1.85E-20
1.82E-20
1.70E-20
1.58E-20
1.55E-20
Cs-135m
1.23E-17
1.15E-17
1.12E-17
1.04E-17
9.70E-18
9.51E-18
Cs-136
1.62E-17
1.51E-17
1.47E-17
1.38E-17
1.28E-17
1.25E-17
Cs-137
6.13E-20
5.71E-20
5.62E-20
5.25E-20
4.88E-20
4.79E-20
Cs-138
1.81E-17
1.69E-17
1.62E-17
1.56E-17
1.46E-17
1.43E-17
Cs-138m
3.25E-18
3.02E-18
2.87E-18
2.75E-18
2.56E-18
2.51E-18
Cs-139
3.48E-18
3.27E-18
3.16E-18
3.04E-18
2.86E-18
2.81E-18
Cs-140
1.43E-17
1.34E-17
1.28E-17
1.24E-17
1.16E-17
1.14E-17
Barium
Ba-124
4.41E-18
4.10E-18
3.87E-18
3.68E-18
3.41E-18
3.34E-18
Ba-126
4.35E-18
4.03E-18
3.86E-18
3.66E-18
3.36E-18
3.29E-18
Ba-127
5.97E-18
5.57E-18
5.21E-18
5.00E-18
4.68E-18
4.57E-18
Ba-128
4.28E-19
3.75E-19
3.41E-19
3.27E-19
2.84E-19
2.77E-19
Ba-129
2.55E-18
2.36E-18
2.20E-18
2.12E-18
1.96E-18
1.92E-18
Ba-129m
1.19E-17
1.11E-17
1.06E-17
1.01E-17
9.35E-18
9.17E-18
Ba-131
3.60E-18
3.33E-18
3.09E-18
2.97E-18
2.73E-18
2.67E-18
Ba-131m
5.25E-19
4.59E-19
4.24E-19
3.98E-19
3.61E-19
3.50E-19
Ba-133
3.00E-18
2.75E-18
2.54E-18
2.46E-18
2.22E-18
2.17E-18
Ba-133m
4.65E-19
4.14E-19
3.80E-19
3.66E-19
3.20E-19
3.12E-19
Ba-135m
4.07E-19
3.60E-19
3.30E-19
3.17E-19
2.76E-19
2.69E-19
Ba-137m
4.65E-18
4.34E-18
4.13E-18
3.91E-18
3.65E-18
3.57E-18
Ba-139
8.97E-19
8.46E-19
8.07E-19
7.71E-19
7.14E-19
7.03E-19
Ba-140
1.52E-18
1.41E-18
1.32E-18
1.26E-18
1.18E-18
1.15E-18
Ba-141
7.64E-18
7.12E-18
6.79E-18
6.50E-18
5.99E-18
5.88E-18
Ba-142
8.09E-18
7.52E-18
7.30E-18
6.88E-18
6.36E-18
6.24E-18
Lanthanum
La-128
2.28E-17
2.12E-17
2.02E-17
1.93E-17
1.79E-17
1.76E-17
La-129
7.54E-18
7.02E-18
6.57E-18
6.31E-18
5.87E-18
5.73E-18
La-130
1.79E-17
1.67E-17
1.58E-17
1.52E-17
1.41E-17
1.38E-17
La-131
5.18E-18
4.80E-18
4.48E-18
4.30E-18
3.98E-18
3.89E-18
La-132
1.53E-17
1.43E-17
1.35E-17
1.30E-17
1.22E-17
1.19E-17
La-13 2m
5.16E-18
4.80E-18
4.53E-18
4.30E-18
3.99E-18
3.91E-18
76
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
La-133
1.18E-18
1.08E-18
1.00E-18
9.56E-19
8.81E-19
8.61E-19
La-134
6.14E-18
5.74E-18
5.37E-18
5.15E-18
4.83E-18
4.72E-18
La-135
1.95E-19
1.58E-19
1.36E-19
1.26E-19
1.08E-19
1.05E-19
La-136
3.31E-18
3.08E-18
2.87E-18
2.75E-18
2.58E-18
2.52E-18
La-137
1.11E-19
8.04E-20
6.40E-20
5.70E-20
4.39E-20
4.21E-20
La-138
9.09E-18
8.47E-18
8.16E-18
7.78E-18
7.26E-18
7.13E-18
La-140
1.73E-17
1.61E-17
1.54E-17
1.48E-17
1.38E-17
1.36E-17
La-141
8.40E-19
7.90E-19
7.73E-19
7.35E-19
6.92E-19
6.82E-19
La-142
1.72E-17
1.61E-17
1.53E-17
1.49E-17
1.40E-17
1.38E-17
La-143
2.87E-18
2.69E-18
2.60E-18
2.49E-18
2.34E-18
2.30E-18
Cerium
Ce-130
3.74E-18
3.45E-18
3.26E-18
3.09E-18
2.84E-18
2.78E-18
Ce-131
1.28E-17
1.19E-17
1.13E-17
1.08E-17
1.00E-17
9.82E-18
Ce-132
2.01E-18
1.86E-18
1.70E-18
1.64E-18
1.46E-18
1.43E-18
Ce-133
4.31E-18
3.98E-18
3.69E-18
3.53E-18
3.29E-18
3.21E-18
Ce-133m
1.30E-17
1.21E-17
1.15E-17
1.10E-17
1.02E-17
1.00E-17
Ce-134
1.37E-19
1.03E-19
8.40E-20
7.57E-20
6.00E-20
5.79E-20
Ce-135
6.31E-18
5.85E-18
5.53E-18
5.27E-18
4.85E-18
4.75E-18
Ce-137
2.14E-19
1.74E-19
1.50E-19
1.39E-19
1.20E-19
1.16E-19
Ce-137m
3.75E-19
3.29E-19
3.01E-19
2.86E-19
2.49E-19
2.43E-19
Ce-139
1.12E-18
1.04E-18
9.26E-19
8.93E-19
7.92E-19
7.78E-19
Ce-141
6.01E-19
5.69E-19
5.06E-19
4.86E-19
4.41E-19
4.33E-19
Ce-143
2.30E-18
2.11E-18
1.99E-18
1.90E-18
1.73E-18
1.69E-18
Ce-144
1.55E-19
1.43E-19
1.29E-19
1.22E-19
1.11E-19
1.08E-19
Ce-145
6.55E-18
6.07E-18
5.82E-18
5.49E-18
5.09E-18
4.98E-18
Praseodymium
Pr-134
2.51E-17
2.34E-17
2.22E-17
2.12E-17
1.97E-17
1.93E-17
Pr-134m
1.88E-17
1.75E-17
1.65E-17
1.59E-17
1.49E-17
1.46E-17
Pr-135
7.08E-18
6.59E-18
6.17E-18
5.92E-18
5.51E-18
5.38E-18
Pr-136
1.68E-17
1.57E-17
1.48E-17
1.42E-17
1.33E-17
1.31E-17
Pr-137
2.92E-18
2.71E-18
2.53E-18
2.42E-18
2.26E-18
2.21E-18
Pr-138
7.27E-18
6.80E-18
6.37E-18
6.11E-18
5.74E-18
5.61E-18
Pr-138m
1.90E-17
1.77E-17
1.71E-17
1.61E-17
1.49E-17
1.46E-17
Pr-139
9.57E-19
8.70E-19
8.02E-19
7.65E-19
7.07E-19
6.90E-19
Pr-140
4.62E-18
4.31E-18
4.02E-18
3.86E-18
3.62E-18
3.53E-18
Pr-142
9.18E-19
8.62E-19
8.37E-19
8.00E-19
7.52E-19
7.40E-19
Pr-142m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pr-143
1.25E-19
1.16E-19
1.14E-19
1.07E-19
9.99E-20
9.82E-20
Pr-144
1.06E-18
9.99E-19
9.76E-19
9.31E-19
8.78E-19
8.65E-19
Pr-144m
7.22E-20
5.65E-20
4.80E-20
4.36E-20
3.61E-20
3.50E-20
Pr-145
5.19E-19
4.86E-19
4.77E-19
4.50E-19
4.22E-19
4.15E-19
Pr-146
8.49E-18
7.94E-18
7.59E-18
7.28E-18
6.82E-18
6.70E-18
Pr-147
4.17E-18
3.85E-18
3.66E-18
3.48E-18
3.22E-18
3.15E-18
Pr-148
8.70E-18
8.13E-18
7.81E-18
7.47E-18
6.95E-18
6.83E-18
Pr-148m
8.56E-18
7.99E-18
7.60E-18
7.27E-18
6.73E-18
6.59E-18
77
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Neodymium
Nd-134
4.21E-18
3.91E-18
3.64E-18
3.48E-18
3.20E-18
3.13E-18
Nd-135
1.05E-17
9.78E-18
9.14E-18
8.78E-18
8.16E-18
7.98E-18
Nd-136
2.05E-18
1.86E-18
1.73E-18
1.64E-18
1.51E-18
1.47E-18
Nd-137
9.10E-18
8.46E-18
8.01E-18
7.65E-18
7.12E-18
6.97E-18
Nd-138
2.68E-19
2.21E-19
1.93E-19
1.80E-19
1.53E-19
1.49E-19
Nd-139
3.51E-18
3.26E-18
3.06E-18
2.92E-18
2.72E-18
2.66E-18
Nd-139m
1.20E-17
1.11E-17
1.07E-17
1.01E-17
9.39E-18
9.19E-18
Nd-140
1.52E-19
1.14E-19
9.37E-20
8.38E-20
6.63E-20
6.40E-20
Nd-141
5.23E-19
4.61E-19
4.23E-19
3.97E-19
3.60E-19
3.51E-19
Nd-141m
5.38E-18
5.01E-18
4.85E-18
4.54E-18
4.23E-18
4.14E-18
Nd-144
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Nd-147
1.14E-18
1.04E-18
9.66E-19
9.19E-19
8.46E-19
8.25E-19
Nd-149
3.07E-18
2.85E-18
2.67E-18
2.56E-18
2.33E-18
2.28E-18
Nd-151
6.76E-18
6.29E-18
6.05E-18
5.73E-18
5.31E-18
5.20E-18
Nd-152
1.39E-18
1.29E-18
1.22E-18
1.17E-18
1.05E-18
1.03E-18
Promethium
Pm-136
2.31E-17
2.16E-17
2.05E-17
1.95E-17
1.82E-17
1.78E-17
Pm-137m
1.46E-17
1.36E-17
1.28E-17
1.22E-17
1.13E-17
1.11E-17
Pm-139
8.09E-18
7.56E-18
7.09E-18
6.80E-18
6.37E-18
6.23E-18
Pm-140
1.00E-17
9.39E-18
8.85E-18
8.48E-18
7.96E-18
7.79E-18
Pm-140m
2.41E-17
2.24E-17
2.15E-17
2.04E-17
1.90E-17
1.86E-17
Pm-141
6.06E-18
5.65E-18
5.32E-18
5.09E-18
4.77E-18
4.66E-18
Pm-142
7.72E-18
7.23E-18
6.77E-18
6.50E-18
6.11E-18
5.97E-18
Pm-143
2.38E-18
2.19E-18
2.10E-18
1.96E-18
1.82E-18
1.78E-18
Pm-144
1.22E-17
1.13E-17
1.07E-17
1.02E-17
9.50E-18
9.28E-18
Pm-145
1.77E-19
1.36E-19
1.14E-19
1.03E-19
8.29E-20
8.02E-20
Pm-146
5.85E-18
5.44E-18
5.16E-18
4.89E-18
4.56E-18
4.45E-18
Pm-147
1.14E-20
1.06E-20
1.04E-20
9.74E-21
9.04E-21
8.87E-21
Pm-148
4.74E-18
4.43E-18
4.26E-18
4.06E-18
3.80E-18
3.73E-18
Pm-148m
1.56E-17
1.45E-17
1.38E-17
1.31E-17
1.22E-17
1.19E-17
Pm-149
2.46E-19
2.29E-19
2.22E-19
2.11E-19
1.94E-19
1.90E-19
Pm-150
1.15E-17
1.07E-17
1.03E-17
9.83E-18
9.14E-18
8.97E-18
Pm-151
2.64E-18
2.45E-18
2.30E-18
2.20E-18
2.01E-18
1.96E-18
Pm-152
3.10E-18
2.90E-18
2.81E-18
2.66E-18
2.49E-18
2.44E-18
Pm-152m
1.19E-17
1.11E-17
1.07E-17
1.01E-17
9.37E-18
9.19E-18
Pm-153
9.17E-19
8.46E-19
7.96E-19
7.55E-19
6.94E-19
6.80E-19
Pm-154
1.34E-17
1.26E-17
1.21E-17
1.16E-17
1.08E-17
1.06E-17
Pm-154m
1.39E-17
1.30E-17
1.24E-17
1.19E-17
1.10E-17
1.08E-17
Samarium
Sm-139
1.21E-17
1.12E-17
1.06E-17
1.02E-17
9.46E-18
9.25E-18
Sm-140
4.37E-18
4.06E-18
3.83E-18
3.66E-18
3.39E-18
3.32E-18
Sm-141
1.13E-17
1.05E-17
9.92E-18
9.52E-18
8.90E-18
8.71E-18
Sm-141m
1.50E-17
1.40E-17
1.33E-17
1.27E-17
1.18E-17
1.16E-17
Sm-142
8.25E-19
7.43E-19
6.81E-19
6.47E-19
5.93E-19
5.79E-19
Sm-143
4.44E-18
4.13E-18
3.87E-18
3.70E-18
3.47E-18
3.39E-18
78
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sm-143m
5.30E-18
4.94E-18
4.77E-18
4.47E-18
4.17E-18
4.08E-18
Sm-145
3.84E-19
3.01E-19
2.55E-19
2.32E-19
1.88E-19
1.83E-19
Sm-146
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-147
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-151
1.32E-21
1.23E-21
1.21E-21
1.13E-21
1.04E-21
1.02E-21
Sm-153
5.23E-19
4.51E-19
4.16E-19
3.88E-19
3.46E-19
3.36E-19
Sm-155
1.04E-18
9.43E-19
8.96E-19
8.46E-19
7.78E-19
7.59E-19
Sm-156
9.13E-19
8.41E-19
7.80E-19
7.50E-19
6.67E-19
6.53E-19
Sm-157
3.68E-18
3.43E-18
3.26E-18
3.11E-18
2.84E-18
2.79E-18
Europium
Eu-142
1.20E-17
1.13E-17
1.06E-17
1.02E-17
9.60E-18
9.41E-18
Eu-142m
2.80E-17
2.61E-17
2.50E-17
2.37E-17
2.21E-17
2.16E-17
Eu-143
9.72E-18
9.08E-18
8.57E-18
8.22E-18
7.72E-18
7.55E-18
Eu-144
1.03E-17
9.67E-18
9.10E-18
8.75E-18
8.22E-18
8.05E-18
Eu-145
9.50E-18
8.84E-18
8.51E-18
8.07E-18
7.53E-18
7.38E-18
Eu-146
1.82E-17
1.69E-17
1.62E-17
1.54E-17
1.44E-17
1.41E-17
Eu-147
3.54E-18
3.26E-18
3.11E-18
2.93E-18
2.69E-18
2.63E-18
Eu-148
1.72E-17
1.60E-17
1.52E-17
1.44E-17
1.35E-17
1.32E-17
Eu-149
4.51E-19
3.88E-19
3.49E-19
3.30E-19
2.87E-19
2.80E-19
Eu-150
1.20E-17
1.12E-17
1.05E-17
1.01E-17
9.34E-18
9.13E-18
Eu-150m
5.04E-19
4.67E-19
4.43E-19
4.22E-19
3.90E-19
3.81E-19
Eu-152
8.86E-18
8.22E-18
7.93E-18
7.49E-18
6.94E-18
6.81E-18
Eu-152m
2.52E-18
2.34E-18
2.28E-18
2.13E-18
1.98E-18
1.94E-18
Eu-152n
5.33E-19
4.70E-19
4.36E-19
4.10E-19
3.70E-19
3.58E-19
Eu-154
9.50E-18
8.84E-18
8.57E-18
8.07E-18
7.50E-18
7.36E-18
Eu-154m
4.73E-19
4.13E-19
3.73E-19
3.54E-19
3.09E-19
3.00E-19
Eu-155
4.49E-19
3.95E-19
3.66E-19
3.44E-19
3.09E-19
3.00E-19
Eu-156
9.26E-18
8.65E-18
8.33E-18
7.96E-18
7.44E-18
7.31E-18
Eu-157
2.41E-18
2.21E-18
2.06E-18
1.97E-18
1.81E-18
1.77E-18
Eu-158
1.02E-17
9.53E-18
9.29E-18
8.75E-18
8.14E-18
7.99E-18
Eu-159
2.78E-18
2.56E-18
2.44E-18
2.30E-18
2.12E-18
2.08E-18
Gadolinium
Gd-142
8.54E-18
7.97E-18
7.51E-18
7.19E-18
6.72E-18
6.58E-18
Gd-143m
1.71E-17
1.60E-17
1.51E-17
1.45E-17
1.35E-17
1.32E-17
Gd-144
7.19E-18
6.71E-18
6.31E-18
6.08E-18
5.70E-18
5.59E-18
Gd-145
1.75E-17
1.64E-17
1.55E-17
1.51E-17
1.42E-17
1.39E-17
Gd-145m
5.35E-18
4.98E-18
4.78E-18
4.51E-18
4.20E-18
4.11E-18
Gd-146
1.79E-18
1.59E-18
1.43E-18
1.35E-18
1.20E-18
1.17E-18
Gd-147
1.07E-17
9.94E-18
9.52E-18
9.02E-18
8.31E-18
8.14E-18
Gd-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-149
4.03E-18
3.72E-18
3.48E-18
3.32E-18
3.02E-18
2.96E-18
Gd-150
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-151
4.80E-19
4.15E-19
3.71E-19
3.50E-19
3.01E-19
2.94E-19
Gd-152
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-153
7.23E-19
6.08E-19
5.50E-19
5.09E-19
4.47E-19
4.33E-19
79
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Gd-159
5.31E-19
4.86E-19
4.55E-19
4.35E-19
3.96E-19
3.87E-19
Gd-162
3.41E-18
3.18E-18
2.96E-18
2.85E-18
2.65E-18
2.58E-18
Terbium
Tb-146
2.79E-17
2.60E-17
2.49E-17
2.39E-17
2.24E-17
2.20E-17
Tb-147
1.65E-17
1.54E-17
1.48E-17
1.40E-17
1.31E-17
1.28E-17
Tb-147m
1.42E-17
1.33E-17
1.27E-17
1.22E-17
1.14E-17
1.12E-17
Tb-148
1.83E-17
1.71E-17
1.63E-17
1.55E-17
1.46E-17
1.43E-17
Tb-148m
2.44E-17
2.28E-17
2.18E-17
2.06E-17
1.92E-17
1.88E-17
Tb-149
1.02E-17
9.49E-18
9.04E-18
8.63E-18
8.02E-18
7.86E-18
Tb-149m
1.07E-17
9.97E-18
9.56E-18
9.01E-18
8.40E-18
8.22E-18
Tb-150
1.78E-17
1.66E-17
1.58E-17
1.52E-17
1.43E-17
1.40E-17
Tb-150m
1.97E-17
1.84E-17
1.74E-17
1.65E-17
1.54E-17
1.51E-17
Tb-151
7.62E-18
7.05E-18
6.64E-18
6.34E-18
5.84E-18
5.71E-18
Tb-151m
5.94E-19
5.42E-19
5.09E-19
4.82E-19
4.41E-19
4.31E-19
Tb-152
1.12E-17
1.04E-17
9.90E-18
9.52E-18
8.86E-18
8.69E-18
Tb-152m
5.87E-18
5.42E-18
5.08E-18
4.87E-18
4.44E-18
4.34E-18
Tb-153
2.48E-18
2.27E-18
2.13E-18
2.02E-18
1.82E-18
1.78E-18
Tb-154
1.62E-17
1.52E-17
1.45E-17
1.40E-17
1.31E-17
1.29E-17
Tb-155
1.28E-18
1.14E-18
1.04E-18
9.87E-19
8.75E-19
8.53E-19
Tb-156
1.46E-17
1.35E-17
1.29E-17
1.23E-17
1.14E-17
1.12E-17
Tb-156m
2.63E-19
2.16E-19
1.90E-19
1.75E-19
1.46E-19
1.42E-19
Tb-156n
2.52E-20
2.09E-20
1.86E-20
1.72E-20
1.47E-20
1.43E-20
Tb-157
3.04E-20
2.41E-20
2.08E-20
1.88E-20
1.54E-20
1.50E-20
Tb-158
6.09E-18
5.63E-18
5.50E-18
5.12E-18
4.73E-18
4.64E-18
Tb-160
8.60E-18
7.99E-18
7.79E-18
7.31E-18
6.77E-18
6.64E-18
Tb-161
2.66E-19
2.27E-19
2.04E-19
1.91E-19
1.64E-19
1.59E-19
Tb-162
8.73E-18
8.12E-18
7.86E-18
7.40E-18
6.80E-18
6.66E-18
Tb-163
6.33E-18
5.90E-18
5.51E-18
5.30E-18
4.91E-18
4.79E-18
Tb-164
1.89E-17
1.76E-17
1.69E-17
1.60E-17
1.49E-17
1.46E-17
Tb-165
6.75E-18
6.30E-18
6.08E-18
5.80E-18
5.41E-18
5.32E-18
Dysprosium
Dy-148
5.57E-18
5.17E-18
4.87E-18
4.63E-18
4.32E-18
4.22E-18
Dy-149
1.21E-17
1.12E-17
1.07E-17
1.02E-17
9.54E-18
9.36E-18
Dy-150
2.17E-18
2.00E-18
1.85E-18
1.78E-18
1.64E-18
1.60E-18
Dy-151
1.03E-17
9.61E-18
9.19E-18
8.74E-18
8.13E-18
7.96E-18
Dy-152
2.18E-18
1.99E-18
1.86E-18
1.80E-18
1.58E-18
1.54E-18
Dy-153
6.55E-18
6.03E-18
5.72E-18
5.44E-18
5.00E-18
4.90E-18
Dy-154
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Dy-155
5.03E-18
4.65E-18
4.43E-18
4.22E-18
3.85E-18
3.77E-18
Dy-157
2.67E-18
2.45E-18
2.27E-18
2.19E-18
1.97E-18
1.92E-18
Dy-159
3.01E-19
2.42E-19
2.10E-19
1.91E-19
1.58E-19
1.54E-19
Dy-165
4.07E-19
3.75E-19
3.61E-19
3.40E-19
3.15E-19
3.09E-19
Dy-165m
1.39E-19
1.25E-19
1.15E-19
1.09E-19
9.96E-20
9.71E-20
Dy-166
3.34E-19
2.88E-19
2.61E-19
2.44E-19
2.13E-19
2.07E-19
Dy-167
4.51E-18
4.19E-18
3.95E-18
3.79E-18
3.49E-18
3.41E-18
Dy-168
3.22E-18
3.00E-18
2.79E-18
2.67E-18
2.47E-18
2.41E-18
80
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Holmium
Ho-150
1.65E-17
1.54E-17
1.47E-17
1.39E-17
1.30E-17
1.28E-17
Ho-153
8.31E-18
7.73E-18
7.30E-18
6.97E-18
6.45E-18
6.31E-18
Ho-153m
8.70E-18
8.09E-18
7.60E-18
7.26E-18
6.75E-18
6.59E-18
Ho-154
1.53E-17
1.43E-17
1.35E-17
1.30E-17
1.21E-17
1.18E-17
Ho-154m
1.93E-17
1.80E-17
1.69E-17
1.62E-17
1.51E-17
1.47E-17
Ho-155
4.75E-18
4.40E-18
4.12E-18
3.95E-18
3.65E-18
3.57E-18
Ho-156
1.62E-17
1.51E-17
1.44E-17
1.37E-17
1.28E-17
1.25E-17
Ho-157
4.45E-18
4.08E-18
3.83E-18
3.65E-18
3.33E-18
3.25E-18
Ho-159
2.88E-18
2.62E-18
2.43E-18
2.31E-18
2.07E-18
2.03E-18
Ho-160
1.30E-17
1.20E-17
1.17E-17
1.09E-17
1.01E-17
9.93E-18
Ho-161
3.63E-19
2.97E-19
2.61E-19
2.41E-19
2.02E-19
1.97E-19
Ho-162
1.21E-18
1.09E-18
1.02E-18
9.66E-19
8.81E-19
8.62E-19
Ho-162m
4.18E-18
3.85E-18
3.71E-18
3.50E-18
3.20E-18
3.14E-18
Ho-163
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ho-164
2.50E-19
2.11E-19
1.91E-19
1.76E-19
1.52E-19
1.48E-19
Ho-164m
3.03E-19
2.48E-19
2.17E-19
1.99E-19
1.66E-19
1.61E-19
Ho-166
5.88E-19
5.47E-19
5.30E-19
5.02E-19
4.68E-19
4.60E-19
Ho-166m
1.26E-17
1.17E-17
1.12E-17
1.06E-17
9.77E-18
9.57E-18
Ho-167
2.92E-18
2.71E-18
2.53E-18
2.44E-18
2.22E-18
2.17E-18
Ho-168
7.17E-18
6.68E-18
6.47E-18
6.08E-18
5.66E-18
5.55E-18
Ho-168m
4.31E-20
3.53E-20
3.10E-20
2.84E-20
2.37E-20
2.31E-20
Ho-170
1.34E-17
1.24E-17
1.21E-17
1.14E-17
1.05E-17
1.03E-17
Erbium
Er-154
5.15E-19
4.45E-19
4.00E-19
3.75E-19
3.31E-19
3.22E-19
Er-156
4.37E-19
3.66E-19
3.23E-19
3.00E-19
2.55E-19
2.48E-19
Er-159
7.31E-18
6.79E-18
6.44E-18
6.14E-18
5.71E-18
5.60E-18
Er-161
7.51E-18
6.96E-18
6.74E-18
6.32E-18
5.85E-18
5.74E-18
Er-163
2.76E-19
2.27E-19
2.00E-19
1.84E-19
1.54E-19
1.50E-19
Er-165
2.59E-19
2.12E-19
1.86E-19
1.70E-19
1.42E-19
1.38E-19
Er-167m
7.33E-19
6.75E-19
6.27E-19
6.06E-19
5.30E-19
5.19E-19
Er-169
2.39E-20
2.22E-20
2.19E-20
2.04E-20
1.90E-20
1.86E-20
Er-171
3.03E-18
2.79E-18
2.62E-18
2.52E-18
2.27E-18
2.22E-18
Er-172
4.05E-18
3.76E-18
3.51E-18
3.36E-18
3.11E-18
3.04E-18
Er-173
6.68E-18
6.20E-18
5.97E-18
5.62E-18
5.15E-18
5.05E-18
Thulium
Tm-161
9.61E-18
8.90E-18
8.38E-18
8.06E-18
7.48E-18
7.33E-18
Tm-162
1.43E-17
1.34E-17
1.27E-17
1.22E-17
1.15E-17
1.12E-17
Tm-163
9.78E-18
9.06E-18
8.66E-18
8.26E-18
7.65E-18
7.51E-18
Tm-164
6.31E-18
5.88E-18
5.54E-18
5.31E-18
4.97E-18
4.86E-18
Tm-165
4.29E-18
3.95E-18
3.72E-18
3.55E-18
3.22E-18
3.16E-18
Tm-166
1.45E-17
1.35E-17
1.29E-17
1.24E-17
1.16E-17
1.13E-17
Tm-167
1.10E-18
9.85E-19
9.03E-19
8.63E-19
7.51E-19
7.35E-19
Tm-168
9.55E-18
8.87E-18
8.50E-18
8.01E-18
7.39E-18
7.24E-18
Tm-170
1.54E-19
1.43E-19
1.38E-19
1.30E-19
1.20E-19
1.18E-19
Tm-171
6.48E-21
5.73E-21
5.27E-21
4.93E-21
4.33E-21
4.23E-21
81
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Tm-172
3.75E-18
3.49E-18
3.37E-18
3.22E-18
3.00E-18
2.95E-18
Tm-173
3.17E-18
2.96E-18
2.75E-18
2.65E-18
2.45E-18
2.39E-18
Tm-174
1.38E-17
1.28E-17
1.23E-17
1.17E-17
1.07E-17
1.05E-17
Tm-175
8.55E-18
7.97E-18
7.62E-18
7.22E-18
6.73E-18
6.58E-18
Tm-176
1.50E-17
1.40E-17
1.34E-17
1.28E-17
1.19E-17
1.17E-17
Ytterbium
Yb-162
1.89E-18
1.74E-18
1.59E-18
1.52E-18
1.38E-18
1.35E-18
Yb-163
5.66E-18
5.26E-18
4.99E-18
4.76E-18
4.43E-18
4.34E-18
Yb-164
3.87E-19
3.33E-19
2.99E-19
2.79E-19
2.42E-19
2.36E-19
Yb-165
2.53E-18
2.31E-18
2.17E-18
2.05E-18
1.88E-18
1.83E-18
Yb-166
6.09E-19
5.17E-19
4.60E-19
4.28E-19
3.64E-19
3.54E-19
Yb-167
1.96E-18
1.74E-18
1.59E-18
1.50E-18
1.34E-18
1.30E-18
Yb-169
2.43E-18
2.19E-18
1.99E-18
1.90E-18
1.66E-18
1.62E-18
Yb-175
3.39E-19
3.14E-19
2.93E-19
2.82E-19
2.58E-19
2.52E-19
Yb-177
1.66E-18
1.55E-18
1.49E-18
1.40E-18
1.30E-18
1.27E-18
Yb-178
3.60E-19
3.34E-19
3.14E-19
3.02E-19
2.77E-19
2.71E-19
Yb-179
7.96E-18
7.43E-18
7.00E-18
6.68E-18
6.24E-18
6.10E-18
Lutetium
Lu-165
8.56E-18
7.96E-18
7.50E-18
7.19E-18
6.67E-18
6.54E-18
Lu-167
1.24E-17
1.15E-17
1.10E-17
1.06E-17
9.83E-18
9.65E-18
Lu-169
9.77E-18
9.07E-18
8.74E-18
8.29E-18
7.68E-18
7.54E-18
Lu-169m
1.51E-23
9.71E-24
5.65E-24
5.09E-24
2.04E-24
1.89E-24
Lu-170
1.81E-17
1.69E-17
1.62E-17
1.56E-17
1.46E-17
1.44E-17
Lu-171
4.95E-18
4.57E-18
4.37E-18
4.10E-18
3.79E-18
3.71E-18
Lu-171m
2.30E-21
2.04E-21
1.81E-21
1.73E-21
1.48E-21
1.44E-21
Lu-172
1.48E-17
1.37E-17
1.33E-17
1.25E-17
1.16E-17
1.14E-17
Lu-172m
1.50E-23
1.10E-23
8.49E-24
7.67E-24
5.45E-24
5.26E-24
Lu-173
1.35E-18
1.21E-18
1.10E-18
1.05E-18
9.19E-19
8.98E-19
Lu-174
8.38E-19
7.53E-19
7.08E-19
6.66E-19
5.99E-19
5.87E-19
Lu-174m
4.22E-19
3.67E-19
3.29E-19
3.09E-19
2.66E-19
2.59E-19
Lu-176
3.76E-18
3.48E-18
3.25E-18
3.15E-18
2.80E-18
2.74E-18
Lu-176m
3.03E-19
2.78E-19
2.68E-19
2.52E-19
2.32E-19
2.28E-19
Lu-177
3.02E-19
2.79E-19
2.61E-19
2.50E-19
2.23E-19
2.18E-19
Lu-177m
7.70E-18
7.13E-18
6.61E-18
6.38E-18
5.74E-18
5.61E-18
Lu-178
1.35E-18
1.26E-18
1.22E-18
1.16E-18
1.09E-18
1.07E-18
Lu-178m
8.29E-18
7.68E-18
7.15E-18
6.90E-18
6.28E-18
6.13E-18
Lu-179
4.63E-19
4.32E-19
4.15E-19
3.96E-19
3.61E-19
3.54E-19
Lu-180
1.17E-17
1.09E-17
1.05E-17
9.94E-18
9.22E-18
9.05E-18
Lu-181
4.87E-18
4.53E-18
4.31E-18
4.09E-18
3.78E-18
3.70E-18
Hafnium
Hf-167
5.17E-18
4.81E-18
4.48E-18
4.32E-18
3.99E-18
3.90E-18
Hf-169
5.09E-18
4.73E-18
4.38E-18
4.21E-18
3.92E-18
3.83E-18
Hf-170
3.36E-18
3.11E-18
2.88E-18
2.75E-18
2.53E-18
2.47E-18
Hf-172
7.15E-19
6.27E-19
5.60E-19
5.27E-19
4.57E-19
4.45E-19
Hf-173
3.00E-18
2.76E-18
2.55E-18
2.44E-18
2.20E-18
2.15E-18
Hf-174
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
82
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hf-175
2.73E-18
2.51E-18
2.33E-18
2.24E-18
2.03E-18
1.98E-18
Hf-177m
1.77E-17
1.64E-17
1.53E-17
1.48E-17
1.33E-17
1.30E-17
Hf-178m
1.75E-17
1.62E-17
1.51E-17
1.46E-17
1.34E-17
1.31E-17
Hf-179m
7.12E-18
6.62E-18
6.11E-18
5.90E-18
5.38E-18
5.26E-18
Hf-180m
7.70E-18
7.15E-18
6.64E-18
6.41E-18
5.84E-18
5.71E-18
Hf-181
4.18E-18
3.91E-18
3.61E-18
3.47E-18
3.23E-18
3.15E-18
Hf-182
1.86E-18
1.72E-18
1.61E-18
1.56E-18
1.38E-18
1.35E-18
Hf-182m
7.07E-18
6.56E-18
6.19E-18
5.90E-18
5.41E-18
5.30E-18
Hf-183
6.17E-18
5.74E-18
5.50E-18
5.19E-18
4.82E-18
4.72E-18
Hf-184
1.90E-18
1.77E-18
1.62E-18
1.56E-18
1.42E-18
1.39E-18
Tantalum
Ta-170
9.57E-18
8.93E-18
8.45E-18
8.07E-18
7.54E-18
7.37E-18
Ta-172
1.31E-17
1.22E-17
1.17E-17
1.11E-17
1.03E-17
1.01E-17
Ta-173
4.38E-18
4.06E-18
3.84E-18
3.66E-18
3.38E-18
3.31E-18
Ta-174
7.57E-18
7.05E-18
6.67E-18
6.39E-18
5.92E-18
5.80E-18
Ta-175
8.23E-18
7.64E-18
7.28E-18
6.96E-18
6.44E-18
6.32E-18
Ta-176
1.61E-17
1.51E-17
1.44E-17
1.39E-17
1.29E-17
1.27E-17
Ta-177
4.84E-19
4.28E-19
3.87E-19
3.65E-19
3.18E-19
3.10E-19
Ta-178
8.86E-19
8.03E-19
7.48E-19
7.09E-19
6.40E-19
6.26E-19
Ta-178m
8.95E-18
8.28E-18
7.69E-18
7.42E-18
6.73E-18
6.57E-18
Ta-179
1.73E-19
1.51E-19
1.34E-19
1.26E-19
1.07E-19
1.04E-19
Ta-180
3.48E-19
3.04E-19
2.72E-19
2.56E-19
2.21E-19
2.15E-19
Ta-182
9.66E-18
8.98E-18
8.73E-18
8.23E-18
7.62E-18
7.48E-18
Ta-182m
1.96E-18
1.83E-18
1.65E-18
1.59E-18
1.41E-18
1.38E-18
Ta-183
2.28E-18
2.10E-18
1.94E-18
1.87E-18
1.66E-18
1.63E-18
Ta-184
1.23E-17
1.14E-17
1.09E-17
1.04E-17
9.55E-18
9.34E-18
Ta-185
1.50E-18
1.40E-18
1.30E-18
1.25E-18
1.13E-18
1.10E-18
Ta-186
1.17E-17
1.09E-17
1.03E-17
9.83E-18
9.08E-18
8.89E-18
Tungsten
W-177
6.96E-18
6.44E-18
6.12E-18
5.79E-18
5.33E-18
5.21E-18
W-178
1.05E-19
9.23E-20
8.19E-20
7.76E-20
6.62E-20
6.44E-20
W-179
3.58E-19
3.12E-19
2.75E-19
2.60E-19
2.21E-19
2.15E-19
W-179m
4.03E-19
3.64E-19
3.31E-19
3.18E-19
2.75E-19
2.68E-19
W-181
2.79E-19
2.45E-19
2.18E-19
2.07E-19
1.76E-19
1.72E-19
W-185
3.45E-20
3.21E-20
3.16E-20
2.95E-20
2.73E-20
2.68E-20
W-185m
1.77E-19
1.64E-19
1.48E-19
1.42E-19
1.26E-19
1.23E-19
W-187
3.59E-18
3.35E-18
3.16E-18
3.01E-18
2.80E-18
2.74E-18
W-188
3.83E-20
3.55E-20
3.43E-20
3.24E-20
2.96E-20
2.90E-20
W-190
1.22E-18
1.13E-18
1.02E-18
9.81E-19
8.70E-19
8.53E-19
Rhenium
Re-178
1.27E-17
1.18E-17
1.13E-17
1.08E-17
1.01E-17
9.93E-18
Re-179
8.18E-18
7.62E-18
7.17E-18
6.90E-18
6.38E-18
6.24E-18
Re-180
9.19E-18
8.54E-18
8.29E-18
7.76E-18
7.20E-18
7.05E-18
Re-181
6.16E-18
5.71E-18
5.40E-18
5.15E-18
4.73E-18
4.63E-18
Re-182
1.34E-17
1.25E-17
1.20E-17
1.14E-17
1.04E-17
1.02E-17
Re-182m
9.05E-18
8.41E-18
8.13E-18
7.69E-18
7.12E-18
6.98E-18
83
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Re-183
1.13E-18
1.03E-18
9.26E-19
8.89E-19
7.79E-19
7.62E-19
Re-184
6.79E-18
6.30E-18
6.13E-18
5.72E-18
5.30E-18
5.19E-18
Re-184m
2.89E-18
2.67E-18
2.54E-18
2.40E-18
2.19E-18
2.14E-18
Re-186
2.84E-19
2.65E-19
2.48E-19
2.35E-19
2.15E-19
2.11E-19
Re-186m
1.04E-19
9.02E-20
7.99E-20
7.53E-20
6.44E-20
6.26E-20
Re-187
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Re-188
9.13E-19
8.59E-19
8.21E-19
7.82E-19
7.27E-19
7.15E-19
Re-188m
4.89E-19
4.39E-19
3.96E-19
3.79E-19
3.31E-19
3.22E-19
Re-189
5.45E-19
5.08E-19
4.78E-19
4.59E-19
4.13E-19
4.05E-19
Re-190
1.07E-17
1.00E-17
9.47E-18
9.04E-18
8.37E-18
8.19E-18
Re-190m
7.38E-18
6.88E-18
6.47E-18
6.19E-18
5.73E-18
5.60E-18
Osmium
Os-180
9.09E-19
8.34E-19
7.69E-19
7.35E-19
6.59E-19
6.43E-19
Os-181
1.04E-17
9.63E-18
9.25E-18
8.78E-18
8.11E-18
7.95E-18
Os-182
3.32E-18
3.09E-18
2.85E-18
2.74E-18
2.52E-18
2.46E-18
Os-183
4.81E-18
4.45E-18
4.15E-18
3.99E-18
3.64E-18
3.56E-18
Os-183m
7.54E-18
7.00E-18
6.84E-18
6.41E-18
5.94E-18
5.83E-18
Os-185
5.35E-18
4.97E-18
4.73E-18
4.47E-18
4.16E-18
4.07E-18
Os-186
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Os-189m
6.40E-23
4.30E-23
2.59E-23
2.35E-23
8.33E-24
7.67E-24
Os-190m
1.24E-17
1.16E-17
1.08E-17
1.04E-17
9.65E-18
9.44E-18
Os-191
5.89E-19
5.45E-19
4.89E-19
4.71E-19
4.18E-19
4.08E-19
Os-191m
4.10E-20
3.71E-20
3.30E-20
3.19E-20
2.73E-20
2.65E-20
Os-193
6.60E-19
6.15E-19
5.75E-19
5.51E-19
5.07E-19
4.96E-19
Os-194
1.68E-20
1.34E-20
1.16E-20
1.05E-20
8.67E-21
8.43E-21
Os-196
7.74E-19
7.20E-19
6.76E-19
6.48E-19
5.93E-19
5.80E-19
Iridium
Ir-180
1.33E-17
1.24E-17
1.18E-17
1.12E-17
1.04E-17
1.02E-17
Ir-182
1.16E-17
1.09E-17
1.03E-17
9.82E-18
9.11E-18
8.92E-18
Ir-183
8.84E-18
8.24E-18
7.81E-18
7.51E-18
6.97E-18
6.83E-18
Ir-184
1.49E-17
1.39E-17
1.33E-17
1.27E-17
1.17E-17
1.15E-17
Ir-185
6.23E-18
5.81E-18
5.48E-18
5.30E-18
4.91E-18
4.82E-18
Ir-186
1.25E-17
1.17E-17
1.10E-17
1.06E-17
9.81E-18
9.61E-18
Ir-186m
9.36E-18
8.73E-18
8.34E-18
7.95E-18
7.41E-18
7.27E-18
Ir-187
2.50E-18
2.32E-18
2.20E-18
2.08E-18
1.91E-18
1.86E-18
Ir-188
1.50E-17
1.41E-17
1.33E-17
1.29E-17
1.21E-17
1.19E-17
Ir-189
5.54E-19
5.05E-19
4.57E-19
4.42E-19
3.82E-19
3.73E-19
Ir-190
1.15E-17
1.07E-17
1.00E-17
9.62E-18
8.90E-18
8.70E-18
Ir-190m
7.09E-23
4.89E-23
3.02E-23
2.76E-23
9.55E-24
8.77E-24
Ir-190n
3.98E-19
3.61E-19
3.22E-19
3.10E-19
2.67E-19
2.60E-19
Ir-191m
5.26E-19
4.87E-19
4.36E-19
4.21E-19
3.73E-19
3.64E-19
Ir-192
6.45E-18
6.00E-18
5.61E-18
5.42E-18
4.95E-18
4.84E-18
Ir-192m
7.18E-22
6.02E-22
5.06E-22
4.81E-22
3.76E-22
3.65E-22
Ir-192n
4.82E-21
4.33E-21
3.77E-21
3.65E-21
3.06E-21
2.99E-21
Ir-193m
2.26E-21
2.04E-21
1.81E-21
1.75E-21
1.48E-21
1.44E-21
Ir-194
1.19E-18
1.11E-18
1.07E-18
1.02E-18
9.48E-19
9.31E-19
84
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ir-194m
1.83E-17
1.71E-17
1.60E-17
1.53E-17
1.43E-17
1.39E-17
Ir-195
5.42E-19
4.97E-19
4.61E-19
4.42E-19
3.93E-19
3.83E-19
Ir-195m
2.97E-18
2.76E-18
2.58E-18
2.48E-18
2.27E-18
2.22E-18
Ir-196
2.60E-18
2.44E-18
2.34E-18
2.23E-18
2.08E-18
2.04E-18
Ir-196m
1.94E-17
1.81E-17
1.70E-17
1.63E-17
1.51E-17
1.48E-17
Platinum
Pt-184
5.50E-18
5.12E-18
4.75E-18
4.56E-18
4.15E-18
4.06E-18
Pt-186
5.26E-18
4.90E-18
4.64E-18
4.40E-18
4.07E-18
3.98E-18
Pt-187
4.71E-18
4.37E-18
4.13E-18
3.93E-18
3.60E-18
3.52E-18
Pt-188
1.52E-18
1.41E-18
1.29E-18
1.25E-18
1.11E-18
1.08E-18
Pt-189
3.67E-18
3.41E-18
3.20E-18
3.06E-18
2.80E-18
2.74E-18
Pt-190
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pt-191
2.22E-18
2.06E-18
1.89E-18
1.83E-18
1.66E-18
1.61E-18
Pt-193
1.72E-22
1.20E-22
7.64E-23
7.03E-23
2.43E-23
2.23E-23
Pt-193m
7.37E-20
6.74E-20
6.02E-20
5.86E-20
5.04E-20
4.90E-20
Pt-195m
5.07E-19
4.62E-19
4.16E-19
4.03E-19
3.51E-19
3.42E-19
Pt-197
2.36E-19
2.18E-19
2.04E-19
1.95E-19
1.74E-19
1.70E-19
Pt-197m
6.00E-19
5.54E-19
5.08E-19
4.93E-19
4.38E-19
4.27E-19
Pt-199
1.82E-18
1.70E-18
1.61E-18
1.54E-18
1.43E-18
1.40E-18
Pt-200
4.81E-19
4.45E-19
4.10E-19
3.96E-19
3.51E-19
3.43E-19
Pt-202
3.61E-19
3.40E-19
3.34E-19
3.16E-19
2.97E-19
2.93E-19
Gold
Au-186
1.23E-17
1.15E-17
1.09E-17
1.04E-17
9.67E-18
9.47E-18
Au-187
7.90E-18
7.37E-18
7.01E-18
6.73E-18
6.27E-18
6.15E-18
Au-190
1.70E-17
1.59E-17
1.50E-17
1.47E-17
1.37E-17
1.34E-17
Au-191
4.56E-18
4.25E-18
3.97E-18
3.81E-18
3.49E-18
3.41E-18
Au-192
1.40E-17
1.31E-17
1.24E-17
1.20E-17
1.12E-17
1.10E-17
Au-193
1.23E-18
1.14E-18
1.04E-18
1.01E-18
8.91E-19
8.70E-19
Au-193m
1.50E-18
1.39E-18
1.30E-18
1.26E-18
1.11E-18
1.09E-18
Au-194
7.69E-18
7.17E-18
6.80E-18
6.56E-18
6.06E-18
5.95E-18
Au-195
5.69E-19
5.18E-19
4.67E-19
4.52E-19
3.93E-19
3.82E-19
Au-195m
1.53E-18
1.41E-18
1.32E-18
1.28E-18
1.13E-18
1.11E-18
Au-196
3.67E-18
3.41E-18
3.16E-18
3.06E-18
2.78E-18
2.72E-18
Au-196m
1.78E-18
1.67E-18
1.51E-18
1.47E-18
1.30E-18
1.28E-18
Au-198
3.30E-18
3.08E-18
2.86E-18
2.76E-18
2.56E-18
2.50E-18
Au-198m
4.01E-18
3.71E-18
3.44E-18
3.33E-18
2.95E-18
2.89E-18
Au-199
7.27E-19
6.88E-19
6.22E-19
6.03E-19
5.39E-19
5.29E-19
Au-200
2.50E-18
2.33E-18
2.25E-18
2.14E-18
1.99E-18
1.95E-18
Au-200m
1.55E-17
1.45E-17
1.36E-17
1.30E-17
1.20E-17
1.18E-17
Au-201
4.57E-19
4.27E-19
4.08E-19
3.88E-19
3.62E-19
3.55E-19
Au-202
2.04E-18
1.91E-18
1.85E-18
1.76E-18
1.64E-18
1.61E-18
Mercury
Hg-190
1.45E-18
1.37E-18
1.22E-18
1.19E-18
1.06E-18
1.04E-18
Hg-191m
1.13E-17
1.05E-17
9.98E-18
9.56E-18
8.82E-18
8.64E-18
Hg-192
2.05E-18
1.89E-18
1.75E-18
1.70E-18
1.50E-18
1.47E-18
Hg-193
6.23E-18
5.80E-18
5.55E-18
5.29E-18
4.88E-18
4.79E-18
85
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hg-193m
7.73E-18
7.20E-18
6.86E-18
6.55E-18
6.08E-18
5.95E-18
Hg-194
2.61E-22
1.91E-22
1.28E-22
1.19E-22
4.12E-23
3.77E-23
Hg-195
1.47E-18
1.37E-18
1.29E-18
1.23E-18
1.12E-18
1.09E-18
Hg-195m
1.51E-18
1.40E-18
1.31E-18
1.26E-18
1.13E-18
1.11E-18
Hg-197
4.99E-19
4.58E-19
4.12E-19
4.01E-19
3.47E-19
3.38E-19
Hg-197m
6.90E-19
6.45E-19
5.84E-19
5.64E-19
5.05E-19
4.94E-19
Hg-199m
1.35E-18
1.27E-18
1.15E-18
1.12E-18
1.00E-18
9.83E-19
Hg-203
1.86E-18
1.72E-18
1.61E-18
1.56E-18
1.39E-18
1.36E-18
Hg-205
3.13E-19
2.94E-19
2.87E-19
2.72E-19
2.53E-19
2.49E-19
Hg-206
1.12E-18
1.04E-18
9.78E-19
9.42E-19
8.54E-19
8.36E-19
Hg-207
1.99E-17
1.85E-17
1.78E-17
1.71E-17
1.59E-17
1.56E-17
Thallium
Tl-190
1.15E-17
1.07E-17
1.01E-17
9.66E-18
9.03E-18
8.84E-18
Tl-190m
1.97E-17
1.84E-17
1.74E-17
1.66E-17
1.55E-17
1.51E-17
Tl-194
7.59E-18
7.09E-18
6.65E-18
6.37E-18
5.94E-18
5.81E-18
Tl-194m
1.97E-17
1.84E-17
1.74E-17
1.65E-17
1.54E-17
1.51E-17
Tl-195
8.95E-18
8.36E-18
7.98E-18
7.66E-18
7.13E-18
7.00E-18
Tl-196
1.40E-17
1.31E-17
1.24E-17
1.19E-17
1.11E-17
1.09E-17
Tl-197
3.44E-18
3.20E-18
3.03E-18
2.89E-18
2.67E-18
2.61E-18
Tl-198
1.48E-17
1.38E-17
1.31E-17
1.26E-17
1.18E-17
1.16E-17
Tl-198m
9.46E-18
8.82E-18
8.28E-18
7.92E-18
7.35E-18
7.18E-18
Tl-199
1.89E-18
1.76E-18
1.63E-18
1.57E-18
1.42E-18
1.38E-18
Tl-200
9.91E-18
9.23E-18
8.82E-18
8.41E-18
7.78E-18
7.62E-18
Tl-201
6.51E-19
6.02E-19
5.42E-19
5.27E-19
4.61E-19
4.50E-19
Tl-202
3.62E-18
3.37E-18
3.11E-18
3.01E-18
2.78E-18
2.71E-18
Tl-204
9.36E-20
8.72E-20
8.51E-20
7.98E-20
7.38E-20
7.24E-20
Tl-206
2.75E-19
2.58E-19
2.54E-19
2.39E-19
2.25E-19
2.21E-19
Tl-206m
1.87E-17
1.74E-17
1.66E-17
1.58E-17
1.46E-17
1.43E-17
Tl-207
2.60E-19
2.44E-19
2.40E-19
2.26E-19
2.12E-19
2.08E-19
Tl-208
2.35E-17
2.21E-17
2.09E-17
2.04E-17
1.92E-17
1.89E-17
Tl-209
1.62E-17
1.51E-17
1.43E-17
1.38E-17
1.29E-17
1.27E-17
Tl-210
2.13E-17
1.99E-17
1.91E-17
1.83E-17
1.70E-17
1.67E-17
Lead
Pb-194
8.10E-18
7.55E-18
7.18E-18
6.87E-18
6.36E-18
6.24E-18
Pb-195m
1.28E-17
1.20E-17
1.14E-17
1.08E-17
1.00E-17
9.80E-18
Pb-196
3.78E-18
3.51E-18
3.28E-18
3.15E-18
2.87E-18
2.81E-18
Pb-197
1.14E-17
1.06E-17
1.02E-17
9.72E-18
9.04E-18
8.87E-18
Pb-197m
9.00E-18
8.38E-18
7.94E-18
7.58E-18
6.99E-18
6.84E-18
Pb-198
3.34E-18
3.10E-18
2.90E-18
2.79E-18
2.52E-18
2.47E-18
Pb-199
7.76E-18
7.23E-18
6.89E-18
6.60E-18
6.12E-18
6.00E-18
Pb-200
1.52E-18
1.42E-18
1.29E-18
1.25E-18
1.12E-18
1.09E-18
Pb-201
5.78E-18
5.37E-18
5.11E-18
4.87E-18
4.46E-18
4.37E-18
Pb-201m
2.84E-18
2.65E-18
2.51E-18
2.38E-18
2.23E-18
2.17E-18
Pb-202
2.95E-22
2.02E-22
1.25E-22
1.14E-22
4.01E-23
3.68E-23
Pb-202m
1.54E-17
1.43E-17
1.38E-17
1.30E-17
1.21E-17
1.18E-17
Pb-203
2.38E-18
2.20E-18
2.05E-18
1.99E-18
1.77E-18
1.73E-18
86
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Pb-204m
1.58E-17
1.47E-17
1.44E-17
1.34E-17
1.25E-17
1.22E-17
Pb-205
2.99E-22
2.04E-22
1.26E-22
1.16E-22
4.06E-23
3.72E-23
Pb-209
6.41E-20
5.97E-20
5.87E-20
5.48E-20
5.09E-20
5.00E-20
Pb-210
1.45E-20
1.17E-20
1.01E-20
9.23E-21
7.49E-21
7.28E-21
Pb-211
7.13E-19
6.66E-19
6.42E-19
6.07E-19
5.65E-19
5.54E-19
Pb-212
1.12E-18
1.04E-18
9.69E-19
9.39E-19
8.29E-19
8.11E-19
Pb-214
2.03E-18
1.89E-18
1.77E-18
1.71E-18
1.55E-18
1.51E-18
Bismuth
Bi-197
1.30E-17
1.21E-17
1.16E-17
1.10E-17
1.03E-17
1.00E-17
Bi-200
1.89E-17
1.76E-17
1.68E-17
1.59E-17
1.47E-17
1.44E-17
Bi-201
1.28E-17
1.20E-17
1.15E-17
1.10E-17
1.02E-17
1.00E-17
Bi-202
2.10E-17
1.96E-17
1.88E-17
1.78E-17
1.66E-17
1.62E-17
Bi-203
1.76E-17
1.64E-17
1.57E-17
1.50E-17
1.40E-17
1.38E-17
Bi-204
2.20E-17
2.05E-17
1.98E-17
1.87E-17
1.74E-17
1.70E-17
Bi-205
1.24E-17
1.16E-17
1.11E-17
1.06E-17
9.94E-18
9.75E-18
Bi-206
2.48E-17
2.32E-17
2.22E-17
2.11E-17
1.96E-17
1.92E-17
Bi-207
1.17E-17
1.09E-17
1.05E-17
9.89E-18
9.22E-18
9.03E-18
Bi-208
1.76E-17
1.65E-17
1.56E-17
1.54E-17
1.45E-17
1.43E-17
Bi-210
1.70E-19
1.60E-19
1.57E-19
1.47E-19
1.38E-19
1.36E-19
Bi-210m
2.02E-18
1.87E-18
1.76E-18
1.70E-18
1.52E-18
1.49E-18
Bi-211
3.70E-19
3.43E-19
3.20E-19
3.10E-19
2.82E-19
2.76E-19
Bi-212
1.08E-18
1.01E-18
9.73E-19
9.22E-19
8.63E-19
8.47E-19
Bi-212n
2.71E-19
2.55E-19
2.51E-19
2.36E-19
2.22E-19
2.18E-19
Bi-213
1.20E-18
1.12E-18
1.05E-18
1.01E-18
9.41E-19
9.19E-19
Bi-214
1.13E-17
1.05E-17
1.01E-17
9.67E-18
9.06E-18
8.89E-18
Bi-215
2.28E-18
2.12E-18
2.03E-18
1.93E-18
1.77E-18
1.74E-18
Bi-216
6.76E-18
6.32E-18
5.94E-18
5.69E-18
5.34E-18
5.22E-18
Polonium
Po-203
1.23E-17
1.14E-17
1.11E-17
1.05E-17
9.71E-18
9.52E-18
Po-204
8.80E-18
8.18E-18
7.87E-18
7.42E-18
6.84E-18
6.70E-18
Po-205
1.19E-17
1.11E-17
1.08E-17
1.01E-17
9.41E-18
9.23E-18
Po-206
9.08E-18
8.44E-18
8.11E-18
7.66E-18
7.09E-18
6.94E-18
Po-207
9.72E-18
9.05E-18
8.79E-18
8.25E-18
7.65E-18
7.50E-18
Po-208
1.64E-22
1.52E-22
1.44E-22
1.37E-22
1.27E-22
1.24E-22
Po-209
4.71E-20
4.37E-20
4.22E-20
3.98E-20
3.64E-20
3.57E-20
Po-210
7.50E-23
6.98E-23
6.80E-23
6.35E-23
5.91E-23
5.79E-23
Po-211
6.31E-20
5.89E-20
5.68E-20
5.34E-20
4.98E-20
4.87E-20
Po-212
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Po-212m
5.40E-19
5.08E-19
4.79E-19
4.70E-19
4.44E-19
4.37E-19
Po-213
2.90E-22
2.70E-22
2.62E-22
2.45E-22
2.28E-22
2.24E-22
Po-214
6.40E-22
5.96E-22
5.81E-22
5.42E-22
5.05E-22
4.95E-22
Po-215
1.39E-21
1.30E-21
1.20E-21
1.16E-21
1.08E-21
1.06E-21
Po-216
1.18E-22
1.10E-22
1.07E-22
1.00E-22
9.30E-23
9.12E-23
Po-218
2.86E-24
2.66E-24
2.62E-24
2.44E-24
2.27E-24
2.23E-24
Astatine
At-204
1.84E-17
1.72E-17
1.62E-17
1.54E-17
1.44E-17
1.41E-17
87
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
At-205
8.83E-18
8.23E-18
7.84E-18
7.46E-18
6.95E-18
6.81E-18
At-206
1.93E-17
1.80E-17
1.71E-17
1.63E-17
1.52E-17
1.48E-17
At-207
1.51E-17
1.40E-17
1.34E-17
1.28E-17
1.19E-17
1.17E-17
At-208
2.30E-17
2.15E-17
2.06E-17
1.95E-17
1.82E-17
1.78E-17
At-209
1.75E-17
1.63E-17
1.56E-17
1.48E-17
1.37E-17
1.34E-17
At-210
2.19E-17
2.04E-17
1.97E-17
1.87E-17
1.74E-17
1.71E-17
At-211
2.51E-19
2.29E-19
2.11E-19
2.02E-19
1.80E-19
1.75E-19
At-215
1.35E-21
1.26E-21
1.16E-21
1.13E-21
1.04E-21
1.02E-21
At-216
1.81E-20
1.66E-20
1.53E-20
1.48E-20
1.32E-20
1.28E-20
At-217
1.88E-21
1.74E-21
1.63E-21
1.58E-21
1.42E-21
1.39E-21
At-218
7.48E-22
7.05E-22
6.93E-22
6.59E-22
6.22E-22
6.13E-22
At-219
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
At-220
4.33E-18
4.04E-18
3.82E-18
3.68E-18
3.36E-18
3.29E-18
Radon
Rn-207
7.73E-18
7.19E-18
6.83E-18
6.50E-18
6.03E-18
5.90E-18
Rn-209
9.05E-18
8.44E-18
8.03E-18
7.66E-18
7.13E-18
6.98E-18
Rn-210
4.67E-19
4.34E-19
4.14E-19
3.92E-19
3.63E-19
3.56E-19
Rn-211
1.42E-17
1.32E-17
1.27E-17
1.20E-17
1.12E-17
1.10E-17
Rn-212
2.64E-21
2.46E-21
2.35E-21
2.22E-21
2.07E-21
2.03E-21
Rn-215
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-216
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-217
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-218
5.93E-21
5.54E-21
5.23E-21
4.98E-21
4.66E-21
4.56E-21
Rn-219
4.57E-19
4.24E-19
3.96E-19
3.84E-19
3.47E-19
3.39E-19
Rn-220
4.95E-21
4.62E-21
4.32E-21
4.13E-21
3.88E-21
3.79E-21
Rn-222
3.07E-21
2.87E-21
2.66E-21
2.56E-21
2.40E-21
2.34E-21
Rn-223
2.89E-18
2.69E-18
2.57E-18
2.44E-18
2.27E-18
2.22E-18
Francium
Fr-212
8.54E-18
7.95E-18
7.67E-18
7.27E-18
6.73E-18
6.60E-18
Fr-219
2.79E-20
2.60E-20
2.42E-20
2.33E-20
2.15E-20
2.10E-20
Fr-220
6.80E-20
6.22E-20
5.71E-20
5.46E-20
4.90E-20
4.77E-20
Fr-221
2.24E-19
2.07E-19
1.94E-19
1.88E-19
1.65E-19
1.62E-19
Fr-222
1.68E-18
1.56E-18
1.49E-18
1.42E-18
1.29E-18
1.26E-18
Fr-223
5.43E-19
4.90E-19
4.59E-19
4.33E-19
3.88E-19
3.80E-19
Fr-224
4.63E-18
4.32E-18
4.15E-18
3.96E-18
3.66E-18
3.60E-18
Fr-227
3.85E-18
3.57E-18
3.37E-18
3.21E-18
2.99E-18
2.92E-18
Radium
Ra-219
1.31E-18
1.22E-18
1.14E-18
1.10E-18
9.95E-19
9.72E-19
Ra-220
3.69E-20
3.45E-20
3.20E-20
3.08E-20
2.88E-20
2.81E-20
Ra-221
2.66E-19
2.49E-19
2.26E-19
2.17E-19
1.96E-19
1.92E-19
Ra-222
7.19E-20
6.67E-20
6.23E-20
6.05E-20
5.46E-20
5.34E-20
Ra-223
1.05E-18
9.67E-19
8.97E-19
8.64E-19
7.79E-19
7.60E-19
Ra-224
7.99E-20
7.39E-20
6.94E-20
6.74E-20
5.93E-20
5.81E-20
Ra-225
9.45E-20
7.59E-20
6.66E-20
6.05E-20
5.07E-20
4.93E-20
Ra-226
5.54E-20
5.19E-20
4.78E-20
4.63E-20
4.09E-20
4.01E-20
Ra-227
1.27E-18
1.17E-18
1.10E-18
1.06E-18
9.66E-19
9.45E-19
88
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ra-228
1.41E-21
1.08E-21
8.63E-22
8.37E-22
3.96E-22
3.67E-22
Ra-230
6.51E-19
6.02E-19
5.61E-19
5.38E-19
4.92E-19
4.80E-19
Actinium
Ac-223
1.32E-19
1.22E-19
1.13E-19
1.09E-19
9.90E-20
9.66E-20
Ac-224
1.70E-18
1.57E-18
1.45E-18
1.40E-18
1.25E-18
1.22E-18
Ac-225
1.05E-19
9.66E-20
8.91E-20
8.53E-20
7.69E-20
7.50E-20
Ac-226
1.09E-18
1.01E-18
9.46E-19
9.13E-19
8.14E-19
7.98E-19
Ac-227
1.13E-21
9.60E-22
8.54E-22
8.09E-22
6.54E-22
6.34E-22
Ac-228
6.71E-18
6.25E-18
6.06E-18
5.71E-18
5.30E-18
5.20E-18
Ac-230
4.55E-18
4.26E-18
4.08E-18
3.91E-18
3.67E-18
3.60E-18
Ac-231
3.49E-18
3.23E-18
3.03E-18
2.93E-18
2.64E-18
2.58E-18
Ac-232
8.94E-18
8.36E-18
7.99E-18
7.71E-18
7.24E-18
7.11E-18
Ac-233
4.43E-18
4.14E-18
3.89E-18
3.72E-18
3.50E-18
3.42E-18
Thorium
Th-223
5.21E-19
4.75E-19
4.39E-19
4.18E-19
3.80E-19
3.69E-19
Th-224
1.73E-19
1.63E-19
1.49E-19
1.45E-19
1.29E-19
1.27E-19
Th-226
5.83E-20
5.31E-20
4.96E-20
4.74E-20
4.27E-20
4.17E-20
Th-227
9.48E-19
8.71E-19
8.14E-19
7.88E-19
6.99E-19
6.84E-19
Th-228
1.57E-20
1.44E-20
1.32E-20
1.27E-20
1.12E-20
1.09E-20
Th-229
6.25E-19
5.69E-19
5.27E-19
5.02E-19
4.52E-19
4.40E-19
Th-230
3.36E-21
3.01E-21
2.65E-21
2.58E-21
2.12E-21
2.06E-21
Th-231
1.11E-19
9.76E-20
8.97E-20
8.48E-20
7.45E-20
7.23E-20
Th-232
1.96E-21
1.71E-21
1.48E-21
1.43E-21
1.12E-21
1.08E-21
Th-233
4.46E-19
4.14E-19
3.97E-19
3.76E-19
3.49E-19
3.42E-19
Th-234
7.18E-20
6.45E-20
5.97E-20
5.66E-20
5.06E-20
4.92E-20
Th-235
7.90E-19
7.39E-19
7.15E-19
6.77E-19
6.33E-19
6.21E-19
Th-236
4.05E-19
3.76E-19
3.59E-19
3.40E-19
3.15E-19
3.09E-19
Protactinium
Pa-227
1.43E-19
1.28E-19
1.18E-19
1.12E-19
1.01E-19
9.78E-20
Pa-228
1.03E-17
9.53E-18
9.18E-18
8.68E-18
8.06E-18
7.90E-18
Pa-229
4.46E-19
3.97E-19
3.73E-19
3.51E-19
3.21E-19
3.12E-19
Pa-230
5.06E-18
4.69E-18
4.55E-18
4.26E-18
3.96E-18
3.87E-18
Pa-231
2.67E-19
2.44E-19
2.27E-19
2.19E-19
1.95E-19
1.91E-19
Pa-232
7.16E-18
6.67E-18
6.48E-18
6.07E-18
5.64E-18
5.53E-18
Pa-233
1.67E-18
1.54E-18
1.44E-18
1.39E-18
1.26E-18
1.23E-18
Pa-234
1.12E-17
1.04E-17
1.00E-17
9.45E-18
8.77E-18
8.59E-18
Pa-234m
6.17E-19
5.80E-19
5.69E-19
5.39E-19
5.06E-19
4.98E-19
Pa-235
2.29E-19
2.15E-19
2.12E-19
1.99E-19
1.87E-19
1.84E-19
Pa-236
7.20E-18
6.72E-18
6.42E-18
6.15E-18
5.76E-18
5.65E-18
Pa-237
5.00E-18
4.66E-18
4.51E-18
4.24E-18
3.95E-18
3.87E-18
Uranium
U-227
8.75E-19
8.02E-19
7.51E-19
7.23E-19
6.46E-19
6.31E-19
U-228
2.97E-20
2.70E-20
2.51E-20
2.40E-20
2.14E-20
2.08E-20
U-230
9.15E-21
8.33E-21
7.48E-21
7.28E-21
6.17E-21
6.02E-21
U-231
5.15E-19
4.56E-19
4.26E-19
4.02E-19
3.65E-19
3.54E-19
U-232
2.73E-21
2.30E-21
1.99E-21
1.90E-21
1.45E-21
1.40E-21
89
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
U-233
2.32E-21
2.01E-21
1.79E-21
1.72E-21
1.41E-21
1.37E-21
U-234
1.78E-21
1.43E-21
1.22E-21
1.16E-21
8.10E-22
7.78E-22
U-235
1.23E-18
1.15E-18
1.06E-18
1.02E-18
9.07E-19
8.90E-19
U-235m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
U-236
1.25E-21
9.73E-22
8.07E-22
7.70E-22
4.84E-22
4.60E-22
U-237
1.01E-18
9.17E-19
8.51E-19
8.13E-19
7.25E-19
7.08E-19
U-238
1.03E-21
8.02E-22
6.69E-22
6.39E-22
4.07E-22
3.88E-22
U-239
5.39E-19
4.98E-19
4.67E-19
4.46E-19
4.02E-19
3.92E-19
U-240
5.94E-20
5.34E-20
5.05E-20
4.75E-20
4.27E-20
4.17E-20
U-242
4.80E-19
4.47E-19
4.23E-19
4.03E-19
3.71E-19
3.63E-19
Neptunium
Np-232
9.09E-18
8.43E-18
8.15E-18
7.67E-18
7.08E-18
6.93E-18
Np-233
6.32E-19
5.66E-19
5.32E-19
5.03E-19
4.61E-19
4.48E-19
Np-234
8.06E-18
7.51E-18
7.21E-18
6.90E-18
6.45E-18
6.33E-18
Np-235
7.25E-21
5.88E-21
5.15E-21
4.90E-21
3.69E-21
3.54E-21
Np-236
1.02E-18
9.36E-19
8.61E-19
8.21E-19
7.46E-19
7.28E-19
Np-236m
3.69E-19
3.32E-19
3.14E-19
2.96E-19
2.72E-19
2.65E-19
Np-237
1.75E-19
1.54E-19
1.41E-19
1.33E-19
1.18E-19
1.15E-19
Np-238
4.49E-18
4.18E-18
4.12E-18
3.84E-18
3.56E-18
3.49E-18
Np-239
1.36E-18
1.24E-18
1.16E-18
1.11E-18
1.00E-18
9.76E-19
Np-240
8.10E-18
7.54E-18
7.26E-18
6.84E-18
6.36E-18
6.22E-18
Np-240m
2.81E-18
2.63E-18
2.50E-18
2.38E-18
2.23E-18
2.18E-18
Np-241
4.60E-19
4.24E-19
4.04E-19
3.82E-19
3.53E-19
3.45E-19
Np-242
2.54E-18
2.37E-18
2.30E-18
2.19E-18
2.05E-18
2.01E-18
Np-242m
7.20E-18
6.70E-18
6.52E-18
6.10E-18
5.66E-18
5.54E-18
Plutonium
Pu-232
4.33E-19
3.87E-19
3.64E-19
3.42E-19
3.15E-19
3.05E-19
Pu-234
4.69E-19
4.18E-19
3.93E-19
3.70E-19
3.40E-19
3.30E-19
Pu-235
6.45E-19
5.77E-19
5.44E-19
5.12E-19
4.70E-19
4.57E-19
Pu-236
1.58E-21
1.17E-21
9.57E-22
9.21E-22
5.31E-22
5.00E-22
Pu-237
3.40E-19
3.03E-19
2.84E-19
2.67E-19
2.44E-19
2.37E-19
Pu-238
1.31E-21
9.57E-22
7.68E-22
7.42E-22
3.96E-22
3.70E-22
Pu-239
1.00E-21
8.15E-22
7.02E-22
6.74E-22
4.94E-22
4.75E-22
Pu-240
1.27E-21
9.30E-22
7.49E-22
7.22E-22
3.93E-22
3.68E-22
Pu-241
2.25E-23
2.06E-23
1.97E-23
1.85E-23
1.70E-23
1.67E-23
Pu-242
1.64E-21
1.32E-21
1.14E-21
1.10E-21
7.87E-22
7.58E-22
Pu-243
2.22E-19
2.02E-19
1.90E-19
1.80E-19
1.63E-19
1.59E-19
Pu-244
1.52E-19
1.42E-19
1.36E-19
1.31E-19
1.22E-19
1.20E-19
Pu-245
3.18E-18
2.95E-18
2.82E-18
2.67E-18
2.47E-18
2.41E-18
Pu-246
1.02E-18
9.24E-19
8.57E-19
8.21E-19
7.30E-19
7.13E-19
Americium
Am-237
2.77E-18
2.55E-18
2.40E-18
2.30E-18
2.10E-18
2.05E-18
Am-238
6.76E-18
6.27E-18
6.08E-18
5.72E-18
5.32E-18
5.21E-18
Am-239
1.71E-18
1.55E-18
1.45E-18
1.39E-18
1.25E-18
1.22E-18
Am-240
7.75E-18
7.19E-18
7.06E-18
6.57E-18
6.10E-18
5.98E-18
Am-241
1.64E-19
1.44E-19
1.27E-19
1.21E-19
1.02E-19
9.93E-20
90
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Am-242
1.52E-19
1.37E-19
1.31E-19
1.23E-19
1.13E-19
1.10E-19
Am-242m
6.04E-21
4.59E-21
3.85E-21
3.70E-21
2.50E-21
2.39E-21
Am-243
4.00E-19
3.66E-19
3.30E-19
3.19E-19
2.78E-19
2.70E-19
Am-244
6.09E-18
5.67E-18
5.49E-18
5.14E-18
4.78E-18
4.68E-18
Am-244m
3.59E-19
3.35E-19
3.29E-19
3.10E-19
2.89E-19
2.84E-19
Am-245
3.29E-19
3.03E-19
2.88E-19
2.74E-19
2.49E-19
2.44E-19
Am-246
5.78E-18
5.38E-18
5.13E-18
4.85E-18
4.49E-18
4.40E-18
Am-246m
7.60E-18
7.08E-18
6.93E-18
6.49E-18
6.03E-18
5.92E-18
Am-247
1.21E-18
1.12E-18
1.06E-18
1.01E-18
9.16E-19
8.96E-19
Curium
Cm-238
5.66E-19
5.09E-19
4.76E-19
4.49E-19
4.13E-19
4.01E-19
Cm-239
1.89E-18
1.75E-18
1.61E-18
1.55E-18
1.39E-18
1.36E-18
Cm-240
1.73E-21
1.24E-21
9.99E-22
9.65E-22
5.37E-22
5.03E-22
Cm-241
3.80E-18
3.53E-18
3.27E-18
3.14E-18
2.93E-18
2.85E-18
Cm-242
1.52E-21
1.08E-21
8.68E-22
8.39E-22
4.58E-22
4.28E-22
Cm-243
9.62E-19
8.78E-19
8.23E-19
7.91E-19
7.09E-19
6.92E-19
Cm-244
1.40E-21
1.02E-21
8.31E-22
8.03E-22
4.72E-22
4.46E-22
Cm-245
7.39E-19
6.69E-19
6.22E-19
5.90E-19
5.39E-19
5.25E-19
Cm-246
2.83E-20
2.63E-20
2.50E-20
2.41E-20
2.23E-20
2.19E-20
Cm-247
2.47E-18
2.30E-18
2.14E-18
2.07E-18
1.91E-18
1.86E-18
Cm-248
9.99E-18
9.36E-18
8.95E-18
8.61E-18
8.06E-18
7.91E-18
Cm-249
2.52E-19
2.35E-19
2.25E-19
2.13E-19
1.99E-19
1.95E-19
Cm-250
1.02E-16
9.56E-17
9.15E-17
8.80E-17
8.24E-17
8.09E-17
Cm-251
1.06E-18
9.86E-19
9.32E-19
8.89E-19
8.30E-19
8.12E-19
Berkelium
Bk-245
1.68E-18
1.54E-18
1.43E-18
1.37E-18
1.24E-18
1.21E-18
Bk-246
6.41E-18
5.96E-18
5.79E-18
5.42E-18
5.03E-18
4.93E-18
Bk-247
1.09E-18
1.00E-18
9.36E-19
9.00E-19
8.05E-19
7.86E-19
Bk-248m
4.59E-19
4.23E-19
3.97E-19
3.77E-19
3.50E-19
3.42E-19
Bk-249
3.66E-21
3.41E-21
3.35E-21
3.13E-21
2.90E-21
2.85E-21
Bk-250
6.87E-18
6.39E-18
6.29E-18
5.87E-18
5.44E-18
5.34E-18
Bk-251
7.27E-19
6.70E-19
6.21E-19
5.91E-19
5.40E-19
5.28E-19
Californium
Cf-244
1.76E-21
1.21E-21
9.58E-22
9.23E-22
4.96E-22
4.62E-22
Cf-246
1.54E-21
1.13E-21
9.40E-22
9.03E-22
5.88E-22
5.60E-22
Cf-247
6.61E-19
6.00E-19
5.55E-19
5.27E-19
4.81E-19
4.69E-19
Cf-248
4.02E-21
3.39E-21
3.07E-21
2.95E-21
2.45E-21
2.39E-21
Cf-249
2.55E-18
2.37E-18
2.20E-18
2.13E-18
1.96E-18
1.91E-18
Cf-250
7.52E-20
7.01E-20
6.69E-20
6.43E-20
5.99E-20
5.89E-20
Cf-251
8.71E-19
8.00E-19
7.41E-19
7.10E-19
6.39E-19
6.25E-19
Cf-252
3.46E-18
3.24E-18
3.10E-18
2.98E-18
2.79E-18
2.74E-18
Cf-253
2.12E-20
1.83E-20
1.72E-20
1.60E-20
1.39E-20
1.36E-20
Cf-254
1.29E-16
1.20E-16
1.15E-16
1.11E-16
1.04E-16
1.02E-16
Cf-255
7.39E-20
6.89E-20
6.77E-20
6.33E-20
5.88E-20
5.78E-20
Einsteinium
Es-249
3.10E-18
2.87E-18
2.71E-18
2.58E-18
2.38E-18
2.33E-18
91
-------�
Table 4-2. Reference person effective dose rate coefficients for soil to 1 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Es-250
9.04E-18
8.38E-18
8.04E-18
7.57E-18
6.99E-18
6.84E-18
Es-250m
4.10E-18
3.80E-18
3.68E-18
3.46E-18
3.21E-18
3.15E-18
Es-251
6.57E-19
6.00E-19
5.52E-19
5.25E-19
4.79E-19
4.68E-19
Es-253
2.99E-21
2.65E-21
2.40E-21
2.31E-21
2.04E-21
1.98E-21
Es-254
3.76E-20
3.08E-20
2.68E-20
2.57E-20
2.00E-20
1.94E-20
Es-254m
3.73E-18
3.47E-18
3.31E-18
3.13E-18
2.93E-18
2.87E-18
Es-255
2.07E-20
1.93E-20
1.88E-20
1.77E-20
1.65E-20
1.62E-20
Es-256
3.03E-19
2.83E-19
2.78E-19
2.63E-19
2.46E-19
2.42E-19
Fermium
Fm-251
1.13E-18
1.04E-18
9.72E-19
9.22E-19
8.50E-19
8.30E-19
Fm-252
3.67E-21
3.01E-21
2.69E-21
2.57E-21
2.09E-21
2.03E-21
Fm-253
4.28E-19
3.90E-19
3.58E-19
3.42E-19
3.09E-19
3.02E-19
Fm-254
5.44E-20
5.04E-20
4.80E-20
4.62E-20
4.29E-20
4.21E-20
Fm-255
2.62E-20
2.07E-20
1.77E-20
1.69E-20
1.26E-20
1.21E-20
Fm-256
9.39E-17
8.79E-17
8.41E-17
8.09E-17
7.57E-17
7.43E-17
Fm-257
1.05E-18
9.71E-19
9.04E-19
8.67E-19
7.87E-19
7.70E-19
92
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm.
Explanation of entries
For each radionuclide, values for the age-dependent effective dose rate coefficients e. based on the
weighting factors of Table 3-1, are given in SI units. Reference person organ equivalent dose coefficients
hT are provided electronically.13
e: The effective dose rate coefficient (Sv Bq 1 s"1 m3), that is, the effective dose per unit
time-integrated exposure to a radionuclide:
wT: The tissue weighting factor;
6 = Wt ^T
T
where hT is the equivalent dose rate coefficient (Sv Bq"1 s"1 m3) for tissue T.
The dose rate coefficients provided in Table 4-3 are based on the radiations emitted by the indicated
radionuclide and do not include the radiations emitted by radioactive decay products. Radioactive decay
products for each radionuclide are identified in Appendix A.
To convert from a source per unit volume (Sv Bq"1 s"1 m3) to a source per unit mass basis (Sv Bq"1 s"1
kg), multiply table entries by 1.6 x 103.
To convert from SI units (Sv Bq"1 s"1 m3) to conventional units (mrem jxCi"1 y"1 cm3), multiply table
entries by 1.168 x 1023.
To convert from SI units from a source per unit volume (Sv Bq"1 s"1 m3) to conventional units for a
source per unit mass basis (mrem jxCi"1 y"1 g), multiply table entries by 1.868 x 1023.
Radionuclide dose rate coefficients for soil contaminated to a finite depth cannot be scaled to
account for a different soil density.
13 https://www.epa.gov/radiation/federal-guidance-report-no-15-external-exposure-radionuclides-air-water-and-soil
93
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm.
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old 15-yr-old
Adult
Hydrogen
H-3
Beryllium
Be-7
Be-10
Carbon
C-10
C-ll
C-14
Nitrogen
N-13
N-16
Oxygen
0-14
0-15
0-19
Fluorine
F-17
F-18
Neon
Ne-19
Ne-24
Sodium
Na-22
Na-24
Magnesium
Mg-27
Mg-28
Aluminum
Al-26
Al-28
Al-29
Silicon
Si-31
Si-32
Phosphorus
P-30
P-32
P-33
Sulfur
S-35
S-37
S-38
Chlorine
Cl-34
Cl-34m
2.40E-23
1.16E-18
2.53E-19
4.15E-17
2.41E-17
2.20E-20
2.43E-17
8.56E-17
7.19E-17
2.48E-17
2.44E-17
2.48E-17
2.32E-17
2.53E-17
1.38E-17
4.95E-17
8.53E-17
2.12E-17
3.01E-17
5.89E-17
4.00E-17
3.16E-17
8.63E-19
3.89E-20
2.65E-17
1.04E-18
4.62E-20
2.22E-20
5.82E-17
3.62E-17
2.82E-17
4.55E-17
2.22E-23
1.06E-18
2.35E-19
3.83E-17
2.22E-17
2.04E-20
2.24E-17
8.19E-17
6.70E-17
2.28E-17
2.26E-17
2.28E-17
2.13E-17
2.33E-17
1.27E-17
4.58E-17
7.99E-17
1.96E-17
2.80E-17
5.48E-17
3.74E-17
2.95E-17
8.04E-19
3.61E-20
2.44E-17
9.72E-19
4.28E-20
2.05E-20
5.48E-17
3.39E-17
2.60E-17
4.24E-17
2.13E-23
9.92E-19
2.26E-19
3.60E-17
2.07E-17
1.96E-20
2.09E-17
7.96E-17
6.32E-17
2.13E-17
2.16E-17
2.13E-17
1.99E-17
2.18E-17
1.19E-17
4.34E-17
7.60E-17
1.88E-17
2.66E-17
5.17E-17
3.55E-17
2.82E-17
7.72E-19
3.46E-20
2.29E-17
9.34E-19
4.11E-20
1.97E-20
5.22E-17
3.21E-17
2.44E-17
4.01E-17
2.02E-23
9.53E-19
2.14E-19
3.44E-17
1.99E-17
1.86E-20
2.00E-17
7.82E-17
6.15E-17
2.05E-17
2.07E-17
2.05E-17
1.91E-17
2.09E-17
1.14E-17
4.15E-17
7.41E-17
1.78E-17
2.55E-17
5.01E-17
3.45E-17
2.70E-17
7.35E-19
3.28E-20
2.19E-17
8.89E-19
3.89E-20
1.87E-20
5.12E-17
3.14E-17
2.34E-17
3.89E-17
1.88E-23
8.78E-19
1.99E-19
3.18E-17
1.83E-17
1.73E-20
1.85E-17
7.46E-17
5.75E-17
1.89E-17
1.92E-17
1.89E-17
1.76E-17
1.93E-17
1.06E-17
3.85E-17
6.95E-17
1.65E-17
2.37E-17
4.68E-17
3.24E-17
2.52E-17
6.86E-19
3.04E-20
2.03E-17
8.30E-19
3.62E-20
1.73E-20
4.82E-17
2.95E-17
2.17E-17
3.64E-17
1.85E-23
8.61E-19
1.95E-19
3.12E-17
1.80E-17
1.70E-20
1.81E-17
7.39E-17
5.66E-17
1.85E-17
1.89E-17
1.85E-17
1.73E-17
1.89E-17
1.04E-17
3.79E-17
6.85E-17
1.62E-17
2.33E-17
4.60E-17
3.19E-17
2.48E-17
6.75E-19
2.99E-20
1.99E-17
8.18E-19
3.56E-20
1.70E-20
4.76E-17
2.90E-17
2.13E-17
3.58E-17
94
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cl-36
2.95E-19
2.74E-19
2.63E-19
2.49E-19
2.32E-19
2.28E-19
Cl-38
3.36E-17
3.14E-17
2.98E-17
2.91E-17
2.73E-17
2.69E-17
Cl-39
3.31E-17
3.08E-17
2.94E-17
2.82E-17
2.63E-17
2.58E-17
Cl-40
8.58E-17
8.05E-17
7.67E-17
7.47E-17
7.02E-17
6.92E-17
Argon
Ar-37
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ar-39
2.13E-19
1.97E-19
1.89E-19
1.80E-19
1.67E-19
1.64E-19
Ar-41
2.88E-17
2.68E-17
2.56E-17
2.45E-17
2.28E-17
2.25E-17
Ar-42
2.32E-19
2.15E-19
2.06E-19
1.96E-19
1.82E-19
1.79E-19
Ar-43
3.58E-17
3.34E-17
3.18E-17
3.06E-17
2.86E-17
2.81E-17
Ar-44
4.22E-17
3.94E-17
3.73E-17
3.62E-17
3.39E-17
3.33E-17
Potassium
K-38
7.06E-17
6.58E-17
6.20E-17
6.03E-17
5.63E-17
5.54E-17
K-40
4.13E-18
3.85E-18
3.68E-18
3.53E-18
3.30E-18
3.25E-18
K-42
8.84E-18
8.26E-18
7.88E-18
7.59E-18
7.10E-18
6.99E-18
K-43
2.26E-17
2.08E-17
1.95E-17
1.87E-17
1.72E-17
1.69E-17
K-44
5.33E-17
4.98E-17
4.75E-17
4.59E-17
4.30E-17
4.23E-17
K-45
4.08E-17
3.81E-17
3.61E-17
3.50E-17
3.27E-17
3.22E-17
K-46
6.45E-17
6.04E-17
5.78E-17
5.59E-17
5.24E-17
5.17E-17
Calcium
Ca-41
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ca-45
4.72E-20
4.38E-20
4.20E-20
3.98E-20
3.70E-20
3.64E-20
Ca-47
2.36E-17
2.20E-17
2.10E-17
2.01E-17
1.87E-17
1.84E-17
Ca-49
6.27E-17
5.91E-17
5.63E-17
5.52E-17
5.20E-17
5.14E-17
Scandium
Sc-42m
9.60E-17
8.90E-17
8.43E-17
8.09E-17
7.52E-17
7.39E-17
Sc-43
2.34E-17
2.15E-17
2.01E-17
1.93E-17
1.78E-17
1.74E-17
Sc-44
4.92E-17
4.55E-17
4.31E-17
4.12E-17
3.82E-17
3.75E-17
Sc-44m
6.30E-18
5.76E-18
5.43E-18
5.18E-18
4.76E-18
4.66E-18
Sc-46
4.51E-17
4.18E-17
4.01E-17
3.80E-17
3.53E-17
3.47E-17
Sc-47
2.53E-18
2.36E-18
2.18E-18
2.09E-18
1.90E-18
1.86E-18
Sc-48
7.47E-17
6.93E-17
6.64E-17
6.32E-17
5.88E-17
5.78E-17
Sc-49
1.33E-18
1.24E-18
1.19E-18
1.13E-18
1.06E-18
1.04E-18
Sc-50
7.38E-17
6.86E-17
6.53E-17
6.27E-17
5.84E-17
5.74E-17
Titanium
Ti-44
2.46E-18
2.19E-18
2.01E-18
1.91E-18
1.67E-18
1.63E-18
Ti-45
2.07E-17
1.90E-17
1.77E-17
1.70E-17
1.57E-17
1.54E-17
Ti-51
9.94E-18
9.13E-18
8.61E-18
8.23E-18
7.59E-18
7.44E-18
Ti-52
3.77E-18
3.50E-18
3.26E-18
3.13E-18
2.84E-18
2.80E-18
Vanadium
V-47
2.43E-17
2.24E-17
2.09E-17
2.01E-17
1.86E-17
1.82E-17
V-48
6.52E-17
6.04E-17
5.76E-17
5.50E-17
5.11E-17
5.02E-17
V-49
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
V-50
3.08E-17
2.87E-17
2.73E-17
2.64E-17
2.47E-17
2.43E-17
V-52
3.33E-17
3.10E-17
2.96E-17
2.84E-17
2.66E-17
2.62E-17
V-53
2.49E-17
2.31E-17
2.22E-17
2.10E-17
1.96E-17
1.92E-17
95
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Chromium
Cr-48
9.81E-18
8.97E-18
8.38E-18
8.02E-18
7.33E-18
7.18E-18
Cr-49
2.50E-17
2.30E-17
2.14E-17
2.06E-17
1.89E-17
1.86E-17
Cr-51
7.37E-19
6.73E-19
6.31E-19
6.04E-19
5.54E-19
5.43E-19
Cr-55
1.96E-18
1.83E-18
1.76E-18
1.68E-18
1.57E-18
1.55E-18
Cr-56
2.36E-18
2.14E-18
2.00E-18
1.91E-18
1.72E-18
1.68E-18
Manganese
Mn-50m
1.07E-16
9.90E-17
9.40E-17
8.99E-17
8.35E-17
8.21E-17
Mn-51
2.47E-17
2.27E-17
2.13E-17
2.04E-17
1.88E-17
1.85E-17
Mn-52
7.72E-17
7.16E-17
6.82E-17
6.51E-17
6.05E-17
5.95E-17
Mn-52m
5.58E-17
5.18E-17
4.89E-17
4.70E-17
4.37E-17
4.29E-17
Mn-53
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Mn-54
1.90E-17
1.75E-17
1.67E-17
1.59E-17
1.47E-17
1.44E-17
Mn-56
3.83E-17
3.56E-17
3.39E-17
3.26E-17
3.04E-17
2.99E-17
Mn-57
4.08E-18
3.79E-18
3.60E-18
3.44E-18
3.19E-18
3.14E-18
Mn-58m
5.63E-17
5.23E-17
4.99E-17
4.77E-17
4.45E-17
4.37E-17
Iron
Fe-52
1.72E-17
1.58E-17
1.48E-17
1.42E-17
1.30E-17
1.28E-17
Fe-53
2.92E-17
2.69E-17
2.52E-17
2.42E-17
2.23E-17
2.19E-17
Fe-53m
6.76E-17
6.28E-17
5.99E-17
5.72E-17
5.32E-17
5.23E-17
Fe-55
3.41E-27
3.16E-27
2.91E-27
2.79E-27
2.51E-27
2.47E-27
Fe-59
2.64E-17
2.45E-17
2.35E-17
2.24E-17
2.08E-17
2.05E-17
Fe-60
3.42E-20
3.17E-20
3.04E-20
2.88E-20
2.68E-20
2.63E-20
Fe-61
3.26E-17
3.03E-17
2.89E-17
2.76E-17
2.57E-17
2.53E-17
Fe-62
1.31E-17
1.20E-17
1.13E-17
1.08E-17
9.98E-18
9.79E-18
Cobalt
Co-54m
9.26E-17
8.58E-17
8.14E-17
7.79E-17
7.24E-17
7.11E-17
Co-55
4.58E-17
4.24E-17
4.01E-17
3.83E-17
3.55E-17
3.49E-17
Co-56
7.83E-17
7.29E-17
6.95E-17
6.69E-17
6.24E-17
6.14E-17
Co-57
2.54E-18
2.35E-18
2.16E-18
2.07E-18
1.87E-18
1.83E-18
Co-58
2.22E-17
2.05E-17
1.95E-17
1.85E-17
1.72E-17
1.69E-17
Co-58m
2.43E-23
1.65E-23
1.28E-23
1.17E-23
7.83E-24
7.43E-24
Co-60
5.51E-17
5.13E-17
4.91E-17
4.69E-17
4.37E-17
4.30E-17
Co-60m
9.23E-20
8.45E-20
7.98E-20
7.61E-20
6.99E-20
6.87E-20
Co-61
2.46E-18
2.24E-18
2.11E-18
2.00E-18
1.81E-18
1.77E-18
Co-62
3.80E-17
3.54E-17
3.39E-17
3.25E-17
3.03E-17
2.99E-17
Co-62m
6.06E-17
5.65E-17
5.40E-17
5.17E-17
4.82E-17
4.75E-17
Nickel
Ni-56
3.88E-17
3.59E-17
3.40E-17
3.24E-17
3.00E-17
2.94E-17
Ni-57
4.28E-17
3.98E-17
3.77E-17
3.63E-17
3.38E-17
3.32E-17
Ni-59
3.61E-22
3.32E-22
3.09E-22
2.97E-22
2.74E-22
2.69E-22
Ni-63
2.87E-21
2.67E-21
2.56E-21
2.42E-21
2.25E-21
2.21E-21
Ni-65
1.32E-17
1.23E-17
1.17E-17
1.12E-17
1.05E-17
1.03E-17
Ni-66
4.38E-20
4.07E-20
3.90E-20
3.70E-20
3.43E-20
3.38E-20
Copper
Cu-57
3.69E-17
3.42E-17
3.22E-17
3.10E-17
2.88E-17
2.83E-17
96
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cu-59
3.61E-17
3.33E-17
3.13E-17
3.00E-17
2.78E-17
2.73E-17
Cu-60
8.68E-17
8.07E-17
7.65E-17
7.38E-17
6.87E-17
6.76E-17
Cu-61
1.94E-17
1.78E-17
1.67E-17
1.60E-17
1.48E-17
1.45E-17
Cu-62
2.57E-17
2.37E-17
2.22E-17
2.13E-17
1.97E-17
1.93E-17
Cu-64
4.39E-18
4.04E-18
3.77E-18
3.62E-18
3.34E-18
3.28E-18
Cu-66
4.06E-18
3.78E-18
3.63E-18
3.45E-18
3.22E-18
3.16E-18
Cu-67
2.63E-18
2.42E-18
2.26E-18
2.15E-18
1.96E-18
1.92E-18
Cu-69
1.33E-17
1.24E-17
1.18E-17
1.12E-17
1.05E-17
1.03E-17
Zinc
Zn-60
3.73E-17
3.43E-17
3.22E-17
3.08E-17
2.84E-17
2.79E-17
Zn-61
3.87E-17
3.58E-17
3.36E-17
3.24E-17
3.00E-17
2.95E-17
Zn-62
1.01E-17
9.24E-18
8.64E-18
8.27E-18
7.63E-18
7.48E-18
Zn-63
2.69E-17
2.48E-17
2.32E-17
2.23E-17
2.06E-17
2.02E-17
Zn-65
1.29E-17
1.20E-17
1.15E-17
1.09E-17
1.01E-17
9.95E-18
Zn-69
3.66E-19
3.40E-19
3.27E-19
3.10E-19
2.88E-19
2.84E-19
Zn-69m
9.67E-18
8.88E-18
8.27E-18
7.95E-18
7.32E-18
7.17E-18
Zn-71
9.04E-18
8.36E-18
7.91E-18
7.56E-18
7.00E-18
6.88E-18
Zn-71m
3.67E-17
3.38E-17
3.17E-17
3.04E-17
2.80E-17
2.75E-17
Zn-72
3.22E-18
2.99E-18
2.76E-18
2.65E-18
2.39E-18
2.35E-18
Gallium
Ga-64
7.63E-17
7.10E-17
6.73E-17
6.49E-17
6.05E-17
5.96E-17
Ga-65
2.79E-17
2.57E-17
2.41E-17
2.31E-17
2.13E-17
2.09E-17
Ga-66
5.41E-17
5.05E-17
4.79E-17
4.64E-17
4.34E-17
4.27E-17
Ga-67
3.41E-18
3.12E-18
2.91E-18
2.78E-18
2.53E-18
2.48E-18
Ga-68
2.31E-17
2.13E-17
1.99E-17
1.91E-17
1.76E-17
1.73E-17
Ga-70
1.11E-18
1.03E-18
9.93E-19
9.45E-19
8.81E-19
8.67E-19
Ga-72
5.92E-17
5.51E-17
5.24E-17
5.05E-17
4.71E-17
4.64E-17
Ga-73
8.52E-18
7.80E-18
7.35E-18
7.01E-18
6.45E-18
6.32E-18
Ga-74
6.89E-17
6.43E-17
6.09E-17
5.91E-17
5.52E-17
5.43E-17
Germanium
Ge-66
1.54E-17
1.41E-17
1.32E-17
1.26E-17
1.16E-17
1.14E-17
Ge-67
3.46E-17
3.20E-17
3.00E-17
2.88E-17
2.66E-17
2.61E-17
Ge-68
5.58E-23
3.58E-23
2.04E-23
1.84E-23
6.64E-24
6.13E-24
Ge-69
2.15E-17
1.99E-17
1.89E-17
1.80E-17
1.67E-17
1.64E-17
Ge-71
5.67E-23
3.63E-23
2.07E-23
1.87E-23
6.74E-24
6.22E-24
Ge-75
1.34E-18
1.23E-18
1.17E-18
1.11E-18
1.03E-18
1.01E-18
Ge-77
2.54E-17
2.34E-17
2.22E-17
2.12E-17
1.96E-17
1.92E-17
Ge-78
6.65E-18
6.07E-18
5.71E-18
5.45E-18
5.00E-18
4.90E-18
Arsenic
As-68
8.68E-17
8.06E-17
7.64E-17
7.33E-17
6.81E-17
6.70E-17
As-69
2.85E-17
2.63E-17
2.46E-17
2.37E-17
2.19E-17
2.15E-17
As-70
9.61E-17
8.92E-17
8.46E-17
8.11E-17
7.53E-17
7.41E-17
As-71
1.32E-17
1.22E-17
1.14E-17
1.09E-17
1.00E-17
9.84E-18
As-72
4.25E-17
3.92E-17
3.70E-17
3.54E-17
3.28E-17
3.22E-17
As-73
7.94E-20
6.60E-20
5.82E-20
5.33E-20
4.51E-20
4.40E-20
As-74
1.78E-17
1.64E-17
1.54E-17
1.47E-17
1.36E-17
1.34E-17
97
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
As-76
1.14E-17
1.05E-17
9.96E-18
9.54E-18
8.85E-18
8.69E-18
As-77
4.16E-19
3.84E-19
3.65E-19
3.47E-19
3.21E-19
3.15E-19
As-78
3.14E-17
2.91E-17
2.77E-17
2.65E-17
2.47E-17
2.43E-17
As-79
2.22E-18
2.06E-18
1.97E-18
1.87E-18
1.74E-18
1.71E-18
Selenium
Se-70
1.65E-17
1.52E-17
1.42E-17
1.36E-17
1.25E-17
1.23E-17
Se-71
3.93E-17
3.63E-17
3.42E-17
3.27E-17
3.03E-17
2.97E-17
Se-72
3.10E-19
2.47E-19
2.12E-19
1.90E-19
1.58E-19
1.54E-19
Se-73
2.55E-17
2.34E-17
2.18E-17
2.09E-17
1.93E-17
1.89E-17
Se-73m
6.26E-18
5.76E-18
5.39E-18
5.17E-18
4.76E-18
4.67E-18
Se-75
8.66E-18
7.94E-18
7.41E-18
7.09E-18
6.48E-18
6.35E-18
Se-77m
1.90E-18
1.77E-18
1.63E-18
1.57E-18
1.42E-18
1.39E-18
Se-79
2.45E-20
2.27E-20
2.18E-20
2.07E-20
1.92E-20
1.89E-20
Se-79m
1.80E-19
1.63E-19
1.51E-19
1.44E-19
1.28E-19
1.26E-19
Se-81
1.07E-18
9.90E-19
9.48E-19
9.03E-19
8.41E-19
8.27E-19
Se-81m
2.78E-19
2.53E-19
2.34E-19
2.24E-19
2.01E-19
1.97E-19
Se-83
5.88E-17
5.45E-17
5.16E-17
4.96E-17
4.61E-17
4.53E-17
Se-83m
2.41E-17
2.24E-17
2.13E-17
2.04E-17
1.90E-17
1.87E-17
Se-84
1.05E-17
9.67E-18
9.04E-18
8.67E-18
7.99E-18
7.83E-18
Bromine
Br-72
7.35E-17
6.81E-17
6.45E-17
6.19E-17
5.75E-17
5.65E-17
Br-73
3.54E-17
3.26E-17
3.06E-17
2.93E-17
2.71E-17
2.66E-17
Br-74
9.76E-17
9.11E-17
8.64E-17
8.39E-17
7.84E-17
7.72E-17
Br-74m
9.22E-17
8.57E-17
8.11E-17
7.83E-17
7.29E-17
7.17E-17
Br-75
2.84E-17
2.61E-17
2.45E-17
2.35E-17
2.16E-17
2.12E-17
Br-76
6.17E-17
5.74E-17
5.42E-17
5.24E-17
4.88E-17
4.80E-17
Br-76m
4.97E-19
4.21E-19
3.75E-19
3.47E-19
3.01E-19
2.95E-19
Br-77
7.26E-18
6.67E-18
6.26E-18
5.98E-18
5.51E-18
5.40E-18
Br-77m
2.99E-19
2.72E-19
2.52E-19
2.41E-19
2.16E-19
2.12E-19
Br-78
2.58E-17
2.37E-17
2.22E-17
2.13E-17
1.97E-17
1.93E-17
Br-80
2.89E-18
2.67E-18
2.53E-18
2.42E-18
2.25E-18
2.21E-18
Br-80m
1.11E-19
8.38E-20
6.79E-20
6.03E-20
4.76E-20
4.60E-20
Br-82
5.98E-17
5.53E-17
5.25E-17
5.01E-17
4.64E-17
4.56E-17
Br-82m
1.22E-19
1.13E-19
1.08E-19
1.03E-19
9.57E-20
9.41E-20
Br-83
5.33E-19
4.94E-19
4.70E-19
4.48E-19
4.16E-19
4.08E-19
Br-84
3.90E-17
3.65E-17
3.48E-17
3.37E-17
3.15E-17
3.11E-17
Br-84m
6.30E-17
5.85E-17
5.56E-17
5.32E-17
4.95E-17
4.87E-17
Br-85
3.29E-18
3.06E-18
2.93E-18
2.80E-18
2.61E-18
2.57E-18
Krypton
Kr-74
2.51E-17
2.30E-17
2.15E-17
2.06E-17
1.90E-17
1.86E-17
Kr-75
3.23E-17
2.98E-17
2.79E-17
2.68E-17
2.47E-17
2.43E-17
Kr-76
9.58E-18
8.76E-18
8.21E-18
7.85E-18
7.21E-18
7.06E-18
Kr-77
2.48E-17
2.28E-17
2.13E-17
2.05E-17
1.88E-17
1.85E-17
Kr-79
5.75E-18
5.29E-18
4.96E-18
4.75E-18
4.37E-18
4.29E-18
Kr-81
2.02E-20
1.82E-20
1.69E-20
1.61E-20
1.44E-20
1.41E-20
Kr-81m
2.90E-18
2.66E-18
2.49E-18
2.38E-18
2.17E-18
2.13E-18
98
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Kr-83m
5.86E-22
4.42E-22
3.18E-22
2.96E-22
1.20E-22
1.10E-22
Kr-85
3.12E-19
2.89E-19
2.76E-19
2.63E-19
2.44E-19
2.40E-19
Kr-85m
3.72E-18
3.45E-18
3.20E-18
3.07E-18
2.79E-18
2.74E-18
Kr-87
1.95E-17
1.82E-17
1.72E-17
1.67E-17
1.56E-17
1.53E-17
Kr-88
4.13E-17
3.87E-17
3.67E-17
3.57E-17
3.35E-17
3.30E-17
Kr-89
4.38E-17
4.08E-17
3.88E-17
3.75E-17
3.50E-17
3.45E-17
Rubidium
Rb-77
3.86E-17
3.56E-17
3.35E-17
3.21E-17
2.96E-17
2.91E-17
Rb-78
8.77E-17
8.19E-17
7.75E-17
7.53E-17
7.03E-17
6.93E-17
Rb-78m
7.46E-17
6.92E-17
6.53E-17
6.28E-17
5.83E-17
5.73E-17
Rb-79
3.45E-17
3.18E-17
2.97E-17
2.85E-17
2.63E-17
2.58E-17
Rb-80
3.21E-17
2.96E-17
2.78E-17
2.67E-17
2.47E-17
2.42E-17
Rb-81
1.18E-17
1.08E-17
1.01E-17
9.72E-18
8.97E-18
8.79E-18
Rb-81m
5.39E-19
4.95E-19
4.64E-19
4.44E-19
4.08E-19
4.00E-19
Rb-82
2.84E-17
2.62E-17
2.45E-17
2.35E-17
2.17E-17
2.13E-17
Rb-82m
6.60E-17
6.11E-17
5.80E-17
5.53E-17
5.13E-17
5.04E-17
Rb-83
1.12E-17
1.03E-17
9.65E-18
9.25E-18
8.54E-18
8.37E-18
Rb-84
2.08E-17
1.92E-17
1.82E-17
1.73E-17
1.61E-17
1.58E-17
Rb-84m
8.78E-18
8.03E-18
7.53E-18
7.20E-18
6.61E-18
6.47E-18
Rb-86
3.09E-18
2.87E-18
2.76E-18
2.62E-18
2.44E-18
2.40E-18
Rb-86m
1.26E-17
1.16E-17
1.09E-17
1.04E-17
9.64E-18
9.45E-18
Rb-87
8.40E-20
7.79E-20
7.48E-20
7.09E-20
6.58E-20
6.47E-20
Rb-88
1.83E-17
1.71E-17
1.63E-17
1.58E-17
1.48E-17
1.46E-17
Rb-89
5.01E-17
4.67E-17
4.45E-17
4.28E-17
3.99E-17
3.93E-17
Rb-90
4.46E-17
4.19E-17
4.01E-17
3.90E-17
3.66E-17
3.62E-17
Rb-90m
7.02E-17
6.57E-17
6.26E-17
6.05E-17
5.67E-17
5.58E-17
Strontium
Sr-79
3.10E-17
2.85E-17
2.67E-17
2.56E-17
2.36E-17
2.32E-17
Sr-80
9.98E-18
9.18E-18
8.60E-18
8.23E-18
7.59E-18
7.45E-18
Sr-81
3.35E-17
3.09E-17
2.89E-17
2.77E-17
2.56E-17
2.51E-17
Sr-82
2.46E-21
1.90E-21
1.40E-21
1.33E-21
4.75E-22
4.31E-22
Sr-83
1.86E-17
1.72E-17
1.62E-17
1.55E-17
1.44E-17
1.41E-17
Sr-85
1.14E-17
1.05E-17
9.80E-18
9.41E-18
8.68E-18
8.51E-18
Sr-85m
4.93E-18
4.51E-18
4.24E-18
4.04E-18
3.69E-18
3.62E-18
Sr-87m
7.41E-18
6.79E-18
6.34E-18
6.08E-18
5.59E-18
5.48E-18
Sr-89
8.39E-19
7.81E-19
7.51E-19
7.15E-19
6.67E-19
6.56E-19
Sr-90
1.85E-19
1.71E-19
1.64E-19
1.56E-19
1.45E-19
1.42E-19
Sr-91
1.70E-17
1.57E-17
1.50E-17
1.43E-17
1.32E-17
1.30E-17
Sr-92
2.94E-17
2.74E-17
2.61E-17
2.51E-17
2.34E-17
2.30E-17
Sr-93
5.14E-17
4.77E-17
4.52E-17
4.34E-17
4.03E-17
3.97E-17
Sr-94
3.24E-17
3.02E-17
2.88E-17
2.77E-17
2.59E-17
2.54E-17
Yttrium
Y-81
3.09E-17
2.85E-17
2.67E-17
2.56E-17
2.36E-17
2.32E-17
Y-83
3.31E-17
3.05E-17
2.87E-17
2.75E-17
2.54E-17
2.50E-17
Y-83m
2.08E-17
1.91E-17
1.79E-17
1.72E-17
1.58E-17
1.55E-17
Y-84m
9.21E-17
8.53E-17
8.10E-17
7.72E-17
7.16E-17
7.03E-17
99
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Y-85
2.57E-17
2.36E-17
2.21E-17
2.12E-17
1.96E-17
1.92E-17
Y-85m
3.05E-17
2.82E-17
2.66E-17
2.56E-17
2.37E-17
2.33E-17
Y-86
7.95E-17
7.37E-17
7.00E-17
6.71E-17
6.24E-17
6.14E-17
Y-86m
4.99E-18
4.57E-18
4.30E-18
4.10E-18
3.75E-18
3.68E-18
Y-87
1.02E-17
9.34E-18
8.71E-18
8.36E-18
7.71E-18
7.56E-18
Y-87m
7.10E-18
6.51E-18
6.07E-18
5.83E-18
5.36E-18
5.25E-18
Y-88
5.80E-17
5.41E-17
5.14E-17
4.96E-17
4.64E-17
4.57E-17
Y-89m
2.03E-17
1.88E-17
1.81E-17
1.71E-17
1.58E-17
1.56E-17
Y-90
1.58E-18
1.47E-18
1.41E-18
1.35E-18
1.26E-18
1.24E-18
Y-90m
1.46E-17
1.34E-17
1.25E-17
1.20E-17
1.10E-17
1.08E-17
Y-91
9.43E-19
8.79E-19
8.44E-19
8.04E-19
7.50E-19
7.39E-19
Y-91m
1.22E-17
1.13E-17
1.05E-17
1.01E-17
9.32E-18
9.13E-18
Y-92
8.52E-18
7.92E-18
7.58E-18
7.23E-18
6.73E-18
6.62E-18
Y-93
4.26E-18
3.97E-18
3.79E-18
3.63E-18
3.39E-18
3.34E-18
Y-94
2.11E-17
1.96E-17
1.88E-17
1.79E-17
1.66E-17
1.64E-17
Y-95
2.58E-17
2.42E-17
2.30E-17
2.24E-17
2.10E-17
2.07E-17
Zirconium
Zr-85
3.64E-17
3.36E-17
3.15E-17
3.02E-17
2.79E-17
2.74E-17
Zr-86
6.27E-18
5.72E-18
5.38E-18
5.13E-18
4.70E-18
4.60E-18
Zr-87
2.27E-17
2.10E-17
1.96E-17
1.88E-17
1.74E-17
1.71E-17
Zr-88
8.89E-18
8.15E-18
7.60E-18
7.30E-18
6.71E-18
6.57E-18
Zr-89
2.62E-17
2.42E-17
2.31E-17
2.19E-17
2.03E-17
2.00E-17
Zr-89m
1.45E-17
1.34E-17
1.26E-17
1.21E-17
1.12E-17
1.10E-17
Zr-93
3.40E-21
3.16E-21
3.03E-21
2.87E-21
2.66E-21
2.62E-21
Zr-95
1.68E-17
1.55E-17
1.48E-17
1.40E-17
1.30E-17
1.27E-17
Zr-97
2.11E-17
1.95E-17
1.85E-17
1.76E-17
1.63E-17
1.61E-17
Niobium
Nb-87
3.14E-17
2.90E-17
2.71E-17
2.60E-17
2.40E-17
2.35E-17
Nb-88
9.82E-17
9.08E-17
8.61E-17
8.21E-17
7.61E-17
7.47E-17
Nb-88m
9.54E-17
8.83E-17
8.37E-17
8.00E-17
7.42E-17
7.29E-17
Nb-89
3.23E-17
2.99E-17
2.82E-17
2.72E-17
2.52E-17
2.48E-17
Nb-89m
3.15E-17
2.90E-17
2.71E-17
2.60E-17
2.40E-17
2.36E-17
Nb-90
9.02E-17
8.42E-17
7.98E-17
7.73E-17
7.22E-17
7.11E-17
Nb-91
4.31E-20
3.86E-20
3.54E-20
3.41E-20
2.98E-20
2.91E-20
Nb-91m
5.56E-19
5.15E-19
4.92E-19
4.70E-19
4.35E-19
4.28E-19
Nb-92
3.40E-17
3.15E-17
2.99E-17
2.84E-17
2.63E-17
2.59E-17
Nb-92m
2.16E-17
2.00E-17
1.92E-17
1.81E-17
1.68E-17
1.65E-17
Nb-93m
1.29E-21
9.33E-22
7.42E-22
7.30E-22
3.32E-22
3.04E-22
Nb-94
3.56E-17
3.29E-17
3.14E-17
2.98E-17
2.76E-17
2.71E-17
Nb-94m
1.07E-19
9.82E-20
9.33E-20
8.85E-20
8.07E-20
7.92E-20
Nb-95
1.75E-17
1.61E-17
1.54E-17
1.46E-17
1.35E-17
1.32E-17
Nb-95m
1.46E-18
1.34E-18
1.26E-18
1.20E-18
1.10E-18
1.07E-18
Nb-96
5.60E-17
5.18E-17
4.93E-17
4.69E-17
4.34E-17
4.27E-17
Nb-97
1.59E-17
1.47E-17
1.39E-17
1.32E-17
1.22E-17
1.20E-17
Nb-98m
6.41E-17
5.95E-17
5.66E-17
5.41E-17
5.02E-17
4.94E-17
Nb-99
6.36E-18
5.91E-18
5.55E-18
5.32E-18
4.87E-18
4.79E-18
100
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Nb-99m
1.87E-17
1.75E-17
1.66E-17
1.61E-17
1.50E-17
1.48E-17
Molybdenum
Mo-89
3.23E-17
2.98E-17
2.80E-17
2.69E-17
2.49E-17
2.44E-17
Mo-90
1.87E-17
1.72E-17
1.62E-17
1.55E-17
1.42E-17
1.40E-17
Mo-91
2.55E-17
2.35E-17
2.20E-17
2.11E-17
1.95E-17
1.92E-17
Mo-91m
3.22E-17
2.98E-17
2.82E-17
2.70E-17
2.51E-17
2.46E-17
Mo-93
7.24E-21
5.22E-21
4.15E-21
4.09E-21
1.86E-21
1.70E-21
Mo-93m
5.12E-17
4.76E-17
4.51E-17
4.33E-17
4.03E-17
3.96E-17
Mo-99
3.85E-18
3.56E-18
3.38E-18
3.21E-18
2.97E-18
2.91E-18
Mo-101
3.32E-17
3.08E-17
2.93E-17
2.81E-17
2.61E-17
2.57E-17
Mo-102
8.28E-19
7.65E-19
7.25E-19
6.90E-19
6.36E-19
6.25E-19
Technetium
Tc-91
5.78E-17
5.37E-17
5.07E-17
4.90E-17
4.57E-17
4.49E-17
Tc-91m
3.69E-17
3.40E-17
3.19E-17
3.06E-17
2.84E-17
2.78E-17
Tc-92
8.91E-17
8.26E-17
7.80E-17
7.49E-17
6.95E-17
6.83E-17
Tc-93
3.41E-17
3.17E-17
3.02E-17
2.90E-17
2.71E-17
2.67E-17
Tc-93m
2.00E-17
1.86E-17
1.76E-17
1.71E-17
1.60E-17
1.57E-17
Tc-94
6.03E-17
5.58E-17
5.31E-17
5.04E-17
4.67E-17
4.59E-17
Tc-94m
4.51E-17
4.18E-17
3.96E-17
3.79E-17
3.51E-17
3.45E-17
Tc-95
1.79E-17
1.65E-17
1.57E-17
1.49E-17
1.38E-17
1.36E-17
Tc-95m
1.55E-17
1.42E-17
1.35E-17
1.28E-17
1.18E-17
1.16E-17
Tc-96
5.66E-17
5.23E-17
4.99E-17
4.73E-17
4.38E-17
4.31E-17
Tc-96m
9.38E-19
8.68E-19
8.27E-19
7.87E-19
7.29E-19
7.17E-19
Tc-97
9.17E-21
6.43E-21
5.13E-21
5.05E-21
2.45E-21
2.26E-21
Tc-97m
1.48E-20
1.15E-20
9.87E-21
9.55E-21
6.75E-21
6.48E-21
Tc-98
3.25E-17
3.00E-17
2.84E-17
2.70E-17
2.50E-17
2.45E-17
Tc-99
7.09E-20
6.58E-20
6.31E-20
5.98E-20
5.55E-20
5.46E-20
Tc-99m
2.69E-18
2.51E-18
2.31E-18
2.22E-18
2.00E-18
1.97E-18
Tc-101
8.40E-18
7.69E-18
7.23E-18
6.91E-18
6.35E-18
6.22E-18
Tc-102
6.07E-18
5.66E-18
5.41E-18
5.18E-18
4.84E-18
4.77E-18
Tc-102m
5.55E-17
5.15E-17
4.88E-17
4.71E-17
4.38E-17
4.31E-17
Tc-104
5.17E-17
4.81E-17
4.56E-17
4.41E-17
4.11E-17
4.04E-17
Tc-105
2.00E-17
1.85E-17
1.75E-17
1.68E-17
1.56E-17
1.53E-17
Ruthenium
Ru-92
4.74E-17
4.37E-17
4.12E-17
3.95E-17
3.65E-17
3.58E-17
Ru-94
1.17E-17
1.07E-17
1.01E-17
9.65E-18
8.90E-18
8.73E-18
Ru-95
2.78E-17
2.57E-17
2.44E-17
2.33E-17
2.16E-17
2.12E-17
Ru-97
5.22E-18
4.76E-18
4.48E-18
4.27E-18
3.91E-18
3.82E-18
Ru-103
1.15E-17
1.06E-17
9.91E-18
9.51E-18
8.77E-18
8.60E-18
Ru-105
1.76E-17
1.62E-17
1.54E-17
1.46E-17
1.35E-17
1.33E-17
Ru-106
6.07E-22
5.63E-22
5.41E-22
5.12E-22
4.75E-22
4.67E-22
Ru-107
9.66E-18
8.95E-18
8.51E-18
8.13E-18
7.55E-18
7.42E-18
Ru-108
1.95E-18
1.81E-18
1.70E-18
1.62E-18
1.48E-18
1.45E-18
Rhodium
Rh-94
9.10E-17
8.45E-17
8.01E-17
7.70E-17
7.16E-17
7.04E-17
Rh-95
5.82E-17
5.40E-17
5.12E-17
4.91E-17
4.57E-17
4.49E-17
101
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Rh-95m
1.97E-17
1.83E-17
1.72E-17
1.66E-17
1.54E-17
1.52E-17
Rh-96
8.99E-17
8.32E-17
7.87E-17
7.53E-17
6.98E-17
6.85E-17
Rh-96m
2.95E-17
2.73E-17
2.59E-17
2.48E-17
2.31E-17
2.27E-17
Rh-97
3.36E-17
3.10E-17
2.91E-17
2.79E-17
2.59E-17
2.54E-17
Rh-97m
4.71E-17
4.39E-17
4.16E-17
4.03E-17
3.76E-17
3.70E-17
Rh-98
4.40E-17
4.06E-17
3.82E-17
3.66E-17
3.39E-17
3.33E-17
Rh-99
1.24E-17
1.14E-17
1.07E-17
1.03E-17
9.44E-18
9.26E-18
Rh-99m
1.46E-17
1.35E-17
1.27E-17
1.21E-17
1.12E-17
1.10E-17
Rh-100
5.91E-17
5.50E-17
5.21E-17
5.04E-17
4.70E-17
4.62E-17
Rh-lOOm
9.77E-19
8.92E-19
8.35E-19
8.01E-19
7.34E-19
7.20E-19
Rh-101
6.08E-18
5.58E-18
5.21E-18
4.98E-18
4.52E-18
4.44E-18
Rh-lOlm
6.36E-18
5.81E-18
5.45E-18
5.21E-18
4.78E-18
4.68E-18
Rh-102
1.17E-17
1.08E-17
1.01E-17
9.67E-18
8.93E-18
8.76E-18
Rh-102m
4.89E-17
4.51E-17
4.27E-17
4.07E-17
3.77E-17
3.70E-17
Rh-103m
2.27E-21
1.54E-21
1.23E-21
1.17E-21
7.04E-22
6.62E-22
Rh-104
1.97E-18
1.83E-18
1.75E-18
1.68E-18
1.56E-18
1.54E-18
Rh-104m
4.63E-19
3.87E-19
3.44E-19
3.17E-19
2.70E-19
2.63E-19
Rh-105
1.92E-18
1.76E-18
1.65E-18
1.58E-18
1.45E-18
1.42E-18
Rh-106
7.48E-18
6.93E-18
6.57E-18
6.29E-18
5.84E-18
5.74E-18
Rh-106m
6.47E-17
5.99E-17
5.68E-17
5.43E-17
5.03E-17
4.94E-17
Rh-107
7.81E-18
7.15E-18
6.72E-18
6.42E-18
5.91E-18
5.79E-18
Rh-108
1.12E-17
1.04E-17
9.81E-18
9.40E-18
8.72E-18
8.56E-18
Rh-109
8.39E-18
7.70E-18
7.25E-18
6.93E-18
6.38E-18
6.26E-18
Palladium
Pd-96
3.27E-17
3.02E-17
2.85E-17
2.72E-17
2.52E-17
2.47E-17
Pd-97
5.39E-17
5.00E-17
4.72E-17
4.54E-17
4.22E-17
4.15E-17
Pd-98
8.90E-18
8.20E-18
7.72E-18
7.36E-18
6.76E-18
6.64E-18
Pd-99
2.92E-17
2.70E-17
2.54E-17
2.45E-17
2.26E-17
2.22E-17
Pd-100
1.83E-18
1.63E-18
1.50E-18
1.43E-18
1.26E-18
1.23E-18
Pd-101
7.49E-18
6.89E-18
6.49E-18
6.20E-18
5.72E-18
5.62E-18
Pd-103
2.17E-20
1.51E-20
1.23E-20
1.18E-20
7.49E-21
7.08E-21
Pd-107
4.79E-22
4.45E-22
4.27E-22
4.04E-22
3.75E-22
3.69E-22
Pd-109
5.21E-19
4.79E-19
4.56E-19
4.33E-19
3.99E-19
3.92E-19
Pd-109m
2.39E-18
2.19E-18
2.05E-18
1.95E-18
1.78E-18
1.74E-18
Pd-111
2.43E-18
2.26E-18
2.16E-18
2.06E-18
1.92E-18
1.89E-18
Pd-112
5.17E-20
4.68E-20
4.45E-20
4.22E-20
3.82E-20
3.75E-20
Pd-114
1.31E-18
1.21E-18
1.15E-18
1.09E-18
1.01E-18
9.93E-19
Silver
Ag-99
5.43E-17
5.02E-17
4.74E-17
4.55E-17
4.22E-17
4.15E-17
Ag-lOOm
6.76E-17
6.27E-17
5.92E-17
5.68E-17
5.28E-17
5.18E-17
Ag-101
3.71E-17
3.42E-17
3.22E-17
3.09E-17
2.86E-17
2.80E-17
Ag-102
7.72E-17
7.16E-17
6.76E-17
6.50E-17
6.04E-17
5.94E-17
Ag-102m
4.32E-17
4.02E-17
3.80E-17
3.69E-17
3.45E-17
3.39E-17
Ag-103
1.90E-17
1.76E-17
1.65E-17
1.58E-17
1.46E-17
1.44E-17
Ag-104
6.09E-17
5.63E-17
5.34E-17
5.10E-17
4.73E-17
4.65E-17
Ag-104m
4.14E-17
3.83E-17
3.60E-17
3.47E-17
3.22E-17
3.17E-17
102
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ag-105
1.14E-17
1.05E-17
9.83E-18
9.40E-18
8.65E-18
8.48E-18
Ag-105m
2.28E-20
2.09E-20
1.97E-20
1.88E-20
1.73E-20
1.69E-20
Ag-106
1.69E-17
1.55E-17
1.45E-17
1.39E-17
1.29E-17
1.26E-17
Ag-106m
6.31E-17
5.84E-17
5.53E-17
5.28E-17
4.90E-17
4.81E-17
Ag-108
1.30E-18
1.21E-18
1.16E-18
1.10E-18
1.02E-18
1.01E-18
Ag-108m
3.70E-17
3.41E-17
3.21E-17
3.07E-17
2.83E-17
2.78E-17
Ag-109m
7.49E-20
6.43E-20
5.82E-20
5.53E-20
4.73E-20
4.61E-20
Ag-110
2.86E-18
2.66E-18
2.55E-18
2.43E-18
2.27E-18
2.23E-18
Ag-llOm
6.23E-17
5.77E-17
5.49E-17
5.23E-17
4.85E-17
4.76E-17
Ag-111
1.03E-18
9.51E-19
8.99E-19
8.58E-19
7.93E-19
7.78E-19
Ag-lllm
8.60E-20
7.68E-20
7.12E-20
6.78E-20
6.10E-20
5.97E-20
Ag-112
1.79E-17
1.67E-17
1.58E-17
1.52E-17
1.42E-17
1.39E-17
Ag-113
2.84E-18
2.63E-18
2.50E-18
2.38E-18
2.21E-18
2.17E-18
Ag-113m
5.17E-18
4.74E-18
4.46E-18
4.26E-18
3.92E-18
3.85E-18
Ag-114
1.05E-17
9.80E-18
9.32E-18
8.96E-18
8.37E-18
8.23E-18
Ag-115
1.25E-17
1.16E-17
1.10E-17
1.06E-17
9.89E-18
9.73E-18
Ag-116
4.95E-17
4.62E-17
4.38E-17
4.24E-17
3.96E-17
3.90E-17
Ag-117
2.99E-17
2.80E-17
2.65E-17
2.57E-17
2.41E-17
2.37E-17
Cadmium
Cd-101
5.66E-17
5.25E-17
4.96E-17
4.78E-17
4.44E-17
4.37E-17
Cd-102
1.89E-17
1.74E-17
1.64E-17
1.57E-17
1.45E-17
1.42E-17
Cd-103
4.55E-17
4.23E-17
4.01E-17
3.88E-17
3.62E-17
3.56E-17
Cd-104
5.13E-18
4.70E-18
4.42E-18
4.21E-18
3.86E-18
3.79E-18
Cd-105
2.86E-17
2.65E-17
2.51E-17
2.42E-17
2.25E-17
2.22E-17
Cd-107
2.35E-19
2.04E-19
1.86E-19
1.77E-19
1.55E-19
1.52E-19
Cd-109
1.03E-19
8.28E-20
7.27E-20
6.89E-20
5.58E-20
5.41E-20
Cd-lllm
6.28E-18
5.74E-18
5.38E-18
5.14E-18
4.69E-18
4.60E-18
Cd-113
6.34E-20
5.88E-20
5.64E-20
5.35E-20
4.97E-20
4.88E-20
Cd-113m
1.73E-19
1.60E-19
1.54E-19
1.46E-19
1.35E-19
1.33E-19
Cd-115
4.81E-18
4.43E-18
4.15E-18
3.98E-18
3.67E-18
3.60E-18
Cd-115m
1.61E-18
1.50E-18
1.44E-18
1.37E-18
1.27E-18
1.25E-18
Cd-117
2.45E-17
2.27E-17
2.16E-17
2.07E-17
1.92E-17
1.89E-17
Cd-117m
4.44E-17
4.13E-17
3.93E-17
3.79E-17
3.54E-17
3.49E-17
Cd-118
1.42E-19
1.32E-19
1.26E-19
1.20E-19
1.11E-19
1.09E-19
Cd-119
3.67E-17
3.42E-17
3.24E-17
3.13E-17
2.92E-17
2.88E-17
Cd-119m
5.09E-17
4.74E-17
4.51E-17
4.34E-17
4.05E-17
3.99E-17
Indium
In-103
6.40E-17
5.93E-17
5.61E-17
5.39E-17
5.01E-17
4.92E-17
In-105
4.51E-17
4.17E-17
3.93E-17
3.78E-17
3.50E-17
3.44E-17
In-106
8.30E-17
7.67E-17
7.26E-17
6.92E-17
6.41E-17
6.29E-17
In-106m
6.54E-17
6.07E-17
5.73E-17
5.53E-17
5.14E-17
5.05E-17
In-107
3.40E-17
3.15E-17
2.98E-17
2.87E-17
2.67E-17
2.62E-17
In-108
8.78E-17
8.13E-17
7.73E-17
7.38E-17
6.84E-17
6.73E-17
In-108m
6.00E-17
5.59E-17
5.28E-17
5.12E-17
4.77E-17
4.70E-17
In-109
1.41E-17
1.30E-17
1.23E-17
1.18E-17
1.09E-17
1.07E-17
In-109m
1.40E-17
1.29E-17
1.22E-17
1.16E-17
1.07E-17
1.05E-17
103
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
In-110
7.00E-17
6.47E-17
6.16E-17
5.85E-17
5.42E-17
5.32E-17
In-110m
3.66E-17
3.38E-17
3.18E-17
3.06E-17
2.83E-17
2.78E-17
In-Ill
8.80E-18
8.06E-18
7.55E-18
7.20E-18
6.57E-18
6.44E-18
In-lllm
1.09E-17
9.99E-18
9.34E-18
8.96E-18
8.26E-18
8.10E-18
In-112
6.38E-18
5.87E-18
5.49E-18
5.27E-18
4.86E-18
4.77E-18
In-112m
4.82E-19
4.41E-19
4.03E-19
3.86E-19
3.45E-19
3.39E-19
In-113m
5.93E-18
5.43E-18
5.07E-18
4.86E-18
4.47E-18
4.38E-18
In-114
1.27E-18
1.18E-18
1.14E-18
1.08E-18
1.01E-18
9.98E-19
In-114m
1.65E-18
1.51E-18
1.42E-18
1.35E-18
1.24E-18
1.22E-18
In-115
1.31E-19
1.22E-19
1.17E-19
1.11E-19
1.03E-19
1.01E-19
In-115m
3.62E-18
3.30E-18
3.09E-18
2.96E-18
2.71E-18
2.66E-18
In-116m
5.45E-17
5.07E-17
4.83E-17
4.63E-17
4.32E-17
4.25E-17
In-117
1.61E-17
1.49E-17
1.39E-17
1.33E-17
1.22E-17
1.20E-17
In-117m
2.48E-18
2.29E-18
2.15E-18
2.05E-18
1.88E-18
1.85E-18
In-118
5.78E-18
5.39E-18
5.17E-18
4.95E-18
4.63E-18
4.56E-18
In-118m
6.27E-17
5.83E-17
5.57E-17
5.30E-17
4.93E-17
4.85E-17
In-119
1.83E-17
1.70E-17
1.61E-17
1.53E-17
1.42E-17
1.39E-17
In-119m
3.20E-18
2.98E-18
2.86E-18
2.72E-18
2.54E-18
2.50E-18
In-121
2.26E-17
2.09E-17
2.00E-17
1.90E-17
1.76E-17
1.73E-17
In-121m
4.13E-18
3.83E-18
3.67E-18
3.50E-18
3.26E-18
3.21E-18
Tin
Sn-106
2.73E-17
2.51E-17
2.37E-17
2.27E-17
2.09E-17
2.05E-17
Sn-108
1.53E-17
1.40E-17
1.32E-17
1.26E-17
1.16E-17
1.13E-17
Sn-109
4.77E-17
4.44E-17
4.22E-17
4.06E-17
3.79E-17
3.73E-17
Sn-110
6.36E-18
5.79E-18
5.44E-18
5.19E-18
4.76E-18
4.66E-18
Sn-111
1.11E-17
1.02E-17
9.63E-18
9.26E-18
8.57E-18
8.42E-18
Sn-113
1.68E-19
1.43E-19
1.29E-19
1.23E-19
1.07E-19
1.05E-19
Sn-113m
4.24E-20
3.04E-20
2.45E-20
2.25E-20
1.65E-20
1.58E-20
Sn-117m
3.13E-18
2.90E-18
2.67E-18
2.56E-18
2.31E-18
2.27E-18
Sn-119m
3.71E-20
2.52E-20
1.96E-20
1.78E-20
1.21E-20
1.15E-20
Sn-121
8.80E-20
8.16E-20
7.83E-20
7.42E-20
6.89E-20
6.78E-20
Sn-121m
3.93E-20
3.25E-20
2.89E-20
2.69E-20
2.32E-20
2.26E-20
Sn-123
8.77E-19
8.16E-19
7.84E-19
7.45E-19
6.95E-19
6.84E-19
Sn-123m
3.63E-18
3.38E-18
3.14E-18
3.01E-18
2.74E-18
2.69E-18
Sn-125
8.77E-18
8.15E-18
7.80E-18
7.43E-18
6.92E-18
6.80E-18
Sn-125m
9.28E-18
8.51E-18
8.01E-18
7.66E-18
7.06E-18
6.92E-18
Sn-126
9.57E-19
8.55E-19
7.87E-19
7.49E-19
6.61E-19
6.47E-19
Sn-127
4.29E-17
3.98E-17
3.80E-17
3.63E-17
3.37E-17
3.32E-17
Sn-127m
1.50E-17
1.38E-17
1.30E-17
1.25E-17
1.16E-17
1.14E-17
Sn-128
1.32E-17
1.21E-17
1.13E-17
1.08E-17
9.93E-18
9.73E-18
Sn-129
2.51E-17
2.33E-17
2.21E-17
2.11E-17
1.96E-17
1.92E-17
Sn-130
2.15E-17
1.98E-17
1.87E-17
1.78E-17
1.64E-17
1.61E-17
Sn-130m
2.22E-17
2.06E-17
1.96E-17
1.87E-17
1.73E-17
1.71E-17
Antimony
Sb-111
3.67E-17
3.38E-17
3.17E-17
3.04E-17
2.81E-17
2.75E-17
Sb-113
3.03E-17
2.79E-17
2.62E-17
2.51E-17
2.32E-17
2.27E-17
104
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sb-114
6.23E-17
5.78E-17
5.48E-17
5.25E-17
4.88E-17
4.80E-17
Sb-115
2.06E-17
1.90E-17
1.77E-17
1.70E-17
1.57E-17
1.54E-17
Sb-116
5.09E-17
4.73E-17
4.49E-17
4.31E-17
4.01E-17
3.95E-17
Sb-116m
6.89E-17
6.39E-17
6.08E-17
5.80E-17
5.38E-17
5.29E-17
Sb-117
3.70E-18
3.43E-18
3.17E-18
3.04E-18
2.76E-18
2.71E-18
Sb-118
2.01E-17
1.85E-17
1.73E-17
1.66E-17
1.53E-17
1.50E-17
Sb-118m
5.73E-17
5.31E-17
5.08E-17
4.83E-17
4.49E-17
4.41E-17
Sb-119
6.06E-20
4.13E-20
3.21E-20
2.91E-20
1.99E-20
1.89E-20
Sb-120
1.07E-17
9.84E-18
9.20E-18
8.82E-18
8.14E-18
7.99E-18
Sb-120m
5.42E-17
5.02E-17
4.81E-17
4.57E-17
4.24E-17
4.16E-17
Sb-122
1.11E-17
1.02E-17
9.59E-18
9.18E-18
8.49E-18
8.33E-18
Sb-122m
8.82E-19
7.59E-19
6.83E-19
6.42E-19
5.49E-19
5.34E-19
Sb-124
4.14E-17
3.85E-17
3.64E-17
3.51E-17
3.27E-17
3.21E-17
Sb-124m
1.03E-17
9.48E-18
8.90E-18
8.52E-18
7.87E-18
7.72E-18
Sb-124n
2.26E-24
1.55E-24
1.20E-24
1.08E-24
7.47E-25
7.10E-25
Sb-125
9.87E-18
9.07E-18
8.49E-18
8.12E-18
7.49E-18
7.34E-18
Sb-126
6.37E-17
5.87E-17
5.55E-17
5.29E-17
4.89E-17
4.80E-17
Sb-126m
3.66E-17
3.37E-17
3.18E-17
3.04E-17
2.80E-17
2.75E-17
Sb-127
1.63E-17
1.50E-17
1.41E-17
1.35E-17
1.25E-17
1.22E-17
Sb-128
7.14E-17
6.59E-17
6.24E-17
5.94E-17
5.50E-17
5.40E-17
Sb-128m
4.52E-17
4.17E-17
3.96E-17
3.77E-17
3.48E-17
3.42E-17
Sb-129
3.32E-17
3.08E-17
2.93E-17
2.79E-17
2.60E-17
2.55E-17
Sb-130
7.51E-17
6.95E-17
6.60E-17
6.28E-17
5.82E-17
5.72E-17
Sb-130m
6.28E-17
5.82E-17
5.55E-17
5.27E-17
4.89E-17
4.80E-17
Sb-131
4.66E-17
4.33E-17
4.12E-17
3.95E-17
3.67E-17
3.61E-17
Sb-133
6.03E-17
5.62E-17
5.35E-17
5.15E-17
4.81E-17
4.73E-17
Tellurium
Te-113
5.32E-17
4.93E-17
4.66E-17
4.48E-17
4.16E-17
4.09E-17
Te-114
2.79E-17
2.59E-17
2.45E-17
2.36E-17
2.19E-17
2.15E-17
Te-115
5.17E-17
4.79E-17
4.53E-17
4.34E-17
4.03E-17
3.96E-17
Te-115m
5.89E-17
5.47E-17
5.18E-17
4.97E-17
4.62E-17
4.54E-17
Te-116
1.83E-18
1.66E-18
1.54E-18
1.47E-18
1.33E-18
1.30E-18
Te-117
3.43E-17
3.18E-17
3.01E-17
2.90E-17
2.69E-17
2.65E-17
Te-118
6.15E-20
4.25E-20
3.30E-20
2.95E-20
2.10E-20
1.99E-20
Te-119
1.71E-17
1.58E-17
1.49E-17
1.42E-17
1.32E-17
1.29E-17
Te-119m
3.28E-17
3.05E-17
2.91E-17
2.78E-17
2.58E-17
2.53E-17
Te-121
1.29E-17
1.19E-17
1.11E-17
1.07E-17
9.85E-18
9.66E-18
Te-121m
4.64E-18
4.24E-18
4.00E-18
3.80E-18
3.48E-18
3.41E-18
Te-123
1.07E-22
7.39E-23
5.73E-23
5.13E-23
3.64E-23
3.47E-23
Te-123m
2.98E-18
2.77E-18
2.55E-18
2.44E-18
2.21E-18
2.17E-18
Te-125m
1.38E-19
9.82E-20
7.74E-20
6.92E-20
5.16E-20
4.94E-20
Te-127
3.38E-19
3.12E-19
2.97E-19
2.82E-19
2.62E-19
2.57E-19
Te-127m
5.19E-20
3.92E-20
3.25E-20
2.96E-20
2.35E-20
2.27E-20
Te-129
2.06E-18
1.90E-18
1.79E-18
1.71E-18
1.58E-18
1.55E-18
Te-129m
1.01E-18
9.30E-19
8.81E-19
8.38E-19
7.74E-19
7.61E-19
Te-131
1.04E-17
9.66E-18
9.10E-18
8.70E-18
8.01E-18
7.87E-18
105
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Te-131m
3.27E-17
3.03E-17
2.88E-17
2.74E-17
2.54E-17
2.50E-17
Te-132
4.90E-18
4.45E-18
4.17E-18
3.97E-18
3.62E-18
3.54E-18
Te-133
2.77E-17
2.57E-17
2.43E-17
2.34E-17
2.17E-17
2.13E-17
Te-133m
4.20E-17
3.89E-17
3.70E-17
3.53E-17
3.27E-17
3.22E-17
Te-134
1.99E-17
1.83E-17
1.73E-17
1.65E-17
1.52E-17
1.49E-17
Iodine
1-118
5.05E-17
4.66E-17
4.39E-17
4.21E-17
3.90E-17
3.83E-17
I-118m
8.76E-17
8.09E-17
7.64E-17
7.30E-17
6.76E-17
6.63E-17
1-119
2.16E-17
1.98E-17
1.86E-17
1.78E-17
1.64E-17
1.61E-17
1-120
6.02E-17
5.60E-17
5.28E-17
5.11E-17
4.75E-17
4.68E-17
I-120m
8.09E-17
7.49E-17
7.06E-17
6.78E-17
6.28E-17
6.17E-17
1-121
8.80E-18
8.06E-18
7.56E-18
7.22E-18
6.63E-18
6.50E-18
1-122
2.43E-17
2.24E-17
2.09E-17
2.01E-17
1.86E-17
1.82E-17
1-123
3.36E-18
3.10E-18
2.86E-18
2.74E-18
2.48E-18
2.43E-18
1-124
2.50E-17
2.31E-17
2.18E-17
2.09E-17
1.94E-17
1.91E-17
1-125
1.57E-19
1.10E-19
8.59E-20
7.65E-20
5.60E-20
5.35E-20
1-126
1.00E-17
9.20E-18
8.65E-18
8.26E-18
7.62E-18
7.48E-18
1-128
2.73E-18
2.52E-18
2.39E-18
2.28E-18
2.12E-18
2.08E-18
1-129
1.46E-19
1.11E-19
9.11E-20
8.20E-20
6.59E-20
6.36E-20
1-130
4.93E-17
4.55E-17
4.29E-17
4.10E-17
3.79E-17
3.72E-17
I-130m
2.66E-18
2.45E-18
2.30E-18
2.21E-18
2.04E-18
2.00E-18
1-131
9.01E-18
8.26E-18
7.73E-18
7.40E-18
6.81E-18
6.67E-18
1-132
5.21E-17
4.81E-17
4.57E-17
4.35E-17
4.03E-17
3.96E-17
I-132m
7.69E-18
7.09E-18
6.69E-18
6.37E-18
5.88E-18
5.78E-18
1-133
1.46E-17
1.35E-17
1.26E-17
1.21E-17
1.12E-17
1.10E-17
1-134
5.92E-17
5.48E-17
5.22E-17
4.97E-17
4.61E-17
4.53E-17
I-134m
6.18E-18
5.62E-18
5.29E-18
5.03E-18
4.61E-18
4.52E-18
1-135
3.50E-17
3.26E-17
3.11E-17
2.98E-17
2.78E-17
2.74E-17
Xenon
Xe-120
8.35E-18
7.66E-18
7.21E-18
6.87E-18
6.31E-18
6.19E-18
Xe-121
3.29E-17
3.05E-17
2.88E-17
2.78E-17
2.58E-17
2.54E-17
Xe-122
1.12E-18
1.01E-18
9.33E-19
8.91E-19
8.08E-19
7.91E-19
Xe-123
1.42E-17
1.31E-17
1.23E-17
1.18E-17
1.09E-17
1.07E-17
Xe-125
5.57E-18
5.08E-18
4.76E-18
4.53E-18
4.14E-18
4.06E-18
Xe-127
5.88E-18
5.37E-18
5.01E-18
4.78E-18
4.36E-18
4.27E-18
Xe-127m
3.34E-18
3.08E-18
2.84E-18
2.72E-18
2.45E-18
2.41E-18
Xe-129m
4.04E-19
3.31E-19
2.89E-19
2.68E-19
2.29E-19
2.23E-19
Xe-131m
1.46E-19
1.20E-19
1.03E-19
9.56E-20
8.08E-20
7.87E-20
Xe-133
7.31E-19
6.45E-19
5.90E-19
5.58E-19
4.90E-19
4.78E-19
Xe-133m
6.11E-19
5.43E-19
5.02E-19
4.76E-19
4.29E-19
4.20E-19
Xe-135
6.02E-18
5.50E-18
5.18E-18
4.94E-18
4.54E-18
4.44E-18
Xe-135m
9.78E-18
9.00E-18
8.40E-18
8.06E-18
7.43E-18
7.29E-18
Xe-137
7.87E-18
7.30E-18
6.92E-18
6.64E-18
6.18E-18
6.07E-18
Xe-138
2.51E-17
2.34E-17
2.21E-17
2.15E-17
2.00E-17
1.97E-17
Cesium
Cs-121
3.07E-17
2.83E-17
2.65E-17
2.55E-17
2.35E-17
2.31E-17
106
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cs-121m
2.98E-17
2.75E-17
2.58E-17
2.47E-17
2.28E-17
2.24E-17
Cs-123
2.64E-17
2.43E-17
2.28E-17
2.19E-17
2.02E-17
1.98E-17
Cs-124
3.12E-17
2.88E-17
2.70E-17
2.59E-17
2.40E-17
2.36E-17
Cs-125
1.76E-17
1.62E-17
1.51E-17
1.45E-17
1.34E-17
1.32E-17
Cs-126
2.92E-17
2.69E-17
2.52E-17
2.42E-17
2.24E-17
2.20E-17
Cs-127
9.55E-18
8.75E-18
8.17E-18
7.83E-18
7.20E-18
7.06E-18
Cs-128
2.21E-17
2.03E-17
1.90E-17
1.83E-17
1.69E-17
1.65E-17
Cs-129
5.87E-18
5.35E-18
4.98E-18
4.77E-18
4.38E-18
4.29E-18
Cs-130
1.20E-17
1.10E-17
1.03E-17
9.90E-18
9.14E-18
8.96E-18
Cs-130m
9.94E-19
8.73E-19
7.90E-19
7.48E-19
6.55E-19
6.40E-19
Cs-131
1.01E-19
7.25E-20
5.67E-20
5.02E-20
3.78E-20
3.62E-20
Cs-132
1.60E-17
1.47E-17
1.39E-17
1.33E-17
1.22E-17
1.20E-17
Cs-134
3.57E-17
3.30E-17
3.12E-17
2.97E-17
2.75E-17
2.70E-17
Cs-134m
3.90E-19
3.51E-19
3.19E-19
3.04E-19
2.70E-19
2.65E-19
Cs-135
5.89E-20
5.46E-20
5.24E-20
4.97E-20
4.61E-20
4.54E-20
Cs-135m
3.63E-17
3.36E-17
3.20E-17
3.03E-17
2.81E-17
2.76E-17
Cs-136
4.79E-17
4.44E-17
4.23E-17
4.02E-17
3.73E-17
3.66E-17
Cs-137
1.80E-19
1.67E-19
1.60E-19
1.52E-19
1.41E-19
1.39E-19
Cs-138
5.34E-17
4.97E-17
4.73E-17
4.56E-17
4.25E-17
4.19E-17
Cs-138m
9.44E-18
8.74E-18
8.28E-18
7.95E-18
7.38E-18
7.26E-18
Cs-139
9.90E-18
9.25E-18
8.83E-18
8.51E-18
7.97E-18
7.85E-18
Cs-140
4.20E-17
3.92E-17
3.73E-17
3.61E-17
3.37E-17
3.32E-17
Barium
Ba-124
1.28E-17
1.18E-17
1.11E-17
1.06E-17
9.78E-18
9.60E-18
Ba-126
1.27E-17
1.17E-17
1.11E-17
1.05E-17
9.74E-18
9.56E-18
Ba-127
1.73E-17
1.60E-17
1.50E-17
1.44E-17
1.33E-17
1.30E-17
Ba-128
1.09E-18
9.68E-19
8.97E-19
8.52E-19
7.72E-19
7.55E-19
Ba-129
7.35E-18
6.76E-18
6.32E-18
6.07E-18
5.60E-18
5.50E-18
Ba-129m
3.50E-17
3.24E-17
3.07E-17
2.93E-17
2.72E-17
2.67E-17
Ba-131
1.03E-17
9.48E-18
8.84E-18
8.47E-18
7.77E-18
7.62E-18
Ba-131m
1.33E-18
1.20E-18
1.10E-18
1.05E-18
9.37E-19
9.19E-19
Ba-133
8.48E-18
7.71E-18
7.19E-18
6.87E-18
6.28E-18
6.15E-18
Ba-133m
1.24E-18
1.11E-18
1.03E-18
9.81E-19
8.92E-19
8.73E-19
Ba-135m
1.06E-18
9.52E-19
8.85E-19
8.41E-19
7.64E-19
7.47E-19
Ba-137m
1.37E-17
1.26E-17
1.19E-17
1.13E-17
1.05E-17
1.03E-17
Ba-139
2.46E-18
2.29E-18
2.17E-18
2.07E-18
1.92E-18
1.89E-18
Ba-140
4.42E-18
4.07E-18
3.80E-18
3.64E-18
3.36E-18
3.29E-18
Ba-141
2.24E-17
2.07E-17
1.96E-17
1.87E-17
1.73E-17
1.70E-17
Ba-142
2.38E-17
2.20E-17
2.10E-17
2.00E-17
1.85E-17
1.82E-17
Lanthanum
La-128
6.68E-17
6.17E-17
5.82E-17
5.58E-17
5.16E-17
5.07E-17
La-129
2.19E-17
2.02E-17
1.89E-17
1.81E-17
1.67E-17
1.64E-17
La-130
5.26E-17
4.86E-17
4.58E-17
4.39E-17
4.07E-17
3.99E-17
La-131
1.50E-17
1.38E-17
1.29E-17
1.23E-17
1.13E-17
1.11E-17
La-132
4.51E-17
4.18E-17
3.93E-17
3.79E-17
3.52E-17
3.46E-17
La-13 2m
1.50E-17
1.38E-17
1.30E-17
1.24E-17
1.14E-17
1.12E-17
107
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
La-133
3.29E-18
3.01E-18
2.81E-18
2.68E-18
2.46E-18
2.42E-18
La-134
1.78E-17
1.64E-17
1.54E-17
1.48E-17
1.36E-17
1.34E-17
La-135
3.75E-19
3.18E-19
2.83E-19
2.66E-19
2.34E-19
2.29E-19
La-136
9.58E-18
8.80E-18
8.23E-18
7.89E-18
7.27E-18
7.13E-18
La-137
1.35E-19
9.85E-20
7.81E-20
6.91E-20
5.33E-20
5.13E-20
La-138
2.68E-17
2.50E-17
2.38E-17
2.28E-17
2.13E-17
2.09E-17
La-140
5.11E-17
4.76E-17
4.51E-17
4.35E-17
4.06E-17
3.99E-17
La-141
2.28E-18
2.13E-18
2.04E-18
1.95E-18
1.82E-18
1.80E-18
La-142
5.11E-17
4.78E-17
4.54E-17
4.41E-17
4.13E-17
4.07E-17
La-143
8.18E-18
7.62E-18
7.27E-18
6.99E-18
6.53E-18
6.43E-18
Cerium
Ce-130
1.07E-17
9.84E-18
9.26E-18
8.83E-18
8.12E-18
7.97E-18
Ce-131
3.74E-17
3.45E-17
3.25E-17
3.12E-17
2.89E-17
2.84E-17
Ce-132
5.68E-18
5.19E-18
4.83E-18
4.61E-18
4.19E-18
4.11E-18
Ce-133
1.22E-17
1.11E-17
1.04E-17
9.94E-18
9.13E-18
8.95E-18
Ce-133m
3.81E-17
3.52E-17
3.33E-17
3.19E-17
2.96E-17
2.91E-17
Ce-134
1.92E-19
1.48E-19
1.23E-19
1.11E-19
9.01E-20
8.73E-20
Ce-135
1.84E-17
1.69E-17
1.59E-17
1.52E-17
1.40E-17
1.37E-17
Ce-137
4.15E-19
3.52E-19
3.13E-19
2.93E-19
2.59E-19
2.52E-19
Ce-137m
9.41E-19
8.38E-19
7.77E-19
7.35E-19
6.65E-19
6.51E-19
Ce-139
3.07E-18
2.81E-18
2.59E-18
2.48E-18
2.23E-18
2.19E-18
Ce-141
1.69E-18
1.57E-18
1.44E-18
1.38E-18
1.25E-18
1.23E-18
Ce-143
6.52E-18
5.96E-18
5.60E-18
5.33E-18
4.90E-18
4.80E-18
Ce-144
4.15E-19
3.81E-19
3.51E-19
3.35E-19
3.01E-19
2.96E-19
Ce-145
1.89E-17
1.74E-17
1.65E-17
1.57E-17
1.45E-17
1.42E-17
Praseodymium
Pr-134
7.36E-17
6.79E-17
6.40E-17
6.13E-17
5.67E-17
5.57E-17
Pr-134m
5.50E-17
5.09E-17
4.79E-17
4.61E-17
4.28E-17
4.20E-17
Pr-135
2.05E-17
1.89E-17
1.77E-17
1.69E-17
1.56E-17
1.53E-17
Pr-136
4.94E-17
4.57E-17
4.30E-17
4.13E-17
3.83E-17
3.77E-17
Pr-137
8.41E-18
7.73E-18
7.24E-18
6.94E-18
6.40E-18
6.28E-18
Pr-138
2.10E-17
1.94E-17
1.82E-17
1.74E-17
1.61E-17
1.58E-17
Pr-138m
5.60E-17
5.17E-17
4.92E-17
4.68E-17
4.33E-17
4.25E-17
Pr-139
2.61E-18
2.37E-18
2.21E-18
2.11E-18
1.94E-18
1.90E-18
Pr-140
1.34E-17
1.23E-17
1.15E-17
1.10E-17
1.02E-17
9.98E-18
Pr-142
2.57E-18
2.40E-18
2.29E-18
2.20E-18
2.06E-18
2.03E-18
Pr-142m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pr-143
3.59E-19
3.33E-19
3.20E-19
3.04E-19
2.83E-19
2.78E-19
Pr-144
2.85E-18
2.66E-18
2.55E-18
2.44E-18
2.29E-18
2.25E-18
Pr-144m
1.18E-19
9.54E-20
8.22E-20
7.53E-20
6.41E-20
6.24E-20
Pr-145
1.43E-18
1.33E-18
1.28E-18
1.22E-18
1.13E-18
1.11E-18
Pr-146
2.48E-17
2.31E-17
2.19E-17
2.11E-17
1.96E-17
1.93E-17
Pr-147
1.18E-17
1.08E-17
1.02E-17
9.76E-18
9.02E-18
8.85E-18
Pr-148
2.53E-17
2.35E-17
2.24E-17
2.14E-17
2.00E-17
1.96E-17
Pr-148m
2.48E-17
2.29E-17
2.16E-17
2.07E-17
1.91E-17
1.88E-17
108
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Neodymium
Nd-134
1.21E-17
1.11E-17
1.04E-17
9.95E-18
9.13E-18
8.95E-18
Nd-135
3.04E-17
2.79E-17
2.62E-17
2.51E-17
2.31E-17
2.27E-17
Nd-136
5.59E-18
5.09E-18
4.74E-18
4.52E-18
4.13E-18
4.05E-18
Nd-137
2.65E-17
2.44E-17
2.30E-17
2.21E-17
2.04E-17
2.01E-17
Nd-138
5.42E-19
4.61E-19
4.13E-19
3.86E-19
3.40E-19
3.32E-19
Nd-139
1.01E-17
9.31E-18
8.74E-18
8.36E-18
7.72E-18
7.57E-18
Nd-139m
3.50E-17
3.24E-17
3.08E-17
2.93E-17
2.71E-17
2.66E-17
Nd-140
2.06E-19
1.55E-19
1.26E-19
1.12E-19
8.91E-20
8.62E-20
Nd-141
1.30E-18
1.17E-18
1.08E-18
1.03E-18
9.36E-19
9.18E-19
Nd-141m
1.58E-17
1.46E-17
1.39E-17
1.32E-17
1.22E-17
1.20E-17
Nd-144
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Nd-147
3.13E-18
2.85E-18
2.65E-18
2.53E-18
2.31E-18
2.27E-18
Nd-149
8.87E-18
8.13E-18
7.63E-18
7.28E-18
6.68E-18
6.55E-18
Nd-151
1.98E-17
1.83E-17
1.74E-17
1.66E-17
1.53E-17
1.51E-17
Nd-152
4.09E-18
3.74E-18
3.52E-18
3.35E-18
3.08E-18
3.02E-18
Promethium
Pm-136
6.74E-17
6.22E-17
5.87E-17
5.60E-17
5.18E-17
5.09E-17
Pm-137m
4.23E-17
3.90E-17
3.66E-17
3.50E-17
3.23E-17
3.17E-17
Pm-139
2.35E-17
2.16E-17
2.03E-17
1.95E-17
1.80E-17
1.76E-17
Pm-140
2.89E-17
2.67E-17
2.51E-17
2.41E-17
2.23E-17
2.19E-17
Pm-140m
7.07E-17
6.53E-17
6.19E-17
5.90E-17
5.46E-17
5.36E-17
Pm-141
1.76E-17
1.62E-17
1.53E-17
1.46E-17
1.35E-17
1.33E-17
Pm-142
2.23E-17
2.06E-17
1.93E-17
1.85E-17
1.71E-17
1.68E-17
Pm-143
6.77E-18
6.21E-18
5.88E-18
5.57E-18
5.14E-18
5.05E-18
Pm-144
3.55E-17
3.27E-17
3.08E-17
2.94E-17
2.71E-17
2.66E-17
Pm-145
2.62E-19
2.03E-19
1.69E-19
1.52E-19
1.23E-19
1.20E-19
Pm-146
1.71E-17
1.57E-17
1.48E-17
1.41E-17
1.30E-17
1.28E-17
Pm-147
3.37E-20
3.13E-20
3.00E-20
2.85E-20
2.64E-20
2.60E-20
Pm-148
1.39E-17
1.29E-17
1.23E-17
1.18E-17
1.10E-17
1.08E-17
Pm-148m
4.58E-17
4.22E-17
3.98E-17
3.80E-17
3.51E-17
3.45E-17
Pm-149
7.11E-19
6.56E-19
6.26E-19
5.95E-19
5.52E-19
5.42E-19
Pm-150
3.39E-17
3.15E-17
2.99E-17
2.87E-17
2.66E-17
2.62E-17
Pm-151
7.65E-18
7.01E-18
6.58E-18
6.28E-18
5.77E-18
5.65E-18
Pm-152
8.79E-18
8.17E-18
7.79E-18
7.44E-18
6.92E-18
6.81E-18
Pm-152m
3.50E-17
3.24E-17
3.08E-17
2.94E-17
2.72E-17
2.68E-17
Pm-153
2.47E-18
2.27E-18
2.13E-18
2.03E-18
1.85E-18
1.82E-18
Pm-154
3.97E-17
3.70E-17
3.52E-17
3.40E-17
3.17E-17
3.12E-17
Pm-154m
4.08E-17
3.79E-17
3.59E-17
3.45E-17
3.21E-17
3.15E-17
Samarium
Sm-139
3.52E-17
3.24E-17
3.05E-17
2.92E-17
2.70E-17
2.65E-17
Sm-140
1.26E-17
1.16E-17
1.10E-17
1.05E-17
9.69E-18
9.52E-18
Sm-141
3.30E-17
3.05E-17
2.87E-17
2.75E-17
2.55E-17
2.50E-17
Sm-141m
4.41E-17
4.07E-17
3.85E-17
3.69E-17
3.41E-17
3.35E-17
Sm-142
2.17E-18
1.96E-18
1.81E-18
1.73E-18
1.58E-18
1.55E-18
Sm-143
1.28E-17
1.18E-17
1.10E-17
1.06E-17
9.76E-18
9.58E-18
109
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sm-143m
1.56E-17
1.44E-17
1.37E-17
1.30E-17
1.20E-17
1.18E-17
Sm-145
5.99E-19
4.71E-19
3.98E-19
3.59E-19
2.94E-19
2.86E-19
Sm-146
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-147
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-151
3.89E-21
3.61E-21
3.46E-21
3.28E-21
3.04E-21
2.99E-21
Sm-153
1.23E-18
1.09E-18
9.99E-19
9.42E-19
8.37E-19
8.20E-19
Sm-155
2.81E-18
2.57E-18
2.41E-18
2.29E-18
2.08E-18
2.04E-18
Sm-156
2.57E-18
2.35E-18
2.19E-18
2.09E-18
1.90E-18
1.86E-18
Sm-157
1.06E-17
9.77E-18
9.24E-18
8.82E-18
8.13E-18
7.99E-18
Europium
Eu-142
3.46E-17
3.20E-17
3.02E-17
2.90E-17
2.69E-17
2.64E-17
Eu-142m
8.19E-17
7.57E-17
7.17E-17
6.84E-17
6.34E-17
6.22E-17
Eu-143
2.82E-17
2.61E-17
2.45E-17
2.36E-17
2.19E-17
2.15E-17
Eu-144
2.98E-17
2.75E-17
2.59E-17
2.49E-17
2.31E-17
2.26E-17
Eu-145
2.79E-17
2.58E-17
2.46E-17
2.35E-17
2.19E-17
2.15E-17
Eu-146
5.35E-17
4.95E-17
4.69E-17
4.49E-17
4.16E-17
4.09E-17
Eu-147
1.00E-17
9.23E-18
8.72E-18
8.28E-18
7.63E-18
7.49E-18
Eu-148
5.03E-17
4.64E-17
4.38E-17
4.19E-17
3.87E-17
3.80E-17
Eu-149
1.05E-18
9.14E-19
8.33E-19
7.85E-19
7.03E-19
6.87E-19
Eu-150
3.52E-17
3.24E-17
3.04E-17
2.91E-17
2.69E-17
2.63E-17
Eu-150m
1.45E-18
1.33E-18
1.25E-18
1.20E-18
1.11E-18
1.09E-18
Eu-152
2.59E-17
2.40E-17
2.28E-17
2.17E-17
2.01E-17
1.98E-17
Eu-152m
7.27E-18
6.72E-18
6.42E-18
6.09E-18
5.64E-18
5.54E-18
Eu-152n
1.33E-18
1.19E-18
1.09E-18
1.04E-18
9.16E-19
8.97E-19
Eu-154
2.80E-17
2.59E-17
2.47E-17
2.35E-17
2.18E-17
2.14E-17
Eu-154m
1.08E-18
9.51E-19
8.64E-19
8.17E-19
7.13E-19
6.97E-19
Eu-155
1.11E-18
9.96E-19
9.15E-19
8.69E-19
7.70E-19
7.54E-19
Eu-156
2.74E-17
2.55E-17
2.43E-17
2.33E-17
2.18E-17
2.14E-17
Eu-157
6.73E-18
6.14E-18
5.73E-18
5.47E-18
5.01E-18
4.91E-18
Eu-158
3.00E-17
2.79E-17
2.66E-17
2.54E-17
2.36E-17
2.32E-17
Eu-159
7.59E-18
6.96E-18
6.57E-18
6.24E-18
5.74E-18
5.64E-18
Gadolinium
Gd-142
2.49E-17
2.29E-17
2.16E-17
2.07E-17
1.92E-17
1.88E-17
Gd-143m
5.00E-17
4.61E-17
4.35E-17
4.17E-17
3.86E-17
3.79E-17
Gd-144
2.10E-17
1.94E-17
1.83E-17
1.76E-17
1.63E-17
1.61E-17
Gd-145
5.19E-17
4.84E-17
4.59E-17
4.45E-17
4.16E-17
4.09E-17
Gd-145m
1.57E-17
1.45E-17
1.37E-17
1.30E-17
1.21E-17
1.18E-17
Gd-146
4.44E-18
3.99E-18
3.63E-18
3.45E-18
3.07E-18
3.02E-18
Gd-147
3.13E-17
2.88E-17
2.73E-17
2.60E-17
2.40E-17
2.36E-17
Gd-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-149
1.15E-17
1.05E-17
9.83E-18
9.37E-18
8.58E-18
8.42E-18
Gd-150
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-151
1.10E-18
9.64E-19
8.75E-19
8.22E-19
7.30E-19
7.15E-19
Gd-152
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-153
1.56E-18
1.35E-18
1.22E-18
1.14E-18
9.98E-19
9.77E-19
110
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Gd-159
1.48E-18
1.34E-18
1.26E-18
1.20E-18
1.10E-18
1.08E-18
Gd-162
1.00E-17
9.19E-18
8.58E-18
8.23E-18
7.58E-18
7.43E-18
Terbium
Tb-146
8.22E-17
7.64E-17
7.25E-17
6.99E-17
6.51E-17
6.41E-17
Tb-147
4.86E-17
4.50E-17
4.28E-17
4.09E-17
3.80E-17
3.73E-17
Tb-147m
4.19E-17
3.90E-17
3.70E-17
3.56E-17
3.32E-17
3.27E-17
Tb-148
5.38E-17
4.98E-17
4.72E-17
4.53E-17
4.21E-17
4.13E-17
Tb-148m
7.18E-17
6.63E-17
6.27E-17
5.97E-17
5.52E-17
5.42E-17
Tb-149
2.99E-17
2.77E-17
2.62E-17
2.51E-17
2.33E-17
2.29E-17
Tb-149m
3.13E-17
2.89E-17
2.74E-17
2.60E-17
2.41E-17
2.36E-17
Tb-150
5.27E-17
4.90E-17
4.64E-17
4.48E-17
4.17E-17
4.11E-17
Tb-150m
5.78E-17
5.32E-17
5.00E-17
4.78E-17
4.41E-17
4.33E-17
Tb-151
2.20E-17
2.02E-17
1.90E-17
1.81E-17
1.67E-17
1.64E-17
Tb-151m
1.64E-18
1.49E-18
1.39E-18
1.32E-18
1.21E-18
1.19E-18
Tb-152
3.29E-17
3.05E-17
2.88E-17
2.77E-17
2.57E-17
2.53E-17
Tb-152m
1.69E-17
1.55E-17
1.45E-17
1.38E-17
1.27E-17
1.25E-17
Tb-153
6.87E-18
6.25E-18
5.86E-18
5.56E-18
5.08E-18
4.99E-18
Tb-154
4.80E-17
4.48E-17
4.25E-17
4.11E-17
3.84E-17
3.78E-17
Tb-155
3.23E-18
2.89E-18
2.65E-18
2.51E-18
2.25E-18
2.20E-18
Tb-156
4.26E-17
3.94E-17
3.73E-17
3.57E-17
3.31E-17
3.25E-17
Tb-156m
4.75E-19
3.86E-19
3.37E-19
3.05E-19
2.56E-19
2.50E-19
Tb-156n
4.93E-20
4.14E-20
3.67E-20
3.39E-20
2.91E-20
2.84E-20
Tb-157
4.92E-20
3.89E-20
3.31E-20
2.97E-20
2.44E-20
2.38E-20
Tb-158
1.76E-17
1.63E-17
1.55E-17
1.47E-17
1.36E-17
1.34E-17
Tb-160
2.53E-17
2.34E-17
2.24E-17
2.13E-17
1.97E-17
1.94E-17
Tb-161
5.60E-19
4.81E-19
4.35E-19
4.05E-19
3.53E-19
3.45E-19
Tb-162
2.57E-17
2.37E-17
2.25E-17
2.14E-17
1.98E-17
1.94E-17
Tb-163
1.86E-17
1.71E-17
1.60E-17
1.53E-17
1.41E-17
1.38E-17
Tb-164
5.56E-17
5.15E-17
4.88E-17
4.67E-17
4.33E-17
4.26E-17
Tb-165
1.98E-17
1.84E-17
1.76E-17
1.68E-17
1.57E-17
1.54E-17
Dysprosium
Dy-148
1.61E-17
1.48E-17
1.39E-17
1.33E-17
1.22E-17
1.20E-17
Dy-149
3.53E-17
3.27E-17
3.10E-17
2.97E-17
2.76E-17
2.72E-17
Dy-150
6.19E-18
5.64E-18
5.24E-18
5.02E-18
4.61E-18
4.51E-18
Dy-151
3.02E-17
2.80E-17
2.65E-17
2.53E-17
2.35E-17
2.31E-17
Dy-152
6.17E-18
5.58E-18
5.22E-18
4.97E-18
4.53E-18
4.44E-18
Dy-153
1.86E-17
1.71E-17
1.61E-17
1.54E-17
1.42E-17
1.39E-17
Dy-154
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Dy-155
1.45E-17
1.33E-17
1.26E-17
1.20E-17
1.11E-17
1.09E-17
Dy-157
7.57E-18
6.86E-18
6.40E-18
6.11E-18
5.59E-18
5.47E-18
Dy-159
5.08E-19
4.06E-19
3.48E-19
3.14E-19
2.61E-19
2.54E-19
Dy-165
1.12E-18
1.03E-18
9.77E-19
9.29E-19
8.57E-19
8.42E-19
Dy-165m
3.66E-19
3.30E-19
3.05E-19
2.90E-19
2.63E-19
2.58E-19
Dy-166
7.38E-19
6.40E-19
5.81E-19
5.43E-19
4.77E-19
4.66E-19
Dy-167
1.31E-17
1.20E-17
1.13E-17
1.08E-17
9.95E-18
9.77E-18
Dy-168
9.30E-18
8.53E-18
7.97E-18
7.62E-18
7.00E-18
6.86E-18
111
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Holmium
Ho-150
4.79E-17
4.43E-17
4.18E-17
3.99E-17
3.70E-17
3.63E-17
Ho-153
2.42E-17
2.22E-17
2.09E-17
2.00E-17
1.84E-17
1.81E-17
Ho-153m
2.52E-17
2.31E-17
2.17E-17
2.07E-17
1.91E-17
1.88E-17
Ho-154
4.49E-17
4.14E-17
3.90E-17
3.73E-17
3.46E-17
3.39E-17
Ho-154m
5.67E-17
5.21E-17
4.89E-17
4.68E-17
4.32E-17
4.24E-17
Ho-155
1.36E-17
1.25E-17
1.17E-17
1.13E-17
1.04E-17
1.02E-17
Ho-156
4.75E-17
4.40E-17
4.16E-17
3.99E-17
3.70E-17
3.63E-17
Ho-157
1.25E-17
1.14E-17
1.07E-17
1.02E-17
9.35E-18
9.17E-18
Ho-159
7.78E-18
7.06E-18
6.57E-18
6.24E-18
5.66E-18
5.55E-18
Ho-160
3.79E-17
3.49E-17
3.32E-17
3.15E-17
2.92E-17
2.87E-17
Ho-161
6.73E-19
5.56E-19
4.89E-19
4.48E-19
3.80E-19
3.71E-19
Ho-162
3.20E-18
2.90E-18
2.71E-18
2.57E-18
2.36E-18
2.31E-18
Ho-162m
1.20E-17
1.10E-17
1.05E-17
9.94E-18
9.18E-18
9.02E-18
Ho-163
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ho-164
5.11E-19
4.35E-19
3.92E-19
3.63E-19
3.16E-19
3.10E-19
Ho-164m
5.38E-19
4.37E-19
3.80E-19
3.44E-19
2.88E-19
2.81E-19
Ho-166
1.58E-18
1.47E-18
1.40E-18
1.33E-18
1.24E-18
1.22E-18
Ho-166m
3.69E-17
3.40E-17
3.22E-17
3.06E-17
2.82E-17
2.77E-17
Ho-167
8.53E-18
7.79E-18
7.29E-18
6.97E-18
6.40E-18
6.27E-18
Ho-168
2.10E-17
1.94E-17
1.85E-17
1.75E-17
1.62E-17
1.60E-17
Ho-168m
7.68E-20
6.24E-20
5.42E-20
4.91E-20
4.11E-20
4.01E-20
Ho-170
3.92E-17
3.62E-17
3.46E-17
3.28E-17
3.04E-17
2.98E-17
Erbium
Er-154
1.16E-18
1.01E-18
9.18E-19
8.62E-19
7.68E-19
7.51E-19
Er-156
8.76E-19
7.39E-19
6.58E-19
6.09E-19
5.28E-19
5.16E-19
Er-159
2.13E-17
1.96E-17
1.85E-17
1.77E-17
1.64E-17
1.61E-17
Er-161
2.18E-17
2.01E-17
1.92E-17
1.82E-17
1.68E-17
1.65E-17
Er-163
5.02E-19
4.10E-19
3.58E-19
3.25E-19
2.74E-19
2.67E-19
Er-165
4.61E-19
3.74E-19
3.25E-19
2.94E-19
2.47E-19
2.40E-19
Er-167m
2.09E-18
1.90E-18
1.78E-18
1.69E-18
1.54E-18
1.51E-18
Er-169
7.07E-20
6.56E-20
6.30E-20
5.97E-20
5.54E-20
5.45E-20
Er-171
8.72E-18
7.95E-18
7.45E-18
7.11E-18
6.51E-18
6.37E-18
Er-172
1.17E-17
1.07E-17
9.99E-18
9.55E-18
8.78E-18
8.61E-18
Er-173
1.93E-17
1.78E-17
1.69E-17
1.60E-17
1.48E-17
1.45E-17
Thulium
Tm-161
2.75E-17
2.54E-17
2.39E-17
2.30E-17
2.13E-17
2.10E-17
Tm-162
4.22E-17
3.92E-17
3.71E-17
3.58E-17
3.33E-17
3.28E-17
Tm-163
2.83E-17
2.62E-17
2.48E-17
2.38E-17
2.20E-17
2.17E-17
Tm-164
1.83E-17
1.69E-17
1.59E-17
1.52E-17
1.41E-17
1.39E-17
Tm-165
1.22E-17
1.11E-17
1.04E-17
9.94E-18
9.12E-18
8.94E-18
Tm-166
4.27E-17
3.96E-17
3.76E-17
3.61E-17
3.36E-17
3.31E-17
Tm-167
2.84E-18
2.53E-18
2.34E-18
2.21E-18
1.99E-18
1.95E-18
Tm-168
2.78E-17
2.56E-17
2.42E-17
2.30E-17
2.12E-17
2.08E-17
Tm-170
4.28E-19
3.94E-19
3.75E-19
3.55E-19
3.28E-19
3.22E-19
Tm-171
1.51E-20
1.32E-20
1.22E-20
1.14E-20
1.01E-20
9.88E-21
112
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Tm-172
1.10E-17
1.02E-17
9.74E-18
9.35E-18
8.72E-18
8.58E-18
Tm-173
9.30E-18
8.53E-18
7.96E-18
7.63E-18
7.02E-18
6.88E-18
Tm-174
4.06E-17
3.74E-17
3.55E-17
3.38E-17
3.12E-17
3.06E-17
Tm-175
2.51E-17
2.32E-17
2.19E-17
2.09E-17
1.94E-17
1.90E-17
Tm-176
4.42E-17
4.10E-17
3.90E-17
3.74E-17
3.48E-17
3.42E-17
Ytterbium
Yb-162
5.15E-18
4.70E-18
4.35E-18
4.14E-18
3.75E-18
3.68E-18
Yb-163
1.64E-17
1.51E-17
1.42E-17
1.36E-17
1.26E-17
1.24E-17
Yb-164
8.27E-19
7.09E-19
6.38E-19
5.92E-19
5.18E-19
5.06E-19
Yb-165
6.83E-18
6.21E-18
5.82E-18
5.53E-18
5.05E-18
4.96E-18
Yb-166
1.21E-18
1.02E-18
9.05E-19
8.34E-19
7.11E-19
6.94E-19
Yb-167
4.86E-18
4.34E-18
3.98E-18
3.77E-18
3.36E-18
3.29E-18
Yb-169
6.14E-18
5.48E-18
5.04E-18
4.76E-18
4.25E-18
4.16E-18
Yb-175
9.84E-19
9.00E-19
8.41E-19
8.05E-19
7.38E-19
7.23E-19
Yb-177
4.79E-18
4.45E-18
4.23E-18
4.02E-18
3.72E-18
3.66E-18
Yb-178
1.06E-18
9.69E-19
9.09E-19
8.70E-19
8.01E-19
7.85E-19
Yb-179
2.33E-17
2.15E-17
2.02E-17
1.93E-17
1.78E-17
1.75E-17
Lutetium
Lu-165
2.47E-17
2.28E-17
2.15E-17
2.06E-17
1.90E-17
1.87E-17
Lu-167
3.63E-17
3.37E-17
3.19E-17
3.08E-17
2.86E-17
2.82E-17
Lu-169
2.85E-17
2.64E-17
2.51E-17
2.40E-17
2.22E-17
2.19E-17
Lu-169m
1.52E-23
9.78E-24
5.71E-24
5.14E-24
2.08E-24
1.93E-24
Lu-170
5.38E-17
5.02E-17
4.77E-17
4.61E-17
4.31E-17
4.25E-17
Lu-171
1.41E-17
1.29E-17
1.22E-17
1.16E-17
1.06E-17
1.04E-17
Lu-171m
5.01E-21
4.33E-21
3.91E-21
3.66E-21
3.14E-21
3.06E-21
Lu-172
4.32E-17
3.99E-17
3.81E-17
3.62E-17
3.36E-17
3.30E-17
Lu-172m
2.03E-23
1.51E-23
1.18E-23
1.06E-23
7.87E-24
7.62E-24
Lu-173
3.36E-18
2.97E-18
2.73E-18
2.58E-18
2.30E-18
2.25E-18
Lu-174
2.14E-18
1.92E-18
1.80E-18
1.70E-18
1.55E-18
1.52E-18
Lu-174m
9.03E-19
7.75E-19
7.00E-19
6.51E-19
5.65E-19
5.52E-19
Lu-176
1.10E-17
1.00E-17
9.37E-18
8.94E-18
8.18E-18
8.01E-18
Lu-176m
8.04E-19
7.37E-19
6.98E-19
6.62E-19
6.07E-19
5.97E-19
Lu-177
8.62E-19
7.87E-19
7.37E-19
7.02E-19
6.39E-19
6.26E-19
Lu-177m
2.21E-17
2.02E-17
1.89E-17
1.80E-17
1.64E-17
1.61E-17
Lu-178
3.85E-18
3.58E-18
3.42E-18
3.27E-18
3.04E-18
2.99E-18
Lu-178m
2.40E-17
2.20E-17
2.05E-17
1.96E-17
1.80E-17
1.76E-17
Lu-179
1.32E-18
1.22E-18
1.16E-18
1.10E-18
1.02E-18
9.99E-19
Lu-180
3.43E-17
3.18E-17
3.03E-17
2.89E-17
2.69E-17
2.64E-17
Lu-181
1.40E-17
1.29E-17
1.22E-17
1.16E-17
1.07E-17
1.05E-17
Hafnium
Hf-167
1.49E-17
1.37E-17
1.28E-17
1.22E-17
1.13E-17
1.10E-17
Hf-169
1.46E-17
1.34E-17
1.25E-17
1.20E-17
1.10E-17
1.08E-17
Hf-170
9.43E-18
8.62E-18
8.02E-18
7.66E-18
6.99E-18
6.86E-18
Hf-172
1.58E-18
1.37E-18
1.23E-18
1.15E-18
1.00E-18
9.77E-19
Hf-173
8.33E-18
7.59E-18
7.05E-18
6.72E-18
6.10E-18
5.98E-18
Hf-174
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
113
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hf-175
7.71E-18
6.99E-18
6.51E-18
6.22E-18
5.68E-18
5.56E-18
Hf-177m
5.14E-17
4.69E-17
4.39E-17
4.19E-17
3.84E-17
3.76E-17
Hf-178m
5.10E-17
4.68E-17
4.37E-17
4.18E-17
3.84E-17
3.77E-17
Hf-179m
2.05E-17
1.88E-17
1.75E-17
1.67E-17
1.53E-17
1.50E-17
Hf-180m
2.24E-17
2.05E-17
1.91E-17
1.83E-17
1.68E-17
1.64E-17
Hf-181
1.22E-17
1.12E-17
1.04E-17
9.97E-18
9.15E-18
8.97E-18
Hf-182
5.44E-18
4.96E-18
4.66E-18
4.45E-18
4.07E-18
3.98E-18
Hf-182m
2.05E-17
1.88E-17
1.76E-17
1.68E-17
1.55E-17
1.52E-17
Hf-183
1.80E-17
1.66E-17
1.57E-17
1.49E-17
1.38E-17
1.35E-17
Hf-184
5.40E-18
4.94E-18
4.60E-18
4.40E-18
4.00E-18
3.93E-18
Tantalum
Ta-170
2.76E-17
2.54E-17
2.39E-17
2.29E-17
2.11E-17
2.07E-17
Ta-172
3.83E-17
3.54E-17
3.36E-17
3.21E-17
2.98E-17
2.92E-17
Ta-173
1.25E-17
1.15E-17
1.08E-17
1.03E-17
9.51E-18
9.35E-18
Ta-174
2.20E-17
2.03E-17
1.91E-17
1.83E-17
1.70E-17
1.67E-17
Ta-175
2.39E-17
2.21E-17
2.09E-17
2.00E-17
1.86E-17
1.82E-17
Ta-176
4.76E-17
4.43E-17
4.21E-17
4.06E-17
3.79E-17
3.73E-17
Ta-177
1.10E-18
9.65E-19
8.78E-19
8.22E-19
7.20E-19
7.04E-19
Ta-178
2.29E-18
2.07E-18
1.93E-18
1.83E-18
1.66E-18
1.63E-18
Ta-178m
2.57E-17
2.34E-17
2.19E-17
2.09E-17
1.91E-17
1.87E-17
Ta-179
3.56E-19
3.02E-19
2.70E-19
2.50E-19
2.13E-19
2.08E-19
Ta-180
7.46E-19
6.41E-19
5.78E-19
5.38E-19
4.64E-19
4.53E-19
Ta-182
2.83E-17
2.62E-17
2.51E-17
2.39E-17
2.21E-17
2.18E-17
Ta-182m
5.39E-18
4.93E-18
4.55E-18
4.34E-18
3.91E-18
3.83E-18
Ta-183
6.34E-18
5.76E-18
5.36E-18
5.11E-18
4.63E-18
4.54E-18
Ta-184
3.61E-17
3.32E-17
3.14E-17
2.99E-17
2.76E-17
2.71E-17
Ta-185
4.15E-18
3.81E-18
3.57E-18
3.40E-18
3.10E-18
3.04E-18
Ta-186
3.41E-17
3.14E-17
2.96E-17
2.82E-17
2.61E-17
2.56E-17
Tungsten
W-177
1.99E-17
1.83E-17
1.72E-17
1.64E-17
1.51E-17
1.48E-17
W-178
2.21E-19
1.89E-19
1.70E-19
1.58E-19
1.35E-19
1.31E-19
W-179
7.35E-19
6.25E-19
5.59E-19
5.19E-19
4.43E-19
4.32E-19
W-179m
9.98E-19
8.84E-19
8.14E-19
7.68E-19
6.81E-19
6.65E-19
W-181
5.88E-19
5.03E-19
4.52E-19
4.20E-19
3.59E-19
3.50E-19
W-185
1.02E-19
9.46E-20
9.07E-20
8.60E-20
7.98E-20
7.85E-20
W-185m
4.67E-19
4.24E-19
3.90E-19
3.71E-19
3.31E-19
3.24E-19
W-187
1.04E-17
9.62E-18
9.04E-18
8.63E-18
7.95E-18
7.80E-18
W-188
1.12E-19
1.03E-19
9.84E-20
9.35E-20
8.63E-20
8.47E-20
W-190
3.20E-18
2.91E-18
2.68E-18
2.55E-18
2.28E-18
2.23E-18
Rhenium
Re-178
3.73E-17
3.47E-17
3.28E-17
3.16E-17
2.94E-17
2.89E-17
Re-179
2.39E-17
2.20E-17
2.07E-17
1.99E-17
1.84E-17
1.80E-17
Re-180
2.68E-17
2.47E-17
2.36E-17
2.24E-17
2.07E-17
2.03E-17
Re-181
1.78E-17
1.63E-17
1.53E-17
1.46E-17
1.34E-17
1.32E-17
Re-182
3.90E-17
3.60E-17
3.42E-17
3.26E-17
3.01E-17
2.95E-17
Re-182m
2.63E-17
2.43E-17
2.32E-17
2.21E-17
2.05E-17
2.02E-17
114
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Re-183
2.84E-18
2.55E-18
2.34E-18
2.21E-18
1.96E-18
1.92E-18
Re-184
1.97E-17
1.82E-17
1.73E-17
1.64E-17
1.52E-17
1.49E-17
Re-184m
8.21E-18
7.52E-18
7.10E-18
6.74E-18
6.18E-18
6.06E-18
Re-186
7.82E-19
7.21E-19
6.76E-19
6.44E-19
5.87E-19
5.77E-19
Re-186m
2.16E-19
1.84E-19
1.65E-19
1.54E-19
1.32E-19
1.28E-19
Re-187
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Re-188
2.55E-18
2.37E-18
2.24E-18
2.14E-18
1.98E-18
1.95E-18
Re-188m
1.15E-18
1.01E-18
9.23E-19
8.72E-19
7.59E-19
7.41E-19
Re-189
1.58E-18
1.45E-18
1.36E-18
1.30E-18
1.19E-18
1.17E-18
Re-190
3.15E-17
2.90E-17
2.73E-17
2.61E-17
2.41E-17
2.36E-17
Re-190m
2.15E-17
1.98E-17
1.86E-17
1.78E-17
1.64E-17
1.61E-17
Osmium
Os-180
2.39E-18
2.15E-18
2.00E-18
1.90E-18
1.71E-18
1.67E-18
Os-181
3.02E-17
2.80E-17
2.65E-17
2.53E-17
2.35E-17
2.30E-17
Os-182
9.47E-18
8.66E-18
8.06E-18
7.72E-18
7.06E-18
6.92E-18
Os-183
1.37E-17
1.25E-17
1.17E-17
1.11E-17
1.02E-17
9.98E-18
Os-183m
2.21E-17
2.04E-17
1.95E-17
1.86E-17
1.72E-17
1.69E-17
Os-185
1.55E-17
1.43E-17
1.35E-17
1.28E-17
1.18E-17
1.16E-17
Os-186
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Os-189m
6.40E-23
4.30E-23
2.59E-23
2.36E-23
8.35E-24
7.69E-24
Os-190m
3.66E-17
3.36E-17
3.14E-17
3.01E-17
2.77E-17
2.72E-17
Os-191
1.51E-18
1.37E-18
1.25E-18
1.20E-18
1.06E-18
1.04E-18
Os-191m
9.25E-20
8.08E-20
7.34E-20
6.91E-20
5.95E-20
5.79E-20
Os-193
1.88E-18
1.72E-18
1.61E-18
1.54E-18
1.41E-18
1.39E-18
Os-194
2.81E-20
2.25E-20
1.94E-20
1.75E-20
1.46E-20
1.42E-20
Os-196
2.21E-18
2.03E-18
1.90E-18
1.82E-18
1.67E-18
1.63E-18
Iridium
Ir-180
3.88E-17
3.57E-17
3.37E-17
3.22E-17
2.97E-17
2.91E-17
Ir-182
3.39E-17
3.12E-17
2.94E-17
2.81E-17
2.60E-17
2.55E-17
Ir-183
2.58E-17
2.39E-17
2.25E-17
2.17E-17
2.01E-17
1.98E-17
Ir-184
4.38E-17
4.05E-17
3.83E-17
3.67E-17
3.39E-17
3.33E-17
Ir-185
1.81E-17
1.68E-17
1.58E-17
1.53E-17
1.42E-17
1.39E-17
Ir-186
3.67E-17
3.39E-17
3.20E-17
3.07E-17
2.84E-17
2.79E-17
Ir-186m
2.75E-17
2.55E-17
2.41E-17
2.31E-17
2.15E-17
2.11E-17
Ir-187
7.05E-18
6.46E-18
6.09E-18
5.78E-18
5.30E-18
5.20E-18
Ir-188
4.44E-17
4.14E-17
3.92E-17
3.80E-17
3.55E-17
3.49E-17
Ir-189
1.37E-18
1.21E-18
1.12E-18
1.06E-18
9.31E-19
9.09E-19
Ir-190
3.36E-17
3.09E-17
2.89E-17
2.77E-17
2.55E-17
2.50E-17
Ir-190m
7.09E-23
4.89E-23
3.02E-23
2.76E-23
9.55E-24
8.77E-24
Ir-190n
9.24E-19
8.13E-19
7.41E-19
6.99E-19
6.07E-19
5.92E-19
Ir-191m
1.35E-18
1.22E-18
1.12E-18
1.07E-18
9.41E-19
9.21E-19
Ir-192
1.90E-17
1.74E-17
1.63E-17
1.56E-17
1.44E-17
1.41E-17
Ir-192m
1.51E-21
1.31E-21
1.17E-21
1.10E-21
9.45E-22
9.23E-22
Ir-192n
1.11E-20
9.85E-21
8.91E-21
8.46E-21
7.29E-21
7.13E-21
Ir-193m
5.10E-21
4.47E-21
4.06E-21
3.83E-21
3.29E-21
3.20E-21
Ir-194
3.38E-18
3.12E-18
2.97E-18
2.83E-18
2.63E-18
2.58E-18
115
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ir-194m
5.39E-17
4.95E-17
4.64E-17
4.45E-17
4.10E-17
4.02E-17
Ir-195
1.39E-18
1.26E-18
1.17E-18
1.11E-18
9.93E-19
9.72E-19
Ir-195m
8.62E-18
7.89E-18
7.39E-18
7.06E-18
6.48E-18
6.35E-18
Ir-196
7.42E-18
6.86E-18
6.51E-18
6.22E-18
5.77E-18
5.67E-18
Ir-196m
5.72E-17
5.26E-17
4.92E-17
4.72E-17
4.35E-17
4.26E-17
Platinum
Pt-184
1.56E-17
1.42E-17
1.33E-17
1.27E-17
1.16E-17
1.13E-17
Pt-186
1.52E-17
1.40E-17
1.32E-17
1.25E-17
1.15E-17
1.13E-17
Pt-187
1.34E-17
1.23E-17
1.16E-17
1.11E-17
1.01E-17
9.94E-18
Pt-188
4.17E-18
3.78E-18
3.51E-18
3.35E-18
3.02E-18
2.95E-18
Pt-189
1.04E-17
9.52E-18
8.93E-18
8.52E-18
7.80E-18
7.65E-18
Pt-190
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pt-191
6.11E-18
5.55E-18
5.15E-18
4.92E-18
4.46E-18
4.36E-18
Pt-193
1.72E-22
1.20E-22
7.64E-23
7.03E-23
2.43E-23
2.23E-23
Pt-193m
1.73E-19
1.53E-19
1.40E-19
1.33E-19
1.15E-19
1.12E-19
Pt-195m
1.23E-18
1.09E-18
1.00E-18
9.51E-19
8.30E-19
8.10E-19
Pt-197
6.42E-19
5.84E-19
5.47E-19
5.20E-19
4.69E-19
4.59E-19
Pt-197m
1.62E-18
1.47E-18
1.36E-18
1.30E-18
1.17E-18
1.14E-18
Pt-199
5.30E-18
4.88E-18
4.59E-18
4.39E-18
4.05E-18
3.97E-18
Pt-200
1.30E-18
1.18E-18
1.10E-18
1.05E-18
9.44E-19
9.24E-19
Pt-202
9.76E-19
9.10E-19
8.74E-19
8.33E-19
7.78E-19
7.66E-19
Gold
Au-186
3.59E-17
3.31E-17
3.12E-17
2.99E-17
2.77E-17
2.71E-17
Au-187
2.31E-17
2.15E-17
2.03E-17
1.95E-17
1.81E-17
1.78E-17
Au-190
5.05E-17
4.70E-17
4.45E-17
4.32E-17
4.03E-17
3.96E-17
Au-191
1.31E-17
1.20E-17
1.13E-17
1.08E-17
9.87E-18
9.68E-18
Au-192
4.15E-17
3.86E-17
3.65E-17
3.53E-17
3.29E-17
3.24E-17
Au-193
3.30E-18
2.99E-18
2.77E-18
2.64E-18
2.37E-18
2.32E-18
Au-193m
4.38E-18
3.98E-18
3.74E-18
3.57E-18
3.26E-18
3.19E-18
Au-194
2.26E-17
2.09E-17
1.98E-17
1.90E-17
1.76E-17
1.73E-17
Au-195
1.36E-18
1.21E-18
1.11E-18
1.05E-18
9.14E-19
8.92E-19
Au-195m
4.45E-18
4.05E-18
3.81E-18
3.63E-18
3.32E-18
3.25E-18
Au-196
1.06E-17
9.68E-18
9.04E-18
8.65E-18
7.92E-18
7.75E-18
Au-196m
4.97E-18
4.55E-18
4.21E-18
4.03E-18
3.62E-18
3.55E-18
Au-198
9.71E-18
8.91E-18
8.32E-18
7.98E-18
7.35E-18
7.20E-18
Au-198m
1.15E-17
1.04E-17
9.76E-18
9.31E-18
8.45E-18
8.28E-18
Au-199
2.08E-18
1.92E-18
1.78E-18
1.71E-18
1.54E-18
1.51E-18
Au-200
7.26E-18
6.73E-18
6.41E-18
6.13E-18
5.69E-18
5.60E-18
Au-200m
4.56E-17
4.20E-17
3.95E-17
3.77E-17
3.47E-17
3.40E-17
Au-201
1.31E-18
1.21E-18
1.15E-18
1.10E-18
1.01E-18
9.95E-19
Au-202
5.79E-18
5.37E-18
5.12E-18
4.89E-18
4.55E-18
4.47E-18
Mercury
Hg-190
3.95E-18
3.62E-18
3.33E-18
3.19E-18
2.85E-18
2.79E-18
Hg-191m
3.31E-17
3.05E-17
2.88E-17
2.76E-17
2.55E-17
2.50E-17
Hg-192
5.73E-18
5.21E-18
4.86E-18
4.63E-18
4.19E-18
4.10E-18
Hg-193
1.82E-17
1.68E-17
1.59E-17
1.52E-17
1.41E-17
1.38E-17
116
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hg-193m
2.26E-17
2.09E-17
1.98E-17
1.89E-17
1.75E-17
1.72E-17
Hg-194
2.61E-22
1.91E-22
1.28E-22
1.19E-22
4.12E-23
3.77E-23
Hg-195
4.10E-18
3.75E-18
3.53E-18
3.35E-18
3.06E-18
3.00E-18
Hg-195m
4.31E-18
3.93E-18
3.68E-18
3.51E-18
3.21E-18
3.14E-18
Hg-197
1.21E-18
1.07E-18
9.84E-19
9.35E-19
8.14E-19
7.93E-19
Hg-197m
1.89E-18
1.73E-18
1.60E-18
1.53E-18
1.37E-18
1.34E-18
Hg-199m
3.80E-18
3.49E-18
3.23E-18
3.10E-18
2.79E-18
2.74E-18
Hg-203
5.46E-18
4.98E-18
4.68E-18
4.47E-18
4.09E-18
4.01E-18
Hg-205
8.67E-19
8.05E-19
7.71E-19
7.34E-19
6.83E-19
6.71E-19
Hg-206
3.25E-18
2.98E-18
2.80E-18
2.68E-18
2.46E-18
2.41E-18
Hg-207
5.88E-17
5.47E-17
5.20E-17
5.01E-17
4.67E-17
4.59E-17
Thallium
Tl-190
3.32E-17
3.06E-17
2.88E-17
2.76E-17
2.55E-17
2.50E-17
Tl-190m
5.77E-17
5.32E-17
5.01E-17
4.79E-17
4.42E-17
4.34E-17
Tl-194
2.21E-17
2.03E-17
1.90E-17
1.82E-17
1.68E-17
1.65E-17
Tl-194m
5.77E-17
5.32E-17
5.01E-17
4.78E-17
4.41E-17
4.33E-17
Tl-195
2.63E-17
2.45E-17
2.32E-17
2.23E-17
2.07E-17
2.04E-17
Tl-196
4.12E-17
3.82E-17
3.61E-17
3.48E-17
3.24E-17
3.18E-17
Tl-197
9.89E-18
9.11E-18
8.58E-18
8.21E-18
7.55E-18
7.41E-18
Tl-198
4.36E-17
4.05E-17
3.83E-17
3.70E-17
3.44E-17
3.38E-17
Tl-198m
2.77E-17
2.54E-17
2.38E-17
2.28E-17
2.10E-17
2.06E-17
Tl-199
5.31E-18
4.84E-18
4.53E-18
4.32E-18
3.93E-18
3.84E-18
Tl-200
2.91E-17
2.69E-17
2.55E-17
2.43E-17
2.25E-17
2.21E-17
Tl-201
1.65E-18
1.49E-18
1.37E-18
1.30E-18
1.15E-18
1.12E-18
Tl-202
1.04E-17
9.55E-18
8.88E-18
8.52E-18
7.81E-18
7.65E-18
Tl-204
2.69E-19
2.49E-19
2.38E-19
2.26E-19
2.09E-19
2.06E-19
Tl-206
7.54E-19
7.02E-19
6.74E-19
6.41E-19
5.98E-19
5.89E-19
Tl-206m
5.51E-17
5.07E-17
4.80E-17
4.57E-17
4.22E-17
4.14E-17
Tl-207
7.23E-19
6.73E-19
6.46E-19
6.14E-19
5.73E-19
5.63E-19
Tl-208
7.03E-17
6.58E-17
6.23E-17
6.08E-17
5.69E-17
5.61E-17
Tl-209
4.77E-17
4.44E-17
4.19E-17
4.05E-17
3.77E-17
3.70E-17
Tl-210
6.29E-17
5.84E-17
5.56E-17
5.33E-17
4.96E-17
4.88E-17
Lead
Pb-194
2.37E-17
2.19E-17
2.07E-17
1.99E-17
1.84E-17
1.81E-17
Pb-195m
3.76E-17
3.46E-17
3.27E-17
3.12E-17
2.88E-17
2.82E-17
Pb-196
1.08E-17
9.92E-18
9.29E-18
8.88E-18
8.12E-18
7.95E-18
Pb-197
3.36E-17
3.11E-17
2.95E-17
2.83E-17
2.63E-17
2.58E-17
Pb-197m
2.63E-17
2.42E-17
2.28E-17
2.18E-17
2.01E-17
1.97E-17
Pb-198
9.59E-18
8.77E-18
8.21E-18
7.84E-18
7.16E-18
7.02E-18
Pb-199
2.28E-17
2.11E-17
1.99E-17
1.91E-17
1.77E-17
1.74E-17
Pb-200
4.18E-18
3.82E-18
3.54E-18
3.38E-18
3.04E-18
2.97E-18
Pb-201
1.68E-17
1.55E-17
1.46E-17
1.39E-17
1.28E-17
1.26E-17
Pb-201m
8.29E-18
7.63E-18
7.17E-18
6.85E-18
6.31E-18
6.19E-18
Pb-202
2.95E-22
2.02E-22
1.25E-22
1.14E-22
4.01E-23
3.68E-23
Pb-202m
4.53E-17
4.18E-17
3.97E-17
3.78E-17
3.49E-17
3.43E-17
Pb-203
6.82E-18
6.20E-18
5.81E-18
5.54E-18
5.04E-18
4.93E-18
117
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Pb-204m
4.68E-17
4.32E-17
4.12E-17
3.91E-17
3.62E-17
3.56E-17
Pb-205
2.99E-22
2.04E-22
1.26E-22
1.16E-22
4.06E-23
3.72E-23
Pb-209
1.89E-19
1.75E-19
1.68E-19
1.60E-19
1.48E-19
1.46E-19
Pb-210
2.44E-20
1.95E-20
1.68E-20
1.51E-20
1.24E-20
1.21E-20
Pb-211
2.06E-18
1.91E-18
1.81E-18
1.73E-18
1.60E-18
1.57E-18
Pb-212
3.23E-18
2.94E-18
2.76E-18
2.63E-18
2.39E-18
2.34E-18
Pb-214
5.95E-18
5.44E-18
5.10E-18
4.88E-18
4.47E-18
4.38E-18
Bismuth
Bi-197
3.81E-17
3.52E-17
3.35E-17
3.20E-17
2.97E-17
2.91E-17
Bi-200
5.54E-17
5.10E-17
4.83E-17
4.60E-17
4.25E-17
4.17E-17
Bi-201
3.78E-17
3.51E-17
3.34E-17
3.20E-17
2.97E-17
2.92E-17
Bi-202
6.19E-17
5.72E-17
5.43E-17
5.18E-17
4.79E-17
4.71E-17
Bi-203
5.18E-17
4.82E-17
4.58E-17
4.40E-17
4.10E-17
4.03E-17
Bi-204
6.49E-17
6.01E-17
5.72E-17
5.45E-17
5.05E-17
4.97E-17
Bi-205
3.67E-17
3.41E-17
3.24E-17
3.11E-17
2.90E-17
2.85E-17
Bi-206
7.31E-17
6.77E-17
6.42E-17
6.13E-17
5.69E-17
5.59E-17
Bi-207
3.43E-17
3.17E-17
3.01E-17
2.87E-17
2.66E-17
2.61E-17
Bi-208
5.28E-17
4.97E-17
4.71E-17
4.62E-17
4.35E-17
4.29E-17
Bi-210
4.82E-19
4.48E-19
4.30E-19
4.09E-19
3.81E-19
3.74E-19
Bi-210m
5.95E-18
5.43E-18
5.10E-18
4.88E-18
4.47E-18
4.38E-18
Bi-211
1.09E-18
9.92E-19
9.27E-19
8.89E-19
8.15E-19
7.98E-19
Bi-212
3.09E-18
2.87E-18
2.73E-18
2.61E-18
2.43E-18
2.38E-18
Bi-212n
7.45E-19
6.94E-19
6.66E-19
6.34E-19
5.92E-19
5.82E-19
Bi-213
3.50E-18
3.22E-18
3.02E-18
2.89E-18
2.66E-18
2.61E-18
Bi-214
3.33E-17
3.10E-17
2.94E-17
2.84E-17
2.64E-17
2.60E-17
Bi-215
6.61E-18
6.09E-18
5.76E-18
5.50E-18
5.08E-18
4.98E-18
Bi-216
1.96E-17
1.80E-17
1.69E-17
1.62E-17
1.50E-17
1.47E-17
Polonium
Po-203
3.61E-17
3.35E-17
3.19E-17
3.04E-17
2.82E-17
2.77E-17
Po-204
2.56E-17
2.36E-17
2.24E-17
2.13E-17
1.96E-17
1.92E-17
Po-205
3.50E-17
3.24E-17
3.09E-17
2.94E-17
2.73E-17
2.68E-17
Po-206
2.66E-17
2.45E-17
2.32E-17
2.21E-17
2.04E-17
2.00E-17
Po-207
2.85E-17
2.64E-17
2.52E-17
2.39E-17
2.21E-17
2.18E-17
Po-208
4.77E-22
4.39E-22
4.13E-22
3.94E-22
3.63E-22
3.56E-22
Po-209
1.38E-19
1.27E-19
1.20E-19
1.14E-19
1.05E-19
1.03E-19
Po-210
2.21E-22
2.05E-22
1.95E-22
1.85E-22
1.71E-22
1.68E-22
Po-211
1.86E-19
1.72E-19
1.63E-19
1.55E-19
1.44E-19
1.41E-19
Po-212
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Po-212m
1.62E-18
1.52E-18
1.44E-18
1.41E-18
1.32E-18
1.30E-18
Po-213
8.54E-22
7.90E-22
7.52E-22
7.13E-22
6.60E-22
6.48E-22
Po-214
1.89E-21
1.75E-21
1.67E-21
1.58E-21
1.46E-21
1.44E-21
Po-215
4.10E-21
3.76E-21
3.50E-21
3.36E-21
3.10E-21
3.04E-21
Po-216
3.48E-22
3.22E-22
3.07E-22
2.91E-22
2.70E-22
2.65E-22
Po-218
8.47E-24
7.85E-24
7.54E-24
7.14E-24
6.63E-24
6.52E-24
Astatine
At-204
5.40E-17
4.97E-17
4.67E-17
4.47E-17
4.12E-17
4.04E-17
118
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
At-205
2.58E-17
2.39E-17
2.26E-17
2.16E-17
2.00E-17
1.96E-17
At-206
5.67E-17
5.23E-17
4.94E-17
4.72E-17
4.36E-17
4.28E-17
At-207
4.43E-17
4.11E-17
3.90E-17
3.73E-17
3.46E-17
3.40E-17
At-208
6.79E-17
6.28E-17
5.95E-17
5.69E-17
5.27E-17
5.18E-17
At-209
5.14E-17
4.74E-17
4.49E-17
4.28E-17
3.96E-17
3.88E-17
At-210
6.46E-17
6.00E-17
5.72E-17
5.48E-17
5.10E-17
5.02E-17
At-211
6.42E-19
5.78E-19
5.34E-19
5.08E-19
4.49E-19
4.39E-19
At-215
3.95E-21
3.62E-21
3.38E-21
3.24E-21
2.98E-21
2.92E-21
At-216
4.86E-20
4.40E-20
4.08E-20
3.90E-20
3.49E-20
3.41E-20
At-217
5.48E-21
5.00E-21
4.70E-21
4.48E-21
4.10E-21
4.02E-21
At-218
1.96E-21
1.83E-21
1.76E-21
1.68E-21
1.57E-21
1.55E-21
At-219
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
At-220
1.25E-17
1.15E-17
1.08E-17
1.03E-17
9.54E-18
9.35E-18
Radon
Rn-207
2.26E-17
2.08E-17
1.96E-17
1.87E-17
1.73E-17
1.70E-17
Rn-209
2.66E-17
2.46E-17
2.32E-17
2.22E-17
2.06E-17
2.02E-17
Rn-210
1.36E-18
1.26E-18
1.19E-18
1.13E-18
1.04E-18
1.02E-18
Rn-211
4.17E-17
3.86E-17
3.67E-17
3.50E-17
3.25E-17
3.19E-17
Rn-212
7.77E-21
7.17E-21
6.78E-21
6.45E-21
5.97E-21
5.86E-21
Rn-215
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-216
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-217
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-218
1.75E-20
1.61E-20
1.51E-20
1.45E-20
1.34E-20
1.31E-20
Rn-219
1.35E-18
1.23E-18
1.15E-18
1.10E-18
1.01E-18
9.92E-19
Rn-220
1.45E-20
1.34E-20
1.25E-20
1.20E-20
1.11E-20
1.09E-20
Rn-222
9.02E-21
8.30E-21
7.74E-21
7.43E-21
6.85E-21
6.72E-21
Rn-223
8.40E-18
7.75E-18
7.31E-18
6.98E-18
6.45E-18
6.33E-18
Francium
Fr-212
2.51E-17
2.33E-17
2.22E-17
2.12E-17
1.96E-17
1.93E-17
Fr-219
8.19E-20
7.51E-20
7.01E-20
6.72E-20
6.17E-20
6.05E-20
Fr-220
1.80E-19
1.63E-19
1.51E-19
1.44E-19
1.28E-19
1.26E-19
Fr-221
6.54E-19
5.97E-19
5.60E-19
5.34E-19
4.87E-19
4.77E-19
Fr-222
4.84E-18
4.46E-18
4.21E-18
4.01E-18
3.69E-18
3.62E-18
Fr-223
1.40E-18
1.26E-18
1.18E-18
1.11E-18
1.01E-18
9.87E-19
Fr-224
1.35E-17
1.25E-17
1.19E-17
1.14E-17
1.06E-17
1.04E-17
Fr-227
1.10E-17
1.01E-17
9.50E-18
9.08E-18
8.35E-18
8.19E-18
Radium
Ra-219
3.84E-18
3.51E-18
3.29E-18
3.14E-18
2.88E-18
2.82E-18
Ra-220
1.08E-19
9.97E-20
9.29E-20
8.92E-20
8.22E-20
8.05E-20
Ra-221
7.46E-19
6.88E-19
6.35E-19
6.09E-19
5.47E-19
5.37E-19
Ra-222
2.12E-19
1.94E-19
1.82E-19
1.74E-19
1.60E-19
1.56E-19
Ra-223
2.96E-18
2.70E-18
2.52E-18
2.41E-18
2.18E-18
2.14E-18
Ra-224
2.36E-19
2.15E-19
2.02E-19
1.93E-19
1.76E-19
1.73E-19
Ra-225
1.69E-19
1.40E-19
1.24E-19
1.13E-19
9.76E-20
9.53E-20
Ra-226
1.62E-19
1.48E-19
1.39E-19
1.32E-19
1.20E-19
1.18E-19
Ra-227
3.65E-18
3.35E-18
3.14E-18
3.01E-18
2.76E-18
2.71E-18
119
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ra-228
1.62E-21
1.27E-21
1.05E-21
1.01E-21
5.59E-22
5.28E-22
Ra-230
1.85E-18
1.69E-18
1.58E-18
1.51E-18
1.38E-18
1.35E-18
Actinium
Ac-223
3.78E-19
3.45E-19
3.22E-19
3.08E-19
2.81E-19
2.75E-19
Ac-224
4.81E-18
4.40E-18
4.10E-18
3.91E-18
3.54E-18
3.47E-18
Ac-225
2.90E-19
2.65E-19
2.46E-19
2.35E-19
2.11E-19
2.07E-19
Ac-226
3.17E-18
2.91E-18
2.73E-18
2.60E-18
2.37E-18
2.33E-18
Ac-227
2.44E-21
2.15E-21
1.96E-21
1.87E-21
1.61E-21
1.58E-21
Ac-228
1.98E-17
1.83E-17
1.75E-17
1.66E-17
1.54E-17
1.51E-17
Ac-230
1.33E-17
1.24E-17
1.18E-17
1.13E-17
1.06E-17
1.04E-17
Ac-231
1.02E-17
9.30E-18
8.73E-18
8.34E-18
7.64E-18
7.48E-18
Ac-232
2.64E-17
2.46E-17
2.33E-17
2.26E-17
2.11E-17
2.08E-17
Ac-233
1.29E-17
1.19E-17
1.11E-17
1.07E-17
9.86E-18
9.67E-18
Thorium
Th-223
1.41E-18
1.28E-18
1.19E-18
1.13E-18
1.01E-18
9.95E-19
Th-224
5.06E-19
4.66E-19
4.34E-19
4.15E-19
3.78E-19
3.71E-19
Th-226
1.64E-19
1.50E-19
1.39E-19
1.33E-19
1.20E-19
1.18E-19
Th-227
2.73E-18
2.48E-18
2.33E-18
2.22E-18
2.02E-18
1.98E-18
Th-228
4.21E-20
3.82E-20
3.54E-20
3.38E-20
3.02E-20
2.96E-20
Th-229
1.69E-18
1.54E-18
1.43E-18
1.36E-18
1.22E-18
1.19E-18
Th-230
7.68E-21
6.82E-21
6.21E-21
5.92E-21
5.07E-21
4.95E-21
Th-231
2.70E-19
2.42E-19
2.24E-19
2.13E-19
1.88E-19
1.84E-19
Th-232
3.96E-21
3.43E-21
3.08E-21
2.92E-21
2.41E-21
2.34E-21
Th-233
1.27E-18
1.17E-18
1.11E-18
1.06E-18
9.76E-19
9.59E-19
Th-234
1.81E-19
1.63E-19
1.50E-19
1.43E-19
1.26E-19
1.24E-19
Th-235
2.23E-18
2.07E-18
1.97E-18
1.87E-18
1.74E-18
1.71E-18
Th-236
1.16E-18
1.07E-18
1.01E-18
9.66E-19
8.90E-19
8.74E-19
Protactinium
Pa-227
3.63E-19
3.26E-19
3.00E-19
2.86E-19
2.53E-19
2.48E-19
Pa-228
3.01E-17
2.79E-17
2.65E-17
2.52E-17
2.34E-17
2.30E-17
Pa-229
1.18E-18
1.07E-18
9.88E-19
9.43E-19
8.41E-19
8.24E-19
Pa-230
1.48E-17
1.37E-17
1.30E-17
1.23E-17
1.14E-17
1.12E-17
Pa-231
7.58E-19
6.88E-19
6.43E-19
6.15E-19
5.61E-19
5.49E-19
Pa-232
2.11E-17
1.95E-17
1.86E-17
1.77E-17
1.64E-17
1.61E-17
Pa-233
4.86E-18
4.43E-18
4.15E-18
3.97E-18
3.62E-18
3.55E-18
Pa-234
3.28E-17
3.04E-17
2.89E-17
2.75E-17
2.54E-17
2.50E-17
Pa-234m
1.68E-18
1.56E-18
1.50E-18
1.43E-18
1.33E-18
1.31E-18
Pa-235
6.36E-19
5.92E-19
5.68E-19
5.41E-19
5.04E-19
4.96E-19
Pa-236
2.12E-17
1.97E-17
1.86E-17
1.79E-17
1.67E-17
1.64E-17
Pa-237
1.47E-17
1.36E-17
1.29E-17
1.23E-17
1.14E-17
1.12E-17
Uranium
U-227
2.50E-18
2.28E-18
2.13E-18
2.04E-18
1.85E-18
1.81E-18
U-228
8.14E-20
7.40E-20
6.88E-20
6.57E-20
5.90E-20
5.78E-20
U-230
2.32E-20
2.10E-20
1.93E-20
1.85E-20
1.63E-20
1.59E-20
U-231
1.34E-18
1.21E-18
1.12E-18
1.07E-18
9.53E-19
9.34E-19
U-232
5.33E-21
4.61E-21
4.12E-21
3.91E-21
3.22E-21
3.14E-21
120
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
U-233
5.35E-21
4.74E-21
4.33E-21
4.12E-21
3.60E-21
3.52E-21
U-234
2.99E-21
2.50E-21
2.19E-21
2.07E-21
1.61E-21
1.57E-21
U-235
3.57E-18
3.29E-18
3.07E-18
2.93E-18
2.66E-18
2.61E-18
U-235m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
U-236
1.80E-21
1.45E-21
1.24E-21
1.18E-21
8.37E-22
8.07E-22
U-237
2.74E-18
2.48E-18
2.30E-18
2.19E-18
1.97E-18
1.93E-18
U-238
1.51E-21
1.23E-21
1.06E-21
1.00E-21
7.30E-22
7.06E-22
U-239
1.41E-18
1.29E-18
1.21E-18
1.15E-18
1.03E-18
1.01E-18
U-240
1.59E-19
1.45E-19
1.36E-19
1.29E-19
1.17E-19
1.15E-19
U-242
1.35E-18
1.24E-18
1.17E-18
1.11E-18
1.02E-18
1.00E-18
Neptunium
Np-232
2.67E-17
2.46E-17
2.34E-17
2.22E-17
2.05E-17
2.01E-17
Np-233
1.72E-18
1.56E-18
1.45E-18
1.38E-18
1.24E-18
1.22E-18
Np-234
2.38E-17
2.21E-17
2.10E-17
2.03E-17
1.89E-17
1.86E-17
Np-235
1.38E-20
1.19E-20
1.07E-20
1.02E-20
8.37E-21
8.16E-21
Np-236
2.83E-18
2.60E-18
2.40E-18
2.30E-18
2.06E-18
2.03E-18
Np-236m
1.01E-18
9.22E-19
8.58E-19
8.19E-19
7.38E-19
7.24E-19
Np-237
4.31E-19
3.86E-19
3.55E-19
3.38E-19
2.99E-19
2.93E-19
Np-238
1.33E-17
1.23E-17
1.18E-17
1.12E-17
1.04E-17
1.02E-17
Np-239
3.85E-18
3.51E-18
3.28E-18
3.13E-18
2.84E-18
2.79E-18
Np-240
2.38E-17
2.20E-17
2.09E-17
1.99E-17
1.84E-17
1.80E-17
Np-240m
8.19E-18
7.57E-18
7.16E-18
6.85E-18
6.34E-18
6.23E-18
Np-241
1.29E-18
1.19E-18
1.12E-18
1.06E-18
9.73E-19
9.56E-19
Np-242
7.33E-18
6.83E-18
6.51E-18
6.24E-18
5.82E-18
5.72E-18
Np-242m
2.12E-17
1.96E-17
1.86E-17
1.77E-17
1.64E-17
1.61E-17
Plutonium
Pu-232
1.17E-18
1.06E-18
9.85E-19
9.42E-19
8.43E-19
8.27E-19
Pu-234
1.26E-18
1.15E-18
1.06E-18
1.02E-18
9.11E-19
8.93E-19
Pu-235
1.75E-18
1.59E-18
1.48E-18
1.41E-18
1.27E-18
1.24E-18
Pu-236
1.98E-21
1.52E-21
1.27E-21
1.21E-21
7.86E-22
7.51E-22
Pu-237
9.05E-19
8.21E-19
7.59E-19
7.25E-19
6.48E-19
6.35E-19
Pu-238
1.50E-21
1.12E-21
9.11E-22
8.76E-22
5.13E-22
4.85E-22
Pu-239
1.85E-21
1.58E-21
1.40E-21
1.34E-21
1.09E-21
1.07E-21
Pu-240
1.47E-21
1.11E-21
9.07E-22
8.70E-22
5.22E-22
4.95E-22
Pu-241
6.36E-23
5.85E-23
5.52E-23
5.25E-23
4.79E-23
4.70E-23
Pu-242
2.92E-21
2.49E-21
2.25E-21
2.16E-21
1.77E-21
1.73E-21
Pu-243
5.93E-19
5.38E-19
5.02E-19
4.78E-19
4.29E-19
4.20E-19
Pu-244
4.48E-19
4.17E-19
3.97E-19
3.82E-19
3.57E-19
3.51E-19
Pu-245
9.32E-18
8.58E-18
8.11E-18
7.73E-18
7.12E-18
6.99E-18
Pu-246
2.81E-18
2.56E-18
2.38E-18
2.27E-18
2.05E-18
2.01E-18
Americium
Am-237
8.03E-18
7.35E-18
6.88E-18
6.58E-18
6.01E-18
5.89E-18
Am-238
1.98E-17
1.84E-17
1.75E-17
1.66E-17
1.54E-17
1.51E-17
Am-239
4.80E-18
4.38E-18
4.08E-18
3.90E-18
3.52E-18
3.45E-18
Am-240
2.28E-17
2.11E-17
2.02E-17
1.91E-17
1.77E-17
1.74E-17
Am-241
3.41E-19
2.92E-19
2.62E-19
2.44E-19
2.08E-19
2.02E-19
121
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Am-242
4.19E-19
3.84E-19
3.59E-19
3.43E-19
3.11E-19
3.05E-19
Am-242m
9.14E-21
7.38E-21
6.41E-21
6.13E-21
4.66E-21
4.51E-21
Am-243
9.67E-19
8.61E-19
7.90E-19
7.51E-19
6.54E-19
6.38E-19
Am-244
1.79E-17
1.66E-17
1.57E-17
1.49E-17
1.38E-17
1.36E-17
Am-244m
1.00E-18
9.33E-19
8.95E-19
8.51E-19
7.92E-19
7.79E-19
Am-245
9.47E-19
8.69E-19
8.19E-19
7.80E-19
7.14E-19
7.00E-19
Am-246
1.69E-17
1.56E-17
1.48E-17
1.40E-17
1.29E-17
1.27E-17
Am-246m
2.24E-17
2.08E-17
1.99E-17
1.89E-17
1.76E-17
1.73E-17
Am-247
3.47E-18
3.18E-18
2.98E-18
2.85E-18
2.60E-18
2.56E-18
Curium
Cm-238
1.55E-18
1.41E-18
1.31E-18
1.25E-18
1.12E-18
1.10E-18
Cm-239
5.41E-18
4.96E-18
4.62E-18
4.41E-18
4.00E-18
3.92E-18
Cm-240
1.97E-21
1.46E-21
1.19E-21
1.15E-21
6.98E-22
6.63E-22
Cm-241
1.10E-17
1.01E-17
9.42E-18
9.04E-18
8.29E-18
8.13E-18
Cm-242
1.68E-21
1.22E-21
9.95E-22
9.58E-22
5.63E-22
5.32E-22
Cm-243
2.75E-18
2.50E-18
2.34E-18
2.23E-18
2.03E-18
1.99E-18
Cm-244
1.74E-21
1.33E-21
1.12E-21
1.08E-21
7.27E-22
6.96E-22
Cm-245
2.03E-18
1.86E-18
1.72E-18
1.65E-18
1.48E-18
1.45E-18
Cm-246
8.19E-20
7.61E-20
7.21E-20
6.96E-20
6.47E-20
6.36E-20
Cm-247
7.28E-18
6.67E-18
6.22E-18
5.97E-18
5.49E-18
5.38E-18
Cm-248
2.96E-17
2.75E-17
2.61E-17
2.52E-17
2.35E-17
2.31E-17
Cm-249
7.36E-19
6.80E-19
6.44E-19
6.14E-19
5.68E-19
5.58E-19
Cm-250
3.02E-16
2.81E-16
2.67E-16
2.58E-16
2.40E-16
2.36E-16
Cm-251
3.07E-18
2.83E-18
2.66E-18
2.55E-18
2.35E-18
2.31E-18
Berkelium
Bk-245
4.77E-18
4.36E-18
4.06E-18
3.88E-18
3.51E-18
3.44E-18
Bk-246
1.88E-17
1.74E-17
1.66E-17
1.57E-17
1.45E-17
1.43E-17
Bk-247
3.09E-18
2.81E-18
2.62E-18
2.51E-18
2.27E-18
2.22E-18
Bk-248m
1.31E-18
1.20E-18
1.12E-18
1.08E-18
9.83E-19
9.64E-19
Bk-249
1.08E-20
1.00E-20
9.64E-21
9.13E-21
8.48E-21
8.34E-21
Bk-250
2.03E-17
1.88E-17
1.81E-17
1.71E-17
1.59E-17
1.56E-17
Bk-251
2.04E-18
1.88E-18
1.75E-18
1.67E-18
1.51E-18
1.49E-18
Californium
Cf-244
1.77E-21
1.22E-21
9.68E-22
9.32E-22
5.02E-22
4.68E-22
Cf-246
2.13E-21
1.68E-21
1.45E-21
1.39E-21
1.03E-21
9.99E-22
Cf-247
1.82E-18
1.67E-18
1.54E-18
1.47E-18
1.32E-18
1.30E-18
Cf-248
8.99E-21
8.00E-21
7.42E-21
7.15E-21
6.35E-21
6.23E-21
Cf-249
7.50E-18
6.87E-18
6.41E-18
6.15E-18
5.65E-18
5.54E-18
Cf-250
2.20E-19
2.05E-19
1.95E-19
1.88E-19
1.75E-19
1.72E-19
Cf-251
2.47E-18
2.26E-18
2.10E-18
2.01E-18
1.82E-18
1.78E-18
Cf-252
1.02E-17
9.53E-18
9.05E-18
8.73E-18
8.14E-18
8.01E-18
Cf-253
5.10E-20
4.58E-20
4.31E-20
4.08E-20
3.68E-20
3.61E-20
Cf-254
3.80E-16
3.54E-16
3.36E-16
3.24E-16
3.03E-16
2.98E-16
Cf-255
2.17E-19
2.02E-19
1.94E-19
1.83E-19
1.71E-19
1.68E-19
Einsteinium
Es-249
9.02E-18
8.29E-18
7.78E-18
7.43E-18
6.82E-18
6.69E-18
122
-------�
Table 4-3. Reference person effective dose rate coefficients for soil to 5 cm. (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Es-250
2.64E-17
2.43E-17
2.30E-17
2.19E-17
2.01E-17
1.98E-17
Es-250m
1.20E-17
1.11E-17
1.06E-17
1.01E-17
9.31E-18
9.15E-18
Es-251
1.82E-18
1.67E-18
1.54E-18
1.48E-18
1.33E-18
1.30E-18
Es-253
7.67E-21
6.90E-21
6.37E-21
6.10E-21
5.50E-21
5.38E-21
Es-254
7.24E-20
6.15E-20
5.52E-20
5.24E-20
4.41E-20
4.29E-20
Es-254m
1.10E-17
1.01E-17
9.54E-18
9.10E-18
8.41E-18
8.26E-18
Es-255
6.12E-20
5.68E-20
5.44E-20
5.18E-20
4.81E-20
4.73E-20
Es-256
8.19E-19
7.62E-19
7.31E-19
6.96E-19
6.49E-19
6.39E-19
Fermium
Fm-251
3.21E-18
2.96E-18
2.76E-18
2.64E-18
2.40E-18
2.36E-18
Fm-252
7.62E-21
6.66E-21
6.13E-21
5.89E-21
5.16E-21
5.06E-21
Fm-253
1.18E-18
1.08E-18
9.98E-19
9.57E-19
8.60E-19
8.44E-19
Fm-254
1.58E-19
1.47E-19
1.39E-19
1.34E-19
1.25E-19
1.23E-19
Fm-255
4.47E-20
3.71E-20
3.28E-20
3.11E-20
2.51E-20
2.43E-20
Fm-256
2.78E-16
2.59E-16
2.46E-16
2.37E-16
2.21E-16
2.18E-16
Fm-257
3.00E-18
2.76E-18
2.58E-18
2.47E-18
2.25E-18
2.21E-18
123
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm.
Explanation of entries
For each radionuclide, values for the age-dependent effective dose rate coefficients e. based on the
weighting factors of Table 3-1, are given in SI units. Reference person organ equivalent dose coefficients
hr are provided electronically.14
e: The effective dose rate coefficient (Sv Bq 1 s"1 m3), that is, the effective dose per unit
time-integrated exposure to a radionuclide
wf- The tissue weighting factor
6 = Wt ^T
T
where hT is the equivalent dose rate coefficient (Sv Bq"1 s"1 m3) for tissue T.
The dose rate coefficients provided in Table 4-4 are based on the radiations emitted by the indicated
radionuclide and do not include the radiations emitted by radioactive decay products. Radioactive decay
products for each radionuclide are identified in Appendix A.
To convert from a source per unit volume (Sv Bq"1 s"1 m3) to a source per unit mass basis (Sv Bq"1 s"1
kg), multiply table entries by 1.6 x 103.
To convert from SI units (Sv Bq"1 s"1 m3) to conventional units (mrem jxCi"1 y"1 cm3), multiply table
entries by 1.168 x 1023.
To convert from SI units from a source per unit volume (Sv Bq"1 s"1 m3) to conventional units for a
source per unit mass basis (mrem jxCi"1 y"1 g), multiply table entries by 1.868 x 1023.
Radionuclide dose rate coefficients for soil contaminated to a finite depth cannot be scaled to
account for a different soil density.
14 https://www.epa.gov/radiation/federal-guidance-report-no-15-external-exposure-radionuclides-air-water-and-soil
124
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm.
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hydrogen
H-3
Beryllium
Be-7
Be-10
Carbon
C-10
C-ll
C-14
Nitrogen
N-13
N-16
Oxygen
0-14
0-15
0-19
Fluorine
F-17
F-18
Neon
Ne-19
Ne-24
Sodium
Na-22
Na-24
Magnesium
Mg-27
Mg-28
Aluminum
Al-26
Al-28
Al-29
Silicon
Si-31
Si-32
Phosphorus
P-30
P-32
P-33
Sulfur
S-35
S-37
S-38
Chlorine
Cl-34
Cl-34m
3.88E-23
1.79E-18
4.11E-19
6.51E-17
3.75E-17
3.57E-20
3.78E-17
1.57E-16
1.19E-16
3.86E-17
3.92E-17
3.86E-17
3.60E-17
3.94E-17
2.15E-17
7.94E-17
1.45E-16
3.40E-17
4.89E-17
9.66E-17
6.71E-17
5.22E-17
1.38E-18
6.29E-20
4.13E-17
1.66E-18
7.48E-20
3.59E-20
1.02E-16
6.12E-17
4.40E-17
7.53E-17
3.58E-23
1.64E-18
3.79E-19
5.98E-17
3.44E-17
3.29E-20
3.47E-17
1.50E-16
1.11E-16
3.54E-17
3.62E-17
3.54E-17
3.30E-17
3.61E-17
1.98E-17
7.32E-17
1.35E-16
3.14E-17
4.52E-17
8.94E-17
6.23E-17
4.84E-17
1.28E-18
5.81E-20
3.79E-17
1.54E-18
6.91E-20
3.31E-20
9.52E-17
5.69E-17
4.05E-17
6.99E-17
3.40E-23
1.52E-18
3.60E-19
5.58E-17
3.19E-17
3.12E-20
3.22E-17
1.45E-16
1.04E-16
3.29E-17
3.43E-17
3.29E-17
3.07E-17
3.36E-17
1.84E-17
6.88E-17
1.29E-16
2.97E-17
4.27E-17
8.41E-17
5.90E-17
4.59E-17
1.21E-18
5.51E-20
3.53E-17
1.46E-18
6.55E-20
3.14E-20
9.06E-17
5.39E-17
3.77E-17
6.59E-17
3.22E-23
1.46E-18
3.42E-19
5.34E-17
3.07E-17
2.97E-20
3.09E-17
1.42E-16
1.01E-16
3.16E-17
3.28E-17
3.16E-17
2.95E-17
3.22E-17
1.76E-17
6.59E-17
1.25E-16
2.82E-17
4.09E-17
8.13E-17
5.71E-17
4.40E-17
1.16E-18
5.23E-20
3.38E-17
1.39E-18
6.22E-20
2.98E-20
8.85E-17
5.24E-17
3.62E-17
6.38E-17
2.98E-23
1.34E-18
3.16E-19
4.90E-17
2.81E-17
2.74E-20
2.83E-17
1.36E-16
9.40E-17
2.89E-17
3.04E-17
2.89E-17
2.70E-17
2.96E-17
1.62E-17
6.08E-17
1.17E-16
2.60E-17
3.78E-17
7.55E-17
5.33E-17
4.09E-17
1.07E-18
4.84E-20
3.11E-17
1.30E-18
5.75E-20
2.76E-20
8.30E-17
4.90E-17
3.33E-17
5.93E-17
2.93E-23
1.31E-18
3.11E-19
4.81E-17
2.76E-17
2.70E-20
2.78E-17
1.34E-16
9.25E-17
2.84E-17
2.99E-17
2.84E-17
2.65E-17
2.90E-17
1.59E-17
5.98E-17
1.15E-16
2.56E-17
3.72E-17
7.43E-17
5.25E-17
4.02E-17
1.06E-18
4.76E-20
3.05E-17
1.28E-18
5.66E-20
2.71E-20
8.19E-17
4.82E-17
3.27E-17
5.84E-17
125
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cl-36
4.77E-19
4.41E-19
4.18E-19
3.97E-19
3.68E-19
3.62E-19
Cl-38
5.66E-17
5.26E-17
4.99E-17
4.84E-17
4.52E-17
4.45E-17
Cl-39
5.42E-17
5.01E-17
4.75E-17
4.55E-17
4.22E-17
4.15E-17
Cl-40
1.47E-16
1.37E-16
1.30E-16
1.26E-16
1.18E-16
1.16E-16
Argon
Ar-37
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ar-39
3.45E-19
3.19E-19
3.02E-19
2.87E-19
2.66E-19
2.61E-19
Ar-41
4.73E-17
4.38E-17
4.15E-17
3.97E-17
3.69E-17
3.62E-17
Ar-42
3.75E-19
3.47E-19
3.29E-19
3.12E-19
2.89E-19
2.84E-19
Ar-43
5.91E-17
5.48E-17
5.19E-17
4.99E-17
4.64E-17
4.57E-17
Ar-44
7.00E-17
6.48E-17
6.14E-17
5.93E-17
5.52E-17
5.43E-17
Potassium
K-38
1.17E-16
1.08E-16
1.02E-16
9.86E-17
9.17E-17
9.02E-17
K-40
6.81E-18
6.31E-18
5.98E-18
5.74E-18
5.34E-18
5.25E-18
K-42
1.45E-17
1.35E-17
1.28E-17
1.23E-17
1.14E-17
1.12E-17
K-43
3.52E-17
3.23E-17
3.01E-17
2.88E-17
2.64E-17
2.59E-17
K-44
8.93E-17
8.30E-17
7.88E-17
7.60E-17
7.08E-17
6.98E-17
K-45
6.76E-17
6.27E-17
5.94E-17
5.74E-17
5.34E-17
5.26E-17
K-46
1.09E-16
1.02E-16
9.69E-17
9.36E-17
8.74E-17
8.62E-17
Calcium
Ca-41
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ca-45
7.64E-20
7.06E-20
6.69E-20
6.36E-20
5.88E-20
5.78E-20
Ca-47
3.87E-17
3.58E-17
3.39E-17
3.24E-17
3.01E-17
2.96E-17
Ca-49
1.10E-16
1.03E-16
9.78E-17
9.55E-17
8.96E-17
8.85E-17
Scandium
Sc-42m
1.55E-16
1.43E-16
1.35E-16
1.29E-16
1.20E-16
1.17E-16
Sc-43
3.63E-17
3.33E-17
3.09E-17
2.97E-17
2.72E-17
2.67E-17
Sc-44
7.85E-17
7.23E-17
6.80E-17
6.50E-17
5.99E-17
5.89E-17
Sc-44m
9.55E-18
8.67E-18
8.15E-18
7.76E-18
7.10E-18
6.96E-18
Sc-46
7.29E-17
6.73E-17
6.38E-17
6.06E-17
5.61E-17
5.51E-17
Sc-47
3.62E-18
3.36E-18
3.10E-18
2.97E-18
2.68E-18
2.64E-18
Sc-48
1.22E-16
1.12E-16
1.07E-16
1.01E-16
9.40E-17
9.24E-17
Sc-49
2.11E-18
1.96E-18
1.86E-18
1.77E-18
1.65E-18
1.62E-18
Sc-50
1.21E-16
1.12E-16
1.05E-16
1.01E-16
9.39E-17
9.23E-17
Titanium
Ti-44
2.91E-18
2.58E-18
2.36E-18
2.23E-18
1.94E-18
1.90E-18
Ti-45
3.21E-17
2.95E-17
2.74E-17
2.63E-17
2.41E-17
2.36E-17
Ti-51
1.53E-17
1.40E-17
1.31E-17
1.25E-17
1.15E-17
1.13E-17
Ti-52
5.39E-18
4.98E-18
4.63E-18
4.43E-18
4.02E-18
3.95E-18
Vanadium
V-47
3.79E-17
3.48E-17
3.23E-17
3.10E-17
2.84E-17
2.79E-17
V-48
1.05E-16
9.74E-17
9.20E-17
8.78E-17
8.13E-17
7.99E-17
V-49
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
V-50
5.11E-17
4.74E-17
4.49E-17
4.32E-17
4.02E-17
3.95E-17
V-52
5.50E-17
5.09E-17
4.83E-17
4.64E-17
4.31E-17
4.24E-17
V-53
4.03E-17
3.73E-17
3.53E-17
3.36E-17
3.11E-17
3.06E-17
126
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Chromium
Cr-48
1.44E-17
1.31E-17
1.22E-17
1.17E-17
1.06E-17
1.04E-17
Cr-49
3.84E-17
3.52E-17
3.27E-17
3.13E-17
2.87E-17
2.81E-17
Cr-51
1.12E-18
1.01E-18
9.46E-19
9.04E-19
8.26E-19
8.10E-19
Cr-55
3.12E-18
2.89E-18
2.75E-18
2.63E-18
2.44E-18
2.40E-18
Cr-56
3.20E-18
2.90E-18
2.70E-18
2.57E-18
2.31E-18
2.27E-18
Manganese
Mn-50m
1.72E-16
1.59E-16
1.50E-16
1.43E-16
1.32E-16
1.30E-16
Mn-51
3.84E-17
3.53E-17
3.28E-17
3.15E-17
2.89E-17
2.83E-17
Mn-52
1.25E-16
1.15E-16
1.09E-16
1.04E-16
9.64E-17
9.48E-17
Mn-52m
8.99E-17
8.30E-17
7.80E-17
7.49E-17
6.93E-17
6.81E-17
Mn-53
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Mn-54
3.03E-17
2.79E-17
2.63E-17
2.50E-17
2.31E-17
2.27E-17
Mn-56
6.29E-17
5.82E-17
5.51E-17
5.29E-17
4.92E-17
4.84E-17
Mn-57
6.39E-18
5.91E-18
5.57E-18
5.32E-18
4.92E-18
4.84E-18
Mn-58m
9.17E-17
8.48E-17
8.02E-17
7.68E-17
7.12E-17
7.00E-17
Iron
Fe-52
2.63E-17
2.41E-17
2.24E-17
2.15E-17
1.96E-17
1.93E-17
Fe-53
4.55E-17
4.17E-17
3.88E-17
3.72E-17
3.42E-17
3.35E-17
Fe-53m
1.10E-16
1.02E-16
9.63E-17
9.20E-17
8.53E-17
8.39E-17
Fe-55
4.64E-27
4.29E-27
3.94E-27
3.77E-27
3.39E-27
3.33E-27
Fe-59
4.30E-17
3.98E-17
3.78E-17
3.60E-17
3.34E-17
3.28E-17
Fe-60
5.53E-20
5.11E-20
4.85E-20
4.60E-20
4.26E-20
4.19E-20
Fe-61
5.30E-17
4.91E-17
4.65E-17
4.44E-17
4.12E-17
4.05E-17
Fe-62
2.03E-17
1.87E-17
1.74E-17
1.67E-17
1.53E-17
1.50E-17
Cobalt
Co-54m
1.49E-16
1.37E-16
1.29E-16
1.24E-16
1.14E-16
1.12E-16
Co-55
7.30E-17
6.72E-17
6.31E-17
6.03E-17
5.56E-17
5.46E-17
Co-56
1.30E-16
1.20E-16
1.14E-16
1.09E-16
1.02E-16
1.00E-16
Co-57
3.45E-18
3.18E-18
2.93E-18
2.80E-18
2.51E-18
2.47E-18
Co-58
3.53E-17
3.25E-17
3.06E-17
2.91E-17
2.68E-17
2.64E-17
Co-58m
2.43E-23
1.64E-23
1.28E-23
1.16E-23
7.81E-24
7.41E-24
Co-60
9.05E-17
8.37E-17
7.94E-17
7.59E-17
7.04E-17
6.93E-17
Co-60m
1.42E-19
1.30E-19
1.22E-19
1.16E-19
1.07E-19
1.05E-19
Co-61
3.50E-18
3.19E-18
2.98E-18
2.83E-18
2.56E-18
2.51E-18
Co-62
6.27E-17
5.82E-17
5.52E-17
5.30E-17
4.93E-17
4.85E-17
Co-62m
9.99E-17
9.25E-17
8.77E-17
8.40E-17
7.81E-17
7.68E-17
Nickel
Ni-56
6.12E-17
5.64E-17
5.30E-17
5.05E-17
4.65E-17
4.57E-17
Ni-57
6.97E-17
6.45E-17
6.08E-17
5.85E-17
5.42E-17
5.33E-17
Ni-59
5.60E-22
5.14E-22
4.77E-22
4.58E-22
4.19E-22
4.11E-22
Ni-63
4.65E-21
4.30E-21
4.07E-21
3.87E-21
3.58E-21
3.52E-21
Ni-65
2.16E-17
2.00E-17
1.90E-17
1.82E-17
1.69E-17
1.66E-17
Ni-66
7.10E-20
6.56E-20
6.22E-20
5.90E-20
5.46E-20
5.37E-20
Copper
Cu-57
5.87E-17
5.43E-17
5.09E-17
4.90E-17
4.52E-17
4.45E-17
127
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cu-59
5.68E-17
5.22E-17
4.88E-17
4.68E-17
4.31E-17
4.23E-17
Cu-60
1.42E-16
1.32E-16
1.24E-16
1.19E-16
1.11E-16
1.09E-16
Cu-61
3.02E-17
2.77E-17
2.58E-17
2.48E-17
2.27E-17
2.23E-17
Cu-62
4.01E-17
3.68E-17
3.43E-17
3.29E-17
3.02E-17
2.96E-17
Cu-64
6.84E-18
6.27E-18
5.83E-18
5.60E-18
5.13E-18
5.03E-18
Cu-66
6.52E-18
6.04E-18
5.73E-18
5.46E-18
5.06E-18
4.98E-18
Cu-67
3.76E-18
3.43E-18
3.20E-18
3.04E-18
2.76E-18
2.71E-18
Cu-69
2.15E-17
1.98E-17
1.88E-17
1.79E-17
1.65E-17
1.63E-17
Zinc
Zn-60
5.80E-17
5.33E-17
4.96E-17
4.75E-17
4.36E-17
4.28E-17
Zn-61
6.14E-17
5.66E-17
5.30E-17
5.09E-17
4.70E-17
4.61E-17
Zn-62
1.56E-17
1.43E-17
1.33E-17
1.27E-17
1.17E-17
1.15E-17
Zn-63
4.20E-17
3.86E-17
3.59E-17
3.45E-17
3.16E-17
3.11E-17
Zn-65
2.09E-17
1.94E-17
1.83E-17
1.75E-17
1.62E-17
1.59E-17
Zn-69
5.91E-19
5.47E-19
5.18E-19
4.93E-19
4.57E-19
4.49E-19
Zn-69m
1.49E-17
1.36E-17
1.26E-17
1.21E-17
1.11E-17
1.09E-17
Zn-71
1.43E-17
1.31E-17
1.23E-17
1.18E-17
1.09E-17
1.07E-17
Zn-71m
5.73E-17
5.26E-17
4.90E-17
4.70E-17
4.31E-17
4.23E-17
Zn-72
4.51E-18
4.18E-18
3.85E-18
3.68E-18
3.32E-18
3.26E-18
Gallium
Ga-64
1.25E-16
1.16E-16
1.10E-16
1.06E-16
9.80E-17
9.64E-17
Ga-65
4.32E-17
3.97E-17
3.69E-17
3.54E-17
3.24E-17
3.18E-17
Ga-66
9.02E-17
8.39E-17
7.93E-17
7.67E-17
7.14E-17
7.04E-17
Ga-67
4.92E-18
4.47E-18
4.17E-18
3.97E-18
3.60E-18
3.53E-18
Ga-68
3.60E-17
3.31E-17
3.08E-17
2.95E-17
2.71E-17
2.66E-17
Ga-70
1.77E-18
1.64E-18
1.56E-18
1.49E-18
1.38E-18
1.36E-18
Ga-72
9.77E-17
9.06E-17
8.57E-17
8.25E-17
7.66E-17
7.54E-17
Ga-73
1.30E-17
1.18E-17
1.11E-17
1.06E-17
9.68E-18
9.50E-18
Ga-74
1.15E-16
1.06E-16
1.00E-16
9.71E-17
9.04E-17
8.90E-17
Germanium
Ge-66
2.36E-17
2.16E-17
2.01E-17
1.93E-17
1.77E-17
1.73E-17
Ge-67
5.41E-17
4.98E-17
4.65E-17
4.46E-17
4.10E-17
4.02E-17
Ge-68
5.58E-23
3.58E-23
2.04E-23
1.84E-23
6.64E-24
6.13E-24
Ge-69
3.45E-17
3.18E-17
2.99E-17
2.86E-17
2.64E-17
2.59E-17
Ge-71
5.67E-23
3.63E-23
2.07E-23
1.87E-23
6.74E-24
6.22E-24
Ge-75
2.07E-18
1.89E-18
1.78E-18
1.69E-18
1.56E-18
1.53E-18
Ge-77
3.98E-17
3.66E-17
3.44E-17
3.28E-17
3.02E-17
2.97E-17
Ge-78
1.00E-17
9.08E-18
8.51E-18
8.11E-18
7.41E-18
7.26E-18
Arsenic
As-68
1.40E-16
1.30E-16
1.22E-16
1.17E-16
1.08E-16
1.06E-16
As-69
4.46E-17
4.10E-17
3.82E-17
3.67E-17
3.37E-17
3.31E-17
As-70
1.55E-16
1.43E-16
1.35E-16
1.30E-16
1.20E-16
1.18E-16
As-71
2.02E-17
1.86E-17
1.73E-17
1.66E-17
1.52E-17
1.49E-17
As-72
6.72E-17
6.19E-17
5.80E-17
5.55E-17
5.11E-17
5.02E-17
As-73
8.38E-20
6.96E-20
6.14E-20
5.61E-20
4.75E-20
4.63E-20
As-74
2.79E-17
2.56E-17
2.38E-17
2.28E-17
2.10E-17
2.06E-17
128
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
As-76
1.81E-17
1.67E-17
1.56E-17
1.50E-17
1.38E-17
1.36E-17
As-77
6.52E-19
5.99E-19
5.64E-19
5.37E-19
4.94E-19
4.85E-19
As-78
5.09E-17
4.70E-17
4.43E-17
4.25E-17
3.94E-17
3.87E-17
As-79
3.50E-18
3.24E-18
3.06E-18
2.92E-18
2.71E-18
2.66E-18
Selenium
Se-70
2.54E-17
2.33E-17
2.16E-17
2.07E-17
1.90E-17
1.86E-17
Se-71
6.17E-17
5.68E-17
5.32E-17
5.09E-17
4.68E-17
4.60E-17
Se-72
3.15E-19
2.51E-19
2.15E-19
1.94E-19
1.60E-19
1.56E-19
Se-73
3.91E-17
3.57E-17
3.32E-17
3.18E-17
2.91E-17
2.86E-17
Se-73m
9.71E-18
8.91E-18
8.29E-18
7.95E-18
7.29E-18
7.15E-18
Se-75
1.27E-17
1.16E-17
1.08E-17
1.03E-17
9.38E-18
9.20E-18
Se-77m
2.70E-18
2.50E-18
2.31E-18
2.21E-18
1.99E-18
1.96E-18
Se-79
3.97E-20
3.67E-20
3.47E-20
3.30E-20
3.05E-20
3.00E-20
Se-79m
2.31E-19
2.08E-19
1.92E-19
1.82E-19
1.62E-19
1.59E-19
Se-81
1.69E-18
1.56E-18
1.48E-18
1.41E-18
1.31E-18
1.29E-18
Se-81m
3.65E-19
3.30E-19
3.05E-19
2.90E-19
2.59E-19
2.54E-19
Se-83
9.49E-17
8.76E-17
8.26E-17
7.92E-17
7.33E-17
7.21E-17
Se-83m
3.92E-17
3.62E-17
3.43E-17
3.28E-17
3.04E-17
2.99E-17
Se-84
1.62E-17
1.48E-17
1.38E-17
1.32E-17
1.21E-17
1.19E-17
Bromine
Br-72
1.18E-16
1.09E-16
1.03E-16
9.82E-17
9.08E-17
8.92E-17
Br-73
5.52E-17
5.07E-17
4.73E-17
4.53E-17
4.16E-17
4.08E-17
Br-74
1.63E-16
1.52E-16
1.44E-16
1.39E-16
1.29E-16
1.28E-16
Br-74m
1.51E-16
1.40E-16
1.32E-16
1.27E-16
1.18E-16
1.16E-16
Br-75
4.40E-17
4.03E-17
3.75E-17
3.59E-17
3.29E-17
3.23E-17
Br-76
1.01E-16
9.35E-17
8.80E-17
8.49E-17
7.88E-17
7.75E-17
Br-76m
6.02E-19
5.15E-19
4.62E-19
4.30E-19
3.76E-19
3.68E-19
Br-77
1.12E-17
1.02E-17
9.55E-18
9.13E-18
8.36E-18
8.20E-18
Br-77m
3.93E-19
3.57E-19
3.29E-19
3.13E-19
2.80E-19
2.75E-19
Br-78
4.01E-17
3.68E-17
3.43E-17
3.29E-17
3.02E-17
2.96E-17
Br-80
4.55E-18
4.20E-18
3.94E-18
3.77E-18
3.48E-18
3.42E-18
Br-80m
1.11E-19
8.39E-20
6.81E-20
6.05E-20
4.77E-20
4.61E-20
Br-82
9.57E-17
8.82E-17
8.30E-17
7.92E-17
7.31E-17
7.18E-17
Br-82m
1.94E-19
1.79E-19
1.69E-19
1.61E-19
1.49E-19
1.47E-19
Br-83
8.51E-19
7.85E-19
7.40E-19
7.06E-19
6.52E-19
6.41E-19
Br-84
6.56E-17
6.11E-17
5.79E-17
5.60E-17
5.22E-17
5.14E-17
Br-84m
1.02E-16
9.42E-17
8.90E-17
8.52E-17
7.89E-17
7.75E-17
Br-85
5.27E-18
4.88E-18
4.62E-18
4.41E-18
4.09E-18
4.02E-18
Krypton
Kr-74
3.85E-17
3.52E-17
3.28E-17
3.14E-17
2.87E-17
2.82E-17
Kr-75
5.01E-17
4.61E-17
4.29E-17
4.12E-17
3.78E-17
3.71E-17
Kr-76
1.45E-17
1.32E-17
1.23E-17
1.18E-17
1.08E-17
1.06E-17
Kr-77
3.79E-17
3.49E-17
3.24E-17
3.11E-17
2.84E-17
2.79E-17
Kr-79
8.89E-18
8.14E-18
7.60E-18
7.27E-18
6.66E-18
6.54E-18
Kr-81
2.97E-20
2.67E-20
2.48E-20
2.36E-20
2.12E-20
2.08E-20
Kr-81m
4.21E-18
3.84E-18
3.59E-18
3.41E-18
3.10E-18
3.05E-18
129
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Kr-83m
5.86E-22
4.43E-22
3.18E-22
2.96E-22
1.20E-22
1.10E-22
Kr-85
5.02E-19
4.63E-19
4.38E-19
4.17E-19
3.85E-19
3.79E-19
Kr-85m
5.38E-18
4.97E-18
4.60E-18
4.41E-18
3.99E-18
3.92E-18
Kr-87
3.20E-17
2.97E-17
2.80E-17
2.71E-17
2.52E-17
2.48E-17
Kr-88
6.96E-17
6.47E-17
6.13E-17
5.94E-17
5.55E-17
5.46E-17
Kr-89
7.25E-17
6.72E-17
6.37E-17
6.14E-17
5.71E-17
5.62E-17
Rubidium
Rb-77
6.03E-17
5.55E-17
5.18E-17
4.97E-17
4.56E-17
4.48E-17
Rb-78
1.46E-16
1.36E-16
1.28E-16
1.24E-16
1.16E-16
1.14E-16
Rb-78m
1.20E-16
1.11E-16
1.04E-16
1.00E-16
9.25E-17
9.09E-17
Rb-79
5.35E-17
4.91E-17
4.58E-17
4.39E-17
4.02E-17
3.95E-17
Rb-80
5.02E-17
4.61E-17
4.30E-17
4.13E-17
3.79E-17
3.72E-17
Rb-81
1.83E-17
1.68E-17
1.56E-17
1.50E-17
1.38E-17
1.35E-17
Rb-81m
8.21E-19
7.52E-19
7.02E-19
6.71E-19
6.14E-19
6.03E-19
Rb-82
4.43E-17
4.07E-17
3.80E-17
3.64E-17
3.34E-17
3.28E-17
Rb-82m
1.06E-16
9.73E-17
9.15E-17
8.74E-17
8.06E-17
7.92E-17
Rb-83
1.75E-17
1.60E-17
1.49E-17
1.43E-17
1.31E-17
1.28E-17
Rb-84
3.30E-17
3.04E-17
2.86E-17
2.72E-17
2.51E-17
2.47E-17
Rb-84m
1.33E-17
1.21E-17
1.13E-17
1.08E-17
9.83E-18
9.64E-18
Rb-86
4.98E-18
4.61E-18
4.38E-18
4.16E-18
3.86E-18
3.80E-18
Rb-86m
1.97E-17
1.81E-17
1.69E-17
1.62E-17
1.48E-17
1.45E-17
Rb-87
1.36E-19
1.26E-19
1.19E-19
1.13E-19
1.05E-19
1.03E-19
Rb-88
3.04E-17
2.83E-17
2.68E-17
2.59E-17
2.41E-17
2.38E-17
Rb-89
8.28E-17
7.68E-17
7.28E-17
6.99E-17
6.50E-17
6.40E-17
Rb-90
7.67E-17
7.18E-17
6.84E-17
6.64E-17
6.22E-17
6.13E-17
Rb-90m
1.18E-16
1.10E-16
1.04E-16
1.01E-16
9.38E-17
9.24E-17
Strontium
Sr-79
4.80E-17
4.40E-17
4.10E-17
3.93E-17
3.61E-17
3.54E-17
Sr-80
1.55E-17
1.42E-17
1.32E-17
1.27E-17
1.16E-17
1.14E-17
Sr-81
5.19E-17
4.77E-17
4.44E-17
4.26E-17
3.91E-17
3.83E-17
Sr-82
2.46E-21
1.90E-21
1.40E-21
1.33E-21
4.75E-22
4.31E-22
Sr-83
2.95E-17
2.71E-17
2.54E-17
2.43E-17
2.24E-17
2.20E-17
Sr-85
1.77E-17
1.63E-17
1.51E-17
1.45E-17
1.33E-17
1.30E-17
Sr-85m
7.27E-18
6.60E-18
6.19E-18
5.88E-18
5.36E-18
5.26E-18
Sr-87m
1.13E-17
1.03E-17
9.61E-18
9.22E-18
8.42E-18
8.26E-18
Sr-89
1.34E-18
1.24E-18
1.18E-18
1.12E-18
1.04E-18
1.03E-18
Sr-90
2.99E-19
2.76E-19
2.62E-19
2.49E-19
2.30E-19
2.26E-19
Sr-91
2.72E-17
2.51E-17
2.37E-17
2.26E-17
2.09E-17
2.05E-17
Sr-92
4.85E-17
4.49E-17
4.25E-17
4.08E-17
3.79E-17
3.73E-17
Sr-93
8.32E-17
7.68E-17
7.24E-17
6.94E-17
6.43E-17
6.32E-17
Sr-94
5.35E-17
4.96E-17
4.70E-17
4.51E-17
4.19E-17
4.12E-17
Yttrium
Y-81
4.77E-17
4.38E-17
4.08E-17
3.92E-17
3.59E-17
3.53E-17
Y-83
5.20E-17
4.78E-17
4.47E-17
4.28E-17
3.94E-17
3.87E-17
Y-83m
3.21E-17
2.94E-17
2.74E-17
2.63E-17
2.41E-17
2.36E-17
Y-84m
1.47E-16
1.36E-16
1.28E-16
1.22E-16
1.13E-16
1.11E-16
130
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Y-85
4.00E-17
3.67E-17
3.41E-17
3.27E-17
3.00E-17
2.95E-17
Y-85m
4.88E-17
4.50E-17
4.22E-17
4.06E-17
3.75E-17
3.68E-17
Y-86
1.29E-16
1.19E-16
1.12E-16
1.08E-16
9.97E-17
9.80E-17
Y-86m
7.39E-18
6.72E-18
6.31E-18
6.00E-18
5.47E-18
5.37E-18
Y-87
1.57E-17
1.44E-17
1.34E-17
1.28E-17
1.18E-17
1.15E-17
Y-87m
1.09E-17
9.90E-18
9.21E-18
8.83E-18
8.07E-18
7.91E-18
Y-88
9.62E-17
8.91E-17
8.44E-17
8.13E-17
7.57E-17
7.45E-17
Y-89m
3.27E-17
3.02E-17
2.85E-17
2.71E-17
2.50E-17
2.46E-17
Y-90
2.51E-18
2.33E-18
2.21E-18
2.11E-18
1.96E-18
1.93E-18
Y-90m
2.22E-17
2.03E-17
1.89E-17
1.81E-17
1.66E-17
1.62E-17
Y-91
1.51E-18
1.40E-18
1.33E-18
1.26E-18
1.17E-18
1.15E-18
Y-91m
1.91E-17
1.75E-17
1.63E-17
1.56E-17
1.43E-17
1.41E-17
Y-92
1.37E-17
1.27E-17
1.20E-17
1.15E-17
1.06E-17
1.04E-17
Y-93
6.84E-18
6.33E-18
6.00E-18
5.75E-18
5.34E-18
5.25E-18
Y-94
3.41E-17
3.16E-17
2.99E-17
2.85E-17
2.65E-17
2.60E-17
Y-95
4.35E-17
4.05E-17
3.85E-17
3.73E-17
3.48E-17
3.43E-17
Zirconium
Zr-85
5.70E-17
5.24E-17
4.88E-17
4.69E-17
4.31E-17
4.23E-17
Zr-86
9.37E-18
8.50E-18
7.97E-18
7.59E-18
6.93E-18
6.79E-18
Zr-87
3.55E-17
3.27E-17
3.04E-17
2.92E-17
2.68E-17
2.63E-17
Zr-88
1.36E-17
1.24E-17
1.15E-17
1.11E-17
1.01E-17
9.92E-18
Zr-89
4.18E-17
3.86E-17
3.63E-17
3.46E-17
3.19E-17
3.13E-17
Zr-89m
2.29E-17
2.11E-17
1.97E-17
1.89E-17
1.74E-17
1.70E-17
Zr-93
5.51E-21
5.09E-21
4.82E-21
4.58E-21
4.24E-21
4.16E-21
Zr-95
2.67E-17
2.46E-17
2.31E-17
2.20E-17
2.03E-17
1.99E-17
Zr-97
3.36E-17
3.09E-17
2.91E-17
2.77E-17
2.56E-17
2.51E-17
Niobium
Nb-87
4.84E-17
4.44E-17
4.14E-17
3.97E-17
3.64E-17
3.57E-17
Nb-88
1.56E-16
1.44E-16
1.35E-16
1.29E-16
1.19E-16
1.17E-16
Nb-88m
1.53E-16
1.41E-16
1.32E-16
1.27E-16
1.17E-16
1.15E-16
Nb-89
5.19E-17
4.79E-17
4.50E-17
4.33E-17
4.01E-17
3.94E-17
Nb-89m
4.91E-17
4.51E-17
4.19E-17
4.02E-17
3.69E-17
3.62E-17
Nb-90
1.50E-16
1.39E-16
1.31E-16
1.27E-16
1.18E-16
1.16E-16
Nb-91
6.38E-20
5.75E-20
5.28E-20
5.07E-20
4.49E-20
4.39E-20
Nb-91m
9.02E-19
8.33E-19
7.89E-19
7.52E-19
6.96E-19
6.84E-19
Nb-92
5.42E-17
4.99E-17
4.69E-17
4.47E-17
4.12E-17
4.05E-17
Nb-92m
3.47E-17
3.21E-17
3.04E-17
2.88E-17
2.66E-17
2.62E-17
Nb-93m
1.29E-21
9.33E-22
7.42E-22
7.30E-22
3.32E-22
3.04E-22
Nb-94
5.68E-17
5.23E-17
4.93E-17
4.69E-17
4.32E-17
4.24E-17
Nb-94m
1.69E-19
1.55E-19
1.45E-19
1.38E-19
1.26E-19
1.24E-19
Nb-95
2.78E-17
2.56E-17
2.41E-17
2.29E-17
2.11E-17
2.07E-17
Nb-95m
2.17E-18
1.97E-18
1.85E-18
1.75E-18
1.60E-18
1.57E-18
Nb-96
8.95E-17
8.25E-17
7.76E-17
7.40E-17
6.83E-17
6.71E-17
Nb-97
2.51E-17
2.31E-17
2.16E-17
2.06E-17
1.90E-17
1.87E-17
Nb-98m
1.04E-16
9.56E-17
9.02E-17
8.62E-17
7.98E-17
7.84E-17
Nb-99
9.31E-18
8.62E-18
8.05E-18
7.70E-18
7.04E-18
6.92E-18
131
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Nb-99m
3.10E-17
2.88E-17
2.73E-17
2.64E-17
2.46E-17
2.42E-17
Molybdenum
Mo-89
5.08E-17
4.67E-17
4.36E-17
4.19E-17
3.85E-17
3.78E-17
Mo-90
2.87E-17
2.63E-17
2.46E-17
2.35E-17
2.16E-17
2.11E-17
Mo-91
3.97E-17
3.65E-17
3.40E-17
3.26E-17
3.00E-17
2.94E-17
Mo-91m
5.15E-17
4.75E-17
4.46E-17
4.28E-17
3.95E-17
3.88E-17
Mo-93
7.24E-21
5.22E-21
4.15E-21
4.09E-21
1.86E-21
1.70E-21
Mo-93m
8.32E-17
7.68E-17
7.25E-17
6.95E-17
6.44E-17
6.33E-17
Mo-99
6.05E-18
5.57E-18
5.24E-18
4.99E-18
4.59E-18
4.51E-18
Mo-101
5.39E-17
4.98E-17
4.70E-17
4.51E-17
4.18E-17
4.11E-17
Mo-102
1.27E-18
1.17E-18
1.10E-18
1.04E-18
9.59E-19
9.42E-19
Technetium
Tc-91
9.42E-17
8.72E-17
8.21E-17
7.92E-17
7.34E-17
7.22E-17
Tc-91m
5.78E-17
5.32E-17
4.96E-17
4.76E-17
4.38E-17
4.30E-17
Tc-92
1.43E-16
1.32E-16
1.24E-16
1.19E-16
1.10E-16
1.08E-16
Tc-93
5.61E-17
5.19E-17
4.92E-17
4.72E-17
4.39E-17
4.32E-17
Tc-93m
3.32E-17
3.08E-17
2.91E-17
2.82E-17
2.62E-17
2.58E-17
Tc-94
9.62E-17
8.86E-17
8.35E-17
7.94E-17
7.32E-17
7.19E-17
Tc-94m
7.23E-17
6.67E-17
6.27E-17
6.00E-17
5.54E-17
5.44E-17
Tc-95
2.85E-17
2.62E-17
2.47E-17
2.35E-17
2.16E-17
2.13E-17
Tc-95m
2.42E-17
2.22E-17
2.08E-17
1.98E-17
1.82E-17
1.79E-17
Tc-96
9.04E-17
8.33E-17
7.86E-17
7.47E-17
6.89E-17
6.77E-17
Tc-96m
1.51E-18
1.39E-18
1.31E-18
1.25E-18
1.15E-18
1.13E-18
Tc-97
9.17E-21
6.43E-21
5.13E-21
5.05E-21
2.45E-21
2.26E-21
Tc-97m
1.66E-20
1.30E-20
1.13E-20
1.09E-20
7.89E-21
7.60E-21
Tc-98
5.15E-17
4.73E-17
4.44E-17
4.23E-17
3.89E-17
3.82E-17
Tc-99
1.15E-19
1.06E-19
1.01E-19
9.55E-20
8.83E-20
8.68E-20
Tc-99m
3.74E-18
3.48E-18
3.19E-18
3.06E-18
2.75E-18
2.71E-18
Tc-101
1.28E-17
1.17E-17
1.09E-17
1.04E-17
9.53E-18
9.34E-18
Tc-102
9.70E-18
8.99E-18
8.52E-18
8.16E-18
7.58E-18
7.46E-18
Tc-102m
9.05E-17
8.37E-17
7.89E-17
7.60E-17
7.05E-17
6.93E-17
Tc-104
8.48E-17
7.85E-17
7.42E-17
7.15E-17
6.64E-17
6.53E-17
Tc-105
3.16E-17
2.91E-17
2.74E-17
2.63E-17
2.42E-17
2.38E-17
Ruthenium
Ru-92
7.42E-17
6.81E-17
6.39E-17
6.12E-17
5.64E-17
5.54E-17
Ru-94
1.82E-17
1.66E-17
1.56E-17
1.49E-17
1.37E-17
1.34E-17
Ru-95
4.43E-17
4.08E-17
3.84E-17
3.67E-17
3.39E-17
3.33E-17
Ru-97
7.72E-18
7.00E-18
6.56E-18
6.24E-18
5.69E-18
5.58E-18
Ru-103
1.79E-17
1.64E-17
1.53E-17
1.46E-17
1.34E-17
1.31E-17
Ru-105
2.77E-17
2.54E-17
2.38E-17
2.27E-17
2.09E-17
2.05E-17
Ru-106
9.82E-22
9.07E-22
8.60E-22
8.17E-22
7.55E-22
7.43E-22
Ru-107
1.54E-17
1.42E-17
1.34E-17
1.28E-17
1.18E-17
1.16E-17
Ru-108
2.87E-18
2.66E-18
2.48E-18
2.36E-18
2.15E-18
2.12E-18
Rhodium
Rh-94
1.47E-16
1.36E-16
1.28E-16
1.23E-16
1.14E-16
1.12E-16
Rh-95
9.42E-17
8.70E-17
8.20E-17
7.86E-17
7.28E-17
7.15E-17
132
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Rh-95m
3.19E-17
2.96E-17
2.77E-17
2.68E-17
2.48E-17
2.44E-17
Rh-96
1.44E-16
1.32E-16
1.24E-16
1.19E-16
1.10E-16
1.08E-16
Rh-96m
4.76E-17
4.39E-17
4.13E-17
3.97E-17
3.67E-17
3.61E-17
Rh-97
5.30E-17
4.87E-17
4.56E-17
4.37E-17
4.02E-17
3.95E-17
Rh-97m
7.79E-17
7.22E-17
6.82E-17
6.59E-17
6.12E-17
6.03E-17
Rh-98
6.94E-17
6.39E-17
5.97E-17
5.72E-17
5.27E-17
5.17E-17
Rh-99
1.92E-17
1.76E-17
1.64E-17
1.57E-17
1.44E-17
1.41E-17
Rh-99m
2.29E-17
2.10E-17
1.97E-17
1.88E-17
1.73E-17
1.70E-17
Rh-100
9.74E-17
9.02E-17
8.51E-17
8.22E-17
7.63E-17
7.51E-17
Rh-lOOm
1.50E-18
1.37E-18
1.28E-18
1.23E-18
1.12E-18
1.10E-18
Rh-101
8.74E-18
7.98E-18
7.43E-18
7.08E-18
6.42E-18
6.30E-18
Rh-lOlm
9.62E-18
8.74E-18
8.16E-18
7.79E-18
7.12E-18
6.98E-18
Rh-102
1.83E-17
1.68E-17
1.56E-17
1.50E-17
1.37E-17
1.35E-17
Rh-102m
7.74E-17
7.12E-17
6.68E-17
6.38E-17
5.87E-17
5.76E-17
Rh-103m
2.27E-21
1.54E-21
1.23E-21
1.17E-21
7.04E-22
6.62E-22
Rh-104
3.12E-18
2.89E-18
2.74E-18
2.61E-18
2.43E-18
2.39E-18
Rh-104m
5.13E-19
4.30E-19
3.82E-19
3.53E-19
3.01E-19
2.94E-19
Rh-105
2.92E-18
2.66E-18
2.49E-18
2.37E-18
2.17E-18
2.13E-18
Rh-106
1.18E-17
1.09E-17
1.02E-17
9.81E-18
9.06E-18
8.90E-18
Rh-106m
1.04E-16
9.55E-17
8.98E-17
8.58E-17
7.92E-17
7.78E-17
Rh-107
1.19E-17
1.08E-17
1.01E-17
9.68E-18
8.86E-18
8.69E-18
Rh-108
1.76E-17
1.62E-17
1.52E-17
1.46E-17
1.34E-17
1.32E-17
Rh-109
1.28E-17
1.17E-17
1.09E-17
1.04E-17
9.57E-18
9.39E-18
Palladium
Pd-96
5.15E-17
4.75E-17
4.45E-17
4.25E-17
3.91E-17
3.84E-17
Pd-97
8.69E-17
8.02E-17
7.54E-17
7.26E-17
6.71E-17
6.60E-17
Pd-98
1.36E-17
1.25E-17
1.17E-17
1.11E-17
1.02E-17
1.00E-17
Pd-99
4.62E-17
4.26E-17
3.99E-17
3.83E-17
3.53E-17
3.46E-17
Pd-100
2.24E-18
2.01E-18
1.84E-18
1.74E-18
1.53E-18
1.50E-18
Pd-101
1.17E-17
1.07E-17
1.00E-17
9.61E-18
8.83E-18
8.66E-18
Pd-103
2.30E-20
1.63E-20
1.34E-20
1.29E-20
8.43E-21
8.02E-21
Pd-107
7.76E-22
7.16E-22
6.79E-22
6.45E-22
5.96E-22
5.86E-22
Pd-109
8.08E-19
7.41E-19
7.00E-19
6.65E-19
6.12E-19
6.01E-19
Pd-109m
3.45E-18
3.15E-18
2.94E-18
2.80E-18
2.54E-18
2.50E-18
Pd-111
3.88E-18
3.59E-18
3.39E-18
3.24E-18
3.00E-18
2.96E-18
Pd-112
8.09E-20
7.36E-20
6.93E-20
6.59E-20
6.00E-20
5.89E-20
Pd-114
2.01E-18
1.85E-18
1.74E-18
1.66E-18
1.53E-18
1.50E-18
Silver
Ag-99
8.66E-17
7.98E-17
7.50E-17
7.19E-17
6.64E-17
6.52E-17
Ag-lOOm
1.08E-16
1.00E-16
9.39E-17
9.02E-17
8.33E-17
8.19E-17
Ag-101
5.84E-17
5.37E-17
5.03E-17
4.82E-17
4.43E-17
4.35E-17
Ag-102
1.25E-16
1.15E-16
1.08E-16
1.04E-16
9.60E-17
9.43E-17
Ag-102m
7.15E-17
6.63E-17
6.25E-17
6.05E-17
5.62E-17
5.53E-17
Ag-103
2.98E-17
2.74E-17
2.56E-17
2.45E-17
2.26E-17
2.22E-17
Ag-104
9.75E-17
8.99E-17
8.46E-17
8.08E-17
7.46E-17
7.33E-17
Ag-104m
6.64E-17
6.12E-17
5.73E-17
5.52E-17
5.10E-17
5.01E-17
133
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ag-105
1.75E-17
1.60E-17
1.50E-17
1.43E-17
1.31E-17
1.28E-17
Ag-105m
3.50E-20
3.19E-20
2.99E-20
2.85E-20
2.61E-20
2.56E-20
Ag-106
2.62E-17
2.41E-17
2.24E-17
2.15E-17
1.97E-17
1.93E-17
Ag-106m
1.01E-16
9.29E-17
8.73E-17
8.35E-17
7.70E-17
7.57E-17
Ag-108
2.07E-18
1.91E-18
1.81E-18
1.72E-18
1.59E-18
1.57E-18
Ag-108m
5.80E-17
5.33E-17
4.98E-17
4.76E-17
4.37E-17
4.29E-17
Ag-109m
9.02E-20
7.79E-20
7.05E-20
6.67E-20
5.73E-20
5.59E-20
Ag-110
4.54E-18
4.20E-18
3.98E-18
3.80E-18
3.53E-18
3.47E-18
Ag-llOm
1.00E-16
9.23E-17
8.69E-17
8.29E-17
7.66E-17
7.53E-17
Ag-111
1.60E-18
1.47E-18
1.38E-18
1.32E-18
1.21E-18
1.19E-18
Ag-lllm
1.25E-19
1.12E-19
1.04E-19
9.90E-20
8.93E-20
8.75E-20
Ag-112
2.91E-17
2.69E-17
2.53E-17
2.43E-17
2.26E-17
2.22E-17
Ag-113
4.45E-18
4.09E-18
3.85E-18
3.68E-18
3.39E-18
3.33E-18
Ag-113m
7.94E-18
7.26E-18
6.78E-18
6.48E-18
5.94E-18
5.82E-18
Ag-114
1.70E-17
1.57E-17
1.49E-17
1.43E-17
1.32E-17
1.30E-17
Ag-115
2.02E-17
1.87E-17
1.77E-17
1.70E-17
1.58E-17
1.55E-17
Ag-116
8.20E-17
7.61E-17
7.19E-17
6.95E-17
6.46E-17
6.36E-17
Ag-117
4.96E-17
4.61E-17
4.36E-17
4.22E-17
3.93E-17
3.87E-17
Cadmium
Cd-101
9.14E-17
8.44E-17
7.94E-17
7.64E-17
7.07E-17
6.95E-17
Cd-102
2.96E-17
2.72E-17
2.54E-17
2.43E-17
2.24E-17
2.20E-17
Cd-103
7.48E-17
6.93E-17
6.54E-17
6.31E-17
5.86E-17
5.77E-17
Cd-104
7.79E-18
7.14E-18
6.66E-18
6.35E-18
5.81E-18
5.70E-18
Cd-105
4.66E-17
4.31E-17
4.06E-17
3.91E-17
3.62E-17
3.56E-17
Cd-107
3.19E-19
2.80E-19
2.56E-19
2.44E-19
2.15E-19
2.10E-19
Cd-109
1.18E-19
9.64E-20
8.50E-20
8.03E-20
6.58E-20
6.40E-20
Cd-lllm
9.25E-18
8.40E-18
7.86E-18
7.49E-18
6.82E-18
6.69E-18
Cd-113
1.03E-19
9.48E-20
8.99E-20
8.54E-20
7.90E-20
7.77E-20
Cd-113m
2.79E-19
2.58E-19
2.45E-19
2.32E-19
2.15E-19
2.11E-19
Cd-115
7.49E-18
6.88E-18
6.40E-18
6.13E-18
5.63E-18
5.52E-18
Cd-115m
2.59E-18
2.39E-18
2.27E-18
2.16E-18
2.01E-18
1.97E-18
Cd-117
3.96E-17
3.65E-17
3.45E-17
3.31E-17
3.06E-17
3.01E-17
Cd-117m
7.34E-17
6.80E-17
6.44E-17
6.20E-17
5.77E-17
5.67E-17
Cd-118
2.30E-19
2.12E-19
2.01E-19
1.91E-19
1.77E-19
1.74E-19
Cd-119
6.04E-17
5.59E-17
5.29E-17
5.10E-17
4.74E-17
4.66E-17
Cd-119m
8.39E-17
7.78E-17
7.36E-17
7.08E-17
6.58E-17
6.48E-17
Indium
In-103
1.03E-16
9.51E-17
8.94E-17
8.59E-17
7.94E-17
7.81E-17
In-105
7.17E-17
6.61E-17
6.20E-17
5.95E-17
5.49E-17
5.39E-17
In-106
1.32E-16
1.21E-16
1.14E-16
1.09E-16
1.00E-16
9.83E-17
In-106m
1.06E-16
9.80E-17
9.20E-17
8.87E-17
8.21E-17
8.07E-17
In-107
5.49E-17
5.06E-17
4.76E-17
4.58E-17
4.24E-17
4.17E-17
In-108
1.41E-16
1.30E-16
1.23E-16
1.17E-16
1.08E-16
1.06E-16
In-108m
9.91E-17
9.19E-17
8.67E-17
8.38E-17
7.78E-17
7.66E-17
In-109
2.22E-17
2.04E-17
1.91E-17
1.83E-17
1.68E-17
1.65E-17
In-109m
2.20E-17
2.03E-17
1.89E-17
1.81E-17
1.66E-17
1.63E-17
134
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
In-110
1.12E-16
1.03E-16
9.69E-17
9.22E-17
8.51E-17
8.36E-17
In-110m
5.82E-17
5.36E-17
5.01E-17
4.81E-17
4.43E-17
4.35E-17
In-Ill
1.29E-17
1.17E-17
1.10E-17
1.04E-17
9.49E-18
9.30E-18
In-lllm
1.69E-17
1.55E-17
1.44E-17
1.38E-17
1.27E-17
1.24E-17
In-112
9.94E-18
9.12E-18
8.49E-18
8.14E-18
7.47E-18
7.33E-18
In-112m
6.67E-19
6.11E-19
5.60E-19
5.35E-19
4.79E-19
4.71E-19
In-113m
9.06E-18
8.27E-18
7.69E-18
7.37E-18
6.73E-18
6.60E-18
In-114
2.02E-18
1.88E-18
1.78E-18
1.70E-18
1.58E-18
1.55E-18
In-114m
2.50E-18
2.28E-18
2.13E-18
2.03E-18
1.86E-18
1.82E-18
In-115
2.12E-19
1.96E-19
1.86E-19
1.77E-19
1.64E-19
1.61E-19
In-115m
5.48E-18
4.98E-18
4.64E-18
4.44E-18
4.05E-18
3.97E-18
In-116m
8.93E-17
8.27E-17
7.83E-17
7.50E-17
6.96E-17
6.85E-17
In-117
2.47E-17
2.27E-17
2.11E-17
2.02E-17
1.85E-17
1.82E-17
In-117m
3.74E-18
3.43E-18
3.20E-18
3.06E-18
2.80E-18
2.75E-18
In-118
9.30E-18
8.63E-18
8.20E-18
7.85E-18
7.31E-18
7.19E-18
In-118m
1.02E-16
9.42E-17
8.91E-17
8.50E-17
7.87E-17
7.74E-17
In-119
2.92E-17
2.69E-17
2.53E-17
2.41E-17
2.22E-17
2.18E-17
In-119m
5.13E-18
4.74E-18
4.50E-18
4.29E-18
3.98E-18
3.92E-18
In-121
3.62E-17
3.34E-17
3.16E-17
3.00E-17
2.77E-17
2.73E-17
In-121m
6.51E-18
6.02E-18
5.71E-18
5.45E-18
5.06E-18
4.98E-18
Tin
Sn-106
4.28E-17
3.93E-17
3.68E-17
3.52E-17
3.23E-17
3.17E-17
Sn-108
2.34E-17
2.14E-17
2.00E-17
1.91E-17
1.75E-17
1.71E-17
Sn-109
7.85E-17
7.26E-17
6.87E-17
6.60E-17
6.14E-17
6.04E-17
Sn-110
9.53E-18
8.63E-18
8.08E-18
7.70E-18
7.03E-18
6.89E-18
Sn-111
1.76E-17
1.62E-17
1.52E-17
1.46E-17
1.34E-17
1.32E-17
Sn-113
2.29E-19
1.97E-19
1.80E-19
1.71E-19
1.51E-19
1.47E-19
Sn-113m
4.37E-20
3.16E-20
2.56E-20
2.35E-20
1.74E-20
1.67E-20
Sn-117m
4.40E-18
4.08E-18
3.76E-18
3.59E-18
3.24E-18
3.18E-18
Sn-119m
3.70E-20
2.52E-20
1.96E-20
1.78E-20
1.21E-20
1.15E-20
Sn-121
1.42E-19
1.32E-19
1.25E-19
1.19E-19
1.10E-19
1.08E-19
Sn-121m
5.24E-20
4.44E-20
4.00E-20
3.75E-20
3.29E-20
3.22E-20
Sn-123
1.41E-18
1.30E-18
1.24E-18
1.18E-18
1.09E-18
1.07E-18
Sn-123m
5.26E-18
4.88E-18
4.53E-18
4.33E-18
3.93E-18
3.86E-18
Sn-125
1.42E-17
1.31E-17
1.24E-17
1.19E-17
1.10E-17
1.08E-17
Sn-125m
1.42E-17
1.30E-17
1.22E-17
1.16E-17
1.07E-17
1.05E-17
Sn-126
1.19E-18
1.07E-18
9.80E-19
9.27E-19
8.19E-19
8.01E-19
Sn-127
6.97E-17
6.44E-17
6.09E-17
5.82E-17
5.39E-17
5.30E-17
Sn-127m
2.36E-17
2.17E-17
2.03E-17
1.95E-17
1.79E-17
1.76E-17
Sn-128
2.02E-17
1.85E-17
1.72E-17
1.65E-17
1.51E-17
1.48E-17
Sn-129
4.02E-17
3.71E-17
3.49E-17
3.34E-17
3.08E-17
3.03E-17
Sn-130
3.33E-17
3.06E-17
2.87E-17
2.73E-17
2.51E-17
2.46E-17
Sn-130m
3.55E-17
3.28E-17
3.09E-17
2.95E-17
2.73E-17
2.68E-17
Antimony
Sb-111
5.71E-17
5.25E-17
4.89E-17
4.69E-17
4.30E-17
4.23E-17
Sb-113
4.73E-17
4.34E-17
4.04E-17
3.88E-17
3.56E-17
3.49E-17
135
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sb-114
1.01E-16
9.28E-17
8.74E-17
8.38E-17
7.75E-17
7.62E-17
Sb-115
3.21E-17
2.95E-17
2.74E-17
2.63E-17
2.41E-17
2.36E-17
Sb-116
8.29E-17
7.66E-17
7.23E-17
6.94E-17
6.43E-17
6.32E-17
Sb-116m
1.11E-16
1.02E-16
9.65E-17
9.21E-17
8.51E-17
8.37E-17
Sb-117
5.32E-18
4.92E-18
4.54E-18
4.35E-18
3.93E-18
3.86E-18
Sb-118
3.13E-17
2.87E-17
2.68E-17
2.57E-17
2.36E-17
2.31E-17
Sb-118m
9.25E-17
8.54E-17
8.09E-17
7.70E-17
7.13E-17
7.00E-17
Sb-119
6.05E-20
4.12E-20
3.20E-20
2.90E-20
1.99E-20
1.89E-20
Sb-120
1.66E-17
1.53E-17
1.42E-17
1.36E-17
1.25E-17
1.23E-17
Sb-120m
8.70E-17
8.03E-17
7.60E-17
7.23E-17
6.68E-17
6.57E-17
Sb-122
1.74E-17
1.60E-17
1.49E-17
1.43E-17
1.31E-17
1.29E-17
Sb-122m
9.92E-19
8.53E-19
7.67E-19
7.17E-19
6.14E-19
5.99E-19
Sb-124
6.75E-17
6.23E-17
5.87E-17
5.65E-17
5.24E-17
5.15E-17
Sb-124m
1.61E-17
1.48E-17
1.38E-17
1.32E-17
1.21E-17
1.19E-17
Sb-124n
2.26E-24
1.54E-24
1.19E-24
1.08E-24
7.45E-25
7.08E-25
Sb-125
1.53E-17
1.40E-17
1.30E-17
1.25E-17
1.14E-17
1.12E-17
Sb-126
1.00E-16
9.23E-17
8.65E-17
8.25E-17
7.59E-17
7.45E-17
Sb-126m
5.75E-17
5.28E-17
4.94E-17
4.72E-17
4.34E-17
4.26E-17
Sb-127
2.55E-17
2.35E-17
2.20E-17
2.10E-17
1.93E-17
1.89E-17
Sb-128
1.13E-16
1.04E-16
9.74E-17
9.29E-17
8.55E-17
8.40E-17
Sb-128m
7.14E-17
6.56E-17
6.17E-17
5.88E-17
5.41E-17
5.31E-17
Sb-129
5.35E-17
4.94E-17
4.66E-17
4.45E-17
4.12E-17
4.05E-17
Sb-130
1.19E-16
1.10E-16
1.04E-16
9.88E-17
9.11E-17
8.95E-17
Sb-130m
1.01E-16
9.27E-17
8.75E-17
8.33E-17
7.69E-17
7.55E-17
Sb-131
7.59E-17
7.02E-17
6.63E-17
6.35E-17
5.89E-17
5.79E-17
Sb-133
9.97E-17
9.23E-17
8.75E-17
8.41E-17
7.81E-17
7.69E-17
Tellurium
Te-113
8.55E-17
7.90E-17
7.42E-17
7.13E-17
6.59E-17
6.47E-17
Te-114
4.51E-17
4.16E-17
3.92E-17
3.77E-17
3.49E-17
3.43E-17
Te-115
8.29E-17
7.64E-17
7.19E-17
6.89E-17
6.36E-17
6.25E-17
Te-115m
9.54E-17
8.81E-17
8.29E-17
7.96E-17
7.36E-17
7.24E-17
Te-116
2.63E-18
2.38E-18
2.21E-18
2.10E-18
1.90E-18
1.87E-18
Te-117
5.56E-17
5.14E-17
4.84E-17
4.65E-17
4.30E-17
4.23E-17
Te-118
6.14E-20
4.24E-20
3.29E-20
2.95E-20
2.09E-20
1.99E-20
Te-119
2.71E-17
2.50E-17
2.34E-17
2.24E-17
2.06E-17
2.02E-17
Te-119m
5.30E-17
4.89E-17
4.63E-17
4.42E-17
4.09E-17
4.02E-17
Te-121
2.02E-17
1.85E-17
1.72E-17
1.65E-17
1.51E-17
1.49E-17
Te-121m
6.90E-18
6.27E-18
5.88E-18
5.59E-18
5.10E-18
5.00E-18
Te-123
1.07E-22
7.38E-23
5.72E-23
5.12E-23
3.63E-23
3.46E-23
Te-123m
4.20E-18
3.89E-18
3.58E-18
3.43E-18
3.09E-18
3.04E-18
Te-125m
1.39E-19
9.99E-20
7.89E-20
7.07E-20
5.29E-20
5.07E-20
Te-127
5.37E-19
4.94E-19
4.65E-19
4.43E-19
4.09E-19
4.02E-19
Te-127m
5.78E-20
4.45E-20
3.74E-20
3.43E-20
2.78E-20
2.69E-20
Te-129
3.22E-18
2.96E-18
2.78E-18
2.65E-18
2.44E-18
2.40E-18
Te-129m
1.59E-18
1.46E-18
1.37E-18
1.30E-18
1.20E-18
1.18E-18
Te-131
1.61E-17
1.49E-17
1.39E-17
1.33E-17
1.22E-17
1.20E-17
136
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Te-131m
5.22E-17
4.82E-17
4.54E-17
4.33E-17
4.00E-17
3.93E-17
Te-132
7.16E-18
6.46E-18
6.05E-18
5.74E-18
5.23E-18
5.12E-18
Te-133
4.46E-17
4.11E-17
3.87E-17
3.71E-17
3.44E-17
3.38E-17
Te-133m
6.74E-17
6.22E-17
5.87E-17
5.60E-17
5.18E-17
5.09E-17
Te-134
3.09E-17
2.83E-17
2.65E-17
2.53E-17
2.32E-17
2.28E-17
Iodine
1-118
7.98E-17
7.35E-17
6.88E-17
6.60E-17
6.07E-17
5.97E-17
I-118m
1.39E-16
1.28E-16
1.20E-16
1.14E-16
1.05E-16
1.03E-16
1-119
3.33E-17
3.05E-17
2.85E-17
2.73E-17
2.50E-17
2.45E-17
1-120
9.82E-17
9.08E-17
8.54E-17
8.24E-17
7.64E-17
7.51E-17
I-120m
1.29E-16
1.19E-16
1.12E-16
1.07E-16
9.88E-17
9.71E-17
1-121
1.33E-17
1.22E-17
1.14E-17
1.08E-17
9.92E-18
9.73E-18
1-122
3.79E-17
3.48E-17
3.24E-17
3.11E-17
2.86E-17
2.80E-17
1-123
4.77E-18
4.40E-18
4.05E-18
3.88E-18
3.50E-18
3.44E-18
1-124
4.00E-17
3.69E-17
3.46E-17
3.32E-17
3.07E-17
3.01E-17
1-125
1.57E-19
1.10E-19
8.58E-20
7.65E-20
5.60E-20
5.35E-20
1-126
1.56E-17
1.43E-17
1.34E-17
1.28E-17
1.17E-17
1.15E-17
1-128
4.27E-18
3.93E-18
3.69E-18
3.53E-18
3.25E-18
3.19E-18
1-129
1.60E-19
1.24E-19
1.03E-19
9.36E-20
7.65E-20
7.41E-20
1-130
7.78E-17
7.16E-17
6.69E-17
6.40E-17
5.88E-17
5.77E-17
I-130m
4.18E-18
3.84E-18
3.58E-18
3.44E-18
3.16E-18
3.10E-18
1-131
1.38E-17
1.26E-17
1.17E-17
1.12E-17
1.03E-17
1.01E-17
1-132
8.30E-17
7.65E-17
7.19E-17
6.86E-17
6.33E-17
6.22E-17
I-132m
1.21E-17
1.11E-17
1.04E-17
9.89E-18
9.09E-18
8.92E-18
1-133
2.29E-17
2.11E-17
1.97E-17
1.88E-17
1.73E-17
1.70E-17
1-134
9.51E-17
8.77E-17
8.28E-17
7.89E-17
7.29E-17
7.17E-17
I-134m
9.28E-18
8.41E-18
7.88E-18
7.49E-18
6.85E-18
6.71E-18
1-135
5.75E-17
5.32E-17
5.04E-17
4.83E-17
4.49E-17
4.42E-17
Xenon
Xe-120
1.29E-17
1.18E-17
1.10E-17
1.05E-17
9.62E-18
9.44E-18
Xe-121
5.31E-17
4.91E-17
4.61E-17
4.45E-17
4.12E-17
4.05E-17
Xe-122
1.64E-18
1.48E-18
1.37E-18
1.30E-18
1.18E-18
1.16E-18
Xe-123
2.22E-17
2.04E-17
1.91E-17
1.83E-17
1.68E-17
1.66E-17
Xe-125
8.24E-18
7.49E-18
7.00E-18
6.66E-18
6.07E-18
5.95E-18
Xe-127
8.59E-18
7.82E-18
7.28E-18
6.94E-18
6.31E-18
6.19E-18
Xe-127m
4.63E-18
4.25E-18
3.92E-18
3.74E-18
3.37E-18
3.31E-18
Xe-129m
4.97E-19
4.15E-19
3.67E-19
3.42E-19
2.96E-19
2.89E-19
Xe-131m
1.76E-19
1.47E-19
1.28E-19
1.20E-19
1.02E-19
9.98E-20
Xe-133
9.02E-19
7.98E-19
7.29E-19
6.88E-19
6.05E-19
5.91E-19
Xe-133m
8.69E-19
7.72E-19
7.16E-19
6.78E-19
6.13E-19
6.00E-19
Xe-135
9.05E-18
8.21E-18
7.71E-18
7.34E-18
6.71E-18
6.58E-18
Xe-135m
1.52E-17
1.39E-17
1.30E-17
1.24E-17
1.14E-17
1.12E-17
Xe-137
1.24E-17
1.15E-17
1.08E-17
1.04E-17
9.60E-18
9.43E-18
Xe-138
4.13E-17
3.82E-17
3.61E-17
3.49E-17
3.25E-17
3.19E-17
Cesium
Cs-121
4.78E-17
4.39E-17
4.10E-17
3.93E-17
3.61E-17
3.54E-17
137
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cs-121m
4.63E-17
4.25E-17
3.97E-17
3.80E-17
3.49E-17
3.42E-17
Cs-123
4.11E-17
3.78E-17
3.52E-17
3.37E-17
3.10E-17
3.04E-17
Cs-124
4.89E-17
4.49E-17
4.20E-17
4.03E-17
3.71E-17
3.64E-17
Cs-125
2.75E-17
2.52E-17
2.35E-17
2.26E-17
2.07E-17
2.03E-17
Cs-126
4.56E-17
4.19E-17
3.90E-17
3.75E-17
3.44E-17
3.38E-17
Cs-127
1.46E-17
1.34E-17
1.24E-17
1.19E-17
1.09E-17
1.07E-17
Cs-128
3.44E-17
3.16E-17
2.94E-17
2.82E-17
2.59E-17
2.54E-17
Cs-129
8.91E-18
8.10E-18
7.52E-18
7.20E-18
6.57E-18
6.44E-18
Cs-130
1.87E-17
1.71E-17
1.59E-17
1.53E-17
1.40E-17
1.38E-17
Cs-130m
1.23E-18
1.09E-18
9.86E-19
9.31E-19
8.18E-19
8.00E-19
Cs-131
1.01E-19
7.26E-20
5.67E-20
5.03E-20
3.78E-20
3.62E-20
Cs-132
2.52E-17
2.32E-17
2.17E-17
2.07E-17
1.90E-17
1.87E-17
Cs-134
5.66E-17
5.21E-17
4.88E-17
4.66E-17
4.29E-17
4.21E-17
Cs-134m
5.14E-19
4.65E-19
4.23E-19
4.03E-19
3.58E-19
3.52E-19
Cs-135
9.54E-20
8.81E-20
8.35E-20
7.93E-20
7.34E-20
7.22E-20
Cs-135m
5.79E-17
5.34E-17
5.03E-17
4.78E-17
4.41E-17
4.33E-17
Cs-136
7.67E-17
7.07E-17
6.68E-17
6.35E-17
5.86E-17
5.76E-17
Cs-137
2.90E-19
2.68E-19
2.55E-19
2.42E-19
2.24E-19
2.20E-19
Cs-138
8.80E-17
8.15E-17
7.72E-17
7.43E-17
6.90E-17
6.79E-17
Cs-138m
1.52E-17
1.40E-17
1.32E-17
1.26E-17
1.17E-17
1.15E-17
Cs-139
1.63E-17
1.51E-17
1.44E-17
1.38E-17
1.29E-17
1.27E-17
Cs-140
6.98E-17
6.48E-17
6.14E-17
5.93E-17
5.52E-17
5.43E-17
Barium
Ba-124
2.00E-17
1.83E-17
1.72E-17
1.64E-17
1.51E-17
1.48E-17
Ba-126
1.99E-17
1.83E-17
1.72E-17
1.64E-17
1.51E-17
1.48E-17
Ba-127
2.71E-17
2.49E-17
2.32E-17
2.23E-17
2.04E-17
2.01E-17
Ba-128
1.57E-18
1.40E-18
1.30E-18
1.23E-18
1.12E-18
1.09E-18
Ba-129
1.14E-17
1.05E-17
9.78E-18
9.38E-18
8.62E-18
8.46E-18
Ba-129m
5.57E-17
5.13E-17
4.83E-17
4.62E-17
4.26E-17
4.18E-17
Ba-131
1.57E-17
1.44E-17
1.33E-17
1.28E-17
1.17E-17
1.15E-17
Ba-131m
1.73E-18
1.56E-18
1.43E-18
1.36E-18
1.21E-18
1.19E-18
Ba-133
1.26E-17
1.14E-17
1.06E-17
1.02E-17
9.24E-18
9.06E-18
Ba-133m
1.80E-18
1.62E-18
1.50E-18
1.43E-18
1.30E-18
1.27E-18
Ba-135m
1.54E-18
1.38E-18
1.28E-18
1.22E-18
1.11E-18
1.08E-18
Ba-137m
2.16E-17
1.98E-17
1.85E-17
1.77E-17
1.63E-17
1.60E-17
Ba-139
3.77E-18
3.49E-18
3.29E-18
3.14E-18
2.89E-18
2.84E-18
Ba-140
6.84E-18
6.27E-18
5.83E-18
5.59E-18
5.12E-18
5.02E-18
Ba-141
3.53E-17
3.25E-17
3.06E-17
2.92E-17
2.70E-17
2.65E-17
Ba-142
3.81E-17
3.51E-17
3.31E-17
3.15E-17
2.91E-17
2.86E-17
Lanthanum
La-128
1.06E-16
9.72E-17
9.12E-17
8.73E-17
8.04E-17
7.90E-17
La-129
3.40E-17
3.11E-17
2.90E-17
2.78E-17
2.55E-17
2.50E-17
La-130
8.33E-17
7.67E-17
7.19E-17
6.89E-17
6.35E-17
6.24E-17
La-131
2.30E-17
2.11E-17
1.96E-17
1.88E-17
1.72E-17
1.69E-17
La-132
7.25E-17
6.69E-17
6.28E-17
6.04E-17
5.58E-17
5.49E-17
La-13 2m
2.33E-17
2.14E-17
2.00E-17
1.91E-17
1.75E-17
1.72E-17
138
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
La-133
5.06E-18
4.62E-18
4.29E-18
4.10E-18
3.76E-18
3.69E-18
La-134
2.78E-17
2.55E-17
2.38E-17
2.28E-17
2.09E-17
2.06E-17
La-135
5.06E-19
4.38E-19
3.93E-19
3.71E-19
3.30E-19
3.23E-19
La-136
1.49E-17
1.36E-17
1.27E-17
1.22E-17
1.12E-17
1.09E-17
La-137
1.35E-19
9.87E-20
7.82E-20
6.92E-20
5.34E-20
5.14E-20
La-138
4.40E-17
4.07E-17
3.85E-17
3.69E-17
3.43E-17
3.37E-17
La-140
8.39E-17
7.76E-17
7.33E-17
7.06E-17
6.55E-17
6.44E-17
La-141
3.66E-18
3.40E-18
3.23E-18
3.08E-18
2.87E-18
2.82E-18
La-142
8.60E-17
7.99E-17
7.57E-17
7.33E-17
6.84E-17
6.74E-17
La-143
1.34E-17
1.24E-17
1.17E-17
1.13E-17
1.05E-17
1.03E-17
Cerium
Ce-130
1.64E-17
1.51E-17
1.41E-17
1.34E-17
1.23E-17
1.21E-17
Ce-131
5.92E-17
5.44E-17
5.10E-17
4.89E-17
4.51E-17
4.42E-17
Ce-132
8.24E-18
7.51E-18
6.98E-18
6.65E-18
6.04E-18
5.93E-18
Ce-133
1.85E-17
1.69E-17
1.57E-17
1.50E-17
1.37E-17
1.35E-17
Ce-133m
6.09E-17
5.62E-17
5.28E-17
5.06E-17
4.68E-17
4.60E-17
Ce-134
2.08E-19
1.62E-19
1.36E-19
1.23E-19
1.01E-19
9.83E-20
Ce-135
2.85E-17
2.61E-17
2.44E-17
2.33E-17
2.14E-17
2.10E-17
Ce-137
5.54E-19
4.79E-19
4.30E-19
4.05E-19
3.60E-19
3.52E-19
Ce-137m
1.35E-18
1.21E-18
1.12E-18
1.06E-18
9.61E-19
9.42E-19
Ce-139
4.30E-18
3.94E-18
3.63E-18
3.46E-18
3.12E-18
3.07E-18
Ce-141
2.37E-18
2.20E-18
2.02E-18
1.93E-18
1.74E-18
1.71E-18
Ce-143
9.93E-18
9.04E-18
8.46E-18
8.06E-18
7.38E-18
7.24E-18
Ce-144
5.72E-19
5.26E-19
4.83E-19
4.61E-19
4.14E-19
4.07E-19
Ce-145
2.98E-17
2.74E-17
2.57E-17
2.45E-17
2.25E-17
2.21E-17
Praseodymium
Pr-134
1.16E-16
1.07E-16
1.00E-16
9.57E-17
8.80E-17
8.64E-17
Pr-134m
8.78E-17
8.09E-17
7.58E-17
7.30E-17
6.74E-17
6.62E-17
Pr-135
3.19E-17
2.92E-17
2.73E-17
2.61E-17
2.40E-17
2.35E-17
Pr-136
7.88E-17
7.27E-17
6.81E-17
6.54E-17
6.03E-17
5.93E-17
Pr-137
1.31E-17
1.20E-17
1.12E-17
1.08E-17
9.87E-18
9.68E-18
Pr-138
3.28E-17
3.01E-17
2.81E-17
2.69E-17
2.47E-17
2.43E-17
Pr-138m
8.90E-17
8.20E-17
7.72E-17
7.35E-17
6.78E-17
6.66E-17
Pr-139
4.00E-18
3.65E-18
3.38E-18
3.24E-18
2.97E-18
2.91E-18
Pr-140
2.08E-17
1.91E-17
1.77E-17
1.70E-17
1.56E-17
1.53E-17
Pr-142
4.19E-18
3.88E-18
3.68E-18
3.53E-18
3.29E-18
3.24E-18
Pr-142m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pr-143
5.79E-19
5.35E-19
5.08E-19
4.83E-19
4.47E-19
4.40E-19
Pr-144
4.57E-18
4.24E-18
4.03E-18
3.86E-18
3.59E-18
3.53E-18
Pr-144m
1.41E-19
1.16E-19
1.02E-19
9.41E-20
8.14E-20
7.94E-20
Pr-145
2.28E-18
2.11E-18
2.00E-18
1.91E-18
1.77E-18
1.74E-18
Pr-146
4.03E-17
3.73E-17
3.52E-17
3.38E-17
3.14E-17
3.08E-17
Pr-147
1.84E-17
1.69E-17
1.58E-17
1.51E-17
1.39E-17
1.37E-17
Pr-148
4.09E-17
3.77E-17
3.56E-17
3.42E-17
3.16E-17
3.11E-17
Pr-148m
3.88E-17
3.56E-17
3.34E-17
3.19E-17
2.94E-17
2.89E-17
139
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Neodymium
Nd-134
1.83E-17
1.68E-17
1.56E-17
1.49E-17
1.37E-17
1.34E-17
Nd-135
4.70E-17
4.31E-17
4.02E-17
3.85E-17
3.53E-17
3.46E-17
Nd-136
8.35E-18
7.61E-18
7.07E-18
6.74E-18
6.15E-18
6.03E-18
Nd-137
4.19E-17
3.86E-17
3.62E-17
3.46E-17
3.19E-17
3.14E-17
Nd-138
7.08E-19
6.11E-19
5.51E-19
5.18E-19
4.59E-19
4.49E-19
Nd-139
1.58E-17
1.45E-17
1.35E-17
1.30E-17
1.19E-17
1.17E-17
Nd-139m
5.58E-17
5.14E-17
4.84E-17
4.61E-17
4.26E-17
4.18E-17
Nd-140
2.07E-19
1.56E-19
1.27E-19
1.12E-19
8.94E-20
8.64E-20
Nd-141
1.95E-18
1.76E-18
1.63E-18
1.55E-18
1.41E-18
1.39E-18
Nd-141m
2.52E-17
2.32E-17
2.18E-17
2.07E-17
1.91E-17
1.87E-17
Nd-144
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Nd-147
4.64E-18
4.23E-18
3.92E-18
3.74E-18
3.41E-18
3.34E-18
Nd-149
1.34E-17
1.22E-17
1.14E-17
1.09E-17
9.94E-18
9.76E-18
Nd-151
3.13E-17
2.88E-17
2.71E-17
2.59E-17
2.39E-17
2.34E-17
Nd-152
6.18E-18
5.61E-18
5.26E-18
5.01E-18
4.58E-18
4.50E-18
Promethium
Pm-136
1.06E-16
9.74E-17
9.11E-17
8.71E-17
8.01E-17
7.87E-17
Pm-137m
6.57E-17
6.03E-17
5.63E-17
5.39E-17
4.95E-17
4.86E-17
Pm-139
3.67E-17
3.37E-17
3.14E-17
3.02E-17
2.77E-17
2.72E-17
Pm-140
4.54E-17
4.17E-17
3.90E-17
3.74E-17
3.44E-17
3.38E-17
Pm-140m
1.12E-16
1.03E-16
9.70E-17
9.25E-17
8.52E-17
8.37E-17
Pm-141
2.77E-17
2.55E-17
2.38E-17
2.29E-17
2.10E-17
2.06E-17
Pm-142
3.49E-17
3.21E-17
2.99E-17
2.87E-17
2.64E-17
2.59E-17
Pm-143
1.06E-17
9.73E-18
9.12E-18
8.67E-18
7.97E-18
7.83E-18
Pm-144
5.58E-17
5.12E-17
4.78E-17
4.57E-17
4.20E-17
4.12E-17
Pm-145
2.67E-19
2.08E-19
1.73E-19
1.56E-19
1.27E-19
1.23E-19
Pm-146
2.67E-17
2.45E-17
2.29E-17
2.19E-17
2.01E-17
1.97E-17
Pm-147
5.46E-20
5.04E-20
4.78E-20
4.54E-20
4.20E-20
4.13E-20
Pm-148
2.26E-17
2.09E-17
1.97E-17
1.89E-17
1.75E-17
1.72E-17
Pm-148m
7.21E-17
6.62E-17
6.20E-17
5.92E-17
5.44E-17
5.34E-17
Pm-149
1.12E-18
1.03E-18
9.72E-19
9.26E-19
8.54E-19
8.39E-19
Pm-150
5.48E-17
5.06E-17
4.78E-17
4.57E-17
4.23E-17
4.16E-17
Pm-151
1.16E-17
1.06E-17
9.91E-18
9.46E-18
8.65E-18
8.48E-18
Pm-152
1.41E-17
1.30E-17
1.23E-17
1.17E-17
1.09E-17
1.07E-17
Pm-152m
5.57E-17
5.13E-17
4.84E-17
4.62E-17
4.27E-17
4.20E-17
Pm-153
3.61E-18
3.32E-18
3.10E-18
2.95E-18
2.69E-18
2.65E-18
Pm-154
6.57E-17
6.09E-17
5.77E-17
5.56E-17
5.17E-17
5.09E-17
Pm-154m
6.59E-17
6.09E-17
5.75E-17
5.51E-17
5.11E-17
5.02E-17
Samarium
Sm-139
5.51E-17
5.06E-17
4.73E-17
4.53E-17
4.17E-17
4.09E-17
Sm-140
1.98E-17
1.82E-17
1.71E-17
1.63E-17
1.50E-17
1.48E-17
Sm-141
5.22E-17
4.80E-17
4.50E-17
4.32E-17
3.98E-17
3.91E-17
Sm-141m
7.00E-17
6.44E-17
6.05E-17
5.79E-17
5.34E-17
5.24E-17
Sm-142
3.25E-18
2.95E-18
2.72E-18
2.60E-18
2.37E-18
2.32E-18
Sm-143
1.99E-17
1.83E-17
1.70E-17
1.63E-17
1.50E-17
1.47E-17
140
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sm-143m
2.48E-17
2.28E-17
2.14E-17
2.04E-17
1.88E-17
1.85E-17
Sm-145
6.14E-19
4.84E-19
4.09E-19
3.69E-19
3.03E-19
2.94E-19
Sm-146
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-147
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-151
6.29E-21
5.81E-21
5.51E-21
5.23E-21
4.84E-21
4.75E-21
Sm-153
1.60E-18
1.42E-18
1.30E-18
1.23E-18
1.10E-18
1.07E-18
Sm-155
3.96E-18
3.61E-18
3.36E-18
3.20E-18
2.90E-18
2.85E-18
Sm-156
3.66E-18
3.33E-18
3.10E-18
2.95E-18
2.67E-18
2.62E-18
Sm-157
1.63E-17
1.50E-17
1.41E-17
1.35E-17
1.24E-17
1.21E-17
Europium
Eu-142
5.49E-17
5.06E-17
4.74E-17
4.55E-17
4.20E-17
4.13E-17
Eu-142m
1.30E-16
1.20E-16
1.12E-16
1.07E-16
9.90E-17
9.72E-17
Eu-143
4.47E-17
4.12E-17
3.85E-17
3.70E-17
3.41E-17
3.35E-17
Eu-144
4.70E-17
4.33E-17
4.05E-17
3.89E-17
3.59E-17
3.52E-17
Eu-145
4.52E-17
4.17E-17
3.94E-17
3.77E-17
3.49E-17
3.44E-17
Eu-146
8.59E-17
7.92E-17
7.44E-17
7.12E-17
6.58E-17
6.46E-17
Eu-147
1.55E-17
1.43E-17
1.34E-17
1.27E-17
1.17E-17
1.15E-17
Eu-148
7.96E-17
7.32E-17
6.85E-17
6.56E-17
6.04E-17
5.93E-17
Eu-149
1.43E-18
1.26E-18
1.16E-18
1.09E-18
9.81E-19
9.61E-19
Eu-150
5.49E-17
5.03E-17
4.70E-17
4.50E-17
4.13E-17
4.05E-17
Eu-150m
2.26E-18
2.07E-18
1.94E-18
1.85E-18
1.71E-18
1.67E-18
Eu-152
4.14E-17
3.82E-17
3.60E-17
3.43E-17
3.17E-17
3.12E-17
Eu-152m
1.16E-17
1.07E-17
1.01E-17
9.56E-18
8.83E-18
8.68E-18
Eu-152n
1.64E-18
1.47E-18
1.35E-18
1.27E-18
1.13E-18
1.10E-18
Eu-154
4.49E-17
4.14E-17
3.91E-17
3.73E-17
3.45E-17
3.39E-17
Eu-154m
1.30E-18
1.14E-18
1.04E-18
9.76E-19
8.53E-19
8.34E-19
Eu-155
1.40E-18
1.25E-18
1.15E-18
1.08E-18
9.60E-19
9.41E-19
Eu-156
4.50E-17
4.17E-17
3.95E-17
3.79E-17
3.52E-17
3.46E-17
Eu-157
1.02E-17
9.24E-18
8.59E-18
8.21E-18
7.49E-18
7.35E-18
Eu-158
4.87E-17
4.50E-17
4.26E-17
4.06E-17
3.76E-17
3.70E-17
Eu-159
1.16E-17
1.06E-17
9.96E-18
9.49E-18
8.71E-18
8.55E-18
Gadolinium
Gd-142
3.92E-17
3.60E-17
3.37E-17
3.23E-17
2.98E-17
2.92E-17
Gd-143m
7.91E-17
7.27E-17
6.82E-17
6.54E-17
6.03E-17
5.92E-17
Gd-144
3.36E-17
3.10E-17
2.90E-17
2.80E-17
2.58E-17
2.54E-17
Gd-145
8.63E-17
8.00E-17
7.56E-17
7.32E-17
6.81E-17
6.70E-17
Gd-145m
2.48E-17
2.28E-17
2.14E-17
2.04E-17
1.87E-17
1.84E-17
Gd-146
5.79E-18
5.23E-18
4.77E-18
4.53E-18
4.03E-18
3.96E-18
Gd-147
4.92E-17
4.51E-17
4.24E-17
4.04E-17
3.72E-17
3.65E-17
Gd-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-149
1.73E-17
1.58E-17
1.47E-17
1.41E-17
1.28E-17
1.26E-17
Gd-150
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-151
1.45E-18
1.28E-18
1.16E-18
1.10E-18
9.78E-19
9.58E-19
Gd-152
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-153
1.87E-18
1.63E-18
1.47E-18
1.38E-18
1.21E-18
1.18E-18
141
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Gd-159
2.22E-18
2.02E-18
1.88E-18
1.80E-18
1.64E-18
1.61E-18
Gd-162
1.54E-17
1.41E-17
1.31E-17
1.26E-17
1.15E-17
1.13E-17
Terbium
Tb-146
1.35E-16
1.24E-16
1.18E-16
1.13E-16
1.05E-16
1.03E-16
Tb-147
7.83E-17
7.23E-17
6.82E-17
6.52E-17
6.03E-17
5.92E-17
Tb-147m
6.87E-17
6.36E-17
6.00E-17
5.78E-17
5.36E-17
5.27E-17
Tb-148
8.67E-17
8.01E-17
7.53E-17
7.23E-17
6.69E-17
6.57E-17
Tb-148m
1.13E-16
1.04E-16
9.79E-17
9.34E-17
8.59E-17
8.44E-17
Tb-149
4.78E-17
4.41E-17
4.15E-17
3.98E-17
3.67E-17
3.61E-17
Tb-149m
4.95E-17
4.55E-17
4.27E-17
4.07E-17
3.75E-17
3.68E-17
Tb-150
8.65E-17
8.02E-17
7.56E-17
7.29E-17
6.77E-17
6.66E-17
Tb-150m
9.03E-17
8.29E-17
7.74E-17
7.40E-17
6.79E-17
6.67E-17
Tb-151
3.39E-17
3.10E-17
2.90E-17
2.77E-17
2.54E-17
2.49E-17
Tb-151m
2.46E-18
2.24E-18
2.09E-18
1.99E-18
1.82E-18
1.78E-18
Tb-152
5.30E-17
4.89E-17
4.60E-17
4.42E-17
4.09E-17
4.02E-17
Tb-152m
2.57E-17
2.34E-17
2.19E-17
2.09E-17
1.91E-17
1.88E-17
Tb-153
1.02E-17
9.28E-18
8.66E-18
8.23E-18
7.51E-18
7.37E-18
Tb-154
7.98E-17
7.40E-17
7.00E-17
6.76E-17
6.30E-17
6.20E-17
Tb-155
4.30E-18
3.85E-18
3.54E-18
3.36E-18
3.00E-18
2.94E-18
Tb-156
6.80E-17
6.26E-17
5.90E-17
5.64E-17
5.21E-17
5.12E-17
Tb-156m
4.90E-19
3.99E-19
3.48E-19
3.15E-19
2.64E-19
2.58E-19
Tb-156n
5.49E-20
4.63E-20
4.11E-20
3.80E-20
3.26E-20
3.19E-20
Tb-157
4.98E-20
3.94E-20
3.35E-20
3.01E-20
2.48E-20
2.41E-20
Tb-158
2.80E-17
2.58E-17
2.43E-17
2.31E-17
2.13E-17
2.09E-17
Tb-160
4.05E-17
3.74E-17
3.53E-17
3.36E-17
3.10E-17
3.05E-17
Tb-161
6.85E-19
5.94E-19
5.39E-19
5.03E-19
4.42E-19
4.32E-19
Tb-162
4.04E-17
3.71E-17
3.50E-17
3.32E-17
3.06E-17
3.00E-17
Tb-163
2.86E-17
2.62E-17
2.44E-17
2.34E-17
2.14E-17
2.10E-17
Tb-164
8.90E-17
8.21E-17
7.73E-17
7.40E-17
6.84E-17
6.72E-17
Tb-165
3.23E-17
2.99E-17
2.83E-17
2.71E-17
2.52E-17
2.48E-17
Dysprosium
Dy-148
2.51E-17
2.30E-17
2.15E-17
2.05E-17
1.88E-17
1.85E-17
Dy-149
5.70E-17
5.26E-17
4.96E-17
4.75E-17
4.40E-17
4.33E-17
Dy-150
9.34E-18
8.49E-18
7.88E-18
7.54E-18
6.88E-18
6.75E-18
Dy-151
4.84E-17
4.45E-17
4.19E-17
4.01E-17
3.71E-17
3.64E-17
Dy-152
9.02E-18
8.12E-18
7.60E-18
7.21E-18
6.56E-18
6.43E-18
Dy-153
2.90E-17
2.66E-17
2.50E-17
2.38E-17
2.19E-17
2.15E-17
Dy-154
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Dy-155
2.26E-17
2.07E-17
1.95E-17
1.86E-17
1.71E-17
1.68E-17
Dy-157
1.12E-17
1.02E-17
9.46E-18
9.03E-18
8.23E-18
8.06E-18
Dy-159
5.18E-19
4.14E-19
3.56E-19
3.21E-19
2.66E-19
2.59E-19
Dy-165
1.73E-18
1.59E-18
1.49E-18
1.42E-18
1.30E-18
1.28E-18
Dy-165m
5.22E-19
4.72E-19
4.35E-19
4.15E-19
3.75E-19
3.68E-19
Dy-166
9.12E-19
7.96E-19
7.24E-19
6.78E-19
5.98E-19
5.85E-19
Dy-167
2.02E-17
1.85E-17
1.73E-17
1.65E-17
1.51E-17
1.48E-17
Dy-168
1.42E-17
1.29E-17
1.20E-17
1.15E-17
1.05E-17
1.03E-17
142
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Holmium
Ho-150
7.56E-17
6.96E-17
6.52E-17
6.23E-17
5.74E-17
5.63E-17
Ho-153
3.75E-17
3.44E-17
3.22E-17
3.07E-17
2.82E-17
2.77E-17
Ho-153m
3.88E-17
3.56E-17
3.32E-17
3.17E-17
2.91E-17
2.85E-17
Ho-154
7.06E-17
6.49E-17
6.08E-17
5.82E-17
5.36E-17
5.26E-17
Ho-154m
8.82E-17
8.08E-17
7.55E-17
7.22E-17
6.63E-17
6.51E-17
Ho-155
2.11E-17
1.93E-17
1.81E-17
1.73E-17
1.59E-17
1.56E-17
Ho-156
7.58E-17
6.99E-17
6.57E-17
6.30E-17
5.82E-17
5.72E-17
Ho-157
1.89E-17
1.72E-17
1.61E-17
1.53E-17
1.40E-17
1.38E-17
Ho-159
1.12E-17
1.01E-17
9.41E-18
8.94E-18
8.11E-18
7.95E-18
Ho-160
6.00E-17
5.52E-17
5.20E-17
4.94E-17
4.55E-17
4.47E-17
Ho-161
7.37E-19
6.13E-19
5.40E-19
4.97E-19
4.23E-19
4.13E-19
Ho-162
4.80E-18
4.37E-18
4.07E-18
3.88E-18
3.55E-18
3.49E-18
Ho-162m
1.88E-17
1.72E-17
1.63E-17
1.55E-17
1.43E-17
1.40E-17
Ho-163
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ho-164
6.21E-19
5.34E-19
4.84E-19
4.49E-19
3.95E-19
3.87E-19
Ho-164m
5.57E-19
4.52E-19
3.93E-19
3.57E-19
2.99E-19
2.91E-19
Ho-166
2.47E-18
2.28E-18
2.16E-18
2.06E-18
1.90E-18
1.87E-18
Ho-166m
5.76E-17
5.30E-17
4.97E-17
4.73E-17
4.35E-17
4.27E-17
Ho-167
1.29E-17
1.17E-17
1.09E-17
1.04E-17
9.53E-18
9.34E-18
Ho-168
3.34E-17
3.07E-17
2.90E-17
2.76E-17
2.54E-17
2.50E-17
Ho-168m
7.92E-20
6.43E-20
5.59E-20
5.06E-20
4.24E-20
4.13E-20
Ho-170
6.23E-17
5.74E-17
5.42E-17
5.15E-17
4.75E-17
4.67E-17
Erbium
Er-154
1.55E-18
1.36E-18
1.24E-18
1.17E-18
1.05E-18
1.02E-18
Er-156
1.04E-18
8.89E-19
7.96E-19
7.40E-19
6.46E-19
6.31E-19
Er-159
3.37E-17
3.10E-17
2.91E-17
2.78E-17
2.56E-17
2.52E-17
Er-161
3.46E-17
3.18E-17
3.00E-17
2.86E-17
2.63E-17
2.59E-17
Er-163
5.30E-19
4.34E-19
3.80E-19
3.45E-19
2.92E-19
2.85E-19
Er-165
4.75E-19
3.85E-19
3.35E-19
3.04E-19
2.54E-19
2.48E-19
Er-167m
3.01E-18
2.72E-18
2.54E-18
2.41E-18
2.19E-18
2.15E-18
Er-169
1.15E-19
1.06E-19
1.00E-19
9.52E-20
8.81E-20
8.66E-20
Er-171
1.30E-17
1.18E-17
1.10E-17
1.05E-17
9.56E-18
9.38E-18
Er-172
1.79E-17
1.63E-17
1.52E-17
1.45E-17
1.33E-17
1.30E-17
Er-173
2.98E-17
2.74E-17
2.58E-17
2.45E-17
2.25E-17
2.21E-17
Thulium
Tm-161
4.37E-17
4.02E-17
3.78E-17
3.64E-17
3.36E-17
3.31E-17
Tm-162
6.88E-17
6.36E-17
6.00E-17
5.78E-17
5.36E-17
5.27E-17
Tm-163
4.53E-17
4.17E-17
3.93E-17
3.77E-17
3.48E-17
3.42E-17
Tm-164
2.89E-17
2.66E-17
2.49E-17
2.39E-17
2.20E-17
2.16E-17
Tm-165
1.85E-17
1.68E-17
1.57E-17
1.50E-17
1.37E-17
1.35E-17
Tm-166
6.95E-17
6.42E-17
6.06E-17
5.82E-17
5.40E-17
5.31E-17
Tm-167
3.89E-18
3.48E-18
3.22E-18
3.04E-18
2.74E-18
2.69E-18
Tm-168
4.32E-17
3.97E-17
3.72E-17
3.54E-17
3.26E-17
3.20E-17
Tm-170
6.60E-19
6.07E-19
5.73E-19
5.44E-19
5.01E-19
4.92E-19
Tm-171
1.96E-20
1.74E-20
1.60E-20
1.50E-20
1.34E-20
1.31E-20
143
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Tm-172
1.80E-17
1.66E-17
1.58E-17
1.51E-17
1.40E-17
1.38E-17
Tm-173
1.42E-17
1.30E-17
1.21E-17
1.16E-17
1.06E-17
1.04E-17
Tm-174
6.34E-17
5.82E-17
5.48E-17
5.21E-17
4.80E-17
4.71E-17
Tm-175
3.98E-17
3.66E-17
3.43E-17
3.28E-17
3.02E-17
2.97E-17
Tm-176
7.16E-17
6.62E-17
6.26E-17
6.00E-17
5.56E-17
5.47E-17
Ytterbium
Yb-162
7.33E-18
6.69E-18
6.18E-18
5.89E-18
5.33E-18
5.23E-18
Yb-163
2.58E-17
2.37E-17
2.23E-17
2.13E-17
1.96E-17
1.93E-17
Yb-164
1.00E-18
8.66E-19
7.82E-19
7.29E-19
6.41E-19
6.27E-19
Yb-165
1.02E-17
9.25E-18
8.63E-18
8.21E-18
7.50E-18
7.36E-18
Yb-166
1.31E-18
1.10E-18
9.81E-19
9.03E-19
7.71E-19
7.52E-19
Yb-167
6.33E-18
5.67E-18
5.20E-18
4.92E-18
4.39E-18
4.30E-18
Yb-169
8.12E-18
7.25E-18
6.67E-18
6.31E-18
5.64E-18
5.52E-18
Yb-175
1.48E-18
1.35E-18
1.26E-18
1.20E-18
1.10E-18
1.08E-18
Yb-177
7.54E-18
6.96E-18
6.57E-18
6.25E-18
5.76E-18
5.67E-18
Yb-178
1.63E-18
1.49E-18
1.39E-18
1.33E-18
1.21E-18
1.19E-18
Yb-179
3.64E-17
3.34E-17
3.12E-17
2.98E-17
2.74E-17
2.69E-17
Lutetium
Lu-165
3.88E-17
3.57E-17
3.34E-17
3.21E-17
2.95E-17
2.90E-17
Lu-167
5.90E-17
5.45E-17
5.15E-17
4.95E-17
4.59E-17
4.52E-17
Lu-169
4.58E-17
4.22E-17
3.99E-17
3.81E-17
3.53E-17
3.47E-17
Lu-169m
1.52E-23
9.78E-24
5.71E-24
5.14E-24
2.08E-24
1.93E-24
Lu-170
8.96E-17
8.32E-17
7.89E-17
7.61E-17
7.09E-17
6.98E-17
Lu-171
2.17E-17
1.99E-17
1.87E-17
1.78E-17
1.63E-17
1.60E-17
Lu-171m
5.60E-21
4.84E-21
4.36E-21
4.07E-21
3.50E-21
3.41E-21
Lu-172
6.90E-17
6.36E-17
6.01E-17
5.72E-17
5.28E-17
5.19E-17
Lu-172m
2.03E-23
1.52E-23
1.19E-23
1.07E-23
7.91E-24
7.65E-24
Lu-173
4.45E-18
3.95E-18
3.64E-18
3.43E-18
3.07E-18
3.01E-18
Lu-174
3.10E-18
2.81E-18
2.62E-18
2.48E-18
2.27E-18
2.22E-18
Lu-174m
1.06E-18
9.18E-19
8.30E-19
7.72E-19
6.74E-19
6.59E-19
Lu-176
1.62E-17
1.47E-17
1.37E-17
1.31E-17
1.19E-17
1.17E-17
Lu-176m
1.19E-18
1.09E-18
1.03E-18
9.75E-19
8.93E-19
8.78E-19
Lu-177
1.24E-18
1.13E-18
1.06E-18
1.00E-18
9.10E-19
8.93E-19
Lu-177m
3.25E-17
2.95E-17
2.75E-17
2.62E-17
2.38E-17
2.34E-17
Lu-178
6.20E-18
5.73E-18
5.43E-18
5.19E-18
4.82E-18
4.74E-18
Lu-178m
3.59E-17
3.27E-17
3.04E-17
2.91E-17
2.65E-17
2.60E-17
Lu-179
2.03E-18
1.86E-18
1.76E-18
1.67E-18
1.54E-18
1.51E-18
Lu-180
5.53E-17
5.10E-17
4.82E-17
4.60E-17
4.26E-17
4.19E-17
Lu-181
2.18E-17
2.00E-17
1.87E-17
1.78E-17
1.64E-17
1.61E-17
Hafnium
Hf-167
2.28E-17
2.08E-17
1.94E-17
1.86E-17
1.70E-17
1.67E-17
Hf-169
2.23E-17
2.04E-17
1.89E-17
1.82E-17
1.66E-17
1.63E-17
Hf-170
1.40E-17
1.28E-17
1.18E-17
1.13E-17
1.03E-17
1.01E-17
Hf-172
1.83E-18
1.59E-18
1.44E-18
1.34E-18
1.17E-18
1.14E-18
Hf-173
1.18E-17
1.08E-17
9.99E-18
9.52E-18
8.62E-18
8.45E-18
Hf-174
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
144
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hf-175
1.14E-17
1.03E-17
9.56E-18
9.12E-18
8.30E-18
8.14E-18
Hf-177m
7.65E-17
6.95E-17
6.49E-17
6.19E-17
5.64E-17
5.53E-17
Hf-178m
7.75E-17
7.07E-17
6.58E-17
6.30E-17
5.75E-17
5.64E-17
Hf-179m
3.05E-17
2.78E-17
2.58E-17
2.47E-17
2.25E-17
2.21E-17
Hf-180m
3.36E-17
3.06E-17
2.85E-17
2.72E-17
2.49E-17
2.44E-17
Hf-181
1.84E-17
1.69E-17
1.56E-17
1.50E-17
1.37E-17
1.34E-17
Hf-182
8.07E-18
7.31E-18
6.85E-18
6.52E-18
5.94E-18
5.83E-18
Hf-182m
3.12E-17
2.85E-17
2.67E-17
2.54E-17
2.33E-17
2.29E-17
Hf-183
2.81E-17
2.59E-17
2.43E-17
2.31E-17
2.13E-17
2.09E-17
Hf-184
7.87E-18
7.18E-18
6.67E-18
6.37E-18
5.78E-18
5.68E-18
Tantalum
Ta-170
4.30E-17
3.95E-17
3.69E-17
3.53E-17
3.25E-17
3.19E-17
Ta-172
6.10E-17
5.62E-17
5.29E-17
5.06E-17
4.67E-17
4.59E-17
Ta-173
1.93E-17
1.77E-17
1.66E-17
1.59E-17
1.46E-17
1.44E-17
Ta-174
3.46E-17
3.18E-17
2.99E-17
2.86E-17
2.64E-17
2.59E-17
Ta-175
3.80E-17
3.50E-17
3.30E-17
3.16E-17
2.92E-17
2.87E-17
Ta-176
7.84E-17
7.26E-17
6.87E-17
6.62E-17
6.15E-17
6.05E-17
Ta-177
1.34E-18
1.18E-18
1.07E-18
1.00E-18
8.83E-19
8.64E-19
Ta-178
3.29E-18
2.97E-18
2.77E-18
2.63E-18
2.39E-18
2.35E-18
Ta-178m
3.81E-17
3.46E-17
3.22E-17
3.08E-17
2.80E-17
2.75E-17
Ta-179
3.86E-19
3.27E-19
2.92E-19
2.69E-19
2.30E-19
2.24E-19
Ta-180
8.44E-19
7.25E-19
6.53E-19
6.07E-19
5.24E-19
5.12E-19
Ta-182
4.55E-17
4.20E-17
3.97E-17
3.79E-17
3.50E-17
3.44E-17
Ta-182m
7.44E-18
6.79E-18
6.27E-18
5.97E-18
5.37E-18
5.27E-18
Ta-183
9.02E-18
8.16E-18
7.59E-18
7.22E-18
6.54E-18
6.41E-18
Ta-184
5.62E-17
5.16E-17
4.84E-17
4.61E-17
4.24E-17
4.16E-17
Ta-185
6.03E-18
5.52E-18
5.15E-18
4.91E-18
4.47E-18
4.39E-18
Ta-186
5.28E-17
4.85E-17
4.54E-17
4.34E-17
3.98E-17
3.91E-17
Tungsten
W-177
3.04E-17
2.78E-17
2.61E-17
2.48E-17
2.27E-17
2.23E-17
W-178
2.42E-19
2.06E-19
1.85E-19
1.71E-19
1.47E-19
1.43E-19
W-179
8.02E-19
6.82E-19
6.09E-19
5.64E-19
4.81E-19
4.69E-19
W-179m
1.28E-18
1.13E-18
1.04E-18
9.82E-19
8.72E-19
8.53E-19
W-181
6.44E-19
5.50E-19
4.93E-19
4.57E-19
3.91E-19
3.81E-19
W-185
1.65E-19
1.52E-19
1.44E-19
1.37E-19
1.27E-19
1.25E-19
W-185m
6.14E-19
5.57E-19
5.11E-19
4.86E-19
4.33E-19
4.25E-19
W-187
1.62E-17
1.49E-17
1.39E-17
1.33E-17
1.22E-17
1.19E-17
W-188
1.76E-19
1.61E-19
1.52E-19
1.44E-19
1.33E-19
1.30E-19
W-190
4.27E-18
3.88E-18
3.57E-18
3.40E-18
3.04E-18
2.98E-18
Rhenium
Re-178
6.06E-17
5.61E-17
5.29E-17
5.09E-17
4.72E-17
4.64E-17
Re-179
3.74E-17
3.44E-17
3.22E-17
3.09E-17
2.85E-17
2.79E-17
Re-180
4.24E-17
3.90E-17
3.68E-17
3.50E-17
3.22E-17
3.17E-17
Re-181
2.73E-17
2.49E-17
2.33E-17
2.23E-17
2.04E-17
2.00E-17
Re-182
6.11E-17
5.62E-17
5.30E-17
5.05E-17
4.65E-17
4.57E-17
Re-182m
4.20E-17
3.88E-17
3.66E-17
3.50E-17
3.23E-17
3.18E-17
145
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Re-183
3.67E-18
3.29E-18
3.02E-18
2.86E-18
2.54E-18
2.49E-18
Re-184
3.10E-17
2.86E-17
2.69E-17
2.55E-17
2.35E-17
2.31E-17
Re-184m
1.24E-17
1.13E-17
1.06E-17
1.01E-17
9.23E-18
9.06E-18
Re-186
1.14E-18
1.05E-18
9.82E-19
9.35E-19
8.52E-19
8.37E-19
Re-186m
2.39E-19
2.04E-19
1.83E-19
1.70E-19
1.45E-19
1.42E-19
Re-187
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Re-188
3.94E-18
3.64E-18
3.42E-18
3.27E-18
3.01E-18
2.96E-18
Re-188m
1.35E-18
1.19E-18
1.08E-18
1.02E-18
8.89E-19
8.68E-19
Re-189
2.37E-18
2.16E-18
2.03E-18
1.93E-18
1.76E-18
1.73E-18
Re-190
4.91E-17
4.50E-17
4.21E-17
4.02E-17
3.69E-17
3.63E-17
Re-190m
3.33E-17
3.05E-17
2.85E-17
2.72E-17
2.49E-17
2.45E-17
Osmium
Os-180
3.34E-18
3.02E-18
2.79E-18
2.65E-18
2.39E-18
2.34E-18
Os-181
4.80E-17
4.41E-17
4.16E-17
3.98E-17
3.67E-17
3.60E-17
Os-182
1.41E-17
1.29E-17
1.19E-17
1.14E-17
1.04E-17
1.02E-17
Os-183
2.04E-17
1.86E-17
1.73E-17
1.65E-17
1.50E-17
1.48E-17
Os-183m
3.54E-17
3.27E-17
3.09E-17
2.94E-17
2.72E-17
2.67E-17
Os-185
2.42E-17
2.22E-17
2.07E-17
1.98E-17
1.82E-17
1.78E-17
Os-186
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Os-189m
6.40E-23
4.30E-23
2.59E-23
2.36E-23
8.35E-24
7.69E-24
Os-190m
5.64E-17
5.16E-17
4.81E-17
4.60E-17
4.22E-17
4.14E-17
Os-191
1.91E-18
1.73E-18
1.58E-18
1.51E-18
1.33E-18
1.30E-18
Os-191m
1.04E-19
9.11E-20
8.24E-20
7.73E-20
6.66E-20
6.49E-20
Os-193
2.82E-18
2.58E-18
2.40E-18
2.30E-18
2.10E-18
2.06E-18
Os-194
3.02E-20
2.44E-20
2.11E-20
1.91E-20
1.61E-20
1.57E-20
Os-196
3.33E-18
3.04E-18
2.84E-18
2.71E-18
2.48E-18
2.43E-18
Iridium
Ir-180
6.04E-17
5.55E-17
5.19E-17
4.96E-17
4.55E-17
4.47E-17
Ir-182
5.28E-17
4.85E-17
4.54E-17
4.34E-17
3.99E-17
3.92E-17
Ir-183
4.12E-17
3.79E-17
3.57E-17
3.43E-17
3.17E-17
3.11E-17
Ir-184
6.94E-17
6.39E-17
6.01E-17
5.75E-17
5.31E-17
5.21E-17
Ir-185
2.90E-17
2.67E-17
2.52E-17
2.42E-17
2.24E-17
2.20E-17
Ir-186
5.80E-17
5.34E-17
5.02E-17
4.81E-17
4.44E-17
4.36E-17
Ir-186m
4.41E-17
4.07E-17
3.83E-17
3.67E-17
3.39E-17
3.34E-17
Ir-187
1.07E-17
9.74E-18
9.12E-18
8.67E-18
7.93E-18
7.78E-18
Ir-188
7.33E-17
6.80E-17
6.42E-17
6.21E-17
5.78E-17
5.68E-17
Ir-189
1.72E-18
1.52E-18
1.40E-18
1.32E-18
1.17E-18
1.14E-18
Ir-190
5.17E-17
4.73E-17
4.41E-17
4.22E-17
3.86E-17
3.79E-17
Ir-190m
7.09E-23
4.89E-23
3.02E-23
2.76E-23
9.55E-24
8.77E-24
Ir-190n
1.08E-18
9.53E-19
8.66E-19
8.14E-19
7.08E-19
6.91E-19
Ir-191m
1.70E-18
1.54E-18
1.41E-18
1.34E-18
1.18E-18
1.16E-18
Ir-192
2.90E-17
2.65E-17
2.47E-17
2.36E-17
2.16E-17
2.12E-17
Ir-192m
2.04E-21
1.79E-21
1.61E-21
1.52E-21
1.33E-21
1.30E-21
Ir-192n
1.35E-20
1.20E-20
1.08E-20
1.03E-20
8.89E-21
8.69E-21
Ir-193m
5.82E-21
5.09E-21
4.60E-21
4.33E-21
3.72E-21
3.62E-21
Ir-194
5.30E-18
4.88E-18
4.60E-18
4.39E-18
4.05E-18
3.98E-18
146
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ir-194m
8.35E-17
7.65E-17
7.13E-17
6.83E-17
6.26E-17
6.14E-17
Ir-195
1.85E-18
1.67E-18
1.55E-18
1.47E-18
1.32E-18
1.29E-18
Ir-195m
1.30E-17
1.19E-17
1.11E-17
1.06E-17
9.66E-18
9.47E-18
Ir-196
1.17E-17
1.08E-17
1.01E-17
9.68E-18
8.93E-18
8.78E-18
Ir-196m
8.86E-17
8.12E-17
7.56E-17
7.24E-17
6.64E-17
6.51E-17
Platinum
Pt-184
2.29E-17
2.09E-17
1.94E-17
1.85E-17
1.68E-17
1.65E-17
Pt-186
2.34E-17
2.15E-17
2.00E-17
1.91E-17
1.75E-17
1.72E-17
Pt-187
2.03E-17
1.86E-17
1.74E-17
1.66E-17
1.52E-17
1.49E-17
Pt-188
5.81E-18
5.25E-18
4.87E-18
4.63E-18
4.18E-18
4.09E-18
Pt-189
1.56E-17
1.43E-17
1.33E-17
1.27E-17
1.16E-17
1.14E-17
Pt-190
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pt-191
8.74E-18
7.93E-18
7.34E-18
7.01E-18
6.34E-18
6.21E-18
Pt-193
1.72E-22
1.20E-22
7.64E-23
7.03E-23
2.43E-23
2.23E-23
Pt-193m
2.00E-19
1.77E-19
1.61E-19
1.52E-19
1.31E-19
1.28E-19
Pt-195m
1.47E-18
1.30E-18
1.19E-18
1.13E-18
9.82E-19
9.59E-19
Pt-197
8.90E-19
8.09E-19
7.54E-19
7.16E-19
6.46E-19
6.33E-19
Pt-197m
2.26E-18
2.04E-18
1.89E-18
1.80E-18
1.62E-18
1.58E-18
Pt-199
8.22E-18
7.55E-18
7.05E-18
6.74E-18
6.19E-18
6.08E-18
Pt-200
1.79E-18
1.62E-18
1.51E-18
1.43E-18
1.29E-18
1.26E-18
Pt-202
1.56E-18
1.44E-18
1.37E-18
1.31E-18
1.21E-18
1.19E-18
Gold
Au-186
5.63E-17
5.17E-17
4.85E-17
4.64E-17
4.27E-17
4.19E-17
Au-187
3.72E-17
3.44E-17
3.24E-17
3.11E-17
2.88E-17
2.83E-17
Au-190
8.32E-17
7.71E-17
7.28E-17
7.05E-17
6.55E-17
6.45E-17
Au-191
1.98E-17
1.81E-17
1.69E-17
1.61E-17
1.47E-17
1.44E-17
Au-192
6.79E-17
6.28E-17
5.93E-17
5.73E-17
5.32E-17
5.23E-17
Au-193
4.50E-18
4.06E-18
3.76E-18
3.58E-18
3.21E-18
3.14E-18
Au-193m
6.44E-18
5.83E-18
5.46E-18
5.19E-18
4.73E-18
4.64E-18
Au-194
3.61E-17
3.32E-17
3.13E-17
3.01E-17
2.78E-17
2.73E-17
Au-195
1.61E-18
1.42E-18
1.30E-18
1.23E-18
1.07E-18
1.04E-18
Au-195m
6.56E-18
5.93E-18
5.56E-18
5.29E-18
4.82E-18
4.72E-18
Au-196
1.58E-17
1.44E-17
1.34E-17
1.28E-17
1.17E-17
1.14E-17
Au-196m
6.84E-18
6.24E-18
5.78E-18
5.50E-18
4.95E-18
4.85E-18
Au-198
1.49E-17
1.36E-17
1.27E-17
1.22E-17
1.11E-17
1.09E-17
Au-198m
1.63E-17
1.48E-17
1.38E-17
1.31E-17
1.19E-17
1.16E-17
Au-199
2.93E-18
2.69E-18
2.49E-18
2.38E-18
2.15E-18
2.11E-18
Au-200
1.17E-17
1.08E-17
1.02E-17
9.71E-18
8.99E-18
8.84E-18
Au-200m
7.06E-17
6.47E-17
6.04E-17
5.77E-17
5.29E-17
5.19E-17
Au-201
2.06E-18
1.89E-18
1.78E-18
1.70E-18
1.56E-18
1.54E-18
Au-202
9.24E-18
8.54E-18
8.06E-18
7.70E-18
7.13E-18
7.01E-18
Mercury
Hg-190
5.26E-18
4.83E-18
4.43E-18
4.23E-18
3.78E-18
3.70E-18
Hg-191m
5.19E-17
4.77E-17
4.48E-17
4.28E-17
3.94E-17
3.87E-17
Hg-192
8.11E-18
7.33E-18
6.82E-18
6.49E-18
5.87E-18
5.75E-18
Hg-193
2.87E-17
2.65E-17
2.49E-17
2.39E-17
2.20E-17
2.16E-17
147
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hg-193m
3.59E-17
3.30E-17
3.10E-17
2.97E-17
2.74E-17
2.69E-17
Hg-194
2.61E-22
1.91E-22
1.28E-22
1.19E-22
4.12E-23
3.77E-23
Hg-195
6.06E-18
5.54E-18
5.18E-18
4.93E-18
4.49E-18
4.40E-18
Hg-195m
6.36E-18
5.78E-18
5.39E-18
5.14E-18
4.68E-18
4.59E-18
Hg-197
1.42E-18
1.26E-18
1.15E-18
1.09E-18
9.49E-19
9.25E-19
Hg-197m
2.55E-18
2.33E-18
2.15E-18
2.05E-18
1.83E-18
1.80E-18
Hg-199m
5.33E-18
4.88E-18
4.51E-18
4.31E-18
3.88E-18
3.81E-18
Hg-203
8.15E-18
7.38E-18
6.92E-18
6.59E-18
6.01E-18
5.89E-18
Hg-205
1.37E-18
1.26E-18
1.20E-18
1.14E-18
1.06E-18
1.04E-18
Hg-206
4.94E-18
4.50E-18
4.21E-18
4.02E-18
3.68E-18
3.61E-18
Hg-207
9.65E-17
8.93E-17
8.44E-17
8.12E-17
7.54E-17
7.42E-17
Thallium
Tl-190
5.19E-17
4.77E-17
4.45E-17
4.27E-17
3.92E-17
3.85E-17
Tl-190m
9.04E-17
8.30E-17
7.76E-17
7.42E-17
6.82E-17
6.69E-17
Tl-194
3.41E-17
3.13E-17
2.92E-17
2.79E-17
2.56E-17
2.51E-17
Tl-194m
9.02E-17
8.28E-17
7.74E-17
7.40E-17
6.79E-17
6.67E-17
Tl-195
4.27E-17
3.94E-17
3.72E-17
3.58E-17
3.31E-17
3.26E-17
Tl-196
6.65E-17
6.14E-17
5.78E-17
5.57E-17
5.15E-17
5.06E-17
Tl-197
1.52E-17
1.40E-17
1.31E-17
1.25E-17
1.15E-17
1.13E-17
Tl-198
7.09E-17
6.55E-17
6.17E-17
5.94E-17
5.51E-17
5.42E-17
Tl-198m
4.26E-17
3.90E-17
3.64E-17
3.48E-17
3.19E-17
3.13E-17
Tl-199
7.69E-18
6.99E-18
6.51E-18
6.20E-18
5.63E-18
5.52E-18
Tl-200
4.61E-17
4.24E-17
3.99E-17
3.81E-17
3.52E-17
3.45E-17
Tl-201
2.05E-18
1.84E-18
1.69E-18
1.60E-18
1.41E-18
1.38E-18
Tl-202
1.57E-17
1.43E-17
1.33E-17
1.27E-17
1.16E-17
1.14E-17
Tl-204
4.26E-19
3.93E-19
3.72E-19
3.53E-19
3.26E-19
3.21E-19
Tl-206
1.20E-18
1.12E-18
1.06E-18
1.01E-18
9.36E-19
9.21E-19
Tl-206m
8.61E-17
7.90E-17
7.42E-17
7.07E-17
6.50E-17
6.38E-17
Tl-207
1.16E-18
1.07E-18
1.02E-18
9.68E-19
8.98E-19
8.84E-19
Tl-208
1.19E-16
1.10E-16
1.04E-16
1.01E-16
9.46E-17
9.32E-17
Tl-209
7.74E-17
7.15E-17
6.74E-17
6.49E-17
6.01E-17
5.91E-17
Tl-210
1.02E-16
9.45E-17
8.94E-17
8.57E-17
7.94E-17
7.81E-17
Lead
Pb-194
3.75E-17
3.45E-17
3.25E-17
3.11E-17
2.87E-17
2.82E-17
Pb-195m
5.86E-17
5.38E-17
5.04E-17
4.81E-17
4.42E-17
4.34E-17
Pb-196
1.62E-17
1.47E-17
1.37E-17
1.31E-17
1.20E-17
1.17E-17
Pb-197
5.40E-17
4.98E-17
4.70E-17
4.50E-17
4.17E-17
4.09E-17
Pb-197m
4.08E-17
3.74E-17
3.50E-17
3.35E-17
3.07E-17
3.02E-17
Pb-198
1.42E-17
1.29E-17
1.21E-17
1.15E-17
1.05E-17
1.03E-17
Pb-199
3.63E-17
3.34E-17
3.15E-17
3.02E-17
2.79E-17
2.74E-17
Pb-200
5.72E-18
5.21E-18
4.82E-18
4.59E-18
4.12E-18
4.04E-18
Pb-201
2.59E-17
2.37E-17
2.23E-17
2.12E-17
1.95E-17
1.91E-17
Pb-201m
1.29E-17
1.18E-17
1.10E-17
1.05E-17
9.67E-18
9.49E-18
Pb-202
2.95E-22
2.02E-22
1.25E-22
1.14E-22
4.01E-23
3.68E-23
Pb-202m
7.17E-17
6.60E-17
6.20E-17
5.91E-17
5.44E-17
5.34E-17
Pb-203
9.89E-18
8.94E-18
8.35E-18
7.95E-18
7.22E-18
7.07E-18
148
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Pb-204m
7.44E-17
6.86E-17
6.47E-17
6.15E-17
5.67E-17
5.57E-17
Pb-205
2.99E-22
2.04E-22
1.26E-22
1.16E-22
4.06E-23
3.72E-23
Pb-209
3.06E-19
2.83E-19
2.68E-19
2.55E-19
2.36E-19
2.32E-19
Pb-210
2.51E-20
2.01E-20
1.73E-20
1.56E-20
1.28E-20
1.25E-20
Pb-211
3.26E-18
3.00E-18
2.82E-18
2.69E-18
2.48E-18
2.44E-18
Pb-212
4.66E-18
4.22E-18
3.95E-18
3.75E-18
3.41E-18
3.34E-18
Pb-214
8.96E-18
8.16E-18
7.61E-18
7.27E-18
6.64E-18
6.51E-18
Bismuth
Bi-197
6.09E-17
5.62E-17
5.30E-17
5.06E-17
4.68E-17
4.60E-17
Bi-200
8.67E-17
7.97E-17
7.47E-17
7.13E-17
6.56E-17
6.44E-17
Bi-201
6.12E-17
5.66E-17
5.35E-17
5.12E-17
4.74E-17
4.67E-17
Bi-202
9.84E-17
9.06E-17
8.53E-17
8.14E-17
7.50E-17
7.37E-17
Bi-203
8.45E-17
7.82E-17
7.39E-17
7.09E-17
6.58E-17
6.47E-17
Bi-204
1.04E-16
9.58E-17
9.04E-17
8.62E-17
7.96E-17
7.82E-17
Bi-205
5.98E-17
5.53E-17
5.22E-17
5.02E-17
4.65E-17
4.58E-17
Bi-206
1.17E-16
1.08E-16
1.01E-16
9.69E-17
8.94E-17
8.79E-17
Bi-207
5.46E-17
5.03E-17
4.73E-17
4.52E-17
4.17E-17
4.10E-17
Bi-208
9.10E-17
8.50E-17
8.07E-17
7.88E-17
7.38E-17
7.28E-17
Bi-210
7.74E-19
7.16E-19
6.80E-19
6.47E-19
6.00E-19
5.90E-19
Bi-210m
8.93E-18
8.10E-18
7.59E-18
7.23E-18
6.60E-18
6.47E-18
Bi-211
1.64E-18
1.49E-18
1.39E-18
1.33E-18
1.21E-18
1.19E-18
Bi-212
4.96E-18
4.58E-18
4.32E-18
4.13E-18
3.83E-18
3.76E-18
Bi-212n
1.19E-18
1.10E-18
1.05E-18
9.98E-19
9.26E-19
9.11E-19
Bi-213
5.41E-18
4.96E-18
4.62E-18
4.43E-18
4.06E-18
3.99E-18
Bi-214
5.47E-17
5.06E-17
4.78E-17
4.59E-17
4.26E-17
4.19E-17
Bi-215
1.03E-17
9.39E-18
8.84E-18
8.43E-18
7.75E-18
7.61E-18
Bi-216
3.05E-17
2.80E-17
2.61E-17
2.50E-17
2.30E-17
2.25E-17
Polonium
Po-203
5.79E-17
5.34E-17
5.04E-17
4.81E-17
4.44E-17
4.37E-17
Po-204
3.97E-17
3.65E-17
3.43E-17
3.26E-17
3.00E-17
2.95E-17
Po-205
5.61E-17
5.17E-17
4.88E-17
4.66E-17
4.30E-17
4.23E-17
Po-206
4.16E-17
3.82E-17
3.59E-17
3.42E-17
3.14E-17
3.09E-17
Po-207
4.54E-17
4.18E-17
3.95E-17
3.75E-17
3.46E-17
3.40E-17
Po-208
7.35E-22
6.73E-22
6.29E-22
6.01E-22
5.50E-22
5.40E-22
Po-209
2.14E-19
1.96E-19
1.85E-19
1.75E-19
1.61E-19
1.58E-19
Po-210
3.53E-22
3.25E-22
3.06E-22
2.91E-22
2.69E-22
2.64E-22
Po-211
2.96E-19
2.72E-19
2.56E-19
2.44E-19
2.25E-19
2.21E-19
Po-212
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Po-212m
2.76E-18
2.57E-18
2.43E-18
2.37E-18
2.21E-18
2.18E-18
Po-213
1.36E-21
1.25E-21
1.18E-21
1.12E-21
1.03E-21
1.01E-21
Po-214
3.01E-21
2.78E-21
2.61E-21
2.49E-21
2.29E-21
2.25E-21
Po-215
6.30E-21
5.76E-21
5.35E-21
5.13E-21
4.70E-21
4.61E-21
Po-216
5.55E-22
5.12E-22
4.82E-22
4.58E-22
4.23E-22
4.15E-22
Po-218
1.37E-23
1.27E-23
1.20E-23
1.14E-23
1.05E-23
1.04E-23
Astatine
At-204
8.42E-17
7.73E-17
7.22E-17
6.90E-17
6.34E-17
6.22E-17
149
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
At-205
4.08E-17
3.76E-17
3.53E-17
3.38E-17
3.11E-17
3.06E-17
At-206
8.92E-17
8.20E-17
7.68E-17
7.35E-17
6.76E-17
6.64E-17
At-207
7.12E-17
6.57E-17
6.19E-17
5.93E-17
5.48E-17
5.38E-17
At-208
1.08E-16
9.97E-17
9.38E-17
8.96E-17
8.27E-17
8.13E-17
At-209
8.09E-17
7.44E-17
6.99E-17
6.66E-17
6.13E-17
6.02E-17
At-210
1.05E-16
9.72E-17
9.20E-17
8.81E-17
8.17E-17
8.03E-17
At-211
7.98E-19
7.17E-19
6.60E-19
6.25E-19
5.52E-19
5.40E-19
At-215
6.03E-21
5.50E-21
5.11E-21
4.90E-21
4.48E-21
4.39E-21
At-216
6.45E-20
5.82E-20
5.39E-20
5.12E-20
4.58E-20
4.48E-20
At-217
8.16E-21
7.42E-21
6.94E-21
6.61E-21
6.03E-21
5.91E-21
At-218
3.12E-21
2.90E-21
2.75E-21
2.63E-21
2.45E-21
2.41E-21
At-219
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
At-220
1.91E-17
1.75E-17
1.64E-17
1.56E-17
1.43E-17
1.41E-17
Radon
Rn-207
3.52E-17
3.23E-17
3.02E-17
2.89E-17
2.65E-17
2.60E-17
Rn-209
4.21E-17
3.88E-17
3.64E-17
3.49E-17
3.21E-17
3.16E-17
Rn-210
2.12E-18
1.95E-18
1.82E-18
1.74E-18
1.60E-18
1.57E-18
Rn-211
6.67E-17
6.15E-17
5.80E-17
5.54E-17
5.11E-17
5.03E-17
Rn-212
1.23E-20
1.13E-20
1.06E-20
1.01E-20
9.28E-21
9.11E-21
Rn-215
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-216
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-217
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-218
2.74E-20
2.52E-20
2.35E-20
2.25E-20
2.06E-20
2.03E-20
Rn-219
2.03E-18
1.85E-18
1.72E-18
1.65E-18
1.50E-18
1.48E-18
Rn-220
2.27E-20
2.08E-20
1.94E-20
1.86E-20
1.70E-20
1.67E-20
Rn-222
1.40E-20
1.28E-20
1.19E-20
1.14E-20
1.05E-20
1.03E-20
Rn-223
1.31E-17
1.20E-17
1.13E-17
1.08E-17
9.91E-18
9.73E-18
Francium
Fr-212
4.01E-17
3.70E-17
3.50E-17
3.34E-17
3.08E-17
3.03E-17
Fr-219
1.24E-19
1.13E-19
1.06E-19
1.01E-19
9.23E-20
9.06E-20
Fr-220
2.35E-19
2.13E-19
1.96E-19
1.87E-19
1.66E-19
1.63E-19
Fr-221
9.52E-19
8.63E-19
8.08E-19
7.68E-19
6.99E-19
6.85E-19
Fr-222
7.29E-18
6.68E-18
6.28E-18
5.98E-18
5.48E-18
5.38E-18
Fr-223
1.98E-18
1.79E-18
1.66E-18
1.58E-18
1.43E-18
1.40E-18
Fr-224
2.15E-17
1.99E-17
1.88E-17
1.79E-17
1.66E-17
1.63E-17
Fr-227
1.67E-17
1.53E-17
1.43E-17
1.37E-17
1.25E-17
1.23E-17
Radium
Ra-219
5.75E-18
5.22E-18
4.87E-18
4.65E-18
4.24E-18
4.16E-18
Ra-220
1.67E-19
1.53E-19
1.42E-19
1.37E-19
1.25E-19
1.23E-19
Ra-221
1.02E-18
9.40E-19
8.66E-19
8.27E-19
7.43E-19
7.29E-19
Ra-222
3.21E-19
2.92E-19
2.72E-19
2.60E-19
2.38E-19
2.33E-19
Ra-223
4.20E-18
3.82E-18
3.55E-18
3.38E-18
3.06E-18
3.00E-18
Ra-224
3.48E-19
3.16E-19
2.96E-19
2.82E-19
2.57E-19
2.52E-19
Ra-225
2.08E-19
1.76E-19
1.57E-19
1.45E-19
1.27E-19
1.24E-19
Ra-226
2.32E-19
2.12E-19
1.97E-19
1.88E-19
1.70E-19
1.67E-19
Ra-227
5.56E-18
5.07E-18
4.74E-18
4.52E-18
4.14E-18
4.06E-18
150
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ra-228
1.82E-21
1.45E-21
1.21E-21
1.17E-21
7.06E-22
6.72E-22
Ra-230
2.71E-18
2.47E-18
2.29E-18
2.19E-18
1.99E-18
1.95E-18
Actinium
Ac-223
5.49E-19
5.00E-19
4.65E-19
4.44E-19
4.03E-19
3.95E-19
Ac-224
6.71E-18
6.10E-18
5.68E-18
5.40E-18
4.87E-18
4.78E-18
Ac-225
3.97E-19
3.62E-19
3.35E-19
3.19E-19
2.86E-19
2.81E-19
Ac-226
4.63E-18
4.22E-18
3.95E-18
3.76E-18
3.42E-18
3.35E-18
Ac-227
3.29E-21
2.92E-21
2.68E-21
2.54E-21
2.22E-21
2.17E-21
Ac-228
3.17E-17
2.92E-17
2.76E-17
2.63E-17
2.43E-17
2.39E-17
Ac-230
2.18E-17
2.02E-17
1.91E-17
1.83E-17
1.70E-17
1.67E-17
Ac-231
1.51E-17
1.38E-17
1.29E-17
1.23E-17
1.12E-17
1.10E-17
Ac-232
4.36E-17
4.04E-17
3.82E-17
3.69E-17
3.43E-17
3.38E-17
Ac-233
2.01E-17
1.85E-17
1.72E-17
1.65E-17
1.51E-17
1.49E-17
Thorium
Th-223
1.85E-18
1.68E-18
1.55E-18
1.48E-18
1.32E-18
1.29E-18
Th-224
7.32E-19
6.70E-19
6.23E-19
5.95E-19
5.40E-19
5.29E-19
Th-226
2.26E-19
2.05E-19
1.91E-19
1.81E-19
1.63E-19
1.60E-19
Th-227
3.99E-18
3.61E-18
3.38E-18
3.21E-18
2.92E-18
2.87E-18
Th-228
5.63E-20
5.09E-20
4.71E-20
4.48E-20
4.00E-20
3.92E-20
Th-229
2.25E-18
2.04E-18
1.88E-18
1.79E-18
1.60E-18
1.57E-18
Th-230
9.48E-21
8.44E-21
7.68E-21
7.29E-21
6.29E-21
6.15E-21
Th-231
3.53E-19
3.17E-19
2.92E-19
2.77E-19
2.46E-19
2.40E-19
Th-232
4.57E-21
3.98E-21
3.56E-21
3.36E-21
2.80E-21
2.73E-21
Th-233
1.97E-18
1.81E-18
1.70E-18
1.62E-18
1.49E-18
1.47E-18
Th-234
2.30E-19
2.06E-19
1.90E-19
1.80E-19
1.59E-19
1.56E-19
Th-235
3.52E-18
3.25E-18
3.06E-18
2.92E-18
2.70E-18
2.65E-18
Th-236
1.79E-18
1.64E-18
1.54E-18
1.47E-18
1.35E-18
1.32E-18
Protactinium
Pa-227
4.54E-19
4.07E-19
3.74E-19
3.54E-19
3.13E-19
3.06E-19
Pa-228
4.78E-17
4.40E-17
4.15E-17
3.96E-17
3.65E-17
3.59E-17
Pa-229
1.51E-18
1.36E-18
1.26E-18
1.20E-18
1.06E-18
1.04E-18
Pa-230
2.32E-17
2.14E-17
2.01E-17
1.92E-17
1.76E-17
1.73E-17
Pa-231
1.12E-18
1.02E-18
9.47E-19
9.03E-19
8.22E-19
8.05E-19
Pa-232
3.36E-17
3.10E-17
2.92E-17
2.78E-17
2.56E-17
2.51E-17
Pa-233
7.17E-18
6.51E-18
6.07E-18
5.80E-18
5.28E-18
5.17E-18
Pa-234
5.20E-17
4.79E-17
4.52E-17
4.30E-17
3.97E-17
3.90E-17
Pa-234m
2.67E-18
2.48E-18
2.35E-18
2.24E-18
2.08E-18
2.05E-18
Pa-235
1.02E-18
9.43E-19
8.95E-19
8.52E-19
7.91E-19
7.78E-19
Pa-236
3.44E-17
3.18E-17
3.00E-17
2.88E-17
2.67E-17
2.62E-17
Pa-237
2.33E-17
2.15E-17
2.02E-17
1.93E-17
1.77E-17
1.74E-17
Uranium
U-227
3.58E-18
3.24E-18
3.02E-18
2.88E-18
2.61E-18
2.56E-18
U-228
1.11E-19
1.01E-19
9.34E-20
8.88E-20
7.97E-20
7.82E-20
U-230
3.09E-20
2.79E-20
2.57E-20
2.45E-20
2.17E-20
2.12E-20
U-231
1.73E-18
1.56E-18
1.43E-18
1.36E-18
1.21E-18
1.19E-18
U-232
6.48E-21
5.64E-21
5.06E-21
4.80E-21
4.01E-21
3.92E-21
151
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
U-233
7.17E-21
6.38E-21
5.85E-21
5.56E-21
4.88E-21
4.78E-21
U-234
3.45E-21
2.91E-21
2.56E-21
2.43E-21
1.92E-21
1.87E-21
U-235
5.11E-18
4.68E-18
4.35E-18
4.15E-18
3.76E-18
3.69E-18
U-235m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
U-236
1.99E-21
1.62E-21
1.39E-21
1.32E-21
9.62E-22
9.29E-22
U-237
3.72E-18
3.36E-18
3.11E-18
2.96E-18
2.66E-18
2.61E-18
U-238
1.74E-21
1.43E-21
1.25E-21
1.18E-21
8.94E-22
8.66E-22
U-239
1.98E-18
1.80E-18
1.68E-18
1.59E-18
1.44E-18
1.41E-18
U-240
2.30E-19
2.10E-19
1.96E-19
1.86E-19
1.68E-19
1.65E-19
U-242
2.05E-18
1.88E-18
1.76E-18
1.68E-18
1.53E-18
1.51E-18
Neptunium
Np-232
4.18E-17
3.84E-17
3.61E-17
3.43E-17
3.16E-17
3.10E-17
Np-233
2.28E-18
2.06E-18
1.91E-18
1.81E-18
1.62E-18
1.59E-18
Np-234
3.89E-17
3.59E-17
3.40E-17
3.27E-17
3.03E-17
2.98E-17
Np-235
1.69E-20
1.47E-20
1.32E-20
1.26E-20
1.05E-20
1.02E-20
Np-236
3.83E-18
3.50E-18
3.23E-18
3.08E-18
2.76E-18
2.71E-18
Np-236m
1.38E-18
1.26E-18
1.17E-18
1.11E-18
9.98E-19
9.80E-19
Np-237
5.49E-19
4.92E-19
4.51E-19
4.28E-19
3.79E-19
3.71E-19
Np-238
2.14E-17
1.98E-17
1.88E-17
1.78E-17
1.65E-17
1.62E-17
Np-239
5.45E-18
4.95E-18
4.61E-18
4.39E-18
3.97E-18
3.89E-18
Np-240
3.76E-17
3.46E-17
3.25E-17
3.10E-17
2.85E-17
2.80E-17
Np-240m
1.30E-17
1.20E-17
1.12E-17
1.07E-17
9.89E-18
9.71E-18
Np-241
1.89E-18
1.74E-18
1.62E-18
1.55E-18
1.41E-18
1.39E-18
Np-242
1.19E-17
1.11E-17
1.05E-17
1.00E-17
9.31E-18
9.15E-18
Np-242m
3.35E-17
3.09E-17
2.91E-17
2.77E-17
2.55E-17
2.51E-17
Plutonium
Pu-232
1.53E-18
1.39E-18
1.28E-18
1.22E-18
1.09E-18
1.07E-18
Pu-234
1.65E-18
1.50E-18
1.38E-18
1.32E-18
1.17E-18
1.15E-18
Pu-235
2.34E-18
2.12E-18
1.96E-18
1.87E-18
1.67E-18
1.64E-18
Pu-236
2.13E-21
1.65E-21
1.39E-21
1.33E-21
8.88E-22
8.51E-22
Pu-237
1.18E-18
1.06E-18
9.81E-19
9.33E-19
8.31E-19
8.15E-19
Pu-238
1.56E-21
1.17E-21
9.63E-22
9.25E-22
5.56E-22
5.27E-22
Pu-239
2.35E-21
2.03E-21
1.82E-21
1.74E-21
1.45E-21
1.41E-21
Pu-240
1.54E-21
1.17E-21
9.64E-22
9.23E-22
5.69E-22
5.41E-22
Pu-241
9.36E-23
8.59E-23
8.04E-23
7.65E-23
6.97E-23
6.85E-23
Pu-242
4.08E-21
3.56E-21
3.24E-21
3.12E-21
2.66E-21
2.60E-21
Pu-243
8.04E-19
7.29E-19
6.77E-19
6.43E-19
5.78E-19
5.66E-19
Pu-244
7.37E-19
6.83E-19
6.46E-19
6.22E-19
5.78E-19
5.68E-19
Pu-245
1.45E-17
1.33E-17
1.24E-17
1.19E-17
1.09E-17
1.07E-17
Pu-246
3.92E-18
3.55E-18
3.30E-18
3.14E-18
2.83E-18
2.78E-18
Americium
Am-237
1.19E-17
1.08E-17
1.01E-17
9.62E-18
8.76E-18
8.59E-18
Am-238
3.15E-17
2.90E-17
2.74E-17
2.61E-17
2.40E-17
2.36E-17
Am-239
6.66E-18
6.04E-18
5.61E-18
5.34E-18
4.82E-18
4.73E-18
Am-240
3.63E-17
3.35E-17
3.17E-17
3.01E-17
2.78E-17
2.73E-17
Am-241
3.74E-19
3.19E-19
2.86E-19
2.65E-19
2.26E-19
2.20E-19
152
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Am-242
5.96E-19
5.45E-19
5.08E-19
4.83E-19
4.37E-19
4.30E-19
Am-242m
1.06E-20
8.67E-21
7.60E-21
7.24E-21
5.65E-21
5.48E-21
Am-243
1.14E-18
1.02E-18
9.30E-19
8.78E-19
7.66E-19
7.47E-19
Am-244
2.84E-17
2.61E-17
2.46E-17
2.34E-17
2.15E-17
2.12E-17
Am-244m
1.61E-18
1.49E-18
1.41E-18
1.34E-18
1.24E-18
1.22E-18
Am-245
1.40E-18
1.28E-18
1.20E-18
1.14E-18
1.04E-18
1.02E-18
Am-246
2.63E-17
2.42E-17
2.27E-17
2.16E-17
1.98E-17
1.95E-17
Am-246m
3.62E-17
3.34E-17
3.16E-17
3.01E-17
2.78E-17
2.74E-17
Am-247
5.08E-18
4.64E-18
4.34E-18
4.13E-18
3.76E-18
3.69E-18
Curium
Cm-238
2.04E-18
1.86E-18
1.72E-18
1.64E-18
1.46E-18
1.44E-18
Cm-239
7.57E-18
6.92E-18
6.43E-18
6.12E-18
5.53E-18
5.43E-18
Cm-240
2.08E-21
1.55E-21
1.28E-21
1.23E-21
7.71E-22
7.34E-22
Cm-241
1.66E-17
1.52E-17
1.41E-17
1.35E-17
1.23E-17
1.21E-17
Cm-242
1.75E-21
1.29E-21
1.06E-21
1.02E-21
6.15E-22
5.83E-22
Cm-243
3.90E-18
3.54E-18
3.30E-18
3.14E-18
2.84E-18
2.79E-18
Cm-244
2.01E-21
1.58E-21
1.36E-21
1.31E-21
9.35E-22
9.01E-22
Cm-245
2.72E-18
2.48E-18
2.29E-18
2.18E-18
1.96E-18
1.92E-18
Cm-246
1.34E-19
1.24E-19
1.17E-19
1.13E-19
1.05E-19
1.03E-19
Cm-247
1.11E-17
1.01E-17
9.43E-18
9.04E-18
8.27E-18
8.11E-18
Cm-248
4.86E-17
4.50E-17
4.26E-17
4.10E-17
3.81E-17
3.75E-17
Cm-249
1.16E-18
1.07E-18
1.01E-18
9.60E-19
8.84E-19
8.69E-19
Cm-250
4.96E-16
4.60E-16
4.35E-16
4.19E-16
3.89E-16
3.83E-16
Cm-251
4.77E-18
4.39E-18
4.10E-18
3.92E-18
3.60E-18
3.54E-18
Berkelium
Bk-245
6.67E-18
6.07E-18
5.64E-18
5.37E-18
4.85E-18
4.76E-18
Bk-246
2.98E-17
2.74E-17
2.59E-17
2.46E-17
2.26E-17
2.22E-17
Bk-247
4.34E-18
3.93E-18
3.66E-18
3.49E-18
3.15E-18
3.09E-18
Bk-248m
1.94E-18
1.78E-18
1.65E-18
1.58E-18
1.44E-18
1.41E-18
Bk-249
1.75E-20
1.62E-20
1.53E-20
1.46E-20
1.35E-20
1.33E-20
Bk-250
3.28E-17
3.03E-17
2.87E-17
2.73E-17
2.52E-17
2.48E-17
Bk-251
2.85E-18
2.62E-18
2.43E-18
2.32E-18
2.09E-18
2.06E-18
Californium
Cf-244
1.77E-21
1.22E-21
9.68E-22
9.31E-22
5.02E-22
4.68E-22
Cf-246
2.58E-21
2.09E-21
1.83E-21
1.76E-21
1.37E-21
1.33E-21
Cf-247
2.46E-18
2.25E-18
2.07E-18
1.98E-18
1.77E-18
1.74E-18
Cf-248
1.37E-20
1.23E-20
1.15E-20
1.10E-20
9.92E-21
9.74E-21
Cf-249
1.14E-17
1.04E-17
9.68E-18
9.27E-18
8.47E-18
8.31E-18
Cf-250
3.62E-19
3.35E-19
3.16E-19
3.05E-19
2.83E-19
2.78E-19
Cf-251
3.43E-18
3.13E-18
2.91E-18
2.77E-18
2.50E-18
2.45E-18
Cf-252
1.68E-17
1.56E-17
1.47E-17
1.42E-17
1.32E-17
1.30E-17
Cf-253
7.79E-20
7.04E-20
6.60E-20
6.26E-20
5.69E-20
5.58E-20
Cf-254
6.25E-16
5.79E-16
5.48E-16
5.28E-16
4.90E-16
4.83E-16
Cf-255
3.52E-19
3.25E-19
3.08E-19
2.93E-19
2.71E-19
2.67E-19
Einsteinium
Es-249
1.36E-17
1.25E-17
1.16E-17
1.11E-17
1.02E-17
9.97E-18
153
-------�
Table 4-4. Reference person effective dose rate coefficients for soil to 15 cm. (continued)
Reference Person Coefficients (Sv Bq1 s_1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Es-250
4.07E-17
3.74E-17
3.51E-17
3.34E-17
3.06E-17
3.00E-17
Es-250m
1.89E-17
1.75E-17
1.65E-17
1.57E-17
1.45E-17
1.42E-17
Es-251
2.45E-18
2.25E-18
2.07E-18
1.98E-18
1.77E-18
1.74E-18
Es-253
1.12E-20
1.01E-20
9.31E-21
8.91E-21
8.03E-21
7.87E-21
Es-254
9.12E-20
7.82E-20
7.06E-20
6.69E-20
5.72E-20
5.57E-20
Es-254m
1.73E-17
1.59E-17
1.49E-17
1.42E-17
1.31E-17
1.28E-17
Es-255
9.95E-20
9.20E-20
8.72E-20
8.31E-20
7.70E-20
7.57E-20
Es-256
1.31E-18
1.21E-18
1.15E-18
1.09E-18
1.01E-18
9.97E-19
Fermium
Fm-251
4.65E-18
4.28E-18
3.97E-18
3.79E-18
3.44E-18
3.38E-18
Fm-252
1.12E-20
9.95E-21
9.21E-21
8.85E-21
7.89E-21
7.73E-21
Fm-253
1.61E-18
1.47E-18
1.36E-18
1.30E-18
1.16E-18
1.14E-18
Fm-254
2.58E-19
2.39E-19
2.26E-19
2.17E-19
2.01E-19
1.98E-19
Fm-255
5.18E-20
4.34E-20
3.85E-20
3.65E-20
2.98E-20
2.90E-20
Fm-256
4.57E-16
4.24E-16
4.01E-16
3.86E-16
3.58E-16
3.53E-16
Fm-257
4.35E-18
3.99E-18
3.71E-18
3.55E-18
3.23E-18
3.17E-18
154
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth.
Explanation of entries
For each radionuclide, values for the age-dependent effective dose rate coefficients e. based on the
weighting factors of Table 3-1, are given in SI units. Reference person organ equivalent dose coefficients
hr are provided electronically.15
e: The effective dose rate coefficient (Sv Bq 1 s"1 m3), that is, the effective dose per unit
time-integrated exposure to a radionuclide
wf- The tissue weighting factor
e = ^ wT hT
T
where hT is the equivalent dose rate coefficient (Sv Bq"1 s"1 m"3) for tissue T.
The dose rate coefficients provided in Table 4-5 are based on the radiations emitted by the indicated
radionuclide and do not include the radiations emitted by radioactive decay products. Radioactive decay
products for each radionuclide are identified in Appendix A.
To convert from a source per unit volume (Sv Bq"1 s"1 m3) to a source per unit mass basis (Sv Bq"1 s"1
kg), multiply table entries by 1.6 x 103.
To convert from SI units (Sv Bq"1 s"1 m3) to conventional units (mrem jxCi"1 y"1 cm3), multiply table
entries by 1.168 x 1023.
To convert from SI units from a source per unit volume (Sv Bq"1 s"1 m3) to conventional units for a
source per unit mass basis (mrem jxCi"1 y"1 g), multiply table entries by 1.868 x 1023.
To derive coefficients for a soil density other than 1.6 x 103 kg m"3, multiply coefficients (in any units)
by (1.6 x 103/p), where p is the soil density in kgm"3.
15 https://www.epa.gov/radiation/federal-guidance-report-no-15-external-exposure-radionuclides-air-water-and-soil
155
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth.
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old 15-yr-old
Adult
Hydrogen
H-3
Beryllium
Be-7
Be-10
Carbon
C-10
C-ll
C-14
Nitrogen
N-13
N-16
Oxygen
0-14
0-15
0-19
Fluorine
F-17
F-18
Neon
Ne-19
Ne-24
Sodium
Na-22
Na-24
Magnesium
Mg-27
Mg-28
Aluminum
Al-26
Al-28
Al-29
Silicon
Si-31
Si-32
Phosphorus
P-30
P-32
P-33
Sulfur
S-35
S-37
S-38
Chlorine
Cl-34
Cl-34m
4.55E-23
1.96E-18
4.84E-19
7.26E-17
4.13E-17
4.19E-20
4.16E-17
2.36E-16
1.48E-16
4.26E-17
4.65E-17
4.26E-17
3.97E-17
4.35E-17
2.38E-17
9.22E-17
1.88E-16
3.94E-17
5.81E-17
1.17E-16
8.43E-17
6.36E-17
1.63E-18
7.40E-20
4.58E-17
1.96E-18
8.79E-20
4.21E-20
1.38E-16
7.81E-17
4.92E-17
9.33E-17
4.19E-23
1.80E-18
4.45E-19
6.67E-17
3.79E-17
3.86E-20
3.82E-17
2.26E-16
1.37E-16
3.91E-17
4.28E-17
3.91E-17
3.64E-17
3.99E-17
2.19E-17
8.49E-17
1.75E-16
3.63E-17
5.36E-17
1.08E-16
7.81E-17
5.88E-17
1.50E-18
6.81E-20
4.21E-17
1.81E-18
8.09E-20
3.88E-20
1.29E-16
7.24E-17
4.52E-17
8.65E-17
3.96E-23
1.66E-18
4.21E-19
6.21E-17
3.51E-17
3.64E-20
3.54E-17
2.17E-16
1.29E-16
3.62E-17
4.04E-17
3.62E-17
3.37E-17
3.71E-17
2.04E-17
7.96E-17
1.65E-16
3.41E-17
5.05E-17
1.02E-16
7.37E-17
5.55E-17
1.42E-18
6.43E-20
3.91E-17
1.71E-18
7.64E-20
3.66E-20
1.22E-16
6.84E-17
4.21E-17
8.14E-17
3.76E-23
1.60E-18
4.00E-19
5.94E-17
3.37E-17
3.46E-20
3.40E-17
2.12E-16
1.25E-16
3.47E-17
3.87E-17
3.47E-17
3.23E-17
3.55E-17
1.95E-17
7.62E-17
1.60E-16
3.25E-17
4.83E-17
9.80E-17
7.13E-17
5.32E-17
1.35E-18
6.11E-20
3.74E-17
1.63E-18
7.26E-20
3.48E-20
1.19E-16
6.63E-17
4.04E-17
7.87E-17
3.47E-23
1.46E-18
3.69E-19
5.45E-17
3.09E-17
3.19E-20
3.11E-17
2.02E-16
1.16E-16
3.19E-17
3.57E-17
3.19E-17
2.96E-17
3.26E-17
1.79E-17
7.02E-17
1.49E-16
2.99E-17
4.46E-17
9.07E-17
6.62E-17
4.93E-17
1.25E-18
5.64E-20
3.44E-17
1.51E-18
6.70E-20
3.21E-20
1.11E-16
6.17E-17
3.71E-17
7.30E-17
3.41E-23
1.44E-18
3.63E-19
5.35E-17
3.03E-17
3.14E-20
3.05E-17
2.00E-16
1.14E-16
3.13E-17
3.51E-17
3.13E-17
2.91E-17
3.20E-17
1.76E-17
6.90E-17
1.47E-16
2.94E-17
4.38E-17
8.91E-17
6.51E-17
4.85E-17
1.23E-18
5.54E-20
3.37E-17
1.49E-18
6.59E-20
3.16E-20
1.09E-16
6.07E-17
3.64E-17
7.18E-17
156
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cl-36
5.61E-19
5.17E-19
4.88E-19
4.64E-19
4.29E-19
4.21E-19
Cl-38
7.19E-17
6.67E-17
6.30E-17
6.10E-17
5.68E-17
5.58E-17
Cl-39
6.52E-17
6.01E-17
5.68E-17
5.44E-17
5.03E-17
4.95E-17
Cl-40
1.91E-16
1.78E-16
1.69E-16
1.64E-16
1.53E-16
1.50E-16
Argon
Ar-37
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ar-39
4.06E-19
3.74E-19
3.53E-19
3.36E-19
3.10E-19
3.05E-19
Ar-41
5.71E-17
5.27E-17
4.98E-17
4.76E-17
4.40E-17
4.33E-17
Ar-42
4.42E-19
4.07E-19
3.85E-19
3.66E-19
3.37E-19
3.32E-19
Ar-43
7.24E-17
6.70E-17
6.32E-17
6.07E-17
5.63E-17
5.54E-17
Ar-44
8.66E-17
8.01E-17
7.55E-17
7.29E-17
6.76E-17
6.65E-17
Potassium
K-38
1.43E-16
1.33E-16
1.25E-16
1.21E-16
1.12E-16
1.10E-16
K-40
8.30E-18
7.67E-18
7.24E-18
6.95E-18
6.43E-18
6.33E-18
K-42
1.77E-17
1.64E-17
1.55E-17
1.49E-17
1.38E-17
1.36E-17
K-43
3.88E-17
3.56E-17
3.31E-17
3.17E-17
2.90E-17
2.85E-17
K-44
1.12E-16
1.04E-16
9.85E-17
9.49E-17
8.82E-17
8.68E-17
K-45
8.40E-17
7.78E-17
7.34E-17
7.08E-17
6.57E-17
6.46E-17
K-46
1.41E-16
1.31E-16
1.24E-16
1.20E-16
1.11E-16
1.10E-16
Calcium
Ca-41
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ca-45
8.99E-20
8.27E-20
7.81E-20
7.43E-20
6.85E-20
6.74E-20
Ca-47
4.65E-17
4.29E-17
4.05E-17
3.87E-17
3.58E-17
3.52E-17
Ca-49
1.49E-16
1.39E-16
1.32E-16
1.28E-16
1.20E-16
1.18E-16
Scandium
Sc-42m
1.82E-16
1.68E-16
1.58E-16
1.51E-16
1.40E-16
1.37E-16
Sc-43
3.99E-17
3.66E-17
3.39E-17
3.25E-17
2.98E-17
2.93E-17
Sc-44
9.04E-17
8.32E-17
7.79E-17
7.45E-17
6.86E-17
6.73E-17
Sc-44m
1.02E-17
9.30E-18
8.72E-18
8.31E-18
7.60E-18
7.45E-18
Sc-46
8.56E-17
7.88E-17
7.44E-17
7.07E-17
6.52E-17
6.41E-17
Sc-47
3.73E-18
3.46E-18
3.20E-18
3.06E-18
2.76E-18
2.72E-18
Sc-48
1.44E-16
1.33E-16
1.26E-16
1.20E-16
1.11E-16
1.09E-16
Sc-49
2.49E-18
2.30E-18
2.18E-18
2.08E-18
1.93E-18
1.90E-18
Sc-50
1.45E-16
1.34E-16
1.26E-16
1.21E-16
1.12E-16
1.10E-16
Titanium
Ti-44
2.90E-18
2.58E-18
2.36E-18
2.23E-18
1.94E-18
1.90E-18
Ti-45
3.54E-17
3.25E-17
3.01E-17
2.89E-17
2.65E-17
2.60E-17
Ti-51
1.68E-17
1.53E-17
1.43E-17
1.37E-17
1.26E-17
1.23E-17
Ti-52
5.75E-18
5.31E-18
4.94E-18
4.72E-18
4.28E-18
4.21E-18
Vanadium
V-47
4.19E-17
3.84E-17
3.57E-17
3.42E-17
3.14E-17
3.08E-17
V-48
1.24E-16
1.14E-16
1.08E-16
1.03E-16
9.49E-17
9.33E-17
V-49
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
V-50
6.28E-17
5.81E-17
5.48E-17
5.27E-17
4.88E-17
4.80E-17
V-52
6.72E-17
6.21E-17
5.86E-17
5.63E-17
5.21E-17
5.13E-17
V-53
4.75E-17
4.37E-17
4.13E-17
3.93E-17
3.62E-17
3.56E-17
157
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Chromium
Cr-48
1.52E-17
1.38E-17
1.28E-17
1.23E-17
1.12E-17
1.09E-17
Cr-49
4.21E-17
3.86E-17
3.58E-17
3.43E-17
3.14E-17
3.08E-17
Cr-51
1.19E-18
1.08E-18
1.01E-18
9.60E-19
8.78E-19
8.60E-19
Cr-55
3.69E-18
3.41E-18
3.23E-18
3.09E-18
2.86E-18
2.81E-18
Cr-56
3.44E-18
3.12E-18
2.90E-18
2.76E-18
2.48E-18
2.44E-18
Manganese
Mn-50m
2.02E-16
1.86E-16
1.75E-16
1.67E-16
1.54E-16
1.52E-16
Mn-51
4.25E-17
3.90E-17
3.62E-17
3.47E-17
3.18E-17
3.12E-17
Mn-52
1.47E-16
1.36E-16
1.28E-16
1.22E-16
1.13E-16
1.11E-16
Mn-52m
1.06E-16
9.73E-17
9.12E-17
8.75E-17
8.08E-17
7.94E-17
Mn-53
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Mn-54
3.48E-17
3.20E-17
3.01E-17
2.86E-17
2.63E-17
2.59E-17
Mn-56
7.63E-17
7.05E-17
6.65E-17
6.38E-17
5.91E-17
5.81E-17
Mn-57
7.37E-18
6.80E-18
6.39E-18
6.11E-18
5.64E-18
5.54E-18
Mn-58m
1.10E-16
1.01E-16
9.53E-17
9.13E-17
8.44E-17
8.30E-17
Iron
Fe-52
2.85E-17
2.62E-17
2.43E-17
2.33E-17
2.13E-17
2.09E-17
Fe-53
5.03E-17
4.62E-17
4.29E-17
4.11E-17
3.77E-17
3.70E-17
Fe-53m
1.31E-16
1.21E-16
1.14E-16
1.09E-16
1.01E-16
9.91E-17
Fe-55
4.69E-27
4.33E-27
3.98E-27
3.81E-27
3.42E-27
3.36E-27
Fe-59
5.14E-17
4.74E-17
4.48E-17
4.27E-17
3.95E-17
3.88E-17
Fe-60
6.50E-20
5.99E-20
5.65E-20
5.37E-20
4.96E-20
4.87E-20
Fe-61
6.35E-17
5.85E-17
5.52E-17
5.28E-17
4.88E-17
4.80E-17
Fe-62
2.25E-17
2.07E-17
1.92E-17
1.84E-17
1.69E-17
1.66E-17
Cobalt
Co-54m
1.74E-16
1.60E-16
1.50E-16
1.44E-16
1.33E-16
1.30E-16
Co-55
8.37E-17
7.70E-17
7.21E-17
6.89E-17
6.34E-17
6.23E-17
Co-56
1.60E-16
1.48E-16
1.39E-16
1.34E-16
1.24E-16
1.22E-16
Co-57
3.48E-18
3.21E-18
2.96E-18
2.83E-18
2.54E-18
2.49E-18
Co-58
4.03E-17
3.70E-17
3.47E-17
3.31E-17
3.04E-17
2.99E-17
Co-58m
2.43E-23
1.64E-23
1.28E-23
1.16E-23
7.81E-24
7.41E-24
Co-60
1.09E-16
1.01E-16
9.50E-17
9.08E-17
8.39E-17
8.25E-17
Co-60m
1.67E-19
1.53E-19
1.44E-19
1.37E-19
1.26E-19
1.24E-19
Co-61
3.90E-18
3.55E-18
3.31E-18
3.14E-18
2.85E-18
2.80E-18
Co-62
7.70E-17
7.12E-17
6.73E-17
6.45E-17
5.98E-17
5.88E-17
Co-62m
1.21E-16
1.12E-16
1.06E-16
1.01E-16
9.39E-17
9.23E-17
Nickel
Ni-56
6.95E-17
6.40E-17
5.99E-17
5.72E-17
5.26E-17
5.16E-17
Ni-57
8.36E-17
7.71E-17
7.25E-17
6.97E-17
6.44E-17
6.33E-17
Ni-59
6.16E-22
5.65E-22
5.24E-22
5.02E-22
4.60E-22
4.52E-22
Ni-63
5.46E-21
5.03E-21
4.75E-21
4.51E-21
4.16E-21
4.09E-21
Ni-65
2.62E-17
2.42E-17
2.28E-17
2.19E-17
2.02E-17
1.99E-17
Ni-66
8.35E-20
7.68E-20
7.26E-20
6.90E-20
6.36E-20
6.26E-20
Copper
Cu-57
6.89E-17
6.38E-17
5.98E-17
5.74E-17
5.32E-17
5.23E-17
158
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cu-59
6.41E-17
5.90E-17
5.50E-17
5.27E-17
4.84E-17
4.76E-17
Cu-60
1.72E-16
1.59E-16
1.49E-16
1.44E-16
1.33E-16
1.31E-16
Cu-61
3.35E-17
3.08E-17
2.86E-17
2.74E-17
2.51E-17
2.46E-17
Cu-62
4.45E-17
4.08E-17
3.79E-17
3.63E-17
3.34E-17
3.27E-17
Cu-64
7.56E-18
6.94E-18
6.44E-18
6.17E-18
5.66E-18
5.55E-18
Cu-66
7.70E-18
7.10E-18
6.71E-18
6.39E-18
5.91E-18
5.81E-18
Cu-67
3.88E-18
3.54E-18
3.30E-18
3.14E-18
2.85E-18
2.79E-18
Cu-69
2.51E-17
2.31E-17
2.18E-17
2.08E-17
1.92E-17
1.88E-17
Zinc
Zn-60
6.44E-17
5.91E-17
5.49E-17
5.26E-17
4.83E-17
4.74E-17
Zn-61
7.07E-17
6.51E-17
6.08E-17
5.84E-17
5.38E-17
5.29E-17
Zn-62
1.72E-17
1.58E-17
1.47E-17
1.40E-17
1.29E-17
1.26E-17
Zn-63
4.68E-17
4.30E-17
3.99E-17
3.82E-17
3.51E-17
3.44E-17
Zn-65
2.48E-17
2.29E-17
2.16E-17
2.05E-17
1.90E-17
1.87E-17
Zn-69
6.96E-19
6.42E-19
6.06E-19
5.77E-19
5.33E-19
5.24E-19
Zn-69m
1.62E-17
1.48E-17
1.37E-17
1.32E-17
1.20E-17
1.18E-17
Zn-71
1.62E-17
1.49E-17
1.40E-17
1.34E-17
1.23E-17
1.21E-17
Zn-71m
6.37E-17
5.84E-17
5.44E-17
5.20E-17
4.78E-17
4.69E-17
Zn-72
4.60E-18
4.26E-18
3.93E-18
3.76E-18
3.39E-18
3.33E-18
Gallium
Ga-64
1.53E-16
1.41E-16
1.33E-16
1.28E-16
1.19E-16
1.17E-16
Ga-65
4.79E-17
4.39E-17
4.08E-17
3.91E-17
3.59E-17
3.52E-17
Ga-66
1.13E-16
1.05E-16
9.93E-17
9.59E-17
8.92E-17
8.78E-17
Ga-67
5.13E-18
4.66E-18
4.34E-18
4.14E-18
3.76E-18
3.68E-18
Ga-68
3.99E-17
3.66E-17
3.40E-17
3.26E-17
2.99E-17
2.93E-17
Ga-70
2.09E-18
1.93E-18
1.82E-18
1.74E-18
1.61E-18
1.58E-18
Ga-72
1.20E-16
1.11E-16
1.04E-16
1.00E-16
9.30E-17
9.15E-17
Ga-73
1.41E-17
1.28E-17
1.20E-17
1.14E-17
1.05E-17
1.03E-17
Ga-74
1.42E-16
1.32E-16
1.24E-16
1.20E-16
1.11E-16
1.10E-16
Germanium
Ge-66
2.59E-17
2.37E-17
2.21E-17
2.11E-17
1.93E-17
1.90E-17
Ge-67
6.08E-17
5.59E-17
5.21E-17
5.00E-17
4.59E-17
4.51E-17
Ge-68
5.58E-23
3.58E-23
2.04E-23
1.84E-23
6.64E-24
6.13E-24
Ge-69
3.99E-17
3.67E-17
3.45E-17
3.29E-17
3.03E-17
2.98E-17
Ge-71
5.67E-23
3.63E-23
2.07E-23
1.87E-23
6.74E-24
6.22E-24
Ge-75
2.28E-18
2.08E-18
1.96E-18
1.87E-18
1.71E-18
1.68E-18
Ge-77
4.49E-17
4.12E-17
3.86E-17
3.69E-17
3.39E-17
3.33E-17
Ge-78
1.06E-17
9.60E-18
9.00E-18
8.57E-18
7.83E-18
7.68E-18
Arsenic
As-68
1.66E-16
1.53E-16
1.44E-16
1.38E-16
1.27E-16
1.25E-16
As-69
4.99E-17
4.59E-17
4.27E-17
4.09E-17
3.76E-17
3.69E-17
As-70
1.83E-16
1.69E-16
1.59E-16
1.52E-16
1.40E-16
1.38E-16
As-71
2.22E-17
2.04E-17
1.90E-17
1.81E-17
1.66E-17
1.63E-17
As-72
7.65E-17
7.03E-17
6.57E-17
6.28E-17
5.78E-17
5.68E-17
As-73
8.38E-20
6.96E-20
6.14E-20
5.61E-20
4.75E-20
4.63E-20
As-74
3.10E-17
2.85E-17
2.64E-17
2.53E-17
2.32E-17
2.28E-17
159
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
As-76
2.08E-17
1.91E-17
1.79E-17
1.71E-17
1.58E-17
1.55E-17
As-77
7.36E-19
6.74E-19
6.34E-19
6.04E-19
5.55E-19
5.45E-19
As-78
6.04E-17
5.58E-17
5.24E-17
5.03E-17
4.65E-17
4.57E-17
As-79
4.06E-18
3.74E-18
3.53E-18
3.37E-18
3.11E-18
3.06E-18
Selenium
Se-70
2.78E-17
2.55E-17
2.36E-17
2.26E-17
2.07E-17
2.03E-17
Se-71
6.98E-17
6.43E-17
6.00E-17
5.74E-17
5.28E-17
5.18E-17
Se-72
3.15E-19
2.51E-19
2.15E-19
1.94E-19
1.60E-19
1.56E-19
Se-73
4.27E-17
3.90E-17
3.62E-17
3.47E-17
3.17E-17
3.11E-17
Se-73m
1.07E-17
9.84E-18
9.14E-18
8.76E-18
8.03E-18
7.88E-18
Se-75
1.33E-17
1.21E-17
1.13E-17
1.08E-17
9.81E-18
9.62E-18
Se-77m
2.75E-18
2.55E-18
2.36E-18
2.26E-18
2.04E-18
2.00E-18
Se-79
4.66E-20
4.29E-20
4.05E-20
3.85E-20
3.55E-20
3.49E-20
Se-79m
2.31E-19
2.08E-19
1.92E-19
1.83E-19
1.62E-19
1.59E-19
Se-81
1.97E-18
1.82E-18
1.72E-18
1.64E-18
1.51E-18
1.49E-18
Se-81m
3.66E-19
3.31E-19
3.06E-19
2.91E-19
2.60E-19
2.55E-19
Se-83
1.12E-16
1.03E-16
9.71E-17
9.31E-17
8.60E-17
8.45E-17
Se-83m
4.68E-17
4.31E-17
4.07E-17
3.89E-17
3.60E-17
3.54E-17
Se-84
1.76E-17
1.61E-17
1.50E-17
1.44E-17
1.32E-17
1.29E-17
Bromine
Br-72
1.38E-16
1.27E-16
1.20E-16
1.15E-16
1.06E-16
1.04E-16
Br-73
6.15E-17
5.65E-17
5.26E-17
5.03E-17
4.62E-17
4.53E-17
Br-74
2.06E-16
1.92E-16
1.81E-16
1.75E-16
1.63E-16
1.60E-16
Br-74m
1.83E-16
1.69E-16
1.59E-16
1.53E-16
1.42E-16
1.39E-16
Br-75
4.82E-17
4.42E-17
4.11E-17
3.93E-17
3.60E-17
3.53E-17
Br-76
1.22E-16
1.13E-16
1.06E-16
1.02E-16
9.48E-17
9.32E-17
Br-76m
6.32E-19
5.43E-19
4.87E-19
4.54E-19
3.98E-19
3.89E-19
Br-77
1.22E-17
1.12E-17
1.04E-17
9.95E-18
9.12E-18
8.95E-18
Br-77m
3.94E-19
3.57E-19
3.30E-19
3.14E-19
2.81E-19
2.75E-19
Br-78
4.44E-17
4.08E-17
3.79E-17
3.63E-17
3.33E-17
3.27E-17
Br-80
5.19E-18
4.78E-18
4.48E-18
4.28E-18
3.94E-18
3.87E-18
Br-80m
1.11E-19
8.39E-20
6.81E-20
6.05E-20
4.77E-20
4.61E-20
Br-82
1.11E-16
1.02E-16
9.54E-17
9.11E-17
8.39E-17
8.24E-17
Br-82m
2.27E-19
2.09E-19
1.97E-19
1.88E-19
1.73E-19
1.70E-19
Br-83
9.84E-19
9.06E-19
8.51E-19
8.12E-19
7.48E-19
7.35E-19
Br-84
8.33E-17
7.73E-17
7.31E-17
7.05E-17
6.56E-17
6.46E-17
Br-84m
1.21E-16
1.11E-16
1.05E-16
1.00E-16
9.26E-17
9.10E-17
Br-85
6.21E-18
5.73E-18
5.41E-18
5.16E-18
4.77E-18
4.69E-18
Krypton
Kr-74
4.21E-17
3.86E-17
3.58E-17
3.43E-17
3.14E-17
3.08E-17
Kr-75
5.57E-17
5.12E-17
4.76E-17
4.56E-17
4.19E-17
4.11E-17
Kr-76
1.56E-17
1.42E-17
1.32E-17
1.26E-17
1.15E-17
1.13E-17
Kr-77
4.15E-17
3.81E-17
3.54E-17
3.39E-17
3.10E-17
3.04E-17
Kr-79
9.76E-18
8.93E-18
8.32E-18
7.95E-18
7.29E-18
7.15E-18
Kr-81
3.12E-20
2.81E-20
2.60E-20
2.48E-20
2.23E-20
2.18E-20
Kr-81m
4.34E-18
3.96E-18
3.70E-18
3.52E-18
3.20E-18
3.14E-18
160
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Kr-83m
5.86E-22
4.43E-22
3.18E-22
2.96E-22
1.20E-22
1.10E-22
Kr-85
5.85E-19
5.39E-19
5.07E-19
4.83E-19
4.45E-19
4.38E-19
Kr-85m
5.61E-18
5.18E-18
4.80E-18
4.59E-18
4.16E-18
4.08E-18
Kr-87
3.93E-17
3.64E-17
3.43E-17
3.30E-17
3.07E-17
3.01E-17
Kr-88
8.83E-17
8.20E-17
7.74E-17
7.49E-17
6.96E-17
6.85E-17
Kr-89
8.97E-17
8.32E-17
7.84E-17
7.55E-17
7.01E-17
6.90E-17
Rubidium
Rb-77
6.79E-17
6.24E-17
5.82E-17
5.57E-17
5.12E-17
5.02E-17
Rb-78
1.84E-16
1.71E-16
1.61E-16
1.56E-16
1.45E-16
1.43E-16
Rb-78m
1.41E-16
1.30E-16
1.22E-16
1.17E-16
1.08E-16
1.06E-16
Rb-79
5.93E-17
5.45E-17
5.06E-17
4.85E-17
4.45E-17
4.36E-17
Rb-80
5.61E-17
5.16E-17
4.80E-17
4.60E-17
4.23E-17
4.15E-17
Rb-81
2.03E-17
1.86E-17
1.73E-17
1.65E-17
1.52E-17
1.49E-17
Rb-81m
9.18E-19
8.41E-19
7.83E-19
7.49E-19
6.85E-19
6.73E-19
Rb-82
4.94E-17
4.54E-17
4.22E-17
4.04E-17
3.71E-17
3.64E-17
Rb-82m
1.22E-16
1.12E-16
1.05E-16
1.00E-16
9.24E-17
9.08E-17
Rb-83
1.93E-17
1.77E-17
1.64E-17
1.57E-17
1.44E-17
1.42E-17
Rb-84
3.77E-17
3.46E-17
3.25E-17
3.09E-17
2.85E-17
2.80E-17
Rb-84m
1.41E-17
1.29E-17
1.20E-17
1.14E-17
1.05E-17
1.03E-17
Rb-86
5.89E-18
5.43E-18
5.13E-18
4.88E-18
4.51E-18
4.44E-18
Rb-86m
2.19E-17
2.01E-17
1.86E-17
1.78E-17
1.64E-17
1.61E-17
Rb-87
1.60E-19
1.47E-19
1.39E-19
1.32E-19
1.22E-19
1.20E-19
Rb-88
3.79E-17
3.51E-17
3.32E-17
3.20E-17
2.97E-17
2.93E-17
Rb-89
1.02E-16
9.41E-17
8.88E-17
8.53E-17
7.90E-17
7.77E-17
Rb-90
1.02E-16
9.55E-17
9.05E-17
8.76E-17
8.19E-17
8.08E-17
Rb-90m
1.50E-16
1.39E-16
1.31E-16
1.27E-16
1.18E-16
1.16E-16
Strontium
Sr-79
5.32E-17
4.88E-17
4.54E-17
4.35E-17
3.99E-17
3.92E-17
Sr-80
1.71E-17
1.57E-17
1.46E-17
1.39E-17
1.28E-17
1.25E-17
Sr-81
5.74E-17
5.28E-17
4.91E-17
4.70E-17
4.31E-17
4.23E-17
Sr-82
2.46E-21
1.90E-21
1.40E-21
1.33E-21
4.75E-22
4.31E-22
Sr-83
3.35E-17
3.07E-17
2.87E-17
2.75E-17
2.53E-17
2.48E-17
Sr-85
1.95E-17
1.79E-17
1.66E-17
1.59E-17
1.46E-17
1.43E-17
Sr-85m
7.56E-18
6.86E-18
6.43E-18
6.12E-18
5.58E-18
5.47E-18
Sr-87m
1.22E-17
1.11E-17
1.03E-17
9.91E-18
9.07E-18
8.89E-18
Sr-89
1.58E-18
1.46E-18
1.38E-18
1.31E-18
1.22E-18
1.20E-18
Sr-90
3.52E-19
3.24E-19
3.06E-19
2.91E-19
2.69E-19
2.64E-19
Sr-91
3.16E-17
2.91E-17
2.74E-17
2.61E-17
2.40E-17
2.36E-17
Sr-92
5.89E-17
5.43E-17
5.13E-17
4.92E-17
4.55E-17
4.48E-17
Sr-93
9.85E-17
9.08E-17
8.54E-17
8.18E-17
7.56E-17
7.43E-17
Sr-94
6.53E-17
6.03E-17
5.69E-17
5.46E-17
5.06E-17
4.97E-17
Yttrium
Y-81
5.29E-17
4.86E-17
4.52E-17
4.33E-17
3.97E-17
3.90E-17
Y-83
5.87E-17
5.40E-17
5.03E-17
4.82E-17
4.43E-17
4.35E-17
Y-83m
3.53E-17
3.23E-17
3.00E-17
2.88E-17
2.64E-17
2.59E-17
Y-84m
1.70E-16
1.57E-16
1.47E-16
1.40E-16
1.29E-16
1.27E-16
161
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Y-85
4.43E-17
4.06E-17
3.77E-17
3.61E-17
3.32E-17
3.25E-17
Y-85m
5.69E-17
5.24E-17
4.90E-17
4.71E-17
4.35E-17
4.27E-17
Y-86
1.53E-16
1.41E-16
1.33E-16
1.27E-16
1.17E-16
1.15E-16
Y-86m
7.77E-18
7.06E-18
6.62E-18
6.30E-18
5.74E-18
5.63E-18
Y-87
1.72E-17
1.58E-17
1.46E-17
1.40E-17
1.29E-17
1.26E-17
Y-87m
1.17E-17
1.07E-17
9.91E-18
9.49E-18
8.68E-18
8.51E-18
Y-88
1.19E-16
1.10E-16
1.03E-16
9.96E-17
9.23E-17
9.08E-17
Y-89m
3.79E-17
3.49E-17
3.29E-17
3.12E-17
2.88E-17
2.83E-17
Y-90
2.96E-18
2.74E-18
2.59E-18
2.47E-18
2.29E-18
2.26E-18
Y-90m
2.40E-17
2.19E-17
2.04E-17
1.95E-17
1.78E-17
1.75E-17
Y-91
1.78E-18
1.64E-18
1.55E-18
1.48E-18
1.37E-18
1.35E-18
Y-91m
2.11E-17
1.94E-17
1.80E-17
1.72E-17
1.58E-17
1.55E-17
Y-92
1.62E-17
1.49E-17
1.41E-17
1.35E-17
1.24E-17
1.22E-17
Y-93
8.14E-18
7.51E-18
7.09E-18
6.80E-18
6.29E-18
6.19E-18
Y-94
4.05E-17
3.74E-17
3.53E-17
3.37E-17
3.11E-17
3.06E-17
Y-95
5.57E-17
5.17E-17
4.89E-17
4.73E-17
4.40E-17
4.33E-17
Zirconium
Zr-85
6.38E-17
5.87E-17
5.46E-17
5.23E-17
4.81E-17
4.72E-17
Zr-86
9.89E-18
8.97E-18
8.41E-18
8.00E-18
7.30E-18
7.16E-18
Zr-87
3.96E-17
3.64E-17
3.38E-17
3.24E-17
2.98E-17
2.92E-17
Zr-88
1.47E-17
1.34E-17
1.24E-17
1.19E-17
1.09E-17
1.07E-17
Zr-89
4.81E-17
4.42E-17
4.15E-17
3.95E-17
3.64E-17
3.58E-17
Zr-89m
2.59E-17
2.38E-17
2.22E-17
2.12E-17
1.95E-17
1.92E-17
Zr-93
6.47E-21
5.95E-21
5.62E-21
5.34E-21
4.93E-21
4.84E-21
Zr-95
3.04E-17
2.79E-17
2.61E-17
2.49E-17
2.29E-17
2.25E-17
Zr-97
3.85E-17
3.54E-17
3.32E-17
3.16E-17
2.91E-17
2.86E-17
Niobium
Nb-87
5.33E-17
4.89E-17
4.55E-17
4.35E-17
3.99E-17
3.92E-17
Nb-88
1.79E-16
1.65E-16
1.55E-16
1.48E-16
1.36E-16
1.33E-16
Nb-88m
1.77E-16
1.63E-16
1.53E-16
1.46E-16
1.35E-16
1.32E-16
Nb-89
6.12E-17
5.65E-17
5.29E-17
5.09E-17
4.70E-17
4.62E-17
Nb-89m
5.43E-17
4.99E-17
4.63E-17
4.43E-17
4.07E-17
3.99E-17
Nb-90
1.85E-16
1.71E-16
1.62E-16
1.56E-16
1.45E-16
1.42E-16
Nb-91
6.96E-20
6.29E-20
5.77E-20
5.54E-20
4.91E-20
4.81E-20
Nb-91m
1.08E-18
9.91E-19
9.35E-19
8.92E-19
8.23E-19
8.09E-19
Nb-92
6.19E-17
5.69E-17
5.34E-17
5.08E-17
4.68E-17
4.60E-17
Nb-92m
4.05E-17
3.72E-17
3.51E-17
3.34E-17
3.08E-17
3.02E-17
Nb-93m
1.29E-21
9.33E-22
7.42E-22
7.30E-22
3.32E-22
3.04E-22
Nb-94
6.50E-17
5.97E-17
5.60E-17
5.33E-17
4.91E-17
4.82E-17
Nb-94m
1.94E-19
1.77E-19
1.66E-19
1.58E-19
1.45E-19
1.42E-19
Nb-95
3.17E-17
2.91E-17
2.73E-17
2.60E-17
2.39E-17
2.35E-17
Nb-95m
2.27E-18
2.06E-18
1.93E-18
1.83E-18
1.67E-18
1.64E-18
Nb-96
1.03E-16
9.47E-17
8.89E-17
8.47E-17
7.80E-17
7.66E-17
Nb-97
2.83E-17
2.60E-17
2.43E-17
2.32E-17
2.13E-17
2.09E-17
Nb-98m
1.22E-16
1.12E-16
1.05E-16
1.01E-16
9.30E-17
9.14E-17
Nb-99
1.02E-17
9.45E-18
8.83E-18
8.44E-18
7.71E-18
7.58E-18
162
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Nb-99m
3.87E-17
3.59E-17
3.39E-17
3.27E-17
3.04E-17
2.99E-17
Molybdenum
Mo-89
5.74E-17
5.28E-17
4.92E-17
4.72E-17
4.34E-17
4.26E-17
Mo-90
3.16E-17
2.90E-17
2.70E-17
2.58E-17
2.37E-17
2.32E-17
Mo-91
4.43E-17
4.07E-17
3.78E-17
3.62E-17
3.33E-17
3.27E-17
Mo-91m
5.98E-17
5.51E-17
5.16E-17
4.94E-17
4.55E-17
4.47E-17
Mo-93
7.24E-21
5.22E-21
4.15E-21
4.09E-21
1.86E-21
1.70E-21
Mo-93m
9.89E-17
9.11E-17
8.57E-17
8.22E-17
7.59E-17
7.46E-17
Mo-99
6.84E-18
6.29E-18
5.89E-18
5.61E-18
5.16E-18
5.07E-18
Mo-101
6.41E-17
5.91E-17
5.56E-17
5.34E-17
4.93E-17
4.85E-17
Mo-102
1.41E-18
1.29E-18
1.21E-18
1.16E-18
1.06E-18
1.04E-18
Technetium
Tc-91
1.14E-16
1.05E-16
9.86E-17
9.51E-17
8.80E-17
8.65E-17
Tc-91m
6.50E-17
5.98E-17
5.57E-17
5.34E-17
4.91E-17
4.81E-17
Tc-92
1.66E-16
1.53E-16
1.44E-16
1.38E-16
1.27E-16
1.25E-16
Tc-93
6.82E-17
6.30E-17
5.94E-17
5.70E-17
5.28E-17
5.19E-17
Tc-93m
4.15E-17
3.85E-17
3.62E-17
3.50E-17
3.26E-17
3.20E-17
Tc-94
1.10E-16
1.01E-16
9.52E-17
9.06E-17
8.34E-17
8.19E-17
Tc-94m
8.40E-17
7.74E-17
7.25E-17
6.94E-17
6.40E-17
6.29E-17
Tc-95
3.25E-17
2.99E-17
2.81E-17
2.67E-17
2.46E-17
2.41E-17
Tc-95m
2.70E-17
2.48E-17
2.32E-17
2.21E-17
2.03E-17
1.99E-17
Tc-96
1.04E-16
9.55E-17
8.98E-17
8.54E-17
7.86E-17
7.72E-17
Tc-96m
1.76E-18
1.62E-18
1.52E-18
1.45E-18
1.34E-18
1.31E-18
Tc-97
9.17E-21
6.43E-21
5.13E-21
5.05E-21
2.45E-21
2.26E-21
Tc-97m
1.66E-20
1.30E-20
1.13E-20
1.09E-20
7.89E-21
7.60E-21
Tc-98
5.82E-17
5.35E-17
5.00E-17
4.77E-17
4.38E-17
4.30E-17
Tc-99
1.35E-19
1.24E-19
1.17E-19
1.12E-19
1.03E-19
1.01E-19
Tc-99m
3.79E-18
3.53E-18
3.24E-18
3.11E-18
2.79E-18
2.75E-18
Tc-101
1.38E-17
1.25E-17
1.17E-17
1.12E-17
1.02E-17
1.00E-17
Tc-102
1.15E-17
1.07E-17
1.01E-17
9.65E-18
8.94E-18
8.80E-18
Tc-102m
1.09E-16
1.01E-16
9.45E-17
9.09E-17
8.41E-17
8.27E-17
Tc-104
1.03E-16
9.55E-17
8.99E-17
8.66E-17
8.02E-17
7.89E-17
Tc-105
3.65E-17
3.36E-17
3.16E-17
3.03E-17
2.79E-17
2.74E-17
Ruthenium
Ru-92
8.42E-17
7.74E-17
7.24E-17
6.94E-17
6.38E-17
6.26E-17
Ru-94
2.02E-17
1.85E-17
1.73E-17
1.65E-17
1.51E-17
1.48E-17
Ru-95
5.11E-17
4.69E-17
4.40E-17
4.21E-17
3.88E-17
3.81E-17
Ru-97
8.07E-18
7.32E-18
6.86E-18
6.52E-18
5.94E-18
5.83E-18
Ru-103
1.97E-17
1.81E-17
1.67E-17
1.60E-17
1.47E-17
1.44E-17
Ru-105
3.11E-17
2.85E-17
2.66E-17
2.54E-17
2.34E-17
2.29E-17
Ru-106
1.15E-21
1.06E-21
1.00E-21
9.52E-22
8.78E-22
8.64E-22
Ru-107
1.78E-17
1.64E-17
1.54E-17
1.47E-17
1.36E-17
1.34E-17
Ru-108
3.09E-18
2.85E-18
2.66E-18
2.54E-18
2.31E-18
2.27E-18
Rhodium
Rh-94
1.75E-16
1.62E-16
1.52E-16
1.46E-16
1.35E-16
1.33E-16
Rh-95
1.12E-16
1.03E-16
9.66E-17
9.26E-17
8.56E-17
8.41E-17
163
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Rh-95m
3.83E-17
3.55E-17
3.33E-17
3.20E-17
2.97E-17
2.92E-17
Rh-96
1.66E-16
1.53E-16
1.43E-16
1.37E-16
1.26E-16
1.24E-16
Rh-96m
5.61E-17
5.17E-17
4.85E-17
4.65E-17
4.30E-17
4.22E-17
Rh-97
6.02E-17
5.53E-17
5.16E-17
4.95E-17
4.55E-17
4.47E-17
Rh-97m
9.60E-17
8.88E-17
8.36E-17
8.07E-17
7.48E-17
7.36E-17
Rh-98
7.87E-17
7.24E-17
6.75E-17
6.47E-17
5.95E-17
5.84E-17
Rh-99
2.12E-17
1.94E-17
1.80E-17
1.73E-17
1.58E-17
1.55E-17
Rh-99m
2.56E-17
2.35E-17
2.20E-17
2.10E-17
1.93E-17
1.89E-17
Rh-100
1.19E-16
1.10E-16
1.04E-16
9.99E-17
9.25E-17
9.10E-17
Rh-lOOm
1.72E-18
1.58E-18
1.47E-18
1.41E-18
1.29E-18
1.26E-18
Rh-101
9.01E-18
8.23E-18
7.66E-18
7.30E-18
6.62E-18
6.50E-18
Rh-lOlm
1.02E-17
9.30E-18
8.68E-18
8.28E-18
7.57E-18
7.42E-18
Rh-102
2.03E-17
1.86E-17
1.73E-17
1.66E-17
1.52E-17
1.49E-17
Rh-102m
8.79E-17
8.08E-17
7.55E-17
7.21E-17
6.63E-17
6.51E-17
Rh-103m
2.27E-21
1.54E-21
1.23E-21
1.17E-21
7.04E-22
6.62E-22
Rh-104
3.66E-18
3.38E-18
3.19E-18
3.05E-18
2.82E-18
2.77E-18
Rh-104m
5.17E-19
4.34E-19
3.86E-19
3.56E-19
3.04E-19
2.97E-19
Rh-105
3.13E-18
2.85E-18
2.66E-18
2.54E-18
2.32E-18
2.28E-18
Rh-106
1.36E-17
1.25E-17
1.17E-17
1.12E-17
1.03E-17
1.01E-17
Rh-106m
1.20E-16
1.10E-16
1.03E-16
9.88E-17
9.11E-17
8.94E-17
Rh-107
1.28E-17
1.17E-17
1.09E-17
1.04E-17
9.52E-18
9.33E-18
Rh-108
2.00E-17
1.84E-17
1.72E-17
1.65E-17
1.52E-17
1.49E-17
Rh-109
1.39E-17
1.27E-17
1.19E-17
1.13E-17
1.04E-17
1.02E-17
Palladium
Pd-96
5.85E-17
5.38E-17
5.03E-17
4.80E-17
4.41E-17
4.33E-17
Pd-97
1.03E-16
9.47E-17
8.88E-17
8.53E-17
7.88E-17
7.75E-17
Pd-98
1.51E-17
1.38E-17
1.29E-17
1.23E-17
1.13E-17
1.11E-17
Pd-99
5.30E-17
4.88E-17
4.56E-17
4.38E-17
4.03E-17
3.96E-17
Pd-100
2.25E-18
2.01E-18
1.84E-18
1.75E-18
1.53E-18
1.50E-18
Pd-101
1.31E-17
1.20E-17
1.12E-17
1.07E-17
9.85E-18
9.67E-18
Pd-103
2.32E-20
1.65E-20
1.36E-20
1.31E-20
8.64E-21
8.22E-21
Pd-107
9.10E-22
8.38E-22
7.91E-22
7.52E-22
6.94E-22
6.82E-22
Pd-109
9.33E-19
8.55E-19
8.05E-19
7.66E-19
7.03E-19
6.91E-19
Pd-109m
3.56E-18
3.24E-18
3.03E-18
2.88E-18
2.62E-18
2.57E-18
Pd-111
4.55E-18
4.19E-18
3.95E-18
3.78E-18
3.49E-18
3.43E-18
Pd-112
9.43E-20
8.57E-20
8.05E-20
7.66E-20
6.97E-20
6.84E-20
Pd-114
2.26E-18
2.07E-18
1.95E-18
1.86E-18
1.71E-18
1.67E-18
Silver
Ag-99
1.00E-16
9.25E-17
8.66E-17
8.31E-17
7.66E-17
7.52E-17
Ag-lOOm
1.26E-16
1.17E-16
1.09E-16
1.05E-16
9.66E-17
9.49E-17
Ag-101
6.62E-17
6.08E-17
5.68E-17
5.44E-17
5.00E-17
4.91E-17
Ag-102
1.47E-16
1.35E-16
1.27E-16
1.22E-16
1.12E-16
1.10E-16
Ag-102m
8.83E-17
8.18E-17
7.69E-17
7.43E-17
6.89E-17
6.78E-17
Ag-103
3.37E-17
3.10E-17
2.89E-17
2.77E-17
2.54E-17
2.50E-17
Ag-104
1.13E-16
1.04E-16
9.75E-17
9.32E-17
8.58E-17
8.43E-17
Ag-104m
7.76E-17
7.16E-17
6.69E-17
6.44E-17
5.94E-17
5.83E-17
164
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ag-105
1.91E-17
1.75E-17
1.63E-17
1.56E-17
1.43E-17
1.40E-17
Ag-105m
3.82E-20
3.48E-20
3.25E-20
3.10E-20
2.84E-20
2.79E-20
Ag-106
2.90E-17
2.66E-17
2.47E-17
2.37E-17
2.17E-17
2.13E-17
Ag-106m
1.16E-16
1.07E-16
1.00E-16
9.59E-17
8.83E-17
8.67E-17
Ag-108
2.40E-18
2.21E-18
2.08E-18
1.98E-18
1.83E-18
1.80E-18
Ag-108m
6.48E-17
5.94E-17
5.54E-17
5.29E-17
4.86E-17
4.77E-17
Ag-109m
9.01E-20
7.78E-20
7.05E-20
6.67E-20
5.73E-20
5.59E-20
Ag-110
5.31E-18
4.91E-18
4.63E-18
4.42E-18
4.09E-18
4.02E-18
Ag-llOm
1.16E-16
1.07E-16
1.00E-16
9.58E-17
8.83E-17
8.67E-17
Ag-111
1.79E-18
1.63E-18
1.53E-18
1.46E-18
1.34E-18
1.32E-18
Ag-lllm
1.34E-19
1.20E-19
1.12E-19
1.06E-19
9.59E-20
9.40E-20
Ag-112
3.46E-17
3.20E-17
3.00E-17
2.88E-17
2.67E-17
2.62E-17
Ag-113
5.03E-18
4.62E-18
4.35E-18
4.15E-18
3.82E-18
3.75E-18
Ag-113m
8.66E-18
7.91E-18
7.38E-18
7.05E-18
6.46E-18
6.34E-18
Ag-114
2.03E-17
1.88E-17
1.77E-17
1.70E-17
1.57E-17
1.55E-17
Ag-115
2.43E-17
2.24E-17
2.11E-17
2.03E-17
1.88E-17
1.85E-17
Ag-116
1.01E-16
9.40E-17
8.86E-17
8.55E-17
7.93E-17
7.80E-17
Ag-117
6.18E-17
5.73E-17
5.40E-17
5.22E-17
4.85E-17
4.77E-17
Cadmium
Cd-101
1.08E-16
9.98E-17
9.37E-17
9.00E-17
8.31E-17
8.17E-17
Cd-102
3.33E-17
3.06E-17
2.85E-17
2.73E-17
2.50E-17
2.46E-17
Cd-103
9.13E-17
8.44E-17
7.94E-17
7.65E-17
7.09E-17
6.97E-17
Cd-104
8.65E-18
7.92E-18
7.38E-18
7.03E-18
6.43E-18
6.31E-18
Cd-105
5.59E-17
5.16E-17
4.85E-17
4.67E-17
4.31E-17
4.24E-17
Cd-107
3.39E-19
2.98E-19
2.73E-19
2.60E-19
2.30E-19
2.25E-19
Cd-109
1.18E-19
9.63E-20
8.50E-20
8.03E-20
6.58E-20
6.39E-20
Cd-lllm
9.63E-18
8.75E-18
8.19E-18
7.79E-18
7.10E-18
6.96E-18
Cd-113
1.21E-19
1.11E-19
1.05E-19
9.98E-20
9.20E-20
9.05E-20
Cd-113m
3.29E-19
3.03E-19
2.86E-19
2.72E-19
2.51E-19
2.47E-19
Cd-115
8.29E-18
7.61E-18
7.06E-18
6.76E-18
6.20E-18
6.09E-18
Cd-115m
3.05E-18
2.81E-18
2.66E-18
2.53E-18
2.34E-18
2.30E-18
Cd-117
4.70E-17
4.32E-17
4.07E-17
3.90E-17
3.60E-17
3.54E-17
Cd-117m
9.02E-17
8.34E-17
7.86E-17
7.57E-17
7.01E-17
6.90E-17
Cd-118
2.71E-19
2.49E-19
2.35E-19
2.24E-19
2.07E-19
2.03E-19
Cd-119
7.38E-17
6.82E-17
6.43E-17
6.19E-17
5.74E-17
5.64E-17
Cd-119m
1.03E-16
9.49E-17
8.95E-17
8.61E-17
7.97E-17
7.84E-17
Indium
In-103
1.21E-16
1.12E-16
1.05E-16
1.01E-16
9.31E-17
9.16E-17
In-105
8.28E-17
7.63E-17
7.14E-17
6.85E-17
6.31E-17
6.20E-17
In-106
1.50E-16
1.38E-16
1.29E-16
1.23E-16
1.14E-16
1.12E-16
In-106m
1.26E-16
1.17E-16
1.09E-16
1.05E-16
9.73E-17
9.56E-17
In-107
6.50E-17
5.99E-17
5.62E-17
5.41E-17
4.99E-17
4.91E-17
In-108
1.64E-16
1.51E-16
1.42E-16
1.36E-16
1.25E-16
1.23E-16
In-108m
1.22E-16
1.13E-16
1.07E-16
1.03E-16
9.55E-17
9.39E-17
In-109
2.51E-17
2.31E-17
2.16E-17
2.07E-17
1.90E-17
1.86E-17
In-109m
2.47E-17
2.27E-17
2.12E-17
2.02E-17
1.86E-17
1.83E-17
165
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
In-110
1.28E-16
1.18E-16
1.11E-16
1.05E-16
9.70E-17
9.54E-17
In-110m
6.67E-17
6.14E-17
5.73E-17
5.50E-17
5.06E-17
4.97E-17
In-Ill
1.34E-17
1.22E-17
1.14E-17
1.08E-17
9.84E-18
9.65E-18
In-lllm
1.87E-17
1.71E-17
1.59E-17
1.52E-17
1.40E-17
1.37E-17
In-112
1.10E-17
1.01E-17
9.39E-18
9.00E-18
8.25E-18
8.10E-18
In-112m
6.80E-19
6.23E-19
5.71E-19
5.46E-19
4.88E-19
4.80E-19
In-113m
9.77E-18
8.92E-18
8.28E-18
7.93E-18
7.25E-18
7.11E-18
In-114
2.39E-18
2.21E-18
2.09E-18
1.99E-18
1.84E-18
1.81E-18
In-114m
2.71E-18
2.48E-18
2.31E-18
2.21E-18
2.02E-18
1.98E-18
In-115
2.50E-19
2.30E-19
2.17E-19
2.07E-19
1.91E-19
1.87E-19
In-115m
5.85E-18
5.31E-18
4.95E-18
4.73E-18
4.32E-18
4.24E-18
In-116m
1.08E-16
9.94E-17
9.38E-17
8.99E-17
8.31E-17
8.17E-17
In-117
2.70E-17
2.48E-17
2.30E-17
2.21E-17
2.02E-17
1.98E-17
In-117m
4.04E-18
3.70E-18
3.45E-18
3.30E-18
3.01E-18
2.96E-18
In-118
1.12E-17
1.03E-17
9.79E-18
9.37E-18
8.69E-18
8.55E-18
In-118m
1.21E-16
1.11E-16
1.05E-16
1.00E-16
9.23E-17
9.07E-17
In-119
3.33E-17
3.06E-17
2.87E-17
2.73E-17
2.52E-17
2.47E-17
In-119m
6.05E-18
5.58E-18
5.28E-18
5.03E-18
4.66E-18
4.58E-18
In-121
4.20E-17
3.87E-17
3.64E-17
3.46E-17
3.19E-17
3.14E-17
In-121m
7.75E-18
7.15E-18
6.75E-18
6.45E-18
5.97E-18
5.88E-18
Tin
Sn-106
4.81E-17
4.41E-17
4.13E-17
3.94E-17
3.62E-17
3.56E-17
Sn-108
2.55E-17
2.33E-17
2.17E-17
2.07E-17
1.90E-17
1.86E-17
Sn-109
9.55E-17
8.83E-17
8.32E-17
7.99E-17
7.40E-17
7.28E-17
Sn-110
1.01E-17
9.10E-18
8.52E-18
8.12E-18
7.41E-18
7.26E-18
Sn-111
2.02E-17
1.86E-17
1.73E-17
1.67E-17
1.53E-17
1.50E-17
Sn-113
2.38E-19
2.05E-19
1.88E-19
1.78E-19
1.57E-19
1.54E-19
Sn-113m
4.37E-20
3.16E-20
2.56E-20
2.35E-20
1.74E-20
1.67E-20
Sn-117m
4.50E-18
4.16E-18
3.83E-18
3.67E-18
3.31E-18
3.25E-18
Sn-119m
3.70E-20
2.52E-20
1.96E-20
1.78E-20
1.21E-20
1.15E-20
Sn-121
1.68E-19
1.54E-19
1.46E-19
1.39E-19
1.28E-19
1.26E-19
Sn-121m
5.84E-20
4.99E-20
4.51E-20
4.23E-20
3.73E-20
3.65E-20
Sn-123
1.66E-18
1.53E-18
1.45E-18
1.38E-18
1.27E-18
1.25E-18
Sn-123m
5.53E-18
5.12E-18
4.75E-18
4.54E-18
4.12E-18
4.05E-18
Sn-125
1.68E-17
1.55E-17
1.47E-17
1.40E-17
1.29E-17
1.27E-17
Sn-125m
1.55E-17
1.42E-17
1.32E-17
1.26E-17
1.16E-17
1.14E-17
Sn-126
1.21E-18
1.08E-18
9.92E-19
9.39E-19
8.29E-19
8.11E-19
Sn-127
8.29E-17
7.64E-17
7.20E-17
6.89E-17
6.36E-17
6.25E-17
Sn-127m
2.67E-17
2.46E-17
2.29E-17
2.20E-17
2.02E-17
1.99E-17
Sn-128
2.22E-17
2.04E-17
1.89E-17
1.81E-17
1.65E-17
1.62E-17
Sn-129
4.66E-17
4.29E-17
4.02E-17
3.85E-17
3.54E-17
3.48E-17
Sn-130
3.72E-17
3.41E-17
3.19E-17
3.04E-17
2.79E-17
2.73E-17
Sn-130m
4.16E-17
3.83E-17
3.60E-17
3.44E-17
3.17E-17
3.12E-17
Antimony
Sb-111
6.36E-17
5.85E-17
5.44E-17
5.21E-17
4.78E-17
4.69E-17
Sb-113
5.26E-17
4.83E-17
4.49E-17
4.30E-17
3.94E-17
3.87E-17
166
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sb-114
1.18E-16
1.09E-16
1.02E-16
9.81E-17
9.05E-17
8.90E-17
Sb-115
3.55E-17
3.26E-17
3.02E-17
2.90E-17
2.66E-17
2.61E-17
Sb-116
9.89E-17
9.12E-17
8.58E-17
8.23E-17
7.61E-17
7.48E-17
Sb-116m
1.30E-16
1.19E-16
1.12E-16
1.07E-16
9.88E-17
9.71E-17
Sb-117
5.54E-18
5.12E-18
4.73E-18
4.52E-18
4.09E-18
4.02E-18
Sb-118
3.48E-17
3.19E-17
2.97E-17
2.84E-17
2.61E-17
2.56E-17
Sb-118m
1.09E-16
1.00E-16
9.46E-17
9.01E-17
8.32E-17
8.17E-17
Sb-119
6.05E-20
4.12E-20
3.20E-20
2.90E-20
1.99E-20
1.89E-20
Sb-120
1.84E-17
1.69E-17
1.57E-17
1.50E-17
1.38E-17
1.35E-17
Sb-120m
1.02E-16
9.38E-17
8.85E-17
8.42E-17
7.76E-17
7.63E-17
Sb-122
1.94E-17
1.79E-17
1.66E-17
1.59E-17
1.46E-17
1.43E-17
Sb-122m
9.92E-19
8.53E-19
7.67E-19
7.17E-19
6.14E-19
5.98E-19
Sb-124
8.07E-17
7.44E-17
6.99E-17
6.72E-17
6.21E-17
6.11E-17
Sb-124m
1.80E-17
1.65E-17
1.54E-17
1.47E-17
1.35E-17
1.32E-17
Sb-124n
2.26E-24
1.54E-24
1.19E-24
1.08E-24
7.45E-25
7.08E-25
Sb-125
1.68E-17
1.54E-17
1.43E-17
1.37E-17
1.26E-17
1.23E-17
Sb-126
1.13E-16
1.04E-16
9.70E-17
9.25E-17
8.50E-17
8.35E-17
Sb-126m
6.44E-17
5.91E-17
5.51E-17
5.27E-17
4.84E-17
4.75E-17
Sb-127
2.86E-17
2.63E-17
2.45E-17
2.34E-17
2.15E-17
2.11E-17
Sb-128
1.28E-16
1.17E-16
1.10E-16
1.05E-16
9.63E-17
9.46E-17
Sb-128m
8.08E-17
7.41E-17
6.95E-17
6.62E-17
6.09E-17
5.98E-17
Sb-129
6.28E-17
5.78E-17
5.44E-17
5.20E-17
4.80E-17
4.71E-17
Sb-130
1.37E-16
1.26E-16
1.18E-16
1.13E-16
1.04E-16
1.02E-16
Sb-130m
1.16E-16
1.07E-16
1.01E-16
9.59E-17
8.83E-17
8.67E-17
Sb-131
9.07E-17
8.36E-17
7.88E-17
7.55E-17
6.97E-17
6.86E-17
Sb-133
1.22E-16
1.13E-16
1.07E-16
1.02E-16
9.48E-17
9.32E-17
Tellurium
Te-113
1.00E-16
9.24E-17
8.67E-17
8.32E-17
7.67E-17
7.54E-17
Te-114
5.35E-17
4.93E-17
4.63E-17
4.44E-17
4.10E-17
4.03E-17
Te-115
9.66E-17
8.90E-17
8.34E-17
7.99E-17
7.37E-17
7.24E-17
Te-115m
1.13E-16
1.04E-16
9.76E-17
9.36E-17
8.64E-17
8.49E-17
Te-116
2.84E-18
2.57E-18
2.38E-18
2.27E-18
2.06E-18
2.02E-18
Te-117
6.60E-17
6.09E-17
5.72E-17
5.49E-17
5.07E-17
4.98E-17
Te-118
6.14E-20
4.24E-20
3.29E-20
2.95E-20
2.09E-20
1.99E-20
Te-119
3.09E-17
2.84E-17
2.65E-17
2.54E-17
2.33E-17
2.29E-17
Te-119m
6.25E-17
5.76E-17
5.43E-17
5.19E-17
4.79E-17
4.71E-17
Te-121
2.24E-17
2.05E-17
1.90E-17
1.82E-17
1.67E-17
1.64E-17
Te-121m
7.31E-18
6.64E-18
6.23E-18
5.92E-18
5.40E-18
5.30E-18
Te-123
1.07E-22
7.38E-23
5.72E-23
5.12E-23
3.63E-23
3.46E-23
Te-123m
4.29E-18
3.97E-18
3.66E-18
3.50E-18
3.15E-18
3.10E-18
Te-125m
1.40E-19
1.00E-19
7.90E-20
7.08E-20
5.29E-20
5.08E-20
Te-127
6.15E-19
5.65E-19
5.31E-19
5.06E-19
4.66E-19
4.58E-19
Te-127m
6.00E-20
4.66E-20
3.93E-20
3.61E-20
2.95E-20
2.85E-20
Te-129
3.64E-18
3.35E-18
3.13E-18
2.99E-18
2.75E-18
2.70E-18
Te-129m
1.82E-18
1.67E-18
1.56E-18
1.49E-18
1.37E-18
1.34E-18
Te-131
1.81E-17
1.66E-17
1.55E-17
1.49E-17
1.36E-17
1.34E-17
167
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Te-131m
6.05E-17
5.56E-17
5.23E-17
4.99E-17
4.59E-17
4.51E-17
Te-132
7.45E-18
6.72E-18
6.30E-18
5.98E-18
5.44E-18
5.33E-18
Te-133
5.24E-17
4.82E-17
4.53E-17
4.34E-17
4.01E-17
3.94E-17
Te-133m
7.87E-17
7.25E-17
6.81E-17
6.51E-17
6.00E-17
5.89E-17
Te-134
3.42E-17
3.13E-17
2.93E-17
2.79E-17
2.56E-17
2.51E-17
Iodine
1-118
9.10E-17
8.37E-17
7.81E-17
7.49E-17
6.89E-17
6.77E-17
I-118m
1.58E-16
1.45E-16
1.35E-16
1.29E-16
1.19E-16
1.17E-16
1-119
3.66E-17
3.35E-17
3.12E-17
2.99E-17
2.74E-17
2.68E-17
1-120
1.18E-16
1.09E-16
1.03E-16
9.88E-17
9.14E-17
8.99E-17
I-120m
1.49E-16
1.38E-16
1.29E-16
1.23E-16
1.14E-16
1.12E-16
1-121
1.44E-17
1.31E-17
1.22E-17
1.17E-17
1.07E-17
1.05E-17
1-122
4.22E-17
3.88E-17
3.60E-17
3.46E-17
3.17E-17
3.11E-17
1-123
4.91E-18
4.53E-18
4.17E-18
3.99E-18
3.60E-18
3.54E-18
1-124
4.65E-17
4.28E-17
4.01E-17
3.85E-17
3.55E-17
3.48E-17
1-125
1.57E-19
1.10E-19
8.58E-20
7.65E-20
5.60E-20
5.35E-20
1-126
1.74E-17
1.59E-17
1.48E-17
1.42E-17
1.30E-17
1.27E-17
1-128
4.83E-18
4.44E-18
4.16E-18
3.98E-18
3.66E-18
3.60E-18
1-129
1.67E-19
1.29E-19
1.09E-19
9.88E-20
8.12E-20
7.88E-20
1-130
8.76E-17
8.05E-17
7.51E-17
7.17E-17
6.59E-17
6.47E-17
I-130m
4.72E-18
4.33E-18
4.03E-18
3.87E-18
3.55E-18
3.49E-18
1-131
1.49E-17
1.36E-17
1.27E-17
1.21E-17
1.11E-17
1.09E-17
1-132
9.54E-17
8.77E-17
8.22E-17
7.85E-17
7.23E-17
7.10E-17
I-132m
1.35E-17
1.24E-17
1.16E-17
1.11E-17
1.02E-17
9.96E-18
1-133
2.57E-17
2.36E-17
2.20E-17
2.10E-17
1.93E-17
1.90E-17
1-134
1.11E-16
1.02E-16
9.59E-17
9.14E-17
8.43E-17
8.28E-17
I-134m
9.91E-18
8.98E-18
8.41E-18
8.00E-18
7.31E-18
7.16E-18
1-135
6.96E-17
6.42E-17
6.06E-17
5.81E-17
5.38E-17
5.29E-17
Xenon
Xe-120
1.43E-17
1.31E-17
1.22E-17
1.17E-17
1.07E-17
1.05E-17
Xe-121
6.33E-17
5.85E-17
5.48E-17
5.28E-17
4.88E-17
4.79E-17
Xe-122
1.74E-18
1.57E-18
1.45E-18
1.38E-18
1.26E-18
1.23E-18
Xe-123
2.52E-17
2.32E-17
2.17E-17
2.08E-17
1.91E-17
1.88E-17
Xe-125
8.75E-18
7.95E-18
7.43E-18
7.07E-18
6.44E-18
6.32E-18
Xe-127
8.96E-18
8.15E-18
7.59E-18
7.23E-18
6.58E-18
6.45E-18
Xe-127m
4.70E-18
4.32E-18
3.98E-18
3.80E-18
3.42E-18
3.36E-18
Xe-129m
5.07E-19
4.24E-19
3.75E-19
3.50E-19
3.03E-19
2.95E-19
Xe-131m
1.78E-19
1.49E-19
1.30E-19
1.21E-19
1.04E-19
1.01E-19
Xe-133
9.22E-19
8.17E-19
7.46E-19
7.04E-19
6.20E-19
6.05E-19
Xe-133m
9.03E-19
8.03E-19
7.45E-19
7.05E-19
6.37E-19
6.24E-19
Xe-135
9.60E-18
8.71E-18
8.17E-18
7.77E-18
7.10E-18
6.97E-18
Xe-135m
1.68E-17
1.54E-17
1.43E-17
1.37E-17
1.25E-17
1.23E-17
Xe-137
1.44E-17
1.33E-17
1.25E-17
1.20E-17
1.11E-17
1.09E-17
Xe-138
5.06E-17
4.68E-17
4.40E-17
4.25E-17
3.94E-17
3.87E-17
Cesium
Cs-121
5.34E-17
4.90E-17
4.56E-17
4.37E-17
4.02E-17
3.94E-17
168
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cs-121m
5.14E-17
4.72E-17
4.40E-17
4.21E-17
3.86E-17
3.79E-17
Cs-123
4.58E-17
4.21E-17
3.92E-17
3.75E-17
3.44E-17
3.38E-17
Cs-124
5.51E-17
5.06E-17
4.72E-17
4.52E-17
4.16E-17
4.09E-17
Cs-125
3.08E-17
2.83E-17
2.63E-17
2.52E-17
2.31E-17
2.27E-17
Cs-126
5.09E-17
4.68E-17
4.35E-17
4.17E-17
3.83E-17
3.76E-17
Cs-127
1.60E-17
1.46E-17
1.36E-17
1.30E-17
1.19E-17
1.17E-17
Cs-128
3.82E-17
3.51E-17
3.26E-17
3.12E-17
2.87E-17
2.81E-17
Cs-129
9.61E-18
8.75E-18
8.11E-18
7.76E-18
7.09E-18
6.95E-18
Cs-130
2.07E-17
1.90E-17
1.76E-17
1.69E-17
1.55E-17
1.52E-17
Cs-130m
1.25E-18
1.10E-18
1.00E-18
9.45E-19
8.30E-19
8.12E-19
Cs-131
1.01E-19
7.26E-20
5.67E-20
5.03E-20
3.78E-20
3.62E-20
Cs-132
2.84E-17
2.61E-17
2.43E-17
2.32E-17
2.13E-17
2.09E-17
Cs-134
6.41E-17
5.90E-17
5.51E-17
5.26E-17
4.83E-17
4.75E-17
Cs-134m
5.19E-19
4.70E-19
4.27E-19
4.07E-19
3.62E-19
3.55E-19
Cs-135
1.12E-19
1.03E-19
9.75E-20
9.27E-20
8.55E-20
8.41E-20
Cs-135m
6.65E-17
6.11E-17
5.74E-17
5.46E-17
5.03E-17
4.94E-17
Cs-136
8.87E-17
8.16E-17
7.68E-17
7.31E-17
6.73E-17
6.62E-17
Cs-137
3.42E-19
3.15E-19
2.98E-19
2.83E-19
2.61E-19
2.57E-19
Cs-138
1.08E-16
9.95E-17
9.38E-17
9.02E-17
8.36E-17
8.22E-17
Cs-138m
1.79E-17
1.64E-17
1.55E-17
1.48E-17
1.37E-17
1.34E-17
Cs-139
2.01E-17
1.86E-17
1.76E-17
1.69E-17
1.57E-17
1.54E-17
Cs-140
8.70E-17
8.06E-17
7.60E-17
7.34E-17
6.81E-17
6.70E-17
Barium
Ba-124
2.24E-17
2.06E-17
1.92E-17
1.84E-17
1.69E-17
1.65E-17
Ba-126
2.26E-17
2.07E-17
1.94E-17
1.85E-17
1.70E-17
1.67E-17
Ba-127
3.04E-17
2.79E-17
2.60E-17
2.49E-17
2.29E-17
2.25E-17
Ba-128
1.65E-18
1.47E-18
1.36E-18
1.29E-18
1.17E-18
1.15E-18
Ba-129
1.28E-17
1.18E-17
1.10E-17
1.05E-17
9.65E-18
9.48E-18
Ba-129m
6.43E-17
5.92E-17
5.55E-17
5.31E-17
4.88E-17
4.80E-17
Ba-131
1.70E-17
1.56E-17
1.45E-17
1.38E-17
1.26E-17
1.24E-17
Ba-131m
1.73E-18
1.56E-18
1.44E-18
1.36E-18
1.21E-18
1.19E-18
Ba-133
1.34E-17
1.22E-17
1.13E-17
1.08E-17
9.83E-18
9.63E-18
Ba-133m
1.89E-18
1.70E-18
1.58E-18
1.50E-18
1.37E-18
1.34E-18
Ba-135m
1.62E-18
1.45E-18
1.35E-18
1.28E-18
1.16E-18
1.14E-18
Ba-137m
2.42E-17
2.23E-17
2.08E-17
1.98E-17
1.82E-17
1.79E-17
Ba-139
4.26E-18
3.94E-18
3.70E-18
3.53E-18
3.25E-18
3.20E-18
Ba-140
7.52E-18
6.90E-18
6.41E-18
6.13E-18
5.62E-18
5.51E-18
Ba-141
4.04E-17
3.71E-17
3.49E-17
3.33E-17
3.07E-17
3.01E-17
Ba-142
4.41E-17
4.06E-17
3.82E-17
3.64E-17
3.35E-17
3.29E-17
Lanthanum
La-128
1.21E-16
1.11E-16
1.04E-16
9.91E-17
9.12E-17
8.96E-17
La-129
3.75E-17
3.44E-17
3.20E-17
3.06E-17
2.81E-17
2.76E-17
La-130
9.55E-17
8.78E-17
8.21E-17
7.87E-17
7.24E-17
7.11E-17
La-131
2.53E-17
2.32E-17
2.15E-17
2.06E-17
1.89E-17
1.85E-17
La-132
8.52E-17
7.86E-17
7.36E-17
7.08E-17
6.53E-17
6.42E-17
La-13 2m
2.59E-17
2.37E-17
2.21E-17
2.11E-17
1.94E-17
1.90E-17
169
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
La-133
5.60E-18
5.11E-18
4.74E-18
4.53E-18
4.15E-18
4.07E-18
La-134
3.10E-17
2.84E-17
2.64E-17
2.53E-17
2.33E-17
2.28E-17
La-135
5.44E-19
4.73E-19
4.26E-19
4.02E-19
3.58E-19
3.50E-19
La-136
1.65E-17
1.51E-17
1.40E-17
1.34E-17
1.23E-17
1.21E-17
La-137
1.35E-19
9.87E-20
7.82E-20
6.92E-20
5.34E-20
5.14E-20
La-138
5.31E-17
4.90E-17
4.62E-17
4.43E-17
4.10E-17
4.03E-17
La-140
1.02E-16
9.38E-17
8.83E-17
8.49E-17
7.86E-17
7.73E-17
La-141
4.37E-18
4.04E-18
3.82E-18
3.65E-18
3.38E-18
3.33E-18
La-142
1.09E-16
1.01E-16
9.54E-17
9.22E-17
8.57E-17
8.44E-17
La-143
1.62E-17
1.50E-17
1.41E-17
1.36E-17
1.26E-17
1.24E-17
Cerium
Ce-130
1.83E-17
1.68E-17
1.57E-17
1.49E-17
1.37E-17
1.34E-17
Ce-131
6.77E-17
6.23E-17
5.82E-17
5.58E-17
5.13E-17
5.04E-17
Ce-132
8.59E-18
7.83E-18
7.27E-18
6.93E-18
6.29E-18
6.17E-18
Ce-133
2.03E-17
1.85E-17
1.72E-17
1.64E-17
1.50E-17
1.47E-17
Ce-133m
7.13E-17
6.56E-17
6.15E-17
5.90E-17
5.44E-17
5.35E-17
Ce-134
2.10E-19
1.64E-19
1.37E-19
1.25E-19
1.03E-19
9.95E-20
Ce-135
3.16E-17
2.90E-17
2.70E-17
2.58E-17
2.37E-17
2.32E-17
Ce-137
5.92E-19
5.14E-19
4.61E-19
4.35E-19
3.87E-19
3.79E-19
Ce-137m
1.43E-18
1.28E-18
1.19E-18
1.12E-18
1.02E-18
9.99E-19
Ce-139
4.39E-18
4.03E-18
3.71E-18
3.54E-18
3.19E-18
3.13E-18
Ce-141
2.44E-18
2.26E-18
2.08E-18
1.99E-18
1.79E-18
1.76E-18
Ce-143
1.09E-17
9.90E-18
9.24E-18
8.81E-18
8.06E-18
7.91E-18
Ce-144
5.93E-19
5.44E-19
5.01E-19
4.77E-19
4.29E-19
4.22E-19
Ce-145
3.38E-17
3.10E-17
2.91E-17
2.77E-17
2.55E-17
2.50E-17
Praseodymium
Pr-134
1.32E-16
1.21E-16
1.13E-16
1.08E-16
9.94E-17
9.76E-17
Pr-134m
1.02E-16
9.40E-17
8.79E-17
8.45E-17
7.79E-17
7.65E-17
Pr-135
3.55E-17
3.26E-17
3.03E-17
2.91E-17
2.67E-17
2.62E-17
Pr-136
9.13E-17
8.41E-17
7.86E-17
7.55E-17
6.96E-17
6.83E-17
Pr-137
1.47E-17
1.35E-17
1.26E-17
1.20E-17
1.10E-17
1.08E-17
Pr-138
3.66E-17
3.36E-17
3.12E-17
2.99E-17
2.75E-17
2.70E-17
Pr-138m
1.02E-16
9.38E-17
8.81E-17
8.39E-17
7.72E-17
7.58E-17
Pr-139
4.47E-18
4.08E-18
3.78E-18
3.62E-18
3.31E-18
3.25E-18
Pr-140
2.30E-17
2.11E-17
1.96E-17
1.88E-17
1.72E-17
1.69E-17
Pr-142
5.07E-18
4.68E-18
4.43E-18
4.25E-18
3.94E-18
3.87E-18
Pr-142m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pr-143
6.82E-19
6.29E-19
5.94E-19
5.65E-19
5.22E-19
5.13E-19
Pr-144
5.47E-18
5.06E-18
4.79E-18
4.58E-18
4.25E-18
4.18E-18
Pr-144m
1.52E-19
1.26E-19
1.11E-19
1.03E-19
8.95E-20
8.74E-20
Pr-145
2.68E-18
2.47E-18
2.33E-18
2.22E-18
2.05E-18
2.02E-18
Pr-146
4.83E-17
4.46E-17
4.19E-17
4.03E-17
3.73E-17
3.66E-17
Pr-147
2.10E-17
1.93E-17
1.80E-17
1.72E-17
1.58E-17
1.55E-17
Pr-148
4.84E-17
4.46E-17
4.20E-17
4.03E-17
3.72E-17
3.66E-17
Pr-148m
4.36E-17
4.00E-17
3.74E-17
3.57E-17
3.29E-17
3.23E-17
170
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Neodymium
Nd-134
1.99E-17
1.82E-17
1.70E-17
1.62E-17
1.48E-17
1.45E-17
Nd-135
5.20E-17
4.77E-17
4.44E-17
4.25E-17
3.90E-17
3.82E-17
Nd-136
9.16E-18
8.36E-18
7.75E-18
7.39E-18
6.74E-18
6.61E-18
Nd-137
4.82E-17
4.43E-17
4.14E-17
3.97E-17
3.65E-17
3.59E-17
Nd-138
7.37E-19
6.38E-19
5.76E-19
5.41E-19
4.80E-19
4.70E-19
Nd-139
1.77E-17
1.63E-17
1.51E-17
1.45E-17
1.33E-17
1.30E-17
Nd-139m
6.45E-17
5.93E-17
5.57E-17
5.31E-17
4.89E-17
4.81E-17
Nd-140
2.07E-19
1.56E-19
1.27E-19
1.12E-19
8.94E-20
8.64E-20
Nd-141
2.20E-18
1.99E-18
1.84E-18
1.75E-18
1.60E-18
1.56E-18
Nd-141m
2.86E-17
2.63E-17
2.47E-17
2.35E-17
2.16E-17
2.12E-17
Nd-144
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Nd-147
5.06E-18
4.60E-18
4.26E-18
4.07E-18
3.71E-18
3.64E-18
Nd-149
1.45E-17
1.32E-17
1.23E-17
1.17E-17
1.07E-17
1.05E-17
Nd-151
3.60E-17
3.31E-17
3.11E-17
2.97E-17
2.73E-17
2.68E-17
Nd-152
6.62E-18
6.01E-18
5.63E-18
5.36E-18
4.90E-18
4.81E-18
Promethium
Pm-136
1.19E-16
1.09E-16
1.02E-16
9.77E-17
8.98E-17
8.81E-17
Pm-137m
7.32E-17
6.72E-17
6.27E-17
5.99E-17
5.50E-17
5.40E-17
Pm-139
4.11E-17
3.78E-17
3.52E-17
3.37E-17
3.10E-17
3.04E-17
Pm-140
5.11E-17
4.70E-17
4.38E-17
4.20E-17
3.87E-17
3.79E-17
Pm-140m
1.28E-16
1.18E-16
1.10E-16
1.05E-16
9.67E-17
9.49E-17
Pm-141
3.15E-17
2.90E-17
2.70E-17
2.59E-17
2.38E-17
2.34E-17
Pm-142
3.91E-17
3.60E-17
3.35E-17
3.21E-17
2.95E-17
2.90E-17
Pm-143
1.20E-17
1.10E-17
1.03E-17
9.79E-18
8.99E-18
8.82E-18
Pm-144
6.24E-17
5.73E-17
5.34E-17
5.10E-17
4.68E-17
4.59E-17
Pm-145
2.67E-19
2.08E-19
1.73E-19
1.56E-19
1.27E-19
1.23E-19
Pm-146
2.98E-17
2.74E-17
2.55E-17
2.43E-17
2.23E-17
2.19E-17
Pm-147
6.42E-20
5.91E-20
5.58E-20
5.30E-20
4.89E-20
4.81E-20
Pm-148
2.68E-17
2.47E-17
2.32E-17
2.23E-17
2.06E-17
2.02E-17
Pm-148m
8.09E-17
7.43E-17
6.93E-17
6.62E-17
6.08E-17
5.97E-17
Pm-149
1.28E-18
1.17E-18
1.10E-18
1.05E-18
9.67E-19
9.51E-19
Pm-150
6.47E-17
5.96E-17
5.61E-17
5.37E-17
4.96E-17
4.88E-17
Pm-151
1.26E-17
1.15E-17
1.08E-17
1.03E-17
9.38E-18
9.21E-18
Pm-152
1.66E-17
1.53E-17
1.44E-17
1.38E-17
1.27E-17
1.25E-17
Pm-152m
6.47E-17
5.95E-17
5.60E-17
5.35E-17
4.93E-17
4.85E-17
Pm-153
3.96E-18
3.63E-18
3.38E-18
3.23E-18
2.94E-18
2.89E-18
Pm-154
8.11E-17
7.50E-17
7.08E-17
6.81E-17
6.31E-17
6.21E-17
Pm-154m
7.84E-17
7.23E-17
6.80E-17
6.52E-17
6.02E-17
5.92E-17
Samarium
Sm-139
6.20E-17
5.69E-17
5.31E-17
5.08E-17
4.67E-17
4.58E-17
Sm-140
2.27E-17
2.08E-17
1.94E-17
1.86E-17
1.71E-17
1.68E-17
Sm-141
5.97E-17
5.49E-17
5.13E-17
4.92E-17
4.53E-17
4.44E-17
Sm-141m
8.05E-17
7.40E-17
6.93E-17
6.63E-17
6.11E-17
6.00E-17
Sm-142
3.58E-18
3.25E-18
3.00E-18
2.86E-18
2.61E-18
2.56E-18
Sm-143
2.22E-17
2.04E-17
1.89E-17
1.81E-17
1.66E-17
1.63E-17
171
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sm-143m
2.82E-17
2.59E-17
2.43E-17
2.31E-17
2.13E-17
2.09E-17
Sm-145
6.14E-19
4.84E-19
4.09E-19
3.69E-19
3.03E-19
2.94E-19
Sm-146
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-147
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-151
7.39E-21
6.80E-21
6.42E-21
6.10E-21
5.62E-21
5.53E-21
Sm-153
1.67E-18
1.48E-18
1.36E-18
1.29E-18
1.15E-18
1.12E-18
Sm-155
4.22E-18
3.85E-18
3.58E-18
3.41E-18
3.09E-18
3.04E-18
Sm-156
3.81E-18
3.46E-18
3.23E-18
3.07E-18
2.78E-18
2.73E-18
Sm-157
1.83E-17
1.68E-17
1.58E-17
1.50E-17
1.38E-17
1.36E-17
Europium
Eu-142
6.33E-17
5.84E-17
5.46E-17
5.24E-17
4.84E-17
4.75E-17
Eu-142m
1.49E-16
1.37E-16
1.28E-16
1.22E-16
1.12E-16
1.10E-16
Eu-143
5.14E-17
4.73E-17
4.41E-17
4.24E-17
3.90E-17
3.83E-17
Eu-144
5.37E-17
4.95E-17
4.62E-17
4.43E-17
4.08E-17
4.01E-17
Eu-145
5.39E-17
4.96E-17
4.67E-17
4.47E-17
4.13E-17
4.06E-17
Eu-146
1.00E-16
9.21E-17
8.64E-17
8.27E-17
7.62E-17
7.49E-17
Eu-147
1.76E-17
1.61E-17
1.51E-17
1.43E-17
1.31E-17
1.29E-17
Eu-148
9.06E-17
8.32E-17
7.77E-17
7.44E-17
6.84E-17
6.71E-17
Eu-149
1.51E-18
1.33E-18
1.22E-18
1.15E-18
1.04E-18
1.02E-18
Eu-150
6.12E-17
5.61E-17
5.23E-17
5.00E-17
4.59E-17
4.50E-17
Eu-150m
2.55E-18
2.34E-18
2.19E-18
2.09E-18
1.92E-18
1.89E-18
Eu-152
4.83E-17
4.44E-17
4.18E-17
3.99E-17
3.68E-17
3.61E-17
Eu-152m
1.34E-17
1.23E-17
1.16E-17
1.10E-17
1.01E-17
9.97E-18
Eu-152n
1.64E-18
1.47E-18
1.35E-18
1.27E-18
1.13E-18
1.10E-18
Eu-154
5.25E-17
4.83E-17
4.55E-17
4.34E-17
4.00E-17
3.93E-17
Eu-154m
1.30E-18
1.14E-18
1.04E-18
9.77E-19
8.54E-19
8.34E-19
Eu-155
1.40E-18
1.26E-18
1.15E-18
1.09E-18
9.66E-19
9.46E-19
Eu-156
5.48E-17
5.06E-17
4.78E-17
4.59E-17
4.25E-17
4.18E-17
Eu-157
1.11E-17
1.01E-17
9.38E-18
8.96E-18
8.18E-18
8.03E-18
Eu-158
5.77E-17
5.32E-17
5.02E-17
4.79E-17
4.42E-17
4.35E-17
Eu-159
1.32E-17
1.21E-17
1.13E-17
1.08E-17
9.88E-18
9.70E-18
Gadolinium
Gd-142
4.46E-17
4.10E-17
3.83E-17
3.67E-17
3.38E-17
3.32E-17
Gd-143m
9.07E-17
8.33E-17
7.80E-17
7.47E-17
6.88E-17
6.75E-17
Gd-144
3.94E-17
3.64E-17
3.40E-17
3.27E-17
3.02E-17
2.97E-17
Gd-145
1.07E-16
9.94E-17
9.36E-17
9.05E-17
8.39E-17
8.25E-17
Gd-145m
2.80E-17
2.57E-17
2.40E-17
2.29E-17
2.10E-17
2.07E-17
Gd-146
5.85E-18
5.28E-18
4.82E-18
4.58E-18
4.07E-18
4.00E-18
Gd-147
5.57E-17
5.10E-17
4.78E-17
4.56E-17
4.19E-17
4.12E-17
Gd-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-149
1.89E-17
1.72E-17
1.60E-17
1.53E-17
1.40E-17
1.37E-17
Gd-150
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-151
1.49E-18
1.31E-18
1.20E-18
1.13E-18
1.01E-18
9.87E-19
Gd-152
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-153
1.87E-18
1.63E-18
1.47E-18
1.38E-18
1.21E-18
1.18E-18
172
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Gd-159
2.43E-18
2.21E-18
2.06E-18
1.96E-18
1.80E-18
1.76E-18
Gd-162
1.67E-17
1.53E-17
1.42E-17
1.36E-17
1.25E-17
1.22E-17
Terbium
Tb-146
1.63E-16
1.50E-16
1.41E-16
1.36E-16
1.26E-16
1.24E-16
Tb-147
9.22E-17
8.50E-17
7.99E-17
7.64E-17
7.05E-17
6.93E-17
Tb-147m
8.34E-17
7.70E-17
7.25E-17
6.97E-17
6.45E-17
6.34E-17
Tb-148
1.02E-16
9.44E-17
8.86E-17
8.50E-17
7.85E-17
7.71E-17
Tb-148m
1.29E-16
1.18E-16
1.10E-16
1.05E-16
9.69E-17
9.52E-17
Tb-149
5.60E-17
5.16E-17
4.84E-17
4.64E-17
4.28E-17
4.20E-17
Tb-149m
5.62E-17
5.16E-17
4.82E-17
4.60E-17
4.23E-17
4.15E-17
Tb-150
1.06E-16
9.80E-17
9.21E-17
8.87E-17
8.22E-17
8.09E-17
Tb-150m
1.01E-16
9.24E-17
8.60E-17
8.22E-17
7.54E-17
7.40E-17
Tb-151
3.77E-17
3.45E-17
3.22E-17
3.07E-17
2.82E-17
2.76E-17
Tb-151m
2.72E-18
2.48E-18
2.30E-18
2.19E-18
2.00E-18
1.96E-18
Tb-152
6.27E-17
5.78E-17
5.43E-17
5.21E-17
4.81E-17
4.73E-17
Tb-152m
2.81E-17
2.56E-17
2.38E-17
2.28E-17
2.08E-17
2.04E-17
Tb-153
1.11E-17
1.01E-17
9.43E-18
8.97E-18
8.18E-18
8.02E-18
Tb-154
9.95E-17
9.21E-17
8.69E-17
8.38E-17
7.77E-17
7.65E-17
Tb-155
4.41E-18
3.95E-18
3.64E-18
3.44E-18
3.08E-18
3.02E-18
Tb-156
7.94E-17
7.30E-17
6.86E-17
6.56E-17
6.04E-17
5.94E-17
Tb-156m
4.90E-19
3.99E-19
3.48E-19
3.15E-19
2.64E-19
2.58E-19
Tb-156n
5.49E-20
4.63E-20
4.11E-20
3.80E-20
3.26E-20
3.18E-20
Tb-157
4.98E-20
3.94E-20
3.35E-20
3.01E-20
2.48E-20
2.41E-20
Tb-158
3.24E-17
2.97E-17
2.80E-17
2.66E-17
2.45E-17
2.40E-17
Tb-160
4.71E-17
4.33E-17
4.08E-17
3.89E-17
3.58E-17
3.52E-17
Tb-161
7.25E-19
6.30E-19
5.72E-19
5.35E-19
4.71E-19
4.61E-19
Tb-162
4.57E-17
4.19E-17
3.93E-17
3.74E-17
3.44E-17
3.38E-17
Tb-163
3.12E-17
2.86E-17
2.65E-17
2.54E-17
2.33E-17
2.28E-17
Tb-164
1.04E-16
9.57E-17
8.99E-17
8.60E-17
7.93E-17
7.79E-17
Tb-165
3.88E-17
3.58E-17
3.38E-17
3.24E-17
2.99E-17
2.94E-17
Dysprosium
Dy-148
2.81E-17
2.58E-17
2.40E-17
2.29E-17
2.10E-17
2.06E-17
Dy-149
6.78E-17
6.25E-17
5.87E-17
5.63E-17
5.20E-17
5.11E-17
Dy-150
1.01E-17
9.15E-18
8.48E-18
8.11E-18
7.41E-18
7.26E-18
Dy-151
5.65E-17
5.19E-17
4.87E-17
4.66E-17
4.30E-17
4.22E-17
Dy-152
9.44E-18
8.50E-18
7.95E-18
7.55E-18
6.87E-18
6.73E-18
Dy-153
3.33E-17
3.05E-17
2.85E-17
2.73E-17
2.50E-17
2.46E-17
Dy-154
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Dy-155
2.58E-17
2.36E-17
2.21E-17
2.11E-17
1.94E-17
1.90E-17
Dy-157
1.19E-17
1.08E-17
1.01E-17
9.58E-18
8.74E-18
8.56E-18
Dy-159
5.18E-19
4.14E-19
3.56E-19
3.21E-19
2.66E-19
2.59E-19
Dy-165
1.97E-18
1.80E-18
1.69E-18
1.61E-18
1.48E-18
1.45E-18
Dy-165m
5.58E-19
5.05E-19
4.65E-19
4.43E-19
4.02E-19
3.94E-19
Dy-166
9.51E-19
8.32E-19
7.57E-19
7.09E-19
6.27E-19
6.13E-19
Dy-167
2.22E-17
2.03E-17
1.90E-17
1.81E-17
1.66E-17
1.63E-17
Dy-168
1.54E-17
1.41E-17
1.31E-17
1.25E-17
1.15E-17
1.13E-17
173
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Holmium
Ho-150
8.57E-17
7.88E-17
7.36E-17
7.03E-17
6.47E-17
6.35E-17
Ho-153
4.18E-17
3.83E-17
3.58E-17
3.42E-17
3.14E-17
3.08E-17
Ho-153m
4.29E-17
3.93E-17
3.66E-17
3.50E-17
3.21E-17
3.15E-17
Ho-154
8.00E-17
7.35E-17
6.87E-17
6.58E-17
6.05E-17
5.94E-17
Ho-154m
9.79E-17
8.97E-17
8.36E-17
8.00E-17
7.34E-17
7.20E-17
Ho-155
2.38E-17
2.18E-17
2.04E-17
1.95E-17
1.79E-17
1.76E-17
Ho-156
8.85E-17
8.15E-17
7.64E-17
7.33E-17
6.76E-17
6.64E-17
Ho-157
2.09E-17
1.90E-17
1.77E-17
1.69E-17
1.55E-17
1.52E-17
Ho-159
1.19E-17
1.08E-17
1.00E-17
9.54E-18
8.65E-18
8.49E-18
Ho-160
6.87E-17
6.31E-17
5.92E-17
5.63E-17
5.18E-17
5.09E-17
Ho-161
7.41E-19
6.16E-19
5.43E-19
4.99E-19
4.25E-19
4.15E-19
Ho-162
5.51E-18
5.01E-18
4.67E-18
4.45E-18
4.07E-18
3.99E-18
Ho-162m
2.17E-17
1.99E-17
1.87E-17
1.78E-17
1.64E-17
1.61E-17
Ho-163
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ho-164
6.61E-19
5.71E-19
5.18E-19
4.82E-19
4.25E-19
4.16E-19
Ho-164m
5.57E-19
4.52E-19
3.93E-19
3.57E-19
2.99E-19
2.91E-19
Ho-166
2.91E-18
2.68E-18
2.53E-18
2.41E-18
2.22E-18
2.19E-18
Ho-166m
6.47E-17
5.93E-17
5.55E-17
5.29E-17
4.86E-17
4.77E-17
Ho-167
1.38E-17
1.25E-17
1.17E-17
1.11E-17
1.02E-17
9.98E-18
Ho-168
3.83E-17
3.53E-17
3.31E-17
3.15E-17
2.90E-17
2.85E-17
Ho-168m
7.92E-20
6.43E-20
5.59E-20
5.06E-20
4.24E-20
4.13E-20
Ho-170
7.17E-17
6.59E-17
6.21E-17
5.90E-17
5.43E-17
5.34E-17
Erbium
Er-154
1.65E-18
1.46E-18
1.33E-18
1.25E-18
1.12E-18
1.10E-18
Er-156
1.07E-18
9.12E-19
8.17E-19
7.60E-19
6.64E-19
6.49E-19
Er-159
3.89E-17
3.57E-17
3.34E-17
3.20E-17
2.95E-17
2.89E-17
Er-161
4.00E-17
3.67E-17
3.45E-17
3.28E-17
3.02E-17
2.97E-17
Er-163
5.35E-19
4.39E-19
3.84E-19
3.50E-19
2.95E-19
2.88E-19
Er-165
4.75E-19
3.85E-19
3.35E-19
3.04E-19
2.54E-19
2.48E-19
Er-167m
3.11E-18
2.81E-18
2.63E-18
2.50E-18
2.27E-18
2.22E-18
Er-169
1.35E-19
1.24E-19
1.17E-19
1.11E-19
1.03E-19
1.01E-19
Er-171
1.38E-17
1.25E-17
1.17E-17
1.12E-17
1.02E-17
9.98E-18
Er-172
1.96E-17
1.79E-17
1.67E-17
1.59E-17
1.46E-17
1.43E-17
Er-173
3.35E-17
3.07E-17
2.88E-17
2.74E-17
2.51E-17
2.47E-17
Thulium
Tm-161
5.20E-17
4.78E-17
4.49E-17
4.31E-17
3.98E-17
3.91E-17
Tm-162
8.33E-17
7.70E-17
7.24E-17
6.96E-17
6.44E-17
6.34E-17
Tm-163
5.37E-17
4.94E-17
4.64E-17
4.45E-17
4.10E-17
4.03E-17
Tm-164
3.33E-17
3.06E-17
2.86E-17
2.74E-17
2.53E-17
2.48E-17
Tm-165
2.04E-17
1.85E-17
1.73E-17
1.65E-17
1.51E-17
1.48E-17
Tm-166
8.38E-17
7.73E-17
7.27E-17
6.99E-17
6.46E-17
6.35E-17
Tm-167
4.03E-18
3.60E-18
3.34E-18
3.15E-18
2.84E-18
2.78E-18
Tm-168
4.86E-17
4.45E-17
4.17E-17
3.97E-17
3.64E-17
3.58E-17
Tm-170
7.64E-19
7.01E-19
6.60E-19
6.27E-19
5.76E-19
5.66E-19
Tm-171
2.14E-20
1.90E-20
1.75E-20
1.64E-20
1.47E-20
1.44E-20
174
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Tm-172
2.18E-17
2.01E-17
1.90E-17
1.82E-17
1.68E-17
1.65E-17
Tm-173
1.54E-17
1.41E-17
1.31E-17
1.25E-17
1.15E-17
1.12E-17
Tm-174
7.13E-17
6.54E-17
6.14E-17
5.84E-17
5.37E-17
5.27E-17
Tm-175
4.53E-17
4.16E-17
3.90E-17
3.72E-17
3.42E-17
3.36E-17
Tm-176
8.59E-17
7.93E-17
7.47E-17
7.17E-17
6.63E-17
6.52E-17
Ytterbium
Yb-162
7.77E-18
7.09E-18
6.55E-18
6.24E-18
5.65E-18
5.54E-18
Yb-163
2.98E-17
2.74E-17
2.56E-17
2.45E-17
2.26E-17
2.22E-17
Yb-164
1.05E-18
9.06E-19
8.19E-19
7.64E-19
6.72E-19
6.58E-19
Yb-165
1.15E-17
1.04E-17
9.72E-18
9.25E-18
8.45E-18
8.29E-18
Yb-166
1.31E-18
1.10E-18
9.81E-19
9.03E-19
7.71E-19
7.52E-19
Yb-167
6.52E-18
5.84E-18
5.36E-18
5.07E-18
4.52E-18
4.44E-18
Yb-169
8.31E-18
7.42E-18
6.84E-18
6.46E-18
5.78E-18
5.66E-18
Yb-175
1.60E-18
1.46E-18
1.36E-18
1.30E-18
1.19E-18
1.16E-18
Yb-177
8.72E-18
8.04E-18
7.56E-18
7.20E-18
6.62E-18
6.51E-18
Yb-178
1.78E-18
1.62E-18
1.51E-18
1.45E-18
1.32E-18
1.30E-18
Yb-179
4.05E-17
3.72E-17
3.46E-17
3.31E-17
3.04E-17
2.98E-17
Lutetium
Lu-165
4.47E-17
4.11E-17
3.84E-17
3.69E-17
3.39E-17
3.33E-17
Lu-167
7.13E-17
6.58E-17
6.19E-17
5.95E-17
5.50E-17
5.41E-17
Lu-169
5.44E-17
5.00E-17
4.71E-17
4.51E-17
4.16E-17
4.09E-17
Lu-169m
1.52E-23
9.78E-24
5.71E-24
5.14E-24
2.08E-24
1.93E-24
Lu-170
1.12E-16
1.04E-16
9.84E-17
9.48E-17
8.80E-17
8.66E-17
Lu-171
2.46E-17
2.25E-17
2.10E-17
2.00E-17
1.83E-17
1.80E-17
Lu-171m
5.60E-21
4.84E-21
4.36E-21
4.07E-21
3.50E-21
3.41E-21
Lu-172
8.05E-17
7.40E-17
6.97E-17
6.64E-17
6.12E-17
6.01E-17
Lu-172m
2.03E-23
1.52E-23
1.19E-23
1.07E-23
7.91E-24
7.65E-24
Lu-173
4.63E-18
4.11E-18
3.78E-18
3.57E-18
3.20E-18
3.13E-18
Lu-174
3.58E-18
3.24E-18
3.02E-18
2.86E-18
2.61E-18
2.56E-18
Lu-174m
1.10E-18
9.53E-19
8.63E-19
8.03E-19
7.02E-19
6.86E-19
Lu-176
1.70E-17
1.55E-17
1.44E-17
1.38E-17
1.25E-17
1.23E-17
Lu-176m
1.35E-18
1.24E-18
1.16E-18
1.10E-18
1.01E-18
9.93E-19
Lu-177
1.30E-18
1.18E-18
1.11E-18
1.05E-18
9.56E-19
9.37E-19
Lu-177m
3.42E-17
3.11E-17
2.89E-17
2.76E-17
2.51E-17
2.46E-17
Lu-178
7.42E-18
6.84E-18
6.46E-18
6.18E-18
5.71E-18
5.61E-18
Lu-178m
3.83E-17
3.48E-17
3.24E-17
3.09E-17
2.82E-17
2.77E-17
Lu-179
2.26E-18
2.07E-18
1.95E-18
1.86E-18
1.71E-18
1.68E-18
Lu-180
6.50E-17
5.98E-17
5.64E-17
5.39E-17
4.97E-17
4.88E-17
Lu-181
2.43E-17
2.23E-17
2.08E-17
1.98E-17
1.82E-17
1.79E-17
Hafnium
Hf-167
2.49E-17
2.27E-17
2.11E-17
2.02E-17
1.85E-17
1.81E-17
Hf-169
2.44E-17
2.24E-17
2.07E-17
1.98E-17
1.81E-17
1.78E-17
Hf-170
1.52E-17
1.39E-17
1.28E-17
1.22E-17
1.12E-17
1.09E-17
Hf-172
1.84E-18
1.60E-18
1.44E-18
1.35E-18
1.17E-18
1.14E-18
Hf-173
1.24E-17
1.13E-17
1.05E-17
9.99E-18
9.05E-18
8.88E-18
Hf-174
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
175
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hf-175
1.21E-17
1.09E-17
1.02E-17
9.69E-18
8.83E-18
8.65E-18
Hf-177m
8.11E-17
7.37E-17
6.88E-17
6.56E-17
5.98E-17
5.86E-17
Hf-178m
8.37E-17
7.64E-17
7.10E-17
6.79E-17
6.21E-17
6.09E-17
Hf-179m
3.25E-17
2.97E-17
2.75E-17
2.63E-17
2.40E-17
2.35E-17
Hf-180m
3.60E-17
3.28E-17
3.05E-17
2.91E-17
2.66E-17
2.60E-17
Hf-181
1.99E-17
1.83E-17
1.69E-17
1.62E-17
1.48E-17
1.45E-17
Hf-182
8.47E-18
7.68E-18
7.18E-18
6.84E-18
6.24E-18
6.11E-18
Hf-182m
3.43E-17
3.14E-17
2.93E-17
2.79E-17
2.55E-17
2.51E-17
Hf-183
3.19E-17
2.93E-17
2.74E-17
2.61E-17
2.40E-17
2.36E-17
Hf-184
8.31E-18
7.59E-18
7.04E-18
6.72E-18
6.11E-18
5.99E-18
Tantalum
Ta-170
4.83E-17
4.44E-17
4.14E-17
3.96E-17
3.64E-17
3.57E-17
Ta-172
7.09E-17
6.52E-17
6.13E-17
5.86E-17
5.40E-17
5.30E-17
Ta-173
2.23E-17
2.05E-17
1.92E-17
1.83E-17
1.68E-17
1.65E-17
Ta-174
4.00E-17
3.67E-17
3.44E-17
3.30E-17
3.04E-17
2.98E-17
Ta-175
4.49E-17
4.13E-17
3.88E-17
3.72E-17
3.43E-17
3.37E-17
Ta-176
9.64E-17
8.91E-17
8.40E-17
8.08E-17
7.48E-17
7.36E-17
Ta-177
1.39E-18
1.22E-18
1.11E-18
1.04E-18
9.15E-19
8.95E-19
Ta-178
3.73E-18
3.38E-18
3.15E-18
2.99E-18
2.72E-18
2.67E-18
Ta-178m
4.05E-17
3.68E-17
3.42E-17
3.27E-17
2.98E-17
2.92E-17
Ta-179
3.86E-19
3.27E-19
2.92E-19
2.69E-19
2.30E-19
2.24E-19
Ta-180
8.52E-19
7.33E-19
6.60E-19
6.14E-19
5.31E-19
5.18E-19
Ta-182
5.37E-17
4.95E-17
4.67E-17
4.45E-17
4.10E-17
4.03E-17
Ta-182m
7.62E-18
6.95E-18
6.42E-18
6.11E-18
5.50E-18
5.40E-18
Ta-183
9.43E-18
8.53E-18
7.94E-18
7.55E-18
6.84E-18
6.70E-18
Ta-184
6.29E-17
5.76E-17
5.39E-17
5.14E-17
4.72E-17
4.63E-17
Ta-185
6.49E-18
5.94E-18
5.54E-18
5.27E-18
4.80E-18
4.71E-18
Ta-186
5.88E-17
5.39E-17
5.04E-17
4.81E-17
4.41E-17
4.33E-17
Tungsten
W-177
3.40E-17
3.11E-17
2.91E-17
2.77E-17
2.54E-17
2.49E-17
W-178
2.42E-19
2.06E-19
1.85E-19
1.71E-19
1.47E-19
1.43E-19
W-179
8.02E-19
6.82E-19
6.09E-19
5.64E-19
4.81E-19
4.69E-19
W-179m
1.31E-18
1.16E-18
1.07E-18
1.00E-18
8.92E-19
8.73E-19
W-181
6.44E-19
5.50E-19
4.93E-19
4.57E-19
3.91E-19
3.81E-19
W-185
1.94E-19
1.78E-19
1.68E-19
1.60E-19
1.48E-19
1.45E-19
W-185m
6.22E-19
5.65E-19
5.19E-19
4.93E-19
4.40E-19
4.31E-19
W-187
1.80E-17
1.66E-17
1.54E-17
1.47E-17
1.35E-17
1.32E-17
W-188
1.99E-19
1.82E-19
1.71E-19
1.63E-19
1.50E-19
1.47E-19
W-190
4.42E-18
4.02E-18
3.70E-18
3.52E-18
3.15E-18
3.09E-18
Rhenium
Re-178
7.35E-17
6.80E-17
6.39E-17
6.15E-17
5.70E-17
5.60E-17
Re-179
4.29E-17
3.94E-17
3.68E-17
3.53E-17
3.25E-17
3.19E-17
Re-180
4.88E-17
4.49E-17
4.22E-17
4.01E-17
3.69E-17
3.63E-17
Re-181
3.04E-17
2.77E-17
2.59E-17
2.47E-17
2.26E-17
2.22E-17
Re-182
7.05E-17
6.47E-17
6.09E-17
5.81E-17
5.34E-17
5.25E-17
Re-182m
4.98E-17
4.58E-17
4.32E-17
4.12E-17
3.80E-17
3.73E-17
176
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Re-183
3.74E-18
3.36E-18
3.08E-18
2.92E-18
2.59E-18
2.54E-18
Re-184
3.55E-17
3.26E-17
3.06E-17
2.91E-17
2.67E-17
2.63E-17
Re-184m
1.37E-17
1.25E-17
1.17E-17
1.12E-17
1.02E-17
1.00E-17
Re-186
1.26E-18
1.16E-18
1.08E-18
1.03E-18
9.36E-19
9.20E-19
Re-186m
2.39E-19
2.04E-19
1.83E-19
1.70E-19
1.45E-19
1.42E-19
Re-187
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Re-188
4.48E-18
4.13E-18
3.88E-18
3.70E-18
3.41E-18
3.35E-18
Re-188m
1.35E-18
1.19E-18
1.09E-18
1.02E-18
8.90E-19
8.69E-19
Re-189
2.56E-18
2.34E-18
2.19E-18
2.08E-18
1.90E-18
1.87E-18
Re-190
5.46E-17
5.01E-17
4.67E-17
4.46E-17
4.10E-17
4.02E-17
Re-190m
3.68E-17
3.37E-17
3.14E-17
3.00E-17
2.75E-17
2.70E-17
Osmium
Os-180
3.60E-18
3.25E-18
3.00E-18
2.85E-18
2.57E-18
2.52E-18
Os-181
5.59E-17
5.13E-17
4.83E-17
4.61E-17
4.25E-17
4.17E-17
Os-182
1.52E-17
1.39E-17
1.29E-17
1.23E-17
1.12E-17
1.10E-17
Os-183
2.21E-17
2.02E-17
1.88E-17
1.79E-17
1.63E-17
1.60E-17
Os-183m
4.17E-17
3.84E-17
3.62E-17
3.44E-17
3.18E-17
3.12E-17
Os-185
2.71E-17
2.49E-17
2.32E-17
2.21E-17
2.03E-17
1.99E-17
Os-186
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Os-189m
6.40E-23
4.30E-23
2.59E-23
2.36E-23
8.35E-24
7.69E-24
Os-190m
6.17E-17
5.65E-17
5.25E-17
5.03E-17
4.60E-17
4.51E-17
Os-191
1.93E-18
1.75E-18
1.60E-18
1.52E-18
1.34E-18
1.32E-18
Os-191m
1.04E-19
9.11E-20
8.24E-20
7.73E-20
6.66E-20
6.49E-20
Os-193
3.09E-18
2.82E-18
2.63E-18
2.51E-18
2.29E-18
2.25E-18
Os-194
3.09E-20
2.51E-20
2.17E-20
1.98E-20
1.67E-20
1.62E-20
Os-196
3.64E-18
3.32E-18
3.10E-18
2.96E-18
2.70E-18
2.65E-18
Iridium
Ir-180
6.75E-17
6.20E-17
5.79E-17
5.53E-17
5.07E-17
4.98E-17
Ir-182
5.93E-17
5.45E-17
5.09E-17
4.86E-17
4.47E-17
4.39E-17
Ir-183
4.86E-17
4.48E-17
4.20E-17
4.04E-17
3.72E-17
3.66E-17
Ir-184
8.04E-17
7.39E-17
6.94E-17
6.64E-17
6.11E-17
6.01E-17
Ir-185
3.48E-17
3.20E-17
3.01E-17
2.90E-17
2.67E-17
2.63E-17
Ir-186
6.73E-17
6.19E-17
5.80E-17
5.56E-17
5.12E-17
5.03E-17
Ir-186m
5.20E-17
4.79E-17
4.50E-17
4.31E-17
3.98E-17
3.91E-17
Ir-187
1.19E-17
1.09E-17
1.02E-17
9.66E-18
8.83E-18
8.66E-18
Ir-188
9.08E-17
8.40E-17
7.91E-17
7.64E-17
7.08E-17
6.97E-17
Ir-189
1.75E-18
1.55E-18
1.43E-18
1.35E-18
1.19E-18
1.16E-18
Ir-190
5.68E-17
5.20E-17
4.83E-17
4.62E-17
4.23E-17
4.15E-17
Ir-190m
7.09E-23
4.89E-23
3.02E-23
2.76E-23
9.55E-24
8.77E-24
Ir-190n
1.09E-18
9.57E-19
8.69E-19
8.18E-19
7.11E-19
6.94E-19
Ir-191m
1.71E-18
1.55E-18
1.42E-18
1.35E-18
1.19E-18
1.17E-18
Ir-192
3.13E-17
2.86E-17
2.66E-17
2.54E-17
2.33E-17
2.28E-17
Ir-192m
2.16E-21
1.89E-21
1.70E-21
1.61E-21
1.41E-21
1.38E-21
Ir-192n
1.36E-20
1.21E-20
1.09E-20
1.03E-20
8.95E-21
8.75E-21
Ir-193m
5.82E-21
5.09E-21
4.60E-21
4.33E-21
3.72E-21
3.62E-21
Ir-194
6.04E-18
5.55E-18
5.22E-18
4.98E-18
4.59E-18
4.51E-18
177
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ir-194m
9.19E-17
8.42E-17
7.83E-17
7.49E-17
6.87E-17
6.74E-17
Ir-195
1.97E-18
1.78E-18
1.65E-18
1.56E-18
1.40E-18
1.37E-18
Ir-195m
1.41E-17
1.29E-17
1.20E-17
1.14E-17
1.04E-17
1.02E-17
Ir-196
1.34E-17
1.23E-17
1.15E-17
1.10E-17
1.01E-17
9.98E-18
Ir-196m
9.75E-17
8.94E-17
8.31E-17
7.95E-17
7.29E-17
7.15E-17
Platinum
Pt-184
2.46E-17
2.25E-17
2.09E-17
1.99E-17
1.81E-17
1.78E-17
Pt-186
2.61E-17
2.39E-17
2.23E-17
2.12E-17
1.94E-17
1.91E-17
Pt-187
2.26E-17
2.07E-17
1.93E-17
1.84E-17
1.68E-17
1.65E-17
Pt-188
6.04E-18
5.47E-18
5.07E-18
4.82E-18
4.35E-18
4.26E-18
Pt-189
1.73E-17
1.58E-17
1.47E-17
1.41E-17
1.29E-17
1.26E-17
Pt-190
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pt-191
9.33E-18
8.48E-18
7.84E-18
7.48E-18
6.77E-18
6.64E-18
Pt-193
1.72E-22
1.20E-22
7.64E-23
7.03E-23
2.43E-23
2.23E-23
Pt-193m
2.00E-19
1.77E-19
1.61E-19
1.52E-19
1.31E-19
1.28E-19
Pt-195m
1.47E-18
1.30E-18
1.19E-18
1.13E-18
9.83E-19
9.60E-19
Pt-197
9.52E-19
8.65E-19
8.06E-19
7.65E-19
6.91E-19
6.77E-19
Pt-197m
2.37E-18
2.13E-18
1.98E-18
1.88E-18
1.70E-18
1.66E-18
Pt-199
9.13E-18
8.38E-18
7.81E-18
7.47E-18
6.85E-18
6.73E-18
Pt-200
1.88E-18
1.70E-18
1.58E-18
1.50E-18
1.35E-18
1.32E-18
Pt-202
1.84E-18
1.70E-18
1.60E-18
1.53E-18
1.42E-18
1.39E-18
Gold
Au-186
6.38E-17
5.86E-17
5.48E-17
5.25E-17
4.83E-17
4.74E-17
Au-187
4.44E-17
4.09E-17
3.84E-17
3.69E-17
3.41E-17
3.35E-17
Au-190
1.03E-16
9.54E-17
8.99E-17
8.69E-17
8.06E-17
7.92E-17
Au-191
2.16E-17
1.97E-17
1.84E-17
1.75E-17
1.60E-17
1.57E-17
Au-192
8.31E-17
7.67E-17
7.23E-17
6.97E-17
6.45E-17
6.35E-17
Au-193
4.68E-18
4.22E-18
3.91E-18
3.71E-18
3.34E-18
3.27E-18
Au-193m
6.74E-18
6.10E-18
5.71E-18
5.43E-18
4.95E-18
4.85E-18
Au-194
4.26E-17
3.92E-17
3.68E-17
3.54E-17
3.26E-17
3.20E-17
Au-195
1.61E-18
1.42E-18
1.30E-18
1.23E-18
1.07E-18
1.04E-18
Au-195m
6.87E-18
6.21E-18
5.82E-18
5.53E-18
5.04E-18
4.94E-18
Au-196
1.69E-17
1.54E-17
1.43E-17
1.36E-17
1.24E-17
1.22E-17
Au-196m
7.00E-18
6.39E-18
5.91E-18
5.64E-18
5.07E-18
4.97E-18
Au-198
1.62E-17
1.48E-17
1.38E-17
1.32E-17
1.21E-17
1.18E-17
Au-198m
1.68E-17
1.52E-17
1.42E-17
1.35E-17
1.22E-17
1.20E-17
Au-199
3.00E-18
2.76E-18
2.56E-18
2.44E-18
2.20E-18
2.16E-18
Au-200
1.37E-17
1.26E-17
1.19E-17
1.13E-17
1.05E-17
1.03E-17
Au-200m
7.77E-17
7.12E-17
6.64E-17
6.34E-17
5.81E-17
5.70E-17
Au-201
2.33E-18
2.14E-18
2.01E-18
1.92E-18
1.76E-18
1.73E-18
Au-202
1.08E-17
9.94E-18
9.36E-18
8.94E-18
8.25E-18
8.11E-18
Mercury
Hg-190
5.35E-18
4.91E-18
4.51E-18
4.30E-18
3.84E-18
3.77E-18
Hg-191m
5.92E-17
5.43E-17
5.09E-17
4.87E-17
4.47E-17
4.39E-17
Hg-192
8.44E-18
7.63E-18
7.10E-18
6.76E-18
6.11E-18
5.99E-18
Hg-193
3.36E-17
3.09E-17
2.90E-17
2.78E-17
2.56E-17
2.51E-17
178
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hg-193m
4.15E-17
3.81E-17
3.58E-17
3.42E-17
3.15E-17
3.09E-17
Hg-194
2.61E-22
1.91E-22
1.28E-22
1.19E-22
4.12E-23
3.77E-23
Hg-195
6.75E-18
6.17E-18
5.76E-18
5.48E-18
4.99E-18
4.90E-18
Hg-195m
6.83E-18
6.21E-18
5.79E-18
5.51E-18
5.02E-18
4.92E-18
Hg-197
1.42E-18
1.26E-18
1.15E-18
1.09E-18
9.50E-19
9.27E-19
Hg-197m
2.60E-18
2.37E-18
2.19E-18
2.09E-18
1.87E-18
1.83E-18
Hg-199m
5.52E-18
5.05E-18
4.67E-18
4.46E-18
4.02E-18
3.94E-18
Hg-203
8.59E-18
7.78E-18
7.28E-18
6.93E-18
6.33E-18
6.20E-18
Hg-205
1.59E-18
1.46E-18
1.38E-18
1.32E-18
1.22E-18
1.20E-18
Hg-206
5.36E-18
4.88E-18
4.56E-18
4.35E-18
3.98E-18
3.91E-18
Hg-207
1.17E-16
1.08E-16
1.02E-16
9.80E-17
9.07E-17
8.91E-17
Thallium
Tl-190
5.82E-17
5.35E-17
4.98E-17
4.77E-17
4.38E-17
4.30E-17
Tl-190m
1.01E-16
9.31E-17
8.68E-17
8.30E-17
7.62E-17
7.48E-17
Tl-194
3.78E-17
3.47E-17
3.22E-17
3.09E-17
2.83E-17
2.78E-17
Tl-194m
1.01E-16
9.26E-17
8.63E-17
8.25E-17
7.57E-17
7.43E-17
Tl-195
5.13E-17
4.74E-17
4.46E-17
4.28E-17
3.96E-17
3.89E-17
Tl-196
7.92E-17
7.30E-17
6.85E-17
6.60E-17
6.09E-17
5.99E-17
Tl-197
1.73E-17
1.59E-17
1.48E-17
1.42E-17
1.30E-17
1.28E-17
Tl-198
8.52E-17
7.87E-17
7.40E-17
7.12E-17
6.58E-17
6.47E-17
Tl-198m
4.69E-17
4.30E-17
4.00E-17
3.82E-17
3.50E-17
3.43E-17
Tl-199
8.22E-18
7.48E-18
6.96E-18
6.63E-18
6.02E-18
5.90E-18
Tl-200
5.32E-17
4.88E-17
4.59E-17
4.38E-17
4.03E-17
3.96E-17
Tl-201
2.06E-18
1.86E-18
1.70E-18
1.62E-18
1.42E-18
1.39E-18
Tl-202
1.70E-17
1.55E-17
1.43E-17
1.37E-17
1.25E-17
1.23E-17
Tl-204
4.98E-19
4.58E-19
4.32E-19
4.10E-19
3.78E-19
3.71E-19
Tl-206
1.42E-18
1.31E-18
1.24E-18
1.18E-18
1.09E-18
1.07E-18
Tl-206m
9.65E-17
8.85E-17
8.28E-17
7.90E-17
7.25E-17
7.12E-17
Tl-207
1.36E-18
1.26E-18
1.19E-18
1.13E-18
1.05E-18
1.03E-18
Tl-208
1.51E-16
1.41E-16
1.33E-16
1.29E-16
1.20E-16
1.18E-16
Tl-209
9.27E-17
8.55E-17
8.04E-17
7.73E-17
7.15E-17
7.03E-17
Tl-210
1.22E-16
1.13E-16
1.06E-16
1.02E-16
9.43E-17
9.27E-17
Lead
Pb-194
4.36E-17
4.01E-17
3.76E-17
3.60E-17
3.32E-17
3.26E-17
Pb-195m
6.56E-17
6.02E-17
5.62E-17
5.37E-17
4.93E-17
4.83E-17
Pb-196
1.75E-17
1.59E-17
1.48E-17
1.41E-17
1.29E-17
1.26E-17
Pb-197
6.39E-17
5.89E-17
5.53E-17
5.31E-17
4.90E-17
4.81E-17
Pb-197m
4.56E-17
4.18E-17
3.90E-17
3.73E-17
3.42E-17
3.36E-17
Pb-198
1.52E-17
1.39E-17
1.29E-17
1.23E-17
1.12E-17
1.10E-17
Pb-199
4.26E-17
3.92E-17
3.68E-17
3.53E-17
3.25E-17
3.19E-17
Pb-200
5.90E-18
5.37E-18
4.96E-18
4.73E-18
4.25E-18
4.17E-18
Pb-201
2.89E-17
2.64E-17
2.47E-17
2.36E-17
2.16E-17
2.12E-17
Pb-201m
1.44E-17
1.32E-17
1.23E-17
1.17E-17
1.07E-17
1.05E-17
Pb-202
2.95E-22
2.02E-22
1.25E-22
1.14E-22
4.01E-23
3.68E-23
Pb-202m
8.16E-17
7.49E-17
7.02E-17
6.69E-17
6.15E-17
6.04E-17
Pb-203
1.04E-17
9.38E-18
8.76E-18
8.34E-18
7.57E-18
7.42E-18
179
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Pb-204m
8.53E-17
7.83E-17
7.37E-17
7.00E-17
6.45E-17
6.33E-17
Pb-205
2.99E-22
2.04E-22
1.26E-22
1.16E-22
4.06E-23
3.72E-23
Pb-209
3.61E-19
3.32E-19
3.14E-19
2.98E-19
2.75E-19
2.71E-19
Pb-210
2.52E-20
2.02E-20
1.74E-20
1.57E-20
1.29E-20
1.26E-20
Pb-211
3.71E-18
3.41E-18
3.20E-18
3.05E-18
2.81E-18
2.76E-18
Pb-212
4.86E-18
4.40E-18
4.11E-18
3.91E-18
3.55E-18
3.48E-18
Pb-214
9.61E-18
8.74E-18
8.15E-18
7.78E-18
7.11E-18
6.97E-18
Bismuth
Bi-197
7.12E-17
6.56E-17
6.16E-17
5.89E-17
5.43E-17
5.33E-17
Bi-200
9.78E-17
8.97E-17
8.40E-17
8.01E-17
7.36E-17
7.22E-17
Bi-201
7.31E-17
6.74E-17
6.35E-17
6.08E-17
5.62E-17
5.52E-17
Bi-202
1.13E-16
1.04E-16
9.77E-17
9.33E-17
8.59E-17
8.44E-17
Bi-203
1.02E-16
9.40E-17
8.86E-17
8.50E-17
7.86E-17
7.73E-17
Bi-204
1.21E-16
1.11E-16
1.05E-16
1.00E-16
9.21E-17
9.05E-17
Bi-205
7.21E-17
6.65E-17
6.26E-17
6.01E-17
5.56E-17
5.46E-17
Bi-206
1.36E-16
1.25E-16
1.17E-16
1.12E-16
1.03E-16
1.01E-16
Bi-207
6.31E-17
5.81E-17
5.45E-17
5.20E-17
4.79E-17
4.71E-17
Bi-208
1.21E-16
1.12E-16
1.06E-16
1.03E-16
9.64E-17
9.50E-17
Bi-210
9.12E-19
8.41E-19
7.95E-19
7.57E-19
6.99E-19
6.88E-19
Bi-210m
9.47E-18
8.60E-18
8.04E-18
7.66E-18
7.00E-18
6.86E-18
Bi-211
1.75E-18
1.59E-18
1.48E-18
1.42E-18
1.30E-18
1.27E-18
Bi-212
5.82E-18
5.36E-18
5.04E-18
4.82E-18
4.45E-18
4.37E-18
Bi-212n
1.40E-18
1.30E-18
1.22E-18
1.17E-18
1.08E-18
1.06E-18
Bi-213
5.97E-18
5.48E-18
5.10E-18
4.88E-18
4.47E-18
4.39E-18
Bi-214
6.61E-17
6.10E-17
5.75E-17
5.52E-17
5.11E-17
5.02E-17
Bi-215
1.15E-17
1.05E-17
9.88E-18
9.42E-18
8.65E-18
8.49E-18
Bi-216
3.39E-17
3.11E-17
2.90E-17
2.77E-17
2.55E-17
2.50E-17
Polonium
Po-203
6.78E-17
6.24E-17
5.88E-17
5.61E-17
5.17E-17
5.08E-17
Po-204
4.49E-17
4.12E-17
3.87E-17
3.68E-17
3.38E-17
3.31E-17
Po-205
6.57E-17
6.04E-17
5.69E-17
5.43E-17
5.00E-17
4.92E-17
Po-206
4.71E-17
4.32E-17
4.05E-17
3.86E-17
3.54E-17
3.48E-17
Po-207
5.25E-17
4.83E-17
4.54E-17
4.32E-17
3.98E-17
3.91E-17
Po-208
8.14E-22
7.45E-22
6.95E-22
6.63E-22
6.08E-22
5.96E-22
Po-209
2.40E-19
2.20E-19
2.07E-19
1.97E-19
1.80E-19
1.77E-19
Po-210
4.04E-22
3.72E-22
3.49E-22
3.32E-22
3.05E-22
3.00E-22
Po-211
3.37E-19
3.10E-19
2.90E-19
2.77E-19
2.55E-19
2.50E-19
Po-212
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Po-212m
3.57E-18
3.32E-18
3.14E-18
3.04E-18
2.84E-18
2.79E-18
Po-213
1.55E-21
1.43E-21
1.34E-21
1.27E-21
1.17E-21
1.15E-21
Po-214
3.45E-21
3.17E-21
2.97E-21
2.83E-21
2.60E-21
2.56E-21
Po-215
6.84E-21
6.27E-21
5.81E-21
5.57E-21
5.10E-21
5.00E-21
Po-216
6.36E-22
5.85E-22
5.49E-22
5.22E-22
4.81E-22
4.72E-22
Po-218
1.61E-23
1.48E-23
1.40E-23
1.33E-23
1.23E-23
1.21E-23
Astatine
At-204
9.38E-17
8.61E-17
8.02E-17
7.66E-17
7.03E-17
6.90E-17
180
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
At-205
4.69E-17
4.32E-17
4.04E-17
3.87E-17
3.56E-17
3.49E-17
At-206
1.01E-16
9.28E-17
8.67E-17
8.29E-17
7.62E-17
7.48E-17
At-207
8.37E-17
7.71E-17
7.24E-17
6.94E-17
6.40E-17
6.29E-17
At-208
1.25E-16
1.15E-16
1.08E-16
1.03E-16
9.52E-17
9.35E-17
At-209
9.19E-17
8.44E-17
7.90E-17
7.54E-17
6.93E-17
6.81E-17
At-210
1.26E-16
1.16E-16
1.10E-16
1.05E-16
9.71E-17
9.54E-17
At-211
8.06E-19
7.24E-19
6.67E-19
6.32E-19
5.58E-19
5.46E-19
At-215
6.50E-21
5.94E-21
5.51E-21
5.28E-21
4.82E-21
4.73E-21
At-216
6.59E-20
5.95E-20
5.51E-20
5.23E-20
4.68E-20
4.59E-20
At-217
8.70E-21
7.91E-21
7.39E-21
7.04E-21
6.42E-21
6.30E-21
At-218
3.70E-21
3.42E-21
3.24E-21
3.09E-21
2.87E-21
2.82E-21
At-219
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
At-220
2.09E-17
1.91E-17
1.79E-17
1.70E-17
1.56E-17
1.53E-17
Radon
Rn-207
3.93E-17
3.60E-17
3.37E-17
3.21E-17
2.95E-17
2.89E-17
Rn-209
4.86E-17
4.47E-17
4.18E-17
4.01E-17
3.69E-17
3.62E-17
Rn-210
2.38E-18
2.18E-18
2.04E-18
1.94E-18
1.78E-18
1.75E-18
Rn-211
7.77E-17
7.15E-17
6.71E-17
6.41E-17
5.91E-17
5.80E-17
Rn-212
1.38E-20
1.27E-20
1.19E-20
1.13E-20
1.04E-20
1.02E-20
Rn-215
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-216
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-217
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-218
3.06E-20
2.81E-20
2.61E-20
2.50E-20
2.30E-20
2.25E-20
Rn-219
2.16E-18
1.97E-18
1.83E-18
1.75E-18
1.60E-18
1.57E-18
Rn-220
2.51E-20
2.30E-20
2.14E-20
2.05E-20
1.88E-20
1.84E-20
Rn-222
1.54E-20
1.41E-20
1.31E-20
1.25E-20
1.15E-20
1.13E-20
Rn-223
1.48E-17
1.36E-17
1.27E-17
1.21E-17
1.11E-17
1.09E-17
Francium
Fr-212
4.70E-17
4.32E-17
4.07E-17
3.89E-17
3.58E-17
3.52E-17
Fr-219
1.34E-19
1.22E-19
1.13E-19
1.09E-19
9.92E-20
9.73E-20
Fr-220
2.38E-19
2.16E-19
1.99E-19
1.89E-19
1.69E-19
1.65E-19
Fr-221
9.87E-19
8.95E-19
8.38E-19
7.97E-19
7.25E-19
7.10E-19
Fr-222
7.98E-18
7.29E-18
6.85E-18
6.52E-18
5.97E-18
5.86E-18
Fr-223
2.16E-18
1.95E-18
1.82E-18
1.72E-18
1.56E-18
1.53E-18
Fr-224
2.52E-17
2.32E-17
2.18E-17
2.09E-17
1.93E-17
1.89E-17
Fr-227
1.85E-17
1.70E-17
1.58E-17
1.51E-17
1.38E-17
1.36E-17
Radium
Ra-219
6.11E-18
5.55E-18
5.18E-18
4.94E-18
4.51E-18
4.42E-18
Ra-220
1.83E-19
1.67E-19
1.55E-19
1.49E-19
1.36E-19
1.34E-19
Ra-221
1.04E-18
9.57E-19
8.82E-19
8.42E-19
7.56E-19
7.42E-19
Ra-222
3.42E-19
3.10E-19
2.90E-19
2.77E-19
2.53E-19
2.48E-19
Ra-223
4.37E-18
3.97E-18
3.69E-18
3.52E-18
3.18E-18
3.12E-18
Ra-224
3.64E-19
3.29E-19
3.09E-19
2.94E-19
2.68E-19
2.63E-19
Ra-225
2.26E-19
1.92E-19
1.71E-19
1.59E-19
1.39E-19
1.36E-19
Ra-226
2.38E-19
2.17E-19
2.03E-19
1.93E-19
1.75E-19
1.72E-19
Ra-227
6.05E-18
5.52E-18
5.15E-18
4.92E-18
4.50E-18
4.41E-18
181
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ra-228
1.91E-21
1.53E-21
1.29E-21
1.24E-21
7.70E-22
7.36E-22
Ra-230
2.90E-18
2.64E-18
2.45E-18
2.34E-18
2.13E-18
2.09E-18
Actinium
Ac-223
5.78E-19
5.26E-19
4.89E-19
4.67E-19
4.24E-19
4.16E-19
Ac-224
6.87E-18
6.24E-18
5.81E-18
5.53E-18
4.99E-18
4.89E-18
Ac-225
4.07E-19
3.71E-19
3.43E-19
3.27E-19
2.94E-19
2.88E-19
Ac-226
4.85E-18
4.43E-18
4.14E-18
3.94E-18
3.58E-18
3.51E-18
Ac-227
3.49E-21
3.11E-21
2.85E-21
2.71E-21
2.37E-21
2.32E-21
Ac-228
3.69E-17
3.39E-17
3.19E-17
3.04E-17
2.80E-17
2.76E-17
Ac-230
2.63E-17
2.43E-17
2.29E-17
2.20E-17
2.04E-17
2.00E-17
Ac-231
1.61E-17
1.46E-17
1.37E-17
1.30E-17
1.19E-17
1.17E-17
Ac-232
5.37E-17
4.97E-17
4.68E-17
4.51E-17
4.18E-17
4.11E-17
Ac-233
2.23E-17
2.05E-17
1.91E-17
1.83E-17
1.68E-17
1.65E-17
Thorium
Th-223
1.87E-18
1.70E-18
1.57E-18
1.49E-18
1.33E-18
1.31E-18
Th-224
7.58E-19
6.94E-19
6.45E-19
6.16E-19
5.59E-19
5.48E-19
Th-226
2.30E-19
2.09E-19
1.94E-19
1.85E-19
1.67E-19
1.64E-19
Th-227
4.18E-18
3.78E-18
3.54E-18
3.36E-18
3.06E-18
3.00E-18
Th-228
5.72E-20
5.17E-20
4.79E-20
4.55E-20
4.07E-20
3.98E-20
Th-229
2.27E-18
2.06E-18
1.91E-18
1.81E-18
1.62E-18
1.59E-18
Th-230
9.58E-21
8.53E-21
7.76E-21
7.37E-21
6.36E-21
6.21E-21
Th-231
3.67E-19
3.29E-19
3.04E-19
2.88E-19
2.56E-19
2.51E-19
Th-232
4.59E-21
3.99E-21
3.57E-21
3.37E-21
2.81E-21
2.74E-21
Th-233
2.22E-18
2.04E-18
1.91E-18
1.83E-18
1.68E-18
1.65E-18
Th-234
2.36E-19
2.11E-19
1.95E-19
1.84E-19
1.63E-19
1.60E-19
Th-235
4.04E-18
3.72E-18
3.49E-18
3.33E-18
3.07E-18
3.01E-18
Th-236
1.99E-18
1.83E-18
1.71E-18
1.63E-18
1.49E-18
1.47E-18
Protactinium
Pa-227
4.54E-19
4.08E-19
3.74E-19
3.55E-19
3.13E-19
3.07E-19
Pa-228
5.52E-17
5.08E-17
4.77E-17
4.56E-17
4.19E-17
4.12E-17
Pa-229
1.51E-18
1.37E-18
1.26E-18
1.20E-18
1.06E-18
1.04E-18
Pa-230
2.65E-17
2.43E-17
2.29E-17
2.18E-17
2.00E-17
1.96E-17
Pa-231
1.18E-18
1.07E-18
9.99E-19
9.53E-19
8.67E-19
8.50E-19
Pa-232
3.85E-17
3.54E-17
3.32E-17
3.16E-17
2.91E-17
2.86E-17
Pa-233
7.57E-18
6.87E-18
6.40E-18
6.11E-18
5.57E-18
5.46E-18
Pa-234
5.97E-17
5.49E-17
5.16E-17
4.92E-17
4.52E-17
4.44E-17
Pa-234m
3.15E-18
2.91E-18
2.75E-18
2.62E-18
2.43E-18
2.39E-18
Pa-235
1.20E-18
1.11E-18
1.05E-18
9.97E-19
9.22E-19
9.07E-19
Pa-236
4.11E-17
3.79E-17
3.56E-17
3.42E-17
3.16E-17
3.11E-17
Pa-237
2.66E-17
2.45E-17
2.30E-17
2.19E-17
2.01E-17
1.98E-17
Uranium
U-227
3.70E-18
3.35E-18
3.13E-18
2.98E-18
2.70E-18
2.65E-18
U-228
1.13E-19
1.03E-19
9.52E-20
9.06E-20
8.13E-20
7.97E-20
U-230
3.16E-20
2.85E-20
2.63E-20
2.50E-20
2.21E-20
2.17E-20
U-231
1.73E-18
1.56E-18
1.44E-18
1.37E-18
1.21E-18
1.19E-18
U-232
6.54E-21
5.70E-21
5.11E-21
4.85E-21
4.06E-21
3.96E-21
182
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
U-233
7.38E-21
6.57E-21
6.02E-21
5.73E-21
5.04E-21
4.93E-21
U-234
3.46E-21
2.93E-21
2.57E-21
2.44E-21
1.93E-21
1.88E-21
U-235
5.25E-18
4.80E-18
4.47E-18
4.26E-18
3.86E-18
3.78E-18
U-235m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
U-236
1.99E-21
1.62E-21
1.39E-21
1.32E-21
9.64E-22
9.32E-22
U-237
3.80E-18
3.43E-18
3.19E-18
3.02E-18
2.72E-18
2.66E-18
U-238
1.81E-21
1.50E-21
1.31E-21
1.24E-21
9.48E-22
9.20E-22
U-239
2.17E-18
1.97E-18
1.84E-18
1.74E-18
1.58E-18
1.55E-18
U-240
2.51E-19
2.29E-19
2.13E-19
2.03E-19
1.84E-19
1.80E-19
U-242
2.29E-18
2.10E-18
1.96E-18
1.87E-18
1.71E-18
1.68E-18
Neptunium
Np-232
4.71E-17
4.32E-17
4.06E-17
3.86E-17
3.55E-17
3.48E-17
Np-233
2.30E-18
2.09E-18
1.93E-18
1.84E-18
1.64E-18
1.61E-18
Np-234
4.71E-17
4.35E-17
4.10E-17
3.94E-17
3.64E-17
3.58E-17
Np-235
1.69E-20
1.47E-20
1.32E-20
1.26E-20
1.05E-20
1.02E-20
Np-236
3.87E-18
3.54E-18
3.27E-18
3.12E-18
2.80E-18
2.74E-18
Np-236m
1.44E-18
1.31E-18
1.21E-18
1.15E-18
1.04E-18
1.02E-18
Np-237
5.51E-19
4.94E-19
4.54E-19
4.30E-19
3.81E-19
3.73E-19
Np-238
2.51E-17
2.31E-17
2.18E-17
2.07E-17
1.91E-17
1.88E-17
Np-239
5.63E-18
5.11E-18
4.76E-18
4.53E-18
4.10E-18
4.02E-18
Np-240
4.27E-17
3.93E-17
3.68E-17
3.51E-17
3.23E-17
3.17E-17
Np-240m
1.48E-17
1.36E-17
1.28E-17
1.22E-17
1.12E-17
1.10E-17
Np-241
2.07E-18
1.90E-18
1.77E-18
1.69E-18
1.54E-18
1.51E-18
Np-242
1.43E-17
1.32E-17
1.25E-17
1.20E-17
1.11E-17
1.09E-17
Np-242m
3.84E-17
3.53E-17
3.31E-17
3.15E-17
2.90E-17
2.85E-17
Plutonium
Pu-232
1.53E-18
1.39E-18
1.28E-18
1.22E-18
1.09E-18
1.07E-18
Pu-234
1.66E-18
1.50E-18
1.39E-18
1.32E-18
1.18E-18
1.15E-18
Pu-235
2.39E-18
2.17E-18
2.01E-18
1.91E-18
1.71E-18
1.68E-18
Pu-236
2.14E-21
1.67E-21
1.40E-21
1.34E-21
8.99E-22
8.62E-22
Pu-237
1.18E-18
1.07E-18
9.84E-19
9.35E-19
8.33E-19
8.17E-19
Pu-238
1.56E-21
1.18E-21
9.65E-22
9.27E-22
5.58E-22
5.29E-22
Pu-239
2.42E-21
2.10E-21
1.88E-21
1.80E-21
1.50E-21
1.47E-21
Pu-240
1.55E-21
1.18E-21
9.70E-22
9.29E-22
5.74E-22
5.46E-22
Pu-241
1.03E-22
9.43E-23
8.82E-23
8.39E-23
7.64E-23
7.51E-23
Pu-242
4.73E-21
4.16E-21
3.80E-21
3.66E-21
3.15E-21
3.08E-21
Pu-243
8.52E-19
7.72E-19
7.17E-19
6.81E-19
6.12E-19
6.00E-19
Pu-244
9.03E-19
8.36E-19
7.88E-19
7.58E-19
7.03E-19
6.91E-19
Pu-245
1.61E-17
1.47E-17
1.38E-17
1.32E-17
1.21E-17
1.18E-17
Pu-246
4.02E-18
3.64E-18
3.38E-18
3.22E-18
2.90E-18
2.85E-18
Americium
Am-237
1.26E-17
1.15E-17
1.07E-17
1.02E-17
9.31E-18
9.13E-18
Am-238
3.64E-17
3.35E-17
3.15E-17
3.00E-17
2.76E-17
2.72E-17
Am-239
6.81E-18
6.18E-18
5.74E-18
5.47E-18
4.93E-18
4.84E-18
Am-240
4.21E-17
3.87E-17
3.65E-17
3.47E-17
3.19E-17
3.14E-17
Am-241
3.74E-19
3.19E-19
2.86E-19
2.65E-19
2.26E-19
2.20E-19
183
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Am-242
6.40E-19
5.85E-19
5.45E-19
5.19E-19
4.70E-19
4.61E-19
Am-242m
1.06E-20
8.72E-21
7.65E-21
7.29E-21
5.69E-21
5.52E-21
Am-243
1.14E-18
1.02E-18
9.30E-19
8.79E-19
7.66E-19
7.47E-19
Am-244
3.23E-17
2.97E-17
2.79E-17
2.65E-17
2.44E-17
2.39E-17
Am-244m
1.89E-18
1.74E-18
1.64E-18
1.56E-18
1.44E-18
1.42E-18
Am-245
1.51E-18
1.38E-18
1.29E-18
1.23E-18
1.12E-18
1.10E-18
Am-246
2.94E-17
2.70E-17
2.52E-17
2.40E-17
2.20E-17
2.17E-17
Am-246m
4.24E-17
3.91E-17
3.68E-17
3.51E-17
3.23E-17
3.18E-17
Am-247
5.41E-18
4.93E-18
4.61E-18
4.39E-18
4.00E-18
3.93E-18
Curium
Cm-238
2.05E-18
1.87E-18
1.72E-18
1.64E-18
1.47E-18
1.44E-18
Cm-239
7.73E-18
7.06E-18
6.56E-18
6.25E-18
5.64E-18
5.54E-18
Cm-240
2.09E-21
1.56E-21
1.29E-21
1.24E-21
7.77E-22
7.40E-22
Cm-241
1.79E-17
1.64E-17
1.52E-17
1.45E-17
1.33E-17
1.30E-17
Cm-242
1.77E-21
1.30E-21
1.07E-21
1.03E-21
6.26E-22
5.93E-22
Cm-243
4.02E-18
3.65E-18
3.40E-18
3.24E-18
2.93E-18
2.88E-18
Cm-244
2.15E-21
1.71E-21
1.48E-21
1.42E-21
1.04E-21
1.00E-21
Cm-245
2.75E-18
2.50E-18
2.31E-18
2.20E-18
1.97E-18
1.94E-18
Cm-246
1.64E-19
1.52E-19
1.43E-19
1.37E-19
1.27E-19
1.25E-19
Cm-247
1.20E-17
1.09E-17
1.02E-17
9.73E-18
8.90E-18
8.73E-18
Cm-248
5.96E-17
5.51E-17
5.20E-17
5.00E-17
4.64E-17
4.56E-17
Cm-249
1.32E-18
1.22E-18
1.14E-18
1.09E-18
1.00E-18
9.83E-19
Cm-250
6.08E-16
5.63E-16
5.31E-16
5.11E-16
4.74E-16
4.66E-16
Cm-251
5.33E-18
4.89E-18
4.56E-18
4.36E-18
4.00E-18
3.93E-18
Berkelium
Bk-245
6.84E-18
6.23E-18
5.79E-18
5.51E-18
4.98E-18
4.89E-18
Bk-246
3.41E-17
3.14E-17
2.94E-17
2.80E-17
2.58E-17
2.53E-17
Bk-247
4.49E-18
4.06E-18
3.78E-18
3.60E-18
3.26E-18
3.19E-18
Bk-248m
2.10E-18
1.93E-18
1.79E-18
1.71E-18
1.56E-18
1.53E-18
Bk-249
2.06E-20
1.89E-20
1.79E-20
1.70E-20
1.57E-20
1.54E-20
Bk-250
3.85E-17
3.54E-17
3.35E-17
3.18E-17
2.93E-17
2.88E-17
Bk-251
2.97E-18
2.73E-18
2.53E-18
2.41E-18
2.18E-18
2.14E-18
Californium
Cf-244
1.77E-21
1.22E-21
9.68E-22
9.31E-22
5.02E-22
4.68E-22
Cf-246
2.78E-21
2.27E-21
2.00E-21
1.92E-21
1.52E-21
1.47E-21
Cf-247
2.49E-18
2.28E-18
2.10E-18
2.01E-18
1.80E-18
1.76E-18
Cf-248
1.63E-20
1.47E-20
1.37E-20
1.32E-20
1.19E-20
1.17E-20
Cf-249
1.22E-17
1.12E-17
1.04E-17
9.93E-18
9.08E-18
8.91E-18
Cf-250
4.43E-19
4.09E-19
3.86E-19
3.71E-19
3.44E-19
3.38E-19
Cf-251
3.50E-18
3.20E-18
2.97E-18
2.83E-18
2.55E-18
2.50E-18
Cf-252
2.06E-17
1.91E-17
1.80E-17
1.73E-17
1.60E-17
1.58E-17
Cf-253
9.02E-20
8.15E-20
7.63E-20
7.24E-20
6.57E-20
6.46E-20
Cf-254
7.66E-16
7.09E-16
6.69E-16
6.43E-16
5.97E-16
5.87E-16
Cf-255
4.14E-19
3.81E-19
3.60E-19
3.43E-19
3.16E-19
3.11E-19
Einsteinium
Es-249
1.48E-17
1.36E-17
1.27E-17
1.21E-17
1.11E-17
1.09E-17
184
-------�
Table 4-5. Reference person effective dose rate coefficients for soil to infinite depth, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Es-250
4.53E-17
4.16E-17
3.89E-17
3.71E-17
3.40E-17
3.34E-17
Es-250m
2.19E-17
2.02E-17
1.90E-17
1.81E-17
1.67E-17
1.64E-17
Es-251
2.47E-18
2.26E-18
2.09E-18
1.99E-18
1.78E-18
1.75E-18
Es-253
1.19E-20
1.08E-20
9.93E-21
9.50E-21
8.57E-21
8.39E-21
Es-254
9.40E-20
8.08E-20
7.31E-20
6.92E-20
5.93E-20
5.78E-20
Es-254m
1.95E-17
1.79E-17
1.67E-17
1.60E-17
1.47E-17
1.44E-17
Es-255
1.18E-19
1.09E-19
1.03E-19
9.81E-20
9.06E-20
8.91E-20
Es-256
1.54E-18
1.42E-18
1.34E-18
1.28E-18
1.18E-18
1.16E-18
Fermium
Fm-251
4.96E-18
4.56E-18
4.23E-18
4.04E-18
3.66E-18
3.60E-18
Fm-252
1.31E-20
1.17E-20
1.09E-20
1.04E-20
9.34E-21
9.16E-21
Fm-253
1.63E-18
1.50E-18
1.38E-18
1.32E-18
1.18E-18
1.16E-18
Fm-254
3.16E-19
2.92E-19
2.75E-19
2.64E-19
2.45E-19
2.41E-19
Fm-255
5.21E-20
4.37E-20
3.88E-20
3.67E-20
3.00E-20
2.92E-20
Fm-256
5.60E-16
5.18E-16
4.89E-16
4.70E-16
4.36E-16
4.29E-16
Fm-257
4.67E-18
4.28E-18
3.98E-18
3.81E-18
3.46E-18
3.40E-18
185
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion.
Explanation of entries
For each radionuclide, values for the reference person effective dose rate coefficients e. based on
the weighting factors of Table 3-1, are given in SI units. The coefficients are for air at a density of 1.2 kg
m"3. Reference person organ equivalent dose coefficients /?-, are provided electronically.16
e: The effective dose rate coefficient (Sv Bq 1 s"1 m3), that is, the effective dose per unit
time-integrated exposure to a radionuclide
wf- The tissue weighting factor
e = ^ wT hT
T
where hT is the equivalent dose rate coefficient (Sv Bq"1 s"1 m3) for tissue T.
The dose rate coefficients provided in Table 4-6 are based on the radiations emitted by the indicated
radionuclide and do not include the radiations emitted by radioactive decay products. Radioactive decay
products for each radionuclide are identified in Appendix A.
To convert from a source per unit volume (Sv Bq"1 s"1 m3) to a source per unit mass basis (Sv Bq"1 s"1
kg), multiply table entries by 1.2.
To convert from SI units (Sv Bq"1 s"1 m3) to conventional units (mrem jxCi"1 y"1 cm3), multiply table
entries by 1.168 x 1023.
To convert from SI units for a source per unit volume (Sv Bq"1 s"1 m3) to conventional units for a source
per unit mass basis (mrem jxCi"1 y_1g), multiply table entries by 1.401 x 1020.
To derive coefficients for an air density other than 1.2 kg m 3, multiply coefficients (in any units) by
(1.2/p), where p is the air density in kgm"3.
16 https://www.epa.gov/radiation/federal-guidance-report-no-15-external-exposure-radionuclides-air-water-and-soil
186
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion.
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old Adult
Hydrogen
H-3
Beryllium
Be-7
Be-10
Carbon
C-10
C-ll
C-14
Nitrogen
N-13
N-16
Oxygen
0-14
0-15
0-19
Fluorine
F-17
F-18
Neon
Ne-19
Ne-24
Sodium
Na-22
Na-24
Magnesium
Mg-27
Mg-28
Aluminum
Al-26
Al-28
Al-29
Silicon
Si-31
Si-32
Phosphorus
P-30
P-32
P-33
Sulfur
S-35
S-37
S-38
Chlorine
Cl-34
Cl-34m
4.91E-20
2.94E-15
6.81E-16
1.06E-13
6.14E-14
4.92E-17
6.19E-14
3.21E-13
2.04E-13
6.31E-14
6.55E-14
6.31E-14
5.90E-14
6.43E-14
3.52E-14
1.31E-13
2.54E-13
5.57E-14
8.15E-14
1.62E-13
1.13E-13
8.71E-14
2.21E-15
9.30E-17
6.71E-14
2.64E-15
1.13E-16
4.99E-17
1.86E-13
1.05E-13
7.14E-14
1.30E-13
4.73E-20
2.76E-15
6.62E-16
1.01E-13
5.78E-14
4.76E-17
5.83E-14
3.15E-13
1.96E-13
5.94E-14
6.27E-14
5.94E-14
5.55E-14
6.06E-14
3.32E-14
1.25E-13
2.46E-13
5.36E-14
7.83E-14
1.56E-13
1.10E-13
8.42E-14
2.15E-15
9.01E-17
6.33E-14
2.56E-15
1.09E-16
4.83E-17
1.80E-13
1.01E-13
6.75E-14
1.25E-13
4.48E-20
2.62E-15
6.33E-16
9.55E-14
5.49E-14
4.51E-17
5.53E-14
3.06E-13
1.88E-13
5.64E-14
5.94E-14
5.64E-14
5.27E-14
5.75E-14
3.15E-14
1.19E-13
2.37E-13
5.07E-14
7.43E-14
1.49E-13
1.05E-13
8.01E-14
2.05E-15
8.58E-17
6.02E-14
2.45E-15
1.04E-16
4.58E-17
1.74E-13
9.73E-14
6.41E-14
1.19E-13
4.27E-20
2.49E-15
6.10E-16
9.08E-14
5.21E-14
4.31E-17
5.26E-14
2.97E-13
1.80E-13
5.36E-14
5.69E-14
5.36E-14
5.01E-14
5.47E-14
3.00E-14
1.13E-13
2.28E-13
4.83E-14
7.09E-14
1.42E-13
1.01E-13
7.67E-14
1.98E-15
8.22E-17
5.72E-14
2.36E-15
9.98E-17
4.38E-17
1.68E-13
9.36E-14
6.10E-14
1.15E-13
3.96E-20
2.28E-15
5.76E-16
8.36E-14
4.79E-14
4.02E-17
4.83E-14
2.86E-13
1.69E-13
4.93E-14
5.31E-14
4.93E-14
4.60E-14
5.03E-14
2.76E-14
1.05E-13
2.16E-13
4.47E-14
6.61E-14
1.33E-13
9.52E-14
7.19E-14
1.86E-15
7.71E-17
5.27E-14
2.23E-15
9.37E-17
4.09E-17
1.60E-13
8.85E-14
5.63E-14
1.08E-13
3.80E-20
2.18E-15
5.57E-16
8.00E-14
4.58E-14
3.86E-17
4.62E-14
2.78E-13
1.63E-13
4.72E-14
5.11E-14
4.72E-14
4.40E-14
4.81E-14
2.64E-14
1.01E-13
2.08E-13
4.29E-14
6.34E-14
1.28E-13
9.17E-14
6.91E-14
1.80E-15
7.43E-17
5.05E-14
2.15E-15
9.03E-17
3.93E-17
1.55E-13
8.54E-14
5.39E-14
1.04E-13
187
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cl-36
7.88E-16
7.66E-16
7.32E-16
7.05E-16
6.66E-16
6.44E-16
Cl-38
9.62E-14
9.30E-14
8.93E-14
8.58E-14
8.12E-14
7.83E-14
Cl-39
9.05E-14
8.71E-14
8.27E-14
7.92E-14
7.40E-14
7.12E-14
Cl-40
2.59E-13
2.51E-13
2.41E-13
2.32E-13
2.20E-13
2.13E-13
Argon
Ar-37
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ar-39
5.70E-16
5.54E-16
5.29E-16
5.10E-16
4.81E-16
4.66E-16
Ar-41
7.85E-14
7.59E-14
7.21E-14
6.90E-14
6.45E-14
6.20E-14
Ar-42
6.21E-16
6.03E-16
5.77E-16
5.56E-16
5.25E-16
5.08E-16
Ar-43
9.93E-14
9.58E-14
9.13E-14
8.75E-14
8.21E-14
7.90E-14
Ar-44
1.19E-13
1.14E-13
1.09E-13
1.05E-13
9.87E-14
9.50E-14
Potassium
K-38
1.98E-13
1.90E-13
1.82E-13
1.74E-13
1.64E-13
1.58E-13
K-40
1.13E-14
1.09E-14
1.04E-14
1.00E-14
9.39E-15
9.04E-15
K-42
2.37E-14
2.29E-14
2.19E-14
2.10E-14
1.98E-14
1.91E-14
K-43
5.80E-14
5.46E-14
5.16E-14
4.91E-14
4.51E-14
4.32E-14
K-44
1.53E-13
1.48E-13
1.41E-13
1.36E-13
1.28E-13
1.23E-13
K-45
1.16E-13
1.11E-13
1.06E-13
1.02E-13
9.59E-14
9.24E-14
K-46
1.90E-13
1.85E-13
1.77E-13
1.70E-13
1.61E-13
1.55E-13
Calcium
Ca-41
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ca-45
1.16E-16
1.12E-16
1.07E-16
1.03E-16
9.63E-17
9.29E-17
Ca-47
6.42E-14
6.20E-14
5.89E-14
5.63E-14
5.26E-14
5.05E-14
Ca-49
2.01E-13
1.95E-13
1.88E-13
1.82E-13
1.73E-13
1.68E-13
Scandium
Sc-42m
2.57E-13
2.46E-13
2.34E-13
2.23E-13
2.08E-13
1.99E-13
Sc-43
5.95E-14
5.60E-14
5.31E-14
5.05E-14
4.63E-14
4.43E-14
Sc-44
1.29E-13
1.23E-13
1.17E-13
1.12E-13
1.03E-13
9.90E-14
Sc-44m
1.64E-14
1.52E-14
1.41E-14
1.34E-14
1.23E-14
1.19E-14
Sc-46
1.20E-13
1.16E-13
1.09E-13
1.04E-13
9.69E-14
9.29E-14
Sc-47
6.80E-15
6.22E-15
5.80E-15
5.57E-15
4.99E-15
4.83E-15
Sc-48
2.01E-13
1.94E-13
1.84E-13
1.75E-13
1.63E-13
1.57E-13
Sc-49
3.32E-15
3.23E-15
3.09E-15
2.97E-15
2.80E-15
2.71E-15
Sc-50
2.00E-13
1.93E-13
1.83E-13
1.75E-13
1.64E-13
1.57E-13
Titanium
Ti-44
6.84E-15
6.12E-15
5.35E-15
5.21E-15
4.20E-15
3.75E-15
Ti-45
5.26E-14
4.95E-14
4.70E-14
4.47E-14
4.10E-14
3.92E-14
Ti-51
2.55E-14
2.39E-14
2.24E-14
2.14E-14
1.97E-14
1.89E-14
Ti-52
1.03E-14
9.44E-15
8.85E-15
8.43E-15
7.62E-15
7.39E-15
Vanadium
V-47
6.20E-14
5.84E-14
5.54E-14
5.27E-14
4.84E-14
4.64E-14
V-48
1.74E-13
1.68E-13
1.59E-13
1.52E-13
1.41E-13
1.35E-13
V-49
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
V-50
8.57E-14
8.27E-14
7.89E-14
7.56E-14
7.10E-14
6.83E-14
V-52
9.15E-14
8.85E-14
8.43E-14
8.07E-14
7.58E-14
7.29E-14
V-53
6.62E-14
6.39E-14
6.05E-14
5.77E-14
5.37E-14
5.15E-14
188
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Chromium
Cr-48
2.59E-14
2.37E-14
2.21E-14
2.09E-14
1.91E-14
1.83E-14
Cr-49
6.42E-14
6.01E-14
5.69E-14
5.41E-14
4.95E-14
4.73E-14
Cr-51
1.89E-15
1.75E-15
1.63E-15
1.55E-15
1.42E-15
1.36E-15
Cr-55
4.84E-15
4.70E-15
4.49E-15
4.32E-15
4.08E-15
3.94E-15
Cr-56
6.53E-15
5.95E-15
5.43E-15
5.22E-15
4.55E-15
4.27E-15
Manganese
Mn-50m
2.84E-13
2.72E-13
2.59E-13
2.47E-13
2.29E-13
2.20E-13
Mn-51
6.28E-14
5.92E-14
5.62E-14
5.34E-14
4.91E-14
4.70E-14
Mn-52
2.07E-13
1.99E-13
1.88E-13
1.80E-13
1.67E-13
1.60E-13
Mn-52m
1.49E-13
1.42E-13
1.35E-13
1.29E-13
1.20E-13
1.15E-13
Mn-53
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Mn-54
4.96E-14
4.76E-14
4.50E-14
4.28E-14
3.96E-14
3.79E-14
Mn-56
1.05E-13
1.01E-13
9.66E-14
9.25E-14
8.66E-14
8.32E-14
Mn-57
1.05E-14
1.00E-14
9.51E-15
9.10E-15
8.46E-15
8.15E-15
Mn-58m
1.52E-13
1.46E-13
1.39E-13
1.33E-13
1.24E-13
1.19E-13
Iron
Fe-52
4.43E-14
4.14E-14
3.91E-14
3.72E-14
3.40E-14
3.26E-14
Fe-53
7.45E-14
7.01E-14
6.65E-14
6.33E-14
5.82E-14
5.57E-14
Fe-53m
1.83E-13
1.76E-13
1.67E-13
1.60E-13
1.49E-13
1.43E-13
Fe-55
9.59E-24
8.60E-24
8.00E-24
7.59E-24
6.73E-24
6.54E-24
Fe-59
7.13E-14
6.89E-14
6.53E-14
6.24E-14
5.82E-14
5.58E-14
Fe-60
7.94E-17
7.69E-17
7.31E-17
7.00E-17
6.54E-17
6.30E-17
Fe-61
8.82E-14
8.50E-14
8.06E-14
7.71E-14
7.20E-14
6.91E-14
Fe-62
3.32E-14
3.13E-14
2.97E-14
2.83E-14
2.60E-14
2.49E-14
Cobalt
Co-54m
2.45E-13
2.35E-13
2.23E-13
2.13E-13
1.98E-13
1.90E-13
Co-55
1.20E-13
1.15E-13
1.09E-13
1.03E-13
9.57E-14
9.17E-14
Co-56
2.20E-13
2.12E-13
2.03E-13
1.94E-13
1.82E-13
1.75E-13
Co-57
7.16E-15
6.41E-15
5.96E-15
5.65E-15
5.01E-15
4.87E-15
Co-58
5.78E-14
5.53E-14
5.23E-14
4.98E-14
4.59E-14
4.40E-14
Co-58m
1.40E-19
9.34E-20
7.92E-20
7.22E-20
4.92E-20
4.29E-20
Co-60
1.50E-13
1.45E-13
1.38E-13
1.32E-13
1.23E-13
1.18E-13
Co-60m
2.56E-16
2.42E-16
2.25E-16
2.16E-16
1.97E-16
1.87E-16
Co-61
6.60E-15
6.18E-15
5.66E-15
5.46E-15
4.80E-15
4.49E-15
Co-62
1.05E-13
1.02E-13
9.67E-14
9.27E-14
8.70E-14
8.36E-14
Co-62m
1.67E-13
1.61E-13
1.53E-13
1.47E-13
1.37E-13
1.32E-13
Nickel
Ni-56
1.02E-13
9.70E-14
9.17E-14
8.74E-14
8.06E-14
7.73E-14
Ni-57
1.17E-13
1.12E-13
1.07E-13
1.02E-13
9.51E-14
9.14E-14
Ni-59
9.17E-19
8.63E-19
8.19E-19
7.78E-19
7.14E-19
6.83E-19
Ni-63
5.97E-18
5.76E-18
5.45E-18
5.20E-18
4.82E-18
4.62E-18
Ni-65
3.60E-14
3.47E-14
3.30E-14
3.16E-14
2.96E-14
2.84E-14
Ni-66
1.07E-16
1.04E-16
9.86E-17
9.47E-17
8.88E-17
8.57E-17
Copper
Cu-57
9.63E-14
9.18E-14
8.75E-14
8.37E-14
7.78E-14
7.48E-14
189
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cu-59
9.29E-14
8.80E-14
8.36E-14
7.96E-14
7.35E-14
7.04E-14
Cu-60
2.39E-13
2.29E-13
2.19E-13
2.09E-13
1.96E-13
1.88E-13
Cu-61
4.97E-14
4.68E-14
4.44E-14
4.22E-14
3.88E-14
3.71E-14
Cu-62
6.53E-14
6.16E-14
5.85E-14
5.57E-14
5.12E-14
4.90E-14
Cu-64
1.12E-14
1.06E-14
1.00E-14
9.53E-15
8.76E-15
8.38E-15
Cu-66
1.05E-14
1.01E-14
9.62E-15
9.21E-15
8.61E-15
8.29E-15
Cu-67
7.07E-15
6.45E-15
5.95E-15
5.67E-15
5.10E-15
4.92E-15
Cu-69
3.52E-14
3.39E-14
3.21E-14
3.06E-14
2.85E-14
2.73E-14
Zinc
Zn-60
9.51E-14
8.97E-14
8.50E-14
8.09E-14
7.43E-14
7.11E-14
Zn-61
1.01E-13
9.60E-14
9.14E-14
8.72E-14
8.09E-14
7.76E-14
Zn-62
2.58E-14
2.42E-14
2.29E-14
2.18E-14
2.00E-14
1.91E-14
Zn-63
6.87E-14
6.49E-14
6.16E-14
5.86E-14
5.39E-14
5.16E-14
Zn-65
3.46E-14
3.34E-14
3.16E-14
3.02E-14
2.81E-14
2.69E-14
Zn-69
9.72E-16
9.44E-16
9.03E-16
8.70E-16
8.21E-16
7.95E-16
Zn-69m
2.46E-14
2.30E-14
2.18E-14
2.07E-14
1.90E-14
1.81E-14
Zn-71
2.32E-14
2.21E-14
2.10E-14
2.00E-14
1.85E-14
1.78E-14
Zn-71m
9.43E-14
8.90E-14
8.43E-14
8.02E-14
7.38E-14
7.06E-14
Zn-72
8.77E-15
7.96E-15
7.40E-15
7.08E-15
6.30E-15
6.10E-15
Gallium
Ga-64
2.13E-13
2.05E-13
1.95E-13
1.87E-13
1.75E-13
1.69E-13
Ga-65
7.19E-14
6.76E-14
6.41E-14
6.09E-14
5.59E-14
5.36E-14
Ga-66
1.57E-13
1.51E-13
1.45E-13
1.39E-13
1.31E-13
1.26E-13
Ga-67
9.11E-15
8.32E-15
7.69E-15
7.30E-15
6.59E-15
6.32E-15
Ga-68
5.89E-14
5.56E-14
5.28E-14
5.02E-14
4.61E-14
4.42E-14
Ga-70
2.84E-15
2.75E-15
2.63E-15
2.53E-15
2.38E-15
2.30E-15
Ga-72
1.65E-13
1.59E-13
1.52E-13
1.45E-13
1.36E-13
1.31E-13
Ga-73
2.20E-14
2.05E-14
1.92E-14
1.82E-14
1.68E-14
1.61E-14
Ga-74
1.95E-13
1.88E-13
1.80E-13
1.73E-13
1.62E-13
1.56E-13
Germanium
Ge-66
3.98E-14
3.72E-14
3.51E-14
3.33E-14
3.06E-14
2.92E-14
Ge-67
8.98E-14
8.49E-14
8.05E-14
7.67E-14
7.07E-14
6.78E-14
Ge-68
8.14E-19
3.96E-19
3.50E-19
3.27E-19
8.87E-20
7.64E-20
Ge-69
5.68E-14
5.43E-14
5.15E-14
4.91E-14
4.55E-14
4.36E-14
Ge-71
8.26E-19
4.02E-19
3.56E-19
3.32E-19
9.00E-20
7.75E-20
Ge-75
3.48E-15
3.28E-15
3.08E-15
2.95E-15
2.73E-15
2.63E-15
Ge-77
6.67E-14
6.31E-14
5.95E-14
5.67E-14
5.24E-14
5.03E-14
Ge-78
1.72E-14
1.59E-14
1.47E-14
1.40E-14
1.29E-14
1.24E-14
Arsenic
As-68
2.33E-13
2.23E-13
2.12E-13
2.03E-13
1.89E-13
1.81E-13
As-69
7.32E-14
6.91E-14
6.56E-14
6.25E-14
5.76E-14
5.52E-14
As-70
2.58E-13
2.47E-13
2.35E-13
2.24E-13
2.09E-13
2.00E-13
As-71
3.42E-14
3.21E-14
3.02E-14
2.88E-14
2.64E-14
2.53E-14
As-72
1.10E-13
1.05E-13
9.96E-14
9.49E-14
8.76E-14
8.40E-14
As-73
2.44E-16
2.07E-16
1.74E-16
1.64E-16
1.32E-16
1.18E-16
As-74
4.56E-14
4.30E-14
4.09E-14
3.88E-14
3.57E-14
3.42E-14
190
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
As-76
2.94E-14
2.81E-14
2.67E-14
2.55E-14
2.36E-14
2.26E-14
As-77
1.10E-15
1.04E-15
9.86E-16
9.45E-16
8.80E-16
8.48E-16
As-78
8.42E-14
8.08E-14
7.69E-14
7.35E-14
6.86E-14
6.59E-14
As-79
5.59E-15
5.38E-15
5.12E-15
4.91E-15
4.59E-15
4.42E-15
Selenium
Se-70
4.24E-14
3.97E-14
3.75E-14
3.56E-14
3.27E-14
3.12E-14
Se-71
1.02E-13
9.65E-14
9.16E-14
8.72E-14
8.05E-14
7.72E-14
Se-72
1.05E-15
8.62E-16
7.18E-16
6.56E-16
5.30E-16
4.77E-16
Se-73
6.51E-14
6.10E-14
5.76E-14
5.47E-14
5.00E-14
4.78E-14
Se-73m
1.60E-14
1.51E-14
1.43E-14
1.36E-14
1.25E-14
1.19E-14
Se-75
2.28E-14
2.09E-14
1.94E-14
1.85E-14
1.68E-14
1.61E-14
Se-77m
5.12E-15
4.67E-15
4.34E-15
4.17E-15
3.73E-15
3.61E-15
Se-79
5.49E-17
5.31E-17
5.04E-17
4.82E-17
4.49E-17
4.32E-17
Se-79m
5.39E-16
4.73E-16
4.32E-16
4.05E-16
3.52E-16
3.37E-16
Se-81
2.72E-15
2.63E-15
2.51E-15
2.41E-15
2.26E-15
2.18E-15
Se-81m
8.25E-16
7.27E-16
6.70E-16
6.27E-16
5.52E-16
5.34E-16
Se-83
1.59E-13
1.52E-13
1.44E-13
1.38E-13
1.28E-13
1.23E-13
Se-83m
6.49E-14
6.24E-14
5.93E-14
5.67E-14
5.30E-14
5.09E-14
Se-84
2.68E-14
2.51E-14
2.37E-14
2.25E-14
2.07E-14
1.98E-14
Bromine
Br-72
1.95E-13
1.86E-13
1.77E-13
1.69E-13
1.57E-13
1.51E-13
Br-73
9.07E-14
8.57E-14
8.12E-14
7.72E-14
7.10E-14
6.80E-14
Br-74
2.87E-13
2.76E-13
2.65E-13
2.54E-13
2.39E-13
2.31E-13
Br-74m
2.56E-13
2.46E-13
2.35E-13
2.25E-13
2.10E-13
2.02E-13
Br-75
7.28E-14
6.84E-14
6.46E-14
6.14E-14
5.64E-14
5.40E-14
Br-76
1.71E-13
1.64E-13
1.57E-13
1.50E-13
1.40E-13
1.35E-13
Br-76m
1.53E-15
1.31E-15
1.14E-15
1.07E-15
8.98E-16
8.26E-16
Br-77
1.87E-14
1.75E-14
1.65E-14
1.57E-14
1.44E-14
1.38E-14
Br-77m
8.87E-16
7.83E-16
7.22E-16
6.76E-16
5.96E-16
5.77E-16
Br-78
6.54E-14
6.17E-14
5.86E-14
5.57E-14
5.13E-14
4.91E-14
Br-80
7.33E-15
7.01E-15
6.67E-15
6.37E-15
5.92E-15
5.69E-15
Br-80m
4.61E-16
3.56E-16
2.92E-16
2.67E-16
2.03E-16
1.84E-16
Br-82
1.57E-13
1.50E-13
1.43E-13
1.36E-13
1.26E-13
1.21E-13
Br-82m
3.22E-16
3.05E-16
2.89E-16
2.76E-16
2.54E-16
2.44E-16
Br-83
1.40E-15
1.34E-15
1.28E-15
1.23E-15
1.15E-15
1.11E-15
Br-84
1.14E-13
1.10E-13
1.05E-13
1.01E-13
9.53E-14
9.19E-14
Br-84m
1.69E-13
1.62E-13
1.54E-13
1.47E-13
1.37E-13
1.32E-13
Br-85
8.41E-15
8.13E-15
7.74E-15
7.42E-15
6.95E-15
6.69E-15
Krypton
Kr-74
6.44E-14
6.03E-14
5.70E-14
5.41E-14
4.96E-14
4.74E-14
Kr-75
8.31E-14
7.83E-14
7.42E-14
7.07E-14
6.49E-14
6.23E-14
Kr-76
2.47E-14
2.30E-14
2.15E-14
2.04E-14
1.87E-14
1.79E-14
Kr-77
6.39E-14
5.98E-14
5.66E-14
5.38E-14
4.92E-14
4.72E-14
Kr-79
1.48E-14
1.39E-14
1.31E-14
1.24E-14
1.14E-14
1.09E-14
Kr-81
6.38E-17
5.46E-17
4.93E-17
4.66E-17
3.86E-17
3.69E-17
Kr-81m
7.69E-15
7.04E-15
6.49E-15
6.19E-15
5.61E-15
5.41E-15
191
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Kr-83m
5.72E-18
3.89E-18
3.01E-18
2.74E-18
1.04E-18
9.20E-19
Kr-85
8.28E-16
8.01E-16
7.65E-16
7.35E-16
6.91E-16
6.67E-16
Kr-85m
9.94E-15
9.12E-15
8.51E-15
8.15E-15
7.34E-15
7.09E-15
Kr-87
5.43E-14
5.21E-14
4.98E-14
4.78E-14
4.49E-14
4.33E-14
Kr-88
1.20E-13
1.16E-13
1.11E-13
1.07E-13
1.01E-13
9.73E-14
Kr-89
1.24E-13
1.19E-13
1.14E-13
1.09E-13
1.03E-13
9.89E-14
Rubidium
Rb-77
9.95E-14
9.42E-14
8.92E-14
8.50E-14
7.83E-14
7.49E-14
Rb-78
2.56E-13
2.46E-13
2.36E-13
2.27E-13
2.13E-13
2.06E-13
Rb-78m
2.00E-13
1.91E-13
1.82E-13
1.74E-13
1.61E-13
1.55E-13
Rb-79
8.87E-14
8.35E-14
7.91E-14
7.53E-14
6.92E-14
6.63E-14
Rb-80
8.14E-14
7.70E-14
7.32E-14
6.96E-14
6.42E-14
6.15E-14
Rb-81
3.01E-14
2.84E-14
2.69E-14
2.56E-14
2.35E-14
2.25E-14
Rb-81m
1.45E-15
1.35E-15
1.27E-15
1.21E-15
1.09E-15
1.04E-15
Rb-82
7.22E-14
6.82E-14
6.48E-14
6.16E-14
5.68E-14
5.44E-14
Rb-82m
1.74E-13
1.66E-13
1.57E-13
1.50E-13
1.39E-13
1.33E-13
Rb-83
2.86E-14
2.69E-14
2.56E-14
2.43E-14
2.23E-14
2.13E-14
Rb-84
5.42E-14
5.17E-14
4.90E-14
4.66E-14
4.30E-14
4.12E-14
Rb-84m
2.26E-14
2.10E-14
1.96E-14
1.86E-14
1.71E-14
1.64E-14
Rb-86
8.11E-15
7.85E-15
7.45E-15
7.13E-15
6.66E-15
6.40E-15
Rb-86m
3.23E-14
3.04E-14
2.89E-14
2.74E-14
2.52E-14
2.41E-14
Rb-87
2.15E-16
2.09E-16
1.99E-16
1.92E-16
1.80E-16
1.74E-16
Rb-88
5.06E-14
4.89E-14
4.68E-14
4.50E-14
4.24E-14
4.09E-14
Rb-89
1.40E-13
1.35E-13
1.29E-13
1.23E-13
1.15E-13
1.11E-13
Rb-90
1.39E-13
1.35E-13
1.30E-13
1.25E-13
1.19E-13
1.15E-13
Rb-90m
2.05E-13
1.98E-13
1.90E-13
1.82E-13
1.72E-13
1.66E-13
Strontium
Sr-79
7.88E-14
7.42E-14
7.03E-14
6.69E-14
6.15E-14
5.89E-14
Sr-80
2.55E-14
2.40E-14
2.28E-14
2.16E-14
1.99E-14
1.90E-14
Sr-81
8.61E-14
8.10E-14
7.68E-14
7.31E-14
6.71E-14
6.43E-14
Sr-82
2.42E-17
1.70E-17
1.30E-17
1.17E-17
4.45E-18
3.93E-18
Sr-83
4.86E-14
4.62E-14
4.37E-14
4.16E-14
3.84E-14
3.68E-14
Sr-85
2.91E-14
2.73E-14
2.60E-14
2.47E-14
2.26E-14
2.16E-14
Sr-85m
1.29E-14
1.19E-14
1.09E-14
1.04E-14
9.49E-15
9.14E-15
Sr-87m
1.89E-14
1.76E-14
1.66E-14
1.58E-14
1.45E-14
1.38E-14
Sr-89
2.14E-15
2.08E-15
1.99E-15
1.91E-15
1.81E-15
1.75E-15
Sr-90
4.93E-16
4.79E-16
4.58E-16
4.41E-16
4.16E-16
4.03E-16
Sr-91
4.47E-14
4.29E-14
4.06E-14
3.87E-14
3.59E-14
3.44E-14
Sr-92
8.08E-14
7.80E-14
7.42E-14
7.10E-14
6.65E-14
6.39E-14
Sr-93
1.39E-13
1.33E-13
1.26E-13
1.21E-13
1.12E-13
1.08E-13
Sr-94
8.92E-14
8.61E-14
8.20E-14
7.86E-14
7.37E-14
7.08E-14
Yttrium
Y-81
7.88E-14
7.41E-14
7.03E-14
6.69E-14
6.14E-14
5.88E-14
Y-83
8.53E-14
8.08E-14
7.67E-14
7.31E-14
6.74E-14
6.46E-14
Y-83m
5.29E-14
4.97E-14
4.70E-14
4.47E-14
4.11E-14
3.93E-14
Y-84m
2.42E-13
2.32E-13
2.20E-13
2.09E-13
1.94E-13
1.86E-13
192
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Y-85
6.55E-14
6.17E-14
5.86E-14
5.57E-14
5.12E-14
4.90E-14
Y-85m
8.13E-14
7.74E-14
7.36E-14
7.03E-14
6.53E-14
6.27E-14
Y-86
2.15E-13
2.06E-13
1.96E-13
1.87E-13
1.74E-13
1.67E-13
Y-86m
1.31E-14
1.21E-14
1.12E-14
1.06E-14
9.71E-15
9.35E-15
Y-87
2.59E-14
2.43E-14
2.30E-14
2.19E-14
2.00E-14
1.92E-14
Y-87m
1.81E-14
1.69E-14
1.59E-14
1.51E-14
1.39E-14
1.33E-14
Y-88
1.62E-13
1.56E-13
1.49E-13
1.43E-13
1.34E-13
1.29E-13
Y-89m
5.36E-14
5.16E-14
4.88E-14
4.65E-14
4.30E-14
4.12E-14
Y-90
3.91E-15
3.79E-15
3.63E-15
3.49E-15
3.29E-15
3.18E-15
Y-90m
3.76E-14
3.50E-14
3.29E-14
3.13E-14
2.86E-14
2.75E-14
Y-91
2.41E-15
2.34E-15
2.24E-15
2.15E-15
2.03E-15
1.96E-15
Y-91m
3.12E-14
2.94E-14
2.79E-14
2.65E-14
2.44E-14
2.33E-14
Y-92
2.21E-14
2.13E-14
2.03E-14
1.94E-14
1.81E-14
1.74E-14
Y-93
1.11E-14
1.07E-14
1.01E-14
9.73E-15
9.14E-15
8.81E-15
Y-94
5.58E-14
5.38E-14
5.11E-14
4.89E-14
4.56E-14
4.38E-14
Y-95
7.52E-14
7.28E-14
6.98E-14
6.71E-14
6.35E-14
6.12E-14
Zirconium
Zr-85
9.34E-14
8.82E-14
8.38E-14
7.97E-14
7.35E-14
7.04E-14
Zr-86
1.64E-14
1.51E-14
1.40E-14
1.33E-14
1.21E-14
1.17E-14
Zr-87
5.82E-14
5.49E-14
5.22E-14
4.96E-14
4.57E-14
4.38E-14
Zr-88
2.27E-14
2.11E-14
1.99E-14
1.89E-14
1.73E-14
1.66E-14
Zr-89
6.87E-14
6.58E-14
6.22E-14
5.93E-14
5.48E-14
5.25E-14
Zr-89m
3.76E-14
3.56E-14
3.39E-14
3.22E-14
2.97E-14
2.85E-14
Zr-93
7.07E-18
6.82E-18
6.45E-18
6.15E-18
5.71E-18
5.47E-18
Zr-95
4.36E-14
4.17E-14
3.95E-14
3.75E-14
3.46E-14
3.31E-14
Zr-97
5.49E-14
5.25E-14
4.98E-14
4.74E-14
4.38E-14
4.20E-14
Niobium
Nb-87
8.02E-14
7.53E-14
7.12E-14
6.78E-14
6.23E-14
5.97E-14
Nb-88
2.57E-13
2.45E-13
2.32E-13
2.21E-13
2.05E-13
1.96E-13
Nb-88m
2.52E-13
2.41E-13
2.28E-13
2.18E-13
2.02E-13
1.94E-13
Nb-89
8.69E-14
8.28E-14
7.90E-14
7.55E-14
7.03E-14
6.75E-14
Nb-89m
8.03E-14
7.57E-14
7.18E-14
6.83E-14
6.28E-14
6.01E-14
Nb-90
2.56E-13
2.46E-13
2.35E-13
2.26E-13
2.12E-13
2.04E-13
Nb-91
1.42E-16
1.21E-16
1.11E-16
1.04E-16
8.51E-17
8.05E-17
Nb-91m
1.55E-15
1.48E-15
1.40E-15
1.33E-15
1.23E-15
1.18E-15
Nb-92
8.88E-14
8.49E-14
8.04E-14
7.65E-14
7.06E-14
6.76E-14
Nb-92m
5.71E-14
5.50E-14
5.20E-14
4.95E-14
4.59E-14
4.40E-14
Nb-93m
1.01E-17
6.67E-18
5.70E-18
4.91E-18
2.52E-18
2.22E-18
Nb-94
9.29E-14
8.89E-14
8.41E-14
8.01E-14
7.40E-14
7.08E-14
Nb-94m
3.07E-16
2.83E-16
2.66E-16
2.51E-16
2.25E-16
2.14E-16
Nb-95
4.54E-14
4.34E-14
4.11E-14
3.91E-14
3.61E-14
3.45E-14
Nb-95m
3.91E-15
3.60E-15
3.32E-15
3.16E-15
2.89E-15
2.79E-15
Nb-96
1.47E-13
1.41E-13
1.33E-13
1.27E-13
1.17E-13
1.12E-13
Nb-97
4.09E-14
3.89E-14
3.70E-14
3.51E-14
3.24E-14
3.10E-14
Nb-98m
1.71E-13
1.64E-13
1.56E-13
1.49E-13
1.38E-13
1.33E-13
Nb-99
1.68E-14
1.56E-14
1.47E-14
1.40E-14
1.28E-14
1.23E-14
193
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Nb-99m
5.29E-14
5.10E-14
4.88E-14
4.68E-14
4.41E-14
4.26E-14
Molybdenum
Mo-89
8.27E-14
7.84E-14
7.45E-14
7.10E-14
6.56E-14
6.28E-14
Mo-90
4.91E-14
4.60E-14
4.32E-14
4.11E-14
3.78E-14
3.62E-14
Mo-91
6.47E-14
6.11E-14
5.81E-14
5.52E-14
5.09E-14
4.87E-14
Mo-91m
8.49E-14
8.11E-14
7.71E-14
7.35E-14
6.82E-14
6.54E-14
Mo-93
5.66E-17
3.73E-17
3.19E-17
2.75E-17
1.41E-17
1.24E-17
Mo-93m
1.39E-13
1.33E-13
1.26E-13
1.21E-13
1.13E-13
1.08E-13
Mo-99
1.00E-14
9.55E-15
9.03E-15
8.60E-15
7.94E-15
7.62E-15
Mo-101
9.00E-14
8.63E-14
8.20E-14
7.84E-14
7.31E-14
7.02E-14
Mo-102
2.19E-15
2.06E-15
1.94E-15
1.86E-15
1.72E-15
1.67E-15
Technetium
Tc-91
1.59E-13
1.52E-13
1.45E-13
1.39E-13
1.30E-13
1.25E-13
Tc-91m
9.42E-14
8.92E-14
8.48E-14
8.07E-14
7.45E-14
7.13E-14
Tc-92
2.37E-13
2.26E-13
2.15E-13
2.05E-13
1.91E-13
1.83E-13
Tc-93
9.38E-14
9.04E-14
8.61E-14
8.24E-14
7.72E-14
7.41E-14
Tc-93m
5.79E-14
5.55E-14
5.31E-14
5.10E-14
4.80E-14
4.63E-14
Tc-94
1.58E-13
1.51E-13
1.43E-13
1.36E-13
1.26E-13
1.20E-13
Tc-94m
1.20E-13
1.14E-13
1.09E-13
1.04E-13
9.61E-14
9.21E-14
Tc-95
4.66E-14
4.46E-14
4.22E-14
4.01E-14
3.71E-14
3.55E-14
Tc-95m
4.03E-14
3.81E-14
3.59E-14
3.42E-14
3.14E-14
3.01E-14
Tc-96
1.48E-13
1.42E-13
1.34E-13
1.28E-13
1.18E-13
1.13E-13
Tc-96m
2.52E-15
2.40E-15
2.27E-15
2.17E-15
2.00E-15
1.92E-15
Tc-97
6.87E-17
4.41E-17
3.86E-17
3.29E-17
1.80E-17
1.58E-17
Tc-97m
8.43E-17
5.87E-17
5.29E-17
4.67E-17
3.22E-17
2.96E-17
Tc-98
8.40E-14
8.00E-14
7.58E-14
7.21E-14
6.65E-14
6.36E-14
Tc-99
1.80E-16
1.75E-16
1.67E-16
1.60E-16
1.51E-16
1.46E-16
Tc-99m
7.41E-15
6.69E-15
6.24E-15
5.97E-15
5.30E-15
5.14E-15
Tc-101
2.16E-14
2.01E-14
1.88E-14
1.79E-14
1.65E-14
1.58E-14
Tc-102
1.52E-14
1.47E-14
1.40E-14
1.35E-14
1.26E-14
1.22E-14
Tc-102m
1.52E-13
1.46E-13
1.39E-13
1.33E-13
1.24E-13
1.19E-13
Tc-104
1.44E-13
1.38E-13
1.32E-13
1.26E-13
1.18E-13
1.14E-13
Tc-105
5.32E-14
5.05E-14
4.78E-14
4.57E-14
4.24E-14
4.07E-14
Ruthenium
Ru-92
1.26E-13
1.19E-13
1.12E-13
1.07E-13
9.87E-14
9.47E-14
Ru-94
3.02E-14
2.85E-14
2.68E-14
2.55E-14
2.35E-14
2.25E-14
Ru-95
7.37E-14
7.02E-14
6.64E-14
6.33E-14
5.87E-14
5.63E-14
Ru-97
1.37E-14
1.25E-14
1.16E-14
1.10E-14
1.00E-14
9.67E-15
Ru-103
2.94E-14
2.76E-14
2.62E-14
2.49E-14
2.28E-14
2.18E-14
Ru-105
4.56E-14
4.32E-14
4.09E-14
3.89E-14
3.58E-14
3.43E-14
Ru-106
1.25E-18
1.20E-18
1.14E-18
1.09E-18
1.01E-18
9.66E-19
Ru-107
2.53E-14
2.42E-14
2.29E-14
2.19E-14
2.03E-14
1.95E-14
Ru-108
5.20E-15
4.83E-15
4.52E-15
4.34E-15
3.95E-15
3.82E-15
Rhodium
Rh-94
2.45E-13
2.35E-13
2.23E-13
2.13E-13
1.99E-13
1.91E-13
Rh-95
1.57E-13
1.51E-13
1.43E-13
1.37E-13
1.27E-13
1.22E-13
194
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Rh-95m
5.48E-14
5.23E-14
5.00E-14
4.78E-14
4.46E-14
4.28E-14
Rh-96
2.37E-13
2.26E-13
2.14E-13
2.04E-13
1.89E-13
1.81E-13
Rh-96m
7.90E-14
7.56E-14
7.19E-14
6.87E-14
6.39E-14
6.13E-14
Rh-97
8.77E-14
8.31E-14
7.89E-14
7.51E-14
6.94E-14
6.65E-14
Rh-97m
1.33E-13
1.28E-13
1.22E-13
1.17E-13
1.10E-13
1.06E-13
Rh-98
1.14E-13
1.08E-13
1.03E-13
9.76E-14
9.02E-14
8.64E-14
Rh-99
3.23E-14
3.03E-14
2.85E-14
2.71E-14
2.49E-14
2.38E-14
Rh-99m
3.81E-14
3.59E-14
3.39E-14
3.23E-14
2.98E-14
2.85E-14
Rh-100
1.65E-13
1.58E-13
1.51E-13
1.45E-13
1.36E-13
1.31E-13
Rh-lOOm
2.74E-15
2.53E-15
2.37E-15
2.26E-15
2.04E-15
1.94E-15
Rh-101
1.63E-14
1.49E-14
1.38E-14
1.31E-14
1.18E-14
1.14E-14
Rh-lOlm
1.64E-14
1.52E-14
1.41E-14
1.34E-14
1.23E-14
1.18E-14
Rh-102
3.00E-14
2.83E-14
2.69E-14
2.55E-14
2.35E-14
2.25E-14
Rh-102m
1.27E-13
1.21E-13
1.15E-13
1.09E-13
1.01E-13
9.63E-14
Rh-103m
1.44E-17
9.21E-18
8.10E-18
7.04E-18
4.45E-18
3.90E-18
Rh-104
4.89E-15
4.73E-15
4.52E-15
4.34E-15
4.08E-15
3.94E-15
Rh-104m
1.48E-15
1.24E-15
1.06E-15
9.89E-16
8.07E-16
7.31E-16
Rh-105
4.94E-15
4.60E-15
4.29E-15
4.08E-15
3.75E-15
3.60E-15
Rh-106
1.89E-14
1.81E-14
1.72E-14
1.64E-14
1.53E-14
1.47E-14
Rh-106m
1.71E-13
1.63E-13
1.55E-13
1.48E-13
1.37E-13
1.31E-13
Rh-107
2.00E-14
1.87E-14
1.75E-14
1.66E-14
1.53E-14
1.47E-14
Rh-108
2.82E-14
2.68E-14
2.55E-14
2.43E-14
2.26E-14
2.17E-14
Rh-109
2.15E-14
2.01E-14
1.88E-14
1.79E-14
1.65E-14
1.59E-14
Palladium
Pd-96
8.57E-14
8.13E-14
7.70E-14
7.33E-14
6.76E-14
6.48E-14
Pd-97
1.46E-13
1.39E-13
1.32E-13
1.27E-13
1.18E-13
1.13E-13
Pd-98
2.37E-14
2.22E-14
2.09E-14
1.98E-14
1.81E-14
1.74E-14
Pd-99
7.78E-14
7.37E-14
6.99E-14
6.67E-14
6.17E-14
5.92E-14
Pd-100
5.27E-15
4.64E-15
4.13E-15
3.97E-15
3.29E-15
3.02E-15
Pd-101
1.96E-14
1.84E-14
1.74E-14
1.66E-14
1.52E-14
1.46E-14
Pd-103
1.34E-16
8.59E-17
7.63E-17
6.66E-17
4.28E-17
3.77E-17
Pd-107
9.84E-19
9.49E-19
8.97E-19
8.56E-19
7.94E-19
7.61E-19
Pd-109
1.44E-15
1.35E-15
1.28E-15
1.23E-15
1.13E-15
1.09E-15
Pd-109m
6.36E-15
5.81E-15
5.36E-15
5.11E-15
4.63E-15
4.46E-15
Pd-111
6.24E-15
6.01E-15
5.72E-15
5.49E-15
5.14E-15
4.95E-15
Pd-112
1.49E-16
1.33E-16
1.26E-16
1.19E-16
1.06E-16
1.01E-16
Pd-114
3.40E-15
3.22E-15
3.04E-15
2.91E-15
2.70E-15
2.61E-15
Silver
Ag-99
1.44E-13
1.37E-13
1.30E-13
1.24E-13
1.15E-13
1.11E-13
Ag-lOOm
1.79E-13
1.71E-13
1.62E-13
1.55E-13
1.44E-13
1.38E-13
Ag-101
9.67E-14
9.16E-14
8.68E-14
8.27E-14
7.64E-14
7.32E-14
Ag-102
2.07E-13
1.98E-13
1.89E-13
1.80E-13
1.68E-13
1.61E-13
Ag-102m
1.22E-13
1.17E-13
1.12E-13
1.08E-13
1.01E-13
9.74E-14
Ag-103
5.02E-14
4.74E-14
4.49E-14
4.27E-14
3.94E-14
3.78E-14
Ag-104
1.61E-13
1.54E-13
1.46E-13
1.39E-13
1.29E-13
1.23E-13
Ag-104m
1.11E-13
1.05E-13
1.01E-13
9.60E-14
8.92E-14
8.56E-14
195
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ag-105
2.95E-14
2.76E-14
2.59E-14
2.46E-14
2.26E-14
2.16E-14
Ag-105m
5.91E-17
5.52E-17
5.17E-17
4.91E-17
4.51E-17
4.32E-17
Ag-106
4.30E-14
4.05E-14
3.84E-14
3.65E-14
3.35E-14
3.21E-14
Ag-106m
1.66E-13
1.59E-13
1.51E-13
1.44E-13
1.33E-13
1.27E-13
Ag-108
3.33E-15
3.20E-15
3.05E-15
2.93E-15
2.74E-15
2.64E-15
Ag-108m
9.52E-14
9.01E-14
8.53E-14
8.11E-14
7.46E-14
7.13E-14
Ag-109m
2.63E-16
2.13E-16
1.90E-16
1.77E-16
1.43E-16
1.32E-16
Ag-110
7.11E-15
6.86E-15
6.55E-15
6.28E-15
5.89E-15
5.68E-15
Ag-llOm
1.64E-13
1.58E-13
1.49E-13
1.42E-13
1.32E-13
1.27E-13
Ag-111
2.68E-15
2.53E-15
2.39E-15
2.28E-15
2.12E-15
2.04E-15
Ag-lllm
2.51E-16
2.20E-16
2.03E-16
1.91E-16
1.68E-16
1.59E-16
Ag-112
4.79E-14
4.60E-14
4.39E-14
4.20E-14
3.92E-14
3.77E-14
Ag-113
7.27E-15
6.92E-15
6.54E-15
6.25E-15
5.81E-15
5.60E-15
Ag-113m
1.33E-14
1.24E-14
1.17E-14
1.11E-14
1.02E-14
9.79E-15
Ag-114
2.73E-14
2.63E-14
2.51E-14
2.40E-14
2.25E-14
2.17E-14
Ag-115
3.40E-14
3.25E-14
3.10E-14
2.97E-14
2.78E-14
2.67E-14
Ag-116
1.39E-13
1.34E-13
1.28E-13
1.23E-13
1.16E-13
1.11E-13
Ag-117
8.51E-14
8.18E-14
7.83E-14
7.52E-14
7.07E-14
6.82E-14
Cadmium
Cd-101
1.53E-13
1.46E-13
1.39E-13
1.33E-13
1.24E-13
1.19E-13
Cd-102
4.91E-14
4.64E-14
4.40E-14
4.18E-14
3.85E-14
3.69E-14
Cd-103
1.27E-13
1.22E-13
1.16E-13
1.11E-13
1.04E-13
1.00E-13
Cd-104
1.35E-14
1.27E-14
1.19E-14
1.13E-14
1.02E-14
9.74E-15
Cd-105
7.82E-14
7.49E-14
7.14E-14
6.83E-14
6.38E-14
6.13E-14
Cd-107
7.96E-16
6.57E-16
6.00E-16
5.59E-16
4.69E-16
4.40E-16
Cd-109
4.33E-16
3.22E-16
2.85E-16
2.62E-16
1.98E-16
1.80E-16
Cd-lllm
1.65E-14
1.51E-14
1.40E-14
1.33E-14
1.21E-14
1.17E-14
Cd-113
1.60E-16
1.55E-16
1.48E-16
1.42E-16
1.34E-16
1.29E-16
Cd-113m
4.60E-16
4.46E-16
4.27E-16
4.11E-16
3.88E-16
3.75E-16
Cd-115
1.23E-14
1.16E-14
1.10E-14
1.05E-14
9.62E-15
9.22E-15
Cd-115m
4.19E-15
4.06E-15
3.86E-15
3.70E-15
3.47E-15
3.34E-15
Cd-117
6.61E-14
6.34E-14
6.01E-14
5.75E-14
5.36E-14
5.15E-14
Cd-117m
1.24E-13
1.19E-13
1.14E-13
1.09E-13
1.02E-13
9.85E-14
Cd-118
3.76E-16
3.65E-16
3.49E-16
3.36E-16
3.17E-16
3.07E-16
Cd-119
1.02E-13
9.82E-14
9.36E-14
8.97E-14
8.42E-14
8.10E-14
Cd-119m
1.41E-13
1.36E-13
1.30E-13
1.24E-13
1.17E-13
1.12E-13
Indium
In-103
1.73E-13
1.65E-13
1.57E-13
1.50E-13
1.39E-13
1.34E-13
In-105
1.20E-13
1.14E-13
1.08E-13
1.03E-13
9.55E-14
9.16E-14
In-106
2.16E-13
2.06E-13
1.95E-13
1.86E-13
1.72E-13
1.64E-13
In-106m
1.78E-13
1.70E-13
1.62E-13
1.55E-13
1.45E-13
1.39E-13
In-107
9.25E-14
8.82E-14
8.39E-14
8.02E-14
7.48E-14
7.18E-14
In-108
2.33E-13
2.24E-13
2.12E-13
2.02E-13
1.88E-13
1.80E-13
In-108m
1.71E-13
1.64E-13
1.57E-13
1.50E-13
1.41E-13
1.36E-13
In-109
3.76E-14
3.55E-14
3.34E-14
3.19E-14
2.94E-14
2.82E-14
In-109m
3.60E-14
3.42E-14
3.24E-14
3.08E-14
2.84E-14
2.71E-14
196
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
In-110
1.83E-13
1.75E-13
1.66E-13
1.58E-13
1.46E-13
1.40E-13
In-110m
9.62E-14
9.14E-14
8.69E-14
8.28E-14
7.66E-14
7.34E-14
In-Ill
2.32E-14
2.13E-14
1.96E-14
1.87E-14
1.70E-14
1.64E-14
In-lllm
2.77E-14
2.61E-14
2.48E-14
2.36E-14
2.16E-14
2.07E-14
In-112
1.63E-14
1.54E-14
1.46E-14
1.39E-14
1.28E-14
1.22E-14
In-112m
1.43E-15
1.26E-15
1.17E-15
1.11E-15
9.76E-16
9.40E-16
In-113m
1.52E-14
1.42E-14
1.33E-14
1.27E-14
1.16E-14
1.11E-14
In-114
3.20E-15
3.10E-15
2.96E-15
2.85E-15
2.69E-15
2.60E-15
In-114m
4.40E-15
4.09E-15
3.83E-15
3.65E-15
3.33E-15
3.19E-15
In-115
3.46E-16
3.36E-16
3.22E-16
3.10E-16
2.92E-16
2.82E-16
In-115m
9.39E-15
8.70E-15
8.14E-15
7.73E-15
7.08E-15
6.79E-15
In-116m
1.49E-13
1.44E-13
1.37E-13
1.31E-13
1.22E-13
1.17E-13
In-117
4.15E-14
3.89E-14
3.68E-14
3.51E-14
3.20E-14
3.07E-14
In-117m
6.51E-15
6.05E-15
5.67E-15
5.42E-15
4.96E-15
4.78E-15
In-118
1.46E-14
1.41E-14
1.35E-14
1.30E-14
1.22E-14
1.18E-14
In-118m
1.68E-13
1.62E-13
1.54E-13
1.47E-13
1.37E-13
1.31E-13
In-119
4.77E-14
4.56E-14
4.32E-14
4.11E-14
3.80E-14
3.63E-14
In-119m
8.22E-15
7.94E-15
7.55E-15
7.24E-15
6.78E-15
6.53E-15
In-121
5.93E-14
5.70E-14
5.39E-14
5.14E-14
4.77E-14
4.57E-14
In-121m
1.05E-14
1.01E-14
9.60E-15
9.23E-15
8.61E-15
8.28E-15
Tin
Sn-106
7.13E-14
6.74E-14
6.37E-14
6.06E-14
5.58E-14
5.35E-14
Sn-108
3.96E-14
3.70E-14
3.48E-14
3.30E-14
3.03E-14
2.90E-14
Sn-109
1.32E-13
1.27E-13
1.21E-13
1.16E-13
1.09E-13
1.04E-13
Sn-110
1.65E-14
1.52E-14
1.41E-14
1.34E-14
1.22E-14
1.18E-14
Sn-111
2.93E-14
2.77E-14
2.64E-14
2.51E-14
2.32E-14
2.23E-14
Sn-113
5.71E-16
4.64E-16
4.16E-16
3.90E-16
3.26E-16
3.06E-16
Sn-113m
2.16E-16
1.51E-16
1.28E-16
1.18E-16
8.39E-17
7.37E-17
Sn-117m
8.59E-15
7.77E-15
7.22E-15
6.92E-15
6.15E-15
5.95E-15
Sn-119m
2.09E-16
1.41E-16
1.19E-16
1.09E-16
7.49E-17
6.54E-17
Sn-121
2.28E-16
2.21E-16
2.11E-16
2.03E-16
1.91E-16
1.85E-16
Sn-121m
1.46E-16
1.18E-16
1.05E-16
9.85E-17
8.20E-17
7.63E-17
Sn-123
2.27E-15
2.20E-15
2.10E-15
2.02E-15
1.90E-15
1.83E-15
Sn-123m
9.74E-15
8.96E-15
8.38E-15
8.04E-15
7.25E-15
7.02E-15
Sn-125
2.33E-14
2.25E-14
2.14E-14
2.04E-14
1.90E-14
1.83E-14
Sn-125m
2.37E-14
2.22E-14
2.09E-14
1.99E-14
1.83E-14
1.76E-14
Sn-126
2.79E-15
2.46E-15
2.20E-15
2.10E-15
1.77E-15
1.64E-15
Sn-127
1.16E-13
1.12E-13
1.06E-13
1.01E-13
9.44E-14
9.06E-14
Sn-127m
3.86E-14
3.66E-14
3.48E-14
3.32E-14
3.07E-14
2.94E-14
Sn-128
3.42E-14
3.19E-14
3.01E-14
2.86E-14
2.61E-14
2.49E-14
Sn-129
6.58E-14
6.29E-14
5.98E-14
5.70E-14
5.29E-14
5.07E-14
Sn-130
5.61E-14
5.30E-14
4.98E-14
4.74E-14
4.35E-14
4.16E-14
Sn-130m
5.89E-14
5.64E-14
5.34E-14
5.10E-14
4.74E-14
4.55E-14
Antimony
Sb-111
9.42E-14
8.89E-14
8.42E-14
8.02E-14
7.38E-14
7.07E-14
Sb-113
7.77E-14
7.33E-14
6.95E-14
6.61E-14
6.08E-14
5.82E-14
197
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sb-114
1.66E-13
1.59E-13
1.51E-13
1.45E-13
1.35E-13
1.29E-13
Sb-115
5.28E-14
4.97E-14
4.71E-14
4.48E-14
4.11E-14
3.94E-14
Sb-116
1.38E-13
1.33E-13
1.26E-13
1.21E-13
1.13E-13
1.08E-13
Sb-116m
1.84E-13
1.77E-13
1.67E-13
1.59E-13
1.48E-13
1.42E-13
Sb-117
1.01E-14
9.16E-15
8.54E-15
8.17E-15
7.30E-15
7.05E-15
Sb-118
5.11E-14
4.82E-14
4.58E-14
4.36E-14
4.01E-14
3.84E-14
Sb-118m
1.54E-13
1.48E-13
1.40E-13
1.34E-13
1.24E-13
1.19E-13
Sb-119
3.39E-16
2.30E-16
1.94E-16
1.77E-16
1.23E-16
1.07E-16
Sb-120
2.74E-14
2.58E-14
2.44E-14
2.32E-14
2.13E-14
2.04E-14
Sb-120m
1.46E-13
1.40E-13
1.32E-13
1.26E-13
1.17E-13
1.12E-13
Sb-122
2.84E-14
2.69E-14
2.55E-14
2.43E-14
2.24E-14
2.14E-14
Sb-122m
2.66E-15
2.29E-15
1.96E-15
1.89E-15
1.49E-15
1.32E-15
Sb-124
1.12E-13
1.08E-13
1.03E-13
9.82E-14
9.17E-14
8.81E-14
Sb-124m
2.63E-14
2.49E-14
2.37E-14
2.25E-14
2.07E-14
1.98E-14
Sb-124n
1.26E-20
8.57E-21
7.20E-21
6.61E-21
4.60E-21
4.02E-21
Sb-125
2.54E-14
2.38E-14
2.25E-14
2.14E-14
1.96E-14
1.88E-14
Sb-126
1.64E-13
1.56E-13
1.48E-13
1.41E-13
1.30E-13
1.24E-13
Sb-126m
9.40E-14
8.92E-14
8.45E-14
8.03E-14
7.40E-14
7.08E-14
Sb-127
4.19E-14
3.98E-14
3.76E-14
3.58E-14
3.30E-14
3.15E-14
Sb-128
1.85E-13
1.76E-13
1.67E-13
1.59E-13
1.46E-13
1.40E-13
Sb-128m
1.17E-13
1.12E-13
1.05E-13
1.00E-13
9.26E-14
8.86E-14
Sb-129
8.85E-14
8.49E-14
8.06E-14
7.69E-14
7.14E-14
6.85E-14
Sb-130
1.98E-13
1.89E-13
1.78E-13
1.70E-13
1.57E-13
1.51E-13
Sb-130m
1.65E-13
1.59E-13
1.50E-13
1.43E-13
1.33E-13
1.27E-13
Sb-131
1.26E-13
1.22E-13
1.16E-13
1.10E-13
1.03E-13
9.89E-14
Sb-133
1.68E-13
1.62E-13
1.55E-13
1.48E-13
1.39E-13
1.33E-13
Tellurium
Te-113
1.42E-13
1.35E-13
1.29E-13
1.23E-13
1.14E-13
1.10E-13
Te-114
7.59E-14
7.25E-14
6.89E-14
6.58E-14
6.12E-14
5.88E-14
Te-115
1.37E-13
1.31E-13
1.24E-13
1.19E-13
1.10E-13
1.06E-13
Te-115m
1.58E-13
1.52E-13
1.44E-13
1.38E-13
1.28E-13
1.23E-13
Te-116
5.23E-15
4.70E-15
4.35E-15
4.11E-15
3.65E-15
3.48E-15
Te-117
9.29E-14
8.89E-14
8.47E-14
8.09E-14
7.53E-14
7.23E-14
Te-118
3.30E-16
2.29E-16
1.91E-16
1.76E-16
1.25E-16
1.09E-16
Te-119
4.47E-14
4.25E-14
4.03E-14
3.84E-14
3.54E-14
3.39E-14
Te-119m
8.92E-14
8.55E-14
8.09E-14
7.73E-14
7.18E-14
6.89E-14
Te-121
3.32E-14
3.13E-14
2.97E-14
2.82E-14
2.59E-14
2.47E-14
Te-121m
1.23E-14
1.14E-14
1.05E-14
9.98E-15
9.10E-15
8.75E-15
Te-123
5.73E-19
3.98E-19
3.32E-19
3.06E-19
2.17E-19
1.90E-19
Te-123m
8.15E-15
7.37E-15
6.84E-15
6.56E-15
5.83E-15
5.64E-15
Te-125m
6.91E-16
4.98E-16
4.16E-16
3.85E-16
2.83E-16
2.52E-16
Te-127
8.88E-16
8.52E-16
8.11E-16
7.78E-16
7.27E-16
7.01E-16
Te-127m
2.35E-16
1.75E-16
1.49E-16
1.39E-16
1.06E-16
9.54E-17
Te-129
5.33E-15
5.05E-15
4.79E-15
4.57E-15
4.23E-15
4.07E-15
Te-129m
2.68E-15
2.53E-15
2.39E-15
2.28E-15
2.10E-15
2.01E-15
Te-131
2.74E-14
2.59E-14
2.44E-14
2.33E-14
2.14E-14
2.06E-14
198
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Te-131m
8.67E-14
8.29E-14
7.84E-14
7.48E-14
6.92E-14
6.64E-14
Te-132
1.31E-14
1.19E-14
1.09E-14
1.04E-14
9.42E-15
9.04E-15
Te-133
7.46E-14
7.12E-14
6.75E-14
6.45E-14
6.01E-14
5.77E-14
Te-133m
1.12E-13
1.07E-13
1.02E-13
9.69E-14
8.99E-14
8.62E-14
Te-134
5.16E-14
4.87E-14
4.58E-14
4.36E-14
4.00E-14
3.83E-14
Iodine
1-118
1.31E-13
1.24E-13
1.18E-13
1.12E-13
1.04E-13
9.95E-14
I-118m
2.27E-13
2.16E-13
2.05E-13
1.95E-13
1.80E-13
1.73E-13
1-119
5.55E-14
5.21E-14
4.91E-14
4.67E-14
4.29E-14
4.11E-14
1-120
1.66E-13
1.59E-13
1.52E-13
1.45E-13
1.36E-13
1.30E-13
I-120m
2.14E-13
2.04E-13
1.94E-13
1.85E-13
1.71E-13
1.64E-13
1-121
2.30E-14
2.14E-14
2.00E-14
1.90E-14
1.74E-14
1.66E-14
1-122
6.18E-14
5.84E-14
5.55E-14
5.28E-14
4.86E-14
4.65E-14
1-123
9.20E-15
8.32E-15
7.73E-15
7.40E-15
6.58E-15
6.35E-15
1-124
6.64E-14
6.32E-14
6.02E-14
5.74E-14
5.32E-14
5.10E-14
1-125
7.97E-16
5.68E-16
4.71E-16
4.35E-16
3.14E-16
2.78E-16
1-126
2.58E-14
2.43E-14
2.30E-14
2.19E-14
2.01E-14
1.92E-14
1-128
6.91E-15
6.58E-15
6.25E-15
5.97E-15
5.54E-15
5.33E-15
1-129
6.18E-16
4.70E-16
3.93E-16
3.64E-16
2.81E-16
2.54E-16
1-130
1.27E-13
1.21E-13
1.15E-13
1.09E-13
1.00E-13
9.61E-14
I-130m
6.90E-15
6.52E-15
6.19E-15
5.89E-15
5.43E-15
5.20E-15
1-131
2.31E-14
2.15E-14
2.02E-14
1.92E-14
1.76E-14
1.69E-14
1-132
1.36E-13
1.30E-13
1.23E-13
1.18E-13
1.09E-13
1.04E-13
I-132m
2.00E-14
1.89E-14
1.79E-14
1.70E-14
1.56E-14
1.50E-14
1-133
3.76E-14
3.56E-14
3.38E-14
3.21E-14
2.96E-14
2.83E-14
1-134
1.57E-13
1.50E-13
1.42E-13
1.36E-13
1.26E-13
1.21E-13
I-134m
1.63E-14
1.50E-14
1.39E-14
1.32E-14
1.21E-14
1.16E-14
1-135
9.61E-14
9.26E-14
8.81E-14
8.43E-14
7.88E-14
7.58E-14
Xenon
Xe-120
2.21E-14
2.07E-14
1.94E-14
1.85E-14
1.69E-14
1.61E-14
Xe-121
9.03E-14
8.60E-14
8.20E-14
7.84E-14
7.31E-14
7.02E-14
Xe-122
3.12E-15
2.79E-15
2.58E-15
2.45E-15
2.18E-15
2.08E-15
Xe-123
3.78E-14
3.57E-14
3.37E-14
3.22E-14
2.97E-14
2.85E-14
Xe-125
1.49E-14
1.37E-14
1.26E-14
1.20E-14
1.09E-14
1.05E-14
Xe-127
1.56E-14
1.43E-14
1.32E-14
1.26E-14
1.14E-14
1.09E-14
Xe-127m
9.39E-15
8.42E-15
7.79E-15
7.41E-15
6.59E-15
6.38E-15
Xe-129m
1.54E-15
1.25E-15
1.09E-15
1.02E-15
8.47E-16
7.91E-16
Xe-131m
5.95E-16
4.81E-16
4.21E-16
3.98E-16
3.29E-16
3.08E-16
Xe-133
2.18E-15
1.90E-15
1.68E-15
1.61E-15
1.34E-15
1.22E-15
Xe-133m
1.85E-15
1.64E-15
1.49E-15
1.41E-15
1.26E-15
1.21E-15
Xe-135
1.56E-14
1.45E-14
1.34E-14
1.28E-14
1.17E-14
1.13E-14
Xe-135m
2.50E-14
2.35E-14
2.23E-14
2.12E-14
1.95E-14
1.86E-14
Xe-137
1.99E-14
1.91E-14
1.81E-14
1.74E-14
1.62E-14
1.56E-14
Xe-138
7.03E-14
6.74E-14
6.43E-14
6.17E-14
5.79E-14
5.58E-14
Cesium
Cs-121
7.83E-14
7.39E-14
7.01E-14
6.67E-14
6.15E-14
5.89E-14
199
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cs-121m
7.64E-14
7.20E-14
6.81E-14
6.49E-14
5.97E-14
5.72E-14
Cs-123
6.79E-14
6.40E-14
6.07E-14
5.77E-14
5.31E-14
5.08E-14
Cs-124
7.97E-14
7.54E-14
7.16E-14
6.82E-14
6.30E-14
6.04E-14
Cs-125
4.55E-14
4.29E-14
4.07E-14
3.87E-14
3.56E-14
3.41E-14
Cs-126
7.46E-14
7.05E-14
6.69E-14
6.36E-14
5.86E-14
5.62E-14
Cs-127
2.48E-14
2.31E-14
2.17E-14
2.06E-14
1.89E-14
1.81E-14
Cs-128
5.63E-14
5.31E-14
5.04E-14
4.80E-14
4.41E-14
4.22E-14
Cs-129
1.53E-14
1.41E-14
1.33E-14
1.26E-14
1.15E-14
1.10E-14
Cs-130
3.07E-14
2.89E-14
2.75E-14
2.61E-14
2.40E-14
2.30E-14
Cs-130m
3.02E-15
2.61E-15
2.31E-15
2.20E-15
1.83E-15
1.69E-15
Cs-131
4.89E-16
3.58E-16
2.94E-16
2.72E-16
2.01E-16
1.79E-16
Cs-132
4.15E-14
3.93E-14
3.72E-14
3.54E-14
3.26E-14
3.11E-14
Cs-134
9.25E-14
8.82E-14
8.36E-14
7.95E-14
7.33E-14
7.02E-14
Cs-134m
1.20E-15
1.04E-15
9.54E-16
9.03E-16
7.85E-16
7.56E-16
Cs-135
1.47E-16
1.43E-16
1.36E-16
1.31E-16
1.23E-16
1.19E-16
Cs-135m
9.48E-14
9.09E-14
8.60E-14
8.18E-14
7.56E-14
7.24E-14
Cs-136
1.27E-13
1.22E-13
1.15E-13
1.09E-13
1.01E-13
9.71E-14
Cs-137
4.76E-16
4.62E-16
4.42E-16
4.26E-16
4.02E-16
3.89E-16
Cs-138
1.48E-13
1.43E-13
1.36E-13
1.30E-13
1.22E-13
1.18E-13
Cs-138m
2.55E-14
2.43E-14
2.31E-14
2.20E-14
2.05E-14
1.97E-14
Cs-139
2.68E-14
2.60E-14
2.48E-14
2.38E-14
2.24E-14
2.16E-14
Cs-140
1.19E-13
1.14E-13
1.09E-13
1.05E-13
9.88E-14
9.52E-14
Barium
Ba-124
3.36E-14
3.17E-14
2.99E-14
2.85E-14
2.62E-14
2.51E-14
Ba-126
3.36E-14
3.18E-14
2.99E-14
2.85E-14
2.63E-14
2.52E-14
Ba-127
4.50E-14
4.24E-14
4.02E-14
3.83E-14
3.53E-14
3.38E-14
Ba-128
3.05E-15
2.72E-15
2.47E-15
2.34E-15
2.09E-15
2.00E-15
Ba-129
1.94E-14
1.82E-14
1.72E-14
1.64E-14
1.51E-14
1.44E-14
Ba-129m
9.33E-14
8.88E-14
8.40E-14
8.01E-14
7.41E-14
7.11E-14
Ba-131
2.70E-14
2.51E-14
2.36E-14
2.24E-14
2.04E-14
1.96E-14
Ba-131m
4.00E-15
3.49E-15
3.20E-15
2.99E-15
2.62E-15
2.53E-15
Ba-133
2.22E-14
2.04E-14
1.90E-14
1.80E-14
1.63E-14
1.56E-14
Ba-133m
3.48E-15
3.15E-15
2.89E-15
2.74E-15
2.48E-15
2.38E-15
Ba-135m
3.03E-15
2.73E-15
2.50E-15
2.38E-15
2.15E-15
2.05E-15
Ba-137m
3.52E-14
3.35E-14
3.17E-14
3.02E-14
2.78E-14
2.66E-14
Ba-139
6.33E-15
6.00E-15
5.67E-15
5.45E-15
5.05E-15
4.88E-15
Ba-140
1.14E-14
1.07E-14
1.01E-14
9.62E-15
8.82E-15
8.45E-15
Ba-141
5.92E-14
5.62E-14
5.30E-14
5.06E-14
4.69E-14
4.50E-14
Ba-142
6.34E-14
6.07E-14
5.73E-14
5.46E-14
5.06E-14
4.85E-14
Lanthanum
La-128
1.74E-13
1.66E-13
1.57E-13
1.50E-13
1.38E-13
1.33E-13
La-129
5.65E-14
5.31E-14
5.02E-14
4.77E-14
4.38E-14
4.20E-14
La-130
1.38E-13
1.31E-13
1.24E-13
1.19E-13
1.10E-13
1.05E-13
La-131
3.90E-14
3.64E-14
3.43E-14
3.26E-14
2.99E-14
2.86E-14
La-132
1.21E-13
1.16E-13
1.10E-13
1.05E-13
9.79E-14
9.40E-14
La-13 2m
3.93E-14
3.70E-14
3.49E-14
3.32E-14
3.04E-14
2.91E-14
200
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
La-133
8.71E-15
8.10E-15
7.61E-15
7.22E-15
6.59E-15
6.29E-15
La-134
4.56E-14
4.30E-14
4.08E-14
3.88E-14
3.57E-14
3.42E-14
La-135
1.23E-15
1.04E-15
9.22E-16
8.66E-16
7.37E-16
6.89E-16
La-136
2.46E-14
2.31E-14
2.19E-14
2.08E-14
1.91E-14
1.83E-14
La-137
6.04E-16
4.54E-16
3.72E-16
3.43E-16
2.59E-16
2.33E-16
La-138
7.35E-14
7.08E-14
6.73E-14
6.43E-14
6.01E-14
5.77E-14
La-140
1.41E-13
1.35E-13
1.29E-13
1.23E-13
1.15E-13
1.11E-13
La-141
5.81E-15
5.63E-15
5.38E-15
5.17E-15
4.87E-15
4.70E-15
La-142
1.48E-13
1.43E-13
1.37E-13
1.32E-13
1.24E-13
1.20E-13
La-143
2.19E-14
2.12E-14
2.02E-14
1.94E-14
1.82E-14
1.75E-14
Cerium
Ce-130
2.86E-14
2.68E-14
2.51E-14
2.39E-14
2.19E-14
2.10E-14
Ce-131
9.85E-14
9.35E-14
8.86E-14
8.45E-14
7.81E-14
7.49E-14
Ce-132
1.52E-14
1.39E-14
1.28E-14
1.22E-14
1.10E-14
1.06E-14
Ce-133
3.18E-14
2.96E-14
2.79E-14
2.64E-14
2.41E-14
2.30E-14
Ce-133m
1.02E-13
9.76E-14
9.26E-14
8.83E-14
8.19E-14
7.86E-14
Ce-134
7.73E-16
6.03E-16
5.03E-16
4.66E-16
3.65E-16
3.34E-16
Ce-135
4.79E-14
4.50E-14
4.23E-14
4.03E-14
3.70E-14
3.54E-14
Ce-137
1.34E-15
1.14E-15
1.01E-15
9.46E-16
8.06E-16
7.54E-16
Ce-137m
2.75E-15
2.47E-15
2.25E-15
2.14E-15
1.92E-15
1.83E-15
Ce-139
8.49E-15
7.63E-15
7.03E-15
6.72E-15
5.97E-15
5.75E-15
Ce-141
4.66E-15
4.22E-15
3.93E-15
3.76E-15
3.34E-15
3.24E-15
Ce-143
1.71E-14
1.60E-14
1.49E-14
1.42E-14
1.30E-14
1.24E-14
Ce-144
1.17E-15
1.05E-15
9.71E-16
9.25E-16
8.18E-16
7.88E-16
Ce-145
4.96E-14
4.71E-14
4.44E-14
4.23E-14
3.90E-14
3.73E-14
Praseodymium
Pr-134
1.92E-13
1.82E-13
1.72E-13
1.64E-13
1.52E-13
1.45E-13
Pr-134m
1.46E-13
1.39E-13
1.32E-13
1.26E-13
1.17E-13
1.12E-13
Pr-135
5.32E-14
5.01E-14
4.73E-14
4.50E-14
4.14E-14
3.96E-14
Pr-136
1.31E-13
1.25E-13
1.19E-13
1.13E-13
1.05E-13
1.01E-13
Pr-137
2.19E-14
2.06E-14
1.95E-14
1.86E-14
1.71E-14
1.63E-14
Pr-138
5.35E-14
5.05E-14
4.80E-14
4.57E-14
4.20E-14
4.03E-14
Pr-138m
1.47E-13
1.41E-13
1.33E-13
1.26E-13
1.17E-13
1.12E-13
Pr-139
7.01E-15
6.50E-15
6.11E-15
5.80E-15
5.28E-15
5.04E-15
Pr-140
3.42E-14
3.22E-14
3.05E-14
2.90E-14
2.66E-14
2.55E-14
Pr-142
6.80E-15
6.58E-15
6.29E-15
6.04E-15
5.69E-15
5.49E-15
Pr-142m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pr-143
9.51E-16
9.24E-16
8.84E-16
8.51E-16
8.03E-16
7.77E-16
Pr-144
7.21E-15
6.98E-15
6.68E-15
6.42E-15
6.05E-15
5.84E-15
Pr-144m
4.26E-16
3.49E-16
2.99E-16
2.78E-16
2.29E-16
2.12E-16
Pr-145
3.67E-15
3.54E-15
3.38E-15
3.24E-15
3.04E-15
2.93E-15
Pr-146
6.71E-14
6.44E-14
6.13E-14
5.87E-14
5.48E-14
5.27E-14
Pr-147
3.13E-14
2.95E-14
2.78E-14
2.65E-14
2.44E-14
2.34E-14
Pr-148
6.79E-14
6.50E-14
6.17E-14
5.90E-14
5.51E-14
5.30E-14
Pr-148m
6.38E-14
6.04E-14
5.70E-14
5.43E-14
5.02E-14
4.82E-14
201
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Neodymium
Nd-134
3.18E-14
2.96E-14
2.77E-14
2.64E-14
2.40E-14
2.31E-14
Nd-135
7.83E-14
7.35E-14
6.95E-14
6.61E-14
6.07E-14
5.82E-14
Nd-136
1.52E-14
1.40E-14
1.31E-14
1.24E-14
1.12E-14
1.07E-14
Nd-137
7.02E-14
6.66E-14
6.31E-14
6.01E-14
5.55E-14
5.32E-14
Nd-138
1.70E-15
1.45E-15
1.28E-15
1.20E-15
1.03E-15
9.64E-16
Nd-139
2.64E-14
2.48E-14
2.35E-14
2.23E-14
2.05E-14
1.97E-14
Nd-139m
9.32E-14
8.90E-14
8.41E-14
8.01E-14
7.41E-14
7.10E-14
Nd-140
8.30E-16
6.46E-16
5.30E-16
4.86E-16
3.77E-16
3.42E-16
Nd-141
3.70E-15
3.38E-15
3.12E-15
2.95E-15
2.66E-15
2.53E-15
Nd-141m
4.12E-14
3.93E-14
3.72E-14
3.54E-14
3.27E-14
3.13E-14
Nd-144
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Nd-147
8.39E-15
7.74E-15
7.23E-15
6.85E-15
6.20E-15
5.91E-15
Nd-149
2.32E-14
2.16E-14
2.02E-14
1.92E-14
1.75E-14
1.68E-14
Nd-151
5.28E-14
5.02E-14
4.74E-14
4.52E-14
4.18E-14
4.01E-14
Nd-152
1.06E-14
9.85E-15
9.16E-15
8.72E-15
8.01E-15
7.69E-15
Promethium
Pm-136
1.73E-13
1.64E-13
1.56E-13
1.48E-13
1.37E-13
1.31E-13
Pm-137m
1.10E-13
1.03E-13
9.77E-14
9.29E-14
8.55E-14
8.19E-14
Pm-139
6.03E-14
5.69E-14
5.40E-14
5.14E-14
4.74E-14
4.54E-14
Pm-140
7.37E-14
6.98E-14
6.63E-14
6.32E-14
5.83E-14
5.59E-14
Pm-140m
1.84E-13
1.76E-13
1.66E-13
1.58E-13
1.46E-13
1.40E-13
Pm-141
4.58E-14
4.34E-14
4.12E-14
3.92E-14
3.62E-14
3.47E-14
Pm-142
5.70E-14
5.39E-14
5.12E-14
4.87E-14
4.49E-14
4.30E-14
Pm-143
1.78E-14
1.69E-14
1.59E-14
1.51E-14
1.39E-14
1.32E-14
Pm-144
9.16E-14
8.67E-14
8.22E-14
7.81E-14
7.18E-14
6.86E-14
Pm-145
9.85E-16
7.85E-16
6.48E-16
5.97E-16
4.68E-16
4.23E-16
Pm-146
4.41E-14
4.17E-14
3.94E-14
3.75E-14
3.44E-14
3.29E-14
Pm-147
8.02E-17
7.76E-17
7.38E-17
7.08E-17
6.63E-17
6.39E-17
Pm-148
3.73E-14
3.58E-14
3.41E-14
3.26E-14
3.04E-14
2.92E-14
Pm-148m
1.18E-13
1.12E-13
1.06E-13
1.01E-13
9.30E-14
8.90E-14
Pm-149
1.86E-15
1.78E-15
1.68E-15
1.61E-15
1.51E-15
1.45E-15
Pm-150
9.13E-14
8.75E-14
8.30E-14
7.93E-14
7.39E-14
7.10E-14
Pm-151
2.00E-14
1.86E-14
1.74E-14
1.66E-14
1.52E-14
1.45E-14
Pm-152
2.32E-14
2.22E-14
2.11E-14
2.02E-14
1.88E-14
1.81E-14
Pm-152m
9.38E-14
8.95E-14
8.45E-14
8.06E-14
7.48E-14
7.18E-14
Pm-153
6.66E-15
6.15E-15
5.75E-15
5.49E-15
4.99E-15
4.81E-15
Pm-154
1.11E-13
1.07E-13
1.02E-13
9.82E-14
9.21E-14
8.86E-14
Pm-154m
1.11E-13
1.06E-13
1.01E-13
9.64E-14
8.98E-14
8.63E-14
Samarium
Sm-139
9.11E-14
8.61E-14
8.15E-14
7.76E-14
7.16E-14
6.87E-14
Sm-140
3.36E-14
3.17E-14
3.00E-14
2.85E-14
2.63E-14
2.52E-14
Sm-141
8.66E-14
8.21E-14
7.79E-14
7.43E-14
6.87E-14
6.59E-14
Sm-141m
1.17E-13
1.11E-13
1.05E-13
1.00E-13
9.28E-14
8.90E-14
Sm-142
5.86E-15
5.39E-15
5.02E-15
4.75E-15
4.29E-15
4.09E-15
Sm-143
3.29E-14
3.10E-14
2.94E-14
2.79E-14
2.57E-14
2.46E-14
202
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sm-143m
4.06E-14
3.87E-14
3.67E-14
3.49E-14
3.22E-14
3.08E-14
Sm-145
2.15E-15
1.74E-15
1.44E-15
1.33E-15
1.05E-15
9.48E-16
Sm-146
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-147
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-151
8.16E-18
7.85E-18
7.42E-18
7.07E-18
6.56E-18
6.28E-18
Sm-153
3.69E-15
3.25E-15
2.94E-15
2.75E-15
2.41E-15
2.29E-15
Sm-155
7.88E-15
7.16E-15
6.66E-15
6.28E-15
5.67E-15
5.47E-15
Sm-156
6.94E-15
6.33E-15
5.81E-15
5.54E-15
4.97E-15
4.76E-15
Sm-157
2.79E-14
2.63E-14
2.47E-14
2.35E-14
2.17E-14
2.09E-14
Europium
Eu-142
8.96E-14
8.52E-14
8.11E-14
7.74E-14
7.18E-14
6.89E-14
Eu-142m
2.13E-13
2.03E-13
1.92E-13
1.83E-13
1.69E-13
1.62E-13
Eu-143
7.36E-14
6.99E-14
6.65E-14
6.34E-14
5.87E-14
5.63E-14
Eu-144
7.68E-14
7.28E-14
6.93E-14
6.61E-14
6.12E-14
5.87E-14
Eu-145
7.58E-14
7.27E-14
6.90E-14
6.59E-14
6.14E-14
5.89E-14
Eu-146
1.42E-13
1.36E-13
1.29E-13
1.23E-13
1.14E-13
1.09E-13
Eu-147
2.70E-14
2.54E-14
2.38E-14
2.26E-14
2.07E-14
1.98E-14
Eu-148
1.31E-13
1.25E-13
1.18E-13
1.13E-13
1.04E-13
9.95E-14
Eu-149
3.01E-15
2.66E-15
2.39E-15
2.24E-15
1.97E-15
1.86E-15
Eu-150
9.14E-14
8.61E-14
8.13E-14
7.73E-14
7.11E-14
6.81E-14
Eu-150m
3.81E-15
3.60E-15
3.40E-15
3.24E-15
3.00E-15
2.88E-15
Eu-152
6.96E-14
6.65E-14
6.28E-14
5.99E-14
5.55E-14
5.33E-14
Eu-152m
1.92E-14
1.84E-14
1.74E-14
1.66E-14
1.53E-14
1.47E-14
Eu-152n
3.90E-15
3.43E-15
3.08E-15
2.90E-15
2.48E-15
2.33E-15
Eu-154
7.49E-14
7.18E-14
6.79E-14
6.48E-14
6.01E-14
5.76E-14
Eu-154m
3.23E-15
2.81E-15
2.49E-15
2.35E-15
1.96E-15
1.82E-15
Eu-155
3.27E-15
2.87E-15
2.59E-15
2.44E-15
2.10E-15
1.98E-15
Eu-156
7.57E-14
7.30E-14
6.95E-14
6.65E-14
6.23E-14
5.98E-14
Eu-157
1.76E-14
1.64E-14
1.53E-14
1.45E-14
1.32E-14
1.26E-14
Eu-158
8.08E-14
7.78E-14
7.38E-14
7.05E-14
6.56E-14
6.29E-14
Eu-159
2.02E-14
1.91E-14
1.78E-14
1.70E-14
1.55E-14
1.48E-14
Gadolinium
Gd-142
6.50E-14
6.16E-14
5.84E-14
5.56E-14
5.14E-14
4.93E-14
Gd-143m
1.32E-13
1.25E-13
1.18E-13
1.13E-13
1.04E-13
1.00E-13
Gd-144
5.65E-14
5.37E-14
5.12E-14
4.89E-14
4.54E-14
4.36E-14
Gd-145
1.48E-13
1.42E-13
1.36E-13
1.30E-13
1.23E-13
1.18E-13
Gd-145m
4.06E-14
3.86E-14
3.66E-14
3.48E-14
3.21E-14
3.07E-14
Gd-146
1.30E-14
1.14E-14
1.04E-14
9.80E-15
8.57E-15
8.22E-15
Gd-147
8.25E-14
7.82E-14
7.36E-14
7.00E-14
6.46E-14
6.18E-14
Gd-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-149
3.02E-14
2.81E-14
2.63E-14
2.50E-14
2.28E-14
2.18E-14
Gd-150
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-151
3.23E-15
2.83E-15
2.52E-15
2.37E-15
2.07E-15
1.95E-15
Gd-152
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-153
4.90E-15
4.19E-15
3.71E-15
3.44E-15
2.93E-15
2.77E-15
203
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Gd-159
3.89E-15
3.62E-15
3.38E-15
3.21E-15
2.94E-15
2.81E-15
Gd-162
2.55E-14
2.39E-14
2.26E-14
2.14E-14
1.97E-14
1.88E-14
Terbium
Tb-146
2.26E-13
2.17E-13
2.07E-13
1.98E-13
1.85E-13
1.78E-13
Tb-147
1.31E-13
1.25E-13
1.19E-13
1.14E-13
1.05E-13
1.01E-13
Tb-147m
1.16E-13
1.11E-13
1.06E-13
1.01E-13
9.48E-14
9.11E-14
Tb-148
1.45E-13
1.39E-13
1.32E-13
1.26E-13
1.17E-13
1.12E-13
Tb-148m
1.87E-13
1.78E-13
1.68E-13
1.60E-13
1.47E-13
1.41E-13
Tb-149
8.09E-14
7.70E-14
7.30E-14
6.97E-14
6.47E-14
6.21E-14
Tb-149m
8.16E-14
7.77E-14
7.35E-14
6.99E-14
6.44E-14
6.16E-14
Tb-150
1.48E-13
1.42E-13
1.36E-13
1.30E-13
1.22E-13
1.17E-13
Tb-150m
1.49E-13
1.41E-13
1.33E-13
1.26E-13
1.16E-13
1.11E-13
Tb-151
5.78E-14
5.42E-14
5.10E-14
4.84E-14
4.44E-14
4.26E-14
Tb-151m
4.33E-15
4.03E-15
3.76E-15
3.56E-15
3.24E-15
3.08E-15
Tb-152
8.99E-14
8.56E-14
8.13E-14
7.77E-14
7.23E-14
6.95E-14
Tb-152m
4.41E-14
4.11E-14
3.85E-14
3.66E-14
3.34E-14
3.20E-14
Tb-153
1.85E-14
1.71E-14
1.58E-14
1.50E-14
1.36E-14
1.30E-14
Tb-154
1.37E-13
1.32E-13
1.26E-13
1.21E-13
1.14E-13
1.10E-13
Tb-155
9.20E-15
8.17E-15
7.39E-15
6.97E-15
6.12E-15
5.81E-15
Tb-156
1.14E-13
1.09E-13
1.03E-13
9.84E-14
9.12E-14
8.75E-14
Tb-156m
1.51E-15
1.27E-15
1.06E-15
9.81E-16
8.00E-16
7.16E-16
Tb-156n
1.59E-16
1.35E-16
1.16E-16
1.08E-16
8.96E-17
8.22E-17
Tb-157
1.70E-16
1.39E-16
1.15E-16
1.05E-16
8.50E-17
7.67E-17
Tb-158
4.70E-14
4.50E-14
4.23E-14
4.03E-14
3.72E-14
3.56E-14
Tb-160
6.74E-14
6.46E-14
6.10E-14
5.82E-14
5.39E-14
5.16E-14
Tb-161
1.69E-15
1.48E-15
1.29E-15
1.22E-15
1.03E-15
9.46E-16
Tb-162
6.72E-14
6.40E-14
6.02E-14
5.73E-14
5.28E-14
5.06E-14
Tb-163
4.76E-14
4.46E-14
4.20E-14
3.99E-14
3.66E-14
3.51E-14
Tb-164
1.49E-13
1.42E-13
1.35E-13
1.28E-13
1.19E-13
1.14E-13
Tb-165
5.37E-14
5.17E-14
4.92E-14
4.71E-14
4.40E-14
4.23E-14
Dysprosium
Dy-148
4.17E-14
3.94E-14
3.72E-14
3.54E-14
3.25E-14
3.10E-14
Dy-149
9.62E-14
9.21E-14
8.73E-14
8.34E-14
7.76E-14
7.45E-14
Dy-150
1.60E-14
1.48E-14
1.39E-14
1.31E-14
1.20E-14
1.14E-14
Dy-151
8.10E-14
7.73E-14
7.32E-14
6.98E-14
6.47E-14
6.20E-14
Dy-152
1.63E-14
1.49E-14
1.36E-14
1.29E-14
1.18E-14
1.13E-14
Dy-153
5.03E-14
4.74E-14
4.45E-14
4.24E-14
3.90E-14
3.73E-14
Dy-154
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Dy-155
3.89E-14
3.67E-14
3.44E-14
3.28E-14
3.02E-14
2.90E-14
Dy-157
1.97E-14
1.82E-14
1.68E-14
1.59E-14
1.45E-14
1.39E-14
Dy-159
1.70E-15
1.41E-15
1.17E-15
1.07E-15
8.69E-16
7.82E-16
Dy-165
2.96E-15
2.81E-15
2.65E-15
2.53E-15
2.34E-15
2.24E-15
Dy-165m
1.01E-15
9.18E-16
8.49E-16
8.02E-16
7.20E-16
6.86E-16
Dy-166
2.16E-15
1.90E-15
1.67E-15
1.58E-15
1.34E-15
1.24E-15
Dy-167
3.38E-14
3.17E-14
2.99E-14
2.84E-14
2.61E-14
2.50E-14
Dy-168
2.41E-14
2.25E-14
2.11E-14
2.01E-14
1.84E-14
1.76E-14
204
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Holmium
Ho-150
1.23E-13
1.17E-13
1.11E-13
1.06E-13
9.76E-14
9.35E-14
Ho-153
6.26E-14
5.90E-14
5.57E-14
5.29E-14
4.87E-14
4.66E-14
Ho-153m
6.50E-14
6.10E-14
5.76E-14
5.48E-14
5.02E-14
4.81E-14
Ho-154
1.17E-13
1.11E-13
1.05E-13
9.98E-14
9.22E-14
8.84E-14
Ho-154m
1.46E-13
1.38E-13
1.30E-13
1.24E-13
1.14E-13
1.09E-13
Ho-155
3.63E-14
3.41E-14
3.21E-14
3.05E-14
2.81E-14
2.69E-14
Ho-156
1.28E-13
1.22E-13
1.15E-13
1.10E-13
1.02E-13
9.82E-14
Ho-157
3.32E-14
3.09E-14
2.88E-14
2.74E-14
2.50E-14
2.39E-14
Ho-159
2.13E-14
1.94E-14
1.79E-14
1.69E-14
1.52E-14
1.46E-14
Ho-160
9.96E-14
9.51E-14
8.97E-14
8.54E-14
7.87E-14
7.53E-14
Ho-161
2.18E-15
1.83E-15
1.56E-15
1.44E-15
1.19E-15
1.08E-15
Ho-162
8.85E-15
8.24E-15
7.64E-15
7.26E-15
6.59E-15
6.26E-15
Ho-162m
3.24E-14
3.07E-14
2.88E-14
2.75E-14
2.53E-14
2.42E-14
Ho-163
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ho-164
1.56E-15
1.36E-15
1.19E-15
1.11E-15
9.53E-16
8.81E-16
Ho-164m
1.74E-15
1.45E-15
1.22E-15
1.13E-15
9.12E-16
8.17E-16
Ho-166
4.17E-15
3.99E-15
3.78E-15
3.63E-15
3.37E-15
3.24E-15
Ho-166m
9.60E-14
9.10E-14
8.58E-14
8.16E-14
7.51E-14
7.18E-14
Ho-167
2.20E-14
2.04E-14
1.90E-14
1.81E-14
1.65E-14
1.58E-14
Ho-168
5.49E-14
5.25E-14
4.97E-14
4.73E-14
4.38E-14
4.19E-14
Ho-168m
2.47E-16
2.07E-16
1.73E-16
1.60E-16
1.30E-16
1.16E-16
Ho-170
1.04E-13
9.92E-14
9.35E-14
8.91E-14
8.24E-14
7.90E-14
Erbium
Er-154
3.35E-15
2.96E-15
2.66E-15
2.49E-15
2.17E-15
2.03E-15
Er-156
2.69E-15
2.30E-15
1.99E-15
1.86E-15
1.57E-15
1.45E-15
Er-159
5.67E-14
5.38E-14
5.09E-14
4.85E-14
4.49E-14
4.30E-14
Er-161
5.80E-14
5.54E-14
5.22E-14
4.97E-14
4.59E-14
4.39E-14
Er-163
1.60E-15
1.35E-15
1.13E-15
1.05E-15
8.57E-16
7.71E-16
Er-165
1.48E-15
1.24E-15
1.04E-15
9.58E-16
7.79E-16
6.98E-16
Er-167m
5.59E-15
5.10E-15
4.67E-15
4.45E-15
4.03E-15
3.87E-15
Er-169
1.80E-16
1.75E-16
1.67E-16
1.61E-16
1.51E-16
1.46E-16
Er-171
2.28E-14
2.11E-14
1.96E-14
1.86E-14
1.70E-14
1.63E-14
Er-172
3.01E-14
2.82E-14
2.65E-14
2.52E-14
2.30E-14
2.20E-14
Er-173
5.12E-14
4.84E-14
4.53E-14
4.32E-14
3.96E-14
3.80E-14
Thulium
Tm-161
7.62E-14
7.22E-14
6.83E-14
6.53E-14
6.05E-14
5.80E-14
Tm-162
1.17E-13
1.12E-13
1.07E-13
1.02E-13
9.56E-14
9.19E-14
Tm-163
7.74E-14
7.39E-14
6.98E-14
6.66E-14
6.18E-14
5.93E-14
Tm-164
4.83E-14
4.58E-14
4.35E-14
4.14E-14
3.83E-14
3.67E-14
Tm-165
3.22E-14
3.00E-14
2.80E-14
2.66E-14
2.43E-14
2.32E-14
Tm-166
1.18E-13
1.13E-13
1.07E-13
1.03E-13
9.57E-14
9.19E-14
Tm-167
7.82E-15
7.03E-15
6.34E-15
6.01E-15
5.35E-15
5.07E-15
Tm-168
7.27E-14
6.88E-14
6.47E-14
6.16E-14
5.66E-14
5.41E-14
Tm-170
1.15E-15
1.10E-15
1.04E-15
9.97E-16
9.25E-16
8.89E-16
Tm-171
3.94E-17
3.53E-17
3.11E-17
2.96E-17
2.53E-17
2.32E-17
205
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Tm-172
3.01E-14
2.90E-14
2.76E-14
2.64E-14
2.47E-14
2.37E-14
Tm-173
2.37E-14
2.22E-14
2.09E-14
1.99E-14
1.82E-14
1.74E-14
Tm-174
1.07E-13
1.01E-13
9.49E-14
9.04E-14
8.33E-14
7.98E-14
Tm-175
6.57E-14
6.25E-14
5.92E-14
5.64E-14
5.21E-14
4.98E-14
Tm-176
1.22E-13
1.17E-13
1.11E-13
1.06E-13
9.89E-14
9.51E-14
Ytterbium
Yb-162
1.40E-14
1.28E-14
1.18E-14
1.12E-14
1.00E-14
9.58E-15
Yb-163
4.35E-14
4.13E-14
3.91E-14
3.73E-14
3.44E-14
3.29E-14
Yb-164
2.42E-15
2.12E-15
1.85E-15
1.74E-15
1.47E-15
1.35E-15
Yb-165
1.86E-14
1.73E-14
1.60E-14
1.53E-14
1.38E-14
1.31E-14
Yb-166
3.68E-15
3.15E-15
2.68E-15
2.52E-15
2.06E-15
1.84E-15
Yb-167
1.40E-14
1.24E-14
1.12E-14
1.06E-14
9.23E-15
8.75E-15
Yb-169
1.71E-14
1.53E-14
1.37E-14
1.30E-14
1.14E-14
1.07E-14
Yb-175
2.55E-15
2.37E-15
2.22E-15
2.11E-15
1.93E-15
1.85E-15
Yb-177
1.29E-14
1.23E-14
1.16E-14
1.11E-14
1.02E-14
9.82E-15
Yb-178
2.72E-15
2.55E-15
2.40E-15
2.29E-15
2.11E-15
2.02E-15
Yb-179
5.98E-14
5.65E-14
5.36E-14
5.09E-14
4.68E-14
4.48E-14
Lutetium
Lu-165
6.63E-14
6.27E-14
5.93E-14
5.65E-14
5.22E-14
5.00E-14
Lu-167
1.01E-13
9.63E-14
9.15E-14
8.76E-14
8.18E-14
7.85E-14
Lu-169
7.76E-14
7.43E-14
7.02E-14
6.71E-14
6.23E-14
5.97E-14
Lu-169m
2.12E-19
1.04E-19
9.20E-20
8.60E-20
2.47E-20
2.13E-20
Lu-170
1.55E-13
1.49E-13
1.42E-13
1.37E-13
1.28E-13
1.24E-13
Lu-171
3.69E-14
3.49E-14
3.28E-14
3.12E-14
2.85E-14
2.72E-14
Lu-171m
1.46E-17
1.27E-17
1.09E-17
1.05E-17
8.36E-18
7.41E-18
Lu-172
1.15E-13
1.11E-13
1.04E-13
9.96E-14
9.22E-14
8.83E-14
Lu-172m
1.26E-19
8.00E-20
6.77E-20
6.23E-20
3.47E-20
3.11E-20
Lu-173
9.27E-15
8.30E-15
7.43E-15
7.05E-15
6.16E-15
5.76E-15
Lu-174
6.02E-15
5.59E-15
5.11E-15
4.87E-15
4.37E-15
4.11E-15
Lu-174m
2.65E-15
2.32E-15
2.01E-15
1.90E-15
1.58E-15
1.44E-15
Lu-176
2.86E-14
2.63E-14
2.43E-14
2.32E-14
2.11E-14
2.02E-14
Lu-176m
2.16E-15
2.04E-15
1.90E-15
1.83E-15
1.67E-15
1.60E-15
Lu-177
2.32E-15
2.12E-15
1.96E-15
1.86E-15
1.68E-15
1.62E-15
Lu-177m
5.80E-14
5.34E-14
4.94E-14
4.70E-14
4.26E-14
4.08E-14
Lu-178
1.03E-14
9.94E-15
9.44E-15
9.04E-15
8.45E-15
8.12E-15
Lu-178m
6.23E-14
5.77E-14
5.38E-14
5.11E-14
4.66E-14
4.45E-14
Lu-179
3.44E-15
3.25E-15
3.06E-15
2.93E-15
2.72E-15
2.62E-15
Lu-180
9.23E-14
8.85E-14
8.38E-14
8.00E-14
7.44E-14
7.14E-14
Lu-181
3.64E-14
3.44E-14
3.24E-14
3.08E-14
2.83E-14
2.71E-14
Hafnium
Hf-167
3.82E-14
3.57E-14
3.36E-14
3.19E-14
2.93E-14
2.80E-14
Hf-169
3.75E-14
3.51E-14
3.31E-14
3.14E-14
2.87E-14
2.74E-14
Hf-170
2.48E-14
2.30E-14
2.15E-14
2.04E-14
1.85E-14
1.76E-14
Hf-172
4.64E-15
4.03E-15
3.51E-15
3.34E-15
2.77E-15
2.53E-15
Hf-173
2.25E-14
2.05E-14
1.89E-14
1.80E-14
1.61E-14
1.54E-14
Hf-174
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
206
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hf-175
2.00E-14
1.85E-14
1.71E-14
1.62E-14
1.47E-14
1.40E-14
Hf-177m
1.34E-13
1.24E-13
1.15E-13
1.09E-13
9.94E-14
9.52E-14
Hf-178m
1.31E-13
1.22E-13
1.15E-13
1.09E-13
9.98E-14
9.55E-14
Hf-179m
5.33E-14
4.93E-14
4.60E-14
4.38E-14
3.97E-14
3.80E-14
Hf-180m
5.77E-14
5.35E-14
5.00E-14
4.75E-14
4.33E-14
4.15E-14
Hf-181
3.14E-14
2.92E-14
2.75E-14
2.62E-14
2.39E-14
2.28E-14
Hf-182
1.41E-14
1.30E-14
1.20E-14
1.15E-14
1.05E-14
1.00E-14
Hf-182m
5.34E-14
5.00E-14
4.69E-14
4.46E-14
4.08E-14
3.90E-14
Hf-183
4.68E-14
4.45E-14
4.20E-14
4.00E-14
3.68E-14
3.51E-14
Hf-184
1.43E-14
1.31E-14
1.22E-14
1.16E-14
1.05E-14
1.01E-14
Tantalum
Ta-170
7.08E-14
6.69E-14
6.34E-14
6.03E-14
5.56E-14
5.32E-14
Ta-172
1.02E-13
9.77E-14
9.24E-14
8.81E-14
8.16E-14
7.82E-14
Ta-173
3.37E-14
3.19E-14
2.99E-14
2.86E-14
2.62E-14
2.50E-14
Ta-174
5.91E-14
5.60E-14
5.29E-14
5.05E-14
4.66E-14
4.47E-14
Ta-175
6.53E-14
6.22E-14
5.87E-14
5.61E-14
5.20E-14
4.98E-14
Ta-176
1.34E-13
1.29E-13
1.22E-13
1.17E-13
1.10E-13
1.06E-13
Ta-177
3.17E-15
2.80E-15
2.46E-15
2.34E-15
1.97E-15
1.81E-15
Ta-178
6.39E-15
5.91E-15
5.41E-15
5.16E-15
4.60E-15
4.33E-15
Ta-178m
6.68E-14
6.17E-14
5.74E-14
5.45E-14
4.95E-14
4.73E-14
Ta-179
1.05E-15
9.08E-16
7.70E-16
7.35E-16
5.90E-16
5.24E-16
Ta-180
2.19E-15
1.91E-15
1.64E-15
1.56E-15
1.28E-15
1.15E-15
Ta-182
7.66E-14
7.36E-14
6.95E-14
6.64E-14
6.15E-14
5.89E-14
Ta-182m
1.46E-14
1.33E-14
1.21E-14
1.16E-14
1.03E-14
9.82E-15
Ta-183
1.69E-14
1.54E-14
1.42E-14
1.35E-14
1.21E-14
1.15E-14
Ta-184
9.42E-14
8.91E-14
8.38E-14
7.97E-14
7.34E-14
7.03E-14
Ta-185
1.10E-14
1.02E-14
9.44E-15
9.04E-15
8.16E-15
7.81E-15
Ta-186
8.83E-14
8.33E-14
7.85E-14
7.47E-14
6.87E-14
6.59E-14
Tungsten
W-177
5.29E-14
4.97E-14
4.66E-14
4.43E-14
4.04E-14
3.86E-14
W-178
6.42E-16
5.60E-16
4.76E-16
4.57E-16
3.65E-16
3.23E-16
W-179
2.18E-15
1.89E-15
1.60E-15
1.53E-15
1.22E-15
1.08E-15
W-179m
2.80E-15
2.52E-15
2.23E-15
2.14E-15
1.84E-15
1.70E-15
W-181
1.71E-15
1.49E-15
1.27E-15
1.22E-15
9.73E-16
8.62E-16
W-185
2.66E-16
2.58E-16
2.47E-16
2.37E-16
2.24E-16
2.16E-16
W-185m
1.31E-15
1.18E-15
1.07E-15
1.03E-15
8.90E-16
8.41E-16
W-187
2.70E-14
2.55E-14
2.41E-14
2.29E-14
2.10E-14
2.00E-14
W-188
2.89E-16
2.75E-16
2.59E-16
2.48E-16
2.30E-16
2.22E-16
W-190
8.77E-15
7.96E-15
7.23E-15
6.96E-15
6.03E-15
5.69E-15
Rhenium
Re-178
1.05E-13
1.00E-13
9.55E-14
9.15E-14
8.54E-14
8.21E-14
Re-179
6.37E-14
6.02E-14
5.68E-14
5.42E-14
5.00E-14
4.79E-14
Re-180
7.09E-14
6.78E-14
6.39E-14
6.09E-14
5.61E-14
5.36E-14
Re-181
4.65E-14
4.38E-14
4.10E-14
3.91E-14
3.57E-14
3.41E-14
Re-182
1.05E-13
9.99E-14
9.38E-14
8.96E-14
8.25E-14
7.90E-14
Re-182m
7.16E-14
6.86E-14
6.47E-14
6.19E-14
5.72E-14
5.47E-14
207
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Re-183
7.87E-15
7.05E-15
6.31E-15
6.04E-15
5.18E-15
4.84E-15
Re-184
5.21E-14
4.97E-14
4.67E-14
4.45E-14
4.09E-14
3.91E-14
Re-184m
2.18E-14
2.05E-14
1.90E-14
1.81E-14
1.65E-14
1.57E-14
Re-186
2.12E-15
1.98E-15
1.85E-15
1.78E-15
1.61E-15
1.54E-15
Re-186m
6.46E-16
5.57E-16
4.76E-16
4.54E-16
3.66E-16
3.28E-16
Re-187
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Re-188
6.59E-15
6.27E-15
5.94E-15
5.69E-15
5.26E-15
5.07E-15
Re-188m
3.28E-15
2.90E-15
2.54E-15
2.44E-15
2.00E-15
1.82E-15
Re-189
4.15E-15
3.87E-15
3.60E-15
3.44E-15
3.15E-15
3.03E-15
Re-190
8.15E-14
7.70E-14
7.27E-14
6.91E-14
6.36E-14
6.09E-14
Re-190m
5.57E-14
5.24E-14
4.94E-14
4.70E-14
4.31E-14
4.13E-14
Osmium
Os-180
6.40E-15
5.88E-15
5.36E-15
5.13E-15
4.49E-15
4.19E-15
Os-181
8.15E-14
7.76E-14
7.32E-14
6.99E-14
6.46E-14
6.18E-14
Os-182
2.46E-14
2.28E-14
2.13E-14
2.03E-14
1.84E-14
1.75E-14
Os-183
3.58E-14
3.33E-14
3.10E-14
2.95E-14
2.67E-14
2.54E-14
Os-183m
5.93E-14
5.70E-14
5.38E-14
5.13E-14
4.75E-14
4.55E-14
Os-185
4.02E-14
3.81E-14
3.59E-14
3.42E-14
3.13E-14
2.99E-14
Os-186
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Os-189m
8.67E-19
4.58E-19
3.90E-19
3.63E-19
1.03E-19
8.95E-20
Os-190m
9.37E-14
8.79E-14
8.30E-14
7.89E-14
7.23E-14
6.92E-14
Os-191
4.23E-15
3.78E-15
3.40E-15
3.27E-15
2.77E-15
2.58E-15
Os-191m
2.62E-16
2.31E-16
1.99E-16
1.93E-16
1.53E-16
1.35E-16
Os-193
4.90E-15
4.58E-15
4.30E-15
4.11E-15
3.73E-15
3.57E-15
Os-194
9.56E-17
7.84E-17
6.57E-17
6.02E-17
4.86E-17
4.41E-17
Os-196
5.77E-15
5.40E-15
5.05E-15
4.82E-15
4.40E-15
4.21E-15
Iridium
Ir-180
1.00E-13
9.46E-14
8.94E-14
8.51E-14
7.82E-14
7.49E-14
Ir-182
8.81E-14
8.33E-14
7.86E-14
7.49E-14
6.89E-14
6.60E-14
Ir-183
7.03E-14
6.70E-14
6.34E-14
6.06E-14
5.62E-14
5.38E-14
Ir-184
1.17E-13
1.11E-13
1.05E-13
1.01E-13
9.30E-14
8.92E-14
Ir-185
5.02E-14
4.78E-14
4.53E-14
4.34E-14
4.03E-14
3.86E-14
Ir-186
9.87E-14
9.37E-14
8.86E-14
8.46E-14
7.82E-14
7.50E-14
Ir-186m
7.45E-14
7.12E-14
6.75E-14
6.45E-14
5.98E-14
5.73E-14
Ir-187
1.86E-14
1.75E-14
1.63E-14
1.56E-14
1.41E-14
1.34E-14
Ir-188
1.26E-13
1.21E-13
1.15E-13
1.11E-13
1.04E-13
9.99E-14
Ir-189
3.75E-15
3.37E-15
2.97E-15
2.86E-15
2.40E-15
2.19E-15
Ir-190
8.65E-14
8.12E-14
7.65E-14
7.28E-14
6.66E-14
6.37E-14
Ir-190m
9.24E-19
5.12E-19
4.27E-19
3.95E-19
1.15E-19
1.00E-19
Ir-190n
2.60E-15
2.31E-15
2.01E-15
1.95E-15
1.58E-15
1.42E-15
Ir-191m
3.78E-15
3.38E-15
3.04E-15
2.92E-15
2.47E-15
2.30E-15
Ir-192
4.87E-14
4.54E-14
4.26E-14
4.05E-14
3.71E-14
3.56E-14
Ir-192m
6.48E-18
4.84E-18
4.27E-18
4.02E-18
2.79E-18
2.61E-18
Ir-192n
8.09E-17
7.50E-17
7.13E-17
7.03E-17
6.43E-17
6.26E-17
Ir-193m
1.55E-17
1.35E-17
1.17E-17
1.13E-17
8.85E-18
7.86E-18
Ir-194
8.66E-15
8.26E-15
7.81E-15
7.47E-15
6.95E-15
6.68E-15
208
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ir-194m
1.38E-13
1.30E-13
1.23E-13
1.17E-13
1.07E-13
1.02E-13
Ir-195
3.84E-15
3.51E-15
3.18E-15
3.06E-15
2.64E-15
2.46E-15
Ir-195m
2.23E-14
2.08E-14
1.95E-14
1.85E-14
1.69E-14
1.61E-14
Ir-196
1.90E-14
1.81E-14
1.72E-14
1.64E-14
1.52E-14
1.46E-14
Ir-196m
1.46E-13
1.38E-13
1.30E-13
1.24E-13
1.14E-13
1.09E-13
Platinum
Pt-184
4.08E-14
3.79E-14
3.52E-14
3.36E-14
3.01E-14
2.86E-14
Pt-186
3.95E-14
3.72E-14
3.50E-14
3.33E-14
3.04E-14
2.90E-14
Pt-187
3.55E-14
3.33E-14
3.11E-14
2.96E-14
2.69E-14
2.56E-14
Pt-188
1.11E-14
1.01E-14
9.23E-15
8.85E-15
7.78E-15
7.34E-15
Pt-189
2.74E-14
2.57E-14
2.40E-14
2.29E-14
2.07E-14
1.96E-14
Pt-190
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pt-191
1.60E-14
1.48E-14
1.36E-14
1.30E-14
1.15E-14
1.09E-14
Pt-193
2.17E-18
1.24E-18
1.02E-18
9.40E-19
2.83E-19
2.46E-19
Pt-193m
5.09E-16
4.57E-16
3.99E-16
3.90E-16
3.15E-16
2.83E-16
Pt-195m
3.49E-15
3.11E-15
2.74E-15
2.64E-15
2.16E-15
1.97E-15
Pt-197
1.74E-15
1.60E-15
1.46E-15
1.41E-15
1.24E-15
1.16E-15
Pt-197m
4.43E-15
4.07E-15
3.71E-15
3.57E-15
3.13E-15
2.94E-15
Pt-199
1.36E-14
1.29E-14
1.22E-14
1.16E-14
1.07E-14
1.02E-14
Pt-200
3.52E-15
3.22E-15
2.93E-15
2.81E-15
2.46E-15
2.31E-15
Pt-202
2.47E-15
2.40E-15
2.29E-15
2.21E-15
2.08E-15
2.02E-15
Gold
Au-186
9.39E-14
8.89E-14
8.40E-14
8.01E-14
7.39E-14
7.08E-14
Au-187
6.33E-14
6.05E-14
5.73E-14
5.49E-14
5.10E-14
4.88E-14
Au-190
1.45E-13
1.38E-13
1.32E-13
1.27E-13
1.19E-13
1.15E-13
Au-191
3.41E-14
3.19E-14
2.98E-14
2.84E-14
2.58E-14
2.45E-14
Au-192
1.17E-13
1.12E-13
1.06E-13
1.02E-13
9.54E-14
9.18E-14
Au-193
8.84E-15
8.06E-15
7.30E-15
7.01E-15
6.09E-15
5.70E-15
Au-193m
1.14E-14
1.05E-14
9.67E-15
9.21E-15
8.37E-15
8.01E-15
Au-194
6.15E-14
5.86E-14
5.54E-14
5.30E-14
4.92E-14
4.72E-14
Au-195
3.84E-15
3.42E-15
2.99E-15
2.89E-15
2.34E-15
2.11E-15
Au-195m
1.16E-14
1.07E-14
9.84E-15
9.37E-15
8.52E-15
8.15E-15
Au-196
2.73E-14
2.53E-14
2.36E-14
2.24E-14
2.03E-14
1.94E-14
Au-196m
1.34E-14
1.22E-14
1.12E-14
1.07E-14
9.42E-15
8.96E-15
Au-198
2.47E-14
2.32E-14
2.19E-14
2.08E-14
1.91E-14
1.83E-14
Au-198m
3.06E-14
2.79E-14
2.56E-14
2.44E-14
2.19E-14
2.09E-14
Au-199
5.60E-15
5.11E-15
4.72E-15
4.53E-15
4.02E-15
3.86E-15
Au-200
1.92E-14
1.84E-14
1.75E-14
1.67E-14
1.56E-14
1.50E-14
Au-200m
1.18E-13
1.11E-13
1.04E-13
9.92E-14
9.10E-14
8.71E-14
Au-201
3.39E-15
3.23E-15
3.07E-15
2.93E-15
2.72E-15
2.61E-15
Au-202
1.50E-14
1.44E-14
1.37E-14
1.31E-14
1.22E-14
1.17E-14
Mercury
Hg-190
1.08E-14
9.78E-15
8.92E-15
8.59E-15
7.42E-15
7.02E-15
Hg-191m
8.78E-14
8.31E-14
7.83E-14
7.47E-14
6.89E-14
6.59E-14
Hg-192
1.51E-14
1.39E-14
1.27E-14
1.21E-14
1.07E-14
1.02E-14
Hg-193
4.90E-14
4.67E-14
4.41E-14
4.21E-14
3.89E-14
3.72E-14
209
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hg-193m
6.03E-14
5.74E-14
5.42E-14
5.18E-14
4.78E-14
4.57E-14
Hg-194
3.01E-18
1.87E-18
1.49E-18
1.36E-18
4.43E-19
3.88E-19
Hg-195
1.09E-14
1.02E-14
9.48E-15
9.08E-15
8.11E-15
7.64E-15
Hg-195m
1.13E-14
1.05E-14
9.69E-15
9.25E-15
8.33E-15
7.92E-15
Hg-197
3.35E-15
3.00E-15
2.61E-15
2.55E-15
2.05E-15
1.83E-15
Hg-197m
5.23E-15
4.73E-15
4.33E-15
4.15E-15
3.62E-15
3.44E-15
Hg-199m
1.03E-14
9.43E-15
8.70E-15
8.36E-15
7.38E-15
7.03E-15
Hg-203
1.41E-14
1.30E-14
1.21E-14
1.15E-14
1.05E-14
1.01E-14
Hg-205
2.23E-15
2.15E-15
2.05E-15
1.97E-15
1.85E-15
1.78E-15
Hg-206
8.41E-15
7.86E-15
7.34E-15
7.00E-15
6.43E-15
6.16E-15
Hg-207
1.63E-13
1.56E-13
1.49E-13
1.43E-13
1.33E-13
1.28E-13
Thallium
Tl-190
8.51E-14
8.04E-14
7.62E-14
7.26E-14
6.69E-14
6.40E-14
Tl-190m
1.49E-13
1.41E-13
1.33E-13
1.27E-13
1.17E-13
1.12E-13
Tl-194
5.64E-14
5.32E-14
5.03E-14
4.78E-14
4.39E-14
4.19E-14
Tl-194m
1.49E-13
1.41E-13
1.34E-13
1.27E-13
1.17E-13
1.12E-13
Tl-195
7.26E-14
6.96E-14
6.61E-14
6.33E-14
5.89E-14
5.65E-14
Tl-196
1.12E-13
1.07E-13
1.02E-13
9.76E-14
9.08E-14
8.72E-14
Tl-197
2.64E-14
2.49E-14
2.34E-14
2.23E-14
2.04E-14
1.94E-14
Tl-198
1.20E-13
1.15E-13
1.09E-13
1.05E-13
9.76E-14
9.37E-14
Tl-198m
7.12E-14
6.69E-14
6.31E-14
6.00E-14
5.49E-14
5.24E-14
Tl-199
1.40E-14
1.29E-14
1.19E-14
1.14E-14
1.02E-14
9.62E-15
Tl-200
7.73E-14
7.36E-14
6.95E-14
6.64E-14
6.13E-14
5.87E-14
Tl-201
4.55E-15
4.09E-15
3.63E-15
3.52E-15
2.92E-15
2.67E-15
Tl-202
2.67E-14
2.49E-14
2.34E-14
2.23E-14
2.02E-14
1.92E-14
Tl-204
7.19E-16
6.94E-16
6.60E-16
6.36E-16
5.94E-16
5.72E-16
Tl-206
1.93E-15
1.88E-15
1.79E-15
1.73E-15
1.63E-15
1.58E-15
Tl-206m
1.43E-13
1.36E-13
1.28E-13
1.22E-13
1.12E-13
1.07E-13
Tl-207
1.87E-15
1.81E-15
1.73E-15
1.66E-15
1.57E-15
1.52E-15
Tl-208
2.07E-13
2.00E-13
1.92E-13
1.84E-13
1.74E-13
1.68E-13
Tl-209
1.31E-13
1.25E-13
1.19E-13
1.14E-13
1.06E-13
1.02E-13
Tl-210
1.71E-13
1.65E-13
1.56E-13
1.49E-13
1.40E-13
1.34E-13
Lead
Pb-194
6.37E-14
6.06E-14
5.72E-14
5.47E-14
5.05E-14
4.83E-14
Pb-195m
9.77E-14
9.24E-14
8.71E-14
8.30E-14
7.62E-14
7.28E-14
Pb-196
2.83E-14
2.63E-14
2.45E-14
2.34E-14
2.11E-14
2.01E-14
Pb-197
9.11E-14
8.71E-14
8.26E-14
7.90E-14
7.33E-14
7.03E-14
Pb-197m
6.88E-14
6.49E-14
6.11E-14
5.82E-14
5.34E-14
5.10E-14
Pb-198
2.50E-14
2.32E-14
2.16E-14
2.06E-14
1.86E-14
1.77E-14
Pb-199
6.15E-14
5.86E-14
5.54E-14
5.30E-14
4.91E-14
4.70E-14
Pb-200
1.13E-14
1.03E-14
9.36E-15
9.00E-15
7.84E-15
7.40E-15
Pb-201
4.41E-14
4.15E-14
3.89E-14
3.71E-14
3.39E-14
3.24E-14
Pb-201m
2.15E-14
2.03E-14
1.92E-14
1.83E-14
1.68E-14
1.60E-14
Pb-202
3.91E-18
2.12E-18
1.78E-18
1.65E-18
4.83E-19
4.19E-19
Pb-202m
1.18E-13
1.13E-13
1.06E-13
1.01E-13
9.35E-14
8.95E-14
Pb-203
1.78E-14
1.64E-14
1.51E-14
1.44E-14
1.29E-14
1.23E-14
210
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Pb-204m
1.23E-13
1.17E-13
1.11E-13
1.05E-13
9.75E-14
9.33E-14
Pb-205
3.96E-18
2.14E-18
1.81E-18
1.67E-18
4.90E-19
4.25E-19
Pb-209
5.04E-16
4.90E-16
4.68E-16
4.51E-16
4.25E-16
4.12E-16
Pb-210
8.57E-17
6.97E-17
5.80E-17
5.31E-17
4.17E-17
3.75E-17
Pb-211
5.35E-15
5.11E-15
4.84E-15
4.62E-15
4.29E-15
4.12E-15
Pb-212
8.52E-15
7.82E-15
7.17E-15
6.84E-15
6.16E-15
5.87E-15
Pb-214
1.54E-14
1.43E-14
1.33E-14
1.27E-14
1.16E-14
1.11E-14
Bismuth
Bi-197
1.02E-13
9.73E-14
9.21E-14
8.79E-14
8.14E-14
7.80E-14
Bi-200
1.44E-13
1.37E-13
1.29E-13
1.23E-13
1.13E-13
1.08E-13
Bi-201
1.03E-13
9.89E-14
9.38E-14
8.97E-14
8.34E-14
8.00E-14
Bi-202
1.64E-13
1.56E-13
1.48E-13
1.41E-13
1.30E-13
1.25E-13
Bi-203
1.42E-13
1.37E-13
1.30E-13
1.24E-13
1.16E-13
1.11E-13
Bi-204
1.73E-13
1.66E-13
1.57E-13
1.50E-13
1.38E-13
1.33E-13
Bi-205
1.01E-13
9.68E-14
9.20E-14
8.81E-14
8.21E-14
7.88E-14
Bi-206
1.94E-13
1.86E-13
1.76E-13
1.68E-13
1.55E-13
1.49E-13
Bi-207
9.08E-14
8.68E-14
8.21E-14
7.83E-14
7.23E-14
6.92E-14
Bi-208
1.63E-13
1.57E-13
1.51E-13
1.46E-13
1.39E-13
1.34E-13
Bi-210
1.26E-15
1.22E-15
1.17E-15
1.13E-15
1.06E-15
1.03E-15
Bi-210m
1.54E-14
1.43E-14
1.32E-14
1.26E-14
1.15E-14
1.10E-14
Bi-211
2.78E-15
2.58E-15
2.42E-15
2.30E-15
2.10E-15
2.01E-15
Bi-212
8.10E-15
7.78E-15
7.40E-15
7.07E-15
6.59E-15
6.33E-15
Bi-212n
1.91E-15
1.85E-15
1.77E-15
1.71E-15
1.61E-15
1.56E-15
Bi-213
8.96E-15
8.44E-15
7.99E-15
7.61E-15
7.00E-15
6.71E-15
Bi-214
9.14E-14
8.79E-14
8.38E-14
8.02E-14
7.50E-14
7.21E-14
Bi-215
1.73E-14
1.63E-14
1.53E-14
1.46E-14
1.35E-14
1.29E-14
Bi-216
4.97E-14
4.69E-14
4.45E-14
4.23E-14
3.90E-14
3.74E-14
Polonium
Po-203
9.71E-14
9.30E-14
8.79E-14
8.39E-14
7.77E-14
7.45E-14
Po-204
6.76E-14
6.41E-14
6.02E-14
5.74E-14
5.25E-14
5.01E-14
Po-205
9.38E-14
8.99E-14
8.50E-14
8.12E-14
7.51E-14
7.19E-14
Po-206
6.98E-14
6.63E-14
6.24E-14
5.94E-14
5.46E-14
5.22E-14
Po-207
7.57E-14
7.25E-14
6.84E-14
6.52E-14
6.02E-14
5.76E-14
Po-208
1.24E-18
1.17E-18
1.10E-18
1.04E-18
9.55E-19
9.11E-19
Po-209
3.62E-16
3.44E-16
3.22E-16
3.06E-16
2.81E-16
2.69E-16
Po-210
5.77E-19
5.53E-19
5.23E-19
4.98E-19
4.60E-19
4.40E-19
Po-211
4.85E-16
4.63E-16
4.38E-16
4.17E-16
3.85E-16
3.68E-16
Po-212
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Po-212m
4.85E-15
4.68E-15
4.51E-15
4.34E-15
4.11E-15
3.96E-15
Po-213
2.22E-18
2.13E-18
2.01E-18
1.92E-18
1.77E-18
1.69E-18
Po-214
4.93E-18
4.72E-18
4.46E-18
4.25E-18
3.92E-18
3.75E-18
Po-215
1.04E-17
9.74E-18
9.22E-18
8.75E-18
8.02E-18
7.67E-18
Po-216
9.09E-19
8.71E-19
8.23E-19
7.83E-19
7.24E-19
6.93E-19
Po-218
2.06E-20
2.00E-20
1.90E-20
1.83E-20
1.71E-20
1.65E-20
Astatine
At-204
1.39E-13
1.31E-13
1.24E-13
1.18E-13
1.08E-13
1.04E-13
211
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
At-205
6.84E-14
6.50E-14
6.15E-14
5.87E-14
5.41E-14
5.18E-14
At-206
1.48E-13
1.40E-13
1.33E-13
1.26E-13
1.17E-13
1.12E-13
At-207
1.20E-13
1.14E-13
1.08E-13
1.04E-13
9.61E-14
9.21E-14
At-208
1.80E-13
1.72E-13
1.63E-13
1.56E-13
1.44E-13
1.38E-13
At-209
1.35E-13
1.28E-13
1.21E-13
1.15E-13
1.06E-13
1.01E-13
At-210
1.77E-13
1.70E-13
1.61E-13
1.54E-13
1.44E-13
1.38E-13
At-211
1.80E-15
1.61E-15
1.44E-15
1.38E-15
1.15E-15
1.06E-15
At-215
1.01E-17
9.42E-18
8.87E-18
8.43E-18
7.70E-18
7.37E-18
At-216
1.33E-16
1.20E-16
1.09E-16
1.04E-16
8.99E-17
8.41E-17
At-217
1.43E-17
1.32E-17
1.23E-17
1.17E-17
1.06E-17
1.01E-17
At-218
4.83E-18
4.69E-18
4.48E-18
4.32E-18
4.07E-18
3.94E-18
At-219
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
At-220
3.20E-14
3.00E-14
2.81E-14
2.68E-14
2.46E-14
2.37E-14
Radon
Rn-207
5.87E-14
5.55E-14
5.23E-14
4.98E-14
4.57E-14
4.37E-14
Rn-209
7.10E-14
6.74E-14
6.38E-14
6.09E-14
5.62E-14
5.39E-14
Rn-210
3.56E-15
3.37E-15
3.17E-15
3.02E-15
2.77E-15
2.65E-15
Rn-211
1.11E-13
1.06E-13
1.01E-13
9.59E-14
8.88E-14
8.51E-14
Rn-212
2.00E-17
1.91E-17
1.81E-17
1.72E-17
1.58E-17
1.51E-17
Rn-215
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-216
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-217
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-218
4.48E-17
4.24E-17
4.02E-17
3.82E-17
3.51E-17
3.36E-17
Rn-219
3.46E-15
3.21E-15
3.00E-15
2.85E-15
2.61E-15
2.50E-15
Rn-220
3.71E-17
3.50E-17
3.32E-17
3.16E-17
2.90E-17
2.77E-17
Rn-222
2.30E-17
2.16E-17
2.05E-17
1.95E-17
1.79E-17
1.71E-17
Rn-223
2.20E-14
2.08E-14
1.97E-14
1.87E-14
1.72E-14
1.65E-14
Francium
Fr-212
6.78E-14
6.48E-14
6.12E-14
5.84E-14
5.41E-14
5.19E-14
Fr-219
2.10E-16
1.96E-16
1.84E-16
1.75E-16
1.60E-16
1.53E-16
Fr-220
5.05E-16
4.52E-16
4.09E-16
3.91E-16
3.36E-16
3.16E-16
Fr-221
1.72E-15
1.58E-15
1.45E-15
1.38E-15
1.25E-15
1.20E-15
Fr-222
1.28E-14
1.20E-14
1.11E-14
1.06E-14
9.76E-15
9.40E-15
Fr-223
3.86E-15
3.54E-15
3.24E-15
3.09E-15
2.76E-15
2.62E-15
Fr-224
3.63E-14
3.46E-14
3.28E-14
3.13E-14
2.91E-14
2.80E-14
Fr-227
2.89E-14
2.70E-14
2.54E-14
2.42E-14
2.21E-14
2.11E-14
Radium
Ra-219
9.97E-15
9.23E-15
8.59E-15
8.17E-15
7.45E-15
7.12E-15
Ra-220
2.76E-16
2.59E-16
2.45E-16
2.33E-16
2.13E-16
2.04E-16
Ra-221
2.06E-15
1.86E-15
1.72E-15
1.64E-15
1.45E-15
1.39E-15
Ra-222
5.45E-16
5.05E-16
4.71E-16
4.48E-16
4.10E-16
3.93E-16
Ra-223
7.94E-15
7.25E-15
6.67E-15
6.36E-15
5.67E-15
5.40E-15
Ra-224
6.15E-16
5.66E-16
5.22E-16
4.97E-16
4.53E-16
4.36E-16
Ra-225
5.64E-16
4.76E-16
4.11E-16
3.82E-16
3.22E-16
3.00E-16
Ra-226
4.31E-16
3.94E-16
3.63E-16
3.46E-16
3.12E-16
3.00E-16
Ra-227
9.54E-15
8.89E-15
8.34E-15
7.93E-15
7.27E-15
6.97E-15
212
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ra-228
1.15E-17
8.08E-18
6.71E-18
5.92E-18
3.02E-18
2.71E-18
Ra-230
4.91E-15
4.53E-15
4.22E-15
4.02E-15
3.62E-15
3.45E-15
Actinium
Ac-223
1.00E-15
9.20E-16
8.53E-16
8.11E-16
7.30E-16
6.98E-16
Ac-224
1.31E-14
1.19E-14
1.09E-14
1.04E-14
9.23E-15
8.85E-15
Ac-225
8.06E-16
7.25E-16
6.66E-16
6.33E-16
5.57E-16
5.32E-16
Ac-226
8.42E-15
7.74E-15
7.16E-15
6.83E-15
6.20E-15
5.96E-15
Ac-227
8.16E-18
6.77E-18
6.04E-18
5.64E-18
4.49E-18
4.22E-18
Ac-228
5.26E-14
5.04E-14
4.77E-14
4.55E-14
4.22E-14
4.04E-14
Ac-230
3.63E-14
3.49E-14
3.33E-14
3.19E-14
2.99E-14
2.87E-14
Ac-231
2.65E-14
2.45E-14
2.28E-14
2.17E-14
1.98E-14
1.90E-14
Ac-232
7.33E-14
7.06E-14
6.75E-14
6.47E-14
6.08E-14
5.85E-14
Ac-233
3.28E-14
3.09E-14
2.94E-14
2.80E-14
2.58E-14
2.47E-14
Thorium
Th-223
4.00E-15
3.57E-15
3.26E-15
3.09E-15
2.69E-15
2.56E-15
Th-224
1.35E-15
1.23E-15
1.14E-15
1.09E-15
9.83E-16
9.47E-16
Th-226
4.59E-16
4.12E-16
3.80E-16
3.59E-16
3.20E-16
3.09E-16
Th-227
7.19E-15
6.59E-15
6.08E-15
5.77E-15
5.24E-15
5.01E-15
Th-228
1.20E-16
1.07E-16
9.65E-17
9.20E-17
7.92E-17
7.49E-17
Th-229
4.78E-15
4.27E-15
3.89E-15
3.69E-15
3.22E-15
3.07E-15
Th-230
2.43E-17
2.08E-17
1.83E-17
1.75E-17
1.37E-17
1.25E-17
Th-231
8.09E-16
7.07E-16
6.38E-16
6.06E-16
5.12E-16
4.79E-16
Th-232
1.40E-17
1.16E-17
9.91E-18
9.40E-18
6.88E-18
6.19E-18
Th-233
3.34E-15
3.16E-15
2.99E-15
2.86E-15
2.64E-15
2.53E-15
Th-234
5.16E-16
4.58E-16
4.12E-16
3.91E-16
3.33E-16
3.11E-16
Th-235
5.71E-15
5.47E-15
5.20E-15
4.97E-15
4.63E-15
4.45E-15
Th-236
3.08E-15
2.90E-15
2.74E-15
2.61E-15
2.41E-15
2.32E-15
Protactinium
Pa-227
1.06E-15
9.33E-16
8.40E-16
7.95E-16
6.77E-16
6.36E-16
Pa-228
8.06E-14
7.67E-14
7.25E-14
6.91E-14
6.39E-14
6.13E-14
Pa-229
3.45E-15
3.04E-15
2.78E-15
2.61E-15
2.27E-15
2.17E-15
Pa-230
3.92E-14
3.73E-14
3.52E-14
3.34E-14
3.08E-14
2.95E-14
Pa-231
2.02E-15
1.84E-15
1.70E-15
1.62E-15
1.46E-15
1.40E-15
Pa-232
5.55E-14
5.31E-14
5.02E-14
4.78E-14
4.41E-14
4.22E-14
Pa-233
1.28E-14
1.18E-14
1.09E-14
1.04E-14
9.44E-15
9.06E-15
Pa-234
8.71E-14
8.30E-14
7.85E-14
7.47E-14
6.90E-14
6.62E-14
Pa-234m
4.25E-15
4.12E-15
3.93E-15
3.77E-15
3.55E-15
3.42E-15
Pa-235
1.64E-15
1.59E-15
1.52E-15
1.47E-15
1.39E-15
1.34E-15
Pa-236
5.74E-14
5.50E-14
5.24E-14
5.01E-14
4.68E-14
4.49E-14
Pa-237
3.82E-14
3.65E-14
3.46E-14
3.29E-14
3.04E-14
2.91E-14
Uranium
U-227
6.76E-15
6.15E-15
5.67E-15
5.37E-15
4.84E-15
4.65E-15
U-228
2.31E-16
2.06E-16
1.89E-16
1.78E-16
1.57E-16
1.50E-16
U-230
6.82E-17
6.00E-17
5.40E-17
5.16E-17
4.31E-17
4.04E-17
U-231
3.98E-15
3.49E-15
3.18E-15
2.99E-15
2.59E-15
2.47E-15
U-232
2.03E-17
1.63E-17
1.43E-17
1.33E-17
9.92E-18
9.20E-18
213
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
U-233
1.75E-17
1.48E-17
1.33E-17
1.24E-17
1.02E-17
9.70E-18
U-234
1.34E-17
1.03E-17
8.85E-18
8.06E-18
5.59E-18
5.15E-18
U-235
9.57E-15
8.72E-15
8.05E-15
7.68E-15
6.91E-15
6.67E-15
U-235m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
U-236
9.60E-18
7.01E-18
5.96E-18
5.34E-18
3.38E-18
3.08E-18
U-237
7.65E-15
6.86E-15
6.26E-15
5.93E-15
5.24E-15
5.01E-15
U-238
7.88E-18
5.82E-18
4.98E-18
4.48E-18
2.90E-18
2.65E-18
U-239
3.81E-15
3.55E-15
3.24E-15
3.13E-15
2.74E-15
2.56E-15
U-240
4.52E-16
4.10E-16
3.81E-16
3.60E-16
3.23E-16
3.11E-16
U-242
3.53E-15
3.33E-15
3.13E-15
2.99E-15
2.74E-15
2.61E-15
Neptunium
Np-232
7.03E-14
6.67E-14
6.28E-14
5.97E-14
5.50E-14
5.27E-14
Np-233
4.95E-15
4.40E-15
4.05E-15
3.79E-15
3.35E-15
3.23E-15
Np-234
6.60E-14
6.34E-14
6.03E-14
5.77E-14
5.39E-14
5.18E-14
Np-235
5.69E-17
4.45E-17
3.94E-17
3.60E-17
2.69E-17
2.53E-17
Np-236
8.07E-15
7.20E-15
6.65E-15
6.29E-15
5.56E-15
5.37E-15
Np-236m
2.89E-15
2.59E-15
2.40E-15
2.25E-15
2.01E-15
1.93E-15
Np-237
1.29E-15
1.13E-15
1.02E-15
9.61E-16
8.17E-16
7.70E-16
Np-238
3.53E-14
3.40E-14
3.22E-14
3.07E-14
2.85E-14
2.73E-14
Np-239
1.06E-14
9.57E-15
8.85E-15
8.36E-15
7.53E-15
7.26E-15
Np-240
6.26E-14
5.96E-14
5.63E-14
5.36E-14
4.94E-14
4.73E-14
Np-240m
2.13E-14
2.03E-14
1.93E-14
1.84E-14
1.70E-14
1.63E-14
Np-241
3.52E-15
3.26E-15
3.06E-15
2.91E-15
2.66E-15
2.57E-15
Np-242
1.97E-14
1.89E-14
1.81E-14
1.73E-14
1.62E-14
1.56E-14
Np-242m
5.56E-14
5.31E-14
5.02E-14
4.78E-14
4.41E-14
4.23E-14
Plutonium
Pu-232
3.43E-15
3.02E-15
2.78E-15
2.60E-15
2.29E-15
2.22E-15
Pu-234
3.71E-15
3.27E-15
3.01E-15
2.82E-15
2.48E-15
2.39E-15
Pu-235
5.07E-15
4.51E-15
4.16E-15
3.90E-15
3.45E-15
3.32E-15
Pu-236
1.19E-17
8.31E-18
7.10E-18
6.27E-18
3.76E-18
3.38E-18
Pu-237
2.66E-15
2.34E-15
2.15E-15
2.01E-15
1.77E-15
1.70E-15
Pu-238
1.00E-17
6.83E-18
5.80E-18
5.08E-18
2.87E-18
2.55E-18
Pu-239
7.55E-18
5.89E-18
5.21E-18
4.76E-18
3.54E-18
3.30E-18
Pu-240
9.65E-18
6.60E-18
5.62E-18
4.93E-18
2.82E-18
2.52E-18
Pu-241
1.57E-19
1.44E-19
1.34E-19
1.27E-19
1.14E-19
1.10E-19
Pu-242
1.29E-17
1.01E-17
9.09E-18
8.33E-18
6.28E-18
5.87E-18
Pu-243
1.65E-15
1.50E-15
1.37E-15
1.31E-15
1.14E-15
1.08E-15
Pu-244
1.26E-15
1.21E-15
1.16E-15
1.11E-15
1.04E-15
9.98E-16
Pu-245
2.44E-14
2.30E-14
2.17E-14
2.06E-14
1.90E-14
1.82E-14
Pu-246
7.79E-15
7.01E-15
6.43E-15
6.08E-15
5.44E-15
5.24E-15
Americium
Am-237
2.14E-14
1.97E-14
1.83E-14
1.74E-14
1.58E-14
1.52E-14
Am-238
5.31E-14
5.07E-14
4.79E-14
4.56E-14
4.21E-14
4.04E-14
Am-239
1.34E-14
1.21E-14
1.11E-14
1.05E-14
9.39E-15
9.06E-15
Am-240
6.08E-14
5.82E-14
5.50E-14
5.23E-14
4.84E-14
4.64E-14
Am-241
1.01E-15
8.75E-16
7.44E-16
7.14E-16
5.65E-16
5.00E-16
214
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Am-242
1.20E-15
1.09E-15
1.02E-15
9.62E-16
8.67E-16
8.38E-16
Am-242m
4.38E-17
3.18E-17
2.80E-17
2.51E-17
1.75E-17
1.60E-17
Am-243
2.70E-15
2.41E-15
2.11E-15
2.05E-15
1.65E-15
1.48E-15
Am-244
4.69E-14
4.48E-14
4.23E-14
4.03E-14
3.71E-14
3.56E-14
Am-244m
2.63E-15
2.54E-15
2.42E-15
2.32E-15
2.18E-15
2.10E-15
Am-245
2.57E-15
2.38E-15
2.22E-15
2.11E-15
1.93E-15
1.87E-15
Am-246
4.42E-14
4.18E-14
3.94E-14
3.75E-14
3.45E-14
3.30E-14
Am-246m
5.97E-14
5.75E-14
5.44E-14
5.19E-14
4.82E-14
4.62E-14
Am-247
9.32E-15
8.57E-15
7.99E-15
7.58E-15
6.91E-15
6.67E-15
Curium
Cm-238
4.50E-15
3.98E-15
3.68E-15
3.45E-15
3.05E-15
2.95E-15
Cm-239
1.48E-14
1.34E-14
1.24E-14
1.17E-14
1.05E-14
1.02E-14
Cm-240
1.27E-17
8.55E-18
7.37E-18
6.45E-18
3.83E-18
3.41E-18
Cm-241
2.88E-14
2.67E-14
2.52E-14
2.39E-14
2.17E-14
2.08E-14
Cm-242
1.11E-17
7.44E-18
6.40E-18
5.59E-18
3.26E-18
2.89E-18
Cm-243
7.51E-15
6.80E-15
6.28E-15
5.94E-15
5.35E-15
5.16E-15
Cm-244
1.04E-17
7.19E-18
6.27E-18
5.54E-18
3.50E-18
3.16E-18
Cm-245
5.85E-15
5.20E-15
4.80E-15
4.51E-15
4.00E-15
3.87E-15
Cm-246
2.35E-16
2.23E-16
2.12E-16
2.03E-16
1.89E-16
1.82E-16
Cm-247
1.85E-14
1.73E-14
1.63E-14
1.55E-14
1.42E-14
1.36E-14
Cm-248
8.30E-14
7.98E-14
7.61E-14
7.29E-14
6.84E-14
6.58E-14
Cm-249
1.92E-15
1.83E-15
1.74E-15
1.66E-15
1.55E-15
1.49E-15
Cm-250
8.47E-13
8.14E-13
7.77E-13
7.44E-13
6.98E-13
6.72E-13
Cm-251
7.94E-15
7.51E-15
7.12E-15
6.78E-15
6.25E-15
6.00E-15
Berkelium
Bk-245
1.32E-14
1.19E-14
1.10E-14
1.04E-14
9.34E-15
9.03E-15
Bk-246
4.99E-14
4.76E-14
4.49E-14
4.27E-14
3.94E-14
3.78E-14
Bk-247
8.36E-15
7.59E-15
6.97E-15
6.62E-15
5.92E-15
5.65E-15
Bk-248m
3.54E-15
3.26E-15
3.07E-15
2.91E-15
2.64E-15
2.55E-15
Bk-249
2.32E-17
2.24E-17
2.12E-17
2.02E-17
1.88E-17
1.80E-17
Bk-250
5.41E-14
5.22E-14
4.93E-14
4.70E-14
4.36E-14
4.18E-14
Bk-251
5.75E-15
5.20E-15
4.84E-15
4.59E-15
4.12E-15
3.99E-15
Californium
Cf-244
1.24E-17
8.05E-18
6.94E-18
6.04E-18
3.49E-18
3.05E-18
Cf-246
1.12E-17
7.95E-18
7.04E-18
6.31E-18
4.36E-18
3.99E-18
Cf-247
5.23E-15
4.64E-15
4.31E-15
4.05E-15
3.59E-15
3.47E-15
Cf-248
3.15E-17
2.69E-17
2.50E-17
2.34E-17
2.01E-17
1.91E-17
Cf-249
1.92E-14
1.79E-14
1.68E-14
1.59E-14
1.46E-14
1.40E-14
Cf-250
6.24E-16
5.97E-16
5.69E-16
5.45E-16
5.09E-16
4.90E-16
Cf-251
6.88E-15
6.20E-15
5.73E-15
5.43E-15
4.86E-15
4.70E-15
Cf-252
2.87E-14
2.76E-14
2.63E-14
2.52E-14
2.37E-14
2.28E-14
Cf-253
1.48E-16
1.32E-16
1.22E-16
1.16E-16
1.03E-16
9.78E-17
Cf-254
1.07E-12
1.03E-12
9.79E-13
9.38E-13
8.79E-13
8.46E-13
Cf-255
5.79E-16
5.63E-16
5.38E-16
5.18E-16
4.89E-16
4.73E-16
Einsteinium
Es-249
2.39E-14
2.22E-14
2.09E-14
1.98E-14
1.81E-14
1.73E-14
215
-------�
Table 4-6. Reference person effective dose rate coefficients for air submersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Es-250
6.98E-14
6.57E-14
6.18E-14
5.87E-14
5.38E-14
5.16E-14
Es-250m
3.25E-14
3.09E-14
2.92E-14
2.78E-14
2.56E-14
2.46E-14
Es-251
5.22E-15
4.64E-15
4.30E-15
4.06E-15
3.59E-15
3.48E-15
Es-253
2.22E-17
1.96E-17
1.82E-17
1.71E-17
1.50E-17
1.43E-17
Es-254
2.59E-16
2.08E-16
1.84E-16
1.71E-16
1.33E-16
1.22E-16
Es-254m
2.83E-14
2.69E-14
2.55E-14
2.43E-14
2.23E-14
2.14E-14
Es-255
1.57E-16
1.52E-16
1.45E-16
1.39E-16
1.30E-16
1.26E-16
Es-256
2.10E-15
2.03E-15
1.94E-15
1.87E-15
1.76E-15
1.70E-15
Fermium
Fm-251
8.83E-15
8.08E-15
7.56E-15
7.16E-15
6.45E-15
6.23E-15
Fm-252
2.79E-17
2.32E-17
2.14E-17
2.00E-17
1.68E-17
1.59E-17
Fm-253
3.38E-15
3.00E-15
2.78E-15
2.63E-15
2.33E-15
2.25E-15
Fm-254
4.50E-16
4.29E-16
4.08E-16
3.91E-16
3.64E-16
3.50E-16
Fm-255
1.82E-16
1.39E-16
1.22E-16
1.12E-16
8.26E-17
7.47E-17
Fm-256
7.81E-13
7.51E-13
7.16E-13
6.86E-13
6.43E-13
6.19E-13
Fm-257
8.39E-15
7.65E-15
7.13E-15
6.77E-15
6.12E-15
5.91E-15
216
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion.
Explanation of entries
For each radionuclide, values for the reference person effective dose rate coefficients e. based on
the weighting factors of Table 3-1, are given in SI units. The coefficients are for water at a density of
1 x 103kgm"3. Reference person organ equivalent dose coefficients /?-, are provided electronically.17
e: The effective dose rate coefficient (Sv Bq 1 s"1 m3), that is, the effective dose per unit
time-integrated exposure to a radionuclide
wf- The tissue weighting factor
e = ^ wT hT
T
where hT is the equivalent dose rate coefficient (Sv Bq"1 s"1 m3) for tissue T.
The dose rate coefficients provided in Table 4-7 are based on the radiations emitted by the indicated
radionuclide and do not include the radiations emitted by radioactive decay products. Radioactive decay
products for each radionuclide are identified in Appendix A.
To convert from a source per unit volume (Sv Bq"1 s"1 m3) to a source per unit mass basis (Sv Bq"1 s"1
kg), multiply table entries by 1 x 103.
To convert from SI units (Sv Bq"1 s"1 m3) to conventional units (mrem jxCi"1 y"1 cm3 or mrem jxCi"1 y"1
g), multiply table entries by 1.168 x 1023.
To derive coefficients for a water density other than 1 x 103 kg m"3, multiply coefficients (in any units)
by (1 x 103/p), where p is the water density in kgm"3.
17 https://www.epa.gov/radiation/federal-guidance-report-no-15-external-exposure-radionuclides-air-water-and-soil
217
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion.
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old 15-yr-old
Adult
Hydrogen
H-3
Beryllium
Be-7
Be-10
Carbon
C-10
C-ll
C-14
Nitrogen
N-13
N-16
Oxygen
0-14
0-15
0-19
Fluorine
F-17
F-18
Neon
Ne-19
Ne-24
Sodium
Na-22
Na-24
Magnesium
Mg-27
Mg-28
Aluminum
Al-26
Al-28
Al-29
Silicon
Si-31
Si-32
Phosphorus
P-30
P-32
P-33
Sulfur
S-35
S-37
S-38
Chlorine
Cl-34
Cl-34m
4.56E-26
6.25E-18
1.64E-19
2.22E-16
1.28E-16
3.18E-21
1.29E-16
6.51E-16
4.50E-16
1.29E-16
1.28E-16
1.29E-16
1.24E-16
1.29E-16
6.92E-17
2.86E-16
5.72E-16
1.17E-16
1.80E-16
3.59E-16
2.47E-16
1.87E-16
6.90E-19
1.21E-20
1.30E-16
7.10E-19
1.66E-20
3.70E-21
4.13E-16
2.36E-16
1.32E-16
2.86E-16
2.79E-26
5.71E-18
1.59E-19
2.04E-16
1.18E-16
3.01E-21
1.18E-16
6.28E-16
4.14E-16
1.18E-16
1.17E-16
1.18E-16
1.14E-16
1.18E-16
6.33E-17
2.63E-16
5.29E-16
1.08E-16
1.66E-16
3.29E-16
2.26E-16
1.72E-16
6.56E-19
1.17E-20
1.19E-16
6.77E-19
1.61E-20
3.52E-21
3.86E-16
2.16E-16
1.21E-16
2.63E-16
2.39E-26
5.25E-18
1.56E-19
1.88E-16
1.08E-16
2.93E-21
1.08E-16
5.90E-16
3.85E-16
1.09E-16
1.08E-16
1.09E-16
1.05E-16
1.09E-16
5.83E-17
2.44E-16
4.94E-16
1.00E-16
1.54E-16
3.06E-16
2.11E-16
1.61E-16
6.30E-19
1.15E-20
1.10E-16
6.54E-19
1.58E-20
3.44E-21
3.61E-16
2.01E-16
1.11E-16
2.45E-16
2.04E-26
5.07E-18
1.55E-19
1.82E-16
1.05E-16
2.91E-21
1.05E-16
5.90E-16
3.77E-16
1.05E-16
1.05E-16
1.05E-16
1.01E-16
1.05E-16
5.63E-17
2.38E-16
4.86E-16
9.80E-17
1.50E-16
2.99E-16
2.07E-16
1.58E-16
6.22E-19
1.14E-20
1.06E-16
6.46E-19
1.57E-20
3.42E-21
3.57E-16
1.98E-16
1.08E-16
2.40E-16
6.89E-27
4.53E-18
1.53E-19
1.63E-16
9.37E-17
2.83E-21
9.38E-17
5.56E-16
3.46E-16
9.42E-17
9.57E-17
9.42E-17
9.07E-17
9.45E-17
5.05E-17
2.15E-16
4.50E-16
8.81E-17
1.36E-16
2.73E-16
1.91E-16
1.44E-16
5.99E-19
1.13E-20
9.54E-17
6.26E-19
1.55E-20
3.33E-21
3.33E-16
1.83E-16
9.66E-17
2.20E-16
6.15E-27
4.46E-18
1.52E-19
1.61E-16
9.23E-17
2.82E-21
9.24E-17
5.53E-16
3.42E-16
9.28E-17
9.44E-17
9.28E-17
8.93E-17
9.31E-17
4.97E-17
2.12E-16
4.45E-16
8.69E-17
1.34E-16
2.69E-16
1.88E-16
1.42E-16
5.95E-19
1.12E-20
9.40E-17
6.23E-19
1.55E-20
3.32E-21
3.30E-16
1.81E-16
9.51E-17
2.17E-16
218
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cl-36
2.09E-19
2.02E-19
1.96E-19
1.94E-19
1.90E-19
1.89E-19
Cl-38
2.03E-16
1.86E-16
1.74E-16
1.71E-16
1.58E-16
1.56E-16
Cl-39
1.96E-16
1.79E-16
1.67E-16
1.63E-16
1.49E-16
1.47E-16
Cl-40
5.69E-16
5.28E-16
4.93E-16
4.87E-16
4.51E-16
4.46E-16
Argon
Ar-37
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ar-39
1.35E-19
1.31E-19
1.29E-19
1.28E-19
1.26E-19
1.25E-19
Ar-41
1.73E-16
1.59E-16
1.48E-16
1.45E-16
1.32E-16
1.30E-16
Ar-42
1.49E-19
1.45E-19
1.41E-19
1.41E-19
1.38E-19
1.38E-19
Ar-43
2.09E-16
1.93E-16
1.79E-16
1.76E-16
1.61E-16
1.59E-16
Ar-44
2.65E-16
2.42E-16
2.25E-16
2.21E-16
2.02E-16
2.00E-16
Potassium
K-38
4.32E-16
3.96E-16
3.68E-16
3.60E-16
3.31E-16
3.27E-16
K-40
2.17E-17
2.00E-17
1.86E-17
1.83E-17
1.67E-17
1.65E-17
K-42
4.01E-17
3.68E-17
3.44E-17
3.37E-17
3.09E-17
3.05E-17
K-43
1.22E-16
1.11E-16
1.03E-16
9.92E-17
8.87E-17
8.74E-17
K-44
3.28E-16
3.03E-16
2.83E-16
2.78E-16
2.56E-16
2.53E-16
K-45
2.52E-16
2.31E-16
2.15E-16
2.10E-16
1.93E-16
1.91E-16
K-46
4.00E-16
3.72E-16
3.47E-16
3.43E-16
3.16E-16
3.13E-16
Calcium
Ca-41
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ca-45
1.75E-20
1.70E-20
1.67E-20
1.66E-20
1.64E-20
1.63E-20
Ca-47
1.41E-16
1.30E-16
1.21E-16
1.18E-16
1.08E-16
1.06E-16
Ca-49
4.47E-16
4.17E-16
3.90E-16
3.86E-16
3.60E-16
3.57E-16
Scandium
Sc-42m
5.56E-16
5.10E-16
4.73E-16
4.61E-16
4.18E-16
4.13E-16
Sc-43
1.24E-16
1.13E-16
1.04E-16
1.01E-16
9.02E-17
8.89E-17
Sc-44
2.78E-16
2.55E-16
2.36E-16
2.30E-16
2.08E-16
2.05E-16
Sc-44m
3.50E-17
3.11E-17
2.84E-17
2.72E-17
2.41E-17
2.38E-17
Sc-46
2.64E-16
2.44E-16
2.27E-16
2.22E-16
2.00E-16
1.98E-16
Sc-47
1.37E-17
1.20E-17
1.09E-17
1.03E-17
8.98E-18
8.82E-18
Sc-48
4.45E-16
4.10E-16
3.81E-16
3.74E-16
3.38E-16
3.34E-16
Sc-49
1.04E-18
9.86E-19
9.45E-19
9.31E-19
8.95E-19
8.89E-19
Sc-50
4.30E-16
3.96E-16
3.68E-16
3.60E-16
3.28E-16
3.23E-16
Titanium
Ti-44
1.58E-17
1.30E-17
1.03E-17
1.03E-17
9.15E-18
8.74E-18
Ti-45
1.10E-16
1.00E-16
9.25E-17
8.94E-17
8.00E-17
7.88E-17
Ti-51
4.79E-17
4.31E-17
3.94E-17
3.80E-17
3.38E-17
3.33E-17
Ti-52
1.62E-17
1.40E-17
1.22E-17
1.13E-17
1.05E-17
1.02E-17
Vanadium
V-47
1.26E-16
1.15E-16
1.06E-16
1.03E-16
9.20E-17
9.07E-17
V-48
3.84E-16
3.54E-16
3.28E-16
3.21E-16
2.90E-16
2.86E-16
V-49
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
V-50
1.93E-16
1.77E-16
1.65E-16
1.62E-16
1.48E-16
1.46E-16
V-52
1.97E-16
1.81E-16
1.69E-16
1.65E-16
1.51E-16
1.49E-16
V-53
1.38E-16
1.27E-16
1.18E-16
1.16E-16
1.05E-16
1.03E-16
219
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Chromium
Cr-48
5.45E-17
4.82E-17
4.30E-17
4.08E-17
3.68E-17
3.61E-17
Cr-49
1.32E-16
1.20E-16
1.10E-16
1.06E-16
9.53E-17
9.38E-17
Cr-51
4.01E-18
3.58E-18
3.26E-18
3.12E-18
2.77E-18
2.73E-18
Cr-55
1.48E-18
1.39E-18
1.33E-18
1.31E-18
1.26E-18
1.25E-18
Cr-56
1.03E-17
8.59E-18
6.87E-18
6.76E-18
6.21E-18
5.96E-18
Manganese
Mn-50m
6.11E-16
5.62E-16
5.22E-16
5.10E-16
4.61E-16
4.55E-16
Mn-51
1.26E-16
1.16E-16
1.07E-16
1.03E-16
9.24E-17
9.10E-17
Mn-52
4.56E-16
4.20E-16
3.90E-16
3.81E-16
3.45E-16
3.40E-16
Mn-52m
3.18E-16
2.92E-16
2.71E-16
2.64E-16
2.39E-16
2.36E-16
Mn-53
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Mn-54
1.08E-16
9.99E-17
9.27E-17
9.05E-17
8.13E-17
8.01E-17
Mn-56
2.28E-16
2.10E-16
1.95E-16
1.91E-16
1.75E-16
1.72E-16
Mn-57
1.38E-17
1.25E-17
1.15E-17
1.11E-17
1.01E-17
9.99E-18
Mn-58m
3.20E-16
2.95E-16
2.74E-16
2.68E-16
2.44E-16
2.40E-16
Iron
Fe-52
9.31E-17
8.44E-17
7.75E-17
7.45E-17
6.64E-17
6.54E-17
Fe-53
1.50E-16
1.37E-16
1.26E-16
1.22E-16
1.09E-16
1.07E-16
Fe-53m
4.05E-16
3.74E-16
3.47E-16
3.40E-16
3.08E-16
3.04E-16
Fe-55
1.99E-26
1.72E-26
1.50E-26
1.38E-26
1.28E-26
1.24E-26
Fe-59
1.58E-16
1.46E-16
1.36E-16
1.33E-16
1.21E-16
1.19E-16
Fe-60
8.13E-21
7.81E-21
7.66E-21
7.62E-21
7.48E-21
7.45E-21
Fe-61
1.87E-16
1.72E-16
1.60E-16
1.56E-16
1.42E-16
1.40E-16
Fe-62
6.45E-17
5.90E-17
5.44E-17
5.26E-17
4.71E-17
4.64E-17
Cobalt
Co-54m
5.19E-16
4.76E-16
4.41E-16
4.31E-16
3.89E-16
3.84E-16
Co-55
2.58E-16
2.38E-16
2.20E-16
2.14E-16
1.93E-16
1.90E-16
Co-56
4.91E-16
4.53E-16
4.22E-16
4.14E-16
3.78E-16
3.74E-16
Co-57
1.48E-17
1.28E-17
1.11E-17
1.02E-17
9.51E-18
9.24E-18
Co-58
1.25E-16
1.16E-16
1.07E-16
1.04E-16
9.37E-17
9.24E-17
Co-58m
3.32E-22
2.12E-22
1.75E-22
1.64E-22
1.16E-22
1.08E-22
Co-60
3.35E-16
3.09E-16
2.87E-16
2.82E-16
2.56E-16
2.53E-16
Co-60m
5.68E-19
5.07E-19
4.61E-19
4.52E-19
4.06E-19
3.98E-19
Co-61
1.19E-17
1.03E-17
8.88E-18
8.88E-18
7.82E-18
7.61E-18
Co-62
2.19E-16
2.02E-16
1.89E-16
1.85E-16
1.69E-16
1.67E-16
Co-62m
3.64E-16
3.35E-16
3.12E-16
3.06E-16
2.79E-16
2.75E-16
Nickel
Ni-56
2.22E-16
2.03E-16
1.88E-16
1.82E-16
1.64E-16
1.61E-16
Ni-57
2.58E-16
2.37E-16
2.20E-16
2.15E-16
1.96E-16
1.93E-16
Ni-59
1.95E-21
1.79E-21
1.65E-21
1.59E-21
1.42E-21
1.40E-21
Ni-63
2.59E-23
1.67E-23
1.42E-23
1.32E-23
8.38E-24
7.81E-24
Ni-65
7.58E-17
6.97E-17
6.48E-17
6.35E-17
5.79E-17
5.71E-17
Ni-66
1.57E-20
1.52E-20
1.49E-20
1.49E-20
1.46E-20
1.46E-20
Copper
Cu-57
1.54E-16
1.41E-16
1.30E-16
1.26E-16
1.14E-16
1.12E-16
220
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cu-59
1.87E-16
1.71E-16
1.58E-16
1.53E-16
1.38E-16
1.36E-16
Cu-60
5.24E-16
4.82E-16
4.47E-16
4.38E-16
3.99E-16
3.94E-16
Cu-61
1.04E-16
9.53E-17
8.79E-17
8.50E-17
7.62E-17
7.50E-17
Cu-62
1.28E-16
1.17E-16
1.08E-16
1.05E-16
9.38E-17
9.24E-17
Cu-64
2.33E-17
2.13E-17
1.97E-17
1.90E-17
1.70E-17
1.68E-17
Cu-66
1.42E-17
1.32E-17
1.23E-17
1.20E-17
1.09E-17
1.08E-17
Cu-67
1.44E-17
1.25E-17
1.11E-17
1.05E-17
9.38E-18
9.19E-18
Cu-69
7.03E-17
6.49E-17
6.02E-17
5.89E-17
5.32E-17
5.25E-17
Zinc
Zn-60
1.94E-16
1.78E-16
1.64E-16
1.58E-16
1.42E-16
1.40E-16
Zn-61
2.01E-16
1.84E-16
1.70E-16
1.65E-16
1.49E-16
1.47E-16
Zn-62
5.49E-17
5.02E-17
4.62E-17
4.46E-17
3.99E-17
3.93E-17
Zn-63
1.40E-16
1.28E-16
1.18E-16
1.14E-16
1.02E-16
1.01E-16
Zn-65
7.66E-17
7.07E-17
6.57E-17
6.44E-17
5.82E-17
5.74E-17
Zn-69
2.44E-19
2.35E-19
2.29E-19
2.27E-19
2.23E-19
2.22E-19
Zn-69m
5.22E-17
4.74E-17
4.36E-17
4.20E-17
3.75E-17
3.69E-17
Zn-71
4.16E-17
3.82E-17
3.53E-17
3.43E-17
3.09E-17
3.05E-17
Zn-71m
1.98E-16
1.81E-16
1.67E-16
1.62E-16
1.45E-16
1.43E-16
Zn-72
1.83E-17
1.59E-17
1.43E-17
1.34E-17
1.18E-17
1.16E-17
Gallium
Ga-64
4.53E-16
4.19E-16
3.89E-16
3.81E-16
3.48E-16
3.44E-16
Ga-65
1.47E-16
1.35E-16
1.23E-16
1.19E-16
1.07E-16
1.05E-16
Ga-66
3.39E-16
3.15E-16
2.93E-16
2.88E-16
2.65E-16
2.62E-16
Ga-67
1.93E-17
1.69E-17
1.49E-17
1.42E-17
1.28E-17
1.25E-17
Ga-68
1.20E-16
1.10E-16
1.01E-16
9.81E-17
8.79E-17
8.66E-17
Ga-70
1.60E-18
1.49E-18
1.41E-18
1.38E-18
1.29E-18
1.27E-18
Ga-72
3.65E-16
3.36E-16
3.13E-16
3.07E-16
2.80E-16
2.77E-16
Ga-73
4.42E-17
3.96E-17
3.61E-17
3.47E-17
3.08E-17
3.04E-17
Ga-74
4.29E-16
3.95E-16
3.68E-16
3.61E-16
3.31E-16
3.27E-16
Germanium
Ge-66
8.46E-17
7.66E-17
7.02E-17
6.76E-17
6.05E-17
5.95E-17
Ge-67
1.83E-16
1.67E-16
1.54E-16
1.49E-16
1.34E-16
1.32E-16
Ge-68
2.17E-21
1.37E-21
1.10E-21
9.14E-22
2.87E-22
2.53E-22
Ge-69
1.23E-16
1.14E-16
1.05E-16
1.03E-16
9.26E-17
9.13E-17
Ge-71
2.20E-21
1.39E-21
1.11E-21
9.27E-22
2.91E-22
2.57E-22
Ge-75
4.82E-18
4.29E-18
3.92E-18
3.75E-18
3.34E-18
3.30E-18
Ge-77
1.40E-16
1.27E-16
1.17E-16
1.13E-16
1.02E-16
1.00E-16
Ge-78
3.54E-17
3.13E-17
2.85E-17
2.72E-17
2.40E-17
2.37E-17
Arsenic
As-68
4.92E-16
4.52E-16
4.20E-16
4.10E-16
3.72E-16
3.67E-16
As-69
1.47E-16
1.34E-16
1.24E-16
1.20E-16
1.07E-16
1.06E-16
As-70
5.61E-16
5.16E-16
4.79E-16
4.67E-16
4.24E-16
4.18E-16
As-71
7.27E-17
6.58E-17
6.05E-17
5.82E-17
5.20E-17
5.12E-17
As-72
2.30E-16
2.11E-16
1.96E-16
1.90E-16
1.71E-16
1.69E-16
As-73
5.62E-19
4.38E-19
3.68E-19
3.48E-19
2.88E-19
2.75E-19
As-74
9.57E-17
8.79E-17
8.11E-17
7.85E-17
7.04E-17
6.93E-17
221
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
As-76
5.49E-17
5.05E-17
4.68E-17
4.55E-17
4.10E-17
4.05E-17
As-77
1.20E-18
1.08E-18
9.88E-19
9.51E-19
8.57E-19
8.45E-19
As-78
1.75E-16
1.61E-16
1.49E-16
1.46E-16
1.32E-16
1.31E-16
As-79
5.31E-18
4.89E-18
4.55E-18
4.43E-18
4.03E-18
3.98E-18
Selenium
Se-70
8.92E-17
8.10E-17
7.43E-17
7.16E-17
6.39E-17
6.30E-17
Se-71
2.07E-16
1.90E-16
1.75E-16
1.70E-16
1.53E-16
1.51E-16
Se-72
2.38E-18
1.80E-18
1.55E-18
1.40E-18
1.14E-18
1.09E-18
Se-73
1.37E-16
1.24E-16
1.13E-16
1.10E-16
9.77E-17
9.62E-17
Se-73m
3.31E-17
3.03E-17
2.78E-17
2.69E-17
2.41E-17
2.37E-17
Se-75
4.82E-17
4.25E-17
3.83E-17
3.63E-17
3.24E-17
3.18E-17
Se-77m
1.08E-17
9.47E-18
8.62E-18
8.10E-18
7.09E-18
6.96E-18
Se-79
3.71E-21
3.52E-21
3.43E-21
3.40E-21
3.31E-21
3.30E-21
Se-79m
1.12E-18
9.43E-19
7.57E-19
7.08E-19
6.78E-19
6.51E-19
Se-81
1.62E-18
1.50E-18
1.40E-18
1.36E-18
1.26E-18
1.25E-18
Se-81m
1.69E-18
1.44E-18
1.17E-18
1.08E-18
1.05E-18
1.01E-18
Se-83
3.47E-16
3.18E-16
2.95E-16
2.88E-16
2.61E-16
2.58E-16
Se-83m
1.33E-16
1.22E-16
1.13E-16
1.11E-16
1.01E-16
9.96E-17
Se-84
5.32E-17
4.83E-17
4.43E-17
4.26E-17
3.80E-17
3.75E-17
Bromine
Br-72
3.92E-16
3.61E-16
3.34E-16
3.26E-16
2.95E-16
2.91E-16
Br-73
1.83E-16
1.67E-16
1.54E-16
1.49E-16
1.34E-16
1.32E-16
Br-74
6.27E-16
5.82E-16
5.42E-16
5.33E-16
4.90E-16
4.85E-16
Br-74m
5.53E-16
5.11E-16
4.74E-16
4.64E-16
4.24E-16
4.18E-16
Br-75
1.52E-16
1.38E-16
1.27E-16
1.22E-16
1.09E-16
1.07E-16
Br-76
3.73E-16
3.43E-16
3.19E-16
3.12E-16
2.85E-16
2.81E-16
Br-76m
3.40E-18
2.72E-18
2.38E-18
2.22E-18
1.87E-18
1.81E-18
Br-77
3.99E-17
3.61E-17
3.32E-17
3.20E-17
2.85E-17
2.81E-17
Br-77m
1.82E-18
1.55E-18
1.27E-18
1.17E-18
1.13E-18
1.09E-18
Br-78
1.31E-16
1.20E-16
1.11E-16
1.07E-16
9.60E-17
9.45E-17
Br-80
1.04E-17
9.55E-18
8.85E-18
8.59E-18
7.75E-18
7.64E-18
Br-80m
1.07E-18
7.63E-19
6.44E-19
5.80E-19
4.54E-19
4.31E-19
Br-82
3.43E-16
3.16E-16
2.93E-16
2.86E-16
2.57E-16
2.54E-16
Br-82m
4.41E-19
3.95E-19
3.66E-19
3.55E-19
3.12E-19
3.07E-19
Br-83
1.11E-18
1.03E-18
9.64E-19
9.37E-19
8.59E-19
8.49E-19
Br-84
2.43E-16
2.25E-16
2.10E-16
2.07E-16
1.90E-16
1.88E-16
Br-84m
3.68E-16
3.38E-16
3.13E-16
3.06E-16
2.78E-16
2.74E-16
Br-85
9.96E-18
9.21E-18
8.59E-18
8.41E-18
7.66E-18
7.56E-18
Krypton
Kr-74
1.33E-16
1.21E-16
1.10E-16
1.06E-16
9.53E-17
9.38E-17
Kr-75
1.64E-16
1.49E-16
1.37E-16
1.32E-16
1.19E-16
1.17E-16
Kr-76
5.27E-17
4.71E-17
4.30E-17
4.12E-17
3.66E-17
3.61E-17
Kr-77
1.31E-16
1.19E-16
1.09E-16
1.05E-16
9.38E-17
9.23E-17
Kr-79
3.16E-17
2.86E-17
2.63E-17
2.54E-17
2.27E-17
2.23E-17
Kr-81
1.47E-19
1.18E-19
1.06E-19
9.91E-20
7.70E-20
7.53E-20
Kr-81m
1.64E-17
1.42E-17
1.29E-17
1.22E-17
1.07E-17
1.05E-17
222
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Kr-83m
1.63E-20
9.86E-21
8.76E-21
7.68E-21
2.91E-21
2.64E-21
Kr-85
4.50E-19
4.21E-19
3.97E-19
3.87E-19
3.61E-19
3.57E-19
Kr-85m
1.98E-17
1.74E-17
1.58E-17
1.49E-17
1.31E-17
1.29E-17
Kr-87
1.09E-16
9.99E-17
9.29E-17
9.09E-17
8.34E-17
8.24E-17
Kr-88
2.69E-16
2.47E-16
2.31E-16
2.26E-16
2.09E-16
2.06E-16
Kr-89
2.63E-16
2.43E-16
2.26E-16
2.22E-16
2.03E-16
2.01E-16
Rubidium
Rb-77
1.99E-16
1.81E-16
1.67E-16
1.62E-16
1.45E-16
1.43E-16
Rb-78
5.55E-16
5.15E-16
4.79E-16
4.71E-16
4.33E-16
4.28E-16
Rb-78m
4.24E-16
3.89E-16
3.61E-16
3.51E-16
3.19E-16
3.14E-16
Rb-79
1.84E-16
1.68E-16
1.54E-16
1.49E-16
1.34E-16
1.32E-16
Rb-80
1.53E-16
1.41E-16
1.30E-16
1.25E-16
1.13E-16
1.11E-16
Rb-81
6.36E-17
5.81E-17
5.36E-17
5.18E-17
4.64E-17
4.57E-17
Rb-81m
3.11E-18
2.79E-18
2.51E-18
2.44E-18
2.19E-18
2.15E-18
Rb-82
1.42E-16
1.30E-16
1.20E-16
1.16E-16
1.04E-16
1.02E-16
Rb-82m
3.79E-16
3.49E-16
3.23E-16
3.15E-16
2.84E-16
2.80E-16
Rb-83
6.10E-17
5.58E-17
5.15E-17
4.98E-17
4.46E-17
4.39E-17
Rb-84
1.17E-16
1.07E-16
9.94E-17
9.69E-17
8.70E-17
8.57E-17
Rb-84m
4.81E-17
4.29E-17
3.92E-17
3.75E-17
3.33E-17
3.28E-17
Rb-86
1.30E-17
1.20E-17
1.12E-17
1.10E-17
9.95E-18
9.82E-18
Rb-86m
6.88E-17
6.31E-17
5.82E-17
5.64E-17
5.05E-17
4.98E-17
Rb-87
4.10E-20
3.98E-20
3.92E-20
3.90E-20
3.85E-20
3.84E-20
Rb-88
9.13E-17
8.40E-17
7.83E-17
7.69E-17
7.08E-17
6.99E-17
Rb-89
3.04E-16
2.81E-16
2.61E-16
2.56E-16
2.34E-16
2.31E-16
Rb-90
2.86E-16
2.69E-16
2.51E-16
2.49E-16
2.31E-16
2.29E-16
Rb-90m
4.45E-16
4.13E-16
3.85E-16
3.79E-16
3.49E-16
3.45E-16
Strontium
Sr-79
1.50E-16
1.37E-16
1.26E-16
1.21E-16
1.09E-16
1.07E-16
Sr-80
5.43E-17
4.96E-17
4.57E-17
4.42E-17
3.95E-17
3.89E-17
Sr-81
1.76E-16
1.61E-16
1.48E-16
1.43E-16
1.28E-16
1.26E-16
Sr-82
7.01E-20
4.19E-20
3.79E-20
3.37E-20
1.26E-20
1.14E-20
Sr-83
1.04E-16
9.57E-17
8.85E-17
8.60E-17
7.73E-17
7.62E-17
Sr-85
6.19E-17
5.66E-17
5.22E-17
5.04E-17
4.51E-17
4.44E-17
Sr-85m
2.75E-17
2.41E-17
2.18E-17
2.07E-17
1.82E-17
1.80E-17
Sr-87m
4.01E-17
3.62E-17
3.32E-17
3.19E-17
2.84E-17
2.80E-17
Sr-89
5.78E-19
5.52E-19
5.33E-19
5.27E-19
5.12E-19
5.09E-19
Sr-90
1.16E-19
1.12E-19
1.10E-19
1.09E-19
1.08E-19
1.07E-19
Sr-91
9.29E-17
8.57E-17
7.96E-17
7.77E-17
7.00E-17
6.91E-17
Sr-92
1.80E-16
1.66E-16
1.54E-16
1.51E-16
1.38E-16
1.36E-16
Sr-93
3.00E-16
2.76E-16
2.56E-16
2.50E-16
2.27E-16
2.24E-16
Sr-94
1.94E-16
1.78E-16
1.66E-16
1.63E-16
1.48E-16
1.47E-16
Yttrium
Y-81
1.49E-16
1.36E-16
1.24E-16
1.20E-16
1.08E-16
1.06E-16
Y-83
1.72E-16
1.58E-16
1.46E-16
1.41E-16
1.27E-16
1.25E-16
Y-83m
1.06E-16
9.64E-17
8.86E-17
8.54E-17
7.63E-17
7.52E-17
Y-84m
5.18E-16
4.77E-16
4.42E-16
4.31E-16
3.89E-16
3.83E-16
223
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Y-85
1.36E-16
1.25E-16
1.15E-16
1.11E-16
9.97E-17
9.82E-17
Y-85m
1.73E-16
1.59E-16
1.47E-16
1.43E-16
1.30E-16
1.28E-16
Y-86
4.73E-16
4.35E-16
4.04E-16
3.95E-16
3.58E-16
3.53E-16
Y-86m
2.80E-17
2.46E-17
2.23E-17
2.12E-17
1.87E-17
1.84E-17
Y-87
5.50E-17
5.02E-17
4.62E-17
4.46E-17
3.99E-17
3.93E-17
Y-87m
3.84E-17
3.47E-17
3.18E-17
3.05E-17
2.72E-17
2.68E-17
Y-88
3.65E-16
3.35E-16
3.12E-16
3.06E-16
2.80E-16
2.76E-16
Y-89m
1.18E-16
1.09E-16
1.01E-16
9.87E-17
8.87E-17
8.75E-17
Y-90
1.10E-18
1.05E-18
1.01E-18
9.91E-19
9.54E-19
9.48E-19
Y-90m
7.99E-17
7.20E-17
6.59E-17
6.32E-17
5.63E-17
5.54E-17
Y-91
1.01E-18
9.51E-19
9.05E-19
8.92E-19
8.44E-19
8.36E-19
Y-91m
6.65E-17
6.11E-17
5.63E-17
5.45E-17
4.88E-17
4.81E-17
Y-92
3.53E-17
3.26E-17
3.03E-17
2.97E-17
2.69E-17
2.65E-17
Y-93
1.44E-17
1.32E-17
1.23E-17
1.20E-17
1.10E-17
1.08E-17
Y-94
1.05E-16
9.70E-17
9.02E-17
8.83E-17
7.99E-17
7.89E-17
Y-95
1.55E-16
1.44E-16
1.34E-16
1.32E-16
1.22E-16
1.21E-16
Zirconium
Zr-85
1.89E-16
1.73E-16
1.59E-16
1.54E-16
1.38E-16
1.36E-16
Zr-86
3.50E-17
3.08E-17
2.80E-17
2.67E-17
2.35E-17
2.32E-17
Zr-87
1.18E-16
1.08E-16
9.97E-17
9.65E-17
8.66E-17
8.53E-17
Zr-88
4.81E-17
4.34E-17
3.98E-17
3.83E-17
3.41E-17
3.35E-17
Zr-89
1.49E-16
1.38E-16
1.28E-16
1.25E-16
1.12E-16
1.10E-16
Zr-89m
8.10E-17
7.44E-17
6.88E-17
6.68E-17
6.00E-17
5.92E-17
Zr-93
3.09E-23
2.02E-23
1.73E-23
1.61E-23
1.04E-23
9.75E-24
Zr-95
9.41E-17
8.68E-17
8.04E-17
7.83E-17
7.03E-17
6.93E-17
Zr-97
1.14E-16
1.05E-16
9.75E-17
9.51E-17
8.55E-17
8.43E-17
Niobium
Nb-87
1.55E-16
1.41E-16
1.29E-16
1.25E-16
1.11E-16
1.10E-16
Nb-88
5.47E-16
5.03E-16
4.65E-16
4.53E-16
4.08E-16
4.02E-16
Nb-88m
5.37E-16
4.93E-16
4.57E-16
4.46E-16
4.02E-16
3.97E-16
Nb-89
1.80E-16
1.66E-16
1.54E-16
1.50E-16
1.36E-16
1.34E-16
Nb-89m
1.65E-16
1.51E-16
1.39E-16
1.35E-16
1.21E-16
1.19E-16
Nb-90
5.70E-16
5.24E-16
4.88E-16
4.78E-16
4.38E-16
4.33E-16
Nb-91
3.31E-19
2.63E-19
2.40E-19
2.31E-19
1.77E-19
1.72E-19
Nb-91m
3.45E-18
3.14E-18
2.91E-18
2.85E-18
2.56E-18
2.52E-18
Nb-92
1.93E-16
1.78E-16
1.65E-16
1.61E-16
1.44E-16
1.42E-16
Nb-92m
1.26E-16
1.16E-16
1.08E-16
1.05E-16
9.48E-17
9.35E-17
Nb-93m
2.70E-20
1.63E-20
1.46E-20
1.41E-20
6.77E-21
6.12E-21
Nb-94
2.01E-16
1.86E-16
1.72E-16
1.68E-16
1.51E-16
1.49E-16
Nb-94m
6.77E-19
5.92E-19
5.47E-19
5.34E-19
4.57E-19
4.49E-19
Nb-95
9.85E-17
9.08E-17
8.42E-17
8.21E-17
7.36E-17
7.26E-17
Nb-95m
8.15E-18
7.12E-18
6.46E-18
6.15E-18
5.41E-18
5.33E-18
Nb-96
3.19E-16
2.94E-16
2.73E-16
2.66E-16
2.39E-16
2.36E-16
Nb-97
8.52E-17
7.84E-17
7.26E-17
7.05E-17
6.33E-17
6.24E-17
Nb-98m
3.71E-16
3.42E-16
3.17E-16
3.10E-16
2.80E-16
2.77E-16
Nb-99
2.28E-17
1.98E-17
1.74E-17
1.64E-17
1.50E-17
1.46E-17
224
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Nb-99m
1.05E-16
9.70E-17
9.02E-17
8.86E-17
8.16E-17
8.06E-17
Molybdenum
Mo-89
1.58E-16
1.45E-16
1.34E-16
1.30E-16
1.17E-16
1.15E-16
Mo-90
1.05E-16
9.43E-17
8.62E-17
8.29E-17
7.44E-17
7.32E-17
Mo-91
1.25E-16
1.15E-16
1.06E-16
1.02E-16
9.16E-17
9.02E-17
Mo-91m
1.81E-16
1.66E-16
1.54E-16
1.50E-16
1.36E-16
1.34E-16
Mo-93
1.51E-19
9.13E-20
8.17E-20
7.88E-20
3.79E-20
3.43E-20
Mo-93m
3.08E-16
2.82E-16
2.62E-16
2.56E-16
2.32E-16
2.29E-16
Mo-99
1.93E-17
1.76E-17
1.63E-17
1.58E-17
1.42E-17
1.40E-17
Mo-101
1.96E-16
1.79E-16
1.67E-16
1.63E-16
1.48E-16
1.46E-16
Mo-102
2.61E-18
2.30E-18
2.10E-18
2.00E-18
1.79E-18
1.76E-18
Technetium
Tc-91
3.33E-16
3.07E-16
2.85E-16
2.78E-16
2.54E-16
2.51E-16
Tc-91m
1.84E-16
1.68E-16
1.55E-16
1.50E-16
1.35E-16
1.33E-16
Tc-92
5.04E-16
4.61E-16
4.27E-16
4.16E-16
3.76E-16
3.71E-16
Tc-93
2.10E-16
1.93E-16
1.80E-16
1.76E-16
1.60E-16
1.58E-16
Tc-93m
1.29E-16
1.18E-16
1.10E-16
1.08E-16
9.92E-17
9.80E-17
Tc-94
3.43E-16
3.16E-16
2.93E-16
2.86E-16
2.57E-16
2.53E-16
Tc-94m
2.55E-16
2.35E-16
2.18E-16
2.12E-16
1.92E-16
1.89E-16
Tc-95
1.01E-16
9.35E-17
8.66E-17
8.45E-17
7.58E-17
7.47E-17
Tc-95m
8.70E-17
7.93E-17
7.31E-17
7.09E-17
6.34E-17
6.24E-17
Tc-96
3.23E-16
2.98E-16
2.76E-16
2.70E-16
2.42E-16
2.39E-16
Tc-96m
5.55E-18
5.08E-18
4.71E-18
4.60E-18
4.13E-18
4.07E-18
Tc-97
1.78E-19
1.08E-19
9.56E-20
9.35E-20
4.77E-20
4.32E-20
Tc-97m
2.00E-19
1.32E-19
1.14E-19
1.11E-19
7.13E-20
6.62E-20
Tc-98
1.81E-16
1.67E-16
1.54E-16
1.50E-16
1.35E-16
1.33E-16
Tc-99
3.31E-20
3.21E-20
3.16E-20
3.14E-20
3.10E-20
3.09E-20
Tc-99m
1.56E-17
1.36E-17
1.22E-17
1.13E-17
1.01E-17
9.86E-18
Tc-101
4.29E-17
3.84E-17
3.51E-17
3.36E-17
2.99E-17
2.95E-17
Tc-102
1.39E-17
1.28E-17
1.19E-17
1.16E-17
1.06E-17
1.05E-17
Tc-102m
3.31E-16
3.04E-16
2.82E-16
2.76E-16
2.51E-16
2.48E-16
Tc-104
3.04E-16
2.79E-16
2.59E-16
2.54E-16
2.32E-16
2.29E-16
Tc-105
1.05E-16
9.59E-17
8.84E-17
8.58E-17
7.76E-17
7.65E-17
Ruthenium
Ru-92
2.68E-16
2.42E-16
2.23E-16
2.16E-16
1.94E-16
1.92E-16
Ru-94
6.50E-17
5.91E-17
5.44E-17
5.27E-17
4.71E-17
4.64E-17
Ru-95
1.61E-16
1.47E-16
1.36E-16
1.32E-16
1.19E-16
1.18E-16
Ru-97
2.91E-17
2.55E-17
2.31E-17
2.20E-17
1.94E-17
1.91E-17
Ru-103
6.23E-17
5.70E-17
5.25E-17
5.07E-17
4.54E-17
4.47E-17
Ru-105
9.56E-17
8.76E-17
8.09E-17
7.85E-17
7.04E-17
6.93E-17
Ru-106
2.62E-24
1.60E-24
1.39E-24
1.29E-24
6.25E-25
5.69E-25
Ru-107
4.64E-17
4.25E-17
3.93E-17
3.83E-17
3.46E-17
3.41E-17
Ru-108
8.08E-18
7.06E-18
6.41E-18
6.05E-18
5.35E-18
5.25E-18
Rhodium
Rh-94
5.03E-16
4.63E-16
4.29E-16
4.19E-16
3.81E-16
3.75E-16
Rh-95
3.38E-16
3.11E-16
2.89E-16
2.82E-16
2.56E-16
2.53E-16
225
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Rh-95m
1.18E-16
1.09E-16
1.01E-16
9.91E-17
9.02E-17
8.91E-17
Rh-96
5.10E-16
4.69E-16
4.35E-16
4.23E-16
3.82E-16
3.77E-16
Rh-96m
1.69E-16
1.55E-16
1.44E-16
1.40E-16
1.27E-16
1.26E-16
Rh-97
1.86E-16
1.70E-16
1.57E-16
1.52E-16
1.37E-16
1.35E-16
Rh-97m
2.97E-16
2.72E-16
2.53E-16
2.48E-16
2.27E-16
2.24E-16
Rh-98
2.33E-16
2.14E-16
1.98E-16
1.92E-16
1.73E-16
1.70E-16
Rh-99
6.91E-17
6.27E-17
5.73E-17
5.54E-17
4.96E-17
4.88E-17
Rh-99m
8.21E-17
7.47E-17
6.88E-17
6.66E-17
5.97E-17
5.88E-17
Rh-100
3.67E-16
3.38E-16
3.14E-16
3.07E-16
2.81E-16
2.78E-16
Rh-lOOm
6.07E-18
5.35E-18
4.85E-18
4.74E-18
4.21E-18
4.13E-18
Rh-101
3.46E-17
3.01E-17
2.69E-17
2.54E-17
2.26E-17
2.22E-17
Rh-lOlm
3.49E-17
3.11E-17
2.83E-17
2.71E-17
2.40E-17
2.36E-17
Rh-102
6.32E-17
5.78E-17
5.33E-17
5.16E-17
4.62E-17
4.55E-17
Rh-102m
2.75E-16
2.53E-16
2.34E-16
2.28E-16
2.05E-16
2.02E-16
Rh-103m
3.51E-20
2.18E-20
1.86E-20
1.82E-20
1.11E-20
1.02E-20
Rh-104
2.75E-18
2.56E-18
2.40E-18
2.34E-18
2.17E-18
2.15E-18
Rh-104m
3.34E-18
2.60E-18
2.19E-18
2.06E-18
1.72E-18
1.64E-18
Rh-105
9.83E-18
8.77E-18
8.00E-18
7.66E-18
6.80E-18
6.70E-18
Rh-106
2.83E-17
2.60E-17
2.41E-17
2.34E-17
2.11E-17
2.08E-17
Rh-106m
3.72E-16
3.42E-16
3.16E-16
3.08E-16
2.78E-16
2.74E-16
Rh-107
3.99E-17
3.57E-17
3.26E-17
3.13E-17
2.78E-17
2.74E-17
Rh-108
4.30E-17
3.94E-17
3.63E-17
3.51E-17
3.16E-17
3.11E-17
Rh-109
3.86E-17
3.45E-17
3.15E-17
3.01E-17
2.68E-17
2.64E-17
Palladium
Pd-96
1.84E-16
1.69E-16
1.56E-16
1.51E-16
1.36E-16
1.34E-16
Pd-97
3.14E-16
2.88E-16
2.67E-16
2.60E-16
2.36E-16
2.33E-16
Pd-98
5.08E-17
4.59E-17
4.16E-17
4.01E-17
3.63E-17
3.56E-17
Pd-99
1.66E-16
1.51E-16
1.40E-16
1.35E-16
1.22E-16
1.21E-16
Pd-100
1.18E-17
9.71E-18
7.80E-18
7.68E-18
6.86E-18
6.57E-18
Pd-101
4.22E-17
3.83E-17
3.53E-17
3.42E-17
3.06E-17
3.01E-17
Pd-103
3.25E-19
2.04E-19
1.75E-19
1.71E-19
1.06E-19
9.72E-20
Pd-107
1.78E-24
1.08E-24
9.47E-25
8.69E-25
3.92E-25
3.55E-25
Pd-109
9.56E-19
8.00E-19
7.00E-19
6.82E-19
6.20E-19
6.03E-19
Pd-109m
1.35E-17
1.18E-17
1.06E-17
1.01E-17
8.82E-18
8.68E-18
Pd-111
7.16E-18
6.60E-18
6.13E-18
5.99E-18
5.46E-18
5.39E-18
Pd-112
1.02E-19
6.87E-20
6.21E-20
6.15E-20
4.04E-20
3.82E-20
Pd-114
3.73E-18
3.31E-18
3.01E-18
2.87E-18
2.60E-18
2.56E-18
Silver
Ag-99
3.02E-16
2.77E-16
2.56E-16
2.49E-16
2.25E-16
2.22E-16
Ag-lOOm
3.72E-16
3.41E-16
3.16E-16
3.08E-16
2.79E-16
2.75E-16
Ag-101
2.02E-16
1.85E-16
1.70E-16
1.65E-16
1.49E-16
1.47E-16
Ag-102
4.48E-16
4.12E-16
3.82E-16
3.73E-16
3.38E-16
3.33E-16
Ag-102m
2.69E-16
2.48E-16
2.30E-16
2.26E-16
2.07E-16
2.05E-16
Ag-103
1.07E-16
9.78E-17
9.00E-17
8.72E-17
7.85E-17
7.73E-17
Ag-104
3.51E-16
3.23E-16
2.99E-16
2.92E-16
2.63E-16
2.60E-16
Ag-104m
2.36E-16
2.16E-16
2.00E-16
1.95E-16
1.77E-16
1.75E-16
226
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ag-105
6.33E-17
5.70E-17
5.22E-17
5.04E-17
4.48E-17
4.42E-17
Ag-105m
1.27E-19
1.14E-19
1.04E-19
1.00E-19
8.93E-20
8.80E-20
Ag-106
8.78E-17
8.04E-17
7.41E-17
7.16E-17
6.41E-17
6.31E-17
Ag-106m
3.64E-16
3.34E-16
3.09E-16
3.01E-16
2.72E-16
2.68E-16
Ag-108
2.91E-18
2.69E-18
2.51E-18
2.44E-18
2.23E-18
2.20E-18
Ag-108m
2.04E-16
1.87E-16
1.73E-16
1.68E-16
1.50E-16
1.48E-16
Ag-109m
5.85E-19
4.47E-19
3.60E-19
3.47E-19
2.98E-19
2.83E-19
Ag-110
5.47E-18
5.07E-18
4.73E-18
4.62E-18
4.23E-18
4.18E-18
Ag-llOm
3.60E-16
3.32E-16
3.08E-16
3.01E-16
2.71E-16
2.67E-16
Ag-111
3.61E-18
3.25E-18
2.98E-18
2.86E-18
2.57E-18
2.53E-18
Ag-lllm
5.45E-19
4.55E-19
4.08E-19
3.93E-19
3.35E-19
3.27E-19
Ag-112
9.34E-17
8.59E-17
7.98E-17
7.80E-17
7.10E-17
7.00E-17
Ag-113
1.00E-17
9.07E-18
8.35E-18
8.07E-18
7.25E-18
7.15E-18
Ag-113m
2.70E-17
2.44E-17
2.24E-17
2.15E-17
1.92E-17
1.89E-17
Ag-114
3.80E-17
3.50E-17
3.25E-17
3.18E-17
2.90E-17
2.86E-17
Ag-115
6.61E-17
6.04E-17
5.60E-17
5.47E-17
4.99E-17
4.93E-17
Ag-116
2.93E-16
2.70E-16
2.52E-16
2.47E-16
2.26E-16
2.24E-16
Ag-117
1.79E-16
1.65E-16
1.53E-16
1.50E-16
1.38E-16
1.36E-16
Cadmium
Cd-101
3.28E-16
3.01E-16
2.79E-16
2.72E-16
2.47E-16
2.44E-16
Cd-102
1.06E-16
9.64E-17
8.89E-17
8.62E-17
7.74E-17
7.62E-17
Cd-103
2.80E-16
2.57E-16
2.39E-16
2.34E-16
2.14E-16
2.11E-16
Cd-104
2.94E-17
2.65E-17
2.39E-17
2.32E-17
2.09E-17
2.05E-17
Cd-105
1.72E-16
1.58E-16
1.46E-16
1.43E-16
1.30E-16
1.29E-16
Cd-107
1.76E-18
1.39E-18
1.19E-18
1.15E-18
9.70E-19
9.34E-19
Cd-109
9.94E-19
7.02E-19
5.74E-19
5.53E-19
4.33E-19
4.07E-19
Cd-lllm
3.51E-17
3.08E-17
2.79E-17
2.65E-17
2.33E-17
2.29E-17
Cd-113
2.86E-20
2.78E-20
2.73E-20
2.72E-20
2.68E-20
2.68E-20
Cd-113m
1.14E-19
1.10E-19
1.07E-19
1.06E-19
1.04E-19
1.03E-19
Cd-115
2.44E-17
2.23E-17
2.05E-17
1.98E-17
1.78E-17
1.75E-17
Cd-115m
4.93E-18
4.57E-18
4.26E-18
4.18E-18
3.81E-18
3.76E-18
Cd-117
1.44E-16
1.32E-16
1.22E-16
1.19E-16
1.08E-16
1.07E-16
Cd-117m
2.76E-16
2.54E-16
2.37E-16
2.32E-16
2.12E-16
2.09E-16
Cd-118
8.46E-20
8.21E-20
8.05E-20
8.01E-20
7.90E-20
7.87E-20
Cd-119
2.22E-16
2.04E-16
1.89E-16
1.85E-16
1.69E-16
1.67E-16
Cd-119m
3.11E-16
2.86E-16
2.66E-16
2.61E-16
2.39E-16
2.36E-16
Indium
In-103
3.64E-16
3.34E-16
3.10E-16
3.02E-16
2.74E-16
2.70E-16
In-105
2.51E-16
2.30E-16
2.13E-16
2.07E-16
1.87E-16
1.84E-16
In-106
4.59E-16
4.22E-16
3.91E-16
3.80E-16
3.42E-16
3.37E-16
In-106m
3.75E-16
3.45E-16
3.20E-16
3.12E-16
2.84E-16
2.81E-16
In-107
2.02E-16
1.84E-16
1.71E-16
1.66E-16
1.51E-16
1.49E-16
In-108
5.12E-16
4.70E-16
4.36E-16
4.26E-16
3.84E-16
3.79E-16
In-108m
3.71E-16
3.43E-16
3.19E-16
3.13E-16
2.87E-16
2.83E-16
In-109
8.18E-17
7.41E-17
6.82E-17
6.61E-17
5.93E-17
5.85E-17
In-109m
7.73E-17
7.12E-17
6.58E-17
6.39E-17
5.73E-17
5.65E-17
227
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
In-110
3.99E-16
3.68E-16
3.41E-16
3.33E-16
2.99E-16
2.95E-16
In-110m
2.03E-16
1.87E-16
1.73E-16
1.68E-16
1.52E-16
1.49E-16
In-Ill
4.95E-17
4.32E-17
3.92E-17
3.72E-17
3.26E-17
3.21E-17
In-lllm
5.90E-17
5.41E-17
4.99E-17
4.82E-17
4.32E-17
4.26E-17
In-112
3.33E-17
3.05E-17
2.81E-17
2.72E-17
2.43E-17
2.40E-17
In-112m
3.06E-18
2.56E-18
2.31E-18
2.17E-18
1.87E-18
1.82E-18
In-113m
3.22E-17
2.91E-17
2.66E-17
2.56E-17
2.28E-17
2.25E-17
In-114
1.14E-18
1.07E-18
1.02E-18
1.01E-18
9.61E-19
9.53E-19
In-114m
9.41E-18
8.39E-18
7.68E-18
7.38E-18
6.54E-18
6.44E-18
In-115
7.69E-20
7.47E-20
7.32E-20
7.28E-20
7.19E-20
7.16E-20
In-115m
1.98E-17
1.77E-17
1.61E-17
1.55E-17
1.37E-17
1.35E-17
In-116m
3.31E-16
3.04E-16
2.83E-16
2.77E-16
2.52E-16
2.49E-16
In-117
8.72E-17
7.93E-17
7.29E-17
7.02E-17
6.26E-17
6.16E-17
In-117m
1.14E-17
1.01E-17
9.19E-18
8.76E-18
7.76E-18
7.64E-18
In-118
1.36E-17
1.26E-17
1.18E-17
1.15E-17
1.06E-17
1.05E-17
In-118m
3.68E-16
3.39E-16
3.15E-16
3.09E-16
2.79E-16
2.75E-16
In-119
9.94E-17
9.16E-17
8.49E-17
8.28E-17
7.43E-17
7.33E-17
In-119m
9.78E-18
9.01E-18
8.39E-18
8.21E-18
7.48E-18
7.38E-18
In-121
1.22E-16
1.13E-16
1.05E-16
1.02E-16
9.19E-17
9.06E-17
In-121m
9.46E-18
8.52E-18
7.83E-18
7.69E-18
6.99E-18
6.88E-18
Tin
Sn-106
1.53E-16
1.40E-16
1.29E-16
1.25E-16
1.12E-16
1.10E-16
Sn-108
8.47E-17
7.63E-17
6.98E-17
6.72E-17
5.99E-17
5.90E-17
Sn-109
2.95E-16
2.71E-16
2.52E-16
2.47E-16
2.25E-16
2.22E-16
Sn-110
3.52E-17
3.10E-17
2.82E-17
2.69E-17
2.37E-17
2.34E-17
Sn-111
6.23E-17
5.70E-17
5.27E-17
5.12E-17
4.62E-17
4.55E-17
Sn-113
1.28E-18
9.82E-19
8.60E-19
8.16E-19
6.68E-19
6.47E-19
Sn-113m
5.11E-19
3.38E-19
2.76E-19
2.61E-19
1.94E-19
1.82E-19
Sn-117m
1.82E-17
1.58E-17
1.43E-17
1.35E-17
1.17E-17
1.15E-17
Sn-119m
4.98E-19
3.19E-19
2.63E-19
2.47E-19
1.76E-19
1.65E-19
Sn-121
4.59E-20
4.46E-20
4.38E-20
4.36E-20
4.31E-20
4.29E-20
Sn-121m
2.25E-19
1.54E-19
1.29E-19
1.19E-19
9.29E-20
8.82E-20
Sn-123
1.40E-18
1.31E-18
1.23E-18
1.21E-18
1.13E-18
1.12E-18
Sn-123m
1.78E-17
1.55E-17
1.42E-17
1.33E-17
1.17E-17
1.15E-17
Sn-125
4.52E-17
4.17E-17
3.88E-17
3.80E-17
3.44E-17
3.40E-17
Sn-125m
4.47E-17
4.01E-17
3.67E-17
3.52E-17
3.14E-17
3.09E-17
Sn-126
5.84E-18
4.82E-18
3.83E-18
3.71E-18
3.41E-18
3.27E-18
Sn-127
2.53E-16
2.33E-16
2.16E-16
2.12E-16
1.92E-16
1.89E-16
Sn-127m
7.40E-17
6.78E-17
6.26E-17
6.07E-17
5.47E-17
5.39E-17
Sn-128
7.23E-17
6.54E-17
5.99E-17
5.79E-17
5.16E-17
5.08E-17
Sn-129
1.33E-16
1.22E-16
1.13E-16
1.10E-16
9.96E-17
9.82E-17
Sn-130
1.19E-16
1.08E-16
9.90E-17
9.60E-17
8.58E-17
8.44E-17
Sn-130m
1.17E-16
1.07E-16
9.94E-17
9.70E-17
8.77E-17
8.65E-17
Antimony
Sb-111
1.90E-16
1.73E-16
1.60E-16
1.54E-16
1.38E-16
1.36E-16
Sb-113
1.60E-16
1.47E-16
1.35E-16
1.31E-16
1.17E-16
1.16E-16
228
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sb-114
3.55E-16
3.26E-16
3.03E-16
2.96E-16
2.68E-16
2.64E-16
Sb-115
1.11E-16
1.02E-16
9.35E-17
9.04E-17
8.10E-17
7.97E-17
Sb-116
3.02E-16
2.78E-16
2.58E-16
2.52E-16
2.29E-16
2.26E-16
Sb-116m
4.05E-16
3.72E-16
3.45E-16
3.36E-16
3.04E-16
3.00E-16
Sb-117
2.15E-17
1.87E-17
1.70E-17
1.61E-17
1.41E-17
1.38E-17
Sb-118
1.02E-16
9.34E-17
8.61E-17
8.33E-17
7.47E-17
7.35E-17
Sb-118m
3.42E-16
3.13E-16
2.91E-16
2.84E-16
2.56E-16
2.53E-16
Sb-119
8.05E-19
5.18E-19
4.26E-19
3.99E-19
2.87E-19
2.69E-19
Sb-120
5.62E-17
5.14E-17
4.73E-17
4.58E-17
4.10E-17
4.04E-17
Sb-120m
3.22E-16
2.95E-16
2.73E-16
2.67E-16
2.41E-16
2.38E-16
Sb-122
5.68E-17
5.22E-17
4.82E-17
4.67E-17
4.20E-17
4.13E-17
Sb-122m
6.23E-18
4.91E-18
3.93E-18
3.93E-18
3.31E-18
3.16E-18
Sb-124
2.47E-16
2.27E-16
2.10E-16
2.06E-16
1.87E-16
1.85E-16
Sb-124m
5.58E-17
5.12E-17
4.73E-17
4.58E-17
4.11E-17
4.05E-17
Sb-124n
2.98E-23
1.92E-23
1.58E-23
1.47E-23
1.07E-23
1.00E-23
Sb-125
5.39E-17
4.91E-17
4.51E-17
4.36E-17
3.89E-17
3.84E-17
Sb-126
3.52E-16
3.24E-16
2.99E-16
2.91E-16
2.61E-16
2.57E-16
Sb-126m
1.98E-16
1.81E-16
1.68E-16
1.63E-16
1.46E-16
1.44E-16
Sb-127
8.84E-17
8.11E-17
7.49E-17
7.27E-17
6.51E-17
6.42E-17
Sb-128
3.97E-16
3.65E-16
3.38E-16
3.28E-16
2.95E-16
2.91E-16
Sb-128m
2.46E-16
2.26E-16
2.09E-16
2.03E-16
1.82E-16
1.79E-16
Sb-129
1.92E-16
1.77E-16
1.64E-16
1.60E-16
1.45E-16
1.43E-16
Sb-130
4.26E-16
3.90E-16
3.61E-16
3.52E-16
3.16E-16
3.12E-16
Sb-130m
3.54E-16
3.26E-16
3.02E-16
2.95E-16
2.66E-16
2.62E-16
Sb-131
2.76E-16
2.54E-16
2.36E-16
2.31E-16
2.10E-16
2.07E-16
Sb-133
3.71E-16
3.42E-16
3.18E-16
3.12E-16
2.85E-16
2.81E-16
Tellurium
Te-113
2.93E-16
2.69E-16
2.50E-16
2.43E-16
2.21E-16
2.18E-16
Te-114
1.67E-16
1.53E-16
1.42E-16
1.38E-16
1.25E-16
1.24E-16
Te-115
2.94E-16
2.70E-16
2.50E-16
2.44E-16
2.20E-16
2.17E-16
Te-115m
3.44E-16
3.16E-16
2.93E-16
2.86E-16
2.59E-16
2.56E-16
Te-116
1.12E-17
9.69E-18
8.46E-18
8.10E-18
7.34E-18
7.15E-18
Te-117
2.03E-16
1.87E-16
1.73E-16
1.69E-16
1.54E-16
1.52E-16
Te-118
7.80E-19
5.10E-19
4.18E-19
3.88E-19
2.88E-19
2.71E-19
Te-119
9.69E-17
8.89E-17
8.23E-17
8.00E-17
7.19E-17
7.09E-17
Te-119m
1.97E-16
1.81E-16
1.68E-16
1.64E-16
1.48E-16
1.46E-16
Te-121
7.10E-17
6.50E-17
5.99E-17
5.79E-17
5.19E-17
5.11E-17
Te-121m
2.65E-17
2.32E-17
2.11E-17
2.01E-17
1.77E-17
1.74E-17
Te-123
1.36E-21
8.86E-22
7.26E-22
6.74E-22
5.01E-22
4.71E-22
Te-123m
1.73E-17
1.50E-17
1.36E-17
1.28E-17
1.12E-17
1.09E-17
Te-125m
1.61E-18
1.08E-18
8.91E-19
8.21E-19
6.33E-19
5.99E-19
Te-127
7.54E-19
6.91E-19
6.41E-19
6.21E-19
5.66E-19
5.59E-19
Te-127m
5.13E-19
3.50E-19
2.89E-19
2.69E-19
2.09E-19
1.98E-19
Te-129
7.97E-18
7.24E-18
6.68E-18
6.46E-18
5.80E-18
5.72E-18
Te-129m
4.33E-18
3.91E-18
3.60E-18
3.50E-18
3.13E-18
3.08E-18
Te-131
5.41E-17
4.91E-17
4.52E-17
4.36E-17
3.91E-17
3.85E-17
229
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Te-131m
1.89E-16
1.74E-16
1.61E-16
1.57E-16
1.41E-16
1.39E-16
Te-132
2.78E-17
2.40E-17
2.17E-17
2.05E-17
1.80E-17
1.77E-17
Te-133
1.59E-16
1.45E-16
1.35E-16
1.31E-16
1.19E-16
1.17E-16
Te-133m
2.44E-16
2.24E-16
2.08E-16
2.03E-16
1.83E-16
1.80E-16
Te-134
1.10E-16
1.00E-16
9.20E-17
8.91E-17
7.96E-17
7.84E-17
Iodine
1-118
2.62E-16
2.40E-16
2.22E-16
2.16E-16
1.94E-16
1.91E-16
I-118m
4.82E-16
4.43E-16
4.10E-16
3.99E-16
3.59E-16
3.53E-16
1-119
1.15E-16
1.04E-16
9.56E-17
9.21E-17
8.23E-17
8.11E-17
1-120
3.54E-16
3.26E-16
3.03E-16
2.96E-16
2.70E-16
2.67E-16
I-120m
4.58E-16
4.21E-16
3.89E-16
3.79E-16
3.43E-16
3.38E-16
1-121
4.90E-17
4.37E-17
3.99E-17
3.82E-17
3.39E-17
3.34E-17
1-122
1.23E-16
1.12E-16
1.03E-16
1.00E-16
8.98E-17
8.85E-17
1-123
1.96E-17
1.70E-17
1.54E-17
1.45E-17
1.27E-17
1.24E-17
1-124
1.44E-16
1.32E-16
1.22E-16
1.19E-16
1.08E-16
1.06E-16
1-125
1.88E-18
1.25E-18
1.03E-18
9.44E-19
7.20E-19
6.79E-19
1-126
5.44E-17
4.97E-17
4.58E-17
4.43E-17
3.97E-17
3.91E-17
1-128
9.20E-18
8.40E-18
7.75E-18
7.49E-18
6.75E-18
6.65E-18
1-129
1.33E-18
9.13E-19
7.55E-19
6.89E-19
5.42E-19
5.14E-19
1-130
2.73E-16
2.51E-16
2.32E-16
2.25E-16
2.02E-16
1.99E-16
I-130m
1.37E-17
1.25E-17
1.15E-17
1.12E-17
1.00E-17
9.88E-18
1-131
4.82E-17
4.35E-17
3.98E-17
3.83E-17
3.41E-17
3.36E-17
1-132
2.93E-16
2.70E-16
2.50E-16
2.44E-16
2.20E-16
2.17E-16
I-132m
4.26E-17
3.90E-17
3.60E-17
3.49E-17
3.13E-17
3.08E-17
1-133
7.81E-17
7.16E-17
6.62E-17
6.41E-17
5.76E-17
5.67E-17
1-134
3.40E-16
3.13E-16
2.91E-16
2.84E-16
2.56E-16
2.52E-16
I-134m
3.47E-17
3.06E-17
2.78E-17
2.66E-17
2.35E-17
2.31E-17
1-135
2.13E-16
1.95E-16
1.82E-16
1.78E-16
1.62E-16
1.60E-16
Xenon
Xe-120
4.78E-17
4.31E-17
3.95E-17
3.82E-17
3.41E-17
3.35E-17
Xe-121
1.94E-16
1.78E-16
1.65E-16
1.60E-16
1.46E-16
1.44E-16
Xe-122
6.73E-18
5.77E-18
5.19E-18
4.94E-18
4.33E-18
4.24E-18
Xe-123
8.12E-17
7.36E-17
6.79E-17
6.57E-17
5.91E-17
5.82E-17
Xe-125
3.20E-17
2.80E-17
2.54E-17
2.42E-17
2.13E-17
2.10E-17
Xe-127
3.34E-17
2.91E-17
2.63E-17
2.50E-17
2.19E-17
2.16E-17
Xe-127m
1.97E-17
1.70E-17
1.50E-17
1.39E-17
1.26E-17
1.23E-17
Xe-129m
3.40E-18
2.56E-18
2.20E-18
2.05E-18
1.70E-18
1.64E-18
Xe-131m
1.30E-18
9.75E-19
8.39E-19
7.80E-19
6.47E-19
6.24E-19
Xe-133
4.54E-18
3.66E-18
2.91E-18
2.85E-18
2.55E-18
2.44E-18
Xe-133m
3.93E-18
3.28E-18
2.93E-18
2.77E-18
2.41E-18
2.36E-18
Xe-135
3.17E-17
2.79E-17
2.54E-17
2.42E-17
2.14E-17
2.11E-17
Xe-135m
5.32E-17
4.87E-17
4.48E-17
4.33E-17
3.88E-17
3.82E-17
Xe-137
2.71E-17
2.49E-17
2.30E-17
2.23E-17
2.02E-17
1.99E-17
Xe-138
1.53E-16
1.39E-16
1.29E-16
1.27E-16
1.16E-16
1.14E-16
Cesium
Cs-121
1.51E-16
1.38E-16
1.27E-16
1.23E-16
1.10E-16
1.08E-16
230
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Cs-121m
1.51E-16
1.37E-16
1.27E-16
1.22E-16
1.09E-16
1.08E-16
Cs-123
1.37E-16
1.26E-16
1.15E-16
1.12E-16
1.00E-16
9.88E-17
Cs-124
1.51E-16
1.38E-16
1.27E-16
1.23E-16
1.10E-16
1.09E-16
Cs-125
9.51E-17
8.69E-17
8.00E-17
7.75E-17
6.96E-17
6.86E-17
Cs-126
1.48E-16
1.35E-16
1.25E-16
1.20E-16
1.08E-16
1.06E-16
Cs-127
5.28E-17
4.76E-17
4.36E-17
4.19E-17
3.74E-17
3.69E-17
Cs-128
1.13E-16
1.03E-16
9.52E-17
9.21E-17
8.25E-17
8.13E-17
Cs-129
3.27E-17
2.92E-17
2.66E-17
2.55E-17
2.27E-17
2.23E-17
Cs-130
6.28E-17
5.73E-17
5.28E-17
5.11E-17
4.58E-17
4.51E-17
Cs-130m
6.76E-18
5.46E-18
4.52E-18
4.35E-18
3.82E-18
3.67E-18
Cs-131
1.15E-18
7.79E-19
6.40E-19
5.86E-19
4.57E-19
4.33E-19
Cs-132
8.94E-17
8.21E-17
7.58E-17
7.37E-17
6.60E-17
6.50E-17
Cs-134
1.99E-16
1.84E-16
1.70E-16
1.65E-16
1.48E-16
1.46E-16
Cs-134m
2.54E-18
2.11E-18
1.82E-18
1.68E-18
1.51E-18
1.47E-18
Cs-135
2.49E-20
2.42E-20
2.38E-20
2.37E-20
2.34E-20
2.33E-20
Cs-135m
2.07E-16
1.91E-16
1.77E-16
1.73E-16
1.55E-16
1.53E-16
Cs-136
2.78E-16
2.55E-16
2.36E-16
2.31E-16
2.08E-16
2.05E-16
Cs-137
1.12E-19
1.08E-19
1.06E-19
1.05E-19
1.03E-19
1.03E-19
Cs-138
3.20E-16
2.95E-16
2.74E-16
2.69E-16
2.46E-16
2.42E-16
Cs-138m
5.42E-17
4.93E-17
4.56E-17
4.44E-17
4.03E-17
3.97E-17
Cs-139
4.40E-17
4.06E-17
3.79E-17
3.72E-17
3.42E-17
3.38E-17
Cs-140
2.44E-16
2.25E-16
2.09E-16
2.06E-16
1.89E-16
1.87E-16
Barium
Ba-124
7.17E-17
6.51E-17
5.99E-17
5.80E-17
5.20E-17
5.12E-17
Ba-126
7.32E-17
6.65E-17
6.13E-17
5.95E-17
5.33E-17
5.25E-17
Ba-127
9.22E-17
8.40E-17
7.74E-17
7.48E-17
6.73E-17
6.63E-17
Ba-128
6.61E-18
5.59E-18
5.00E-18
4.74E-18
4.13E-18
4.05E-18
Ba-129
4.11E-17
3.72E-17
3.42E-17
3.30E-17
2.97E-17
2.92E-17
Ba-129m
2.04E-16
1.87E-16
1.73E-16
1.68E-16
1.51E-16
1.49E-16
Ba-131
5.77E-17
5.18E-17
4.72E-17
4.53E-17
4.05E-17
3.98E-17
Ba-131m
8.31E-18
6.97E-18
5.74E-18
5.28E-18
5.03E-18
4.85E-18
Ba-133
4.76E-17
4.20E-17
3.78E-17
3.63E-17
3.22E-17
3.16E-17
Ba-133m
7.39E-18
6.35E-18
5.72E-18
5.44E-18
4.77E-18
4.69E-18
Ba-135m
6.45E-18
5.51E-18
4.95E-18
4.70E-18
4.12E-18
4.05E-18
Ba-137m
7.58E-17
6.98E-17
6.45E-17
6.27E-17
5.62E-17
5.54E-17
Ba-139
6.71E-18
5.95E-18
5.47E-18
5.21E-18
4.65E-18
4.58E-18
Ba-140
2.27E-17
2.06E-17
1.89E-17
1.83E-17
1.63E-17
1.61E-17
Ba-141
1.22E-16
1.11E-16
1.02E-16
9.89E-17
8.91E-17
8.78E-17
Ba-142
1.37E-16
1.25E-16
1.16E-16
1.13E-16
1.02E-16
1.00E-16
Lanthanum
La-128
3.66E-16
3.35E-16
3.10E-16
3.01E-16
2.71E-16
2.67E-16
La-129
1.16E-16
1.05E-16
9.69E-17
9.35E-17
8.37E-17
8.25E-17
La-130
2.89E-16
2.65E-16
2.45E-16
2.38E-16
2.15E-16
2.12E-16
La-131
8.21E-17
7.42E-17
6.79E-17
6.54E-17
5.86E-17
5.77E-17
La-132
2.61E-16
2.40E-16
2.22E-16
2.16E-16
1.96E-16
1.94E-16
La-13 2m
8.41E-17
7.65E-17
7.03E-17
6.79E-17
6.08E-17
5.99E-17
231
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
La-133
1.86E-17
1.67E-17
1.53E-17
1.47E-17
1.31E-17
1.29E-17
La-134
9.11E-17
8.33E-17
7.68E-17
7.43E-17
6.66E-17
6.56E-17
La-135
2.74E-18
2.19E-18
1.92E-18
1.81E-18
1.54E-18
1.50E-18
La-136
5.04E-17
4.60E-17
4.23E-17
4.09E-17
3.66E-17
3.61E-17
La-137
1.41E-18
9.77E-19
8.09E-19
7.36E-19
5.84E-19
5.55E-19
La-138
1.64E-16
1.51E-16
1.40E-16
1.37E-16
1.25E-16
1.23E-16
La-140
3.11E-16
2.85E-16
2.65E-16
2.59E-16
2.36E-16
2.33E-16
La-141
4.82E-18
4.47E-18
4.19E-18
4.11E-18
3.81E-18
3.77E-18
La-142
3.26E-16
3.01E-16
2.81E-16
2.76E-16
2.54E-16
2.51E-16
La-143
3.73E-17
3.43E-17
3.20E-17
3.13E-17
2.87E-17
2.84E-17
Cerium
Ce-130
6.18E-17
5.55E-17
5.08E-17
4.89E-17
4.38E-17
4.31E-17
Ce-131
2.10E-16
1.91E-16
1.77E-16
1.72E-16
1.55E-16
1.53E-16
Ce-132
3.25E-17
2.83E-17
2.56E-17
2.43E-17
2.13E-17
2.09E-17
Ce-133
6.55E-17
5.89E-17
5.35E-17
5.15E-17
4.63E-17
4.54E-17
Ce-133m
2.25E-16
2.06E-16
1.90E-16
1.85E-16
1.68E-16
1.65E-16
Ce-134
1.78E-18
1.28E-18
1.08E-18
9.84E-19
7.99E-19
7.63E-19
Ce-135
1.03E-16
9.34E-17
8.59E-17
8.30E-17
7.42E-17
7.30E-17
Ce-137
2.99E-18
2.39E-18
2.10E-18
1.97E-18
1.68E-18
1.63E-18
Ce-137m
5.88E-18
5.00E-18
4.49E-18
4.27E-18
3.73E-18
3.66E-18
Ce-139
1.82E-17
1.56E-17
1.41E-17
1.32E-17
1.15E-17
1.13E-17
Ce-141
9.26E-18
8.01E-18
7.22E-18
6.75E-18
5.94E-18
5.82E-18
Ce-143
3.43E-17
3.06E-17
2.79E-17
2.69E-17
2.38E-17
2.35E-17
Ce-144
2.22E-18
1.89E-18
1.66E-18
1.54E-18
1.38E-18
1.35E-18
Ce-145
1.03E-16
9.43E-17
8.70E-17
8.46E-17
7.59E-17
7.47E-17
Praseodymium
Pr-134
4.06E-16
3.71E-16
3.43E-16
3.33E-16
2.99E-16
2.95E-16
Pr-134m
3.03E-16
2.77E-16
2.57E-16
2.50E-16
2.26E-16
2.23E-16
Pr-135
1.10E-16
9.99E-17
9.18E-17
8.88E-17
7.96E-17
7.84E-17
Pr-136
2.79E-16
2.56E-16
2.37E-16
2.30E-16
2.08E-16
2.05E-16
Pr-137
4.58E-17
4.17E-17
3.84E-17
3.72E-17
3.34E-17
3.28E-17
Pr-138
1.04E-16
9.51E-17
8.77E-17
8.48E-17
7.60E-17
7.49E-17
Pr-138m
3.20E-16
2.94E-16
2.72E-16
2.65E-16
2.38E-16
2.35E-16
Pr-139
1.49E-17
1.33E-17
1.22E-17
1.18E-17
1.05E-17
1.03E-17
Pr-140
6.86E-17
6.26E-17
5.77E-17
5.57E-17
4.99E-17
4.91E-17
Pr-142
8.86E-18
8.15E-18
7.62E-18
7.48E-18
6.90E-18
6.81E-18
Pr-142m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pr-143
2.38E-19
2.29E-19
2.23E-19
2.21E-19
2.17E-19
2.16E-19
Pr-144
5.52E-18
5.11E-18
4.80E-18
4.71E-18
4.37E-18
4.32E-18
Pr-144m
9.70E-19
7.39E-19
6.40E-19
5.91E-19
4.95E-19
4.77E-19
Pr-145
3.09E-18
2.87E-18
2.68E-18
2.62E-18
2.40E-18
2.37E-18
Pr-146
1.36E-16
1.25E-16
1.16E-16
1.14E-16
1.04E-16
1.02E-16
Pr-147
6.18E-17
5.59E-17
5.13E-17
4.98E-17
4.48E-17
4.40E-17
Pr-148
1.34E-16
1.23E-16
1.14E-16
1.11E-16
1.01E-16
9.92E-17
Pr-148m
1.22E-16
1.11E-16
1.02E-16
9.87E-17
8.85E-17
8.72E-17
232
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Neodymium
Nd-134
6.69E-17
6.00E-17
5.48E-17
5.26E-17
4.68E-17
4.60E-17
Nd-135
1.59E-16
1.44E-16
1.33E-16
1.28E-16
1.15E-16
1.13E-16
Nd-136
3.25E-17
2.88E-17
2.61E-17
2.49E-17
2.24E-17
2.20E-17
Nd-137
1.51E-16
1.38E-16
1.27E-16
1.24E-16
1.11E-16
1.10E-16
Nd-138
3.77E-18
3.01E-18
2.65E-18
2.47E-18
2.10E-18
2.04E-18
Nd-139
5.53E-17
5.04E-17
4.64E-17
4.49E-17
4.03E-17
3.97E-17
Nd-139m
2.04E-16
1.87E-16
1.73E-16
1.68E-16
1.52E-16
1.50E-16
Nd-140
1.91E-18
1.37E-18
1.15E-18
1.04E-18
8.38E-19
7.98E-19
Nd-141
8.08E-18
7.04E-18
6.40E-18
6.14E-18
5.43E-18
5.33E-18
Nd-141m
8.93E-17
8.23E-17
7.63E-17
7.43E-17
6.67E-17
6.57E-17
Nd-144
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Nd-147
1.67E-17
1.48E-17
1.33E-17
1.27E-17
1.14E-17
1.12E-17
Nd-149
4.66E-17
4.16E-17
3.78E-17
3.61E-17
3.22E-17
3.17E-17
Nd-151
1.11E-16
1.01E-16
9.33E-17
9.07E-17
8.19E-17
8.07E-17
Nd-152
2.08E-17
1.84E-17
1.68E-17
1.60E-17
1.42E-17
1.40E-17
Promethium
Pm-136
3.50E-16
3.21E-16
2.96E-16
2.87E-16
2.57E-16
2.54E-16
Pm-137m
2.27E-16
2.06E-16
1.89E-16
1.83E-16
1.64E-16
1.62E-16
Pm-139
1.20E-16
1.10E-16
1.01E-16
9.79E-17
8.79E-17
8.66E-17
Pm-140
1.37E-16
1.25E-16
1.15E-16
1.12E-16
1.00E-16
9.88E-17
Pm-140m
3.92E-16
3.60E-16
3.33E-16
3.24E-16
2.91E-16
2.87E-16
Pm-141
9.41E-17
8.60E-17
7.95E-17
7.71E-17
6.94E-17
6.84E-17
Pm-142
1.10E-16
1.01E-16
9.28E-17
8.97E-17
8.06E-17
7.94E-17
Pm-143
3.88E-17
3.54E-17
3.26E-17
3.17E-17
2.83E-17
2.79E-17
Pm-144
1.97E-16
1.81E-16
1.67E-16
1.62E-16
1.45E-16
1.43E-16
Pm-145
2.26E-18
1.66E-18
1.39E-18
1.27E-18
1.04E-18
9.86E-19
Pm-146
9.45E-17
8.64E-17
7.97E-17
7.73E-17
6.92E-17
6.81E-17
Pm-147
1.04E-20
9.95E-21
9.71E-21
9.64E-21
9.47E-21
9.43E-21
Pm-148
7.69E-17
7.07E-17
6.57E-17
6.42E-17
5.83E-17
5.76E-17
Pm-148m
2.54E-16
2.33E-16
2.15E-16
2.09E-16
1.87E-16
1.85E-16
Pm-149
1.80E-18
1.63E-18
1.50E-18
1.45E-18
1.31E-18
1.30E-18
Pm-150
1.95E-16
1.79E-16
1.66E-16
1.62E-16
1.47E-16
1.45E-16
Pm-151
4.12E-17
3.69E-17
3.37E-17
3.24E-17
2.88E-17
2.84E-17
Pm-152
3.93E-17
3.61E-17
3.34E-17
3.26E-17
2.96E-17
2.92E-17
Pm-152m
2.00E-16
1.82E-16
1.68E-16
1.64E-16
1.48E-16
1.46E-16
Pm-153
9.45E-18
8.17E-18
7.21E-18
6.78E-18
6.17E-18
6.02E-18
Pm-154
2.43E-16
2.24E-16
2.08E-16
2.04E-16
1.87E-16
1.85E-16
Pm-154m
2.39E-16
2.19E-16
2.03E-16
1.98E-16
1.80E-16
1.77E-16
Samarium
Sm-139
1.87E-16
1.70E-16
1.57E-16
1.52E-16
1.36E-16
1.34E-16
Sm-140
7.20E-17
6.54E-17
6.03E-17
5.85E-17
5.26E-17
5.18E-17
Sm-141
1.82E-16
1.66E-16
1.54E-16
1.49E-16
1.34E-16
1.33E-16
Sm-141m
2.52E-16
2.31E-16
2.13E-16
2.07E-16
1.87E-16
1.84E-16
Sm-142
1.24E-17
1.10E-17
1.00E-17
9.58E-18
8.49E-18
8.33E-18
Sm-143
6.65E-17
6.07E-17
5.59E-17
5.41E-17
4.85E-17
4.77E-17
233
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Sm-143m
8.79E-17
8.11E-17
7.51E-17
7.32E-17
6.57E-17
6.47E-17
Sm-145
4.94E-18
3.66E-18
3.09E-18
2.84E-18
2.31E-18
2.21E-18
Sm-146
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-147
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Sm-151
2.05E-22
1.28E-22
1.08E-22
1.05E-22
6.62E-23
6.10E-23
Sm-153
6.75E-18
5.53E-18
4.60E-18
4.26E-18
3.92E-18
3.77E-18
Sm-155
1.28E-17
1.10E-17
9.21E-18
8.57E-18
8.15E-18
7.89E-18
Sm-156
1.40E-17
1.21E-17
1.07E-17
1.01E-17
9.02E-18
8.83E-18
Sm-157
5.39E-17
4.84E-17
4.43E-17
4.27E-17
3.82E-17
3.77E-17
Europium
Eu-142
1.59E-16
1.46E-16
1.35E-16
1.31E-16
1.18E-16
1.16E-16
Eu-142m
4.44E-16
4.09E-16
3.78E-16
3.68E-16
3.31E-16
3.26E-16
Eu-143
1.46E-16
1.34E-16
1.24E-16
1.20E-16
1.09E-16
1.07E-16
Eu-144
1.43E-16
1.31E-16
1.21E-16
1.17E-16
1.06E-16
1.04E-16
Eu-145
1.68E-16
1.54E-16
1.43E-16
1.40E-16
1.27E-16
1.25E-16
Eu-146
3.12E-16
2.87E-16
2.66E-16
2.59E-16
2.34E-16
2.31E-16
Eu-147
5.87E-17
5.30E-17
4.86E-17
4.70E-17
4.21E-17
4.15E-17
Eu-148
2.85E-16
2.61E-16
2.42E-16
2.35E-16
2.11E-16
2.08E-16
Eu-149
6.57E-18
5.48E-18
4.90E-18
4.60E-18
3.98E-18
3.88E-18
Eu-150
1.97E-16
1.79E-16
1.65E-16
1.60E-16
1.43E-16
1.41E-16
Eu-150m
6.38E-18
5.77E-18
5.31E-18
5.13E-18
4.61E-18
4.54E-18
Eu-152
1.53E-16
1.40E-16
1.29E-16
1.26E-16
1.14E-16
1.12E-16
Eu-152m
3.86E-17
3.54E-17
3.27E-17
3.19E-17
2.87E-17
2.83E-17
Eu-152n
8.34E-18
6.94E-18
5.55E-18
5.28E-18
4.96E-18
4.75E-18
Eu-154
1.64E-16
1.50E-16
1.39E-16
1.36E-16
1.23E-16
1.21E-16
Eu-154m
7.13E-18
5.81E-18
4.69E-18
4.51E-18
4.05E-18
3.88E-18
Eu-155
6.87E-18
5.72E-18
4.63E-18
4.36E-18
4.09E-18
3.92E-18
Eu-156
1.66E-16
1.53E-16
1.42E-16
1.39E-16
1.27E-16
1.25E-16
Eu-157
3.56E-17
3.18E-17
2.89E-17
2.79E-17
2.48E-17
2.43E-17
Eu-158
1.72E-16
1.59E-16
1.47E-16
1.44E-16
1.31E-16
1.29E-16
Eu-159
3.77E-17
3.38E-17
3.07E-17
2.98E-17
2.67E-17
2.62E-17
Gadolinium
Gd-142
1.34E-16
1.23E-16
1.13E-16
1.10E-16
9.90E-17
9.76E-17
Gd-143m
2.75E-16
2.51E-16
2.32E-16
2.25E-16
2.03E-16
2.00E-16
Gd-144
1.19E-16
1.09E-16
1.01E-16
9.79E-17
8.88E-17
8.76E-17
Gd-145
3.29E-16
3.02E-16
2.81E-16
2.75E-16
2.53E-16
2.50E-16
Gd-145m
8.69E-17
7.99E-17
7.39E-17
7.19E-17
6.44E-17
6.35E-17
Gd-146
2.76E-17
2.31E-17
2.01E-17
1.85E-17
1.66E-17
1.61E-17
Gd-147
1.79E-16
1.63E-16
1.51E-16
1.46E-16
1.31E-16
1.29E-16
Gd-148
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-149
6.50E-17
5.81E-17
5.32E-17
5.10E-17
4.53E-17
4.45E-17
Gd-150
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-151
7.05E-18
5.80E-18
5.16E-18
4.80E-18
4.12E-18
4.01E-18
Gd-152
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Gd-153
1.05E-17
8.47E-18
7.00E-18
6.44E-18
5.87E-18
5.62E-18
234
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Gd-159
6.61E-18
5.84E-18
5.31E-18
5.08E-18
4.50E-18
4.43E-18
Gd-162
5.24E-17
4.75E-17
4.36E-17
4.20E-17
3.75E-17
3.69E-17
Terbium
Tb-146
4.87E-16
4.48E-16
4.16E-16
4.07E-16
3.71E-16
3.66E-16
Tb-147
2.86E-16
2.63E-16
2.44E-16
2.38E-16
2.16E-16
2.13E-16
Tb-147m
2.56E-16
2.35E-16
2.18E-16
2.14E-16
1.95E-16
1.92E-16
Tb-148
3.10E-16
2.86E-16
2.65E-16
2.58E-16
2.34E-16
2.31E-16
Tb-148m
4.02E-16
3.69E-16
3.41E-16
3.32E-16
2.98E-16
2.94E-16
Tb-149
1.77E-16
1.62E-16
1.50E-16
1.46E-16
1.32E-16
1.30E-16
Tb-149m
1.75E-16
1.61E-16
1.49E-16
1.45E-16
1.30E-16
1.28E-16
Tb-150
3.26E-16
3.00E-16
2.79E-16
2.73E-16
2.50E-16
2.47E-16
Tb-150m
3.18E-16
2.92E-16
2.69E-16
2.61E-16
2.33E-16
2.30E-16
Tb-151
1.25E-16
1.13E-16
1.03E-16
9.95E-17
8.91E-17
8.77E-17
Tb-151m
9.37E-18
8.38E-18
7.66E-18
7.37E-18
6.54E-18
6.43E-18
Tb-152
1.96E-16
1.79E-16
1.66E-16
1.62E-16
1.47E-16
1.45E-16
Tb-152m
9.47E-17
8.49E-17
7.77E-17
7.47E-17
6.64E-17
6.54E-17
Tb-153
4.00E-17
3.53E-17
3.20E-17
3.07E-17
2.73E-17
2.68E-17
Tb-154
3.09E-16
2.83E-16
2.64E-16
2.58E-16
2.37E-16
2.34E-16
Tb-155
1.98E-17
1.66E-17
1.44E-17
1.35E-17
1.21E-17
1.17E-17
Tb-156
2.52E-16
2.30E-16
2.13E-16
2.07E-16
1.87E-16
1.85E-16
Tb-156m
3.43E-18
2.64E-18
2.26E-18
2.08E-18
1.72E-18
1.64E-18
Tb-156n
3.50E-19
2.75E-19
2.30E-19
2.13E-19
1.85E-19
1.77E-19
Tb-157
3.86E-19
2.90E-19
2.49E-19
2.25E-19
1.84E-19
1.75E-19
Tb-158
1.03E-16
9.44E-17
8.73E-17
8.52E-17
7.65E-17
7.53E-17
Tb-160
1.47E-16
1.35E-16
1.25E-16
1.22E-16
1.10E-16
1.09E-16
Tb-161
3.14E-18
2.46E-18
2.06E-18
1.96E-18
1.66E-18
1.59E-18
Tb-162
1.43E-16
1.31E-16
1.20E-16
1.17E-16
1.05E-16
1.03E-16
Tb-163
9.93E-17
9.01E-17
8.27E-17
7.96E-17
7.11E-17
7.00E-17
Tb-164
3.21E-16
2.94E-16
2.72E-16
2.65E-16
2.40E-16
2.36E-16
Tb-165
1.13E-16
1.04E-16
9.63E-17
9.42E-17
8.58E-17
8.46E-17
Dysprosium
Dy-148
8.96E-17
8.19E-17
7.55E-17
7.32E-17
6.55E-17
6.45E-17
Dy-149
2.13E-16
1.95E-16
1.80E-16
1.76E-16
1.60E-16
1.58E-16
Dy-150
3.40E-17
3.04E-17
2.78E-17
2.67E-17
2.37E-17
2.33E-17
Dy-151
1.78E-16
1.63E-16
1.51E-16
1.47E-16
1.33E-16
1.31E-16
Dy-152
3.49E-17
3.03E-17
2.74E-17
2.60E-17
2.29E-17
2.25E-17
Dy-153
1.10E-16
9.95E-17
9.14E-17
8.86E-17
7.96E-17
7.83E-17
Dy-154
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Dy-155
8.52E-17
7.68E-17
7.07E-17
6.85E-17
6.13E-17
6.04E-17
Dy-157
4.21E-17
3.72E-17
3.38E-17
3.22E-17
2.85E-17
2.80E-17
Dy-159
3.87E-18
2.93E-18
2.51E-18
2.29E-18
1.88E-18
1.79E-18
Dy-165
3.58E-18
3.20E-18
2.90E-18
2.80E-18
2.54E-18
2.49E-18
Dy-165m
2.11E-18
1.84E-18
1.64E-18
1.55E-18
1.39E-18
1.36E-18
Dy-166
4.34E-18
3.51E-18
2.96E-18
2.81E-18
2.44E-18
2.34E-18
Dy-167
6.77E-17
6.12E-17
5.62E-17
5.42E-17
4.83E-17
4.76E-17
Dy-168
4.92E-17
4.43E-17
4.06E-17
3.90E-17
3.48E-17
3.42E-17
235
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Holmium
Ho-150
2.44E-16
2.24E-16
2.07E-16
2.01E-16
1.81E-16
1.78E-16
Ho-153
1.31E-16
1.19E-16
1.09E-16
1.06E-16
9.45E-17
9.31E-17
Ho-153m
1.34E-16
1.21E-16
1.11E-16
1.08E-16
9.63E-17
9.48E-17
Ho-154
2.43E-16
2.22E-16
2.05E-16
1.99E-16
1.78E-16
1.76E-16
Ho-154m
3.09E-16
2.82E-16
2.60E-16
2.51E-16
2.25E-16
2.21E-16
Ho-155
7.74E-17
6.99E-17
6.42E-17
6.20E-17
5.57E-17
5.48E-17
Ho-156
2.76E-16
2.52E-16
2.33E-16
2.26E-16
2.05E-16
2.02E-16
Ho-157
7.17E-17
6.40E-17
5.84E-17
5.62E-17
5.00E-17
4.92E-17
Ho-159
4.58E-17
3.99E-17
3.57E-17
3.39E-17
3.02E-17
2.96E-17
Ho-160
2.17E-16
1.99E-16
1.84E-16
1.80E-16
1.61E-16
1.59E-16
Ho-161
4.90E-18
3.79E-18
3.22E-18
2.97E-18
2.50E-18
2.39E-18
Ho-162
1.95E-17
1.72E-17
1.57E-17
1.52E-17
1.35E-17
1.33E-17
Ho-162m
7.14E-17
6.47E-17
5.96E-17
5.79E-17
5.20E-17
5.12E-17
Ho-163
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Ho-164
2.77E-18
2.16E-18
1.84E-18
1.71E-18
1.44E-18
1.38E-18
Ho-164m
3.97E-18
3.04E-18
2.59E-18
2.39E-18
1.97E-18
1.88E-18
Ho-166
4.36E-18
3.90E-18
3.55E-18
3.47E-18
3.18E-18
3.12E-18
Ho-166m
2.08E-16
1.89E-16
1.75E-16
1.69E-16
1.52E-16
1.49E-16
Ho-167
4.58E-17
4.09E-17
3.72E-17
3.57E-17
3.17E-17
3.12E-17
Ho-168
1.14E-16
1.05E-16
9.70E-17
9.46E-17
8.51E-17
8.39E-17
Ho-168m
5.62E-19
4.31E-19
3.69E-19
3.39E-19
2.80E-19
2.67E-19
Ho-170
2.22E-16
2.03E-16
1.88E-16
1.83E-16
1.65E-16
1.62E-16
Erbium
Er-154
7.31E-18
6.09E-18
5.42E-18
5.12E-18
4.42E-18
4.29E-18
Er-156
6.02E-18
4.78E-18
4.16E-18
3.87E-18
3.27E-18
3.15E-18
Er-159
1.24E-16
1.13E-16
1.04E-16
1.01E-16
9.14E-17
9.01E-17
Er-161
1.27E-16
1.16E-16
1.08E-16
1.05E-16
9.43E-17
9.29E-17
Er-163
3.64E-18
2.81E-18
2.41E-18
2.22E-18
1.84E-18
1.76E-18
Er-165
3.37E-18
2.59E-18
2.21E-18
2.04E-18
1.68E-18
1.60E-18
Er-167m
1.19E-17
1.03E-17
9.31E-18
8.81E-18
7.73E-18
7.60E-18
Er-169
3.42E-20
3.32E-20
3.25E-20
3.24E-20
3.20E-20
3.19E-20
Er-171
4.65E-17
4.11E-17
3.71E-17
3.54E-17
3.15E-17
3.10E-17
Er-172
6.40E-17
5.80E-17
5.32E-17
5.13E-17
4.58E-17
4.50E-17
Er-173
1.07E-16
9.64E-17
8.83E-17
8.54E-17
7.66E-17
7.53E-17
Thulium
Tm-161
1.69E-16
1.52E-16
1.40E-16
1.37E-16
1.24E-16
1.22E-16
Tm-162
2.55E-16
2.34E-16
2.17E-16
2.13E-16
1.94E-16
1.92E-16
Tm-163
1.72E-16
1.57E-16
1.45E-16
1.41E-16
1.28E-16
1.26E-16
Tm-164
1.00E-16
9.15E-17
8.45E-17
8.21E-17
7.41E-17
7.31E-17
Tm-165
6.96E-17
6.23E-17
5.69E-17
5.48E-17
4.87E-17
4.79E-17
Tm-166
2.62E-16
2.40E-16
2.23E-16
2.18E-16
1.98E-16
1.96E-16
Tm-167
1.69E-17
1.44E-17
1.28E-17
1.21E-17
1.05E-17
1.03E-17
Tm-168
1.58E-16
1.44E-16
1.32E-16
1.28E-16
1.15E-16
1.13E-16
Tm-170
6.64E-19
5.77E-19
5.05E-19
4.94E-19
4.59E-19
4.48E-19
Tm-171
6.02E-20
4.74E-20
3.93E-20
3.79E-20
3.17E-20
3.02E-20
236
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Tm-172
6.40E-17
5.87E-17
5.45E-17
5.35E-17
4.88E-17
4.81E-17
Tm-173
4.88E-17
4.41E-17
4.04E-17
3.89E-17
3.46E-17
3.41E-17
Tm-174
2.29E-16
2.08E-16
1.92E-16
1.86E-16
1.66E-16
1.64E-16
Tm-175
1.40E-16
1.28E-16
1.19E-16
1.15E-16
1.04E-16
1.02E-16
Tm-176
2.63E-16
2.41E-16
2.23E-16
2.18E-16
1.98E-16
1.96E-16
Ytterbium
Yb-162
3.00E-17
2.62E-17
2.35E-17
2.23E-17
1.98E-17
1.94E-17
Yb-163
9.34E-17
8.51E-17
7.85E-17
7.63E-17
6.88E-17
6.78E-17
Yb-164
5.45E-18
4.43E-18
3.85E-18
3.65E-18
3.10E-18
3.00E-18
Yb-165
4.07E-17
3.61E-17
3.25E-17
3.16E-17
2.82E-17
2.76E-17
Yb-166
8.40E-18
6.61E-18
5.52E-18
5.23E-18
4.42E-18
4.22E-18
Yb-167
3.01E-17
2.53E-17
2.18E-17
2.04E-17
1.83E-17
1.78E-17
Yb-169
3.73E-17
3.13E-17
2.74E-17
2.60E-17
2.27E-17
2.20E-17
Yb-175
4.91E-18
4.38E-18
3.98E-18
3.81E-18
3.40E-18
3.34E-18
Yb-177
2.56E-17
2.33E-17
2.15E-17
2.09E-17
1.88E-17
1.85E-17
Yb-178
4.88E-18
4.40E-18
4.03E-18
3.87E-18
3.45E-18
3.40E-18
Yb-179
1.24E-16
1.13E-16
1.05E-16
1.01E-16
9.07E-17
8.93E-17
Lutetium
Lu-165
1.43E-16
1.29E-16
1.19E-16
1.16E-16
1.04E-16
1.03E-16
Lu-167
2.25E-16
2.05E-16
1.90E-16
1.85E-16
1.69E-16
1.67E-16
Lu-169
1.73E-16
1.58E-16
1.46E-16
1.43E-16
1.29E-16
1.27E-16
Lu-169m
5.63E-22
3.56E-22
2.85E-22
2.38E-22
7.79E-23
6.90E-23
Lu-170
3.48E-16
3.20E-16
2.98E-16
2.93E-16
2.69E-16
2.65E-16
Lu-171
8.05E-17
7.32E-17
6.72E-17
6.54E-17
5.84E-17
5.74E-17
Lu-171m
3.41E-20
2.73E-20
2.20E-20
2.19E-20
1.84E-20
1.76E-20
Lu-172
2.55E-16
2.33E-16
2.16E-16
2.11E-16
1.90E-16
1.87E-16
Lu-172m
3.15E-22
2.12E-22
1.76E-22
1.52E-22
8.37E-23
7.80E-23
Lu-173
2.04E-17
1.72E-17
1.50E-17
1.43E-17
1.25E-17
1.21E-17
Lu-174
1.36E-17
1.19E-17
1.07E-17
1.04E-17
9.20E-18
8.99E-18
Lu-174m
6.06E-18
4.90E-18
4.15E-18
4.01E-18
3.40E-18
3.27E-18
Lu-176
6.01E-17
5.29E-17
4.78E-17
4.56E-17
4.03E-17
3.96E-17
Lu-176m
1.91E-18
1.62E-18
1.36E-18
1.33E-18
1.22E-18
1.18E-18
Lu-177
4.37E-18
3.79E-18
3.35E-18
3.17E-18
2.83E-18
2.78E-18
Lu-177m
1.24E-16
1.09E-16
9.83E-17
9.37E-17
8.30E-17
8.16E-17
Lu-178
1.74E-17
1.59E-17
1.47E-17
1.44E-17
1.32E-17
1.30E-17
Lu-178m
1.31E-16
1.16E-16
1.05E-16
1.01E-16
8.97E-17
8.82E-17
Lu-179
4.21E-18
3.72E-18
3.40E-18
3.25E-18
2.90E-18
2.86E-18
Lu-180
2.00E-16
1.83E-16
1.70E-16
1.66E-16
1.50E-16
1.48E-16
Lu-181
7.29E-17
6.63E-17
6.09E-17
5.89E-17
5.27E-17
5.19E-17
Hafnium
Hf-167
7.74E-17
6.99E-17
6.40E-17
6.16E-17
5.49E-17
5.41E-17
Hf-169
7.93E-17
7.19E-17
6.58E-17
6.35E-17
5.67E-17
5.57E-17
Hf-170
5.34E-17
4.76E-17
4.32E-17
4.15E-17
3.69E-17
3.62E-17
Hf-172
1.04E-17
8.43E-18
7.04E-18
6.73E-18
5.80E-18
5.57E-18
Hf-173
4.81E-17
4.19E-17
3.73E-17
3.54E-17
3.16E-17
3.09E-17
Hf-174
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
237
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hf-175
4.30E-17
3.79E-17
3.43E-17
3.29E-17
2.91E-17
2.85E-17
Hf-177m
2.85E-16
2.53E-16
2.29E-16
2.19E-16
1.94E-16
1.91E-16
Hf-178m
2.80E-16
2.52E-16
2.30E-16
2.21E-16
1.97E-16
1.94E-16
Hf-179m
1.14E-16
1.01E-16
9.18E-17
8.79E-17
7.80E-17
7.67E-17
Hf-180m
1.23E-16
1.10E-16
9.99E-17
9.59E-17
8.52E-17
8.38E-17
Hf-181
6.62E-17
5.98E-17
5.45E-17
5.24E-17
4.68E-17
4.60E-17
Hf-182
3.01E-17
2.65E-17
2.40E-17
2.29E-17
2.02E-17
1.99E-17
Hf-182m
1.15E-16
1.03E-16
9.43E-17
9.11E-17
8.13E-17
7.99E-17
Hf-183
9.92E-17
9.07E-17
8.34E-17
8.13E-17
7.29E-17
7.18E-17
Hf-184
2.87E-17
2.52E-17
2.27E-17
2.16E-17
1.91E-17
1.88E-17
Tantalum
Ta-170
1.36E-16
1.25E-16
1.15E-16
1.11E-16
9.95E-17
9.80E-17
Ta-172
2.21E-16
2.02E-16
1.87E-16
1.82E-16
1.64E-16
1.62E-16
Ta-173
7.38E-17
6.66E-17
6.09E-17
5.94E-17
5.34E-17
5.25E-17
Ta-174
1.26E-16
1.15E-16
1.06E-16
1.03E-16
9.26E-17
9.12E-17
Ta-175
1.45E-16
1.32E-16
1.21E-16
1.18E-16
1.07E-16
1.06E-16
Ta-176
3.00E-16
2.75E-16
2.56E-16
2.51E-16
2.29E-16
2.26E-16
Ta-177
7.16E-18
5.88E-18
4.96E-18
4.80E-18
4.15E-18
4.00E-18
Ta-178
1.43E-17
1.25E-17
1.11E-17
1.08E-17
9.63E-18
9.40E-18
Ta-178m
1.43E-16
1.27E-16
1.14E-16
1.09E-16
9.73E-17
9.56E-17
Ta-179
2.44E-18
1.93E-18
1.59E-18
1.55E-18
1.30E-18
1.24E-18
Ta-180
4.85E-18
3.88E-18
3.19E-18
3.09E-18
2.64E-18
2.52E-18
Ta-182
1.70E-16
1.55E-16
1.44E-16
1.41E-16
1.27E-16
1.25E-16
Ta-182m
3.16E-17
2.71E-17
2.42E-17
2.30E-17
2.00E-17
1.96E-17
Ta-183
3.55E-17
3.08E-17
2.73E-17
2.61E-17
2.31E-17
2.26E-17
Ta-184
2.01E-16
1.83E-16
1.68E-16
1.63E-16
1.46E-16
1.44E-16
Ta-185
1.92E-17
1.67E-17
1.50E-17
1.43E-17
1.26E-17
1.24E-17
Ta-186
1.82E-16
1.65E-16
1.52E-16
1.47E-16
1.32E-16
1.30E-16
Tungsten
W-177
1.15E-16
1.04E-16
9.44E-17
9.15E-17
8.21E-17
8.07E-17
W-178
1.50E-18
1.19E-18
9.75E-19
9.63E-19
8.08E-19
7.71E-19
W-179
5.10E-18
4.03E-18
3.29E-18
3.24E-18
2.71E-18
2.58E-18
W-179m
6.23E-18
5.20E-18
4.44E-18
4.33E-18
3.73E-18
3.62E-18
W-181
4.00E-18
3.18E-18
2.59E-18
2.56E-18
2.15E-18
2.05E-18
W-185
6.11E-20
5.86E-20
5.68E-20
5.64E-20
5.53E-20
5.50E-20
W-185m
2.85E-18
2.41E-18
2.08E-18
2.00E-18
1.75E-18
1.70E-18
W-187
5.66E-17
5.17E-17
4.74E-17
4.60E-17
4.12E-17
4.05E-17
W-188
2.69E-19
2.39E-19
2.18E-19
2.10E-19
1.88E-19
1.85E-19
W-190
1.75E-17
1.48E-17
1.29E-17
1.24E-17
1.08E-17
1.05E-17
Rhenium
Re-178
2.27E-16
2.09E-16
1.93E-16
1.89E-16
1.72E-16
1.70E-16
Re-179
1.40E-16
1.26E-16
1.16E-16
1.13E-16
1.02E-16
1.00E-16
Re-180
1.55E-16
1.42E-16
1.31E-16
1.28E-16
1.15E-16
1.13E-16
Re-181
1.01E-16
9.12E-17
8.33E-17
8.08E-17
7.22E-17
7.10E-17
Re-182
2.32E-16
2.10E-16
1.93E-16
1.88E-16
1.69E-16
1.66E-16
Re-182m
1.59E-16
1.46E-16
1.34E-16
1.31E-16
1.19E-16
1.17E-16
238
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Re-183
1.74E-17
1.46E-17
1.26E-17
1.21E-17
1.05E-17
1.02E-17
Re-184
1.14E-16
1.04E-16
9.60E-17
9.38E-17
8.42E-17
8.28E-17
Re-184m
4.76E-17
4.26E-17
3.86E-17
3.74E-17
3.34E-17
3.28E-17
Re-186
2.67E-18
2.30E-18
2.03E-18
1.93E-18
1.73E-18
1.69E-18
Re-186m
1.49E-18
1.18E-18
9.67E-19
9.43E-19
7.96E-19
7.60E-19
Re-187
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Re-188
8.55E-18
7.71E-18
7.09E-18
6.84E-18
6.14E-18
6.04E-18
Re-188m
7.43E-18
6.08E-18
4.90E-18
4.84E-18
4.24E-18
4.06E-18
Re-189
7.14E-18
6.29E-18
5.69E-18
5.45E-18
4.82E-18
4.75E-18
Re-190
1.71E-16
1.56E-16
1.43E-16
1.39E-16
1.24E-16
1.22E-16
Re-190m
1.17E-16
1.06E-16
9.76E-17
9.44E-17
8.44E-17
8.31E-17
Osmium
Os-180
1.42E-17
1.23E-17
1.08E-17
1.06E-17
9.30E-18
9.07E-18
Os-181
1.80E-16
1.64E-16
1.51E-16
1.47E-16
1.33E-16
1.31E-16
Os-182
5.28E-17
4.72E-17
4.27E-17
4.12E-17
3.66E-17
3.59E-17
Os-183
7.74E-17
6.90E-17
6.23E-17
6.03E-17
5.36E-17
5.26E-17
Os-183m
1.31E-16
1.21E-16
1.12E-16
1.09E-16
9.87E-17
9.73E-17
Os-185
8.71E-17
7.96E-17
7.31E-17
7.12E-17
6.37E-17
6.27E-17
Os-186
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Os-189m
2.36E-21
1.47E-21
1.21E-21
1.02E-21
3.25E-22
2.88E-22
Os-190m
2.00E-16
1.82E-16
1.67E-16
1.61E-16
1.44E-16
1.42E-16
Os-191
9.27E-18
7.78E-18
6.50E-18
6.31E-18
5.58E-18
5.38E-18
Os-191m
6.16E-19
4.97E-19
4.00E-19
4.00E-19
3.41E-19
3.26E-19
Os-193
8.46E-18
7.54E-18
6.78E-18
6.56E-18
5.85E-18
5.74E-18
Os-194
2.05E-19
1.53E-19
1.31E-19
1.18E-19
9.56E-20
9.11E-20
Os-196
1.02E-17
9.08E-18
8.19E-18
7.90E-18
7.05E-18
6.92E-18
Iridium
Ir-180
2.04E-16
1.86E-16
1.71E-16
1.66E-16
1.49E-16
1.46E-16
Ir-182
1.81E-16
1.65E-16
1.52E-16
1.47E-16
1.32E-16
1.30E-16
Ir-183
1.56E-16
1.41E-16
1.30E-16
1.27E-16
1.15E-16
1.14E-16
Ir-184
2.56E-16
2.33E-16
2.15E-16
2.09E-16
1.89E-16
1.86E-16
Ir-185
1.13E-16
1.02E-16
9.37E-17
9.17E-17
8.34E-17
8.22E-17
Ir-186
2.16E-16
1.97E-16
1.81E-16
1.76E-16
1.59E-16
1.57E-16
Ir-186m
1.64E-16
1.50E-16
1.39E-16
1.36E-16
1.23E-16
1.21E-16
Ir-187
4.09E-17
3.67E-17
3.32E-17
3.25E-17
2.89E-17
2.84E-17
Ir-188
2.83E-16
2.59E-16
2.41E-16
2.36E-16
2.16E-16
2.14E-16
Ir-189
8.55E-18
7.09E-18
5.91E-18
5.87E-18
5.05E-18
4.87E-18
Ir-190
1.85E-16
1.68E-16
1.54E-16
1.49E-16
1.33E-16
1.31E-16
Ir-190m
2.55E-21
1.57E-21
1.32E-21
1.11E-21
3.57E-22
3.17E-22
Ir-190n
6.03E-18
4.91E-18
4.00E-18
4.00E-18
3.42E-18
3.27E-18
Ir-191m
8.35E-18
7.00E-18
5.85E-18
5.68E-18
5.02E-18
4.85E-18
Ir-192
1.03E-16
9.26E-17
8.47E-17
8.14E-17
7.25E-17
7.14E-17
Ir-192m
1.55E-20
1.12E-20
9.72E-21
8.83E-21
5.65E-21
5.41E-21
Ir-192n
1.33E-19
1.14E-19
1.03E-19
1.01E-19
8.91E-20
8.73E-20
Ir-193m
3.65E-20
2.91E-20
2.33E-20
2.33E-20
1.93E-20
1.85E-20
Ir-194
1.26E-17
1.14E-17
1.05E-17
1.02E-17
9.19E-18
9.07E-18
239
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ir-194m
2.95E-16
2.69E-16
2.47E-16
2.39E-16
2.13E-16
2.10E-16
Ir-195
6.64E-18
5.53E-18
4.51E-18
4.48E-18
3.97E-18
3.83E-18
Ir-195m
4.69E-17
4.20E-17
3.81E-17
3.68E-17
3.28E-17
3.22E-17
Ir-196
3.14E-17
2.87E-17
2.65E-17
2.57E-17
2.31E-17
2.28E-17
Ir-196m
3.11E-16
2.84E-16
2.61E-16
2.52E-16
2.26E-16
2.22E-16
Platinum
Pt-184
8.85E-17
7.86E-17
7.05E-17
6.83E-17
6.05E-17
5.94E-17
Pt-186
8.56E-17
7.78E-17
7.10E-17
6.92E-17
6.18E-17
6.07E-17
Pt-187
7.70E-17
6.91E-17
6.25E-17
6.09E-17
5.44E-17
5.34E-17
Pt-188
2.43E-17
2.09E-17
1.83E-17
1.78E-17
1.56E-17
1.52E-17
Pt-189
6.00E-17
5.37E-17
4.84E-17
4.72E-17
4.22E-17
4.14E-17
Pt-190
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Pt-191
3.51E-17
3.08E-17
2.72E-17
2.65E-17
2.34E-17
2.29E-17
Pt-193
6.01E-21
3.70E-21
3.12E-21
2.65E-21
8.66E-22
7.72E-22
Pt-193m
1.16E-18
9.51E-19
7.66E-19
7.66E-19
6.68E-19
6.39E-19
Pt-195m
7.91E-18
6.52E-18
5.21E-18
5.21E-18
4.59E-18
4.39E-18
Pt-197
2.90E-18
2.45E-18
2.05E-18
2.02E-18
1.80E-18
1.74E-18
Pt-197m
9.58E-18
8.29E-18
7.21E-18
7.07E-18
6.21E-18
6.06E-18
Pt-199
2.56E-17
2.33E-17
2.14E-17
2.07E-17
1.86E-17
1.83E-17
Pt-200
6.99E-18
5.96E-18
5.09E-18
4.98E-18
4.39E-18
4.27E-18
Pt-202
6.66E-19
6.35E-19
6.13E-19
6.05E-19
5.87E-19
5.84E-19
Gold
Au-186
1.94E-16
1.76E-16
1.62E-16
1.58E-16
1.42E-16
1.40E-16
Au-187
1.40E-16
1.28E-16
1.18E-16
1.16E-16
1.05E-16
1.03E-16
Au-190
3.22E-16
2.95E-16
2.73E-16
2.68E-16
2.46E-16
2.43E-16
Au-191
7.37E-17
6.61E-17
5.99E-17
5.81E-17
5.17E-17
5.08E-17
Au-192
2.61E-16
2.38E-16
2.20E-16
2.16E-16
1.97E-16
1.95E-16
Au-193
1.95E-17
1.67E-17
1.44E-17
1.41E-17
1.24E-17
1.20E-17
Au-193m
2.45E-17
2.14E-17
1.93E-17
1.84E-17
1.62E-17
1.60E-17
Au-194
1.37E-16
1.24E-16
1.14E-16
1.12E-16
1.01E-16
9.96E-17
Au-195
8.81E-18
7.22E-18
5.76E-18
5.76E-18
5.05E-18
4.84E-18
Au-195m
2.49E-17
2.18E-17
1.96E-17
1.88E-17
1.65E-17
1.63E-17
Au-196
5.85E-17
5.21E-17
4.70E-17
4.54E-17
4.02E-17
3.95E-17
Au-196m
2.91E-17
2.50E-17
2.20E-17
2.11E-17
1.85E-17
1.81E-17
Au-198
5.08E-17
4.60E-17
4.22E-17
4.06E-17
3.63E-17
3.57E-17
Au-198m
6.55E-17
5.68E-17
5.01E-17
4.78E-17
4.25E-17
4.16E-17
Au-199
1.18E-17
1.02E-17
9.11E-18
8.65E-18
7.58E-18
7.42E-18
Au-200
3.68E-17
3.38E-17
3.13E-17
3.06E-17
2.77E-17
2.73E-17
Au-200m
2.51E-16
2.29E-16
2.10E-16
2.03E-16
1.81E-16
1.78E-16
Au-201
4.65E-18
4.25E-18
3.92E-18
3.80E-18
3.42E-18
3.37E-18
Au-202
2.38E-17
2.19E-17
2.03E-17
1.98E-17
1.80E-17
1.77E-17
Mercury
Hg-190
2.36E-17
2.02E-17
1.74E-17
1.68E-17
1.48E-17
1.44E-17
Hg-191m
1.92E-16
1.74E-16
1.60E-16
1.55E-16
1.40E-16
1.38E-16
Hg-192
3.30E-17
2.85E-17
2.50E-17
2.42E-17
2.13E-17
2.09E-17
Hg-193
1.09E-16
9.88E-17
9.07E-17
8.87E-17
8.01E-17
7.89E-17
240
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Hg-193m
1.33E-16
1.21E-16
1.11E-16
1.09E-16
9.80E-17
9.65E-17
Hg-194
8.53E-21
5.18E-21
4.50E-21
3.87E-21
1.31E-21
1.18E-21
Hg-195
2.42E-17
2.16E-17
1.92E-17
1.89E-17
1.68E-17
1.65E-17
Hg-195m
2.45E-17
2.16E-17
1.94E-17
1.88E-17
1.66E-17
1.63E-17
Hg-197
7.79E-18
6.39E-18
5.09E-18
5.09E-18
4.48E-18
4.28E-18
Hg-197m
1.13E-17
9.66E-18
8.33E-18
8.00E-18
7.12E-18
6.92E-18
Hg-199m
2.21E-17
1.93E-17
1.71E-17
1.64E-17
1.44E-17
1.41E-17
Hg-203
3.00E-17
2.65E-17
2.39E-17
2.29E-17
2.03E-17
1.99E-17
Hg-205
1.18E-18
1.07E-18
9.91E-19
9.62E-19
8.90E-19
8.81E-19
Hg-206
1.56E-17
1.39E-17
1.26E-17
1.21E-17
1.08E-17
1.06E-17
Hg-207
3.59E-16
3.29E-16
3.05E-16
2.99E-16
2.73E-16
2.69E-16
Thallium
Tl-190
1.66E-16
1.52E-16
1.40E-16
1.35E-16
1.21E-16
1.20E-16
Tl-190m
3.14E-16
2.87E-16
2.64E-16
2.57E-16
2.30E-16
2.27E-16
Tl-194
1.16E-16
1.05E-16
9.66E-17
9.36E-17
8.38E-17
8.24E-17
Tl-194m
3.20E-16
2.93E-16
2.69E-16
2.61E-16
2.34E-16
2.31E-16
Tl-195
1.62E-16
1.48E-16
1.37E-16
1.34E-16
1.22E-16
1.20E-16
Tl-196
2.48E-16
2.26E-16
2.09E-16
2.05E-16
1.86E-16
1.83E-16
Tl-197
5.80E-17
5.23E-17
4.75E-17
4.64E-17
4.17E-17
4.10E-17
Tl-198
2.67E-16
2.45E-16
2.26E-16
2.21E-16
2.02E-16
1.99E-16
Tl-198m
1.53E-16
1.39E-16
1.27E-16
1.23E-16
1.10E-16
1.08E-16
Tl-199
3.05E-17
2.69E-17
2.38E-17
2.32E-17
2.05E-17
2.01E-17
Tl-200
1.70E-16
1.55E-16
1.43E-16
1.39E-16
1.25E-16
1.24E-16
Tl-201
1.03E-17
8.61E-18
7.03E-18
7.02E-18
6.14E-18
5.91E-18
Tl-202
5.73E-17
5.16E-17
4.67E-17
4.52E-17
4.03E-17
3.96E-17
Tl-204
2.95E-19
2.66E-19
2.39E-19
2.39E-19
2.25E-19
2.21E-19
Tl-206
5.21E-19
4.97E-19
4.80E-19
4.74E-19
4.61E-19
4.58E-19
Tl-206m
3.10E-16
2.83E-16
2.60E-16
2.52E-16
2.26E-16
2.23E-16
Tl-207
7.58E-19
7.15E-19
6.81E-19
6.71E-19
6.35E-19
6.29E-19
Tl-208
4.61E-16
4.26E-16
3.97E-16
3.90E-16
3.60E-16
3.56E-16
Tl-209
2.86E-16
2.62E-16
2.42E-16
2.36E-16
2.16E-16
2.13E-16
Tl-210
3.69E-16
3.39E-16
3.15E-16
3.08E-16
2.80E-16
2.76E-16
Lead
Pb-194
1.41E-16
1.28E-16
1.17E-16
1.15E-16
1.04E-16
1.02E-16
Pb-195m
2.10E-16
1.92E-16
1.76E-16
1.71E-16
1.53E-16
1.51E-16
Pb-196
6.10E-17
5.44E-17
4.89E-17
4.74E-17
4.22E-17
4.14E-17
Pb-197
2.02E-16
1.84E-16
1.70E-16
1.66E-16
1.51E-16
1.49E-16
Pb-197m
1.49E-16
1.35E-16
1.24E-16
1.20E-16
1.08E-16
1.06E-16
Pb-198
5.41E-17
4.80E-17
4.30E-17
4.17E-17
3.70E-17
3.63E-17
Pb-199
1.36E-16
1.24E-16
1.14E-16
1.11E-16
1.01E-16
9.93E-17
Pb-200
2.46E-17
2.12E-17
1.83E-17
1.78E-17
1.57E-17
1.53E-17
Pb-201
9.58E-17
8.65E-17
7.89E-17
7.67E-17
6.86E-17
6.75E-17
Pb-201m
4.61E-17
4.22E-17
3.87E-17
3.76E-17
3.38E-17
3.32E-17
Pb-202
1.07E-20
6.64E-21
5.50E-21
4.64E-21
1.50E-21
1.34E-21
Pb-202m
2.56E-16
2.36E-16
2.18E-16
2.12E-16
1.90E-16
1.88E-16
Pb-203
3.85E-17
3.37E-17
2.99E-17
2.88E-17
2.55E-17
2.50E-17
241
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Pb-204m
2.68E-16
2.46E-16
2.28E-16
2.22E-16
1.99E-16
1.97E-16
Pb-205
1.08E-20
6.72E-21
5.58E-21
4.70E-21
1.52E-21
1.35E-21
Pb-209
1.18E-19
1.15E-19
1.12E-19
1.12E-19
1.10E-19
1.10E-19
Pb-210
1.96E-19
1.46E-19
1.26E-19
1.14E-19
8.91E-20
8.47E-20
Pb-211
8.63E-18
7.92E-18
7.32E-18
7.12E-18
6.41E-18
6.32E-18
Pb-212
1.79E-17
1.56E-17
1.38E-17
1.33E-17
1.17E-17
1.15E-17
Pb-214
3.18E-17
2.83E-17
2.56E-17
2.47E-17
2.19E-17
2.16E-17
Bismuth
Bi-197
2.22E-16
2.04E-16
1.88E-16
1.84E-16
1.66E-16
1.64E-16
Bi-200
3.12E-16
2.85E-16
2.62E-16
2.55E-16
2.28E-16
2.25E-16
Bi-201
2.29E-16
2.10E-16
1.94E-16
1.90E-16
1.73E-16
1.70E-16
Bi-202
3.57E-16
3.27E-16
3.02E-16
2.95E-16
2.66E-16
2.62E-16
Bi-203
3.18E-16
2.91E-16
2.70E-16
2.65E-16
2.41E-16
2.38E-16
Bi-204
3.81E-16
3.50E-16
3.23E-16
3.16E-16
2.85E-16
2.81E-16
Bi-205
2.25E-16
2.06E-16
1.91E-16
1.87E-16
1.71E-16
1.68E-16
Bi-206
4.27E-16
3.92E-16
3.62E-16
3.53E-16
3.19E-16
3.14E-16
Bi-207
1.99E-16
1.83E-16
1.69E-16
1.65E-16
1.48E-16
1.46E-16
Bi-208
3.69E-16
3.41E-16
3.19E-16
3.14E-16
2.92E-16
2.89E-16
Bi-210
3.22E-19
3.09E-19
3.01E-19
2.98E-19
2.91E-19
2.90E-19
Bi-210m
3.29E-17
2.91E-17
2.64E-17
2.53E-17
2.24E-17
2.21E-17
Bi-211
5.92E-18
5.30E-18
4.82E-18
4.63E-18
4.11E-18
4.05E-18
Bi-212
1.40E-17
1.29E-17
1.20E-17
1.17E-17
1.06E-17
1.05E-17
Bi-212n
5.03E-19
4.81E-19
4.66E-19
4.60E-19
4.48E-19
4.46E-19
Bi-213
1.64E-17
1.49E-17
1.37E-17
1.32E-17
1.18E-17
1.16E-17
Bi-214
1.99E-16
1.83E-16
1.70E-16
1.66E-16
1.52E-16
1.50E-16
Bi-215
3.30E-17
2.98E-17
2.72E-17
2.64E-17
2.37E-17
2.33E-17
Bi-216
9.47E-17
8.66E-17
7.98E-17
7.72E-17
6.92E-17
6.81E-17
Polonium
Po-203
2.14E-16
1.96E-16
1.81E-16
1.77E-16
1.60E-16
1.58E-16
Po-204
1.48E-16
1.34E-16
1.23E-16
1.20E-16
1.07E-16
1.06E-16
Po-205
2.07E-16
1.90E-16
1.75E-16
1.72E-16
1.55E-16
1.53E-16
Po-206
1.52E-16
1.39E-16
1.27E-16
1.24E-16
1.11E-16
1.09E-16
Po-207
1.66E-16
1.53E-16
1.41E-16
1.38E-16
1.24E-16
1.22E-16
Po-208
2.68E-21
2.43E-21
2.21E-21
2.15E-21
1.92E-21
1.89E-21
Po-209
7.91E-19
7.17E-19
6.56E-19
6.39E-19
5.72E-19
5.63E-19
Po-210
1.26E-21
1.16E-21
1.08E-21
1.05E-21
9.42E-22
9.29E-22
Po-211
1.05E-18
9.70E-19
8.98E-19
8.75E-19
7.85E-19
7.74E-19
Po-212
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Po-212m
1.09E-17
1.01E-17
9.43E-18
9.28E-18
8.60E-18
8.50E-18
Po-213
4.84E-21
4.46E-21
4.13E-21
4.03E-21
3.62E-21
3.56E-21
Po-214
1.07E-20
9.90E-21
9.17E-21
8.95E-21
8.04E-21
7.92E-21
Po-215
2.21E-20
2.01E-20
1.84E-20
1.78E-20
1.59E-20
1.56E-20
Po-216
1.98E-21
1.83E-21
1.69E-21
1.65E-21
1.48E-21
1.46E-21
Po-218
3.02E-24
2.92E-24
2.87E-24
2.86E-24
2.82E-24
2.81E-24
Astatine
At-204
2.94E-16
2.69E-16
2.48E-16
2.41E-16
2.16E-16
2.12E-16
242
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
At-205
1.48E-16
1.35E-16
1.24E-16
1.21E-16
1.09E-16
1.08E-16
At-206
3.18E-16
2.91E-16
2.68E-16
2.61E-16
2.34E-16
2.31E-16
At-207
2.64E-16
2.42E-16
2.23E-16
2.18E-16
1.98E-16
1.95E-16
At-208
3.95E-16
3.62E-16
3.34E-16
3.26E-16
2.94E-16
2.90E-16
At-209
2.93E-16
2.68E-16
2.47E-16
2.40E-16
2.16E-16
2.13E-16
At-210
3.95E-16
3.62E-16
3.35E-16
3.28E-16
2.98E-16
2.94E-16
At-211
4.02E-18
3.36E-18
2.68E-18
2.65E-18
2.41E-18
2.31E-18
At-215
2.14E-20
1.94E-20
1.77E-20
1.70E-20
1.52E-20
1.50E-20
At-216
2.91E-19
2.48E-19
2.07E-19
2.01E-19
1.82E-19
1.76E-19
At-217
3.06E-20
2.71E-20
2.44E-20
2.35E-20
2.09E-20
2.05E-20
At-218
1.41E-21
1.33E-21
1.28E-21
1.26E-21
1.20E-21
1.20E-21
At-219
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
At-220
5.84E-17
5.23E-17
4.77E-17
4.58E-17
4.08E-17
4.02E-17
Radon
Rn-207
1.25E-16
1.14E-16
1.05E-16
1.02E-16
9.11E-17
8.97E-17
Rn-209
1.55E-16
1.41E-16
1.30E-16
1.26E-16
1.14E-16
1.13E-16
Rn-210
7.71E-18
7.03E-18
6.43E-18
6.25E-18
5.61E-18
5.52E-18
Rn-211
2.44E-16
2.24E-16
2.07E-16
2.02E-16
1.83E-16
1.80E-16
Rn-212
4.32E-20
3.98E-20
3.68E-20
3.58E-20
3.21E-20
3.17E-20
Rn-215
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-216
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-217
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
Rn-218
9.59E-20
8.82E-20
8.14E-20
7.90E-20
7.08E-20
6.98E-20
Rn-219
7.37E-18
6.57E-18
5.98E-18
5.73E-18
5.09E-18
5.01E-18
Rn-220
7.91E-20
7.26E-20
6.69E-20
6.48E-20
5.80E-20
5.72E-20
Rn-222
4.88E-20
4.47E-20
4.12E-20
3.98E-20
3.56E-20
3.51E-20
Rn-223
4.38E-17
3.99E-17
3.66E-17
3.55E-17
3.20E-17
3.15E-17
Francium
Fr-212
1.49E-16
1.36E-16
1.26E-16
1.23E-16
1.11E-16
1.09E-16
Fr-219
4.47E-19
4.03E-19
3.67E-19
3.53E-19
3.14E-19
3.09E-19
Fr-220
1.09E-18
9.21E-19
7.66E-19
7.38E-19
6.68E-19
6.45E-19
Fr-221
3.68E-18
3.21E-18
2.87E-18
2.74E-18
2.42E-18
2.38E-18
Fr-222
2.31E-17
2.04E-17
1.84E-17
1.76E-17
1.58E-17
1.55E-17
Fr-223
6.36E-18
5.40E-18
4.71E-18
4.51E-18
3.99E-18
3.88E-18
Fr-224
7.34E-17
6.69E-17
6.18E-17
6.01E-17
5.45E-17
5.37E-17
Fr-227
5.67E-17
5.11E-17
4.61E-17
4.46E-17
4.03E-17
3.95E-17
Radium
Ra-219
2.12E-17
1.89E-17
1.70E-17
1.63E-17
1.46E-17
1.43E-17
Ra-220
5.86E-19
5.34E-19
4.91E-19
4.73E-19
4.23E-19
4.17E-19
Ra-221
4.39E-18
3.79E-18
3.31E-18
3.13E-18
2.80E-18
2.73E-18
Ra-222
1.16E-18
1.03E-18
9.41E-19
9.01E-19
8.00E-19
7.88E-19
Ra-223
1.70E-17
1.48E-17
1.29E-17
1.24E-17
1.11E-17
1.09E-17
Ra-224
1.31E-18
1.15E-18
1.04E-18
9.89E-19
8.73E-19
8.60E-19
Ra-225
9.60E-19
7.06E-19
6.07E-19
5.48E-19
4.45E-19
4.25E-19
Ra-226
9.18E-19
7.98E-19
7.16E-19
6.78E-19
5.97E-19
5.87E-19
Ra-227
1.80E-17
1.61E-17
1.46E-17
1.40E-17
1.25E-17
1.23E-17
243
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Ra-228
3.02E-20
1.81E-20
1.64E-20
1.54E-20
6.80E-21
6.14E-21
Ra-230
9.63E-18
8.49E-18
7.52E-18
7.23E-18
6.50E-18
6.36E-18
Actinium
Ac-223
2.14E-18
1.88E-18
1.67E-18
1.59E-18
1.43E-18
1.40E-18
Ac-224
2.79E-17
2.40E-17
2.09E-17
1.98E-17
1.79E-17
1.74E-17
Ac-225
1.72E-18
1.48E-18
1.27E-18
1.20E-18
1.09E-18
1.06E-18
Ac-226
1.65E-17
1.44E-17
1.29E-17
1.22E-17
1.08E-17
1.06E-17
Ac-227
1.62E-20
1.19E-20
1.03E-20
9.68E-21
7.22E-21
6.89E-21
Ac-228
1.13E-16
1.04E-16
9.62E-17
9.38E-17
8.47E-17
8.35E-17
Ac-230
7.37E-17
6.77E-17
6.29E-17
6.16E-17
5.63E-17
5.55E-17
Ac-231
5.27E-17
4.65E-17
4.19E-17
4.00E-17
3.57E-17
3.51E-17
Ac-232
1.57E-16
1.44E-16
1.34E-16
1.32E-16
1.21E-16
1.19E-16
Ac-233
6.36E-17
5.83E-17
5.38E-17
5.20E-17
4.67E-17
4.60E-17
Thorium
Th-223
8.47E-18
7.21E-18
5.99E-18
5.68E-18
5.27E-18
5.09E-18
Th-224
2.86E-18
2.50E-18
2.26E-18
2.14E-18
1.89E-18
1.86E-18
Th-226
9.61E-19
8.27E-19
7.09E-19
6.63E-19
6.12E-19
5.95E-19
Th-227
1.54E-17
1.34E-17
1.20E-17
1.15E-17
1.02E-17
9.99E-18
Th-228
2.61E-19
2.19E-19
1.85E-19
1.78E-19
1.57E-19
1.53E-19
Th-229
1.02E-17
8.65E-18
7.24E-18
6.88E-18
6.31E-18
6.11E-18
Th-230
5.74E-20
4.49E-20
3.77E-20
3.70E-20
2.93E-20
2.81E-20
Th-231
1.55E-18
1.25E-18
1.01E-18
9.77E-19
8.65E-19
8.29E-19
Th-232
3.43E-20
2.55E-20
2.14E-20
2.09E-20
1.54E-20
1.46E-20
Th-233
4.72E-18
4.27E-18
3.89E-18
3.76E-18
3.40E-18
3.35E-18
Th-234
1.03E-18
8.52E-19
6.83E-19
6.61E-19
6.04E-19
5.79E-19
Th-235
7.52E-18
6.91E-18
6.39E-18
6.21E-18
5.62E-18
5.54E-18
Th-236
4.48E-18
4.02E-18
3.63E-18
3.48E-18
3.17E-18
3.12E-18
Protactinium
Pa-227
2.28E-18
1.90E-18
1.53E-18
1.47E-18
1.36E-18
1.30E-18
Pa-228
1.76E-16
1.61E-16
1.48E-16
1.44E-16
1.31E-16
1.29E-16
Pa-229
7.21E-18
6.09E-18
4.90E-18
4.60E-18
4.41E-18
4.24E-18
Pa-230
8.52E-17
7.80E-17
7.15E-17
6.96E-17
6.28E-17
6.18E-17
Pa-231
4.31E-18
3.77E-18
3.39E-18
3.24E-18
2.86E-18
2.81E-18
Pa-232
1.21E-16
1.11E-16
1.03E-16
1.00E-16
9.00E-17
8.86E-17
Pa-233
2.69E-17
2.37E-17
2.12E-17
2.02E-17
1.82E-17
1.78E-17
Pa-234
1.89E-16
1.73E-16
1.60E-16
1.55E-16
1.40E-16
1.38E-16
Pa-234m
3.03E-18
2.82E-18
2.64E-18
2.58E-18
2.39E-18
2.36E-18
Pa-235
4.28E-19
4.10E-19
3.97E-19
3.93E-19
3.83E-19
3.81E-19
Pa-236
1.22E-16
1.12E-16
1.04E-16
1.01E-16
9.22E-17
9.09E-17
Pa-237
7.90E-17
7.28E-17
6.74E-17
6.57E-17
5.90E-17
5.82E-17
Uranium
U-227
1.43E-17
1.24E-17
1.09E-17
1.03E-17
9.33E-18
9.13E-18
U-228
4.90E-19
4.16E-19
3.55E-19
3.36E-19
3.04E-19
2.96E-19
U-230
1.54E-19
1.26E-19
1.09E-19
1.06E-19
8.78E-20
8.51E-20
U-231
8.34E-18
7.00E-18
5.66E-18
5.31E-18
5.04E-18
4.84E-18
U-232
4.87E-20
3.57E-20
3.09E-20
2.93E-20
2.12E-20
2.02E-20
244
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
U-233
3.95E-20
3.11E-20
2.73E-20
2.57E-20
2.07E-20
2.00E-20
U-234
3.31E-20
2.29E-20
2.00E-20
1.87E-20
1.24E-20
1.16E-20
U-235
2.03E-17
1.77E-17
1.59E-17
1.50E-17
1.32E-17
1.30E-17
U-235m
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
0.00E+00
U-236
2.44E-20
1.61E-20
1.41E-20
1.32E-20
7.85E-21
7.31E-21
U-237
1.61E-17
1.37E-17
1.17E-17
1.11E-17
1.01E-17
9.77E-18
U-238
2.00E-20
1.33E-20
1.18E-20
1.11E-20
6.70E-21
6.27E-21
U-239
6.10E-18
5.19E-18
4.32E-18
4.32E-18
3.84E-18
3.71E-18
U-240
6.21E-19
5.16E-19
4.40E-19
4.12E-19
3.72E-19
3.60E-19
U-242
5.31E-18
4.75E-18
4.28E-18
4.16E-18
3.72E-18
3.65E-18
Neptunium
Np-232
1.52E-16
1.39E-16
1.27E-16
1.24E-16
1.11E-16
1.10E-16
Np-233
1.03E-17
8.76E-18
7.23E-18
6.74E-18
6.44E-18
6.21E-18
Np-234
1.48E-16
1.35E-16
1.25E-16
1.22E-16
1.12E-16
1.10E-16
Np-235
1.33E-19
9.62E-20
8.14E-20
7.63E-20
5.64E-20
5.33E-20
Np-236
1.68E-17
1.44E-17
1.24E-17
1.15E-17
1.06E-17
1.03E-17
Np-236m
5.68E-18
4.89E-18
4.08E-18
3.83E-18
3.64E-18
3.52E-18
Np-237
2.79E-18
2.30E-18
1.88E-18
1.79E-18
1.63E-18
1.57E-18
Np-238
7.66E-17
7.08E-17
6.57E-17
6.44E-17
5.80E-17
5.72E-17
Np-239
2.17E-17
1.88E-17
1.63E-17
1.54E-17
1.41E-17
1.38E-17
Np-240
1.34E-16
1.23E-16
1.13E-16
1.10E-16
9.90E-17
9.75E-17
Np-240m
4.15E-17
3.81E-17
3.52E-17
3.42E-17
3.09E-17
3.04E-17
Np-241
4.87E-18
4.24E-18
3.67E-18
3.45E-18
3.23E-18
3.14E-18
Np-242
3.64E-17
3.35E-17
3.12E-17
3.06E-17
2.79E-17
2.75E-17
Np-242m
1.17E-16
1.08E-16
9.98E-17
9.72E-17
8.73E-17
8.60E-17
Plutonium
Pu-232
7.05E-18
6.00E-18
4.90E-18
4.53E-18
4.38E-18
4.22E-18
Pu-234
7.63E-18
6.49E-18
5.30E-18
4.91E-18
4.74E-18
4.56E-18
Pu-235
1.05E-17
9.00E-18
7.48E-18
6.97E-18
6.65E-18
6.42E-18
Pu-236
3.06E-20
1.95E-20
1.72E-20
1.63E-20
9.14E-21
8.44E-21
Pu-237
5.52E-18
4.67E-18
3.82E-18
3.54E-18
3.39E-18
3.26E-18
Pu-238
2.61E-20
1.63E-20
1.44E-20
1.37E-20
7.21E-21
6.60E-21
Pu-239
1.81E-20
1.30E-20
1.14E-20
1.08E-20
7.63E-21
7.26E-21
Pu-240
2.51E-20
1.57E-20
1.39E-20
1.31E-20
7.04E-21
6.46E-21
Pu-241
1.88E-22
1.60E-22
1.33E-22
1.24E-22
1.17E-22
1.13E-22
Pu-242
3.14E-20
2.26E-20
2.05E-20
1.97E-20
1.37E-20
1.32E-20
Pu-243
2.88E-18
2.43E-18
1.98E-18
1.93E-18
1.77E-18
1.71E-18
Pu-244
2.69E-18
2.47E-18
2.30E-18
2.25E-18
2.06E-18
2.03E-18
Pu-245
5.12E-17
4.65E-17
4.26E-17
4.12E-17
3.70E-17
3.65E-17
Pu-246
1.64E-17
1.40E-17
1.23E-17
1.15E-17
1.04E-17
1.01E-17
Americium
Am-237
4.52E-17
4.00E-17
3.57E-17
3.40E-17
3.08E-17
3.02E-17
Am-238
1.16E-16
1.06E-16
9.78E-17
9.53E-17
8.63E-17
8.50E-17
Am-239
2.80E-17
2.41E-17
2.07E-17
1.93E-17
1.79E-17
1.75E-17
Am-240
1.33E-16
1.22E-16
1.13E-16
1.10E-16
9.95E-17
9.80E-17
Am-241
2.38E-18
1.88E-18
1.53E-18
1.52E-18
1.26E-18
1.20E-18
245
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Am-242
1.75E-18
1.49E-18
1.24E-18
1.15E-18
1.10E-18
1.06E-18
Am-242m
1.06E-19
7.18E-20
6.20E-20
5.93E-20
3.95E-20
3.70E-20
Am-243
6.26E-18
5.14E-18
4.08E-18
4.08E-18
3.60E-18
3.44E-18
Am-244
1.02E-16
9.33E-17
8.63E-17
8.40E-17
7.54E-17
7.43E-17
Am-244m
2.40E-18
2.21E-18
2.06E-18
2.02E-18
1.85E-18
1.82E-18
Am-245
4.02E-18
3.51E-18
3.09E-18
2.91E-18
2.67E-18
2.61E-18
Am-246
9.29E-17
8.46E-17
7.78E-17
7.53E-17
6.74E-17
6.64E-17
Am-246m
1.29E-16
1.19E-16
1.10E-16
1.08E-16
9.72E-17
9.58E-17
Am-247
1.66E-17
1.46E-17
1.29E-17
1.21E-17
1.11E-17
1.08E-17
Curium
Cm-238
9.26E-18
7.90E-18
6.55E-18
6.03E-18
5.79E-18
5.59E-18
Cm-239
3.12E-17
2.70E-17
2.37E-17
2.22E-17
2.01E-17
1.96E-17
Cm-240
3.24E-20
2.03E-20
1.78E-20
1.71E-20
9.50E-21
8.73E-21
Cm-241
6.08E-17
5.48E-17
4.95E-17
4.74E-17
4.28E-17
4.20E-17
Cm-242
2.85E-20
1.77E-20
1.56E-20
1.50E-20
8.20E-21
7.52E-21
Cm-243
1.58E-17
1.37E-17
1.19E-17
1.12E-17
1.03E-17
1.00E-17
Cm-244
2.62E-20
1.69E-20
1.49E-20
1.44E-20
8.46E-21
7.86E-21
Cm-245
1.21E-17
1.04E-17
8.71E-18
8.08E-18
7.61E-18
7.37E-18
Cm-246
5.07E-19
4.61E-19
4.28E-19
4.19E-19
3.80E-19
3.75E-19
Cm-247
3.93E-17
3.55E-17
3.25E-17
3.13E-17
2.79E-17
2.75E-17
Cm-248
1.77E-16
1.63E-16
1.52E-16
1.49E-16
1.36E-16
1.34E-16
Cm-249
2.61E-18
2.40E-18
2.22E-18
2.15E-18
1.95E-18
1.92E-18
Cm-250
1.80E-15
1.66E-15
1.54E-15
1.51E-15
1.38E-15
1.37E-15
Cm-251
1.43E-17
1.30E-17
1.20E-17
1.15E-17
1.04E-17
1.02E-17
Berkelium
Bk-245
2.76E-17
2.39E-17
2.07E-17
1.93E-17
1.79E-17
1.74E-17
Bk-246
1.09E-16
9.96E-17
9.17E-17
8.93E-17
8.06E-17
7.93E-17
Bk-247
1.78E-17
1.54E-17
1.33E-17
1.27E-17
1.15E-17
1.12E-17
Bk-248m
6.50E-18
5.78E-18
5.11E-18
4.86E-18
4.47E-18
4.36E-18
Bk-249
6.73E-22
5.98E-22
5.66E-22
5.54E-22
5.17E-22
5.11E-22
Bk-250
1.18E-16
1.09E-16
1.01E-16
9.89E-17
8.92E-17
8.79E-17
Bk-251
1.04E-17
8.94E-18
7.71E-18
7.15E-18
6.64E-18
6.45E-18
Californium
Cf-244
3.16E-20
1.93E-20
1.68E-20
1.62E-20
8.95E-21
8.17E-21
Cf-246
2.73E-20
1.82E-20
1.60E-20
1.54E-20
1.01E-20
9.46E-21
Cf-247
1.08E-17
9.29E-18
7.89E-18
7.30E-18
6.85E-18
6.63E-18
Cf-248
7.19E-20
5.80E-20
5.26E-20
5.13E-20
4.21E-20
4.10E-20
Cf-249
4.07E-17
3.66E-17
3.35E-17
3.21E-17
2.86E-17
2.82E-17
Cf-250
1.35E-18
1.24E-18
1.15E-18
1.12E-18
1.02E-18
1.01E-18
Cf-251
1.44E-17
1.24E-17
1.08E-17
1.01E-17
9.24E-18
9.01E-18
Cf-252
6.16E-17
5.68E-17
5.28E-17
5.17E-17
4.73E-17
4.67E-17
Cf-253
1.18E-19
8.15E-20
7.18E-20
6.87E-20
4.96E-20
4.71E-20
Cf-254
2.28E-15
2.10E-15
1.95E-15
1.91E-15
1.75E-15
1.73E-15
Cf-255
1.38E-19
1.34E-19
1.31E-19
1.30E-19
1.28E-19
1.28E-19
Einsteinium
Es-249
5.08E-17
4.57E-17
4.13E-17
3.96E-17
3.58E-17
3.51E-17
246
-------�
Table 4-7. Reference person effective dose rate coefficients for water immersion, (continued)
Reference Person Coefficients (Sv Bq1 s1 m3)
Nuclide
Newborn
1-yr-old
5-yr-old
10-yr-old
15-yr-old
Adult
Es-250
1.50E-16
1.36E-16
1.25E-16
1.20E-16
1.08E-16
1.07E-16
Es-250m
7.10E-17
6.48E-17
5.95E-17
5.78E-17
5.25E-17
5.16E-17
Es-251
1.08E-17
9.28E-18
7.91E-18
7.30E-18
6.82E-18
6.61E-18
Es-253
4.82E-20
4.07E-20
3.66E-20
3.50E-20
3.00E-20
2.93E-20
Es-254
6.07E-19
4.53E-19
3.91E-19
3.79E-19
2.89E-19
2.76E-19
Es-254m
6.00E-17
5.52E-17
5.10E-17
4.96E-17
4.45E-17
4.38E-17
Es-255
1.11E-19
1.03E-19
9.66E-20
9.50E-20
8.81E-20
8.72E-20
Es-256
6.18E-19
5.69E-19
5.45E-19
5.37E-19
5.11E-19
5.06E-19
Fermium
Fm-251
1.86E-17
1.65E-17
1.46E-17
1.38E-17
1.26E-17
1.23E-17
Fm-252
6.39E-20
5.02E-20
4.50E-20
4.37E-20
3.55E-20
3.44E-20
Fm-253
7.05E-18
6.03E-18
5.19E-18
4.82E-18
4.44E-18
4.31E-18
Fm-254
9.76E-19
8.91E-19
8.26E-19
8.09E-19
7.35E-19
7.26E-19
Fm-255
4.34E-19
3.08E-19
2.59E-19
2.51E-19
1.84E-19
1.74E-19
Fm-256
1.68E-15
1.55E-15
1.44E-15
1.41E-15
1.29E-15
1.27E-15
Fm-257
1.77E-17
1.55E-17
1.37E-17
1.29E-17
1.18E-17
1.16E-17
247
-------�
CHAPTER 5. APPLICATION CONSIDERATIONS
This chapter discusses some potentially important considerations in applying the dose rate
coefficients to obtain realistic estimates of doses to members of the public. Applicability of the coefficients
to a specific exposure is influenced by those exposure conditions that differ from the assumptions in the
derivation of the coefficients and other factors that may alter the radiation field at the location of the exposed
individual. For example, the radiation field within a residence may be substantially different in energy and
angular distribution, as well as intensity, from the field outside the residence. Also, radionuclides may be
distributed heterogeneously in the environment. Modifying factors have historically been used with dose
rate coefficients to estimate the dose for radiation fields that depart substantially from idealized fields.
Environmental factors can influence the time-integrated activity that characterizes exposure, and an
individual's lifestyle may influence the extent of contact with a radionuclide in the environment. For
example, the time-integrated activity of a radionuclide in an urban environment may be substantially
different from that in a rural environment where environmental measurements are generally conducted. In
prospective assessments, the combined influence of such factors is frequently expressed as a single
modifying factor that can be multiplied by a tabulated dose rate coefficient.
5.1 Radionuclide decay chains
The tabulations contain separate entries for radionuclide decay chain members addressed in ICRP
Publication 107 (2008). The dose rate coefficients tabulated in this report for a given radionuclide do not
include contributions to dose from radioactive decay products formed in the spontaneous nuclear
transformation of the radionuclide.
Dose rate coefficients for a radionuclide and its progeny should be combined only after
consideration of (1) the equations describing production and decay of daughter radionuclides overtime and
(2) the differences in environmental behavior of the parent and daughters. The information necessary to
describe the production and decay of daughters is given in Appendix A.
Various simplifying assumptions often have been made when considering radioactive progeny
following an "instantaneous" deposition of the parent nuclide, that is, a deposition that occurs in a time
period that is short compared to the half-life of the radionuclide and to the integration time of interest (DOE,
1988; Jacob et al., 1988a). Such assumptions should no longer be necessary, because access to personal
computers makes solution of the appropriate equations an easy task. Even for non-trivial time dependencies
(see Jacob et al., 1988b) up to and including arbitrary deposition and/or removal rates, convolution methods
can be applied readily to the dose rate coefficients tabulated in this report to estimate equivalent doses.
5.2 Spontaneous fission
Spontaneous fission (SF) is a decay mode resulting in splitting of the nucleus into lighter nuclei
referred to as "fission fragments." The radiations concomitant with SF include fission fragments, neutron,
delayed beta, and prompt and delayed gamma emissions. SF occurs to some extent for 28 of the 1,252
radionuclides addressed in this report: 238U, 236Pu, 238Pu, 240Pu, 242Pu, 244Pu, 240Cm, 242Cm, 244Cm, 245Cm,
246Cm, 248Cm, 250Cm, 246Cf, 248Cf, 249Cf, 250Cf, 252Cf, 254Cf, 253Es, 254Es, 254mEs, 255Es, 252Fm, 254Fm, 255Fm,
248
-------�
256Fm and 257Fm. The SF yield for each of these radionuclides is listed in Table A-l in Appendix A. The SF
yield is extremely low in most cases, but it represents a substantial portion of the emitted energy for four
radionuclides: 248Cm (SF yield, 8.39%), 250Cm (SF yield, 74.0%), 252Cf (SF yield, 3.092%) and 254Cf (SF
yield, 99.69%). Empirical relationships describing the continuous energy spectra of photons, electrons and
neutrons from spontaneous fission, as needed in dosimetric evaluations, have been developed (Dillman and
Jones, 1975; Endo et al., 2005). However, detailed information has not been assembled on the radiation
field resulting from distributed sources of neutrons in the environment.
Prompt and delayed emissions (photons and beta particles) following spontaneous fission are
included in the decay data tabulations of ICRP Publication 107 (2008) and thus are included in the
calculations of dose rate coefficients tabulated in this report. The contribution to dose from neutrons
accompanying spontaneous fission is not included. This may result in a substantial underestimate of
external dose for 248Cm, 250Cm, 252Cf and 254Cf.
5.3 Computational models of the human body
In Federal Guidance Report No. 12 (EPA, 1993), dose estimates from monoenergetic photon
sources were made for 25 tissues. Dose rate coefficients were tabulated in Federal Guidance Report No. 12
for effective dose, the gonad, breast, lung, red marrow, bone surface, thyroid, remainder and skin. The
effective dose rate coefficients were based on an adult hermaphrodite phantom (inclusive of both male and
female organs and tissues). This report is based on a modification of the ORNL series of stylized age-
dependent hermaphrodite phantoms used in the preparation of Federal Guidance Report No. 12. The
following modifications were made: (1) previously published stylized models of the head and brain, the
extrathoracic-thoracic airways, the kidneys and the rectosigmoid colon were incorporated within the
mathematical structure of the ORNL model series; (2) new models of the salivary glands and the mucosa
layer of the alimentary tract organs, the respiratory tract airways, and the urinary bladder were designed for
each phantom age; and (3) tissue compositions and mass densities published in ICRP Publication 89 (2002)
and ICRU Report 46 (1992) were adopted. When mathematical adjustments to organ volumes were feasible
as constrained by the boundaries of adjacent organs, these changes were made in order to bring revised
organ masses to within »10 percent of their age-dependent values given in ICRP Publication 89. The revised
ORNL series then was incorporated within the input structure of the MCNP6 Monte Carlo radiation
transport code for simulation of external dose from photon and electron sources. More details about the
phantoms as they apply to external dose coefficients in this report are found in Appendix B.
5.4 Pathway-specific modifying factors and exposures
This section discusses modifying factors that can be used with the dose rate coefficients presented
in this report to account for the effects of indoor residence, ground roughness, exposure during boating
activities and exposure to contaminated shorelines. These modifying factors, or dose-reduction factors, are
multiplicative factors less than or equal to unity. They may be applied when using the tabulated dose rate
coefficients for particular exposure modes to obtain more realistic estimates of equivalent doses to members
of the public. Much of the discussion below is taken from a paper by Kocher (DOE, 1988).
249
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Consider the problem of reconstructing the dose to an individual exposed in a number of different
situations to a radionuclide present in the environment; for example, while outdoors or within a residence.
The dose equivalent Ht in tissue T due to exposures during the period ti to h composed of n different
exposure conditions can be expressed as
where SL denotes the strength of the radiation field (e.g., kerma in air) for exposure condition i relative to
the idealized exposure conditions assumed in deriving the dose rate coefficient hT: the function RL(t)
defines whether exposure condition /' is in effect at time t (it is a Heaviside function, having a value of 1 at
times when condition /' is applicable, and 0 when it is not); and C(t) is the time-dependent concentration of
the radionuclide in the environmental medium responsible for the radiation field. The summation extends
over all exposure conditions In prospective assessments, information usually is not available to
characterize RL(t). Then, exposure condition /' is assumed, on average, to represent a fraction, RL. of the
exposure period, and Eq. (14) reduces to:
The factors St and Rt take account of two fundamentally different considerations: (1) the change in
dose contribution resulting from modification of the radiation field for a particular exposure situation; for
example, shielding by a building; and (2) the fraction of the exposure period associated with the particular
exposure situation. Note that the product of Si and Rt or, in many cases, the summation of their products,
often is represented by a single modifying factor. Such ad hoc factors can be used only for the specific
conditions for which they were derived, and should be used with extreme caution when the strength of the
radiation field is highly time-dependent; for example, following an acute release of short-lived
radionuclides to the environment.
5.4.1 Contaminated shorelines
The dose rate coefficients for exposure to contaminated soil in Tables 4-1 through 4-5 assume that
the photons and electrons originate uniformly within the contaminated volume. It is further assumed that
the source region is infinite in extent and, thus, is appropriate for large areas that are contaminated by
deposition of radionuclides from the atmosphere or by irrigation with contaminated water. Exposure to
contaminated soil also may occur during fishing or hiking along shorelines of finite width that are
contaminated by deposition of radionuclides from water.
(14)
(15)
250
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For photon exposure, the U.S. Nuclear Regulatory Commission (NRC) (1977) has recommended
the following dose-reduction factors for different types of shorelines:
• 0.1 for discharge canal bank
• 0.2 for river shoreline
• 0.3 for lake shore
• 0.5 for ocean shore
• 1.0 for tidal basin
These shoreline dose-reduction factors do not include consideration of exposure times. As
discussed earlier, the dose rate coefficients for exposure to contaminated ground surface include
consideration of ground roughness; thus, no additional factors are required.
Dose-reduction factors for exposure to electrons from contaminated shorelines have not been
considered in the literature. Due to the relatively short range of electrons in air, the dose rate coefficient
from exposure to shorelines of finite width should be about the same as the dose rate coefficient for exposure
to an infinite ground surface; that is, the dose-reduction factor should be nearly unity. However, the high
moisture content of the shoreline also would reduce the electron dose for these exposures. As discussed
earlier, an electron dose-reduction factor for ground roughness, based on an appropriate value for photons,
could be taken into account in estimating electron dose rate coefficients for exposure to contaminated
shorelines.
Although site-specific data for exposure times to contaminated shorelines can be used when
available, NRC (1977) has recommended exposure times in lieu of site-specific information. The values
for an adult are 12 hours per year for maximally exposed individuals and 8 hours per year for average
individuals in population groups. If other age groups are taken into account, the recommended exposure
times are higher. For teenagers, the recommended values are 67 hours per year for maximally exposed
individuals and 47 hours per year for average individuals in population groups.
5.4.2 Exposure during boating activities
The dose rate coefficients for immersion in contaminated water in Table 4-7 assume immersion in
an infinite pool and, thus, are appropriate for exposure while swimming. External exposure to contaminated
water also can occur during boating activities.
For photon exposure, a dose-reduction factor of 0.5 during boating activities is a reasonable value
that is unlikely to underestimate external equivalent doses. This dose-reduction factor takes into account
that the source region is effectively semi-infinite in extent for an exposed individual located at the boundary
of the air-water interface and assumes that the shielding of photons provided by the typically thin hull of a
251
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boat is negligible. The latter assumption will result in overestimates of external equivalent dose during
boating activities for radionuclides that emit mostly low-energy photons.
For electron exposure, it is reasonable to assume a dose-reduction factor of zero during boating
activities; that is, that the electron equivalent dose is zero. The hull of a boat should provide complete
shielding from electron sources in the water.
The exposure time for boating activities should be estimated on a site-specific basis. For individuals
who reside on a boat for all or part of a year, an exposure time of 50 percent or more would be reasonable.
For individuals who engage only in recreational boating activities, an exposure time as high as 5 percent
(44 hours per year) would be reasonable.
5.4.3 Effects of indoor residence
The dose rate coefficients for air submersion and exposure to contaminated soil tabulated in
Chapter 3 relate the organ dose to the time-integrated air or soil concentration, assuming the individual is
located in the open without the benefit of shielding from structures. To realistically assess the dose for these
exposure modes, consideration must be given to the reduction of the radiation field due to shielding by
building structures.
Following the Chernobyl accident, considerable efforts have been devoted to improving the models
for assessing external doses from airborne and deposited radionuclides, including evaluation of the
reduction in the radiation field by various structures. The results of an extensive study of the shielding
factors for selected European single-family and multi-story structures were reported by LeGrand et al.
(1991) and Jacob and Meckbach (1991). For an airborne plume, the shielding factor (ratio of kerma in the
"shielded" position to that in the open) ranged from about 0.01 to 0.7 for single-family houses. In some
cases, it may be more appropriate to assume that individuals are exposed in house basements, schools,
apartment houses or office buildings. These structures generally provide significantly greater shielding than
living areas in single-family houses. For submersion in contaminated air, representative shielding factors
range from 0.6 for the basement of a wood-frame house to 0.2 or less for a large office or industrial building.
For contaminated soil exposure, representative shielding factors range from 0.1 for the basement of a house
to 0.005 for the basement of large, multi-story structures (Burson and Profio, 1977). LeGrand et al. (1991)
estimated the shielding factor for exposure in multi-story structures to an airborne plume. For 0.68 MeV
photons, it ranged from 0.01 to 0.1 on the ground floor and from 0.09 to 0.4 on the upper floors, which have
decreased shielding.
In an urban setting, for an overhead plume, locations outside of a structure are shielded by
neighboring structures at a value of about 0.8, which is rather independent of photon energy. Within a
structure, the dependence of the shielding factor on energy is more pronounced at strongly shielded
locations like basements and lower floors of multi-story structures. Neighboring structures also can have a
large influence (factor of two) on the shielding inside of a structure (LeGrand et al., 1991).
252
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For photon exposures following routine releases from nuclear reactors, NRC (1977) has
recommended the following modifying factors for air submersion and exposure to contaminated soil that
account for both the shielding provided by structures and the fraction of time individuals spend indoors:
• 0.7 for maximally exposed individuals
• 0.5 for average individuals in population groups
Both modifying factors are based on a shielding factor of 0.5. It should be noted that the values are
most appropriate for photon energies greater than a few hundred keV. For photons of lower energy, use of
these factors may considerably overestimate the equivalent dose (Kocher, 1980). Note that the difference
in the two modifying factors implies a different fraction of time spent indoors; that is, about 60 percent for
maximally exposed individuals and effectively 100 percent for average individuals in population groups.
In both cases, the individuals are presumed to spend 100 percent of their time at the exposed location. These
dose-reduction factors were based on an analysis by Burson and Profio (1977). The National Council on
Radiation Protection and Measurements has recommended similar values (NCRP, 1975), based on a
compilation by Oakley (1972).
For electron exposures, external dose from electrons during indoor residence can be estimated on
the basis of concentrations of radionuclides in indoor air and on the floor of the building (see Kocher, 1980).
Electrons emitted by radionuclides outside the building cannot penetrate the structure.
The following discussion of modifying factors for electrons during indoor residence applies
primarily to routine (i.e., chronic) releases of radionuclides to the atmosphere, in which case steady-state
concentrations of airborne radionuclides inside and outside buildings may be assumed. For acute releases,
however, the relationship between indoor and outdoor airborne concentrations of radionuclides will vary
with time during and after a release and also will depend on the timing and extent of building ventilation.
For such releases, it may be prudent to assume no reduction in external dose from electrons during indoor
residence.
For noble gas radionuclides, air submersion is the only external exposure mode of concern. The
effects of indoor residence on electron dose to skin should be negligible during chronic releases (i.e., the
dose-reduction factor should be essentially unity), unless the range of the emitted electrons in air is
somewhat greater than the interior dimensions of building rooms, because the indoor and outdoor air
concentrations for noble gases will be about the same. For 85Kr, for example, the electron energies from
beta decay are less than 0.687 MeV, and the corresponding electron ranges in air are less than 2.6 m (NAS-
NRC, 1964), which is a representative radius of rooms in single-family houses. Therefore, a dose-reduction
factor of unity for indoor exposure to electrons from 85Kr decay is reasonable. However, if the electron
range in air is somewhat greater than the dimensions of building rooms (i.e., if the emitted electron energy
is about 1 MeV or greater), then the use of a modifying factor of unity will overestimate the electron dose
to skin from exposure to noble gases during indoor residence. The extent of overestimation depends on the
electron range in air relative to the dimensions of the building rooms.
253
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For depositing radionuclides (particulates) dispersing in the atmosphere, the indoor air
concentration can be considerably less than the outdoor air concentration during chronic releases (Kocher,
1980). If the fractional transfer rates from air to surfaces in the indoor and outdoor environments are
comparable, the dose-reduction factors for external exposure to electrons during indoor residence can be
substantial for both airborne and deposited activity. The dose-reduction factor for electrons for air
submersion or a contaminated soil surface can be assumed to be equal to the ratio of indoor and outdoor
concentrations of airborne or deposited radionuclides, respectively, provided the electron range in air is
comparable to or less than the dimensions of the building rooms. For greater electron ranges in air, this
assumption again overestimates electron skin dose during indoor residence, but by unknown amounts.
Indoor residence times recommended by NRC (1977) for maximally exposed and average
individuals are 60 percent and nearly 100 percent, respectively. In prospective assessments, it is generally
assumed that both the indoor and outdoor exposures occur at the same locations. For a detailed
consideration of activity factors relevant to dose assessment, see Chapter 16 of the EPA Exposure Factors
Handbook (EPA, 2011). That handbook suggests that, as median values, children under 12 years of age
may spend about 20 percent of their time at school and approximately 20 percent of their time outdoors.
Similarly, adults ages 18 to 64 years typically spend about 20 percent of their time outdoors.
Shielding factors for U.S. residential structures applicable to airborne sources and deposited
activity recently have been developed by Dickson and colleagues (Dickson and Hamby, 2014; Dickson et
al., 2015; Dickson and Hamby, 2016). These investigations address a wide range of housing construction
within the United States and provide both floor-specific and average shielding factors. The shielding factors
are based on kerma coefficients and, as such, can be applied to both open-field projections and field
measurements.
5.4.4 Conclusions
Application of the dose rate coefficients tabulated in this report typically involves use of modifying
factors to reflect exposures of different durations to various radiation fields. It was the intent of the
preceding discussion to note the nature of the considerations reflected in these factors, but it was not the
intent to establish specific numerical values for such factors. It is useful to keep separate the two aspects of
the radiation exposure that are reflected in the modifying factors. To reiterate, these are the change in dose
contribution resulting from modification of the radiation field for a particular exposure situation and the
fraction of the exposure period associated with the particular exposure situation; see Eqs. (14) and (15).
When these two aspects are combined, it is difficult to judge the reasonableness of the resulting single
factor.
The modifying factors developed for prospective assessments of chronic low-level exposures
generally will not be applicable to exposure following an acute release of radioactivity to the environment.
In such cases, the time of day of the release and subsequent time dependence of the radiation field can be
important considerations in determining the dose. The adequacy of any modifying factors applied to the
dose rate coefficients tabulated in this report must be determined by the user at the time of the dose
assessment.
254
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5.5
Non-uniform volume source distributions
For photon exposure, the assumption of uniformly contaminated slab sources is appropriate for
frequently plowed soils or for use with linear compartment models that describe downward migration of
radionuclides in soil (Sjoreen et al., 1984). It may be appropriate to treat volume sources as being non-
uniformly distributed when a reasonable approximation to the distribution is known. For example, Beck
and de Planque (1968) and Kocher and Sjoreen (1985) have considered sources exponentially distributed
in the soil, which may be appropriate for natural infiltration of radionuclides into the soil during a chronic
deposition on the surface.
External exposure to electrons from radionuclides distributed in subsurface soil generally can be
neglected, because a few centimeters (often, only a few millimeters) of soil provides complete shielding of
electrons from radioactive decay for a receptor location 1 m above ground (NAS-NRC, 1964). Therefore,
calculations of electron dose from sources deposited on the ground need to consider only those sources that
remain on or very near the surface. The tabulations of electron dose rate coefficients for volume sources in
this report are based on the conservative assumption of an infinitely thick source. However, bremsstrahlung
generated as the emitted electrons stop within the soil does contribute to the dose to skin and other tissues.
255
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APPENDIX A. NUCLEAR DECAY DATA
Nuclear decay characteristics of each radionuclide considered in this report are summarized in
Table A-l. Data are presented for 1,252 nuclides of 97 elements as obtained from ICRP Publication 107
(2008).
Table A-l contains the following information, intended to aid in the proper use of the radionuclide-
specific dose rate coefficients in Tables 4-1 through 4-7. The information for each nuclide is presented on
one line. The physical half-life of the radionuclides is given in the third column of the table. The time units
are abbreviated as: y for year, d for day, h for hour, m for minute, s for second, ms for millisecond and jxs
for microsecond. The modes of nuclear transformation applicable to the radionuclide are given in the
column headed "Decay mode." The modes are abbreviated as: B- for beta minus decay, B+ for beta plus
decay, EC for electron capture, A for alpha decay, IT for isometric transition, and SF for spontaneous
fission. The remaining four columns on the extreme right list the kinetic energy per nuclear transformation
of emitted alpha particles, electrons and photons, and the total emitted energy.18 For radionuclides that
undergo spontaneous fission, the total entry includes the energy of the fission fragments and that of neutrons
accompanying the fission. The entry for electrons includes the kinetic energy of all beta particles (negatron
or positron), internal conversion electrons and Auger electrons emitted in the nuclear transformations.
Similarly, the photon entry encompasses gamma rays, x-rays and annihilation photons. If nuclear
transformations of the radionuclide do not result in emission of a particular radiation, then a dash, is
shown in the appropriate column. If, however, radiations of a particular type are emitted, but the total energy
per nuclear transformation is less than 0.1 keV, the notation "< E-04" appears in the column.
The identity of radioactive progeny, if any, is shown on a line(s) following the parent; including
the fraction of the parent transformations forming that progeny. No attempt is made to identify the fission
fragments. The notation "SF" simply indicates that the accompanying branching fraction refers to
spontaneous fission. For example, the line following the entry for 24Ne indicates that 24Na is formed with a
fractional yield of 1 in the decay of 24Ne. The progeny nucleus is shown only if it is radioactive; that is, not
a stable nucleus.
The dose rate coefficients of Tables 4-1 to 4-7 are based on the radiations emitted by the indicated
radionuclide and do not include consideration of the radiations emitted by radioactive decay products. For
each radionuclide, the radioactive decay products, if formed, are identified in Table A-l. Consider the
radionuclide 144Ce. The 144Ce entry in Table A-l indicates that 144Ce has a half-life of 284.91 days and forms
144Pr in 99.023 percent of its transformations and 144mPr in 0.97699 percent of its transformations. The entry
for 144mPr, half-life 7.2 m, indicates that it decays (in 99.93% of the transformations) by internal transition
to 144Pr; the remaining transformations form 144Nd. Nuclear transformations of 144Pr, half-life 17.28 minutes,
also form 144Nd, a very long-lived radionuclide (Ty2 = 2.29 1015 y). Through repeated entry into Table A-l
the serial transformations (decay chain) associated with a radionuclide can be assembled. As illustrated by
18 The total kinetic energy of radiation type R, ET R, is computed as ET R = Y,?=i Jir EiR, where yj R is the mean number
of radiations of type R emitted per nuclear transformation with unique or mean energy EiR . The quantity should not be confused
with the mean energy of radiation type R which is ER = ET R /ZUyi,R
256
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this example, when a radionuclide has multiple modes of transformation, the branch formed by each mode
must be followed. In some instances, the branches may converge. It should be noted that the branching
fractions may not always add to exactly 1 due to uncertainties in the fractions. The stated values are
considered to be appropriate for use in dosimetric calculations.
The serial transformation by radioactive decay of each member of a radioactive series is described
by the Bateman equations (ICRP, 1959; Jacquez, 1972; Skrable et al., 1974). Assume that at time 0, the
concentration of the parent nuclide on the surface of the ground is A° (Bq m"2) and that the effective dose
E for an exposure period of 1 year is to be estimated. The contribution to effective dose from nuclear
transformation of the parent nuclide is given by
E = eZj- (A-1)
where denotes the effective dose rate coefficient from ground surface exposure for nuclide 1 (Sv Bq"1
s"1 m2). A-j is the decay constant, in inverse seconds, for nuclide 1 = 0.693 1,. ./7V,). and T equals
3.15 x 107 s (1 year). Using the Bateman equations, the activity at time t of chain members i, i = 1, 2, ...,
can be expressed as
1 1 1 ,-A,t
MO - Al n fu» A1 T n« ,; ^ _ Aj) (A-2)
k* j
where
IL
J-1 at = at x a2 x a3 ... x axn, if n > 1 or 1 if n =
i=1
and fjj+i denotes the fraction of the nuclear transformations of chain member j forming member j+1. The
effective dose associated with an exposure period of duration T, following a contamination event at t 0
that results in a ground surface concentration of A°, is
i-1
1 — e
-X;T
i = 1
y=i
i nu —A.j)
k±j
(A-3)
where denotes the effective dose rate coefficient for ground surface exposure to nuclide and all other
factors are as defined above. If the parent radionuclide is long-lived relative to the decay products, then at
times T such that ALT > 5, /' = 2 to n, E can be estimated as
257
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(A-4)
i=l
7=1
Under these conditions, the activity of the decay products is in secular equilibrium with the parent's activity.
For example, application of Eq. (A-4) to 137Cs and its 137mBa decay product would yield
^ — g ~^Cs-13 7 t
E = A°cs-137 " [eE,Cs-137 + 0-944 ^E,Ba-Yi7rr\ (A"5)
ACs-137
where 0.944 is the fraction of the 137Cs nuclear transformations forming 137mBa. If the decay products are
not short-lived relative to the parent, then it is necessary to evaluate Eq. (A-3). In many instances, the
mathematical models describing the fate of radionuclides in the environment (e.g., their dispersion
following release to the atmosphere) include an evaluation of the ingrowth of each radioactive decay
product. The information in Table A-l should be useful to those implementing such models.
258
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Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number.
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield Alpha
Emitted energy (MeV/nt)
Electron Photon Total
Hydrogen
H-3
12.32 y
B-
-
0.005
-
0.0057
Beryllium
Be-7
53.22 d
EC
-
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Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Ar-42
32.9 y
B-
-
0.2325
-
0.2325
K-42
1.00
Ar-43
5.37 m
B-
-
1.3570
1.5352
2.8921
K-43
1.00
Ar-44
11.87 m
B-
-
0.5245
1.9376
2.4621
K-44
1.00
Potassium
K-38
7.636 m
ECB+
-
1.2107
3.1867
4.3974
K-40
1.251E+9 y
B-ECB+
-
0.5218
0.1567
0.6785
K-42
12.360 h
B-
-
1.4303
0.2787
1.7090
K-43
22.3 h
B-
-
0.3097
0.9641
1.2739
K-44
22.13 m
B-
-
1.4567
2.3846
3.8413
K-45
17.3 m
B-
-
0.9959
1.8360
2.8319
Ca-45
1.00
K-46
105 s
B-
-
2.3161
2.8710
5.1871
Calcium
Ca-41
1.02E+5 y
EC
-
0.0027
0.0005
0.0032
Ca-45
162.67 d
B-
-
0.0772
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Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
V-49
1.00
Cr-51
27.7025 d
EC
-
0.0038
0.0329
0.0367
Cr-55
3.497 m
B-
-
1.1007
0.0007
1.1013
Cr-56
5.94 m
B-
-
0.6083
0.0918
0.7000
Mn-56
1.00
Manganese
Mn-50m
1.75 m
ECB+
-
1.5243
4.6397
6.1640
Mn-51
46.2 m
ECB+
-
0.9344
0.9977
1.9321
Cr-51
1.00
Mn-52m
21.1 m
ECB+IT
-
1.1321
2.4086
3.5407
Mn-52
1.7500E-02
Mn-52
5.591 d
ECB+
-
0.0750
3.4585
3.5335
Mn-53
3.7E+6 y
EC
-
0.0040
0.0014
0.0053
Mn-54
312.12 d
ECB+B-
-
0.0042
0.8360
0.8402
Mn-56
2.5789 h
B-
-
0.8299
1.6916
2.5215
Mn-57
85.4 s
B-
-
1.1013
0.0996
1.2009
Mn-58m
65.2 s
B-
-
1.7443
2.3854
4.1297
Iron
Fe-52
8.275 h
ECB+
-
0.1917
0.7405
0.9322
Mn-52m
1.00
Fe-53
8.51 m
ECB+
-
1.1013
1.1782
2.2795
Mn-53
1.00
Fe-53m
2.526 m
IT
-
0.0023
3.0547
3.0570
Fe-53
1.00
Fe-55
2.737 y
EC
-
0.0042
0.0017
0.0058
Fe-59
44.495 d
B-
-
0.1179
1.1883
1.3062
Fe-60
1.5E+6 y
B-
-
0.0647
-
0.0647
Co-60m
1.00
Fe-61
5.98 m
B-
-
1.0934
1.3910
2.4844
Co-61
1.00
Fe-62
68 s
B-
-
0.8258
0.5061
1.3319
Co-62
1.00
Cobalt
Co-54m
1.48 m
ECB+
-
2.0484
3.9306
5.9790
Co-55
17.53 h
ECB+
-
0.4312
1.9960
2.4272
Fe-55
1.00
Co-56
77.23 d
ECB+
-
0.1198
3.6404
3.7602
Co-57
271.74 d
EC
-
0.0186
0.1252
0.1439
Co-58
70.86 d
ECB+
-
0.0340
0.9749
1.0089
Co-58m
9.04 h
IT
-
0.0229
0.0020
0.0249
Co-58
1.00
Co-60
5.2713 y
B-
-
0.0969
2.5038
2.6007
Co-60m
10.467 m
ITB-
-
0.0565
0.0067
0.0632
Co-60
9.9760E-01
Co-61
1.650 h
B-
-
0.4664
0.0970
0.5634
Co-62
1.50 m
B-
-
1.6336
1.6050
3.2386
Co-62m
13.91 m
B-
-
1.0974
2.6923
3.7897
Nickel
Ni-56
6.075 d
ECB+
-
0.0073
1.7207
1.7280
Co-56
1.00
261
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Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Ni-57
35.60 h
ECB+
-
0.1571
1.9382
2.0953
Co-5 7
1.00
Ni-59
1.01E+5 y
ECB+
-
0.0045
0.0024
0.0069
Ni-63
100.1 y
B-
-
0.0174
-
0.0174
Ni-65
2.51719 h
B-
-
0.6277
0.5583
1.1860
Ni-66
54.6 h
B-
-
0.0734
-
0.0734
Cu-66
1.00
Copper
Cu-57
0.1963 s
ECB+
-
3.5987
1.1407
4.7394
Ni-57
1.00
Cu-59
81.5 s
ECB+
-
1.4892
1.4451
2.9342
Ni-59
1.00
Cu-60
23.7 m
ECB+
-
0.8975
3.9111
4.8087
Cu-61
3.333 h
ECB+
-
0.3090
0.8237
1.1327
Cu-62
9.673 m
ECB+
-
1.2843
1.0069
2.2912
Cu-64
12.700 h
ECB+B-
-
0.1248
0.1855
0.3102
Cu-66
5.120 m
B-
-
1.0664
0.0978
1.1642
Cu-67
61.83 h
B-
-
0.1504
0.1154
0.2657
Cu-69
2.85 m
B-
-
0.8863
0.5284
1.4147
Zn-69
1.00
Zinc
Zn-60
2.38 m
ECB+
-
1.1301
1.5282
2.6584
Cu-60
1.00
Zn-61
89.1 s
ECB+
-
1.8571
1.5327
3.3898
Cu-61
1.00
Zn-62
9.186 h
ECB+
-
0.0326
0.4431
0.4757
Cu-62
1.00
Zn-63
38.47 m
ECB+
-
0.9204
1.0967
2.0171
Zn-65
244.06 d
ECB+
-
0.0069
0.5819
0.5888
Zn-69m
56.4 m
ITB-
-
0.0226
0.4162
0.4388
Zn-69
9.997E-01
Zn-69
56.4 m
B-
-
0.3216
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha
Electron Photon Total
Ge-67
18.9 m
ECB+
-
1.1688
1.4254
2.5942
Ga-67
1.00
Ge-68
270.95 d
EC
-
0.0050
0.0041
0.0091
Ga-68
1.00
Ge-69
39.05 h
ECB+
-
0.1203
0.9505
1.0708
Ge-71
11.43 d
EC
-
0.0050
0.0042
0.0092
Ge-75
82.78 m
B-
-
0.4206
0.0352
0.4558
Ge-77
11.30 h
B-
-
0.6493
1.0787
1.7280
As-77
1.00
Ge-78
88 m
B-
-
0.2273
0.2781
0.5053
As-78
1.00
Arsenic
As-68
151.6 s
ECB+
-
1.9985
3.7113
5.7097
Ge-68
1.00
As-69
15.23 m
ECB+
-
1.2182
1.1431
2.3613
Ge-69
1.00
As-70
52.6 m
ECB+
-
0.8799
4.2528
5.1327
As-71
65.28 h
ECB+
-
0.1167
0.5765
0.6932
Ge-71
1.00
As-72
26.0 h
ECB+
-
1.0409
1.7832
2.8240
As-73
80.30 d
EC
-
0.0606
0.0159
0.0765
As-74
17.77 d
ECB+B-
-
0.2658
0.7582
1.0241
As-76
1.0778 d
B-
-
1.0670
0.4166
1.4836
As-77
38.83 h
B-
-
0.2258
0.0083
0.2342
As-78
90.7 m
B-
-
1.2460
1.3066
2.5525
As-79
9.01 m
B-
-
0.8771
0.0338
0.9109
Se-79m
9.7188E-01
Se-79
2.8121E-02
Selenium
Se-70
41.1 m
ECB+
-
0.2375
0.7211
0.9586
As-70
1.00
Se-71
4.74 m
ECB+
-
1.3844
1.6056
2.9900
As-71
1.00
Se-72
8.40 d
EC
-
0.0228
0.0343
0.0571
As-72
1.00
Se-73
7.15 h
ECB+
-
0.3871
1.0924
1.4795
As-73
1.00
Se-73m
39.8 m
ITECB+
-
0.1642
0.2633
0.4275
Se-73
7.2600E-01
As-73
2.7400E-01
Se-75
119.779 d
EC
-
0.0144
0.3890
0.4034
Se-77m
17.36 s
IT
-
0.0737
0.0888
0.1625
Se-79
2.95E+5 y
B-
-
0.0529
-
0.0529
Se-79m
3.92 m
ITB-
-
0.0820
0.0138
0.0957
Se-79
9.9944E-01
Se-81
18.45 m
B-
-
0.6108
0.0080
0.6188
Se-81m
57.28 m
ITB-
-
0.0871
0.0183
0.1054
Se-81
9.9948E-01
263
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Se-83
22.3 m
Br-83
B-
1.00
—
0.4528
2.6254
3.0782
Se-83m
70.1 s
Br-83
B-
1.00
—
1.2570
0.9849
2.2419
Se-84
3.1 m
Br-84
B-
1.00
—
0.5499
0.4202
0.9701
Bromine
Br-72
78.6 s
Se-72
ECB+
1.00
—
2.7880
2.9624
5.7504
Br-73
3.4 m
Se-73m
Se-73
ECB+
9.9881E-01
1.1920E-03
1.3434
1.4331
2.7765
Br-74
25.4 m
ECB+
-
1.0616
4.6130
5.6746
Br-74m
46 m
ECB+
-
1.2747
4.1467
5.4214
Br-75
96.7 m
Se-75
ECB+
1.00
—
0.5283
1.1981
1.7263
Br-76
16.2 h
ECB+
-
0.6497
2.7933
3.4430
Br-76m
1.31 s
Br-76
ITECB+
9.9700E-01
—
0.0690
0.0433
0.1123
Br-77
57.036 h
ECB+
-
0.0094
0.3209
0.3303
Br-77m
4.28 m
Br-77
IT
1.00
—
0.0876
0.0197
0.1073
Br-78
6.46 m
Kr-78
ECB+B-
1.0000E-04
—
1.0235
1.0336
2.0571
Br-80
17.68 m
B-ECB+
-
0.7247
0.0761
0.8007
Br-80m
4.4205 h
Br-80
IT
1.00
—
0.0617
0.0242
0.0859
Br-82
35.30 h
B-
-
0.1454
2.6389
2.7844
Br-82m
6.13 m
Br-82
ITB-
9.7600E-01
—
0.0704
0.0081
0.0785
Br-83
2.40 h
Kr-83m
B-
9.9845E-01
—
0.3258
0.0069
0.3326
Br-84
31.80 m
B-
-
1.2364
1.7595
2.9959
Br-84m
6.0 m
B-
-
0.8983
2.7684
3.6667
Br-85
2.90 m
Kr-85m
Kr-85
B-
9.9779E-01
2.2112E-03
1.0384
0.0660
1.1045
Krypton
Kr-74
11.50 m
Br-74
ECB+
1.00
—
0.6006
1.0579
1.6585
Kr-75
4.29 m
Br-75
ECB+
1.00
—
1.5430
1.2800
2.8230
Kr-76
14.8 h
Br-76
Br-76m
EC
9.9189E-01
8.1144E-03
0.0154
0.4276
0.4430
Kr-77
74.4 m
Br-77
Br-77m
ECB+
9.0386E-01
9.6135E-02
0.6744
1.0384
1.7128
264
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Kr-79
35.04 h
ECB+
-
0.0237
0.2549
0.2786
Kr-81
2.29E+5 y
EC
-
0.0052
0.0072
0.0124
Kr-81m
13.10 s
ITEC
-
0.0596
0.1309
0.1905
Kr-81
9.9998E-01
Kr-83m
1.83 h
IT
-
0.0388
0.0028
0.0416
Kr-85
10.756 y
B-
-
0.2507
0.0022
0.2529
Kr-85m
4.480 h
B-IT
-
0.2549
0.1574
0.4123
Kr-85
2.1400E-01
Kr-87
76.3 m
B-
-
1.3281
0.7919
2.1201
Rb-87
1.00
Kr-88
2.84 h
B-
-
0.3689
1.9538
2.3227
Rb-88
1.00
Kr-89
3.15 m
B-
-
1.3705
1.9313
3.3018
Rb-89
1.00
Rubidium Rb-77
3.77 m
ECB+
-
1.6865
1.5452
3.2318
Kr-77
1.00
Rb-78
17.66 m
ECB+
-
1.2889
4.0918
5.3808
Rb-78m
5.74 m
ECB+IT
-
1.4992
3.2149
4.7141
Rb-78
1.0000E-01
Rb-79
22.9 m
ECB+
-
0.8099
1.4493
2.2592
Kr-79
1.00
Rb-80
33.4 s
ECB+
-
2.0455
1.1900
3.2355
Rb-81
4.576 h
ECB+
-
0.1222
0.5081
0.6304
Kr-81 m
9.5691E-01
Kr-81
4.3091E-02
Rb-81m
30.5 m
ITECB+
-
0.0817
0.0303
0.1120
Rb-81
9.7600E-01
Kr-81
2.3786E-02
Kr-81 m
2.1355E-04
Rb-82
1.273 m
ECB+
-
1.4112
1.1083
2.5195
Rb-82m
6.472 h
ECB+
-
0.0935
2.9212
3.0147
Rb-83
86.2 d
EC
-
0.0083
0.4914
0.4997
Kr-83m
7.4292E-01
Rb-84
32.77 d
ECB+B-
-
0.1633
0.9077
1.0710
Rb-84m
20.26 m
IT
-
0.0813
0.3831
0.4644
Rb-84
1.00
Rb-86
18.642 d
B-EC
-
0.6680
0.0930
0.7610
Rb-86m
1.017 m
IT
-
0.0100
0.5461
0.5561
Rb-86
1.00
Rb-87
4.923E10 y
B-
-
0.1154
-
0.1154
Rb-88
17.78 m
B-
-
2.0720
0.6370
2.7089
Rb-89
15.15 m
B-
-
0.9528
2.2430
3.1959
Sr-89
1.00
Rb-90
158 s
B-
-
2.0443
2.0286
4.0729
Sr-90
1.00
Rb-90m
258 s
B-IT
-
1.4104
3.2406
4.6510
265
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Sr-90
9.7400E-01
Rb-90
2.6000E-02
Strontium
Sr-79
2.25 m
Rb-79
ECB+
1.00
—
1.8572
1.1801
3.0373
Sr-80
106.3 m
Rb-80
ECB+
1.00
—
0.0418
0.4371
0.4789
Sr-81
22.3 m
Rb-81
Rb-81m
ECB+
9.9856E-01
1.4422E-03
0.9743
1.3866
2.3609
Sr-82
25.36 d
Rb-82
EC
1.00
—
0.0054
0.0079
0.0132
Sr-83
32.41 h
Rb-83
ECB+
1.00
—
0.1604
0.8213
0.9817
Sr-85
64.84 d
EC
-
0.0089
0.5001
0.5090
Sr-85m
67.63 m
Sr-85
ITECB+
8.6600E-01
—
0.0130
0.2177
0.2307
Sr-87m
2.815 h
Rb-87
ITEC
3.0000E-03
—
0.0672
0.3202
0.3874
Sr-89
50.53 d
B-
-
0.5845
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Y-87
79.8 h
Sr-87m
ECB+
1.00
—
0.0072
0.4462
0.4534
Y-87m
13.37 h
Y-87
ITECB+
9.8430E-01
—
0.0794
0.3072
0.3866
Y-88
106.65 d
ECB+
-
0.0067
2.6950
2.7017
Y-89m
15.663 s
IT
-
0.0077
0.9014
0.9091
Y-90
64.10 h
B-
-
0.9331
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Zr-89m
1.2278E-02
Nb-89m
66 m
ECB+
-
0.7855
1.3058
2.0913
Zr-89m
1.00
Nb-90
14.60 h
ECB+
-
0.4032
4.2135
4.6167
Nb-91
680 y
ECB+
-
0.0058
0.0118
0.0176
Nb-91m
60.86 d
ITECB+
-
0.0963
0.0340
0.1303
Nb-91
9.6600E-01
Nb-92
3.47E+7 y
EC
-
0.0079
1.5055
1.5133
Nb-92m
10.15 d
ECB+
-
0.0065
0.9689
0.9753
Nb-93m
16.13 y
IT
-
0.0294
0.0020
0.0314
Nb-94
2.03E+4 y
B-
-
0.1684
1.5581
1.7265
Nb-94m
6.263 m
ITB-
-
0.0356
0.0117
0.0473
Nb-94
9.9500E-01
Nb-95
34.991 d
B-
-
0.0446
0.7645
0.8091
Nb-95m
3.61 d
ITB-
-
0.1800
0.0697
0.2497
Nb-95
9.4400E-01
Nb-96
23.35 h
B-
-
0.2534
2.4614
2.7149
Nb-97
72.1 m
B-
-
0.4683
0.6650
1.1333
Nb-98m
51.3 m
B-
-
0.7636
2.8177
3.5813
Nb-99
15.0 s
B-
-
1.5132
0.1743
1.6875
Mo-99
1.00
Nb-99m
2.6 m
B-IT
-
1.4148
0.7567
2.1714
Mo-99
9.8000E-01
Nb-99
2.0000E-02
Molybdenum
Mo-89
2.11 m
ECB+
-
1.9620
1.2173
3.1793
Nb-89
1.00
Mo-90
5.56 h
ECB+
-
0.2107
0.8331
1.0438
Nb-90
1.00
Mo-91
15.49 m
ECB+
-
1.4510
0.9773
2.4283
Nb-91
9.9966E-01
Nb-91m
3.4232E-04
Mo-91m
64.6 s
ECB+IT
-
0.5559
1.3857
1.9416
Nb-91m
5.0000E-01
Mo-91
5.0000E-01
Mo-93
4.0E+3 y
EC
-
0.0056
0.0107
0.0163
Nb-93m
8.8000E-01
Mo-93m
6.85 h
ITEC
-
0.1045
2.3183
2.4228
Mo-93
9.9880E-01
Mo-99
65.94 h
B-
-
0.3929
0.1484
0.5413
Tc-99m
8.7730E-01
Tc-99
1.2270E-01
Mo-101
14.61 m
B-
-
0.5524
1.4706
2.0230
Tc-101
1.00
Mo-102
11.3 m
B-
-
0.3509
0.0185
0.3694
Tc-102
1.00
Technetium
Tc-91
3.14m
ECB+
-
1.6985
2.4847
4.1832
268
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Mo-91
9.9302E-01
Mo-91m
6.9789E-03
Tc-91m
3.3 m
ECB+
-
1.8871
1.4231
3.3102
Mo-91m
9.7976E-01
Mo-91
2.0245E-02
Tc-92
4.25 m
ECB+
-
1.7984
3.8278
5.6263
Tc-93
2.75 h
ECB+
-
0.0436
1.5686
1.6122
Mo-93
1.00
Tc-93m
43.5 m
ITECB+
-
0.1015
0.9522
1.0537
Tc-93
7.6600E-01
Mo-93
2.3400E-01
Tc-94
293 m
ECB+
-
0.0475
2.6608
2.7083
Tc-94m
52.0 m
ECB+
-
0.7543
1.9567
2.7110
Tc-95
20.0 h
EC
-
0.0069
0.7965
0.8033
Tc-95m
61 d
ECB+IT
-
0.0154
0.6887
0.7042
Tc-95
3.8800E-02
Tc-96
4.28 d
EC
-
0.0089
2.5032
2.5121
Tc-96m
51.5 m
ITECB+
-
0.0269
0.0480
0.0749
Tc-96
9.8000E-01
Tc-97
2.6E+6 y
EC
-
0.0055
0.0114
0.0169
Tc-97m
90.1 d
IT
-
0.0869
0.0096
0.0964
Tc-97
1.00
Tc-98
4.2E+6 y
B-
-
0.1415
1.4127
1.5542
Tc-99
2.111E+5 y
B-
-
0.1013
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Rh-105
1.00
Ru-106
373.59 d
B-
-
0.0100
-
0.0100
Rh-106
1.00
Ru-107
3.75 m
B-
-
1.0704
0.3453
1.4157
Rh-107
1.00
Ru-108
4.55 m
B-
-
0.4803
0.0626
0.5429
Rh-108
1.00
Rhodium Rh-94
70.6 s
ECB+
-
2.9012
3.7634
6.6645
Ru-94
1.00
Rh-95
5.02 m
ECB+
-
0.8973
2.5603
3.4576
Ru-95
1.00
Rh-95m
1.96 m
ITECB+
-
0.1822
0.8973
1.0794
Rh-95
8.8000E-01
Ru-95
1.2000E-01
Rh-96
9.90 m
ECB+
-
0.7419
3.9266
4.6685
Rh-96m
1.51 m
ITECB+
-
0.5673
1.2819
1.8492
Rh-96
6.0000E-01
Rh-97
30.7 m
ECB+
-
0.5211
1.4448
1.9660
Ru-97
1.00
Rh-97m
46.2 m
ECB+IT
-
0.1992
2.2017
2.4009
Ru-97
9.4400E-01
Rh-97
5.6000E-02
Rh-98
8.7 m
ECB+
-
1.3371
1.8115
3.1486
Rh-99
16.1 d
ECB+
-
0.0611
0.5627
0.6238
Rh-99m
4.7 h
ECB+
-
0.0367
0.6511
0.6878
Rh-100
20.8 h
ECB+
-
0.0494
2.7425
2.7920
Rh-lOOm
4.6 m
ITECB+
-
0.0802
0.0637
0.1439
Rh-100
9.8300E-01
Rh-101
3.3 y
EC
-
0.0267
0.2878
0.3145
Rh-lOlm
4.34 d
ECIT
-
0.0199
0.2877
0.3076
Rh-101
6.4000E-02
Rh-102
207 d
ECB+B-
-
0.1717
0.5060
0.6777
Rh-102m
3.742 y
ECB+IT
-
0.0125
2.1536
2.1661
Rh-102
2.3300E-03
Rh-103m
56.114 m
IT
-
0.0377
0.0017
0.0394
Rh-104
42.3 s
B-EC
-
0.9823
0.0124
0.9947
Rh-104m
4.34 m
ITB-
-
0.0846
0.0441
0.1287
Rh-104
9.9870E-01
Rh-105
35.36 h
B-
-
0.1533
0.0773
0.2306
Rh-106
29.80 s
B-
-
1.4111
0.2061
1.6172
Rh-106m
131 m
B-
-
0.3492
2.8526
3.2018
Rh-107
21.7 m
B-
-
0.4407
0.3133
0.7539
Pd-107
1.00
Rh-108
16.8 s
B-
-
1.8209
0.3172
2.1381
Rh-109
80s
B-
-
0.9320
0.2995
1.2315
Pd-109
1.00
270
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Palladium Pd-96
122 s
ECB+
-
0.2257
1.4403
1.6660
Rh-96m
1.00
Pd-97
3.10m
ECB+
-
0.7524
2.3813
3.1337
Rh-97
9.8838E-01
Rh-97m
1.1622E-02
Pd-98
17.7 m
ECB+
-
0.0455
0.4154
0.4609
Rh-98
1.00
Pd-99
21.4 m
ECB+
-
0.4499
1.2833
1.7331
Rh-99m
9.6647E-01
Rh-99
3.3529E-02
Pd-100
3.63 d
EC
-
0.0455
0.1231
0.1686
Rh-100
1.00
Pd-101
8.47 h
ECB+
-
0.0328
0.3518
0.3846
Rh-lOlm
9.9730E-01
Rh-101
2.7000E-03
Pd-103
16.991 d
EC
-
0.0058
0.0146
0.0204
Rh-103m
9.9875E-01
Pd-107
6.5E+6 y
B-
-
0.0096
-
0.0096
Pd-109
13.7012 h
B-
-
0.4380
0.0118
0.4497
Pd-109m
4.69 m
IT
-
0.0777
0.1112
0.1889
Pd-109
1.00
Pd-111
23.4 m
B-
-
0.8409
0.0478
0.8887
Ag-lllm
9.9756E-01
Ag-111
2.4368E-03
Pd-112
21.03 h
B-
-
0.0900
0.0051
0.0951
Ag-112
1.00
Pd-114
2.42 m
B-
-
0.5317
0.0259
0.5576
Ag-114
1.00
Silver Ag-99
124 s
ECB+
-
1.3076
2.3092
3.6168
Pd-99
1.00
Ag-lOOm
2.24 m
ECB+
-
1.9068
2.8248
4.7316
Pd-100
1.00
Ag-101
11.1 m
ECB+
-
0.8396
1.5703
2.4099
Pd-101
1.00
Ag-102
12.9 m
ECB+
-
0.8430
3.4092
4.2522
Ag-102m
7.7 m
ECB+IT
-
0.3964
1.9933
2.3897
Ag-102
4.9000E-01
Ag-103
65.7 m
ECB+
-
0.1973
0.8440
1.0412
Pd-103
1.00
Ag-104
69.2 m
ECB+
-
0.0917
2.7066
2.7982
Ag-104m
33.5 m
ECB+IT
-
0.7331
1.8047
2.5377
Ag-104
7.0000E-04
Ag-105
41.29 d
EC
-
0.0192
0.5138
0.5330
Ag-105m
7.23 m
ITECB+
-
0.0252
0.0013
0.0265
Ag-105
9.9660E-01
Ag-106
23.96 m
ECB+B-
-
0.4967
0.6996
1.1963
271
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Ag-106m
8.28 d
EC
-
0.0131
2.8091
2.8222
Ag-108
2.37 m
B-ECB+
-
0.6071
0.0186
0.6256
Ag-108m
418 y
ECIT
-
0.0159
1.6209
1.6368
Ag-108
8.7000E-02
Ag-109m
39.6 s
IT
-
0.0770
0.0111
0.0880
Ag-110
24.6 s
B-EC
-
1.1812
0.0307
1.2119
Ag-llOm
249.76 d
B-IT
-
0.0758
2.7606
2.8363
Ag-110
1.3600E-02
Ag-111
7.45 d
B-
-
0.3539
0.0265
0.3804
Ag-lllm
64.8 s
ITB-
-
0.0568
0.0079
0.0646
Ag-111
9.9300E-01
Ag-112
3.130 h
B-
-
1.3540
0.6905
2.0445
Ag-113
5.37 h
B-
-
0.7614
0.0719
0.8333
Cd-113
9.8261E-01
Cd-113m
1.7388E-02
Ag-113m
68.7 s
ITB-
-
0.2278
0.2134
0.4412
Ag-113
6.4000E-01
Cd-113
3.6000E-01
Ag-114
4.6 s
B-
-
2.1091
0.2589
2.3681
Ag-115
20.0 m
B-
-
1.0928
0.4831
1.5760
Cd-115
9.4210E-01
Cd-115m
5.7870E-02
Ag-116
2.68 m
B-
-
1.7540
2.1473
3.9014
Ag-117
73.6 s
B-
-
1.2813
1.3028
2.5841
Cd-117
8.4703E-01
Cd-117m
1.5297E-01
Cadmium Cd-101
1.36 m
ECB+
-
1.0685
2.4853
3.5538
Ag-101
1.00
Cd-102
5.5 m
ECB+
-
0.0756
0.8380
0.9136
Ag-102m
9.4624E-01
Ag-102
5.3762E-02
Cd-103
7.3 m
ECB+
-
0.3636
2.0891
2.4527
Ag-103
1.00
Cd-104
57.7 m
EC
-
0.0306
0.2513
0.2819
Ag-104m
1.00
Cd-105
55.5 m
ECB+
-
0.2167
1.2995
1.5161
Ag-105m
8.2963E-01
Ag-105
1.7037E-01
Cd-107
6.50 h
ECB+
-
0.0870
0.0337
0.1207
Cd-109
461.4 d
EC
-
0.0827
0.0265
0.1092
Cd-lllm
48.50 m
IT
-
0.1066
0.2843
0.3908
Cd-113
7.7E+15 y
B-
-
0.0926
-
0.0926
Cd-113m
14.1 y
B-IT
-
0.1847
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Cd-115m
44.6 d
In-115
In-115m
B-
9.9989E-01
1.0578E-04
0.6045
0.0329
0.6374
Cd-117
2.49 h
In-117m
In-117
B-
9.1507E-01
8.4933E-02
0.4379
1.0796
1.5175
Cd-117m
3.36 h
In-117
In-117m
B-
9.9002E-01
9.9831E-03
0.2279
2.0437
2.2716
Cd-118
50.3 m
In-118
B-
1.00
—
0.1614
—
0.1614
Cd-119
2.69 m
In-119m
In-119
B-
9.0091E-01
9.9092E-02
0.8186
1.6380
2.4566
Cd-119m
2.20 m
In-119
In-119m
B-
9.9787E-01
2.1328E-03
0.6898
2.3021
2.9919
Indium In-103
60s
Cd-103
ECB+
1.00
—
1.5404
2.7528
4.2932
In-105
5.07 m
Cd-105
ECB+
1.00
—
1.0358
1.9307
2.9666
In-106m
6.2 m
ECB+
-
1.5889
2.8243
4.4132
In-106
5.2 m
ECB+
-
1.0844
3.5541
4.6385
In-107
32.4 m
Cd-107
ECB+
1.00
—
0.3263
1.5307
1.8570
In-10 8m
58.0 m
ECB+
-
0.7021
2.7655
3.4675
In-108
39.6 m
ECB+
-
0.1620
3.9164
4.0784
In-10 9m
4.2 h
Cd-109
IT
1.00
—
0.0416
0.6085
0.6501
In-109
1.34 m
In-109
ECB+
1.00
—
0.0334
0.6441
0.6775
In-110m
4.9 h
ECB+
-
0.6282
1.5782
2.2065
In-110
69.1 m
ECB+
-
0.0122
3.0972
3.1094
In-111m
2.8047 d
Cd-lllm
IT
1.00
—
0.0675
0.4706
0.5380
In-111
2.8047 d
Cd-115m
EC
4.000E-05
—
0.0348
0.4061
0.4409
In-112m
20.56 m
In-122
IT
1.00
—
0.1217
0.0347
0.1564
In-112
14.97 m
ECB+B-
-
0.2452
0.2675
0.5127
In-113m
1.6579 h
IT
-
0.1361
0.2606
0.3967
In-114m
49.51 d
In-114
ITEC
9.675E-01
—
0.1450
0.0804
0.2254
In-114
49.51 d
B-ECB+
-
0.7740
0.0023
0.7764
In-115m
4.486 h
In-115
ITB-
9.5000E-01
—
0.1748
0.1627
0.3376
273
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
In-115
4.41E14 y
B-
-
0.1526
-
0.1526
In-116m
54.41 m
B-
-
0.3128
2.4691
2.7819
In-117m
116.2 m
B-IT
-
0.4344
0.0910
0.5254
In-117m
4.7100E-01
In-117
43.2 m
B-
-
0.2673
0.6939
0.9612
Sn-117m
3.5321E-03
In-118m
4.364 m
B-
-
0.6708
2.7765
3.4473
In-118
5.0 s
B-
-
1.8792
0.0778
1.9570
In-119m
18.0 m
B-IT
-
1.0221
0.0660
1.0882
In-119
5.6000E-02
In-119
2.4 m
B-
-
0.6148
0.7701
1.3849
Sn-119m
9.4773E-03
In-121m
3.88 m
B-IT
-
1.5288
0.0635
1.5922
Sn-121
9.8800E-01
In-121
1.2000E-02
In-121
23.1 s
B-
-
0.9869
0.9266
1.9135
Sn-121
8.8650E-01
Sn-121m
1.1350E-01
Tin Sn-106
1.92 m
ECB+
-
0.1279
1.2091
1.3370
In-106m
1.00
Sn-108
10.30 m
ECB+
-
0.0269
0.6847
0.7117
In-108m
1.00
Sn-109
18.0 m
ECB+
-
0.0571
2.2063
2.2634
In-109
7.1734E-01
In-109m
2.8266E-01
Sn-110
4.11 h
EC
-
0.0152
0.2918
0.3070
In-110m
1.00
Sn-111
35.3 m
ECB+
-
0.1915
0.4903
0.6818
In-Ill
9.9793E-01
In-lllm
2.0745E-03
Sn-113m
115.09 d
ITEC
-
0.0588
0.0137
0.0725
In-113m
9.1100E-01
Sn-113
21.4 m
EC
-
0.0063
0.0237
0.0300
Sn-113
9.9998E-01
Sn-117m
13.76 d
IT
-
0.1616
0.1581
0.3197
Sn-119m
293.1 d
IT
-
0.0781
0.0151
0.0932
Sn-121m
43.9 y
ITB-
-
0.0354
0.0052
0.0405
Sn-121
7.7600E-01
Sn-121
27.03 h
B-
-
0.1156
-
0.1156
Sn-123m
40.06 m
B-
-
0.4788
0.1407
0.6196
Sn-123
129.2 d
B-
-
0.5227
0.0069
0.5296
Sn-125m
9.52 m
B-
-
0.8070
0.3464
1.1534
Sb-125
1.00
Sn-125
9.64 d
B-
-
0.8037
0.3346
1.1383
Sb-125
1.00
Sn-126
2.30E+5 y
B-
-
0.1380
0.0569
0.1949
274
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Sb-126m
1.00
Sn-127m
2.10 h
B-
-
1.1140
0.5686
1.6826
Sb-127
1.00
Sn-127
4.13 m
B-
-
0.5199
1.9075
2.4274
Sb-127
1.00
Sn-128
59.07 m
B-
-
0.2457
0.6041
0.8498
Sb-128m
1.00
Sn-129
2.23 m
B-
-
1.2576
1.0081
2.2657
Sb-129
1.00
Sn-130m
1.7 m
B-
-
1.4040
0.8861
2.2901
Sb-130m
8.6005E-01
1.7 m
1.3995E-01
Sn-130
3.72 m
B-
-
0.4612
0.9372
1.3984
Sb-130m
1.00
Antimony
Sb-111
75 s
ECB+
-
1.3640
1.4859
2.8499
Sn-111
1.00
Sb-113
6.67 m
ECB+
-
0.7203
1.2683
1.9886
Sn-113
7.7569E-01
Sn-113m
2.2431E-01
Sb-114
3.49 m
ECB+
-
1.2184
2.6893
3.9077
Sb-115
32.1 m
ECB+
-
0.2342
0.8894
1.1236
Sb-116
15.8 m
ECB+
-
0.5138
2.2788
2.7926
Sb-116m
60.3 m
ECB+
-
0.1408
3.1029
3.2437
Sb-117
2.80 h
ECB+
-
0.0298
0.1864
0.2162
Sb-118
3.6 m
ECB+
-
0.8730
0.8039
1.6769
Sb-118m
5.00 h
ECB+
-
0.0374
2.6130
2.6504
Sb-119
38.19 h
EC
-
0.0258
0.0234
0.0492
Sb-120
15.89 m
ECB+
-
0.3077
0.4521
0.7599
Sb-120m
5.76 d
EC
-
0.0449
2.4663
2.5112
Sb-122
2.7238 d
B-ECB+
-
0.5618
0.4453
1.0072
Sb-122m
4.191 m
IT
-
0.0937
0.0707
0.1644
Sb-122
1.00
Sb-124
60.20 d
B-
-
0.3831
1.8531
2.2362
Sb-124m
93 s
ITB-
-
0.1157
0.4401
0.5558
Sb-124
7.5000E-01
Sb-124n
20.2 m
IT
-
0.0256
0.0004
0.0260
Sb-124m
1.00
Sb-125
2.75856 y
B-
-
0.1010
0.4373
0.5383
Te-125m
2.3136E-01
Sb-126
12.35 d
B-
-
0.3545
2.7552
3.1097
Sb-126m
19.15 m
B-IT
-
0.6322
1.5483
2.1805
Sb-126
1.4000E-01
Sb-127
3.85 d
B-
-
0.3160
0.6934
1.0094
Te-127
8.2320E-01
Te-127m
1.7680E-01
Sb-128
9.01 h
B-
-
0.4999
3.0934
3.5934
275
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Sb-128m
10.4 m
B-IT
-
0.9580
1.9063
2.8643
Sb-128
3.6000E-02
Sb-129
4.40 h
B-
-
0.3953
1.4601
1.8553
Te-129
7.7381E-01
Te-129m
2.2619E-01
Sb-130
39.5 m
B-
-
0.7579
3.2724
4.0303
Sb-130m
6.3 m
B-
-
1.0290
2.7077
3.7367
Sb-131
23.03 m
B-
-
0.5867
2.0733
2.6601
Te-131
9.1793E-01
Te-131m
8.2067E-02
Sb-133
2.5 m
B-
-
0.6785
2.7434
3.4219
Te-133
8.2662E-01
Te-133m
1.7338E-01
Tellurium Te-113
1.7 m
ECB+
-
1.7023
2.2208
3.9231
Sb-113
1.00
Te-114
15.2 m
ECB+
-
0.1551
1.2817
1.4368
Sb-114
1.00
Te-115
5.8 m
ECB+
-
0.8124
2.2449
3.0572
Sb-115
1.00
Te-115m
6.7 m
ECB+
-
0.6939
2.6041
3.2980
Sb-115
1.00
Te-116
2.49 h
ECB+
-
0.0618
0.1122
0.1740
Sb-116
1.00
Te-117
62 m
ECB+
-
0.2139
1.5492
1.7631
Sb-117
1.00
Te-118
6.00 d
EC
-
0.0061
0.0199
0.0260
Sb-118
1.00
Te-119
16.05 h
ECB+
-
0.0143
0.7679
0.7822
Sb-119
1.00
Te-119m
4.70 d
ECB+
-
0.0180
1.5059
1.5239
Sb-119
1.00
Te-121
19.16 d
EC
-
0.0098
0.5775
0.5872
Te-121m
154 d
ITEC
-
0.0817
0.2176
0.2993
Te-121
8.8600E-01
Te-123
6.00E+14 y
EC
-
0.0028
0.0004
0.0031
Te-123m
119.25 d
IT
-
0.0990
0.1477
0.2467
Te-123
1.00
Te-125m
57.40 d
IT
-
0.1091
0.0360
0.1451
Te-127
9.35 h
B-
-
0.2246
0.0049
0.2294
Te-127m
109 d
ITB-
-
0.0824
0.0113
0.0937
Te-127
9.7600E-01
Te-129
69.6 m
B-
-
0.5436
0.0625
0.6061
1-129
1.00
Te-129m
33.6 d
ITB-
-
0.2709
0.0376
0.3085
Te-129
6.3000E-01
1-129
3.7000E-01
276
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Te-131
25.0 m
B-
-
0.7122
0.4200
1.1322
1-131
1.00
Te-131m
30 h
B-IT
-
0.1870
1.4545
1.6415
1-131
7.7800E-01
Te-131
2.2200E-01
Te-132
3.204 d
B-
-
0.1108
0.2344
0.3453
1-132
1.00
Te-133
12.5 m
B-
-
0.6897
1.2007
1.8904
1-133
1.00
Te-133m
55.4 m
B-IT
-
0.3880
1.8597
2.2477
1-133
8.2500E-01
Te-133
1.7500E-01
Te-134
41.8 m
B-
-
0.2266
0.8714
1.0980
1-134
1.00
Iodine 1-118
13.7 m
ECB+
-
1.9645
2.0163
3.9809
Te-118
1.00
I-118m
8.5 m
ECB+
-
1.1055
3.7513
4.8567
Te-118
1.00
1-119
19.1 m
ECB+
-
0.5116
0.9110
1.4227
Te-119
9.9046E-01
Te-119m
9.5421E-03
1-120
81.6 m
ECB+
-
1.1680
2.6611
3.8291
I-120m
53 m
ECB+
-
0.9070
3.5248
4.4318
1-121
2.12 h
ECB+
-
0.0665
0.3995
0.4660
Te-121
9.9714E-01
Te-121m
2.8631E-03
1-122
3.63 m
ECB+
-
1.1055
0.9619
2.0674
1-123
13.27 h
EC
-
0.0282
0.1730
0.2012
Te-123
9.9996E-01
Te-123m
4.4420E-05
1-124
4.1760 d
ECB+
-
0.1943
1.1132
1.3075
1-125
59.400 d
EC
-
0.0192
0.0428
0.0621
1-126
12.93 d
ECB+B-
-
0.1606
0.4354
0.5959
1-128
24.99 m
B-ECB+
-
0.7463
0.0676
0.8139
1-129
1.57E+7 y
B-
-
0.0651
0.0252
0.0902
1-130
12.36 h
B-
-
0.2786
2.1372
2.4158
I-130m
8.84 m
ITB-
-
0.1778
0.1097
0.2875
1-130
8.4000E-01
1-131
8.02070 d
B-
-
0.1918
0.3828
0.5746
Xe-131m
1.1759E-02
1-132
2.295 h
B-
-
0.4930
2.2645
2.7575
I-132m
1.387 h
ITB-
-
0.1614
0.3403
0.5018
1-132
8.6000E-01
1-133
20.8 h
B-
-
0.4142
0.6120
1.0262
Xe-133
9.7115E-01
Xe-133m
2.8846E-02
277
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
1-134
52.5 m
B-
-
0.5776
2.5953
3.1729
I-134m
3.60 m
1-134
ITB-
9.7700E-01
—
0.0913
0.2887
0.3800
1-135
6.57 h
Xe-135
Xe-135m
B-
8.3432E-01
1.6568E-01
0.3465
1.5815
1.9280
Xenon
Xe-120
40 m
1-120
ECB+
1.00
—
0.0461
0.4015
0.4476
Xe-121
40.1 m
1-121
ECB+
1.00
—
0.5819
1.4720
2.0539
Xe-122
20.1 h
1-122
EC
1.00
—
0.0100
0.0684
0.0784
Xe-123
2.08 h
1-123
ECB+
1.00
—
0.1875
0.6411
0.8286
Xe-125
16.9 h
1-125
ECB+
1.00
—
0.0350
0.2723
0.3074
Xe-127
36.4 d
EC
-
0.0325
0.2806
0.3131
Xe-127m
69.2 s
Xe-127
IT
1.00
—
0.1293
0.1685
0.2978
Xe-129m
8.88 d
IT
-
0.1844
0.0517
0.2362
Xe-131m
11.84 d
IT
-
0.1470
0.0206
0.1676
Xe-133
5.243 d
B-
-
0.1379
0.0474
0.1854
Xe-133m
2.19 d
Xe-133
IT
1.00
—
0.1924
0.0410
0.2333
Xe-135
9.14 h
Cs-135
B-
1.00
—
0.3208
0.2483
0.5691
Xe-135m
15.29 m
Xe-135
Cs-135
ITB-
9.9400E-01
6.0000E-03
0.1008
0.4249
0.5257
Xe-137
3.818 m
Cs-137
B-
1.00
—
1.6952
0.1908
1.8859
Xe-138
14.08 m
Cs-138
B-
1.00
—
0.6596
1.1222
1.7818
Cesium
Cs-121
155 s
Xe-121
ECB+
1.00
—
1.7391
1.1733
2.9123
Cs-121m
122 s
Xe-121
Cs-121
ECB+IT
8.3000E-01
1.7000E-01
1.3475
1.1821
2.5296
Cs-123
5.88 m
Xe-123
ECB+
1.00
—
0.9509
1.0860
2.0369
Cs-124
30.8 s
ECB+
-
1.9908
1.1607
3.1515
Cs-125
45 m
Xe-125
ECB+
1.00
—
0.3524
0.7550
1.1075
Cs-126
1.64 m
ECB+
-
1.3193
1.1545
2.4738
Cs-127
6.25 h
Xe-127
ECB+
1.00
—
0.0293
0.4334
0.4627
278
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Cs-128
3.640 m
ECB+
-
0.8735
0.8917
1.7651
Cs-129
32.06 h
ECB+
-
0.0175
0.2802
0.2977
Cs-130
29.21 m
ECB+B-
-
0.3869
0.5026
0.8894
Cs-130m
3.46 m
ITEC
-
0.0937
0.0737
0.1674
Cs-130
9.9840E-01
Cs-131
9.689 d
EC
-
0.0064
0.0232
0.0295
Cs-132
6.479 d
ECB+B-
-
0.0143
0.7151
0.7294
Cs-134
2.0648 y
B-EC
-
0.1639
1.5551
1.7190
Cs-134m
2.903 h
IT
-
0.1122
0.0273
0.1394
Cs-134
1.00
Cs-135
2.3E+6 y
B-
-
0.0894
-
0.0894
Cs-135m
53 m
IT
-
0.0361
1.5972
1.6333
Cs-135
1.00
Cs-136
13.16 d
B-
-
0.1449
2.1283
2.2732
Cs-137
30.1671 y
B-
-
0.1884
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
La-140
1.00
Ba-141
18.27 m
B-
-
0.9624
0.9271
1.8895
La-141
1.00
Ba-142
10.6 m
B-
-
0.4141
1.0469
1.4610
La-142
1.00
Lanthanum La-128
5.18m
ECB+
-
1.3340
2.8283
4.1623
Ba-128
1.00
La-129
11.6 m
ECB+
-
0.6135
0.9212
1.5347
Ba-129
9.2384E-01
Ba-129m
7.6164E-02
La-130
8.7 m
ECB+
-
1.1113
2.2324
3.3438
La-131
59 m
ECB+
-
0.1963
0.6633
0.8596
Ba-131
1.00
La-132
4.8 h
ECB+
-
0.5693
1.9952
2.5645
La-13 2m
24.3 m
ITECB+
-
0.1126
0.6706
0.7832
La-132
7.6000E-01
La-133
3.912 h
ECB+
-
0.0503
0.1605
0.2108
Ba-133
1.00
La-134
6.45 m
ECB+
-
0.7647
0.7196
1.4844
La-135
19.5 h
ECB+
-
0.0067
0.0361
0.0428
La-136
9.87 m
ECB+
-
0.2941
0.4070
0.7011
La-137
6.0E+4 y
EC
-
0.0065
0.0250
0.0315
La-138
1.02E+11 y
ECB-
-
0.0377
1.2316
1.2693
La-140
1.6781 d
B-
-
0.5346
2.3084
2.8429
La-141
3.92 h
B-
-
0.9876
0.0268
1.0144
Ce-141
1.00
La-142
91.1 m
B-
-
0.8697
2.3738
3.2435
La-143
14.2 m
B-
-
1.2995
0.2631
1.5625
Ce-143
1.00
Cerium Ce-130
22.9 m
ECB+
-
0.0738
0.5003
0.5741
La-130
1.00
Ce-131
10.2 m
ECB+
-
0.6153
1.6267
2.2420
La-131
1.00
Ce-132
3.51 h
EC
-
0.0180
0.2727
0.2908
La-132
1.00
Ce-133
97 m
ECB+
-
0.3817
0.5430
0.9247
La-133
1.00
Ce-133m
4.9 h
ECB+
-
0.0739
1.7373
1.8112
La-133
1.00
Ce-134
3.16 d
EC
-
0.0072
0.0281
0.0353
La-134
1.00
Ce-135
17.7 h
ECB+
-
0.0296
0.8237
0.8533
La-135
1.00
Ce-137
9.0 h
ECB+
-
0.0165
0.0388
0.0553
La-137
1.00
Ce-137m
34.4 h
ITEC
-
0.2067
0.0558
0.2625
280
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Ce-137
9.9220E-01
La-137
7.8000E-03
Ce-139
137.641 d
EC
-
0.0355
0.1599
0.1954
Ce-141
32.508 d
B-
-
0.1710
0.0768
0.2478
Ce-143
33.039 h
B-
-
0.4364
0.2796
0.7159
Pr-143
1.00
Ce-144
284.91 d
B-
-
0.0916
0.0194
0.1110
Pr-144
9.9023E-01
Pr-144m
9.7699E-03
Ce-145
3.01 m
B-
-
0.6794
0.8142
1.4937
Pr-145
1.00
Praseodymium
Pr-134
11 m
ECB+
-
1.0801
3.1504
4.2305
Ce-134
1.00
Pr-134m
17 m
ECB+
-
1.5274
2.3101
3.8375
Ce-134
1.00
Pr-135
24 m
ECB+
-
0.5793
0.8741
1.4534
Ce-135
1.00
Pr-136
13.1 m
ECB+
-
0.7545
2.1458
2.9003
Pr-137
1.28 h
ECB+
-
0.1947
0.3693
0.5640
Ce-137
1.00
Pr-138
1.45 m
ECB+
-
1.1617
0.8153
1.9770
Pr-138m
2.12 h
ECB+
-
0.2208
2.4776
2.6984
Pr-139
4.41 h
ECB+
-
0.0478
0.1298
0.1777
Ce-139
1.00
Pr-140
3.39 m
ECB+
-
0.5516
0.5467
1.0983
Pr-142
19.12 h
B-EC
-
0.8098
0.0581
0.8679
Pr-142m
14.6 m
IT
-
0.0036
0.0001
0.0037
Pr-142
1.00
Pr-143
13.57 d
B-
-
0.3150
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Nd-137
38.5 m
ECB+
-
0.3247
1.1789
1.5036
Pr-137
1.00
Nd-138
5.04 h
EC
-
0.0082
0.0438
0.0520
Pr-138
1.00
Nd-139
29.7 m
ECB+
-
0.2084
0.4431
0.6515
Pr-139
1.00
Nd-139m
5.50 h
ECB+IT
-
0.0795
1.5852
1.6647
Pr-139
8.8200E-01
Nd-139
1.1800E-01
Nd-140
3.37 d
EC
-
0.0069
0.0287
0.0357
Pr-140
1.00
Nd-141
2.49 h
ECB+
-
0.0165
0.0765
0.0930
Nd-141m
62.0 s
ITECB+
-
0.0622
0.6947
0.7569
Nd-141
9.9968E-01
Nd-144
2.29E+15 y
A
1.9052
-
-
1.9052
Nd-147
10.98 d
B-
-
0.2702
0.1408
0.4109
Pm-147
1.00
Nd-149
1.728 h
B-
-
0.5042
0.3713
0.8756
Pm-149
1.00
Nd-151
12.44 m
B-
-
0.6195
0.8518
1.4712
Pm-151
1.00
Nd-152
11.4m
B-
-
0.3314
0.1644
0.4957
Pm-152
1.00
Promethium Pm-136
107 s
ECB+
-
2.1436
2.7178
4.8614
Nd-136
1.00
Pm-137m
2.4 m
ECB+
-
1.1120
1.7835
2.8955
Nd-137
1.00
Pm-139
4.15 m
ECB+
-
1.0416
0.9390
1.9807
Nd-139
1.00
Pm-140
9.2 s
ECB+
-
2.0432
1.0506
3.0937
Nd-140
1.00
Pm-140m
5.95 m
ECB+
-
0.9932
3.0324
4.0256
Nd-140
1.00
Pm-141
20.90 m
ECB+
-
0.6054
0.7349
1.3403
Nd-141
9.9833E-01
Nd-141m
1.6651E-03
Pm-142
40.5 s
ECB+
-
1.3122
0.8561
2.1683
Pm-143
265 d
EC
-
0.0083
0.3157
0.3240
Pm-144
363 d
EC
-
0.0171
1.5631
1.5802
Nd-144
1.00
Pm-145
17.7 y
ECA
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Sm-148
1.00
Pm-148m
41.29 d
B-IT
-
0.1699
1.9916
2.1615
Sm-148
9.5800E-01
Pm-148
4.2000E-02
Pm-149
53.08 h
B-
-
0.3650
0.0119
0.3769
Pm-150
2.68 h
B-
-
0.8101
1.4705
2.2806
Pm-151
28.40 h
B-
-
0.3048
0.3289
0.6337
Sm-151
1.00
Pm-152
4.12 m
B-
-
1.3283
0.2866
1.6149
Pm-152m
7.52 m
B-
-
0.9055
1.5189
2.4244
Pm-153
5.25 m
B-
-
0.6881
0.0764
0.7645
Sm-153
1.00
Pm-154
1.73 m
B-
-
0.8706
1.7933
2.6638
Pm-154m
2.68 m
B-
-
0.9492
1.7996
2.7488
Samarium
Sm-139
2.57 m
ECB+
-
1.0871
1.4540
2.5410
Pm-139
1.00
Sm-140
14.82 m
ECB+
-
0.1710
0.5677
0.7387
Pm-140
1.00
Sm-141
10.2 m
ECB+
-
0.7126
1.4089
2.1215
Pm-141
1.00
Sm-141m
22.6 m
ECB+IT
-
0.3995
1.9494
2.3489
Pm-141
9.9690E-01
Sm-141
3.1000E-03
Sm-142
72.49 m
ECB+
-
0.0446
0.1105
0.1551
Pm-142
1.00
Sm-143
8.75 m
ECB+
-
0.4978
0.5289
1.0267
Pm-143
1.00
Sm-143m
66 s
ITECB+
-
0.0720
0.6844
0.7564
Sm-143
9.9760E-01
Pm-143
2.4000E-03
Sm-145
340 d
EC
-
0.0307
0.0642
0.0950
Pm-145
1.00
Sm-146
1.03E+8 y
A
2.5290
-
-
2.5290
Sm-147
1.060E11 y
A
2.3105
-
-
2.3105
Sm-148
7E+15y
A
1.9860
-
-
1.9860
Nd-144
1.00
Sm-151
90 y
B-
-
0.0200
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Eu-142m
1.223 m
Sm-142
ECB+
1.00
—
1.7683
3.4305
5.1987
Eu-143
2.59 m
Sm-143
Sm-143m
ECB+
9.9879E-01
1.2069E-03
1.3676
1.1227
2.4903
Eu-144
10.2 s
ECB+
-
2.0761
1.0917
3.1678
Eu-145
5.93 d
Sm-145
ECB+
1.00
—
0.0254
1.2798
1.3052
Eu-146
4.61 d
Sm-146
ECB+
1.00
—
0.0455
2.4007
2.4462
Eu-147
24.1 d
Sm-147
Pm-143
ECB+A
9.9998E-01
2.2000E-05
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Gd-146
48.27 d
EC
-
0.1274
0.2526
0.3800
Eu-146
1.00
Gd-147
38.1 h
ECB+
-
0.0617
1.4030
1.4647
Eu-147
1.00
Gd-148
74.6 y
A
3.2712
-
-
3.2712
Sm-144
1.00
Gd-149
9.28 d
ECB+
-
0.0686
0.5292
0.5978
Eu-149
1.00
Gd-150
1.79E+6 y
A
2.8090
-
-
2.8090
Sm-146
1.00
Gd-151
124 d
ECA
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Gd-152
1.00
Tb-152m
4.2 m
ITECB+
-
0.1520
0.7619
0.9139
Tb-152
7.8800E-01
Gd-152
2.1200E-01
Tb-153
2.34 d
ECB+
-
0.0481
0.3318
0.3800
Gd-153
1.00
Tb-154
21.5 h
ECB+
-
0.0681
2.2831
2.3512
Tb-155
5.32 d
EC
-
0.0434
0.1777
0.2211
Tb-156
5.35 d
EC
-
0.0835
1.9371
2.0206
Tb-156m
24.4 h
IT
-
0.0171
0.0370
0.0540
Tb-156
1.00
Tb-156n
5.3 h
IT
-
0.0874
0.0048
0.0922
Tb-156
1.00
Tb-157
71 y
EC
-
0.0057
0.0057
0.0114
Tb-158
180 y
ECB-
-
0.1117
0.8048
0.9165
Tb-160
72.3 d
B-
-
0.2593
1.1264
1.3856
Tb-161
6.906 d
B-
-
0.2025
0.0365
0.2390
Tb-162
7.60 m
B-
-
0.5327
1.1066
1.6393
Tb-163
19.5 m
B-
-
0.3597
0.7887
1.1484
Tb-164
3.0 m
B-
-
0.8249
2.4455
3.2704
Tb-165
2.11 m
B-
-
0.8966
0.8363
1.7330
Dy-165m
8.9028E-01
Dy-165
1.0972E-01
Dysprosium
Dy-148
3.3 m
ECB+
-
0.0278
0.7170
0.7448
Tb-148
1.00
Dy-149
4.20 m
ECB+
-
0.1120
1.6222
1.7342
Tb-149
5.6682E-01
Tb-149m
4.3318E-01
Dy-150
7.17 m
ECB+A
1.5664
0.0070
0.2785
1.8519
Tb-150
6.4000E-01
Gd-146
3.6000E-01
Dy-151
17.9 m
ECB+A
0.2341
0.0653
1.3723
1.6717
Tb-151
5.3377E-01
Tb-151m
4.1023E-01
Gd-147
5.6000E-02
Dy-152
2.38 h
ECA
0.0037
0.0130
0.2867
0.3034
Tb-152
9.9900E-01
Gd-148
1.0000E-03
Dy-153
6.4 h
ECB+A
0.0003
0.0901
0.8746
0.9651
Tb-153
1.00
Gd-149
9.4000E-05
Dy-154
3.0E+6 y
A
2.9470
-
-
2.9470
Gd-150
1.00
Dy-155
9.9 h
ECB+
-
0.0272
0.6687
0.6959
Tb-155
1.00
Dy-157
8.14 h
EC
-
0.0138
0.3472
0.3610
286
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Tb-157
1.00
Dy-159
144.4 d
EC
-
0.0131
0.0456
0.0587
Dy-165
2.334 h
B-
-
0.4473
0.0267
0.4740
Dy-165m
1.257 m
ITB-
-
0.1049
0.0192
0.1240
Dy-165
9.7760E-01
Dy-166
81.6 h
B-
-
0.1667
0.0433
0.2100
Ho-166
1.00
Dy-167
6.20 m
B-
-
0.7262
0.5326
1.2589
Ho-167
1.00
Dy-168
8.7 m
B-
-
0.4332
0.3948
0.8280
Ho-168
1.00
Holmium Ho-150
76.8 s
ECB+
-
1.9857
1.8843
3.8701
Dy-150
1.00
Ho-153
2.01 m
ECB+A
0.0020
0.5387
1.0281
1.5689
Dy-153
9.9949E-01
Tb-149m
5.1000E-04
Ho-153m
9.3 m
ECB+A
0.0074
0.6952
1.0618
1.7644
Dy-153
9.9820E-01
Tb-149
1.8000E-03
Ho-154
11.76 m
ECB+A
0.0008
1.0927
1.8817
2.9752
Dy-154
9.9981E-01
Tb-150
1.9000E-04
Ho-154m
3.10m
ECB+A
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Ho-168m
132 s
IT
-
0.0518
0.0073
0.0590
Ho-168
1.00
Ho-170
2.76 m
B-
-
0.8366
1.7041
2.5407
Erbium
Er-154
3.73 m
ECB+A
0.0201
0.0376
0.0759
0.1336
Ho-154
9.9530E-01
Dy-150
4.7000E-03
Er-156
19.5 m
EC
-
0.0943
0.0678
0.1621
Ho-156
1.00
Er-159
36 m
ECB+
-
0.0738
0.9635
1.0373
Ho-159
1.00
Er-161
3.21 h
ECB+
-
0.0522
0.9905
1.0427
Ho-161
1.00
Er-163
75.0 m
ECB+
-
0.0081
0.0403
0.0484
Ho-163
1.00
Er-165
10.36 h
EC
-
0.0080
0.0379
0.0459
Er-167m
2.269 s
IT
-
0.1111
0.0967
0.2078
Er-169
9.40 d
B-
-
0.1035
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Yb-164
75.8 m
EC
-
0.0095
0.0542
0.0637
Tm-164
1.00
Yb-165
9.9 m
ECB+
-
0.1518
0.3390
0.4908
Tm-165
1.00
Yb-166
56.7 h
EC
-
0.0417
0.0868
0.1285
Tm-166
1.00
Yb-167
17.5 m
ECB+
-
0.0952
0.2696
0.3648
Tm-167
1.00
Yb-169
32.026 d
EC
-
0.1471
0.3302
0.4773
Yb-175
4.185 d
B-
-
0.1308
0.0391
0.1699
Yb-177
1.911 h
B-
-
0.4358
0.1952
0.6309
Lu-177
1.00
Yb-178
74 m
B-
-
0.1925
0.0381
0.2306
Lu-178
1.00
Yb-179
8.0 m
B-
-
0.7093
0.9743
1.6836
Lu-179
1.00
Lutetium Lu-165
10.74 m
ECB+
-
0.3751
1.1102
1.4853
Yb-165
1.00
Lu-167
51.5 m
ECB+
-
0.1109
1.6920
1.8030
Yb-167
1.00
Lu-169
34.06 h
ECB+
-
0.0477
1.3166
1.3643
Yb-169
1.00
Lu-169m
160 s
IT
-
0.0274
0.0017
0.0290
Lu-169
1.00
Lu-170
2.012 d
ECB+
-
0.0585
2.5636
2.6220
Lu-171
8.24 d
ECB+
-
0.0928
0.6503
0.7431
Lu-171m
79 s
IT
-
0.0691
0.0021
0.0711
Lu-171
1.00
Lu-172
6.70 d
ECB+
-
0.1154
1.9565
2.0718
Lu-172m
3.7 m
IT
-
0.0404
0.0015
0.0419
Lu-172
1.00
Lu-173
1.37 y
EC
-
0.0526
0.1834
0.2360
Lu-174
3.31 y
ECB+
-
0.0458
0.1163
0.1621
Lu-174m
142 d
ITEC
-
0.1188
0.0626
0.1814
Lu-174
9.9380E-01
Lu-176
3.85E+10 y
B-
-
0.3026
0.4799
0.7825
Lu-176m
3.635 h
B-EC
-
0.4783
0.0146
0.4929
Lu-177
6.647 d
B-
-
0.1479
0.0351
0.1830
Lu-177m
160.4 d
B-IT
-
0.2687
1.0005
1.2692
Lu-177
2.1700E-01
Lu-178
28.4 m
B-
-
0.7561
0.1256
0.8817
Lu-178m
23.1 m
B-
-
0.4907
1.0481
1.5389
Lu-179
4.59 h
B-
-
0.4869
0.0298
0.5167
Lu-180
5.7 m
B-
-
0.6352
1.5148
2.1499
Lu-181
3.5 m
B-
-
0.8512
0.5740
1.4252
Hf-181
1.00
289
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Hafnium
Hf-167
2.05 m
ECB+
-
0.4952
0.6171
1.1123
Lu-167
1.00
Hf-169
3.24 m
ECB+
-
0.1309
0.6416
0.7725
Lu-169
9.6904E-01
Lu-169m
3.0960E-02
Hf-170
16.01 h
EC
-
0.0687
0.4403
0.5090
Lu-170
1.00
Hf-172
1.87 y
EC
-
0.0828
0.1062
0.1890
Lu-172m
1.00
Hf-173
23.6 h
ECB+
-
0.0524
0.3970
0.4494
Lu-173
1.00
Hf-174
2.0E+15 y
A
2.4948
-
-
2.4948
Hf-175
70 d
EC
-
0.0450
0.3534
0.3984
Hf-177m
51.4 m
IT
-
0.5078
2.2864
2.7941
Hf-178m
31 y
IT
-
0.2113
2.2383
2.4496
Hf-179m
25.05 d
IT
-
0.1897
0.9207
1.1104
Hf-180m
5.5 h
ITB-
-
0.1437
0.9884
1.1321
Hf-181
42.39 d
B-
-
0.2052
0.5324
0.7377
Hf-182
9E+6 y
B-
-
0.0632
0.2397
0.3030
Ta-182
1.00
Hf-182m
61.5 m
B-IT
-
0.2441
0.9135
1.1575
Ta-182
4.9070E-01
Hf-182
4.2000E-01
Ta-182m
8.9280E-02
Hf-183
1.067 h
B-
-
0.4478
0.7749
1.2227
Ta-183
1.00
Hf-184
4.12 h
B-
-
0.4787
0.2387
0.7174
Ta-184
1.00
Tantalum
Ta-170
6.76 m
ECB+
-
1.6049
1.0602
2.6652
Hf-170
1.00
Ta-172
36.8 m
ECB+
-
0.5513
1.6967
2.2480
Hf-172
1.00
Ta-173
3.14 h
ECB+
-
0.1686
0.5824
0.7510
Hf-173
1.00
Ta-174
1.14 h
ECB+
-
0.4670
0.9767
1.4438
Hf-174
1.00
Ta-175
10.5 h
ECB+
-
0.0663
1.1126
1.1790
Hf-175
1.00
Ta-176
8.09 h
ECB+
-
0.0849
2.2322
2.3171
Ta-177
56.56 h
EC
-
0.0240
0.0678
0.0917
Ta-178
9.31 m
ECB+
-
0.0391
0.1218
0.1609
Ta-178m
2.36 h
EC
-
0.1616
1.1558
1.3174
Ta-179
1.82 y
EC
-
0.0078
0.0256
0.0334
Ta-180
8.152 h
ECB-
-
0.0565
0.0482
0.1048
Ta-182
114.43 d
B-
-
0.2105
1.2918
1.5023
Ta-182m
15.84 m
IT
-
0.2665
0.2659
0.5324
290
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Ta-182
1.00
Ta-183
5.1 d
B-
-
0.3537
0.2963
0.6499
Ta-184
8.7 h
B-
-
0.5426
1.5727
2.1152
Ta-185
49.4 m
B-
-
0.7416
0.1547
0.8963
W-185
1.00
Ta-186
10.5 m
B-
-
1.0710
1.4202
2.4912
Tungsten
W-177
132 m
ECB+
-
0.0970
0.9185
1.0155
Ta-177
1.00
W-178
21.6 d
EC
-
0.0075
0.0164
0.0239
Ta-178
1.00
W-179
37.05 m
EC
-
0.0326
0.0554
0.0880
Ta-179
1.00
W-179m
6.40 m
ITEC
-
0.1661
0.0561
0.2221
W-179
9.9720E-01
Ta-179
2.8000E-03
W-181
121.2 d
EC
-
0.0129
0.0404
0.0533
W-185
75.1 d
B-
-
0.1270
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Re-188m
18.59 m
Re-188
IT
1.00
—
0.0976
0.0715
0.1692
Re-189
24.3 h
Os-189m
B-
1.2211E-01
—
0.3260
0.0556
0.3816
Re-190
3.1 m
B-
-
0.6863
1.3376
2.0239
Re-190m
3.2 h
Re-190
B-IT
4.5600E-01
—
0.4456
0.9257
1.3714
Osmium Os-180
21.5 m
Re-180
ECB+
1.00
—
0.0298
0.1265
0.1564
Os-181
105 m
Re-181
ECB+
1.00
—
0.0918
1.3835
1.4753
Os-182
22.10 h
Re-182m
EC
1.00
—
0.0565
0.4317
0.4882
Os-183
13.0 h
Re-183
ECB+
1.00
—
0.0792
0.6288
0.7081
Os-183m
9.9 h
Re-183
Os-183
ECB+IT
8.5000E-01
1.5000E-01
0.0416
1.0062
1.0478
Os-185
93.6 d
EC
-
0.0184
0.6917
0.7101
Os-186
2.0E+15 y
A
2.8220
-
-
2.8220
Os-189m
5.8 h
IT
-
0.0286
0.0023
0.0309
Os-190m
9.9 m
IT
-
0.1166
1.5894
1.7059
Os-191
15.4 d
B-
-
0.1372
0.0843
0.2215
Os-191m
13.10 h
Os-191
IT
1.00
—
0.0664
0.0080
0.0744
Os-193
30.11 h
Ir-193m
B-
3.4757E-03
—
0.3797
0.0674
0.4471
Os-194
6.0 y
Ir-194
B-
1.00
—
0.0453
0.0045
0.0498
Os-196
34.9 m
Ir-196
B-
1.00
—
0.3807
0.0805
0.4612
Iridium Ir-180
1.5 m
Os-180
ECB+
1.00
—
1.2439
1.5955
2.8394
Ir-182
15 m
Os-182
ECB+
1.00
—
1.0474
1.4121
2.4595
Ir-183
58 m
Os-183m
Os-183
ECB+
7.0972E-01
2.9028E-01
0.1516
1.1889
1.3404
Ir-184
3.09 h
Os-184
ECB+
1.00
—
0.3194
1.9644
2.2838
Ir-185
14.4 h
Os-185
ECB+
1.00
—
0.1228
0.8581
0.9809
Ir-186
16.64 h
Os-186
ECB+
1.00
—
0.1453
1.6651
1.8104
Ir-186m
1.92 h
Os-186
ECB+IT
7.5000E-01
—
0.1103
1.2523
1.3626
292
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Alpha
Emitted energy (MeV/nt)
Electron Photon
Total
Ir-186
2.5000E-01
Ir-187
10.5 h
ECB+
-
0.0568
0.3325
0.3892
Ir-188
41.5 h
ECB+
-
0.0508
2.0974
2.1483
Ir-189
13.2 d
EC
-
0.0458
0.0793
0.1251
Os-189m
7.4264E-02
Ir-190
11.78 d
EC
-
0.0746
1.4768
1.5514
Ir-190m
1.120 h
IT
-
0.0240
0.0024
0.0264
Ir-190
1.00
Ir-190n
3.087 h
ECIT
-
0.0289
0.0577
0.0867
Os-190m
9.1400E-01
Ir-190
8.6000E-02
Ir-191m
4.94 s
IT
-
0.0971
0.0764
0.1735
Ir-192
73.827 d
B-EC
-
0.2177
0.8165
1.0342
Ir-192m
1.45 m
ITB-
-
0.0540
0.0029
0.0569
Ir-192
9.9983E-01
Ir-192n
241 y
IT
-
0.1617
0.0066
0.1682
Ir-192
1.00
Ir-193m
10.53 d
IT
-
0.0776
0.0027
0.0803
Ir-194
19.28 h
B-
-
0.8105
0.0911
0.9015
Ir-194m
171 d
B-
-
0.1422
2.3339
2.4761
Ir-195
2.5 h
B-
-
0.3803
0.0593
0.4397
Ir-195m
3.8 h
B-IT
-
0.2606
0.3766
0.6372
Pt-195m
4.3692E-01
Ir-195
5.0000E-02
Ir-196
52 s
B-
-
1.1738
0.2322
1.4060
Ir-196m
1.40 h
B-
-
0.3844
2.4677
2.8522
Pt-184
17.3 m
ECB+A
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Pt-197
19.8915 h
B-
-
0.2552
0.0256
0.2809
Pt-197m
95.41 m
ITB-
-
0.3250
0.0839
0.4089
Pt-197
9.6700E-01
Pt-199
30.80 m
B-
-
0.5455
0.1995
0.7450
Au-199
1.00
Pt-200
12.5 h
B-
-
0.2321
0.0605
0.2926
Au-200
1.00
Pt-202
44 h
B-
-
0.6537
-
0.6537
Au-202
1.00
Gold
Au-186
10.7 m
ECB+
-
1.0751
1.4983
2.5735
Pt-186
1.00
Au-187
8.4 m
ECB+A
0.0001
0.1360
1.0652
1.2014
Pt-187
1.00
Ir-183
3.0000E-05
Au-190
42.8 m
ECB+
-
0.2129
2.3807
2.5936
Pt-190
1.00
Au-191
3.18 h
ECB+
-
0.0865
0.5946
0.6811
Pt-191
1.00
Au-192
4.94 h
ECB+
-
0.0904
1.9392
2.0296
Au-193
17.65 h
EC
-
0.0575
0.1673
0.2249
Pt-193
1.00
Au-193m
3.9 s
ITEC
-
0.0904
0.1979
0.2883
Au-193
9.9970E-01
Pt-193m
3.0000E-04
Au-194
38.02 h
ECB+
-
0.0421
1.0386
1.0806
Au-195
186.098 d
EC
-
0.0520
0.0839
0.1359
Au-195m
30.5 s
IT
-
0.1172
0.2014
0.3186
Au-195
1.00
Au-196
6.183 d
ECB-
-
0.0372
0.4734
0.5105
Au-196m
9.6 h
IT
-
0.3760
0.2473
0.6233
Au-196
1.00
Au-198
2.69517 d
B-
-
0.3277
0.4029
0.7306
Au-198m
2.27 d
IT
-
0.2748
0.5332
0.8080
Au-198
1.00
Au-199
3.139 d
B-
-
0.1451
0.0961
0.2412
Au-200
48.4 m
B-
-
0.7303
0.2737
1.0041
Au-200m
18.7 h
B-IT
-
0.2433
1.9843
2.2276
Au-200
1.8000E-01
Au-201
26 m
B-
-
0.4259
0.0346
0.4605
Au-202
28.8 s
B-
-
1.0749
0.1720
1.2469
Mercury
Hg-190
20.0 m
ECB+
-
0.0539
0.2018
0.2557
Au-190
1.00
Hg-191m
50.8 m
ECB+
-
0.1378
1.4895
1.6273
Au-191
1.00
Hg-192
4.85 h
EC
-
0.0636
0.2749
0.3385
Au-192
1.00
294
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Hg-193
3.80 h
ECB+
-
0.0740
0.8377
0.9117
Au-193
9.6459E-01
Au-193m
3.5408E-02
Hg-193m
11.8 h
ECB+IT
-
0.0470
1.0239
1.0709
Au-193m
8.9197E-01
Hg-193
7.1000E-02
Au-193
3.7027E-02
Hg-194
440 y
EC
-
0.0078
0.0027
0.0106
Au-194
1.00
Hg-195
10.53 h
ECB+
-
0.0650
0.2008
0.2658
Au-195
1.00
Hg-195m
41.6 h
ITECB+
-
0.1480
0.2047
0.3527
Hg-195
5.4200E-01
Au-195
4.5800E-01
Hg-197
64.94 h
EC
-
0.0702
0.0740
0.1442
Hg-197m
23.8 h
ITEC
-
0.2170
0.0977
0.3148
Hg-197
9.1400E-01
Hg-199m
42.66 m
IT
-
0.3487
0.1836
0.5323
Hg-203
46.612 d
B-
-
0.0990
0.2380
0.3370
Hg-205
5.2 m
B-
-
0.5390
0.0053
0.5444
Hg-206
8.15 m
B-
-
0.4211
0.1215
0.5426
Tl-206
1.00
Hg-207
2.9 m
B-
-
0.8262
2.6614
3.4876
Tl-207
1.00
Thallium Tl-190
2.6 m
ECB+
-
1.5288
1.2914
2.8202
Hg-190
1.00
Tl-190m
3.7 m
ECB+
-
0.7985
2.4550
3.2535
Hg-190
1.00
Tl-194
33.0 m
ECB+
-
0.5972
0.9143
1.5115
Hg-194
1.00
Tl-194m
32.8 m
ECB+
-
0.3037
2.5218
2.8255
Hg-194
1.00
Tl-195
1.16 h
ECB+
-
0.0740
1.2250
1.2991
Hg-195
9.9656E-01
Hg-195m
3.4358E-03
Tl-196
1.84 h
ECB+
-
0.1782
1.8734
2.0516
Tl-197
2.84 h
ECB+
-
0.0544
0.4587
0.5130
Hg-197
1.00
Tl-198
5.3 h
ECB+
-
0.0414
2.0108
2.0522
Tl-198m
1.87 h
ECB+IT
-
0.2006
1.2168
1.4175
Tl-198
4.6000E-01
Tl-199
7.42 h
ECB+
-
0.0600
0.2520
0.3120
Tl-200
26.1 h
ECB+
-
0.0408
1.3106
1.3514
Tl-201
72.912 h
EC
-
0.0447
0.0938
0.1385
Tl-202
12.23 d
EC
-
0.0233
0.4658
0.4891
Tl-204
3.78 y
B-EC
-
0.2372
0.0013
0.2385
295
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Tl-206
4.200 m
B-
-
0.5398
0.0001
0.5399
Tl-206m
3.74 m
IT
-
0.2003
2.4192
2.6195
Tl-206
1.00
Tl-207
4.77 m
B-
-
0.4952
0.0024
0.4975
Tl-208
3.053 m
B-
-
0.6113
3.3603
3.9716
Tl-209
2.161 m
B-
-
0.6875
2.1426
2.8302
Pb-209
1.00
Tl-210
1.30 m
B-
-
1.2699
2.7632
4.0331
Pb-210
1.00
Lead Pb-194
12.0 m
ECB+A
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Bi-212
1.00
Pb-214
26.8 m
Bi-214
B-
1.00
—
0.2948
0.2533
0.5481
Bismuth Bi-197
9.3 m
Pb-197
Pb-197m
ECB+
5.6103E-01
4.3897E-01
0.2887
1.6992
1.9879
Bi-200
36.4 m
Pb-200
ECB+
1.00
—
0.2469
2.4355
2.6825
Bi-201
108 m
Pb-201
Pb-201m
ECB+
5.4833E-01
4.5167E-01
0.0612
1.7304
1.7916
Bi-202
1.72 h
Pb-202
ECB+
1.00
—
0.1515
2.7561
2.9076
Bi-203
11.76 h
Pb-203
ECB+
1.00
—
0.0809
2.3850
2.4659
Bi-204
11.22 h
Pb-204m
ECB+
9.8525E-02
—
0.0807
2.9162
2.9968
Bi-205
15.31 d
Pb-205
ECB+
1.00
—
0.0346
1.6913
1.7259
Bi-206
6.243 d
ECB+
-
0.1379
3.2796
3.4175
Bi-207
32.9 y
ECB+
-
0.1193
1.5370
1.6563
Bi-208
3.68E+5 y
EC
-
0.0144
2.6460
2.6604
Bi-210
5.013 d
Po-210
Tl-206
B-A
1.00
1.3200E-06
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Bi-203
9.9890E-01
Pb-199
1.1000E-03
Po-204
3.53 h
Bi-204
Pb-200
ECA
9.9340E-01
6.6000E-03
0.0362
0.1839
1.1650
1.3850
Po-205
1.66 h
Bi-205
Pb-201
ECB+A
9.9900E-01
4.0000E-04
0.0021
0.0660
1.5846
1.6527
Po-206
8.8 d
Bi-206
Pb-202
ECA
9.4550E-01
5.4500E-02
0.2903
0.1655
1.1928
1.6486
Po-207
5.80 h
Bi-207
Pb-203
ECB+A
9.9979E-01
2.1000E-04
0.0011
0.0490
1.2847
1.3347
Po-208
2.898 y
Bi-208
AEC
2.2300E-05
5.2154
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element Nuclide
Half-life &
Decay mode &
Emitted energy (MeV/nt)
Decay products
Fractional yield
Alpha
Electron Photon
Total
Po-208
9.9450E-01
Bi-204
5.5000E-03
At-209
5.41 h
Po-209
Bi-205
ECB+A
9.5900E-01
4.1000E-02
0.2360
0.1172 2.2846
2.6378
At-210
8.1 h
Po-210
Bi-206
ECB+A
9.9825E-01
1.7500E-03
0.0097
0.0796 2.9622
3.0515
At-211
7.214 h
Po-211
Bi-207
ECA
5.8200E-01
4.1800E-01
2.4998
0.0059 0.0367
2.5424
At-215
1.00E-4 s
Bi-211
A
1.00
8.1778
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Half-life &
Emitted energy (MeV/nt)
nicniciu in uci icic
Decay products
Fractional yield
Alpha
Electron
Photon
Total
Po-214
1.00
Rn-219
3.96 s
Po-215
A
1.00
6.8801
0.0068
0.0586
6.9456
Rn-220
55.6 s
Po-216
A
1.00
6.4040
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Actinium
Thorium
Ra-228
5.75 y
Ac-228
B-
1.00
"
0.0132
0.0031
0.0163
Ra-230
93 m
Ac-230
B-
1.00
—
0.2201
0.0794
0.2995
Ac-223
2.10 m
Fr-219
A
9.9000E-01
6.6721
0.0254
0.0190
6.7165
Ac-224
2.78 h
Ra-224
Fr-220
ECA
9.0900E-01
9.1000E-02
0.5662
0.0490
0.2325
0.8477
Ac-225
10.0 d
Fr-221
A
1.00
5.8920
0.0248
0.0171
5.9338
Ac-226
29.37 h
Th-226
Ra-226
Fr-222
B-ECA
8.3000E-01
1.7000E-01
6.0000E-05
0.0003
0.2914
0.1327
0.4245
Ac-227
21.772 y
Th-227
Fr-223
B-A
9.8620E-01
1.3800E-02
0.0693
0.0150
0.0011
0.0853
Ac-228
6.15 h
Th-228
B-
1.00
—
0.4495
0.8671
1.3166
Ac-230
122 s
Th-230
B-
1.00
—
0.9229
0.5440
1.4668
Ac-231
7.5 m
Th-231
B-
1.00
—
0.6361
0.4190
1.0550
Ac-232
119s
Th-232
B-
1.00
—
0.9707
1.1528
2.1235
Ac-233
145 s
Th-233
B-
1.00
—
0.8355
0.4993
1.3348
Th-223
0.60 s
Ra-219
A
1.00
7.4134
0.0575
0.0754
7.5463
Th-224
1.05 s
Ra-220
A
1.00
7.2635
0.0129
0.0232
7.2996
Th-226
30.57 m
Ra-222
A
1.00
6.4219
0.0211
0.0089
6.4519
Th-227
18.68 d
Ra-223
A
1.00
5.9883
0.0755
0.1317
6.1955
Th-228
1.9116 y
Ra-224
A
1.00
5.4956
0.0210
0.0036
5.5202
Th-229
7.34E+3 y
Ra-225
A
1.00
4.9584
0.1217
0.0971
5.1772
Th-230
7.538E+4 y
Ra-226
A
1.00
4.7538
0.0146
0.0018
4.7702
Th-231
25.52 h
Pa-231
B-
1.00
—
0.1622
0.0269
0.1891
Th-232
1.405E10 y
Ra-228
A
1.00
4.0688
0.0126
0.0015
4.0829
301
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Protactinium
Uranium
Th-233
22.3 m
B-
Pa-233
1.00
Th-234
24.10 d
B-
Pa-234m
1.00
Th-235
7.1 m
B-
Pa-235
1.00
Th-236
37.5 m
B-
Pa-236
1.00
Pa-227
38.3 m
AEC
Ac-223
8.5000E-01
Th-227
1.5000E-01
Pa-228
22 h
ECB+A
Th-228
9.8000E-01
Ac-224
2.0000E-02
Pa-229
1.50 d
ECA
Th-229
9.9520E-01
Ac-225
4.8000E-03
Pa-230
17.4 d
ECB-A
Th-230
9.1600E-01
U-230
8.4000E-02
Ac-226
3.2000E-05
Pa-231
3.276E+4 y
A
Ac-227
1.00
Pa-232
1.31 d
B-EC
U-232
1.00
Th-232
3.0000E-05
Pa-233
26.967 d
B-
U-233
1.00
Pa-234
6.70 h
B-
U-234
1.00
Pa-234m
1.17m
B-IT
U-234
9.9840E-01
Pa-234
1.6000E-03
Pa-235
24.5 m
B-
U-235m
9.9990E-01
U-235
1.0109E-04
Pa-236
9.1 m
B-
U-236
1.00
Pa-237
8.7 m
B-
U-237
1.00
U-227
1.1 m
A
Th-223
1.00
U-228
9.1 m
A
Th-224
9.7500E-01
U-230
20.8 d
A
Th-226
1.00
0.4140 0.0375 0.4515
0.0622 0.0105 0.0728
0.6713 0.0537 0.7251
0.3671 0.0346 0.4017
5.5650 0.0226 0.0234 5.6110
0.1217 0.1320 1.3694 1.6230
0.0274 0.0131 0.0666 0.1071
0.0002 0.0668 0.6708 0.7377
5.0592 0.0538 0.0450 5.1580
0.1738 0.9393 1.1131
0.2151 0.2229 0.4380
0.4037
1.4718 1.8755
0.8171 0.0162 0.8334
0.4886 0.0008 0.4894
0.8049 0.9148 1.7197
0.5780 0.6095 1.1875
6.9984 0.0960 0.1199 7.2143
6.6046 0.0231 0.0056 6.6333
5.9681 0.0216 0.0032 5.9929
302
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay mode &
Emitted energy (MeV/nt)
Decay products
Fractional yield
Alpha
Electron
Photon
Total
4.2 d
ECA
0.0002
0.0847
0.0896
0.1745
Pa-231
1.00
Th-227
4.0000E-05
68.9 y
A
5.3948
0.0164
0.0023
5.4135
Th-228
1.00
1.592E+5 y
A
4.9013
0.0059
0.0013
4.9085
Th-229
1.00
2.455E+5 y
A
4.8430
0.0137
0.0020
4.8587
Th-230
1.00
7.04E+8 y
A
4.4693
0.0530
0.1669
4.6891
Th-231
1.00
26 m
IT
-
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Plutonium
Np-238
2.117 d
B-
Pu-238
1.00
Np-239
2.3565 d
B-
Pu-239
1.00
Np-240
61.9 m
B-
Pu-240
1.00
Np-240m
7.22 m
B-IT
Pu-240
9.9890E-01
Np-240
1.1000E-03
Np-241
13.9 m
B-
Pu-241
1.00
Np-242
2.2 m
B-
Pu-242
1.00
Np-242m
5.5 m
B-
Pu-242
1.00
Pu-232
33.7 m
ECA
Np-232
7.7000E-01
U-228
2.3000E-01
Pu-234
8.8 h
ECA
Np-234
9.4000E-01
U-230
6.0000E-02
Pu-235
25.3 m
ECA
Np-235
9.9997E-01
U-231
2.7000E-05
Pu-236
2.858 y
ASF
U-232
1.00
SF
1.3700E-09
Pu-237
45.2 d
ECA
Np-237
1.00
U-233
4.2000E-05
Pu-238
87.7 y
ASF
U-234
1.00
SF
1.8500E-09
Pu-239
2.411E+4 y
A
U-235m
9.9940E-01
U-235
6.0000E-04
Pu-240
6564 y
ASF
U-236
1.00
SF
5.7500E-08
Pu-241
14.35 y
B-A
Am-241
9.9998E-01
U-237
2.4500E-05
Pu-242
3.75E+5 y
ASF
U-238
1.00
SF
5.5400E-06
Pu-243
4.956 h
B-
0.2519 0.5879 0.8398
0.2623 0.1846 0.4469
0.5095 1.0538 1.5632
0.6779 0.3225 1.0004
0.4341 0.0395 0.4736
0.9027 0.2654 1.1681
0.7551 0.9194 1.6744
1.5402 0.0087 0.0633 1.6122
0.3776 0.0114 0.0693 0.4583
0.0002 0.0228 0.0957 0.1187
5.8524 0.0128 0.0022 5.8674
0.0002 0.0171 0.0537 0.0710
5.5803 0.0107 0.0021 5.5930
5.2357 0.0075 0.0011 5.2442
5.2434 0.0105 0.0019 5.2559
0.0001 0.0052
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element Nuclide
Half-life &
Decay mode &
Emitted energy (MeV/nt)
Decay products
Fractional yield
Alpha
Electron
Photon
Total
Am-243
1.00
Pu-244
8.00E+7 y
U-240
SF
ASF
9.9879E-01
1.2100E-03
4.6513
0.0197
0.0211
4.9094
Pu-245
10.5 h
Am-245
B-
1.00
—
0.3190
0.4027
0.7217
Pu-246
10.84 d
Am-246m
B-
1.00
—
0.1159
0.1431
0.2590
Americium Am-237
73.0 m
Pu-237
Np-233
ECA
9.9975E-01
2.5000E-04
0.0015
0.0802
0.3714
0.4531
Am-238
98 m
Pu-238
Np-234
ECB+A
1.00
1.0000E-06
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Berkelium
Am-239
1.00
Cm-240
27 d
ASF
Pu-236
9.9700E-01
SF
3.9000E-08
Cm-241
32.8 d
ECA
Am-241
9.9000E-01
Pu-237
1.0000E-02
Cm-242
162.8 d
ASF
Pu-238
1.00
SF
6.3700E-08
Cm-243
29.1 y
AEC
Pu-239
9.9760E-01
Am-243
2.4000E-03
Cm-244
18.10 y
ASF
Pu-240
1.00
SF
1.3710E-06
Cm-245
8.5E+3 y
ASF
Pu-241
1.00
SF
6.1000E-09
Cm-246
4.76E+3 y
ASF
Pu-242
9.9974E-01
SF
2.6300E-04
Cm-247
1.56E+7 y
A
Pu-243
1.00
Cm-248
3.48E+5 y
ASF
Pu-244
9.1610E-01
SF
8.3900E-02
Cm-249
64.15 m
B-
Bk-249
1.00
Cm-250
8300 y
AB-SF
Pu-246
1.8000E-01
Bk-250
8.0000E-02
SF
7.4000E-01
Cm-251
16.8 m
B-
Bk-251
1.00
Bk-245
4.94 d
ECA
Cm-245
9.9880E-01
Am-241
1.2000E-03
Bk-246
1.80 d
EC
Cm-246
1.00
Bk-247
1.38E+3 y
A
Am-243
1.00
Bk-248m
23.7 h
B-EC
Cf-248
7.0000E-01
Cm-248
3.0000E-01
Bk-249
330 d
B-A
6.3650 0.0108 0.0022 6.3781
0.0603 0.1342 0.5034 0.6979
6.2041 0.0096 0.0020 6.2156
5.8929 0.1342 0.1353 6.1624
5.8915 0.0079 0.0017 5.9014
5.4474 0.0824 0.1084 5.6382
5.4654 0.0085 0.0050 5.5285
5.0292 0.0114 0.3138 5.3544
4.7212 0.7716 1.3127 22.5608
0.2835 0.0200 0.3035
0.9283 8.4270 13.3167 161.287
0.4545 0.1112 0.5657
0.0075 0.1326 0.2352 0.3752
0.0554 0.8546 0.9101
5.7031 0.0691 0.1468 5.9190
0.1910 0.0559 0.2470
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Californium
Einsteinium
Cf-249
1.00
Am-245
1.4500E-05
Bk-250
3.212 h
B-
Cf-250
1.00
Bk-251
55.6 m
B-
Cf-251
1.00
Cf-244
19.4 m
A
Cm-240
1.00
Cf-246
35.7 h
ASF
Cm-242
1.00
SF
2.5000E-06
Cf-247
3.11 h
ECA
Bk-247
9.9965E-01
Cm-243
3.5000E-04
Cf-248
334 d
ASF
Cm-244
9.9997E-01
SF
2.9000E-05
Cf-249
351 y
ASF
Cm-245
1.00
SF
5.0200E-09
Cf-250
13.08 y
ASF
Cm-246
9.9923E-01
SF
7.7000E-04
Cf-251
900 y
A
Cm-247
1.00
Cf-252
2.645 y
ASF
Cm-248
9.6908E-01
SF
3.0920E-02
Cf-253
17.81 d
B-A
Es-253
9.9690E-01
Cm-249
3.1000E-03
Cf-254
60.5 d
ASF
Cm-250
3.1000E-03
SF
9.9690E-01
Cf-255
85 m
B-
Es-255
1.00
Es-249
102.2 m
ECB+A
Cf-249
9.9430E-01
Bk-245
5.7000E-03
Es-250
8.6 h
EC
Cf-250
9.8500E-01
Es-250m
2.22 h
ECB+
Cf-250
1.00
Es-251
33 h
ECA
Cf-251
9.9500E-01
Bk-247
5.0000E-03
0.2949 0.8983 1.1932
0.3693 0.0915 0.4608
7.3196 0.0075 0.0020 7.3291
6.8527 0.0060 0.0014 6.8606
0.0022 0.0463 0.1050 0.1536
6.3518 0.0075 0.0020 6.3670
5.9262 0.0399 0.3282 6.2944
6.1168 0.0103 0.0111 6.2897
5.8803 0.1705 0.1245 6.1754
6.0177 0.2516 0.4572 12.8107
0.0188 0.0908 0.0048 0.1144
0.0183 10.0442 16.8399 222.890
0.2178
0.2178
0.0392 0.0437 0.4129 0.4958
0.3281 1.2235 1.5516
0.0343 0.5549 0.5892
0.0329 0.0522 0.1016 0.1868
307
-------�
Table A-l. Nuclides of ICRP Publication 107 ordered by atomic number, (continued)
Element
Nuclide
Half-life &
Decay products
Decay mode &
Fractional yield
Emitted energy (MeV/nt)
Alpha Electron Photon Total
Fermium
Es-253
20.47 d
ASF
Bk-249
1.00
SF
8.9000E-08
Es-254
275.7 d
AB-SF
Bk-250
1.00
Fm-254
1.7400E-06
SF
3.0000E-08
Es-254m
39.3 h
B-AECSF
Fm-254
9.8000E-01
Bk-250
3.2000E-03
Cf-254
7.6000E-04
SF
4.5000E-04
Es-255
39.8 d
B-ASF
Fm-255
9.2000E-01
Bk-251
8.0000E-02
SF
4.5000E-05
Es-256
25.4 m
B-
Fm-256
1.00
Fm-251
5.30 h
ECB+A
Es-251
9.8200E-01
Cf-247
1.8000E-02
Fm-252
25.39 h
ASF
Cf-248
9.9998E-01
SF
2.3000E-05
Fm-253
3.00 d
ECA
Es-253
8.8000E-01
Cf-249
1.2000E-01
Fm-254
3.240 h
ASF
Cf-250
9.9941E-01
SF
5.9200E-04
Fm-255
20.07 h
ASF
Cf-251
1.00
SF
2.3000E-07
Fm-256
157.6 m
ASF
Cf-252
8.1000E-02
SF
9.1900E-01
Fm-257
100.5 d
ASF
Cf-253
9.9790E-01
SF
2.1000E-03
6.7335 0.0022 0.0008 6.7366
6.5244 0.0727 0.0208 6.6179
0.0208 0.2408 0.4757 0.8269
0.5117 0.0737 0.0007 0.5950
0.5822 0.0032 0.5854
0.1252 0.0337 0.1588 0.3176
7.1449 0.0064 0.0018 7.1578
0.8352 0.1084 0.0713 1.0150
7.2956 0.0095 0.0086 7.4339
7.1292 0.0954 0.0170 7.2417
0.5686 6.3116 12.4371 205.496
6.6154 0.1471 0.1521 7.3388
308
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APPENDIX B. MODIFICATIONS TO THE HUMAN PHANTOM
This appendix focuses on the differences in the mathematical phantoms used in this report and the
phantom used in Federal Guidance Report No. 12 (EPA, 1993). In Federal Guidance Report No. 12, dose
rate coefficients were computed for 25 tissues of an adult; the printed tables provided values for the gonad,
breast, lung, red marrow, bone surface, thyroid, remainder, skin and for effective dose. The effective dose
coefficients were based on an adult hermaphrodite phantom and the tissue weighting factors of ICRP
Publication 26 (1977); thus the skin dose coefficient was not part of the effective dose coefficient. In this
report, tissue dose rate coefficients were computed for 28 tissues in each of the phantoms as described
below. Effective dose rate coefficients in this report are based on an average of the male and female tissue
coefficients, as recommended in ICRP Publication 103 (2007).
The series of stylized (or mathematical) computational phantoms used in this report are
modifications (Han et al., 2006) of the computational phantoms developed at ORNL in the 1980s (Cristy
and Eckerman, 1987). The original ORNL age-specific phantoms have been used extensively (e.g., EPA,
1993; Eckerman et al., 1999; ICRP, 1990, 1992, 1994, 1995a, 1995b, 2001). The ORNL series of phantoms
utilize three-dimensional surface equations to represent both internal organ structure and external body
shape. The ORNL series are hermaphrodites (inclusive of both male and female reproductive organs) and
include mathematical representations of a newborn, children at ages 1, 5, 10 and 15 years, and an adult. In
their original design, adult organ volumes (defined by mathematical equations) were set so that their product
with reference tissue densities provided reasonable agreement with reference organ masses given in ICRP
Publication 23 (1975). Because reference organ masses for pre-adult ages were not given in ICRP
Publication 23, other literature sources were consulted during model construction (Cristy, 1980). For all
phantoms except the newborn, three tissue compositions were assumed: soft tissue (1.04 g cm"3),
homogeneous skeleton (bone and marrow at 1.4 g cm"3) and homogeneous lung (soft tissue and air at 0.296
g cm"3). The elemental compositions adopted for the newborn soft tissues and the newborn skeleton were
1.04 g cm"3 and 1.22 g cm"3, respectively.
The changes to the original ORNL phantoms are summarized below. The reader is referred to Han
et al. (2006) for a detailed description of these changes.
The age-dependent model of the head and brain described in Pamphlet No. 15 of the Committee on
Medical Internal Radiation Dose (MIRD) and its subsequent monograph (Bouchet et al., 1999a, 1999b)
was adopted. In the original ORNL series, the brain is represented by an ellipsoid. In the modified ORNL
phantoms, the brain is an ellipsoid sliced by a plane, as shown Figure B-l. Revisions were made to the
shape of the spine (cervical, thoracic, lumbar/sacrum sections); the ORNL spine was more elliptical in cross
section.
309
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Figure B-l. Shape of the brain in the dosimetric phantoms applied in this report.
The age-dependent multi-region kidney models of MIRD Pamphlet No. 19 were adopted (Bouchet
et al., 2003). These models include separate sub-organ models for the renal cortex, medulla and pelvis
within the original boundaries of the ORNL kidney series.
Revisions suggested by Mardirossian et al. (1999) for the rectosigmoid colon and associated
repositioning of the prostate gland and urinary bladder were adopted. The stylized representations of the
extrathoracic airways, trachea and extrapulmonary bronchi given by Farfan et al. (2004) for the adult model
were adopted and rescaled for inclusion in the revised ORNL pediatric phantoms.
Mathematical models of the salivary glands were created for insertion within the oral cavity of the
revised phantoms. The three pairs of ellipsoidal salivary glands were designed with volumes selected to
match their age-dependent tissue masses given in ICRP Publication 89 (2002) and with shapes guided by
histological photographs and anatomic drawings (Marieb, 2001; Netter and Hansen, 2003).
The parotid glands are modeled as two elliptical cylinders parallel to the z-axis and located in the
soft-tissue region medial to the lateral sides of the mandible. The defining equations for the parotid glands
are
The sublingual glands are modeled as two right circular cylinders parallel to the v-axis and located
in the soft-tissue region medial to the anterior portion of the mandible. The defining equations for the
sublingual glands are given as
(B-l)
and
ZPG1 — Z — ZPG2
(B-2)
310
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(B-3)
and
Vlgi ^ y 2= yiG2
(B-4)
The submandibular glands are modeled as two right circular cylinders parallel to the z-axis and
located in the soft-tissue region medial to the posterior portion of the mandible. The defining equations for
the submandibular glands are
Ellipsoidal parameters used to define the age-dependent salivary gland volumes were given by Han
et al. (2006).
Update of Organ Volume
During the quality assurance review of the modified ORNL phantoms, several organ volumes were
found to be imprecisely declared when compared to ICRP Publication 89 (2002). These discrepancies were
found by comparing the track-length estimated volume with the declared volume. Corrections were made
whenever the disparity was greater than 3 percent.
Selected revisions to other organ volumes in the original ORNL series were made for consistency
with organ masses given in ICRP Publication 89 (2002). In those cases where a mass difference was found
between the ORNL organ mass and the ICRP Publication 89 organ mass, a change in organ volume was
attempted, noting slight changes as well in ICRU tissue densities (ICRU, 1992) from the three-tissue
composition in the original ORNL series. Volume decreases were easily accommodated within the
mathematical phantom series, while volume increases were constrained by the need to avoid organ
boundary overlap within the rigid structure of the phantoms. For newly introduced organs, such as the
larynx and pharynx walls, a decision was made to preserve the reference wall thickness (for electron
transport simulations), and then match reference organ masses as closely as feasible using only the length
of the organ in the +z and -z directions. For sections of the large colon, wall thicknesses in the original
ORNL series were set artificially high in order to match ICRP Publication 23 (1975) reference wall masses,
because reference colon lengths could not be accommodated within the stylized abdomen. For similar
reasons, these wall thicknesses and sectional lengths were retained in the revised phantom series.
(B-5)
and
ZMG1 — Z — ZMG2
(B-6)
311
-------�
The tissue density of the lungs given in both ICRU Report 46 (1992) and ICRP Publication 89
(2002) is 0.26 g cm"3 and represents an effective density for the homogenized lung (tissue parenchyma,
pulmonary blood, and airway contents). This value is lower than the value of 0.296 g cm"3 adopted in the
original ORNL phantom series and was found to yield inconsistencies between original ORNL phantom
lung volumes and ICRP Publication 89 (2002) reference lung masses (inclusive of their blood content).
Attempts were made to adjust lung volumes in the ORNL series using this lower recommended effective
density, but this effort proved difficult because many of the lung volumes had to be expanded beyond the
dimensions permitted by the fixed geometries of the rib cage and heart. Consequently, one of two options
was available: (1) assign a unique effective lung density to each phantom to force agreement with ICRP
Publication 89 (2002) reference masses, or (2) optimize the assignment of a single effective lung density
across the entire age-range of ORNL phantoms. Physiologically, it can be argued that under option 1,
effective lung densities in the phantoms should systematically decrease with increasing phantom age as the
lung tree more fully develops, resulting in a larger fraction of total lung volume occupied by the pulmonary
airways. Option 1, however, yielded effective lung densities that varied erratically with phantom age; thus,
option 2 was deemed the more appropriate choice. The final value on the effective lung density adopted in
this study was 0.352 g cm"3.
312
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APPENDIX C. EXTERNAL BREMSSTRAHLUNG
When electrons decelerate in a medium, a fraction of their kinetic energy is converted into energy
in the form of photons. In this context, the photons are called bremsstrahlung, from the German word for
"braking radiation." This type of radiation is further specified as external bremsstrahlung. Bremsstrahlung
emitted when an electron is ejected from the nucleus in the beta decay process is called internal
bremsstrahlung. Generation of bremsstrahlung is a stochastically governed process and the bremsstrahlung
can range in energy from 0 up to the initial kinetic energy of the electron. Hence, for a large collection of
monoenergetic electrons, a continuous bremsstrahlung energy spectrum is generated.
Calculations of bremsstrahlung spectral shapes are tedious because of the complexity of the
bremsstrahlung cross section formulas. Pratt et al. (1977) tabulated bremsstrahlung cross section data for
electrons of kinetic energy between 1 keV and 2 MeV incident on neutral atoms of atomic number between
2 and 92. Seltzer and Berger (1986) used the results of Pratt and colleagues to address neutral atoms with
atomic number Z = 1 to 100 and extended the electron energy range to 10 GeV. The cross section values
are believed to be accurate within 10 percent.
Tables of scaled bremsstrahlung spectral shape data from electrons of kinetic energy between 1
keV and 10 MeV incident on neutral atoms of atomic number between 1 and 100 were prepared. These
tables provide values of bremsstrahlung spectra, multiplied by a scaling factor of 100 k/T, as a function of
k/T where k is the bremsstrahlung energy and T is the kinetic energy of the electron. These tables are based
on the cross section values of Seltzer and Berger (1986) for electrons from 1 keV to 10 MeV.
Tables C-l through C-3 provide scaled values of S(k, T). the bremsstrahlung spectra produced at
photon energy k for initial electron kinetic energy T in units of keV for air, water and soil, respectively. The
tabulated quantity is S(k, T) in units of photons MeV"1, multiplied by a dimensionless scaling factor of 100
k/T. The scaled quantity, designated as S(k. T), is tabulated for a grid of 27 electron kinetic energy values
ranging from 1 keV to 10 MeV; for each electron energy, there are entries for 12 values of k/T ranging from
0.0 to 0.95. The tabulated quantity approaches 0 as k/T approaches 1.0, so a table entry at k/T = 1.0 is not
necessary. The fraction of the initial kinetic energy of an electron that is converted to bremsstrahlung, that
is, the radiation yield Y, is given by
The radiation yield Y must, of course, be less than 1. The values of S'(k, T) for the slowing-down
medium are folded with the beta spectrum to obtain the bremsstrahlung spectrum associated with beta
decay. Defining Sp(k, T0) as the bremsstrahlung spectrum (photons MeV"1 per Bq s) at energy k for a beta
spectrum with endpoint kinetic energy To, we have
(C-l)
(C-2)
313
-------�
where Yp (T) is the probability per unit energy of beta emission with kinetic energy T.
The beta spectrum Yp of ICRP Publication 107 (2008) is used in this work. Figure C-l shows the
external bremsstrahlung spectrum of 85Kr in air computed using these data. External bremsstrahlung spectra
were calculated in this work only for beta particles slowing down in air, water and soil. We applied the
above to positron emissions, even though important differences exist in the slowing-down process between
electrons and positrons. For positron emitters, the annihilation photons, not bremsstrahlung, are the major
penetrating radiations.
For exposure to contaminated soil, it has been assumed that all emitted beta particles slow down in
the soil. This assumption slightly overestimates the bremsstrahlung contribution for beta emitters on the
soil surface at an effective depth of 3 mm.
314
-------�
Table C-l. Scaled external bremsstrahlung spectra from electrons for air.
Tabulated quantities are in units of photons per MeV.
k/T
T (keV)
1.0
2.5
5.0
10.0
25.0
50.0
75.0
100.0
200.0
300.0
400.0
500.0
600.0
800.0
1000.0
1200.0
1400.0
1600.0
1800.0
2000.0
2500.0
3000.0
4000.0
5000.0
6000.0
8000.0
10000.0
0.00 0.05 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 0.95
6.71
5.19
4.04
3.45
3.34
3.06
3.14
2.89
3.08
2.72
3.02
2.53
2.96
2.42
2.90
2.32
2.72
2.08
2.60
1.93
2.51
1.83
2.44
1.76
2.38
1.71
2.30
1.63
2.24
1.58
2.20
1.55
2.15
1.52
2.12
1.49
2.09
1.48
2.07
1.46
2.02
1.44
1.99
1.43
1.94
1.42
1.90
1.40
1.88
1.39
1.84
1.38
1.80
1.36
4.29
3.31
3.07
2.58
2.82
2.37
2.64
2.15
2.38
1.82
2.14
1.57
2.00
1.43
1.90
1.33
1.64
1.10
1.50
0.983
1.41
0.909
1.34
0.858
1.29
0.821
1.22
0.775
1.18
0.747
1.16
0.730
1.14
0.718
1.13
0.712
1.12
0.707
1.11
0.705
1.09
0.705
1.09
0.708
1.09
0.716
1.09
0.725
1.09
0.733
1.08
0.741
1.07
0.744
2.69 2.20
2.16 1.79
1.96 1.60
1.72 1.36
1.40 1.08
1.17 0.871
1.05 0.766
0.960 0.697
0.772 0.543
0.675 0.466
0.616 0.420
0.577 0.391
0.550 0.370
0.515 0.346
0.497 0.332
0.485 0.327
0.478 0.323
0.477 0.323
0.476 0.323
0.475 0.325
0.479 0.330
0.484 0.337
0.498 0.350
0.510 0.362
0.520 0.372
0.533 0.385
0.539 0.394
1.76
1.37
1.43
1.11
1.26
0.965
1.06
0.794
0.809
0.590
0.638
0.453
0.553
0.386
0.497
0.342
0.375
0.250
0.317
0.207
0.282
0.182
0.260
0.166
0.245
0.156
0.228
0.145
0.220
0.140
0.217
0.138
0.216
0.138
0.216
0.139
0.217
0.140
0.218
0.142
0.224
0.147
0.231
0.152
0.243
0.161
0.253
0.170
0.261
0.177
0.274
0.188
0.283
0.196
0.997
0.649
0.809
0.525
0.693
0.444
0.563
0.356
0.405
0.249
0.303
0.180
0.253
0.147
0.220
0.126
0.155
0.0844
0.126
0.0668
0.109
0.0570
0.0992
0.0512
0.0925
0.0475
0.0855
0.0435
0.0825
0.0418
0.0814
0.0413
0.0815
0.0414
0.0823
0.0417
0.0834
0.0423
0.0845
0.0430
0.0882
0.0452
0.0919
0.0471
0.0987
0.0508
0.105
0.0541
0.110
0.0571
0.118
0.0620
0.124
0.0659
0.318
0.157
0.256
0.126
0.215
0.105
0.170
0.0834
0.116
0.0557
0.0802
0.0380
0.0635
0.0295
0.0531
0.0243
0.0334
0.0146
0.0254
0.0108
0.0212
0.0088
0.0187
0.0075
0.0171
0.0068
0.0154
0.0060
0.0146
0.0056
0.0144
0.0054
0.0143
0.0054
0.0144
0.0053
0.0145
0.0054
0.0148
0.0054
0.0154
0.0057
0.0161
0.0060
0.0172
0.0064
0.0185
0.0068
0.0195
0.0072
0.0213
0.0079
0.0229
0.0086
315
-------�
Table C-2. Scaled external bremsstrahlung spectra from electrons for water.
Tabulated quantities are in units of photons per MeV.
k/T
T (keV)
1.0
2.5
5.0
10.0
25.0
50.0
75.0
100.0
200.0
300.0
400.0
500.0
600.0
800.0
1000.0
1200.0
1400.0
1600.0
1800.0
2000.0
2500.0
3000.0
4000.0
5000.0
6000.0
8000.0
10000.0
0.00 0.05 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 0.95
5.8851
4.5348
3.5500
3.0241
2.9481
2.6837
2.7706
2.5242
2.7092
2.3644
2.6501
2.1986
2.5847
2.0978
2.5295
2.0069
2.3740
1.7977
2.2649
1.6708
2.1655
1.5802
2.1287
1.5256
2.0741
1.4803
2.0103
1.4168
1.9671
1.3717
1.9194
1.3443
1.8827
1.3174
1.8553
1.2993
1.8279
1.2902
1.8095
1.2722
1.7711
1.2538
1.7395
1.2441
1.6886
1.2343
1.6586
1.2249
1.6392
1.2159
1.6019
1.2068
1.5742
1.1889
3.7312
2.8741
2.6859
2.2375
2.4542
2.0525
2.2868
1.8513
2.0567
1.5611
1.8472
1.3263
1.7289
1.2265
1.6381
1.1362
1.4117
0.9463
1.2939
0.8450
1.2124
0.7817
1.1580
0.7382
1.1128
0.7074
1.0585
0.6684
1.0223
0.6450
1.0042
0.6315
0.9862
0.6215
0.9771
0.6161
0.9682
0.6126
0.9592
0.6108
0.9505
0.6119
0.9506
0.6148
0.9513
0.6234
0.9517
0.6319
0.9522
0.6395
0.9437
0.6481
0.9441
0.6521
2.3237 1.8935
1.8684 1.5386
1.6849 1.3652
1.4761 1.1574
1.1961 0.9141
0.9978 0.7386
0.8905 0.6503
0.8201 0.5926
0.6602 0.4626
0.5788 0.3984
0.5290 0.3595
0.4954 0.3350
0.4728 0.3178
0.4439 0.2970
0.4285 0.2862
0.4186 0.2817
0.4132 0.2790
0.4124 0.2791
0.4115 0.2791
0.4116 0.2810
0.4153 0.2857
0.4201 0.2921
0.4330 0.3042
0.4443 0.3153
0.4536 0.3245
0.4658 0.3366
0.4725 0.3451
1.5196
1.1743
1.2289
0.9472
1.0741
0.8191
0.8957
0.6699
0.6825
0.4947
0.5387
0.3807
0.4676
0.3250
0.4207
0.2881
0.3188
0.2114
0.2700
0.1753
0.2410
0.1545
0.2220
0.1419
0.2103
0.1337
0.1958
0.1247
0.1895
0.1202
0.1868
0.1184
0.1859
0.1185
0.1860
0.1194
0.1869
0.1203
0.1888
0.1222
0.1943
0.1268
0.1999
0.1314
0.2109
0.1397
0.2202
0.1480
0.2274
0.1544
0.2396
0.1637
0.2480
0.1711
0.8543
0.5551
0.6899
0.4460
0.5867
0.3746
0.4726
0.2974
0.3380
0.2060
0.2529
0.1487
0.2116
0.1218
0.1846
0.1048
0.1305
0.0706
0.1062
0.0561
0.0926
0.0481
0.0842
0.0433
0.0788
0.0402
0.0730
0.0370
0.0706
0.0356
0.0698
0.0353
0.0700
0.0354
0.0708
0.0358
0.0718
0.0363
0.0728
0.0370
0.0761
0.0389
0.0794
0.0407
0.0855
0.0440
0.0909
0.0469
0.0959
0.0496
0.1033
0.0540
0.1089
0.0576
0.2718
0.1340
0.2164
0.1067
0.1802
0.0884
0.1417
0.0693
0.0951
0.0457
0.0658
0.0310
0.0521
0.0240
0.0436
0.0198
0.0276
0.0119
0.0211
0.0088
0.0176
0.0072
0.0156
0.0062
0.0143
0.0056
0.0130
0.0050
0.0123
0.0047
0.0122
0.0045
0.0122
0.0045
0.0123
0.0044
0.0124
0.0045
0.0126
0.0045
0.0132
0.0048
0.0138
0.0051
0.0149
0.0055
0.0160
0.0058
0.0169
0.0062
0.0185
0.0069
0.0200
0.0075
316
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Table C-3. Scaled external bremsstrahlung spectra from electrons for soil.
Tabulated quantities are in units of photons per MeV.
k/T
0.00
0.05
0.10
0.20
0.30
0.40
0.50
0.60
0.70
0.80
0.90
0.95
T (keV)
1.0
7.60
5.92
4.91
3.80
3.09
2.54
2.04
1.59
1.17
0.764
0.375
0.186
2.5
4.58
3.91
3.48
2.94
2.48
2.06
1.67
1.31
0.957
0.626
0.307
0.152
5.0
3.80
3.48
3.21
2.73
2.29
1.88
1.51
1.16
0.842
0.544
0.264
0.130
10.0
3.58
3.33
3.06
2.53
2.06
1.66
1.30
0.990
0.709
0.453
0.218
0.107
25.0
3.54
3.17
2.82
2.21
1.74
1.36
1.04
0.771
0.537
0.335
0.157
0.0764
50.0
3.50
3.00
2.58
1.93
1.47
1.11
0.831
0.601
0.410
0.249
0.114
0.0545
75.0
3.46
2.88
2.42
1.76
1.32
0.982
0.723
0.514
0.344
0.205
0.0914
0.0433
100.0
3.40
2.77
2.30
1.65
1.21
0.893
0.649
0.455
0.300
0.176
0.0770
0.0360
200.0
3.21
2.50
2.00
1.37
0.973
0.694
0.487
0.329
0.209
0.117
0.0485
0.0219
300.0
3.09
2.33
1.83
1.22
0.849
0.592
0.407
0.270
0.167
0.0913
0.0365
0.0160
400.0
3.00
2.22
1.72
1.13
0.772
0.532
0.361
0.236
0.144
0.0772
0.0300
0.0130
500.0
2.91
2.13
1.64
1.06
0.720
0.492
0.331
0.214
0.130
0.0686
0.0262
0.0111
600.0
2.85
2.07
1.58
1.01
0.685
0.465
0.311
0.200
0.120
0.0632
0.0238
0.0099
800.0
2.76
1.97
1.50
0.955
0.639
0.432
0.287
0.184
0.110
0.0571
0.0211
0.0087
1000.0
2.69
1.91
1.45
0.919
0.613
0.414
0.276
0.177
0.105
0.0545
0.0198
0.0080
1200.0
2.63
1.87
1.41
0.896
0.598
0.405
0.270
0.173
0.104
0.0534
0.0193
0.0076
1400.0
2.59
1.84
1.38
0.881
0.589
0.401
0.268
0.173
0.103
0.0532
0.0190
0.0075
1600.0
2.54
1.81
1.37
0.871
0.586
0.399
0.268
0.173
0.104
0.0534
0.0191
0.0074
1800.0
2.51
1.79
1.36
0.864
0.584
0.398
0.269
0.174
0.105
0.0539
0.0191
0.0074
2000.0
2.48
1.78
1.34
0.860
0.582
0.400
0.270
0.176
0.106
0.0547
0.0194
0.0073
2500.0
2.42
1.74
1.33
0.859
0.586
0.404
0.276
0.181
0.110
0.0571
0.0199
0.0075
3000.0
2.39
1.72
1.32
0.861
0.592
0.412
0.283
0.187
0.114
0.0590
0.0205
0.0078
4000.0
2.31
1.70
1.31
0.868
0.605
0.427
0.297
0.198
0.122
0.0631
0.0218
0.0082
5000.0
2.25
1.68
1.31
0.876
0.618
0.440
0.308
0.207
0.128
0.0668
0.0231
0.0087
6000.0
2.22
1.66
1.30
0.883
0.627
0.450
0.317
0.215
0.134
0.0701
0.0242
0.0091
8000.0
2.15
1.63
1.29
0.889
0.640
0.464
0.331
0.227
0.143
0.0756
0.0263
0.0099
10000.0
2.10
1.60
1.28
0.883
0.645
0.472
0.340
0.236
0.150
0.0799
0.0280
0.0106
317
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0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7
Photon Energy (MeV)
Figure C-l. External bremsstrahlung spectrum of 85Kr in air.
318
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APPENDIX D. EXAMPLE CALCULATIONS
This appendix illustrates applications of the external dose rate coefficients tabulated in this report.
It is not the purpose of this appendix to suggest or endorse formulations regarding the behavior of
radionuclides in the environment. Thus, the examples are of an instructional nature.
Example 1. The concentration of 85Kr in the atmosphere, CKr, at a location in the environs of a fuel
reprocessing plant is estimated to be 1,000 Bq m~3. Compute the annual effective dose to an adult at
that location. Assume the exposure is continuous and without benefit of any shielding by structures.
From Table 4-6, the effective dose rate coefficient, eE, for air submersion for 85Kr is 6.67 x 10"16
Sv m3 Bq"1 s"1. The annual effective dose, E, can be estimated as the product of the dose rate and the
exposure duration of 3.15 x 107s(l year) as
E = eE CKr t
1A Sv m3 _ Bq ^ _
= 6.67 x 1(T16 x 103 —- x 3.15 x 107 s
Bq s ms
= 2 x 1(T5 Sv .
Example 2. In the planning phase of a construction project, it was determined that 30 hours of
underwater welding are needed. The average concentrations of 60Co and 137Cs in the water during
the planned welding period are 1,000 Bq m~3 and 7,000 Bq m"3, respectively. Assuming no
radionuclide ingestion, what is the estimated effective dose to the worker if only one welder is used
to complete the job?
From Table A-l, assume that 137mBa is in secular equilibrium with 137Cs. First, calculate the
concentration of 137mBa. The secular equilibrium concentration of 137mBa is the 137Cs concentration x 137mBa
fractional yield:
Bq Bq
^Bai37m = 7,000 - X 0.944 = 6,608 - .
Next, calculate the dose rate contributions of individual radionuclides. The dose rate is average
concentration x dose rate coefficient. Because the welder is being exposed to contaminated water, the water
immersion dose rate coefficients are most appropriate. From Table 4-7, the effective dose rate coefficients
for 60Co, 137Cs and 137mBa are 2.53 x 1016, 1.03 x 1019 and 5.54 x 1017 Sv s1 Bq1 m3, respectively.
60Co dose rate = 1,000 ^ X 2.53 X 10-16 —- = 2.53 X 10-13 —
md Bqs s
137Cs dose rate = 7,000 X 1.03 X 10-19 S-^~ = 7.21 X 10~16 —
ms Bq s s
137mBa dose rate = 6,608 X 5.54 X 10-17 S-^~ = 3.66 X 10~13 — .
ms Bq s s
319
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Next, determine the total dose rate for the radionuclide mixture. The total average dose rate is the
sum of the individual radionuclide dose rates, or 60Co dose rate + 137Cs dose rate + 137mBa dose rate:
Sv Sv Sv
Total dose rate = 2.53 X 10-13 1- 7.21 X 10-16 1- 3.66 X 10-13 —
s s s
1, Sv
= 6.20 x 10"13 — .
s
Finally, calculate the total dose to the worker. The duration of exposure in seconds is 30 hours x
3,600 seconds per hour = 108,000 seconds. The total dose to the welder is dose rate x exposure duration.
_i-3 Sv
Total dose = 6.20 x 10 13 — x 108,000 s
s
= 7 x 10-8 Sv .
Example 3. A pilot is given an assignment to fly an aircraft through a large radioactive plume for
forensic sample collection. The estimated radionuclide concentrations are 1 MBq m~3 of 131I and
2 GBq m"3 of 192Ir. Assuming no shielding from the airplane and clothing, how long can the pilot stay
inside the cloud before the external effective dose exceeds 50 mSv?
First, calculate the dose rate contribution of the individual radionuclides. The dose rate is estimated
concentration x dose rate coefficient. From Table 4-6, the effective dose rate coefficients for air submersion
for 131I and 192Ir are 1.69 x 10"14 and 3.56 x 10"14 Sv s"1 m3 Bq"1, respectively.
131I dose rate = 1 ^ x ±^1®£ x 1.69 X 10"14 = 1.7 X 10~8 —
md MBq Bqs s
»JIrdoserate=2^xi^x 3.56 X 10"» — = 7.1 X 10"5 - .
ms GBq Bq s s
Next, determine the total dose rate for the radionuclide mixture. The total dose rate is the sum of
the individual radionuclide dose rates, or 131I dose rate + 192Ir dose rate:
Sv Sv Sv
Total dose rate = 1.7 x 10-8 1- 7.1 x 10-5 — = 7.1 x 10-5 — .
s s s
Finally, to calculate the duration of exposure before exceeding 50 mSv, divide the dose by the
dose rate:
Dose 0.05 Sv
Dose rate y^xlO-5 —
= 700 seconds .
320
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Example 4. Consider that at time 0 the ground surface was uniformly contaminated with pure 137Cs
at a surface concentration of 2 Bq m"2. Calculate the effective dose rate, E, for an adult at time 0 and
at 10 years. Also compute the annual effective dose in the year following the initial deposition. Assume
that radioactive decay is the only mechanism by which the radioactivity is removed from the ground
surface.
The radiological properties of the radionuclides are summarized in Table A-l of Appendix A. From
that table, it is seen that 137Cs has a physical half-life of -30.2 years, undergoes beta decay, and emits, as
electrons, a total energy of 0.1884 MeV per nuclear transformation (nt). No alpha radiation is emitted and
energy associated with photon emissions is less than 10"7 MeV nt"1. In 94.4 percent of the 137Cs
transformations, the radioactive decay product 137mBa is formed. Table A-l indicates that 137mBa has a half-
life of 2.552 minutes, forms no radioactive decay products, and emits electrons and photons with total
energies of 0.0653 and 0.5963 MeV nt'1, respectively. The energies listed in Table A-l, and quoted above,
represent the energy of all radiations of that type emitted per nuclear transformation. A nuclide emitting a
single photon of energy 1 MeV in 1 percent of its transformations releases the same energy in photon
radiation as another nuclide emitting photons of 0.01 MeV in 100 percent of its transformations. The
dosimetric significance of these photons, however, can be quite different. Barium-137m emits a gamma ray
of 0.6617 MeV in 89.74 percent of its nuclear transformations; the total energy emitted is 0.6617 x 0.8974
or 0.594 MeV nt'1. The tabulated value of 0.5963 MeV includes the contribution from K x-rays emitted
following the internal conversion of the 0.6617 MeV photon. Note that the sum of the emitted energies
(0.0653 + 0.5963) is 0.6616 MeV, essentially the same as the energy of the metastable state.
At time t = 0, the ground surface is uniformly contaminated with pure 137Cs; the decay product,
137mBa is not present. From Table 4-1, the effective dose rate coefficient, eCs_137, for 137Cs distributed on
the ground surface is 7.85 x 10"18 Sv Bq"1 s"1 m2. Note that the dose rate coefficient is stated here as an
instantaneous dose rate per activity concentration. The dose rate at time 0 is
This dose is due to bremsstrahlung arising as the beta particles emitted by 137Cs slow down in the
ground. Recall that Table A-l indicates virtually no emission of photons by 137Cs.
To compute the effective dose rate after 10 years, we first compute the activities of 137Cs and 137mBa
on the ground surface at that time. For 137Cs the activity is calculated as
1Q Svm2
E = 7.85 X 10"18
Bq s
m2
= 1.57 x 1(T17 — .
s
^Csl37(0 — -<4csl37(0)e /lcsl37t
where /lCvi37(0) is the activity of 137Cs on the ground surface at t = 0.
321
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The decay constant for 137Cs, ACsl37, is
ln(2) 0.693 1fl 1
ACsi37 = -T2- = -s = 7-28 x lO"10 s"1
tY2 30.2 y x 3.15 x 107-
y y
and for 137mBa, with Ty2 of 2.552 minutes, the decay constant is 4.53 x 10"3 s"1. The activity of 137Cs on the
ground surface at 10 years (3.15 x 10s s) is
^137(10 y) = 2.0 e"7-28 x 10-10 5-1 x 315 x lo8s = 1.59 ^
m/
and that of 137Ba is 0.944 times that of 137Cs because 137mBa is in secular equilibrium with its parent 137Cs.
A decay product is said to be in secular equilibrium when the ratio of its activity to that of the parent no
longer changes with time; in the case of 137mBa, this ratio is simply the fraction of 137Cs transformations
forming 137mBa (0.944). Using the dose rate coefficient from Table 4-1, we obtain
£"(10 y) = eCsl37
-^Csl37
(10 y) + eBal37m ABal37m (10 y)
10 Svm2 Bq ^ Svm2 Bq
= 7.85 x 10"18 — x 1.59 —\ + 3.90 x 10~16 — x 1.50 —\
Bq s m/ Bq s m/
1, S v
= 5.97 x 10~16 — .
The annual effective dose after 1 year of exposure is just the integral of the dose rate, or
£(ly) = | E(t) dt = eCsl37 I ACsl37(t) dt + eBal37m I ABal37m(t) dt .
J o J o J o
Activity, by definition, is the rate at which nuclear transformations are occurring and thus, its time
integral is the number of nuclear transformations during the time period. Equation (A-3) provides the
necessary formulations to compute the number of nuclear transformations. The number of nuclear
transformations of 137Cs in the first year (3.15 x 107 s) is
I
T [l - e~Xcsl3lT\ _ Bq - s
^csi37(0 dt = i4Csl37(0) - = 6.23 x 10 -
0 ^Csl37 m
and that of 137mBa is
322
-------�
I
A
Bal37m
(t) dt
— [ ACsi37(0)
J0
fcs 13 7,
Bal37m /lBal37m
= A
Cs 137
(0)
^¦Bal37m ^Csl3:
fcsl37,Bal37m ^Bal37m
^Bal37m ~ ^Csl37
[«¦
'^-Csl37t
e /lBal37mtJ dl
(1-e
'A-CS137T
) (1-e'
~^-Bal37m.T
)
A,
Csl37
1
Bal37m
= 5.88 x 10
7 Bqs
m2
The annual effective dose, E, is
1QSvm2 w Bq s Svm2 ^ _ Bq
E = 7.85 x 1(T18 — x 6.23 x 107 —V + 3.90 x 1(T16 — x 5.88 x 107 —
Bq s m/ Bq s m
= 2 x 10~8 Sv .
323
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APPENDIX E. LIST OF ACRONYMS
Bq
becquerel (unit)
CT
computed tomography
DOE
U.S. Department of Energy
DOSFACTER
Dose Rate Conversion Factors for Photon and Electron Exposure
EC
electron capture
ENDF
Evaluated Nuclear Data File
EPA
U.S. Environmental Protection Agency
Gy
gray (unit)
ICRP
International Commission on Radiological Protection
ICRU
International Commission on Radiation Units and Measurements
IT
isomeric transition
JAERI
Japan Atomic Energy Research Institute
keV
kilo-electronvolt (unit)
LET
linear energy transfer
MCNP
Monte Carlo N-Particle Transport Code
MIRD
Committee on Medical Internal Radiation Dose
|iCi
microcurie (unit)
mrem
millirem (unit)
NAS-NRC
National Academy of Sciences-National Research Council
NCRP
National Council on Radiation Protection and Measurements
NRC
U.S. Nuclear Regulatory Commission
ORNL
Oak Ridge National Laboratory
RBE
relative biological effectiveness
SF
spontaneous fission
SI
International System of Units
Sv
sievert (unit)
UNSCEAR
United Nations Scientific Committee on the Effects of Atomic Radiation
324
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ERRATA
After the initial publication of Federal Guidance Report No. 15 in June 2018, errors were
discovered in the tables of dose coefficients for soil. The cause of the errors was two-fold: (1) a coding
error caused an omission of bremsstrahlung emissions for low-energy beta emitting radionuclides in soil;
and (2) an interim set of monoenergetic dose coefficients was used to generate radionuclide-specific dose
coefficients for soil.
Although no errors were found in dose coefficients for air submersion and water immersion, an in-
depth methodology review prompted the authors to adopt a uniform method of data-smoothing and
extrapolation of monoenergetic organ doses at low energies across all exposure pathways; the originally-
published dose coefficients utilized different methods for each media type. As a result, the dose coefficients
for all external exposure pathways in this report have been updated.
The dose coefficients in this report—as well as the methods used to generate them—went through
a rigorous and comprehensive review. For information on the technical details of this review, or for further
explanation of text changes, please contact radiation.questions@epa.gov.
Changes from the June 2018 Federal Guidance Report No. 15 include:
• Preface and Chapter 1: the following footnote, referring to the passage "... radionuclides
distributed in air,* water and soil," was removed: "This also includes cosmic rays that are low
linear energy transfer (LET)."
• Figure 1-1: caption text was slightly modified to indicate the comparison between ICRP
Publications 60 and 103.
• Chapter 1, page 5: the following sentence was removed: "The effective dose coefficients
tabulated in this report are sex-averaged per the definition of this quantity in ICRP Publication
103 (2007)."
• Table 2-1 and Section 3.2.2.4: removal of text indicating that radionuclide-specific dose
coefficients for a smooth (0 mm) infinite plane would be available online.
• Chapter 3, Section 3.2.2.3: section header was changed from, "Ground plane depths" to "Soil
depths considered."
• Table 4-1: revised dose coefficients for ground surface.
• Table 4-2: revised dose coefficients for soil to 1 cm.
• Table 4-3: revised dose coefficients for soil to 5 cm.
• Table 4-4: revised dose coefficients for soil to 15 cm.
• Table 4-5: revised dose coefficients for soil to infinite depth.
• Table 4-6: revised dose coefficients for air submersion.
• Table 4-7: revised dose coefficients for water immersion.
• Chapter 5, Section 5.5: the following sentence was added: "However, bremsstrahlung generated
as the emitted electrons stop within the soil does contribute to the dose to skin and other tissues."
325
-------�
• Appendix A: equation (A-4) erroneously duplicated equation (A-3). Equation (A-4) now reads as
follows:
i rri n i-1
1 - e 1
i=1 j=l
• Appendix A: removal of text indicating that characteristic gamma emissions for 1,252
radionuclides would be available online.
• Appendix D: example calculations have been revised with the new dose coefficients provided in
this report.
326
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ACKNOWLEDGMENTS
The authors at Oak Ridge National Laboratory wish to acknowledge the support of the Office of
Radiation and Indoor Air within the United States Environmental Protection Agency. It is rare to have
sponsors who have such a consistent and thoughtful perspective. During the course of preparing this report,
Jeff Ryman, a co-author of Federal Guidance Report No. 12, responded in depth to various issues regarding
the computational approach and methods of Federal Guidance Report No. 12. Thanks to Stephen Seltzer
for providing electronic files of the scaled bremsstrahlung energy spectra and to Brian Schwarz for carrying
out some early benchmark calculations. Thanks also to Daiki Satoh for sharing his insight into
computational options in simulating the transport of radiation in the environment. We acknowledge the
comment of Harold Beck that the electronic distribution of coefficients includes software to enable the user
to derive coefficients for a specific vertical profile of the soil activity. Finally, numerous unnamed
individuals have provided, over the years, valuable comments and suggestions regarding how Federal
Guidance Report No. 12 has met their specific needs. Please continue providing us feedback.
EPA's Federal Guidance Workgroup gratefully acknowledges the work of the authors—M. B.
Bellamy, S. A. Dewji, R. W. Leggett, M. Hiller, K. Veinot, R. P. Manger, K. F. Eckerman, J. C. Ryman,
C. E. Easterly, N. E. Hertel, and D. J. Stewart—without whose outstanding contributions, tables such as
these would not exist. This project was made possible through joint funding from three federal agencies:
EPA, the U.S. Department of Energy (DOE), and the U.S. Nuclear Regulatory Commission (NRC). The
Workgroup appreciates the consistent support of project officers from EPA (M. Boyd), DOE (A. Wallo and
D. Favret) and NRC (A. Huffert and V. Holahan) throughout the lengthy term of this work.
327
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REFERENCES
Beck, H. L. (1980). Exposure Rate Conversion Factors for Radionuclides Deposited on the Ground (No.
EML-378). Department of Energy. Environmental Measurements Laboratory, New York.
Beck, H. & de Planque, G. (1968). The Radiation Field in Air due to Distributed Gamma-Ray Sources in
the Ground (No. HASL-195). New York Operations Office (AEC), Health and Safety Laboratory.
Berger, M. J. (1974). Beta-Ray Dose in Tissue-Equivalent Material Immersed in a Radioactive Cloud.
Health Physics, 26(1), 1-12.
Berger, M. J., Hubbell, J. H., Seltzer, S. M., Chang, J., Coursey, J. S., Sukumar, R., Zucker, D. S., & Olson,
K. (1998). XCOM: Photon Cross Sections Database (No. NBSIR 87-3597). National Institute of
Standards and Technology, Washington, DC.
Bouchet, L. G., Bolch, W. E., Weber, D. A., Atkins, H. L. & Poston Sr., J.W. (1999a). MIRD Pamphlet
No. 15: Radionuclide S Values in a Revised Dosimetric Model of the Adult Head and Brain. Journal
of Nuclear Medicine, 40(3), S62.
Bouchet, L. G., Bolch, W. E. & Wessels, B. A. (1999b). Head and Brain Dosimetry: Absorbed Fractions
of Energy and Absorbed Dose per Unit; Cumulated Activity Within Pediatric and Adult Head and
Brain; Models for Use in Nuclear Medicine Internal Dosimetry. Society of Nuclear Medicine, Reston,
VA.
Bouchet, L. G., Bolch, W. E., Blanco, H. P., Wessels, B. W., Siegle, J. A., Rajon, D. A., Clairand, I., &
Sgouros, G. (2003). MIRD Pamphlet No. 19: Absorbed Fractions and Radionuclide S Values for Six
Age-dependent Multi-region Models of the Kidney. Journal of Nuclear Medicine, 44(1), 1113-1147.
Burson, Z. G., & Profio, A. E. (1977). Structure shielding in reactor accidents. Health Physics, 33(4), 287-
299.
Chen, S. Y. (1991). Calculation of Effective Dose-equivalent Responses for External Exposure From
Residual Photon Emitters in Soil. Health Physics, 60(3), 411-426.
Chilton, A. B., Shultis, J. K., & Faw, R. E. (1984). Principles of Radiation Shielding. Prentice-Hall,
Englewood Cliffs, NJ.
Cristy, M. (1980). Mathematical Phantoms Representing Children of Various Ages for Use in Estimates of
Internal Dose (No. NUREG/TM-367). Oak Ridge National Laboratory, Oak Ridge, TN.
Cristy, M. & Eckerman, K. F. (1987). Specific Absorbed Fractions of Energy at Various Ages From Internal
Photon Sources Parts I-VII (No. ORNL/TM 8381/V1-V7). Oak Ridge National Laboratory, Oak Ridge,
TN.
328
-------�
Dickson, E. D. & Hamby, D. M. (2016). Building protection- and building shielding-factors for
environmental exposure to radionuclides and monoenergetic photon emissions. Journal of Radiological
Protection, 36(3), 579.
Dickson, E. D. & Hamby, D. M. (2014). Cloud Immersion Building Shielding Factors for U.S. Residential
Structures. Journal of Radiological Protection, 34(4), 853.
Dickson, E. D., Hamby, D. M. & Eckerman, K. F. (2015). Contaminant Deposition Building Shielding
Factors for U.S. Residential Structures. Journal of Radiological Protection, 35(2), 317.
Dillman, L. T. (1974). Absorbed Gamma Dose Rate for Immersion in a Semi-infinite Radioactive Cloud.
Health Physics, 27(6), 571-580.
Dillman, L. T. (1980). EDISTR - A Computer Program to Obtain a Nuclear Decay Data Base for Radiation
Dosimetry (No. ORNL/TM-6689). Oak Ridge National Laboratory, Oak Ridge, TN.
Dillman, L. T. & Jones, T. D. (1975). Internal Dosimetry of Spontaneously Fissioning Nuclides. Health
Physics 29(1), 111-123.
DOE (1988). External Dose-Rate Conversion Factors for Calculation of Dose to the Public (No. DOE/EH-
0070). U.S. Department of Energy, Washington, DC.
DOE (201 la). Radiation Protection ofthe Public and the Environment. DOE Order 458.1. U.S. Department
of Energy, Washington, DC.
DOE (2011b). Derived Concentration Technical Standard. DOE-STD-1196-2011. U.S. Department of
Energy, Washington, DC.
Eckerman, K. F. (1984). Aspects of the Dosimetry of Radionuclides Within the Skeleton with Particular
Emphasis on the Active Marrow. In Schlafke-Stelson, A. T. & Watson, E. E. (Eds.), Proceedings of the
Fourth International Radiopharmaceutical Dosimetry Symposium (No. CONF-851113 [DE86010102])
(pp. 514-534). Oak Ridge Associated Universities, Oak Ridge, TN.
Eckerman, K. F., & Cristy, M. (1984). Computational Method for Realistic Estimates of the Dose to Active
Marrow. In Kaul, A., Neider, R., Pensko, J., Stieve, F.-E., & Brunner, H., (Eds.), Radiation Risk
Protection, Proceedings of the Sixth International Congress, International Radiation Protection
Association, Vol. Ill (pp. 984). International Radiation Protection Association, Berlin, FRG.
Eckerman, K. F., Kerr, G. D., & Raridon, R. (1980). Organ Doses from Isotropic Cloud Sources of Gamma
Rays. Health Physics, 39(6), 1054.
Endo, A., Yamaguchi, Y., & Eckerman, K. F. (2005). Nuclear Decay Data for Dosimetry Calculation:
Revised Data oflCRP Publication 38 (No. JAERI-1347). Japan Atomic Energy Research Institute.
329
-------�
EPA (1987). Radiation Protection Guidance to Federal Agencies for Occupational Exposure. 52 Fed. Reg.
2822 (January 27, 1987).
EPA (1993). External Exposure to Radionuclides in Air, Water, and Soil, Federal Guidance Report No. 12
(No. EPA-402-R-93-081). U.S. Environmental Protection Agency, Washington, DC.
EPA (1999). Cancer Risk Coefficients for Environmental Exposures to Radionuclides, Federal Guidance
Report No. 13 (No. EPA-402-R-99-001). U.S. Environmental Protection Agency, Washington, DC.
EPA (2011). Exposure Factors Handbook 2011 Edition (Final Report) (No. EPA-600-R-09-052F). U.S.
Environmental Protection Agency, Washington, DC.
Farfan, E. B., Han, E. Y., Bolch, W. E., Huh, C., Huston, T. E., & Bolch Jr., W. E. (2004). Revised Stylized
Model of the Extrathoracic and Thoracic Airways for Use with the ICRP-66 Respiratory Tract Model.
Health Physics, 86(4), 337-352.
Fritsch, F. N. & Carlson, R. E. (1980). Monotone Piecewise Cubic Interpolation. SIAM Journal on
Numerical Analysis, 17(2), 238-246.
Goorley, T.„ James, M.„ Booth, T.„ Brown, F.„ Bull, J., Cox, L. J., Durkee, J., Elson, J., Fensin, M.,
Forster, R. A., Hendricks, J., Hughes, H. G., Johns, R, Kiedrowski, B., Martz, R, Mashnik, S.,
McKinney, G., Pelowitz, D„ Prael, R, Sweezy, J., Waters, L„ Wilcox, T., & Zukaitis, T. (2012).
Initial MCNP6 Release Overview. Nuclear Technology, 180(3), 298-315.
Han, E. Y., Bolch, W. E., & Eckerman, K. F. (2006). Revisions to the ORNL Series of Adult and Pediatric
Computational Phantoms for Use with the MIRD Schema. Health Physics, 90(4), 337-356.
Helmke, P. A. (1999). The chemical composition of soils. In M. E. Summer (Ed.), Handbook of Soil Science
(pp. B3-B24). Boca Raton, FL: CRC Press.
Herman, M., & Trkov, A. (2005). ENDF-6 formats manual. National Nuclear Data Centre, BNL, Upton,
New York.
Hiller, M. M., Veinot, K., Easterly, C. E., Hertel, N. E., Eckerman, K. F., & Bellamy, M. B. (2016).
Reducing statistical uncertainties in simulated organ doses of phantoms immersed in water. Radiation
Protection Dosimetry, 174(4), 439-448.
ICRP (1959). Report of Committee II on Permissible Dose for Internal Radiation (ICRP Publication 2).
International Commission on Radiological Protection. Pergamon Press, New York.
ICRP (1975). Report of the Task Group on Reference Man (ICRP Publication 23). International
Commission on Radiological Protection. Pergamon Press, New York.
330
-------�
ICRP (1977). Recommendations of the International Commission on Radiological Protection (ICRP
Publication 26). Annals of the ICRP 7(3).
ICRP (1983). Radionuclide Transformations: Energy and Intensity of Emissions (ICRP Publication 38).
Annals of the ICRP 11-13.
ICRP (1987). Data for Use in Protection Against External Radiation (ICRP Publication 51). Annals of the
ICRP 17(2-3).
ICRP (1990). Age-dependent Doses to Members of the Public from Intake of Radionuclides: Part 1 (ICRP
Publication 56). Annals of the ICRP 20(2).
ICRP (1991). 1990 Recommendations of the International Commission on Radiological Protection (ICRP
Publication 60). Annals of the ICRP 27(1-3).
ICRP (1992). Age-dependent Doses to Members of the Public from Intake of Radionuclides: Part 2 -
Ingestion Dose Coefficients (ICRP Publication 67). Annals of the ICRP 22(3-4).
ICRP (1994). Dose Coefficients for Intakes of Radionuclides by Workers (ICRP Publication 68). Annals of
the ICRP 24(4).
ICRP (1995a). Age-dependent Doses to Members of the Public from Intake of Radionuclides: Part 3 -
Ingestion Dose Coefficients (ICRP Publication 69). Annals of the ICRP 25(1).
ICRP (1995b). Age-dependent Doses to Members of the Public from Intake of Radionuclides: Part 4 -
Inhalation Dose Coefficients (ICRP Publication 71). Annals of the ICRP 25(3-4).
ICRP (1996). Age-dependent Doses to Members of the Public from Intake of Radionuclides: Part 5 -
Compilation of Ingestion and Inhalation Dose Coefficients (ICRP Publication 72). Annals of the ICRP
26(1).
ICRP (2001). Doses to the Embryo and Fetus from Intakes of Radionuclides by the Mother (ICRP
Publication 88). Annals of the ICRP 37(1-3).
ICRP (2002). Basic Anatomical and Physiological Data for Use in Radiological Protection Reference
Values (ICRP Publication 89). Annals of the ICRP, 32(3-4).
ICRP (2007). The 2007 Recommendations of the International Commission on Radiological Protection
(ICRP Publication 103). Annals of the ICRP, 37 (2-4).
ICRP (2008). Nuclear Decay Data for Dosimetric Calculations (ICRP Publication 107). Annals of the ICRP,
38(3).
331
-------�
ICRU (1992). Photon, Electron, Proton and Neutron Interaction Data for Body Tissues (ICRU Report 46).
International Commission on Radiation Units and Measurements, Bethesda, MD.
ICRU (1994). Gamma-Ray Spectrometry in the Environment (ICRU Report 53). International Commission
on Radiation Units and Measurements, Bethesda, MD.
Jacob, P., & Meckbach, R. (1991). External Exposure from Deposited Radionuclides. In Kelly, G. N., &
Luykx, F. (Eds.), Proc. Seminar on Methods and Codes for Assessing the Off-Site Consequences of
Nuclear Accidents (No. EUR 13013/1) (pp. 40). Commission of the European Communities,
Luxembourg.
Jacob, P., Paretzke, H. G., Rosenbaum, H., & Zankl, M. (1986). Effective Dose Equivalents for Photon
Exposures from Plane Sources on the Ground. Radiation Protection Dosimetry, 14(4), 299-310.
Jacob, P., Paretzke, H. G., Rosenbaum, H., & Zankl, M. (1988a). Organ Doses from Radionuclides on the
Ground. Part I. Simple Time Dependencies. Health Physics, 54(6), 617-633.
Jacob, P., Paretzke, H. G., & Rosenbaum, H. (1988b). Organ Doses from Radionuclides on the Ground.
Part II. Non-trivial Time Dependencies. Health Physics, 55(1), 37-49.
Jacob, P., Rosenbaum, H., Petoussi, N., and Zankl, M. (1990). Calculation of Organ Doses from
Environmental Gamma Rays Using Human Phantoms and Monte Carlo Methods. Part IP.
Radionuclides Distributed in the Air or Deposited on the Ground (Report 12/90). GSF-National
Research Center for Environment and Health, Neuherberg.
Jacquez, J. A. (1972). Compartmental Analysis in Biology and Medicine. Elsevier, Amsterdam.
Koblinger, L. & Nagy, G. Y. (1985). Calculations on the Relationship Between Gamma Source
Distributions in the Soil and External Doses. Science of the Total Environment, 45, 357-364.
Kocher, D. C. (1980). Effects of Indoor Residence on Radiation Doses from Routine Releases of
Radionuclides to the Atmosphere. Nuclear Technology, 48(2), 171-179.
Kocher, D. C. (1981). Dose-Rate Conversion Factors for External Exposure to Photons and Electrons
(No. NUREG/CR-1918, ORNL/NUREG-79). Oak Ridge National Laboratory, Oak Ridge, TN.
Kocher, D. C. (1983). Dose-Rate Conversion Factors for External Exposure to Photons and Electrons.
Health Physics, 45(3), 665-686.
Kocher, D. C., & Sjoreen, A. L. (1985). Dose-Rate Conversion Factors for External Exposure to Photon
Emitters in Soil. Health Physics, 48(2), 193-205.
LeGrand, J., Roux, Y., Meckbach, R., Jacob, P., Hedomon Jenson, P., & Thykier-Nelson, S. (1991).
External Exposure from Airborne Radionuclides. In G. N. Kelly and F. Luykx (Eds.), Proc. Seminar
332
-------�
on Methods and Codes for Assessing the Off-Site Consequences of Nuclear Accidents (No. EUR
13013/1) (pp. 3854). Commission of the European Communities, Luxembourg.
Mardirossian, G., Tagesson, M., Blanco, P., Bouchet, L.G., Stabin, M., Yoriyaz, H., Baza, S., Ljungberg,
M., Strand, S. E., & Brill, A. B. (1999). A New Rectal Model for Dosimetry Applications. Journal of
Nuclear Medicine, 40(9), 1524.
Marieb, E. N. (2001). Human Anatomy and Physiology. Benjamin-Cummings Science Publishing, Menlo
Park, CA.
NAS-NRC (1964). Studies in Penetration of Charged Particles in Matter (NAS-NRC Publication 1133).
National Academy of Sciences-National Research Council. National Academies Press, Washington,
DC.
NAS-NRC (2006). Health Risk From Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase II.
National Academy of Sciences-National Research Council. National Academies Press, Washington,
DC.
NCRP (1975). Natural Background Radiation in the United States (NCRP Report No. 45). National Council
on Radiation Protection and Measurements, Washington, DC.
NCRP (2007). Uncertainties in the Measurement and Dosimetry of External Radiation (NCRP Report
No. 158). National Council on Radiation Protection and Measurements, Washington, DC.
Netter, F. H., & Hansen, J. T. (2003). Atlas of Human Anatomy. Icon Learning Systems, Teterboro, NJ.
NRC (1977). Regulatory Guide 1.109. Calculation of Annual Doses to Man From Routine Releases of
Reactor Effluents for the Purpose ofEvaluating Compliance with 10 CFR Part 50, Appendix I. Nuclear
Regulatory Commission, Washington, DC.
Oakley, D. T. (1972). Natural Radiation Exposure in the United States (No. ORP/SID 72-1). U. S.
Environmental Protection Agency, Washington, DC.
O'Brien, K., & Sanna, R. (1978). The Effect of the Male-Female Body-Size Difference on Absorbed Dose-
Rate Distributions in Humans from Natural Gamma Rays. Health Physics, 34( 1), 107-112.
Petoussi,N., Jacob, P.,Zankl M., & Saito K. (1991). Organ Doses for Foetuses, Babies, Children and Adults
From Environmental Gamma Rays. Radiation Protect Dosimetry, 37( 1), 31-41.
Petoussi-Henss, N., Schlattl, H., Zankl, M., Endo A., & Saito K. (2012). Organ Doses From Environmental
Exposures Calculated Using Voxel Phantoms of Adults and Children. PhysMed Biol 57(18), 5679.
Poston J. W., & Snyder, W. S. (1974). A Model for Exposure to a Semi-infinite Cloud of a Photon Emitter.
Health Physics, 26(4), 287-293.
333
-------�
Pratt, R. H., Tseng, H. K., Lee, C. M., Kissel, L., MacCallum C., & Riley, M. (1977). Bremsstrahlung
Energy Spectra from Electrons of Kinetic Energy 1 keV < T1 < 2000 keV Incident on Neutral Atoms
2 < Z < 92. Atomic Data and Nuclear Data Tables, 20(2), 175-209.
Ryman, J. C., Faw, R. E., & Shultis, K. (1981). Air-ground Interface Effect on y-ray Submersion Dose.
Health Physics, 41(5), 759-768.
Saito, K., Petoussi, N., Zankl, M., Veit, R., Jacob, P., & Drexler, G. (1990). Calculation of Organ Doses
from Environmental Gamma Rays Using Human Phantoms and Monte Carlo Methods. Part I:
Monoenergetic Sources and Natural Radionuclides in the Ground (GSF-Bericht 2/90). Gesellschaft fur
Strahlen- und Umweltforschung, Miinchen, FRG.
Seltzer S. M., & M. J. Berger (1986). Bremsstrahlung Energy Spectra from Electrons with Kinetic Energy
1 keV - 10 GeV Incident on Screened Nuclide and Orbital Electrons of Neutral Atomics with Z = 1-
100. Atomic Data and Nuclear Data Tables, 35(3), 345-418.
Sjoreen, A. L., Kocher, D. C., Killough G. G., & Miller, C. W. (1984). MLSOIL and DFSOIL -Computer
Codes to Estimate Effective Ground Surface Contaminations for Dose Computations (No. ORNL-
5974) Oak Ridge National Laboratory, Oak Ridge, TN.
Skrable, K., French, C., Chabot, G., & Major, A. (1974). A General Equation for the Kinetics of Linear
First Order Phenomena and Suggested Applications. Health Physics, 27(1), 155-157.
United Nations Scientific Committee on the Effects of Atomic Radiation (2000). Sources and Effects of
Ionizing Radiation: UNSCEAR 2000 Report to the General Assembly, with Scientific Annexes. United
Nations Publications, New York, NY.
United Nations Scientific Committee on the Effects of Atomic Radiation (2008). Effects of Ionizing
Radiation: UNSCEAR 2006 Report to the General Assembly with Scientific Annexes. United Nations
Publications, New York, NY.
Williams, G., Zankl, M., Eckerl, H., & Drexler, G. (1985). The Calculation of Dose from External Photon
Exposures Using Reference Human Phantoms and Monte Carlo Methods. Part II: Organ Doses from
Occupational Exposures (GSF-Bericht S-1079). Gesellschaft fur Strahlen- und Umweltforschung,
Miinchen, FRG.
Yu, C., Kamboj, S., Wang, C., & Cheng, J.-J. (2015). Data Collection Handbook to Support Modeling
Impacts of Radioactive Material in Soil and Building Structures (No. ANL/EVS/TM-14/4). Argonne
National Laboratory, Chicago, IL.
334
-------�
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