United States
Environmental Protection
Agency
Air And Radiation
(6601J)
EPA 402-R-93-Q81
September 1993
vvEPA
External Exposure To
Radionuclides In
Air, Water, And Soil
Federal Guidance Report No. 12
Recycled/Recyclable
Primed on paper ihat corrtains
at least 50% recyded fiber
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EPA-402-R-93-081
FEDERAL GUIDANCE REPORT NO. 12
EXTERNAL EXPOSURE TO RADIONUCLIDES
IN AIR, WATER, AND SOIL
Keith F. Eckerman and Jeffrey C. Ryman
September 1993
ERRATUM
p. 218 Table C.2. Scaled External Bremsstrahlung from Electrons for Water
For T = 1000.0 and k/T = 0.10, the table entry .0223 should read 1.0223.
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This report was prepared as an account of work sponsored by an agency of the United States
Government. Neitherthe United States Government nor any agency thereof, nor any of their
employees, makes any warranty, express or implied, or assumes any legal liability or
responsibility forthe accuracy, completeness, or usefulness of any information, apparatus,
product, or process disclosed, or represents that its use would not infringe privately owned
rights. Reference herein to any specific commercial product, process, or service by trade
name, trademark, manufacturer, or otherwise, does not necessarily constitute or imply its
endorsement, recommendation, orfavoring by the United States Government or any agency
thereof. The views and opinions of authors expressed herein do not necessarily state or reflect
those of the United States Government or any agency thereof.
This report was prepared for the
OFFICE OF RADIATION AND INDOOR AIR
U.S. ENVIRONMENTAL PROTECTION AGENCY
Washington, DC 20460
by
OAK RIDGE NATIONAL LABORATORY
Oak Ridge, Tennessee 37831
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FEDERAL GUIDANCE REPORT NO. 12
EXTERNAL EXPOSURE TO RADIONUCLIDES
IN AIR, WATER, AND SOIL
Exposure-to-Dose Coefficients for General Application,
Based on the 1987 Federal Radiation Protection Guidance
Keith F. Eckerman and Jeffrey C. Ryman
Oak Ridge National Laboratory
Oak Ridge, Tennessee 37831
Office of Radiation and Indoor Air
U.S. Environmental Protection Agency
Washington, DC 20460
1993
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PREFACE
Federal radiation protection guidance is developed by the Administrator of the
Environmental Protection Agency 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." The purpose of Federal
guidance is to provide a common framework to ensure that the regulation of exposure to ionizing
radiation is carried out in a consistent and adequately protective manner.
This Federal guidance report is the third of a series designed to provide technical information
useful in implementing radiation protection programs. It is our hope that it will help ensure that
regulation of exposure to radiation is carried out in a consistent manner that makes use of the best
available information for relating concentrations of radioisotopes in environmental media to dose
in human populations due to external radiation. The dose coefficients in this report are intended for
use by Federal agencies having regulatory responsibilities for protection of members of the public
and/or workers, such as the Environmental Protection Agency, the Nuclear Regulatory Commission,
and Occupational Health and Safety Administration, as well as by those Federal agencies with
responsibilities related to the management of their own and their contractor operations, such as the
Department of Energy and the Department of Defense. We also encourage their use by State and
local authorities.
Exposure to external radiation from contaminated soil, which is a central focus of the
calculations carried out to produce this report, is a particularly timely subject. The Nation is at the
beginning of perhaps the largest cleanup operation in its history, at the large collection of sites
involved in the development of nuclear weapons and commercial nuclear power during the past half
century. An accurate assessment of this exposure pathway is essential to the decisions that will be
required to regulate, manage, and verify this cleanup.
The principal dose quantity, effective dose equivalent, has been calculated with the
weighting factors used in Federal Guidance Report No. 11, which were those recommended in
Radiation Protection Guidance to Federal Agencies for Occupational Exposure (EPA, 1987).
in
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IV
New estimates of radiation risk to the organs and tissues have been published since then
(UNSCEAR, 1988; NAS, 1990) and updated weighting factors have been recommended by the
International Commission on Radiological Protection (ICRP, 1991). However, new weighting
factors have not yet been adopted for use in the United States and would require a number of
adjustments to existing regulations. As the report notes, for most radionuclides these dose
coefficients are not very sensitive to the choice of weighting factors. We are reviewing new
weighting factors, as well as EPA's own estimates of organ-specific risk factors, and we will propose
changes in the weighting factors as soon as it appears necessary and reasonable to do so. At that
time, we will also publish revised versions of this report and of Federal Guidance Report No. 11.
The tables in this report are also available as computer files so that they may be more easily
used in programs for assessing dose. We are simultaneously making the tables for internal exposure
contained in Federal Guidance Report No. 11 available in the same format. Instructions for
obtaining both of these sets of computer files may be found at the back of this report.
We gratefully acknowledge the work of the authors, Keith F. Eckerman and Jeffrey C.
Ryman, without whose outstanding contributions over the past several decades tables such as these
would not exist. This project was made possible through joint funding from three Federal agencies:
the Department of Energy (DOE), the Nuclear Regulatory Commission (NRC), and the
Environmental Protection Agency. We appreciate the consistent support of the DOE and NRC
project officers, C. Welty and N. Varma, and S. Yaniv and R. Meek, respectively, throughout the
lengthy term ofthis work. We also are indebted to H. Beck, S. Y. Chen, C. M. Eisenhauer, P. Jacob,
G. D. Kerr, D. C. Kocher, and C. B. Nelson for their technical reviews. The report has been clarified
and strengthened through their efforts. We would appreciate being informed of any errors or
suggestions for improvements so that these may be taken into account in future editions. Comments
should be addressed to Allan C. B. Richardson, Deputy Director for Federal Guidance, Criteria and
Standards Division (6602J), U. S. Environmental Protection Agency, Washington, DC 20460.
Margo T. Oge, Director
Office of Radiation and Indoor Air
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CONTENTS
I. INTRODUCTION 1
II. CALCULATIONAL METHODS 5
Dosimetric quantities 5
Organ doses from monoenergetic environmental photon sources 8
General description of the calculations 9
Description of the environmental sources 11
The radiation field from a semi-infinite cloud source 13
The radiation field from an infinite water source 14
The radiation field from contaminated soil sources 16
Organ dose from an isotropic field 18
Organ dose from contaminated soil 21
Discussion 35
Skin doses from monoenergetic environmental electron sources 48
Immersion in contaminated water 49
Submersion in contaminated air 50
Exposure to contaminated soil 52
Dose coefficient formulation for radionuclides 54
Relationship to Federal Guidance Report No. 11 55
III. TABLES OF DOSE COEFFICIENTS 57
IV. APPLICATION CONSIDERATIONS 183
Radionuclide decay chains 183
Spontaneous fission 184
Models of the human body 184
Pathway-specific modifying factors and exposures 185
Ground roughness 186
Non-uniform volume source distributions 187
Contaminated shorelines 187
Exposure during boating activities 188
Effects of indoor residence 189
Conclusions 192
APPENDIX A. NUCLEAR DECAY DATA 193
APPENDIX B. MODIFICATIONS TO THE HUMAN PHANTOM 213
APPENDIX C. EXTERNAL BREMSSTRAHLUNG 215
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VI
APPENDIX D. EXAMPLE CALCULATIONS 221
ACKNOWLEDGMENTS 227
REFERENCES 229
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LIST OF TABLES
II. 1. Tissue Weighting Factors According to ICRP 7
II.2. Air Composition 11
II.3. Soil Composition 13
II.4. Organ Dose from a Monoenergetic Semi-infinite Cloud Source 23
II.5. Organ Dose from a Monoenergetic Infinite Pool Source 24
II.6. Organ Dose from a Monoenergetic Plane Source at the Air-ground Interface 25
II.7. Organ Dose from a Monoenergetic Plane Source 0.04 Mean Free Paths Deep 26
II.8. Organ Dose from a Monoenergetic Plane Source 0.2 Mean Free Paths Deep 27
II.9. Organ Dose from a Monoenergetic Plane Source 1.0 Mean Free Paths Deep 28
11.10. Organ Dose from a Monoenergetic Plane Source 2.5 Mean Free Paths Deep 29
11.11. Organ Dose from a Monoenergetic Plane Source 4.0 Mean Free Paths Deep 30
II. 12. Organ Dose from a Monoenergetic Source Uniformly Distributed to a Depth of 1 cm
31
II. 13. Organ Dose from a Monoenergetic Source Uniformly Distributed to a Depth of 5 cm
32
II. 14. Organ Dose from a Monoenergetic Source Uniformly Distributed to a Depth of 15 cm
33
II. 15. Organ Dose from a Monoenergetic Source Uniformly Distributed to an Infinite Depth
34
11.16. Organ Dose Equivalent Conversion Factors for Rotational Exposure 43
II. 17. Soil Compositions 46
III.l. Dose Coefficients for Air Submersion 57
III.2. Dose Coefficients for Water Immersion 75
III.3. Dose Coefficients for Exposure to Contaminated Ground Surface 93
III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm Ill
III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm 129
III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm 147
III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth 165
A.I. Summary Information on the Nuclear Transformation of the Radionuclides 197
C.I. Scaled External Bremsstrahlung Spectra from Electrons for Air 217
C.2. Scaled External Bremsstrahlung Spectra from Electrons for Water 218
C.3. Scaled External Bremsstrahlung Spectra from Electrons for Soil 219
vn
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LIST OF FIGURES
II. 1. Calculation of radiation field due to a contaminated ground plane, on a cylinder
surrounding the phantom location 12
II.2. Calculation of organ dose from an angular current source on the cylinder surrounding
the phantom 12
II.3. Typical energy spectrum of scattered photons for submersion in a 1 Bq m"3 100 keV
contaminated air source 15
II.4. Typical energy spectrum of scattered photons for immersion in in a 1 Bq m"3 100 keV
contaminated water source 15
II.5. Angular dependence of air kerma for a 1 Bq m"3 100 keV isotropic plane surface
source 19
II.6. Angular dependence of air kerma for a 1 Bq m"3 100 keV isotropic plane source 0.2
mean free paths deep 19
II.7. Angular dependence of air kerma for a 1 Bq m"3 100 keV isotropic plane source 1
mean free path deep 20
II.8. Angular dependence of air kerma for a 1 Bq m"3 100 keV isotropic plane source 4
mean free paths deep 20
II.9. Normalized effective dose equivalent for an isotropic plane surface source,
submersion in a semi-infinite cloud, and immersion in an infinite water pool 36
11.10. Comparison of normalized effective dose equivalent for an isotropic plane surface
source and for water immersion to that for submersion 36
11.11. Effective dose equivalent for submersion normalized to air kerma 1 m above the
air-ground interface 37
II. 12. Comparison of normalized effective dose equivalent for submersion from this work
(FOR 12) to that of Zankl et al 37
II. 13. Effective dose equivalent normalized to air kerma 1 m above the air-ground interface
for an infinite plane source 0.5 g cm"2 deep 38
II. 14. Comparison of normalized effective dose equivalent from this work to that of Zankl
et al. for an infinite plane source 0.5 g cm"2 deep 38
II. 15. Effective dose equivalent normalized to air kerma 1 m above the air-ground interface
for an infinite plane source at the interface 39
11.16. Ratio of effective dose equivalent for rotational exposure to that for the actual field . . 39
II. 17. Effective dose equivalent, normalized to air kerma 1 m above the air-ground interface,
for an infinite plane source at the interface, compared to Chen 41
11.18. Ratio of normalized effective dose equivalent from Fig. 11.15 to that of Chen from
Fig. 11.17 for an infinite plane source at the air-ground interface 41
11.19. Effective dose equivalent normalized to air kerma for rotational normal beam
exposure 42
IX
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11.20. Ratio of effective dose equivalent for rotational exposure from this report (FOR 12)
to that from ICRP Publication 51 42
11.21. Effective dose equivalent normalized to air kerma 1 m above the air-ground interface,
from an infinitely thick uniformly distributed soil source 45
11.22. Ratio of air kerma 1 m above 10 cm thick sources in soils of varying composition to
that above the typical silty soil used in this report 47
11.23. Ratio of linear attenuation coefficient for the typical silty soil used in this report to
that of other soils 48
11.24. Electron skin dose coefficient for immersion in contaminated water 50
11.25. Electron skin dose coefficient for submersion in contaminated air 51
11.26. Electron skin dose coefficients for exposure to contaminated soil 53
C.I. External bremsstrahlung spectrum of 85Kr in air 220
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I. INTRODUCTION
This report tabulates dose coefficients for external exposure to photons and electrons emitted
by radionuclides distributed in air, water, and soil. It is intended to be a companion to Federal
Guidance Report No. 11 (Eckerman et al., 1988), which tabulated dose coefficients for the
committed dose equivalent to tissues of the body per unit activity of inhaled or ingested
radionuclides. The dose coefficients for exposure to external radiation presented here are intended
for the use of Federal agencies in calculating the dose equivalent to organs and tissues of the body,
as were those in Federal Guidance Report No. 11. Note that the dose coefficients for air submersion
in this report update those given in Federal Guidance Report No. 11.
These dose coefficients are based on previously developed dosimetric methodologies, but
include the results of new calculations of the energy and angular distributions of the radiations
incident upon the body and the transport of these radiations within the body. Particular effort was
devoted to expanding the information available for the assessment of the radiation dose from
radionuclides distributed on or below the surface of the ground. Details of the underlying
calculations and of changes from previous work are presented in Section II and in the appendices.
Dose coefficients for external exposure relate the doses to organs and tissues of the body to
the concentrations of radionuclides in environmental media. Since the radiations arise outside the
body, this is referred to as external exposure. This situation is in contrast to the intake of
radionuclides by inhalation or ingestion, where the radiations are emitted inside the body. In either
circumstance, the dosimetric quantities of interest are the radiation doses received by the more
radiosensitive organs and tissues of the body. For external exposures, the kinds of radiation of
concern are those sufficiently penetrating to traverse the overlying tissues of the body and deposit
ionizing energy in radiosensitive organs and tissues. Penetrating radiations are limited to photons,
including bremsstrahlung, and electrons. The radiation dose depends strongly on the temporal and
spatial distribution of the radionuclide to which a human is exposed. The modes considered here
for external exposure are:
- submersion in a contaminated atmospheric cloud, i.e., air submersion,
- immersion in contaminated water, i.e., water immersion, and
- exposure to contamination on or in the ground, i.e., ground exposure.
Estimation of the dose to tissues of the body from radiations emitted by an arbitrary
1
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distribution of a radionuclide in an environmental medium is an extremely difficult computational
task. Therefore, it has become common practice to consider simplified and idealized exposure
geometries; i.e., the radionuclide concentration in the medium, seen from the location of an exposed
individual, is uniform and effectively infinite or semi-infinite in extent. In particular, a semi-infinite
source region is assumed for submersion in contaminated air (Poston and Snyder, 1974) and an
infinite source region is assumed for immersion in contaminated water and exposures to
contaminated soil (Kocher, 1981). Even for 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(t)
of a radionuclide at time t, then the dose equivalent in tissue T, HT, can be expressed as
HT = hT
fC(t)dt , (1)
where hT denotes the time-independent dose coefficient for external exposure. The coefficient hT
represents the dose to tissue T of the body per unit time-integrated exposure, expressed in terms of
the time-integrated concentration of the radionuclide', that is, hT is defined as
HT s
An alternative interpretation considers hTto represent the instantaneous dose rate in organ T per unit
activity concentration of the radionuclide in the environment. In most applications, the doseHT, not
the instantaneous dose rate, is the quantity of interest, and thus the time integral of the concentration
must be evaluated. Note that limits of integration have not been specified in Eqs. (1) and (2) since
they depend upon the nature of the dose quantity HT. For example, ifHT is to represent the dose
associated with a single year of exposure then the integration in Eq. (1) would range from t0to t0 + 1
years, where t0 is the year of interest. However, if it were to represent the dose associated with a
particular practice, e.g., annual emissions from a facility, then the integral might range over many
years as the emitted radionuclide persists in the environment. Depending on the nature of the
application it may be advantageous to view the numerical value of the coefficient hT as either the
instantaneous dose rate per unit concentration or as the dose per unit time-integrated concentration.
In this report we follow the latter presentation.
The dose coefficient hT for a specific radionuclide is uniquely determined by the type,
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intensity, and energy of the emitted radiations, the mode of exposure, and the anatomical variables
that govern the energy deposition in organ or tissue T. The dose 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 dose
coefficients, as performed for this report, involve three major steps:
(1) computation of the energy and angular distributions of the radiations incident
on the body for a range of initial energies of monoenergetic sources distributed in
environmental media of interest;
(2) evaluation of the transport and energy deposition in organs and tissues of the
body of the incident radiations, characterized above in terms of their energy and
angular distributions, for each of the initial energies considered; and
(3) calculation of the organ or tissue dose for specific radionuclides, considering
the energies and intensities of the radiations emitted during nuclear transformations
of those nuclides.
The result of the first two steps is a set of dose coefficients for monoenergetic sources of photon or
electron radiations. The last step simply scales these coefficients to the emissions of the
radionuclides of interest.
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
andSanna, 1978; Koblinger andNagy, 1985; Jacob etal., 1986, 1988a, 1988b; Kocher, 1981, 1983;
DOE, 1988; Saito et al., 1990; Chen, 1991; Petoussi et al., 1991). Because of limitations in
computational methods or available information, some of these efforts have used oversimplified
assumptions regarding the exposure conditions. For example, the radiations incident upon the body
have often 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. In addition, bremsstrahlung has generally been ignored, despite the fact that for many
radionuclides (e.g., pure beta emitters), it is the only source of radiation sufficiently penetrating in
nature to result in a dose to underlying tissues of the body. In this report, we have attempted to
address each of these aspects of the problem without the use of simplifying assumptions that would
significantly alter the results.
The report is organized as follows. Section II describes the calculation of the dose
coefficients. It also compares our results for monoenergetic photon sources to those of other
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researchers. Tabulations of coefficients for the extensive list of 825 radionuclides contained in
Publication 38 of the International Commission on Radiological Protection (ICRP, 1983) are
presented in Section III for each of the three exposure pathways. Section IV addresses some
practical issues regarding application of the numerical data presented in Section III.
Further details of the computational methods are discussed in the appendices. Appendix A
contains information on the radionuclides considered in this work that is needed for proper
application of the dose coefficients. Of particular note is the information required to evaluate
radioactive decay chains. Appendix B gives details of modifications to the adult anatomical model
(Cristy and Eckerman, 1987) used in these calculations. The evaluation of bremsstrahlung yield
from distributed beta emitters is discussed in Appendix C. Appendix D provides some sample
calculations illustrating the application of external dose coefficients.
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II. CALCULATIONAL METHODS
Photons and electrons are the most important radiations emitted by radionuclides
distributed in the environment that can penetrate the body from outside to deposit ionizing
energy within its radiosensitive tissues. This section presents the methods used to calculate the
dose coefficients for external exposure to photons and electrons for submersion in contaminated
air, immersion in contaminated water, and exposure to contaminated ground surfaces and
volumes.
Some radionuclides produce bremsstrahlung that is sufficiently penetrating to be of
potential importance in the estimation of external dose. In this work, the contribution from
bremsstrahlung has been evaluated for all the exposure modes, as discussed in Appendix C.
In rather unusual circumstances, spontaneous fission might also produce penetrating radiations
of potential importance. This process has not been taken into account in calculating the dose
coefficients presented in this report, although the data of Appendix A indicate the frequency
of spontaneous fission.
Dosimetric quantities
The dose quantities addressed in this report are those used in radiation protection,
namely the dose equivalent in various tissue and organs of the body and the effective dose
equivalent as defined by the ICRP (1977) and adopted in 1987 for use in regulating
occupational exposure in the United States (EPA, 1987). Since only penetrating radiations of
low linear energy transfer (LET) are able to contribute to the dose to organs and tissues of the
body, the dose equivalent and absorbed dose quantities in a tissue are numerically equal. That
is, the radiation quality factor is unity for the radiations of concern here. The ICRP, in its 1990
radiation protection recommendations (ICRP, 1991), adopted a new dosimetric quantity1, the
effective dose, designated by E. Both the effective dose and the effective dose equivalent
:In its 1990 recommendations the ICRP introduced less cumbersome names for the dosimetric
quantities of radiation protection. The terms dose equivalent and effective dose equivalent were
replaced by equivalent dose and effective dose, respectively. Strictly speaking, the newer
quantities involve some differences from the earlier quantities in their definitions; for the most
part, these details are not of concern here.
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quantities are weighted sums of the doses to radiosensitive tissues of the body. The effective
dose equivalent HE, and the effective dose E, are defined as:
HE = £ WT HT , (3a)
and
E = Y; WTHT ' (3b)
where HT is the mean dose equivalent to organ or tissue T, the WT are a specific set of weighting
factors, and the WT are a set of weighting factors not specified as part of the definition ofE, and
can take any assigned values. Thus, the effective dose equivalent can be interpreted as a
particular example of the effective dose. Values for WT and the current recommendations of the
ICRP for WT are shown in Table ILL The factors WT and WT correspond to the fractional
contribution of organ or tissue T to the total risk of stochastic health effects when the entire
body is uniformly irradiated. As seen in Table II. 1, the weighting factors currently
recommended by the ICRP to compute the effective dose explicitly consider a greater number
of organs and tissues of the body. In addition the two sets of weighting factors differ in the
manner that the dose to tissues not explicitly identified (the remainder) is evaluated. Of a more
fundamental nature, it should be noted that the measures of health detriment used to derive the
two sets of weighting factors are different. The weighting factors for the effective dose
equivalent characterize the health detriment in terms of the risk of fatal cancers and hereditary
defects in the first two generations. In the case of the currently recommended factors for
effective dose, the health detriment is characterized by a weighting of the risks for both fatal
and nonfatal cancers, the risk of hereditary defects over all future generations, and the relative
loss of life expectancy, given a fatal cancer or a severe genetic disorder.
Since no decision has been made, at the time of this report, on changes in weighting
factors for use in the United States, the tabulations by radionuclide of the dose coefficients in
this report are based on the weighting factors specified for the effective dose equivalent
quantity, the quantity used in Federal Guidance Report No. 11 (Eckerman et al., 1988).
However, the effective dose, computed with the weighting factors currently recommended by
the ICRP, is included in many of the preliminary tabulations and discussions. The results
indicate that for many radionuclides of practical significance, for the exposure geometries
considered here, the differences are small - on the order of a few percent. However, in some
cases the differences can be large, so that specification of the WT is an important consideration.
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Zankl et al. (1992) have also investigated these differences for various external irradiation
geometries and a few key radionuclides and reach similar conclusions.
The coefficient relating the dose equivalent^ in organ or tissue Tto the time integral
of the nuclide's concentration in the environment is denoted by hT. The notation and tabulation
of the dose coefficients presented in this report follow the conventions and format of Federal
Guidance Report No. 11. The radionuclide tabulations include the coefficients for the gonads,
breast, lung, red marrow, bone surface, thyroid, and remainder, followed by that for the
effective dose equivalent. The coefficient for the remainder group is the average of the doses
to each of the five tissues comprising the remainder and thus WT = 0.3 is applied to this
numerical value to compute the effective dose equivalent. Although skin is excluded from the
effective dose equivalent, we have included it in the tabulations since it frequently is the most
highly irradiated tissue for external exposure.
Table ILL Tissue Weighting Factors According to ICRP (1977, 1991).
Organ/Tissue
Gonads
Breast
Colon
Red Marrow
Lungs
Stomach
Urinary Bladder
Liver
Esophagus
Thyroid
Bone Surface
Skin
Remainder
Weighting
WT (ICRP 26)
0.25
0.15
0.12
0.12
0.03
0.03
0.301
Factors
w/ (ICRP 60)
0.20
0.05
0.12
0.12
0.12
0.12
0.05
0.05
0.05
0.05
0.01
0.01
0.052'3
1 The value 0.30 is applied to the average dose among the five remaining organs or tissues
receiving the highest dose, excluding the skin, lens of the eye, and the extremities.
2 The remainder is composed of the following tissues and organs: adrenals, brain, small
intestine, upper large intestine, kidney, muscle, pancreas, spleen, thymus, and uterus.
3 The value 0.05 is applied to the average dose to the remainder tissue group. However, if a
member of the remainder receives a dose in excess of the highest dose in any of the twelve
organs for which weighting factors are specified, a weighting factor of 0.025 is applied to
that organ and a weighting factor of 0.025 is applied to the average dose in the rest of the
remainder.
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Organ doses from monoenergetic environmental photon sources
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. Therefore, organ doses were computed for monoenergetic photon
sources at twelve energies from 0.01 to 5.0 MeV. The results of these calculations were then
used to derive the dose coefficients in Tables III. 1 through III.7, taking into accountthe detailed
photon spectrum of each radionuclide. The following pages describe the methods used to
compute organ dose coefficients for those monoenergetic sources.
Previous estimates of submersion dose (Poston and Snyder, 1974; O'Brien and Sanna,
1978; Eckerman et al., 1980; Kocher, 1981, 1983; DOE, 1988) were based on Monte Carlo
calculations with (1) poor statistics for some organ doses (due to the limitations of early
computer systems) or (2) minor errors in sampling the radiation field. It should be noted that
Saito et al. (1990) have recently published a compilation of organ doses due to air submersion
based on modern Monte Carlo methods that appears to overcome these limitations.
The seminal work of Beck and de Planque (1968) on dose due to contaminated soil,
while accurately reflecting the radiation field, was limited to calculation of air dose for energies
between 0.25 and 2.25 MeV, although the data were later used to generate a tabulation of air
exposure rates for a number of nuclides (Beck, 1980). The next generation of calculations
(Kocher, 1981, 1983; DOE, 1988; Kocher and Sjoreen, 1985) produced useful dose estimates
for many nuclides, but was limited by simplifying assumptions regarding the energy and
angular dependence of the radiation field (assumed to be equivalent to that for submersion) and
the use of the point kernel method for characterizing the field strength. More recent efforts
(Williams et al., 1985; Koblinger and Nagy, 1985; Jacob et al., 1986, 1988a, 1988b; Saito et
al., 1990; Petoussi et al., 1991) have used 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 many thicknesses as well as plane sources at the interface, but are only for effective dose
equivalent based upon rotational normal beam exposure (ICRP, 1987).
The computational methods used in this work were chosen to give an accurate
characterization of the energy and angular dependence of the radiation field incident on the
body, since dose to the body is very sensitive to the direction of incident radiation, and also to
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overcome other limitations of earlier calculations. Organ doses were computed for 25 organs
in an adult hermaphrodite phantom (Cristy and Eckerman, 1987). The mathematical phantom
was modified, as described in Appendix B, to include the esophagus, a tissue given an explicit
weighting factor in the current effective dose formulation of the ICRP (1991), and to improve
the modeling of the neck and thyroid.
General description of the calculations
Estimating organ dose in a human phantom exposed to radiation from an external source
consists of calculating an effect of interest in a geometrically complex object located in an otherwise
geometrically simple (one- or two-dimensional) system. This process is mathematically described
by the time-independent neutral-particle Boltzmann transport equation:
fdE1 f
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10
In principle, Eqs. (5) and (6) can be solved directly using Monte Carlo methods.
However, this direct approach involves a combination of deep penetration (i.e., transport
through many mean free paths of air and/or soil) and complex geometry (the human phantom).
Calculations of this type require the use of sophisticated variance reduction techniques to
overcome the inherent statistical nature of the Monte Carlo method. Often, the important
regions of phase space are undersampled, and the effect of interest is underestimated
(Armstrong and Stevens, 1969). To avoid the difficulties associated with a direct Monte Carlo
solution, the solution is broken into two steps, using an important property of the transport
equation.
In a problem involving distributed radiation sources and an effect on a target (the organ
dose), a model using a closed surface surrounding the target can be postulated to estimate the
effect (a closed surface surrounding the sources is equivalent). One can also consider a second
model in which the target and its surrounding medium are the same, but on the other side of the
closed surface is a vacuum or a perfect absorber. In the second model, an area source is
constructed on the closed surface such that the strength per unit area in each direction and at
each energy, SA(rs,Q,E), at each point rs on the surface is equal to the flow rate jn(rs,Q,E) at
the corresponding point in the first problem. It is possible to show rigorously (Chilton et al.,
1984) that the effect on the target (organ dose in this application) is the same for both problems.
Therefore, the sources for the first model may be replaced by the flow rate they create at the
closed surface bounding the second model.
The problem of computing organ dose from environmental photon sources may thus be
broken into two independent steps: (1) the calculation of the radiation field incident on a closed
surface surrounding the human phantom model, and (2) the calculation of organ dose due to a
surface source equivalent to the angular flow rate entering the boundary surrounding the
phantom. To eliminate the geometric complexity of the human phantom from the calculation
of the incident radiation field, the phantom must be removed from the problem. This may be
done if the presence of the phantom in the original problem does not significantly perturb the
incoming angular flow rate across the boundary surrounding the phantom. 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 boundary. This should be, at most, a second-order effect. Saito et al.
(1990) have demonstrated that this perturbation is, as expected, not significant.
For the environmental photon sources considered in this report, the calculation of organ
dose was broken into two independent calculations, as described above. The calculation of the
-------
11
radiation field due to a unit source strength was performed by methods appropriate to the kind
of source, as described later. Then, an equivalent source was constructed on a cylindrical
surface surrounding the phantom, and the organ doses resulting from this source were computed
for all cases by the Monte Carlo method, also described later. The two steps of the calculation
are illustrated in Figs. II. 1 and II.2 for the case of a contaminated soil source (an isotropic plane
source at depth ds).
Description of the environmental sources
The source for the submersion dose calculations is a semi-infinite cloud containing a
uniformly-distributed monoenergetic photon emitter of unit strength (1 Bq m"3) surrounding a
human phantom standing on the soil at the air-ground interface. The air composition, given in
Table II.2, is for conditions of 40% relative humidity, a pressure of 760 mm Hg, atemperature
of 20 °C, and a density of 1.2 kg m"3. The dose coefficients for submersion can be readily
scaled to account for a different air density.
Table II.2. Air Composition
Element
H
C
N
O
Ar
Total
Mass Fraction
0.00064
0.00014
0.75086
0.23555
0.01281
1.00000
The source for the contaminated soil calculations is an infinite isotropic plane source
of monoenergetic photons of unit strength (1 Bq m"2), located at the air-ground interface or at
a specified depth in the soil. Again, a human phantom is standing on the soil at the air-ground
interface. As noted later, the organ dose due to a source in the soil that is uniformly distributed
from the surface to a specified depth may be readily computed from the doses due to a series
of plane sources at different depths. The air composition is the same as for the submersion dose
calculations (see Table II.2). The assumed soil composition is given in Table II.3, and is that
for a typical silty soil (Jacob et al., 1986) containing 30% water and 20% air by volume. The
soil density was taken to be 1.6 x 103 kg m"3. It should be noted that the radiation field above
the air-ground interface can, in some circumstances, be scaled to account for differences in soil
-------
oo
Isotropic
plane source
at depth ds
Cylinder
surrounding
phantom
00
oo
Fig. II. 1. Calculation of radiation field due to a contaminated ground plane, on a cylinder
surrounding the phantom location.
Angular
current source
n«£?O(rjE,£$
oncyirder
Ouhward
normal
Fig. II.2. Calculation of organ dose from an angular current source on the cylinder
surrounding the phantom.
-------
13
density (Beck and de Planque, 1968; Chen, 1991). While the radiation field above the air-ground
interface is relatively insensitive to soil composition for a plane surface source (Beck and de
Planque, 1968), this is not true for distributed sources within the soil, as we later show.
Table II.3.
Element
H
C
O
Al
Si
K
Ca
Fe
Total
Soil Composition
Mass Fraction
0.021
0.016
0.577
0.050
0.271
0.013
0.041
0.011
1.000
The source for the water immersion calculations is an infinite pool of water containing a
uniformly-distributed monoenergetic photon emitter of unit strength (1 Bq m"3). A human phantom
is assumed to be completely immersed in the pool. The water density is 1.0 x 103 kg m"3 and the
composition by mass fraction is 0.112 for H and 0.888 for O; i.e., pure water.
The radiation field from a semi-infinite cloud source
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). This has been shown (Ryman et al., 1981) to be a good
approximation for air dose (within 20%) at energies of 20 keV or greater. At energies below 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 since the increase over the dimensions of the body should be fairly small, it
has not been considered here.
-------
14
Given this approximation, the radiation field may be computed as that due to an infinite
cloud source of a monoenergetic photon emitter. In this case, the transport equation (4) loses its
dependence on spatial position and angle, and may be written, for scattered photons, as (Dillman,
1970, 1974)
E
E
f(E') = ji(E') W) = K(E',E0) + (E*f(E)K(E',E)dE ,
J E
where
\i(E '} = the linear attenuation coefficient of air at energy E ';
f(E f)dE' = the number of photons per initial photon with energy in dE ' about E ';
and
K(E!,EQ) = the probability per unit energy that a photon of initial energy E0 will
scatter and give rise to a photon of energy E ' .
The scattered photon fluence is just
(£)
. (8)
where Sv is the source strength per unit volume. The uncollided fluence is easily shown to be
An updated version of the PHOFLUX computer program, developed by Dillman (1974) to solve this
Volterra-type integral equation, was used to compute the energy spectrum of scattered photons in
an infinite cloud source as well as the intensity of uncollided photons. Photoelectric and pair
production cross section data were taken from ENDF/B-V (Roussin et al., 1983). Klein-Nishina
scattering cross sections were computed analytically. The resulting energy spectrum from a 100 keV
source is shown in Fig. II. 3. The discontinuity seen in the figure occurs at the minimum possible
energy to which an initial photon may scatter. The slight bump corresponds to the minimum possible
energy for a twice-scattered initial photon.
The radiation field from an infinite water source
In this case, no approximation to the source is necessary, and Eq. (7) above is directly
applicable. The PHOFLUX program with ENDF/B-V cross sections was also used here to compute
the energy spectrum of photons in an infinite water source. The resulting energy spectrum from a
100 keV source is presented in Fig. II. 4.
-------
1.0
0.8
0.6
E 0.4
0.2
0.0
u = 5.52 * 10'3 (cnr
0.00 0.02 0.04 0.06 0.08 0.10
Photon Energy (MeV)
Fig. II.3. Energy spectrum of scattered photons for submersion
in a 1 Bq m"3 100 keV contaminated air source. (|)u is the
uncollided flux density.
1.0
>
-------
16
The radiation field from contaminated soil sources
In this case, the solution to the transport equation (4) is a function of only one spatial
and one angular variable. It can be seen from Eq. (4) that the transport equation is linear with
respect to the source term S(r,E,Q). Therefore, the fluence <&(r,E,Q) due to an isotropic
infinite source uniformly distributed over a finite depth in the soil may be determined by
superposition of the fluence for a series of isotropic infinite plane sources in soil.
The radiation field due to isotropic infinite plane sources at twelve energies from 0.01
to 5.0 MeV was computed for source depths of 0, 0.04, 0.2, 1.0, 2.5, and 4.0 mean free paths
in soil (specified at the source energy). These depths were chosen to facilitate an accurate
integration during the determination of the dose coefficients for sources uniformly distributed
over specified depths. The uncollided angular photon fluence was computed analytically. A
spatial-, energy-, and angular-dependent first collision source was generated from the
uncollided angular fluence and the cross sections for scattering from the source energy into a
series of energy groups. The scattered photon fluence due to the first-collision source was
computed using the one-dimensional multigroup discrete ordinates method (Bell and Glasstone,
1970). Seventy energy groups between 5.3 and 0.00865 MeV were used. The group boundaries
were selected to satisfy two criteria: (1) a relatively narrow group was present about each source
energy of interest, and (2) photons scattering from any group could scatter to at least two other
groups. A subset of the 70 groups was used for each source energy. The highest energy group
was just that group containing the source, and the lowest group was that containing the low-
energy cutoff, determined by As + 14, where As is the Compton wavelength (electron rest mass
energy divided by photon energy) at the source energy. Since, by conservation of energy and
momentum, the maximum change in Compton wavelength is 2 for a single scatter, a low-energy
cutoff corresponding to A^ + 14 ensures that a minimum of seven scatters is considered. Beck
and de Planque (1968) state that a low-energy cutoff of hs + 13.2 included over 99% of the
energy deposited in their air-dose calculations, except for the combination of very high source
energies and very large interface-to-detector distances, which is not of interest here. The only
exception to our use of the low-energy cutoff was for the 10 keV sources, in which case only
6 groups were used. At this energy, most photons are immediately absorbed, due to the high
photoelectric cross section, and the scattered photon fluence decreases quite rapidly with
decreasing energy.
In all calculations, the thickness of the air medium was three mean free paths (at the
source energy). Photons scattered in the atmosphere at a height greater than three mean free
paths must have traveled a minimum of six mean free paths from the source plane to reach the
phantom location, and therefore cannot make a significant contribution to organ dose. For the
-------
17
plane sources at depths of 0, 0.04, 0.2, and 1.0 mean free paths, the thickness of the soil
medium was taken as three mean free paths (at the source energy). For the sources at depths of
2.5 and 4 mean free paths, the soil thicknesses were taken as 3.5 and 5 mean free paths,
respectively. As in the case of air, photons scattered at depths beyond the lower soil boundary
would have to travel a minimum of six mean free paths from the source plane to reach the
phantom location, and thus make no significant contribution to organ dose.
In transport problems involving an isotropic plane source, the angular fluence has a
singularity at the source plane for directions parallel to the plane (Fano et al., 1959) which
cannot be accommodated by the discrete ordinates formulation used here, and which can also
cause problems when the Monte Carlo method is used. To avoid the numerical problems
associated with the singularity, the uncollided angular fluence is computed analytically. Then,
a first-collision source; i.e., a distributed source based on the spatial, energy, and angular
distribution of photons produced by the first collision of source photons, is calculated from the
analytic uncollided angular fluence. In photon transport, a collision which leads to secondary
photons can include pair production as well as Compton scatter. The first-collision source,
averaged over the spatial mesh cells of the discrete ordinates formulation, is taken to be the
source term in the transport equation, which is solved for the angular fluence of scattered
photons. Cell-averaged angular first-collision sources have no singularities, even in cells
adjacent to the source plane. It should also be noted that the scattered angular fluence has a
singular component at the source plane, and, at short distances from the source, will have
components of large magnitude in directions nearly parallel to the plane. It has been
demonstrated (Ryman, 1979) that discrete ordinates calculations for the scattered fluence due
to a first-collision source must use an angular mesh which has several directions nearly parallel
to the source plane. Failure to do so will give rise to scalar fluences that are depressed or
enhanced in a physically unrealistic manner in regions near the source. It is also well known
(Bell and Glasstone, 1970) that for plane geometries, the fluence near an interface is better
represented when the angular quadrature directions are chosen from a double-PN Gauss
quadrature set. Therefore, a DP15 quadrature set with 32 directions was selected for these
calculations.
A discrete ordinates solution of the transport equation in which the cross sections are
represented by truncated Legendre polynomial expansions can give rise to physically unrealistic
negative angular fluences, due to the negative oscillations in the cross section expansions. This
problem is worse for highly anisotropic sources, narrow energy groups, and highly anisotropic
scatter, e.g., Compton scatter of photons. Several studies have demonstrated (Odom and
Shultis, 1976; Mikols and Shultis, 1977; Ryman, 1979) that this problem may be eliminated
-------
18
by the use of the exact-kernel cross section representation, i.e., use of a discrete scattering
matrix rather than a polynomial representation. In this work, a one-dimensional multigroup
discrete ordinates code (KSLAB1), developed by one of the authors (Ryman, 1979), which uses
the exact-kernel representation of group-to-group transfer cross sections, was used to perform
the radiation field calculations. The group-to-group transfer cross sections, which included
Compton (Klein-Nishina) scattering and the production of annihilation radiation, when
appropriate, were generated from the data of Biggs and Lighthill (1968, 1971, 1972a, 1972b).
The spatial mesh in the air and the soil was tailored to each problem to ensure that (1) negative
angular fluences were not generated as a result of a too-coarse mesh spacing, and (2) the
angular fluence had converged with respect to mesh size.
The accuracy of the solutions was checked by comparing the energy and angular
dependence of the air kerma (i.e., dose to air) 1 m above a 1.25 MeV plane source at the air-
ground interface with the calculations of Beck and de Planque (1968) and with the calculations
and measurements given in the Shielding Benchmark Problems report (Garrett, 1968). Excellent
agreement was found in both cases.
The angular dependence of the air kerma one meter above the air-ground interface is
shown in Figs. II.5 through II.8 for 100 keV sources at various depths. The ninety-degree angle
corresponds to radiation incident from the horizon. In these figures, one should note the relative
importance of the scattered and unscattered components of the kerma and the changes in the
angular distributions with increasing depth.
Organ dose from an isotropic field
The radiation fields for the submersion and water immersion sources are isotropic,
neglecting the small effect on the incoming angular current caused by the presence of the
phantom. The organ dose due to an isotropic field was computed using the continuous energy
Monte Carlo photon transport code ALGAMP (Ryman and Eckerman, 1993), which is an
updated and combined version of the original ALGAM (Warner and Craig, 1968) and
BRHGAM (Warner, 1973) codes incorporating the Cristy phantom series (Cristy and Eckerman,
1987). As described in Appendix B, a modified version of the adult hermaphrodite phantom
was used for this work. Organ doses in ALGAMP are estimated by scoring energy deposition
in all organs except skeletal tissues. A collision-density fluence estimator for the skeleton is
combined with fluence-to-dose conversion factors for active marrow and bone surface
(Eckerman, 1984; Eckerman and Cristy, 1984; Kerr and Eckerman, 1985, 1987) to estimate
doses for those organs.
-------
19
0.6
0.5
0.4
C5 0.3
0.
(C
E 0.2
0.1
0.0
+ Uncollided
• Scattered
*****:$••••*
0 30 60 90 120 150 180
Polar Angle (degrees)
Fig. II.5. Angular dependence of air kerma for a 1 Bq m"3
100 keV isotropic plane surface source.
0.06
0.05
0.04
CD 0.03
Q_
E 0.02
i_
0
^
0.01
0.00
+ Uncollided
• *> • Scattered
* + *
0 30 60 90 120 150 180
Polar Angle (degrees)
Fig. II.6. Angular dependence of air kerma for a 1 Bq m"3
100 keV isotropic plane source 0.2 mean free paths deep.
-------
0.025
0.020
(/> 0.015
C5
a.
0.010
E
i_
-------
21
Calculations were performed for twelve monoenergetic sources ranging from 0.01 to
5.0 MeV. These were carried out using a cosine current source, which corresponds to an
isotropic fluence, sampled uniformly on the curved and end surfaces of a cylinder surrounding
the phantom. Ten million histories were sampled for each calculation. The organ doses from
the monoenergetic sources incident on the phantom were folded with the spectra generated by
the PHOFLUX code for the air submersion and water immersion sources and normalized to unit
source strength to produce the final organ dose coefficients for monoenergetic sources in
contaminated air and water, presented in Tables II.4 and II.5. The coefficients include those for
effective dose equivalent (hE), effective dose (e) using the ICRP 60 weighting factors, and air
kerma (kAIR) or water kerma (kWATER). Note that air kerma and water kerma are doses to air and
water, not to tissue free in air or water. Since the dose coefficients are inversely proportional
to the density of the source medium, scaling to a different density is straightforward.
Organ dose from contaminated soil
The uncollided and scattered angular fluences from an isotropic plane source of
radiation were computed as a function of energy, angle, and height above the air-ground
interface as described earlier. These fluence data were used to construct an angular current
source on a cylinder surrounding the phantom as a function of position, energy, and polar angle.
It may be noted that the angular current is given by the relationship j(r,E,Q) = Q- n&(r,E,Q)
where n is the outward-directed normal to the surface. For the top and bottom surfaces of the
cylinder, the construction of the angular current source is obvious, since Q- n is just the
absolute value of the polar angle used in the discrete ordinates calculations. On the side of the
cylinder, Q-n is not an angle used in the calculations. Saito et al. (1990) developed two
approximations for the relationship between the angular fluence and the current, but no
approximation is necessary. The angular fluence is isotropic with respect to an azimuthal angle
about the normal to the source plane, due to the symmetry of the one-dimensional radiation
field, so the angular current, as a function of polar angle, can be computed analytically from
the angular fluence data.
A calculation of organ doses was performed using ALGAMP (Ryman and Eckerman,
1993) for each of the 72 combinations of source energy and plane source depth, sampling the
photon energy, angle, and position from cumulative distribution functions corresponding to the
angular current sources described above. As for the calculations for isotropic sources in air and
water, ten million histories were generated for each calculation. Since the discrete ordinates
calculations were performed for a first-collision source generated by a unit strength plane
source, the organ dose coefficients are computed directly by the Monte Carlo calculations; no
-------
22
further normalization is needed. For the 10, 15, and 20 keV sources (primarily at 10 keV), a few
of the organ dose coefficients were estimated to be zero, since low-energy photons are not very
penetrating, and small organs (e.g., ovaries) are often missed by those few photons which do
penetrate the body to that depth. For a few organs, the coefficients of variation were so large
that their dose coefficients were judged to be unreliable. The dose coefficients for those organs
were also set to zero. However, the procedure described below for integrating organ dose
coefficients for plane sources over source depth to obtain dose coefficients for volume sources
involves the logarithm of the dose coefficients; therefore, dose coefficients cannot be zero. Even
had there been no numerical difficulties, the prudent approach was to assign nonzero values to
all dose coefficients. Therefore, in the tabulations for monoenergetic sources, the zero values
were replaced by values from a log-log extrapolation as a function of source energy. The
dependence of the organ dose coefficients on energy shows this to be a conservative approach.
As a practical matter, the values of the dose coefficients obtained by extrapolation are so small,
compared to the dose coefficients for the other organs, that they have no observed influence on
the coefficients for effective dose equivalent.
The organ dose coefficients for isotropic plane sources at the six source depths were
integrated over source depth to compute organ dose coefficients for uniformly distributed
volume sources having thicknesses of 1, 5, and 15 cm, and for an effectively infinite source
(4 mean free paths thick). If hTp(E,\} is the dose coefficient (Sv per Bq s m"2) for tissue T for
aplane isotropic source at energy E and depth T (mean free paths), then the dose coefficient fiTL (E)
(Sv per Bq-s m"3) for a volumetric source extending from the air-ground interface to depth
L (cm) is just
hTL(E) = — \^Ld\hTp(E^} , (10)
where (i is the linear attenuation coefficient for soil at energy E. The dose coefficients for each
organ hTp(E,"^) 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 were then numerically
integrated. The organ dose coefficients are presented in Tables II. 6 through 11.11 for plane
sources at the six source depths, and in Tables 11.12 through 11.15 for the four volumetric
sources. The coefficients for the plane sources do not need to be scaled for different soil
densities, since depths are in mean free paths. Coefficients for a source with finite thickness
expressed in cm cannot be scaled. Coefficients for a source with finite thickness expressed in
mean free paths are inversely proportional to soil density, as shown by Chen (1991), as are
those for an infinitely thick source.
-------
23
Table II.4. Organ Dose (Gy per Bq s m ) from a Monoenergetic Semi-infinite Cloud Source
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
5.061E-18
1.054E-22
.994E-13
.577E-13
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
1.039E-21 6.051E-19 8.347E-18 1.301E-16 9.232E-16
1.428E-20 1.129E-18 2.415E-17 2.464E-16 1.143E-15
2.564E-21 3.292E-19 9.880E-18 1.653E-16 1.039E-15
3.499E-21 4.348E-19 1.275E-17 2.178E-16 1.266E-15
2.003E-18 2.477E-17 9.434E-17 3.927E-16 1.400E-15
.967E-15 3.442E-15 7.778E-15
.193E-15 3.643E-15 7.973E-15
.113E-15 3.610E-15 8.028E-15
.487E-15 4.147E-15 9.017E-15
.507E-15 4.064E-15 8.801E-15
.042E-14 4.319E-14 9.432E-14
.077E-14 4.362E-14 9.472E-14
.089E-14 4.396E-14 9.592E-14
.324E-14 4.852E-14 1.037E-13
.271E-14 4.734E-14 1.011E-13
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
.774E-14 5.621E-14 1.164E-13 3.030E-13
.103E-14 4.415E-14 9.590E-14 2.674E-13
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
6.587E-19 2.666E-17
1.996E-20 1.366E-18
4.389E-20 1.122E-17
8.251E-21 6.043E-19
8.773E-22 5.780E-20
.296E-16 5.509E-16 1.689E-15
.640E-17 2.527E-16 1.245E-15
.478E-17 4.311E-16 1.532E-15
.220E-17 1.616E-16 9.478E-16
.071E-18 5.706E-17 6.562E-16
.857E-15 4.432E-15 9.354E-15
.368E-15 3.930E-15 8.529E-15
.706E-15 4.374E-15 9.394E-15
.947E-15 3.337E-15 7.432E-15
.548E-15 2.853E-15 6.730E-15
.341E-14 4.859E-14 1.014E-13 2.818E-13
.154E-14 4.519E-14 1.015E-13 2.689E-13
.384E-14 4.992E-14 1.052E-13 2.979E-13
.940E-14 3.973E-14 9.174E-14 2.530E-13
.787E-14 3.849E-14 8.730E-14 2.494E-13
1.103E-18 2.001E-17
1.651E-18 1.436E-17
6.746E-16 9.912E-16
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24
Table II.5. Organ Dose (Gy per Bq s m ) from a Monoenergetic Infinite Pool Source
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
5.746E-25
2 . 388E-21
2 . 092E-26
1.168E-20
2.434E-25
1.037E-23
7.334E-26
1.116E-25
1.143E-23
2 . 038E-24
2.399E-24
3.297E-23
5 . 921E-24
8.080E-24
4.624E-21
1.405E-25
9.657E-26
4.478E-22
2 . 627E-19
5.849E-25
1.521E-21
4.608E-23
1 . 013E-22
1.905E-23
2.026E-24
1.776E-22
6.397E-20
4.008E-23
1.536E-19
4.827E-23
1 . 069E-21
4.527E-23
7.340E-23
8 . 252E-23
1.561E-22
1.413E-21
2.637E-21
7.687E-22
1.015E-21
5.793E-20
2.231E-23
1.849E-23
1.129E-20
7 . 113E-19
2.337E-22
6.233E-20
3.192E-21
2 . 621E-20
1.412E-21
1.350E-22
9.862E-21
3 . 804E-19
8 . 109E-21
5.474E-19
1.943E-21
2.737E-20
4.096E-21
6.963E-21
3.560E-21
3.198E-21
1.958E-20
5.663E-20
2.315E-20
2.988E-20
2.220E-19
7.630E-22
7.216E-22
6.217E-20
1 . 241E-18
1.561E-20
3.050E-19
6 . 192E-20
1 . 993E-19
2.861E-20
2.508E-21
2.533E-19
2 . 718E-18
3.497E-19
1.820E-18
1.090E-19
3 . 898E-19
1.654E-19
2.257E-19
1 . 615E-19
1 . 956E-19
3.039E-19
5.771E-19
3.861E-19
5.088E-19
9.238E-19
9 . 452E-20
1.082E-19
4.035E-19
2 . 450E-18
3.543E-19
1.297E-18
5 . 919E-19
1 . 013E-18
3.778E-19
1.325E-19
1.858E-18
1.293E-17
2 . 602E-18
4.900E-18
1.392E-18
2 . 346E-18
1.599E-18
1.822E-18
1 . 628E-18
1.790E-18
2.111E-18
2 . 631E-18
2 . 380E-18
2.904E-18
3.237E-18
1 . 452E-18
1.461E-18
2.140E-18
5 . 226E-18
2 . 341E-18
3.919E-18
2.863E-18
3.543E-18
2.173E-18
1.492E-18
3.929E-18
2.247E-17
5.307E-18
7.784E-18
3.406E-18
4 . 690E-18
3.622E-18
3.953E-18
3.670E-18
3 . 891E-18
4.430E-18
4.967E-18
4 . 768E-18
5.621E-18
5.702E-18
3.323E-18
3.463E-18
4.455E-18
8 . 080E-18
4.766E-18
6.522E-18
5.362E-18
6 . 158E-18
4.392E-18
3.471E-18
6.871E-18
3.216E-17
9 . 034E-18
1.170E-17
6.343E-18
7.866E-18
6.502E-18
6.960E-18
6.564E-18
6 . 708E-18
7.653E-18
8 . 138E-18
8 . 041E-18
9.251E-18
9.107E-18
6 . 130E-18
6.345E-18
7.867E-18
1.202E-17
8 . 021E-18
9.968E-18
8.777E-18
9 . 806E-18
7.432E-18
6.321E-18
1.578E-17
5.080E-17
2.031E-17
2.365E-17
1.531E-17
1.722E-17
1.500E-17
1.579E-17
1.517E-17
1.535E-17
1.704E-17
1.751E-17
1.761E-17
1.980E-17
1.936E-17
1.466E-17
1.497E-17
1.826E-17
2.435E-17
1.760E-17
2.062E-17
1.873E-17
2.067E-17
1.630E-17
1.471E-17
4.221E-17
9 . 107E-17
5.376E-17
5.836E-17
4.133E-17
4 . 491E-17
3.981E-17
4.159E-17
4.057E-17
4.103E-17
4.435E-17
4.516E-17
4.538E-17
5.051E-17
4.941E-17
3.762E-17
3.950E-17
4.860E-17
6 . 049E-17
4.570E-17
5.099E-17
4.683E-17
5.187E-17
4.215E-17
3.878E-17
8.755E-17
1.582E-16
1.132E-16
1.194E-16
9.016E-17
9.372E-17
8.599E-17
8.839E-17
8.794E-17
8 . 718E-17
9.352E-17
9 . 450E-17
9.522E-17
1.051E-16
1.026E-16
8 . 992E-17
8.434E-17
1.034E-16
1 . 220E-16
9.562E-17
1.054E-16
9.792E-17
1 . 082E-16
8.606E-17
8.331E-17
1.903E-16
3.005E-16
2 . 400E-16
2.471E-16
1.964E-16
2.054E-16
1.908E-16
1.949E-16
1 . 918E-16
1.967E-16
2.041E-16
2 . 050E-16
2.075E-16
2.244E-16
2.188E-16
1 . 927E-16
1.904E-16
2.246E-16
2.521E-16
2.075E-16
2.195E-16
2.197E-16
2 . 276E-16
1.985E-16
1.888E-16
5.430E-16
7 . 810E-16
6 . 405E-16
6.529E-16
5.618E-16
5.789E-16
5.480E-16
5.556E-16
5.620E-16
5.710E-16
5.840E-16
5.741E-16
5.780E-16
6.164E-16
5.945E-16
5.659E-16
5.463E-16
6.263E-16
6 . 608E-16
5.830E-16
6.145E-16
5.862E-16
6.495E-16
5.516E-16
5.437E-16
-------
25
Table II. 6. Organ Dose (Gy per Bq s rcr2) from a Monoenergetic Plane Source at the Air-ground Interface
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
.724E-17
.335E-17
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
.479E-16
.241E-16
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
3.275E-21 1.132E-19 1.398E-18 1.086E-17 3.561E-17 5.463E-17 8.135E-17 1.673E-16 4.392E-16 8.748E-16 1.628E-15 3.478E-15
7.164E-21 3.061E-19 4.394E-18 2.060E-17 4.166E-17 5.769E-17 8.382E-17 1.726E-16 4.474E-16 8.966E-16 1.686E-15 3.562E-15
9.768E-22 7.800E-20 1.745E-18 1.393E-17 3.926E-17 5.808E-17 8.366E-17 1.734E-16 4.457E-16 8.864E-16 1.664E-15 3.519E-15
1.387E-21 9.981E-20 2.074E-18 1.710E-17 4.455E-17 6.297E-17 8.968E-17 1.828E-16 4.732E-16 9.207E-16 1.725E-15 3.636E-15
9.151E-19 7.986E-18 1.752E-17 3.289E-17 4.996E-17 6.588E-17 9.326E-17 1.962E-16 5.112E-16 9.988E-16 1.831E-15 3.780E-15
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
1.333E-19 5.101E-19 1.322E-18 5.058E-18 2.743E-17 5.160E-17 7.486E-17 1.656E-16 4.734E-16 8.337E-16 1.578E-15 3.673E-15
4.673E-23 3.262E-21 6.633E-20 4.630E-18 2.761E-17 4.843E-17 7.402E-17 1.582E-16 4.087E-16 8.215E-16 1.595E-15 3.539E-15
3.072E-20 9.539E-19 3.647E-18 1.243E-17 3.312E-17 5.353E-17 8.327E-17 1.816E-16 4.776E-16 9.464E-16 1.777E-15 3.785E-15
5.046E-17 8.798E-17 8.729E-17 7.545E-17 6.831E-17 7.862E-17 1.077E-16 2.278E-16 5.897E-16 1.133E-15 2.025E-15 4.090E-15
6.389E-23 1.916E-20 1.096E-18 1.338E-17 3.978E-17 5.844E-17 8.483E-17 1.752E-16 4.462E-16 8.942E-16 1.641E-15 3.656E-15
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
.197E-16 1.004E-15 1.830E-15 3.965E-15
.556E-16 8.417E-16 1.673E-15 3.513E-15
.944E-16 9.444E-16 1.597E-15 3.611E-15
-------
26
Table II. 7. Organ Dose (Gy per Bq s rcr2) from a Monoenergetic Plane Source 0.04 Mean Free Paths Deep
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
.809E-16 9.712E-16 1.729E-15
.174E-16 1.318E-15 2.461E-15
.097E-16 1.052E-15 1.949E-15
.606E-16 6.446E-16 1.081E-15 1.987E-15
.822E-16 5.139E-16 9.144E-16 1.802E-15
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
1.607E-21 9.244E-20 1.639E-18 1.077E-17
6.004E-24 3.038E-21 2.519E-19 4.857E-18
3.032E-23 8.078E-21 4.249E-19 6.514E-18
4.715E-21 2.783E-20 2.870E-19 5.215E-18
.905E-17 4.427E-17 6.485E-17 1.
.219E-17 3.771E-17 5.858E-17 1.
.446E-17 4.035E-17 6.128E-17 1.
.294E-17 3.904E-17 6.007E-17 1.
.312E-17 3.735E-17 5.780E-17 1.
292E-16 3.076E-16 5.671E-16 9.562E-16 1.843E-15
208E-16 2.935E-16 5.459E-16 9.467E-16 1.815E-15
252E-16 3.014E-16 5.530E-16 9.377E-16 1.827E-15
233E-16 2.979E-16 5.540E-16 9.605E-16 1.871E-15
227E-16 2.635E-16 5.943E-16 8.875E-16 1.774E-15
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
3.335E-21 9.939E-20 1.105E-18 8.399E-18 2.676E-17 4.221E-17 6.337E-17 1.288E-16 3.144E-16 5.641E-16 9.948E-16 1.887E-15
5.090E-21 2.326E-19 3.502E-18 1.533E-17 3.124E-17 4.503E-17 6.504E-17 1.321E-16 3.154E-16 5.809E-16 9.705E-16 1.886E-15
9.393E-22 6.670E-20 1.373E-18 1.041E-17 2.961E-17 4.490E-17 6.560E-17 1.324E-16 3.140E-16 5.679E-16 9.804E-16 1.872E-15
1.315E-21 8.644E-20 1.684E-18 1.302E-17 3.416E-17 4.969E-17 7.140E-17 1.418E-16 3.394E-16 6.136E-16 1.040E-15 1.983E-15
7.791E-19 6.263E-18 1.339E-17 2.372E-17 3.644E-17 4.920E-17 7.034E-17 1.433E-16 3.411E-16 6.133E-16 1.035E-15 1.936E-15
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
.926E-15
.799E-15
.017E-15
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
3.982E-19 7.400E-18 2.042E-17 3.415E-17 4.247E-17 5.295E-17 7.541E-17 1.451E-16 3.482E-16 6.099E-16 1.062E-15 2.013E-15
3.028E-21 1.722E-19 3.028E-18 1.493E-17 3.287E-17 4.612E-17 6.793E-17 1.295E-16 3.281E-16 5.734E-16 9.865E-16 1.850E-15
4.991E-20 8.844E-19 6.799E-18 1.955E-17 3.581E-17 4.793E-17 7.011E-17 1.403E-16 3.614E-16 6.500E-16 1.047E-15 2.055E-15
2.126E-21 1.172E-19 2.016E-18 1.067E-17 2.803E-17 4.300E-17 6.279E-17 1.301E-16 2.973E-16 5.456E-16 9.274E-16 1.768E-15
2.677E-22 9.508E-21 1.197E-19 4.251E-18 2.119E-17 3.739E-17 5.864E-17 1.202E-16 2.881E-16 5.429E-16 9.122E-16 1.865E-15
.201E+01 9.853E+00 4.309E+00 1.448E+00 5.094E-01 3.404E-01 2.665E-01 2.021E-01 1.419E-01 1.035E-01
.261E-02 4.634E-02
-------
27
Table II. 8. Organ Dose (Gy per Bq s nr2) from a Monoenergetic Plane Source 0.2 Mean Free Paths Deep
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
4.126E-21
1.213E-19
9.963E-26
7 . 457E-19
8.055E-24
1.093E-21
3.537E-24
8.502E-24
2.513E-21
6 . 813E-22
2.161E-21
2.863E-21
5.073E-22
8 . 680E-22
4.901E-19
1 . 686E-20
3.617E-23
2.001E-20
2.927E-17
7.964E-23
2.727E-19
2.635E-21
4 . 454E-20
1 . 994E-21
1.963E-22
5.197E-20
2.863E-18
3.483E-22
7.447E-18
6.479E-22
5.458E-20
1.615E-21
3.188E-21
1.933E-20
1.537E-20
5.742E-20
1.266E-19
3.548E-20
4 . 956E-20
3.590E-18
8 . 648E-20
1 . 930E-21
4.961E-19
4.244E-17
1 . 291E-20
4.750E-18
1.136E-19
5.475E-19
7 . 429E-20
6.008E-21
3.136E-19
1.067E-17
1 . 138E-19
1.526E-17
1.457E-20
8 . 752E-19
1 . 245E-19
2.137E-19
1.632E-19
1 . 403E-19
5.884E-19
1.862E-18
7.225E-19
8 . 739E-19
7.187E-18
2 . 759E-19
3.245E-20
1.706E-18
3.850E-17
4.773E-19
1.219E-17
1.641E-18
3.247E-18
9 . 675E-19
6.806E-20
3.950E-18
3.546E-17
3 . 189E-18
2.230E-17
1.172E-18
5.545E-18
2 . 384E-18
3.237E-18
2.544E-18
3.166E-18
4.225E-18
8.063E-18
5 . 424E-18
6 . 806E-18
1.246E-17
1 . 415E-18
1.732E-18
5.122E-18
3.034E-17
5.115E-18
1.874E-17
7.683E-18
9 . 721E-18
5.455E-18
2.083E-18
1.259E-17
8.582E-17
1.512E-17
2.766E-17
9.428E-18
1.634E-17
1.203E-17
1.334E-17
1.250E-17
1.303E-17
1.515E-17
1.764E-17
1.665E-17
1.961E-17
2.085E-17
1 . 110E-17
1 . 114E-17
1.438E-17
2.991E-17
1.686E-17
2.513E-17
1.820E-17
1 . 951E-17
1.531E-17
1.140E-17
2.183E-17
1.181E-16
2.634E-17
3.612E-17
1.966E-17
2 . 689E-17
2 . 221E-17
2.397E-17
2.302E-17
2.313E-17
2.560E-17
2.702E-17
2.718E-17
3.064E-17
3.029E-17
2.143E-17
2.167E-17
2.511E-17
3.779E-17
2.724E-17
3.401E-17
2.968E-17
2 . 948E-17
2.545E-17
2.174E-17
3.726E-17
1.469E-16
4.193E-17
5.173E-17
3.399E-17
4.161E-17
3.651E-17
3.795E-17
3.739E-17
3.717E-17
4.017E-17
4.160E-17
4.205E-17
4.621E-17
4.534E-17
3.522E-17
3.626E-17
4.144E-17
5.404E-17
4 . 171E-17
5.008E-17
4.327E-17
4 . 290E-17
3.972E-17
3.601E-17
7.526E-17
1.988E-16
8.835E-17
1.030E-16
7.296E-17
8 . 283E-17
7.560E-17
7.804E-17
7.775E-17
7.668E-17
8.237E-17
8.472E-17
8 . 446E-17
9 . 168E-17
9.183E-17
7.568E-17
7.482E-17
8.856E-17
1.092E-16
8 . 518E-17
9.933E-17
8.618E-17
8.572E-17
8 . 110E-17
7.371E-17
1.737E-16
3.190E-16
2.017E-16
2 . 247E-16
1.747E-16
1 . 817E-16
1.707E-16
1.760E-16
1.769E-16
1 . 694E-16
1.811E-16
1.886E-16
1 . 869E-16
2.036E-16
2.043E-16
1.631E-16
1 . 689E-16
2.000E-16
2.403E-16
1 . 885E-16
2.187E-16
1.944E-16
1 . 879E-16
1.787E-16
1.697E-16
2.990E-16
4.805E-16
3.470E-16
3.761E-16
2.923E-16
3 . 209E-16
2 . 996E-16
3.068E-16
3.050E-16
2 . 994E-16
3.165E-16
3.155E-16
3 . 179E-16
3.457E-16
3.465E-16
3.062E-16
2 . 840E-16
3.451E-16
4.017E-16
3.260E-16
3.674E-16
3.364E-16
3.098E-16
3.143E-16
3.030E-16
5.299E-16
7.264E-16
5.709E-16
5 . 988E-16
5.063E-16
5.186E-16
4 . 990E-16
5.060E-16
5.102E-16
4.721E-16
5.091E-16
5.373E-16
5 . 244E-16
5 . 611E-16
5.586E-16
5.173E-16
4 . 993E-16
5.665E-16
6.312E-16
5.329E-16
5.820E-16
5.471E-16
5 . 206E-16
5.291E-16
4.812E-16
8.074E-16
1.274E-15
1 . 034E-15
1.046E-15
8.989E-16
9 . 798E-16
9.265E-16
9.239E-16
9.591E-16
1 . 048E-15
9.482E-16
9.757E-16
9 . 497E-16
1.015E-15
9.939E-16
8 . 736E-16
8 . 836E-16
1.025E-15
1.092E-15
9.699E-16
1.102E-15
1.035E-15
1.043E-15
9 . 500E-16
9.133E-16
.201E+01 9.853E+00 4.309E+00 1.448E+00 5.094E-01 3.404E-01 2.665E-01 2.021E-01 1.419E-01 1.035E-01
. 261E-02 4 . 634E-02
-------
28
Table II. 9. Organ Dose (Gy per Bq s rcr2) from a Monoenergetic Plane Source 1.0 Mean Free Paths Deep
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
4.639E-22 6.413E-21 4.134E-20 5.715E-19 2.984E-18 6.518E-18 1.175E-17 2.782E-17 5.501E-17 9.043E-17 1.248E-16 2.076E-16
2.806E-20 5.271E-19 1.845E-18 6.504E-18 2.038E-17 3.512E-17 5.306E-17 8.323E-17 1.195E-16 1.539E-16 2.023E-16 3.052E-16
3.732E-26 7.488E-23 1.650E-20 5.517E-19 3.542E-18 7.571E-18 1.412E-17 3.198E-17 6.496E-17 9.944E-17 1.467E-16 2.321E-16
2.166E-19 1.694E-18 3.215E-18 4.831E-18 7.347E-18 1.143E-17 1.868E-17 3.972E-17 7.845E-17 1.134E-16 1.613E-16 2.500E-16
9.305E-25 8.385E-23 2.044E-21 1.842E-19 2.147E-18 5.387E-18 1.097E-17 2.585E-17 5.178E-17 8.325E-17 1.225E-16 1.964E-16
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
1.044E-22 6.787E-21 1.312E-19 9.611E-19 3.666E-18 7.563E-18 1.365E-17
2.815E-25 1.779E-22 1.727E-20 3.787E-19 2.616E-18 6.003E-18 1.170E-17
2.411E-25 2.266E-22 2.915E-20 5.062E-19 2.966E-18 6.440E-18 1.218E-17
3.881E-22 3.532E-21 2.453E-20 4.228E-19 2.764E-18 6.324E-18 1.209E-17
9.214E-23 2.103E-21 1.934E-20 4.413E-19 2.844E-18 6.418E-18 1.128E-17
.875E-21 1.332E-19
.457E-19 1.269E-18
.982E-17 5.924E-17 8.885E-17 1
.674E-17 5.376E-17 8.387E-17 1
.747E-17 5.515E-17 8.569E-17 1
.777E-17 5.640E-17 8.654E-17 1
.677E-17 5.292E-17 9.240E-17 1
.717E-18 6.377E-18 7.825E-18 1.188E-17 1.942E-17 4.174E-17
.655E-20 8.524E-19 3.758E-18 7.783E-18 1.395E-17 3.071E-17
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
.201E+01 9.853E+00 4.309E+00 1.448E+00 5.094E-01 3.404E-01 2.665E-01 2.021E-01 1.419E-01 1.035E-01
.261E-02 4.634E-02
-------
29
Table 11.10. Organ Dose (Gy per Bq s
from a Monoenergetic Plane Source 2.5 Mean Free Paths Deep
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
7.717E-24
2.878E-21
4.277E-27
2.880E-20
6.409E-26
8.501E-24
2.203E-26
7.947E-24
9.592E-23
3.384E-24
2.130E-23
1.915E-23
3.307E-24
6 . 907E-24
9.253E-21
1 . 008E-22
5.134E-26
4.368E-22
8.167E-19
1.884E-25
1.120E-20
1.763E-23
1.873E-22
5.465E-24
5.570E-25
2.193E-22
4.992E-20
7.183E-24
1 . 982E-19
6.548E-24
5.731E-22
1.330E-23
2.020E-22
5.813E-22
1.120E-22
6.564E-22
1.256E-21
3 . 284E-22
5.113E-22
6.363E-20
7.597E-22
6.435E-24
8.677E-21
1.013E-18
7.374E-23
1.338E-19
1.091E-21
3.630E-21
4 . 844E-22
3.129E-23
2.357E-21
1.797E-19
1.395E-21
3.785E-19
1.745E-22
1.137E-20
1 . 250E-21
2.006E-21
2.521E-21
1.342E-21
7.474E-21
2.444E-20
8.575E-21
1 . 084E-20
1.303E-19
3.183E-21
1 . 982E-22
2.948E-20
8.966E-19
5.096E-21
3.242E-19
2.037E-20
2 . 974E-20
1.167E-20
5.453E-22
6.698E-20
7.099E-19
5.594E-20
5 . 995E-19
1.783E-20
9 . 840E-20
3.715E-20
5.099E-20
4.422E-20
4 . 443E-20
7 . 360E-20
1.518E-19
9 . 444E-20
1 . 199E-19
2.700E-19
2.398E-20
2 . 484E-20
1.041E-19
7.929E-19
8.673E-20
5.284E-19
1.464E-19
1 . 538E-19
9 . 632E-20
3.063E-20
4.181E-19
2.929E-18
5.051E-19
1 . 130E-18
2.796E-19
5 . 231E-19
3.525E-19
4.053E-19
3.920E-19
3.653E-19
4.673E-19
5.865E-19
5.328E-19
6 . 370E-19
7.399E-19
3.053E-19
3 . 219E-19
4.752E-19
1.203E-18
5.367E-19
1.026E-18
6.243E-19
6.265E-19
5 . 048E-19
3.378E-19
1.138E-18
6.298E-18
1 . 322E-18
2 . 127E-18
9.122E-19
1 . 304E-18
1 . 015E-18
1.106E-18
1.092E-18
1 . 081E-18
1.226E-18
1.373E-18
1.336E-18
1 . 536E-18
1.598E-18
9.616E-19
9.836E-19
1.243E-18
2.214E-18
1.338E-18
2.053E-18
1.479E-18
1 . 435E-18
1 . 231E-18
9.897E-19
2.588E-18
1.163E-17
2 . 979E-18
4 . 091E-18
2.213E-18
2 . 855E-18
2 . 405E-18
2.551E-18
2.488E-18
2 . 476E-18
2.734E-18
2.934E-18
2 . 906E-18
3 . 286E-18
3.316E-18
2 . 250E-18
2.360E-18
2.857E-18
4.286E-18
2 . 942E-18
4.044E-18
3.198E-18
3.026E-18
2 . 853E-18
2.377E-18
6.634E-18
2.214E-17
7.783E-18
1.012E-17
6.266E-18
7.347E-18
6 . 430E-18
6.748E-18
6.739E-18
6.363E-18
7.131E-18
7.467E-18
7.501E-18
8 . 267E-18
8.425E-18
6 . 296E-18
6 . 218E-18
7.793E-18
1.057E-17
7.539E-18
9.760E-18
8.076E-18
7 . 454E-18
7.361E-18
6.210E-18
1.304E-17
2.988E-17
1.473E-17
1.853E-17
1.145E-17
1.334E-17
1 . 199E-17
1.229E-17
1.271E-17
1.251E-17
1.311E-17
1.392E-17
1.365E-17
1.492E-17
1.565E-17
1.193E-17
1 . 159E-17
1.477E-17
1.961E-17
1.352E-17
1.828E-17
1.495E-17
1.344E-17
1.346E-17
1.187E-17
1.676E-17
3.312E-17
1.953E-17
2.377E-17
1.567E-17
1.777E-17
1.626E-17
1.698E-17
1.674E-17
1.533E-17
1.714E-17
1.837E-17
1 . 821E-17
1 . 968E-17
2.081E-17
1 . 824E-17
1.531E-17
1.971E-17
2.589E-17
1.786E-17
2.257E-17
2.007E-17
1.757E-17
1.779E-17
1.627E-17
2.304E-17
3.680E-17
2.497E-17
2 . 914E-17
2.115E-17
2.263E-17
2.096E-17
2.176E-17
2.231E-17
2.233E-17
2.173E-17
2.338E-17
2.312E-17
2.514E-17
2.625E-17
1 . 992E-17
2.065E-17
2.537E-17
3.182E-17
2.333E-17
2.991E-17
2.307E-17
2.301E-17
2.517E-17
2.190E-17
2.991E-17
4.646E-17
3.418E-17
3.832E-17
2.711E-17
3.183E-17
3.077E-17
3.212E-17
3.160E-17
3.224E-17
3.203E-17
3.260E-17
3.211E-17
3.415E-17
3.580E-17
3.214E-17
3.023E-17
3.549E-17
4.137E-17
3.286E-17
3.916E-17
3.142E-17
3.174E-17
3.396E-17
3.062E-17
.201E+01 9.853E+00 4.309E+00 1.448E+00 5.094E-01 3.404E-01 2.665E-01 2.021E-01 1.419E-01 1.035E-01
. 261E-02 4 . 634E-02
-------
30
Table 11.11. Organ Dose (Gy per Bq s
from a Monoenergetic Plane Source 4.0 Mean Free Paths Deep
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
.067E-19 4.450E-19 9.894E-19 2.
.104E-20 1.852E-19 5.165E-19 1.
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
6.130E-25 5.375E-23 1.285E-21 1.408E-20 9.262E-20
1.115E-27 1.097E-24 1.458E-22 5.191E-21 6.172E-20
9.136E-25 2.489E-23 2.596E-22 7.072E-21 7.018E-20
1.737E-23 6.034E-23 3.691E-22 6.120E-21 6.708E-20
3.614E-25 1.260E-23 1.565E-22 5.455E-21 6.803E-20
.649E-19 6.661E-19 1.974E-18 3.388E-18 4.018E-18 4.719E-18 5.787E-18
.082E-19 5.609E-19 1.714E-18 3.050E-18 3.708E-18 4.350E-18 5.630E-18
.252E-19 5.965E-19 1.807E-18 3.172E-18 3.752E-18 4.389E-18 5.812E-18
.229E-19 5.878E-19 1.805E-18 3.251E-18 3.868E-18 4.528E-18 5.867E-18
.102E-19 5.770E-19 1.775E-18 3.064E-18 3.980E-18 5.004E-18 5.944E-18
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
.702E-18 3.069E-18 3.769E-18
.644E-18 2.991E-18 3.506E-18
.077E-18 3.765E-18 4.549E-18
.873E-18 5.091E-18 6.077E-18
.994E-18 3.479E-18 4.056E-18
.988E-18 5.802E-18
.249E-18 5.514E-18
.254E-18 6.605E-18
.738E-18 7.975E-18
.790E-18 6.321E-18
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
1.958E-21 2.207E-20 5.004E-20
2.494E-24 1.393E-22 2.418E-21
1.801E-23 4.068E-22 3.715E-21
3.916E-25 4.663E-23 1.385E-21
.711E-20 1.929E-19 4.282E-19 9.262E-19
.114E-20 1.099E-19 3.038E-19 7.500E-19
.249E-20 1.123E-19 3.064E-19 7.343E-19
.361E-20 9.084E-20 2.564E-19 6.538E-19
.613E-18 4.628E-18 5.916E-18 6.400E-18 7.654E-18
.151E-18 3.616E-18 4.255E-18 4.887E-18 6.610E-18
.003E-18 3.406E-18 4.038E-18 4.318E-18 5.556E-18
.944E-18 3.421E-18 4.156E-18 4.970E-18 6.272E-18
265E-25 5.808E-24 8.773E-23 4.027E-21 5.990E-20 2.021E-19 5.459E-19 1.684E-18 3.089E-18 3.721E-18 4.407E-18 5.825E-18
.201E+01 9.853E+00 4.309E+00 1.448E+00 5.094E-01 3.404E-01 2.665E-01 2.021E-01 1.419E-01 1.035E-01
.261E-02 4.634E-02
-------
31
Table 11.12. Organ Dose (Gy per Bq s nr3) from a Monoenergetic Source Uniformly Distributed to a Depth of 1 cm
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
8.506E-25
3.060E-23
6 . 026E-29
2.099E-22
2.133E-27
2 . 114E-25
6.754E-28
5.139E-27
5.872E-25
1.446E-25
5.276E-25
6.279E-25
1.074E-25
1.771E-25
1.175E-22
4 . 943E-24
6.734E-27
4.982E-24
7.546E-21
1 . 129E-26
7.714E-23
5.176E-25
7.722E-24
4.235E-25
4.186E-26
3.554E-23
2 . 189E-21
3.216E-25
6.149E-21
5.209E-25
3.719E-23
1.090E-24
2.426E-24
1.507E-23
1.065E-23
4.340E-23
9.143E-23
2.509E-23
3.482E-23
2.757E-21
7.537E-23
1.246E-24
3.791E-22
3.426E-20
7.296E-24
3.982E-21
7.710E-23
3.363E-22
5.153E-23
4.219E-24
5.007E-22
1 . 859E-20
1 . 874E-22
2.834E-20
2.602E-23
1.464E-21
2.062E-22
3.500E-22
2 . 718E-22
2.243E-22
9.939E-22
3 . 114E-21
1 . 199E-21
1.474E-21
1.272E-20
5.274E-22
5.045E-23
2.977E-21
7.091E-20
7.895E-22
2.289E-20
2.759E-21
5.117E-21
1.637E-21
1.114E-22
1.824E-20
1 . 758E-19
1.551E-20
1.137E-19
5.643E-21
2.717E-20
1.157E-20
1.559E-20
1 . 249E-20
1 . 450E-20
2.062E-20
3 . 944E-20
2.645E-20
3.315E-20
6.240E-20
7.337E-21
8.193E-21
2.534E-20
1 . 549E-19
2.481E-20
9.674E-20
3.807E-20
4 . 618E-20
2 . 660E-20
9.927E-21
1.284E-19
8.597E-19
1.500E-19
2.729E-19
9.559E-20
1 . 636E-19
1.217E-19
1.348E-19
1 . 264E-19
1 . 302E-19
1.514E-19
1 . 770E-19
1.669E-19
1.954E-19
2.090E-19
1 . 120E-19
1.123E-19
1.436E-19
2 . 977E-19
1 . 677E-19
2.503E-19
1 . 839E-19
1 . 975E-19
1.551E-19
1.156E-19
2.616E-19
1.367E-18
3 . 019E-19
4.104E-19
2.336E-19
3 . 136E-19
2.625E-19
2.822E-19
2.720E-19
2 . 676E-19
2.987E-19
3.168E-19
3.175E-19
3.550E-19
3.520E-19
2.564E-19
2.559E-19
2.929E-19
4 . 339E-19
3.195E-19
3.886E-19
3.386E-19
3 . 419E-19
3.002E-19
2.582E-19
4.636E-19
1.768E-18
5 . 074E-19
6.191E-19
4.229E-19
5 . 124E-19
4.566E-19
4.761E-19
4 . 682E-19
4 . 594E-19
4.977E-19
5 . 132E-19
5 . 179E-19
5.661E-19
5.579E-19
4.373E-19
4.497E-19
5.114E-19
6 . 549E-19
5 . 182E-19
6.062E-19
5.338E-19
5 . 413E-19
4.938E-19
4.540E-19
1.033E-18
2.513E-18
1 . 152E-18
1.327E-18
9.622E-19
1 . 101E-18
1.020E-18
1.056E-18
1 . 045E-18
1.033E-18
1.094E-18
1 . 123E-18
1 . 124E-18
1.209E-18
1.222E-18
9.973E-19
1.001E-18
1.178E-18
1 . 431E-18
1 . 139E-18
1.269E-18
1 . 115E-18
1 . 172E-18
1.095E-18
1.008E-18
2.782E-18
4 . 676E-18
3 . 034E-18
3.327E-18
2.610E-18
2 . 819E-18
2.687E-18
2.761E-18
2 . 746E-18
2.495E-18
2.857E-18
2 . 892E-18
2 . 877E-18
3.110E-18
3.148E-18
2 . 704E-18
2.613E-18
3.078E-18
3 . 650E-18
2 . 904E-18
3.245E-18
2 . 997E-18
3 . 211E-18
2.754E-18
2.651E-18
5.679E-18 1
8.222E-18 1
6 . 016E-18 1
6.409E-18 1
5.141E-18 1
5.673E-18 1
5.465E-18 1
5.536E-18 1
5.575E-18 1
5.762E-18 1
5.629E-18 1
5.771E-18 1
5 . 671E-18 1
6.090E-18 1
6.178E-18 1
5 . 580E-18 1
5.290E-18 1
6.120E-18 1
7 . 018E-18 1
5 . 621E-18 1
6.200E-18 1
5 . 694E-18 1
6.313E-18 1
5.496E-18 1
5.439E-18 1
.055E-17
.475E-17
.143E-17
.189E-17
.011E-17
.069E-17
.064E-17
.059E-17
.082E-17
.002E-17
.095E-17
. 089E-17
.092E-17
.151E-17
.166E-17
.074E-17
.031E-17
.173E-17
.293E-17
.073E-17
.188E-17
.099E-17
.131E-17
.076E-17
.030E-17
2.295E-17
3.220E-17
2.465E-17
2.568E-17
2.323E-17
2 . 422E-17
2.398E-17
2.415E-17
2 . 448E-17
2.293E-17
2.428E-17
2 . 450E-17
2 . 428E-17
2.545E-17
2.551E-17
2.520E-17
2.381E-17
2.615E-17
2.757E-17
2.482E-17
2.659E-17
2.405E-17
2.592E-17
2.491E-17
2.479E-17
.178E-18 1.168E-17 2.591E-17
.966E-18 1.135E-17 2.542E-17
859E-18 1.398E-17 2.881E-17
-------
32
Table 11.13. Organ Dose (Gy per Bq s nr3) from a Monoenergetic Source Uniformly Distributed to a Depth of 5 cm
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
8.506E-25
3.060E-23
6 . 026E-29
2.099E-22
2.133E-27
2 . 114E-25
6.754E-28
5.139E-27
5.872E-25
1.446E-25
5.276E-25
6.279E-25
1.074E-25
1.771E-25
1.175E-22
4 . 943E-24
6.734E-27
4.982E-24
7.546E-21
1 . 129E-26
7.714E-23
5.176E-25
7 . 722E-24
4.235E-25
4.186E-26
3.554E-23
2 . 189E-21
3.216E-25
6.149E-21
5.209E-25
3.719E-23
1.090E-24
2.426E-24
1.507E-23
1.065E-23
4.340E-23
9.143E-23
2.509E-23
3.482E-23
2.757E-21
7.537E-23
1.246E-24
3.791E-22
3.426E-20
7.296E-24
3.982E-21
7.710E-23
3 . 363E-22
5.153E-23
4.219E-24
5.007E-22
1 . 859E-20
1 . 874E-22
2.834E-20
2.602E-23
1.464E-21
2.062E-22
3.500E-22
2 . 718E-22
2.243E-22
9.939E-22
3 . 114E-21
1 . 199E-21
1.474E-21
1.272E-20
5.274E-22
5.045E-23
2.977E-21
7.091E-20
7.895E-22
2.289E-20
2.759E-21
5.117E-21
1.637E-21
1.114E-22
1.959E-20
1 . 906E-19
1 . 670E-20
1.259E-19
6.026E-21
2 . 926E-20
1.236E-20
1.667E-20
1.342E-20
1 . 544E-20
2.217E-20
4.261E-20
2 . 846E-20
3.569E-20
6.798E-20
7 . 841E-21
8.726E-21
2.751E-20
1 . 709E-19
2.665E-20
1.074E-19
4 . 116E-20
4.937E-20
2.863E-20
1.058E-20
2.084E-19
1 . 409E-18
2 . 458E-19
4.713E-19
1.528E-19
2 . 631E-19
1.921E-19
2.147E-19
2 . 013E-19
2 . 064E-19
2.435E-19
2 . 892E-19
2.695E-19
3.179E-19
3.456E-19
1.753E-19
1.774E-19
2.341E-19
5 . 089E-19
2 . 699E-19
4.276E-19
3.022E-19
3.181E-19
2.504E-19
1.823E-19
5.513E-19 1
2 . 944E-18 4
6.455E-19 1
9.178E-19 1
4.788E-19 1
6 . 572E-19 1
5.373E-19 1
5.779E-19 1
5 . 604E-19 1
5 . 609E-19 1
6.250E-19 1
6 . 688E-19 1
6 . 662E-19 1
7.516E-19 1
7.534E-19 1
5.163E-19 1
5.212E-19 1
6.161E-19 1
9 . 610E-19 1
6 . 710E-19 1
8.634E-19 1
7.267E-19 1
7.117E-19 1
6.233E-19 1
5.227E-19 1
.123E-18
. 616E-18
.285E-18
.623E-18
.034E-18
. 269E-18
.109E-18
.154E-18
. 140E-18
.105E-18
.231E-18
.283E-18
. 288E-18
.423E-18
.404E-18
. 069E-18
.092E-18
.268E-18
. 698E-18
. 284E-18
.562E-18
.338E-18
. 329E- 18
.224E-18
.087E-18
2.816E-18
7.568E-18
3 . 244E-18
3.840E-18
2.670E-18
3 . 050E-18
2.781E-18
2.867E-18
2.865E-18
2 . 809E-18
3.023E-18
3 . 126E-18
3.115E-18
3.384E-18
3.411E-18
2 . 786E-18
2.744E-18
3.265E-18
4 . 079E-18
3 . 142E-18
3.691E-18
3 . 199E-18
3.185E-18
3.019E-18
2.729E-18
7.613E-18
1 . 404E-17
8 . 717E-18
9.800E-18
7.444E-18
7.936E-18
7.446E-18
7.663E-18
7.703E-18
7 . 258E-18
7.919E-18
8 . 229E-18
8.137E-18
8.851E-18
8.936E-18
7.264E-18
7.322E-18
8.717E-18
1.053E-17
8 . 199E-18
9.551E-18
8 . 459E-18
8.428E-18
7.792E-18
7.380E-18
1.564E-17
2.433E-17
1.751E-17
1.893E-17
1.480E-17
1.624E-17
1.533E-17
1.564E-17
1.563E-17
1.578E-17
1.607E-17
1.621E-17
1 . 619E-17
1.754E-17
1.767E-17
1.560E-17
1.468E-17
1.754E-17
2 . 040E-17
1 . 638E-17
1.845E-17
1.686E-17
1.662E-17
1.591E-17
1.538E-17
3.165E-17
4.370E-17
3.425E-17
3.575E-17
3.020E-17
3.133E-17
3.056E-17
3.073E-17
3.116E-17
2.891E-17
3.142E-17
3.221E-17
3.184E-17
3.390E-17
3.393E-17
3.137E-17
3.016E-17
3.435E-17
3.806E-17
3.190E-17
3.512E-17
3.267E-17
3.244E-17
3.160E-17
2.953E-17
6.471E-17
9.566E-17
7.588E-17
7.751E-17
6.876E-17
7.255E-17
7.036E-17
7.056E-17
7.247E-17
7.274E-17
7.218E-17
7.319E-17
7.202E-17
7.636E-17
7.515E-17
7.113E-17
6.868E-17
7.763E-17
8.173E-17
7.331E-17
8.037E-17
7 . 419E-17
7.861E-17
7.134E-17
7.123E-17
-------
33
Table 11.14. Organ Dose (Gy per Bq s rcr3) from a Monoenergetic Source Uniformly Distributed to a Depth of 15 cm
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
8.506E-25 3.554E-23
3.060E-23 2.189E-21
6.026E-29 3.216E-25
2.099E-22 6.149E-21
2.133E-27 5.209E-25
.485E-17 5.172E-17 1.120E-16
.008E-17 7.427E-17 1.696E-16
.779E-17 5.710E-17 1.350E-16
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
342E-20
544E-20
217E-20
261E-20
846E-20
2.063E-19
2 . 112E-19
2.495E-19
2 . 967E-19
2.763E-19
6.252E-19 1
6.251E-19 1
6.980E-19 1
7.503E-19 1
7.455E-19 1
. 421E-18
. 378E-18
.540E-18
. 614E-18
. 615E-18
4 . 066E-18 1
3.952E-18 1
4.291E-18 1
4.457E-18 1
4.445E-18 1
.168E-17
.103E-17
.200E-17
.261E-17
. 241E-17
1.771E-25 3.482E-23 1.474E-21 3.569E-20 3.261E-19 8.427E-19 1.
1.175E-22 2.757E-21 1.272E-20 6.798E-20 3.552E-19 8.480E-19 1.
.547E-17 5.179E-17 1.285E-16
.401E-17 5.022E-17 1.230E-16
.452E-17 5.072E-17 1.232E-16
.457E-17 5.117E-17 1.267E-16
.513E-17 4.879E-17 1.326E-16
.529E-17 5.157E-17 1.255E-16
.563E-17 5.348E-17 1.283E-16
.567E-17 5.271E-17 1.262E-16
.786E-17 5.637E-17 1.341E-16
.825E-17 5.674E-17 1.324E-16
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
.408E-17 5.050E-17 1.177E-16
.306E-17 4.975E-17 1.192E-16
.784E-17 5.711E-17 1.365E-16
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
.005E-18 5.386E-18 1.501E-17
.694E-18 4.627E-18 1.294E-17
.669E-18 4.522E-18 1.267E-17
.999E-17 6.009E-17 1.417E-16
.701E-17 5.349E-17 1.337E-16
.601E-17 5.386E-17 1.342E-16
.541E-17 5.203E-17 1.262E-16
.389E-17 4.904E-17 1.226E-16
.883E-17 5.800E-17 1.375E-16
.738E-17 5.564E-17 1.334E-16
.837E-17 7.217E-17 1.559E-16
-------
34
Table 11.15. Organ Dose (Gy per Bq s nr3) from a Monoenergetic Source Uniformly Distributed to an Infinite Depth
Organ/Tissue
ADRENALS
B SURFACE
BRAIN
BREASTS
ESOPHAGUS
ST WALL
SI WALL
ULI WALL
LLI WALL
G BLADDER
HEART
KIDNEYS
LIVER
LUNGS
MUSCLE
OVARIES
PANCREAS
R MARROW
SKIN
SPLEEN
TESTES
THYMUS
THYROID
U BLADDER
UTERUS
8.506E-25
3.060E-23
6.026E-29
2.099E-22
2.133E-27
2.114E-25
6.754E-28
5.139E-27
5.872E-25
1.446E-25
5.276E-25
6.279E-25
1.074E-25
1.771E-25
1.175E-22
4.943E-24
6.734E-27
4 . 982E-24
7.546E-21
1.129E-26
7.714E-23
5.176E-25
7.722E-24
4.235E-25
4 . 186E-26
3.554E-23
2 . 189E-21
3.216E-25
6.149E-21
5.209E-25
3.719E-23
1.090E-24
2 . 426E-24
1.507E-23
1.065E-23
4.340E-23
9.143E-23
2.509E-23
3.482E-23
2.757E-21
7.537E-23
1.246E-24
3.791E-22
3.426E-20
7.296E-24
3.982E-21
7.710E-23
3.363E-22
5.153E-23
4 . 219E-24
5.007E-22
1 . 859E-20
1.874E-22
2.834E-20
2.602E-23
1.464E-21
2.062E-22
3.500E-22
2 . 718E-22
2.243E-22
9.939E-22
3 . 114E-21
1.199E-21
1.474E-21
1 . 272E-20
5.274E-22
5.045E-23
2 . 977E-21
7.091E-20
7.895E-22
2 . 289E-20
2 . 759E-21
5.117E-21
1.637E-21
1 . 114E-22
1 . 959E-20
1 . 906E-19
1.670E-20
1.259E-19
6.026E-21
2.926E-20
1.236E-20
1.667E-20
1 . 342E-20
1.544E-20
2 . 217E-20
4.261E-20
2.846E-20
3.569E-20
6.798E-20
7.841E-21
8.726E-21
2.751E-20
1 . 709E-19
2.665E-20
1 . 074E-19
4 . 116E-20
4.937E-20
2.863E-20
1 . 058E-20
2.137E-19
1 . 447E-18
2.522E-19
4.861E-19
1.564E-19
2.698E-19
1.966E-19
2 . 199E-19
2.063E-19
2.112E-19
2 . 495E-19
2.967E-19
2.763E-19
3.261E-19
3.552E-19
1.791E-19
1.815E-19
2 . 402E-19
5.247E-19
2.768E-19
4 . 411E-19
3.103E-19
3.262E-19
2.570E-19
1 . 867E-19
6 . 185E-19
3.317E-18
7.239E-19
1.044E-18
5.331E-19
7.347E-19
5.977E-19
6 . 435E-19
6 . 252E-19
6.251E-19
6 . 980E-19
7.503E-19
7.455E-19
8.427E-19
8 . 480E-19
5.731E-19
5.795E-19
6 . 898E-19
1 . 092E-18
7.505E-19
9 . 841E-19
8 . 146E-19
7.968E-19
6.965E-19
5 . 814E-19
1 . 408E-18
5 . 913E-18
1.620E-18
2.079E-18
1 . 285E-18
1.590E-18
1.380E-18
1 . 441E-18
1 . 421E-18
1.378E-18
1 . 540E-18
1 . 614E-18
1.615E-18
1.792E-18
1 . 776E-18
1.326E-18
1.357E-18
1 . 589E-18
2 . 175E-18
1.614E-18
2 . 005E-18
1 . 694E-18
1.669E-18
1.542E-18
1 . 352E-18
4 . 141E-18
1 . 182E-17
4.786E-18
5.809E-18
3 . 913E-18
4.497E-18
4.060E-18
4 . 196E-18
4 . 201E-18
4.082E-18
4 . 434E-18
4 . 607E-18
4.595E-18
5.013E-18
5 . 068E-18
4.064E-18
3.991E-18
4 . 807E-18
6 . 141E-18
4.628E-18
5.582E-18
4 . 789E-18
4.672E-18
4.470E-18
3.977E-18
1.267E-17
2.531E-17
1.461E-17
1.703E-17
1 . 209E-17
1.329E-17
1.229E-17
1.263E-17
1.280E-17
1.213E-17
1.316E-17
1.384E-17
1.361E-17
1.484E-17
1.513E-17
1.206E-17
1.204E-17
1.463E-17
1.817E-17
1.366E-17
1.663E-17
1.425E-17
1.385E-17
1.311E-17
1.217E-17
2 . 876E-17
4.757E-17
3.226E-17
3.601E-17
2.702E-17
2.952E-17
2.774E-17
2 . 839E-17
2 . 842E-17
2.880E-17
2.923E-17
2 . 982E-17
2.983E-17
3.237E-17
3.299E-17
2.811E-17
2.660E-17
3.235E-17
3.890E-17
2.998E-17
3.518E-17
3.155E-17
3.006E-17
2.950E-17
2.760E-17
6.452E-17
9 . 511E-17
7.161E-17
7.698E-17
6.193E-17
6.480E-17
6.249E-17
6.333E-17
6.393E-17
6.189E-17
6.430E-17
6.694E-17
6.604E-17
7.083E-17
7.176E-17
6.205E-17
6.184E-17
7.175E-17
8 . 224E-17
6.681E-17
7.718E-17
6 . 654E-17
6.755E-17
6.564E-17
6.170E-17
1 . 622E-16
2 . 447E-16
1.916E-16
2.000E-16
1.663E-16
1.818E-16
1.739E-16
1.750E-16
1 . 786E-16
1.862E-16
1 . 771E-16
1 . 811E-16
1.793E-16
1.902E-16
1 . 900E-16
1.630E-16
1.694E-16
1 . 949E-16
2 . 111E-16
1.830E-16
1 . 997E-16
1 . 884E-16
1.827E-16
1.806E-16
1.726E-16
-------
35
Discussion
In this section we compare our results for effective dose equivalent to published results
of other researchers. Unless specifically stated otherwise, all values of effective dose equivalent
discussed in this section are normalized to air kerma free in air, at a distance of one meter above
the air-ground interface, or to water kerma free in water within an infinite pool.
Effective dose equivalent, as a function of energy, is shown in Fig. II.9 for an isotropic
plane source at the air-ground interface, for submersion in a semi-infinite cloud source, and for
immersion in an infinite water pool, as calculated for this report. In previous calculations
performed at ORNL (DOE, 1988; Kocher, 1981, 1983; Kocher and Sjoreen, 1985), normalized
organ doses for a plane surface source and for water immersion were assumed to be those for
submersion in a semi-infinite cloud. Values of effective dose equivalent for a plane isotropic
surface source and for water immersion are compared to those for submersion in Fig. II. 10. For
water immersion, the differences are small (less than 10 percent), and are due solely to
differences in the photon spectra in water and air (see Figs. II.3 and II.4). However, the
differences for a plane surface source can be as large as 33 percent, and illustrate one of the
primary reasons that new calculations were performed.
Effective dose equivalent for submersion in a semi-infinite cloud source, from Table II.4,
is compared to that from Zankl et al. (1992) at the Gesellschaft fur Strahlen- und
Umweltforschung (GSF), in Figs. II. 11 and 11.12. Comparisons for an infinite plane isotropic
source at an effective depth of 0.5 g cm"2 are shown in Figs. 11.13 and 11.14. The values for the
upper curve were derived by interpolation, using a log-linear Hermite cubic spline fit to the data
of Tables II.6 to II. 11. The different values are traceable to differences in the adult
hermaphrodite phantom used in this work and the gender-specific phantoms used at GSF, and
will be explained in detail later.
Effective dose equivalent for an infinite plane isotropic source at the air-ground interface
is shown in Fig. II. 15, as derived by two different procedures. The lower curve in Fig. II. 15
shows values from Table II.6. The upper curve represents values derived using fluence-to-dose
equivalent conversion factors for rotational normal beam exposure (ROT) computed for the adult
hermaphrodite phantom of Cristy (Cristy and Eckerman, 1987), which was used throughout this
work. The two curves illustrate the difference due to assuming all photons are normally incident
(upper curve), as compared to using the actual angular distribution of photons on the body (lower
curve). The differences in effective dose equivalent for plane isotropic sources at the surface and
at depths of one and four mean free paths are shown in Fig. II. 16. It can be seen that the
differences between the values for rotational exposure and those for the actual field are
significant, and increase with increasing source depth.
-------
36
1.0
0.8
£°,
0.4
0.2
0.0
• Surface
E Submersion
o Immersion
10-2 10-1 10° 10'
Photon Energy (MeV)
Fig. II.9. Normalized effective dose equivalent for an isotropic
plane surface source, submersion in a semi-infinite cloud, and
immersion in an infinite water pool (this work).
1.4
1.3
5 1.2
LU
_C
M—
O 1.1
O
0.9
0.8
• Surface/
Submersion
O Immersion/
Submersion
1C'2 1C'1 10° 10'
Photon Energy (MeV)
Fig. 11.10. Comparison of normalized effective dose equivalent
for an isotropic plane surface source and for water immersion to
that for submersion (this work).
-------
37
1.0
c/^
cc
0.6
0.4
0.2
0.0 L"
10-2
• This work
o Zankl et al.
10-1 10° 101
Photon Energy (MeV)
Fig. II. 11. Effective dose equivalent for submersion normalized
to air kerma 1 m above the air-ground interface.
N
cvf
tr
o
1.4
1.3
1.2
1.1
1.0
0.9
102 101 10° 101
Photon Energy (MeV)
Fig. 11.12. Comparison of normalized effective dose equivalent
for submersion from this work (FGR 12) to that of Zankl et al.
(1992).
-------
38
1.0
0.8
0.6
_< 0.4
0.2
• This work
o Zankl et al.
0.0 Ui±
10-2 10-1 10° 101
Photon Energy (MeV)
Fig. II. 13. Effective dose equivalent normalized to air kerma 1
m above the air-ground interface for an infinite plane source 0.5
g cm"2 deep.
1.5
1.4
"ro
0) 1.3
12
c
05 -i n
N 1'2
oT
QC 1.1
o
LL
1.0
0.9 ^
10-2
10-1 10° 101
Photon Energy (MeV)
Fig. 11.14. Comparison of normalized effective dose equivalent
from this work to that of Zankl et al. (1992) for an infinite plane
source 0.5 g cm"2 deep.
-------
39
o.o
10'
10-1 10°
Photon Energy (MeV)
Fig. II. 15. Effective dose equivalent normalized to air kerma 1
m above the air-ground interface for an infinite plane source at
the interface.
1.4
1.3
O HO
a ' •*•
1.1
1.0
0.9
Surface
1.0 mfp
Deep
4.0 mfp
Deep
10-2 10-1 10° 101 102
Photon Energy (MeV)
Fig. II. 16. Ratio of effective dose equivalent for rotational
exposure to that for the actual field.
-------
40
Effective dose equivalent for a plane isotropic source at the air-ground interface is
compared to Chen (1991) in Fig. II. 17. Chen used the rotational fluence-to-effective dose
equivalent conversion factors from ICRP Publication 51 (ICRP, 1987) to compute dose
equivalent for exposure to contaminated soil. Effective dose equivalent computed from the
photon spectra of this work, using the same ICRP 51 rotational conversion factors as Chen, is
seen to be in excellent agreement with his values. Figure II. 18 shows the difference between the
values from Table II.6 and the values based on rotational exposure of Fig. II. 15, as compared to
Chen's values. Effective dose equivalent for the adult Cristy phantom is compared to the ICRP
Publication 51 data (ICRP, 1987) in Figs. 11.19 and 11.20. The ICRP 51 data were computed at
GSF (Williams et al., 1985). A comparison of individual organ dose equivalent conversion
factors which contribute to the effective dose equivalent differences are shown in Table 11.16.
The differences seen in Figs. II. 19 and 11.20 are due to the same factors that contribute to
the differences seen in Figs. II. 11 to II. 14. The organ dose coefficients computed here use the 73
kg hermaphrodite phantom of Cristy (Cristy and Eckerman, 1987). At GSF, organ dose
coefficients were computed separately for adult male and female phantoms (Williams et al.,
1985; Zankl et al., 1992). Prior to calculating effective dose equivalent coefficients, the organ
dose coefficients for the male and female phantoms were averaged, and the ICRP 26 weighting
factors were applied to the arithmetic mean of the male and female organ dose coefficients. The
GSF 59 kg female phantom is smaller than the 70 kg male phantom. The female has a height of
160 cm, a body width of 37.6 cm, and a body depth of 18.7 cm, as compared to 170 cm, 40 cm,
and 20 cm, respectively, for the male phantom (Saito et al., 1990). Therefore, organ dose
coefficients will tend to be greater for internal organs of the female phantom, since there is less
shielding from photons incident on the body surface, and the gender-averaged coefficients used
in computing the effective dose equivalent will be higher than those derived from the
hermaphrodite phantom, all other factors being equal. The dose equivalent for remainder in the
male and female from Williams et al. (1985) in Table II. 16 illustrate the tendency for female
organ doses to be higher for deeply-seated internal organs. The differences in doses to other
organs do not always exhibit this tendency because they are more directly affected by gender
differences (e.g., ovaries versus testes) or are more distributed in nature (e.g., red marrow and
bone surfaces). Comparison of organ doses between the hermaphrodite phantom of this work
and the GSF phantoms shows that competing factors contribute to the differences in effective
dose equivalents. The doses to red marrow, bone surface, and thyroid are consistently higher in
the hermaphrodite phantom. The differences in red marrow and bone surface doses are due
to different methods of estimating those doses. In the hermaphrodite phantom,
-------
41
1.0
0.0 u
10-1 10° 101
Photon Energy (MeV)
Fig. II. 17. Effective dose equivalent, normalized to air kerma 1
m above the air-ground interface, for an infinite plane source at
the interface, compared to Chen (1991).
c
CD
_c
O
1.4
1.3
1.2
1.1
1-°
0.9
°-8
0.7
0.6
0.5
0.4
Table II.6
° Rotational
(ORNL ROT)
10-2 10-1 10° 101
Photon Energy (MeV)
Fig. 11.18. Ratio of normalized effective dose equivalent from
Fig. 11.15 to that of Chen (1991) from Fig. 11.17 for an infinite
plane source at the air-ground interface.
-------
42
• This work
O ICRP 51
10--
10-1 10° 101
Photon Energy (MeV)
Fig. II. 19. Effective dose equivalent normalized to air kerma for
rotational normal beam exposure.
1.4
1.2
1.0
I 0.8
0.6
0.4 L^J
10-2 10-1 10° 101
Photon Energy (MeV)
Fig. 11.20. Ratio of effective dose equivalent for
rotational exposure from this report (FGR 12) to that
from ICRP Publication 51.
-------
43
Table II. 16. Organ Dose Equivalent Conversion Factors for Rotational Exposure (pSv cm2)
Organ
Gonads
Breasts
R Marrow
Lungs
Thyroid
B Surface
Remainder
hE
-'-'photon
(MeV)
0.015
0.05
0.1
0.5
1.0
0.015
0.05
0.1
0.5
1.0
0.015
0.05
0.1
0.5
1.0
0.015
0.05
0.1
0.5
1.0
0.015
0.05
0.1
0.5
1.0
0.015
0.05
0.1
0.5
1.0
0.015
0.05
0.1
0.5
0.1
0.015
0.05
0.1
0.5
1.0
This Work
Hermaphrodite
0.105
0.226
0.335
1.866
3.431
0.214
0.255
0.345
1.981
3.837
0.021
0.170
0.341
1.971
3.838
0.003
0.236
0.365
2.003
3.863
0.086
0.323
0.465
2.485
4.924
0.117
0.952
0.935
2.550
4.676
0.025
0.212
0.344
1.952
3.750
0.075
0.245
0.366
1.977
3.771
Williams et al. (1985)
Male
0.140
0.207
0.341
1.913
3.733
-
-
-
-
-
0.011
0.151
0.324
1.907
3.682
0.007
0.238
0.375
2.057
3.928
0.072
0.281
0.443
2.251
4.282
0.090
0.562
0.580
2.019
3.764
0.011
0.211
0.350
1.967
3.754
Female
0.000
0.174
0.335
1.812
3.518
0.287
0.243
0.344
1.940
3.718
0.011
0.151
0.336
1.916
3.682
0.007
0.248
0.368
1.995
3.856
0.072
0.281
0.443
2.251
4.282
0.090
0.601
0.607
2.019
3.764
0.011
0.224
0.357
2.016
3.831
Average
0.070
0.191
0.338
1.862
3.626
0.287
0.243
0.344
1.940
3.718
0.011
0.151
0.330
1.911
3.682
0.007
0.243
0.372
2.026
3.892
0.072
0.281
0.443
2.251
4.282
0.090
0.582
0.594
2.019
3.764
0.011
0.217
0.353
1.992
3.792
0.071
0.222
0.357
1.955
3.752
-------
44
fluence-to-dose conversion factors (Cristy and Eckerman, 1987) which take into account the
heterogeneity of the marrow and endosteal tissue structures are used to estimate doses. In the GSF
calculations, the marrow dose is estimated by a mass-weighted partitioning of the dose to skeleton,
with a correction for the difference in energy absorption coefficients between skeleton and marrow,
and the skeletal dose is taken as a surrogate for bone surface dose. The thyroid doses in the
hermaphrodite phantom are higher because the neck region, modified for this work, provides less
shielding than the neck region of the GSF phantoms. There are also differences in doses to the
remainder organs. The reasons for these differences are difficult to quantify, since data for all the
organs which contribute to the remainder have not been published by GSF. However, one difference
may be that in this work, "remaining tissue" was used as a surrogate for muscle, and was included in
the list of organs which can contribute to the remainder. It appears that muscle was not included in
the list for the GSF calculations. In using the hermaphrodite phantom for internal emitters, it has been
the practice to assign the gonadal tissue the higher dose of either the testes or the ovaries. We have
continued that practice here; which, for external radiation, means the dose to testes is used, since it is
always higher than the dose to ovaries. Since the gonadal dose has a high weighting factor (0.25), it
has a large influence on effective dose equivalent. The combination of the competing effects is clearly
illustrated in Fig. 11.20. At higher photon energies (above 100 keV), photons are relatively penetrating,
so the dose to the ovaries, in the female, is not much lower than the dose to the testes, in the male, and
the lower gonadal average dose is compensated for by the increase in average dose to other organs.
In the energy range from 100 keV down to 15 keV, the ovaries receive significantly more shielding
than the testes, and the lower gonadal dose more than compensates for the increase in average dose to
other organs, resulting in a noticeably lower effective dose equivalent than is computed for the
hermaphrodite phantom. Finally, at the lowest energy (10 keV), the shielding of the testes in the male
phantom increases significantly, and the difference in dose between the male and female phantoms is
again not as large. At 10 keV, the average doses to other organs of the male and female phantoms now
dominate the effective dose equivalent, and are larger than those for the hermaphrodite phantom.
Therefore, the effective dose equivalent for the hermaphrodite phantom at 10 keV is lower than that
for the average of the GSF phantoms.
The effective dose equivalent for exposure to an infinite volume source in the soil is compared
to the work of Chen (1991) in Fig. 11.21. Since Chen used the ICRP 51 rotational fluence-to-dose
equivalent conversion factors, the differences in the phantoms discussed above also explain part of the
differences shown in this figure. In addition, there is some difference attributable to the use of
rotational exposure factors instead of the actual angular distributions
-------
45
1.0
Photon Energy (MeV)
Fig. 11.21. Effective dose equivalent normalized to air kerma 1
m above the air-ground interface, from an infinitely thick
uniformly distributed soil source.
used in this work, as shown in Fig. II. 15. However, when the dose equivalent is not normalized to
air kerma, there remain significant differences between the results of this work and those of Chen.
It has been determined that these differences, which are present for all volumetric sources in the soil,
are due to use of different soil compositions. The effect of soil composition was investigated by
computing air kerma 1 m above the air-ground interface for a series of uniformly distributed,
isotropic, 10 cm thick volume sources at the air-ground interface, for slabs of varying soil
compositions. The calculations were performed for the 12 source energies used for the
monoenergetic environmental photon sources, using a one-dimensional Monte Carlo transport code
based on the ALGAMP transport routines (Ryman and Eckerman, 1993). The soils used in the
calculations were (a) a dry sandy soil similar in composition to Nevada Test Site soil (Garrett, 1968),
(b) the typical silty soil used in this work, (c) a soil composed of the average components of the
earth's crust (Chen, 1991), and (c) Nipe clay soil, a ferruginous laterite soil with a high concentration
of iron (Lawton, 1955). The volume fractions of air and water in the Nipe clay were assumed to be
0.2 and 0.3, respectively. All soils were assumed to have a density of 1.6 x 103 kg m"3. The
compositions of the soils are given in Table II. 17. The air composition is given in Table II.2, and
is the same used throughout this work.
-------
46
Table II. 17. Soil Compositions
Element
Dry Sandy Soil
H 0.0124
C
N
O 0.5236
Na
Mg
Al 0.0782
Si 0.3858
P
S
Ar
K
Ca
Ti
Mn
Fe
Mass
Earth's Crust
0.4658
0.0275
0.0208
0.0806
0.2925
0.0258
0.0364
0.0506
Fraction
Nipe Clay
0.02109
0.001628
0.0002483
0.4510
0.0002013
0.001472
0.07037
0.03382
0.0001579
0.0008694
0.000001922
0.002650
0.003958
0.007636
0.4049
Silty Soil
0.021
0.016
0.577
0.050
0.271
0.013
0.041
0.011
Total
1.0000
1.0000
1.00000
1.000
In the Monte Carlo calculations, the thickness of the air above the interface was three
mean free paths (at the source energy). The soil depth was the greater of one mean free path
beneath the 10 cm slab source or three mean free paths plus 5 cm.
The effect of soil composition is shown in Fig. 11.22, which shows air kerma 1 m above
the 10 cm slab source, normalized to the air kerma 1 m above typical silty soil. It is seen that the
air kerma at low energies is strongly influenced by the composition, with lighter soil (in terms of
average atomic number) producing a greater kerma, and heavier soils resulting in a lower
kerma. The curve for earth's crust explains the remaining differences between the
-------
47
1.4
1.2
.0 1.0
"5
QC
<1> 0.6
!_
< 0.4
0.2
0.0
oii = 1.6 g crrr
• Dry Sandy
Soil
° Earth's
Crust
+ NIPEClay
10-2 10-1 10°
Photon Energy (MeV)
Fig. 11.22. Ratio of air kerma 1 m above 10 cm thick sources in
soils of varying composition to that above the typical silty soil
used in this report.
results of this work and those of Chen (1991). The shape of the curves is explained by Fig. 11.23,
which gives the ratio of the linear attenuation coefficient for silty soil to that of the other soils.
Although not shown, the ratios of the uncollided contribution to the kermas of Fig. 11.22 lie exactly
on the curves of Fig. 11.23.
In summary, the discussion above illustrates the sensitivity of the dose coefficients to certain
features of the computational models. For example, the coefficients at lower photon energies are
sensitive to the elemental composition of the soil. Differences in the treatment of energy deposition
in red marrow and bone surface are evident in the coefficients for those radiosensitive tissues of the
skeleton. The effective dose equivalent coefficient is sensitive, again at the lower photon energies,
to the choice of an anatomical model; i.e., to the use of a hermaphrodite phantom versus the
averaging of doses from gender-specific phantoms. For the purpose of establishing dose coefficients
for use in radiation protection, the choice of an anatomical model appears to be more of a public
policy than a technical issue. We have continued the traditional use of a hermaphrodite phantom,
as specified in current Federal guidance for workers (EPA, 1987).
-------
48
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0.0
p,.oii = 1.6 g cm'''
-I—-«g
• Dry Sandy
Soil
O Earth's
Crust
+ NIPE Clay
10-2 10-1 10°
Photon Energy (MeV)
Fig. 11.23. Ratio of linear attenuation coefficient for the typical
silty soil used in this report to that of other soils.
Many of the features of the computational models interact in a complex manner, making
an a priori assessment of their contributions to the dose coefficients difficult to assess. The
analyses of the computational models used to produce this report have been sufficiently detailed
to account, we believe, for the dependence of the dose coefficients on all significant features
of the models. The resulting tabulations of coefficients reflect the current state of the art in
environmental dosimetric calculations.
Skin doses from monoenergetic environmental electron sources
In this section we discuss the calculation of the skin dose from electrons for air
submersion, water immersion, and ground-surface and volume exposures. The contribution of
electrons to dose to organs and tissues of the body 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 are 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 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
-------
49
emissions of radionuclides tabulated in ICRP Publication 38 (ICRP, 1983; Eckerman et al.,
1993). The discussion of the computational details, presented below, is taken from that of
Kocher (DOE, 1988).
Immersion in contaminated water
For immersion in an infinite, uniformly contaminated water medium, the skin dose
coefficient at a depth of 70 (im, for a unit concentration of a monoenergetic electron emitter of
energy E, can be expressed as
sm , dD
Pw
where 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 Gskin is a geometrical
reduction factor defined as the ratio of the absorbed dose at the depth of interest into a semi-
infinite tissue medium to the absorbed dose in the contaminated water for the energy E. The
1 dp
energy-absorption ratio Rw is obtained from the mass stopping powers, in tissue (t) and
p dx
water (w) as
R"=(LM\ l(L^\ . (12)
V p dx) t ( p dx) w
Since the stopping powers in tissue and water are nearly independent of energy, the ratio in
Eq. (12) is evaluated at the emitted energy. The mass stopping powers in tissue and water used
in the DOSFACTER code were those reported in National Academy of Sciences-National
Research Council Publication 113 (NAS, 1964).
The geometrical reduction factor Gskin relates the dose to skin (at a depth of 70 (am) 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, Gskin 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
-------
50
and is given by the empirical formula (Berger, 1974)
q(x,E) = 1 - q^E) q2(xla) ,
(13)
where x is the depth of interest, here taken as 70 pm, and the parameter a depends only on the
emitted energy E. Values of q,, a, and q2 used in the DOSFACTER code were those given by
Berger (1974). The DOSFACTER code was used to tabulate the dose coefficient for the skin,
hskin (dose per unit volume source), in water. The results are shown graphically in Fig. 11.24.
cr
CD
i_
CD
Q.
U)
Q.
10
10-9
10-1 10° 101
Electron Energy (MeV)
Fig. 11.24. Electron skin dose coefficient for immersion
in contaminated water.
Submersion in contaminated air.
For an exposed individual standing at the boundary of a semi-infinite, uniformly
contaminated atmospheric cloud, we assume that the electron range in air is less than the
average height of the body, which is taken to be 1 m. Therefore, the source region is assumed
to be effectively infinite in extent, and the electron dose coefficient at the depth of interest into
-------
51
tissue (70 (im) is given in terms of the geometrical reduction factor Gskin for immersion in
contaminated water, noted above, as (Berger, 1974)
- —
Pa «
(14)
where pa is the density of air, Ra/ais the ratio of energy absorption in tissue to that in air at the
emitted energy E, and the leakage correction factor q and the geometrical reduction factor Gskin
are as discussed above.
The energy-absorption rate R"/a consists of two factors. The first factor is the ratio of
the mass stopping powers in tissue and air (NAS, 1964):
. M\ (15)
V p dx) t ( p dx) a
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
coefficients for skin calculated using the DOSFACTER code for submersion are shown in
Fig. 11.25.
cr
CD
CD
Q.
U)
Q.
10-1 10° 101
Electron Energy (MeV)
Fig. 11.25. Electron skin dose coefficient for submersion in
contaminated air.
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52
Exposure to contaminated soil
The geometrical reduction factor Gskin identified above cannot be used to calculate skin
dose coefficients for exposure to contaminated soil, since it applies only to the situation where
the source region occupies one half-space and tissue the other. Therefore, the coefficients for
exposure to contaminated ground must be obtained by explicit consideration of the radiation
transport.
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 by
Z< =
1.14 l
Pa
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, 1964).
The electron dos
Eq. (16) then is given by
The electron dose coefficient for skin at the height z in air above ground defined by
= -^ER" f V(
2 Jo
where R" is the ratio of mass stopping powers in tissue and air evaluated at the emitted energy
E, a denotes the ground surface, & 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 1/2 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.
The DOSFACTER code evaluates Eq. (17) 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/ro,E) d(rlro) = 4np®(r,E) r2 dr , (18)
where r0 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.
The DOSFACTER code uses the scaled point kernels in water, Fw, given by Berger
-------
53
(1973). The scaled point kernels in air, F", are obtained from those for water according to
Berger(1974)as
(19)
Fa(r/ro,E) = a'Fw(a'r/roa,E) ,
where a' is a scaling parameter that depends on the energy E. By expressing Eq. (17) in terms
of the scaled point kernel in air, the electron dose coefficient for skin is
(20)
where M is the scaled distance r/r0a.
The above formulations, as implemented in the DOSFACTER code, 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. (16) 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 and the
results for a source distributed in the volume was then 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 Fig. 11.26.
cr
CD
i_
CD
Q.
U)
Q.
Surface
(n = 2)
co volume
(n = 3)
10°
Electron Energy (MeV)
Fig. 11.26. Electron skin dose coefficients for exposure to
contaminated soil.
-------
54
Dose coefficient formulation for radionuclides
The energies and intensities of the radiations emitted in spontaneous nuclear
transformations of radionuclides have been reported in Publication 38 of the International
Commission on Radiological Protection (ICRP, 1983). That publication, a report of the Task
Group on Dose Calculations of ICRP Committee 2, was assembled at ORNL during the
preparation of ICRP Publication 30 (ICRP, 1979). The nuclear decay data of Publication 38
are based on the Evaluated Nuclear Structure Data Files (ENSDF) (Ewbank and Schmorak,
1978) of the Department of Energy's Nuclear Data Project as processed by the EDISTR code
(Dillman, 1980). The processed data files retained in the ICRP/ORNL dosimetric data base
(Eckerman et al., 1993) include not only the full tabulations of the energies (average or unique)
and intensities of the radiations, but also the beta spectra. The dose coefficients presented here
are based on these data.
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 (from the German word
for braking radiation). Bremsstrahlung energy is distributed from zero up to the initial electron
energy. Although the bremsstrahlung yield is rather small (only about 0.2% for a 1.0 MeV
electron in air), for pure beta emitters it can be the only source of radiations that are sufficiently
penetrating to irradiate deeper-lying radiosensitive tissues. Appendix C discusses the manner
in which the bremsstrahlung spectra were evaluated in this work.
Only photons, including bremsstrahlung, and electrons emitted by the radionuclides are
sufficiently penetrating to contribute to the dose to tissues and organs of the body. The energy
spectra of emitted radiations are either (1) discrete, as in the case of gamma emissions, or
(2) continuous, as in the case of beta particles and bremsstrahlung. The beta spectra, from the
ICRP/ORNL dosimetric data file, are used here to evaluate the contribution of the beta particles
to the skin dose and to determine the yield of bremsstrahlung.
The dose coefficient h? for tissue T for any exposure mode S can be expressed as
f = E X yjW ^(E,) + [" yj(E) h^.(E) dE
j= e, Y
(21)
where yj(Et) is the yield of discrete radiations of type j and energy Et, andyj(E) denotes the
yield of continuous radiations per nuclear transformation with energy between E and E + dE.
The other summation is over all electron and photon radiations. Note that 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
-------
55
quantity hT (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, these data are
tabulated for 25 target tissues of the body at each of 12 monoenergetic photon energies, while
for electrons, values are tabulated only for the skin.
Relationship to Federal Guidance Report No. 11
Federal Guidance Report No. 11 (Eckerman, et al., 1988) contains dose coefficients for
submersion exposure to noble gas radionuclides and elemental tritium. Those data, given in
Table 2.3 of that report, were based on the dosimetric analysis of ICRP Publication 30 and are
now replaced by the values in Table III. 1 of this report. Below, we briefly discuss some of the
differences between these two tabulations of dose coefficients.
The submersion coefficients for elemental tritium (3H) and 37Ar present in Table III.l
are taken from Table 2.3 of Federal Guidance Report No. 11. The coefficient for elemental
tritium is based on the dose equivalent received by the lung due to elemental tritium within the
airways of the lung after equilibration with the atmosphere. In a similar manner, the coefficient
for 37Ar is based on the activity in the airways. The elemental form of tritium and the noble gas
37Ar do not deposit on the airways and thus do not represent an intake by inhalation. They also
do not emit radiations sufficiently penetrating to irradiate the body as an external source. Note
that the coefficient in Table III. 1 is only for elemental tritium. For tritiated water vapor, the
inhalation intake should be evaluated using the inhalation coefficients of Table 2.1 of Federal
Guidance Report No. 11.
The methods used to compute the submersion coefficients of Table III.l are an
improvement upon those used to derive the values in Table 2.3 of Federal Guidance Report 11,
although the numerical differences in the coefficients, particularly for the effective dose, are
rather minor. We note the following differences in the computational methods:
Breast Tissue: In the earlier analysis, breast tissue was not represented in the
anatomical model used to derive the submersion dose coefficients. The dose coefficient for
muscle was used as a surrogate for breast tissue. This appears to have slightly underestimated
the breast dose. The presence of breast tissue does increase the body's shielding of the lungs
and therefore lowers the dose to the lung at low photon energies.
Skeletal Tissues: The dose coefficients for the skeletal tissues (red marrow and bone
surfaces) in this work explicitly consider the deposition of energy in the skeletal tissues of
interest by the secondary electrons liberated by photon interactions in the skeleton. In contrast,
-------
56
the earlier calculations assumed that the energy given to secondary electrons was partitioned
among the various tissues of the skeleton according to their mass fractions. Consideration of
energy deposition by secondary electrons results in lower dose estimates for the red marrow at
low photon energies since the electrons are largely liberated by photoelectric interactions in the
bone mineral and deposit much of their energy in this region rather than in the marrow spaces.
For example, the 133Xe coefficient for the active marrow in this report is more than a factor of
three lower than the value in Federal Guidance Report No. 11.
Thyroid: The anatomical model has been modified to include a neck region and the
thyroid has been moved to an appropriate position for external dosimetry. These changes
obviously alter the amount of overlaying tissues shielding the thyroid. See Appendix B for
further details.
Radiation Transport: The present coefficients are based on Monte Carlo radiation
transport calculations with many more histories than the calculations for Federal Guidance
Report No. 11. The new calculations have substantially reduced the statistical errors that were
present in the earlier data for some organs of the body.
-------
III. TABLES OF DOSE COEFFICIENTS
TABLE III. 1
Dose Coefficients for Air Submersion*
Explanation of Entries
For each radionuclide, values for the organ dose equivalent coefficients hT, and the effective
dose equivalent coefficient hE, based upon the weighting factors of Table II. 1, are given in
SI units. The coefficients are for air at a density of 1.2 kg m"3.
hT: The tissue dose equivalent coefficient for organ or tissue T (Sv per Bq s m"3), i.e., the dose
equivalent per unit time-integrated exposure to a radionuclide.
hE: The effective dose equivalent coefficient (Sv per Bq s m"3), i.e., the effective dose equivalent
per unit time-integrated exposure to a radionuclide:
Note that skin is not included in the summation.
To convert to a source per unit mass basis (Sv per Bq s kg"1), multiply table entries by
1.2(kgm-3).
To convert to conventional units (mrem per (iCi y cm"3), multiply table entries by
1.168 x 1023.
To convert to conventional units for a source per unit mass basis (mrem per (iCi y g"1),
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 kg m"3.
*These coefficients replace those presented in Table 2.3 of Federal Guidance Report No. 11
(Eckerman et al, 1988).
57
-------
58
Table III.l. Dose Coefficients for Air Submersion
Dose
Nuclide Gonad Breast Lung
Hydrogen
H-31-2 0.0 0.0 2.75E-18
Beryllium
Be-7 2.31E-15 2.64E-15 2.29E-15
Be-10 1.16E-17 1.40E-17 9.69E-18
Carbon
C-ll 4.78E-14 5.47E-14 4.75E-14
C-14 2.59E-19 3.52E-19 1.53E-19
Nitrogen
N-13 4.78E-14 5.47E-14 4.75E-14
Oxygen
0-15 4.79E-14 5.48E-14 4.76E-14
Fluorine
F-18 4.79E-14 5.48E-14 4.76E-14
Neon
Ne-19 4.81E-14 5.50E-14 4.77E-14
Sodium
Na-22 1.06E-13 1.20E-13 1.06E-13
Na-24 2.12E-13 2.36E-13 2.16E-13
Magnesium
Mg-28 6.64E-14 7.53E-14 6.64E-14
Aluminum
Al-26 1.32E-13 1.49E-13 1.33E-13
Al-28 8.97E-14 1.01E-13 9.15E-14
Silicon
Si-31 1.16E-16 1.35E-16 1.10E-16
Si-32 5.84E-19 7.66E-19 3.88E-19
Phosphorus
P-30 4.83E-14 5.53E-14 4.80E-14
P-32 9.89E-17 1.16E-16 9.08E-17
P-33 9.02E-19 1.17E-18 6.30E-19
Sulphur
S-35 2.78E-19 3.76E-19 1.68E-19
Chlorine
Cl-36 2.24E-17 2.66E-17 2.02E-17
Cl-38 7.61E-14 8.56E-14 7.77E-14
Cl-39 7.09E-14 8.03E-14 7.14E-14
Argon
Ar-372 0.0 0.0 1.06E-18
Ar-39 9.38E-18 1.14E-17 7.82E-18
Ar-41 6.33E-14 7.16E-14 6.38E-14
Potassium
K-38 1.59E-13 1.79E-13 1.61E-13
K-40 7.81E-15 8.84E-15 7.91E-15
K-42 1.42E-14 1.60E-14 1.44E-14
K-43 4.57E-14 5.22E-14 4.53E-14
K-44 1.16E-13 1.30E-13 1.17E-13
K-45 9.37E-14 1.06E-13 9.51E-14
Calcium
Ca-41 0.0 0.0 0.0
Ca-45 9.44E-19 1.22E-18 6.64E-19
Ca-47 5.22E-14 5.91E-14 5.26E-14
Ca-49 1.68E-13 1.85E-13 1.71E-13
Scandium
Sc-43 5.13E-14 5.87E-14 5.09E-14
Sc-44m 1.32E-14 1.51E-14 1.30E-14
Sc-44 1.03E-13 1.17E-13 1.03E-13
Sc-46 9.77E-14 1.11E-13 9.76E-14
Sc-47 5.03E-15 5.78E-15 4.82E-15
Sc-48 1.64E-13 1.85E-13 1.64E-13
Sc-49 1.91E-16 2.21E-16 1.82E-16
Coefficient
R
0
2
8
4
1
4
4
4
4
1
2
6
1
9
1
3
4
8
5
1
1
7
7
0.
6
6
1
7
1
4
1
9
0
5
5
1
4
1
1
9
4
1
1
Marrow
.0
.20E
.24E
.57E
.21E
.58E
.59E
.58E
.60E
. 04E
.16E
.55E
.32E
.13E
.03E
.IDE
. 62E
.19E
.06E
.34E
.81E
.77E
.06E
.0
.63E
.32E
.60E
.86E
.43E
.36E
.17E
.45E
.0
.34E
.21E
.73E
.89E
.23E
.OOE
. 62E
.36E
. 62E
.70E
-15
-18
-14
-19
-14
-14
-14
-14
-13
-13
-14
-13
-14
-16
-19
-14
-17
-19
-19
-17
-14
-14
-18
-14
-13
-15
-14
-14
-13
-14
-19
-14
-13
-14
-14
-13
-14
-15
-13
-16
hT
(Sv
BSurface
0
4
3
8
7
8
8
8
8
1
2
9
1
1
2
1
8
2
2
7
5
1
1
0.
2
9
2
1
2
8
1
1
0
2
7
2
9
2
1
1
1
2
4
.0
.16E
.37E
.43E
.06E
.44E
.46E
.45E
.49E
.66E
.87E
.97E
.97E
.24E
.50E
.68E
.53E
.48E
. 64E
.67E
.63E
.05E
.06E
.0
. 74E
.08E
.35E
.HE
.03E
.13E
.61E
.37E
.0
.77E
.59E
.20E
.30E
.73E
. 64E
.46E
.35E
.41E
.IDE
-15
-17
-14
-19
-14
-14
-14
-14
-13
-13
-14
-13
-13
-16
-18
-14
-16
-18
-19
-17
-13
-13
-17
-14
-13
-14
-14
-14
-13
-13
-18
-14
-13
-14
-14
-13
-13
-14
-13
-16
per B
q s
Thyroid
0
2
1
4
2
4
4
4
4
1
2
6
1
9
1
5
4
9
8
2
2
7
7
0.
8
6
1
8
1
4
1
9
0
8
5
1
5
1
1
1
5
1
1
.0
.35E
.IDE
.87E
.19E
.87E
.88E
.88E
.90E
.08E
.20E
. 82E
.36E
.28E
.16E
.HE
. 92E
.73E
.DIE
.37E
.19E
.89E
.30E
.0
.87E
. 52E
. 64E
.07E
.46E
.65E
.20E
.68E
.0
.40E
.38E
.76E
.23E
.34E
.05E
.OOE
.03E
.68E
.91E
-15
-17
-14
-19
-14
-14
-14
-14
-13
-13
-14
-13
-14
-16
-19
-14
-17
-19
-19
-17
-14
-14
-18
-14
-13
-15
-14
-14
-13
-14
-19
-14
-13
-14
-14
-13
-13
-15
-13
-16
nr
J)
Remainder
0
2
9
4
1
4
4
4
4
1
2
6
1
8
1
3
4
8
6
1
1
7
6
0.
7
6
1
7
1
4
1
9
0
6
5
1
4
1
9
9
4
1
1
.0
.19E
.19E
.53E
. 54E
. 54E
. 54E
. 54E
.56E
. 02E
.IDE
.40E
.29E
.90E
.05E
.80E
.58E
.60E
.HE
.68E
. 92E
.56E
.90E
.0
.42E
.16E
.56E
.66E
.39E
.32E
. 14E
.23E
.0
.43E
.07E
.67E
.86E
.23E
. 84E
.38E
.53E
.58E
. 74E
-15
-18
-14
-19
-14
-14
-14
-14
-13
-13
-14
-13
-14
-16
-19
-14
-17
-19
-19
-17
-14
-14
-18
-14
-13
-15
-14
-14
-13
-14
-19
-14
-13
-14
-14
-14
-14
-15
-13
-16
Effective
3
2
1
4
2
4
4
4
4
1
2
6
1
9
1
5
4
9
8
2
2
7
7
1.
9
6
1
8
1
4
1
9
0
8
5
1
5
1
1
9
5
1
1
.31E
.36E
. 12E
.89E
.24E
.90E
.91E
.90E
. 92E
.08E
.18E
.79E
.36E
.28E
.17E
.24E
. 94E
.90E
.23E
.43E
.23E
.87E
.29E
,27E
.IDE
.50E
. 64E
.05E
.46E
.67E
.19E
.67E
.0
.63E
.36E
.73E
.26E
.35E
.05E
.98E
. 14E
.68E
.93E
-19
-15
-17
-14
-19
-14
-14
-14
-14
-13
-13
-14
-13
-14
-16
-19
-14
-17
-19
-19
-17
-14
-14
-19
-18
-14
-13
-15
-14
-14
-13
-14
-19
-14
-13
-14
-14
-13
-14
-15
-13
-16
0
2
1
7
2
8
1
6
1
1
2
8
1
1
3
8
1
4
1
2
1
1
1
0.
1
1
2
4
1
7
2
1
0
1
8
2
7
1
1
1
1
2
5
Skin
.0
.74E-15
.29E-14
.91E-14
.43E-16
.68E-14
.04E-13
.94E-14
.21E-13
.33E-13
.75E-13
.33E-14
.81E-13
.88E-13
.78E-14
.27E-16
.56E-13
.49E-14
.38E-15
.92E-16
.47E-14
.94E-13
.36E-13
.0
.07E-14
.01E-13
.66E-13
.20E-14
.15E-13
.11E-14
.35E-13
.74E-13
.0
.46E-15
.02E-14
.46E-13
.91E-14
.72E-14
.58E-13
.17E-13
.28E-14
.01E-13
.43E-14
Elemental form of tritium
2 Taken from Table 2.3, Federal Guidance Report No. 11 (Eckerman et al., 1988)
-------
59
Table III.l. Dose Coefficients for Air Submersion
Dose Coefficient hT (Sv per
itr3)
Nuclide
Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Titanium
Ti-44 5
Ti-45 4
Vanadium
V-47
V-48
V-49
Chromium
Cr-48
Cr-49
Cr-51
Manganese
55E-15 6.58E-15 4.89E-15 3.93E-15 1.91E-14 5.29E-15 4.54E-15 5.53E-15 6.79E-15
08E-14 4.67E-14 4.05E-14 3.91E-14 7.20E-14 4.16E-14 3.87E-14 4.18E-14 7.07E-14
68E-14 5.35E-14 4.65E-14 4.48E-14 8.24E-14 4.77E-14 4.44E-14 4.79E-14 1.08E-13
42E-13 1.61E-13 1.42E-13 1.40E-13 2.14E-13 1.46E-13 1.37E-13 1.45E-13 1.72E-13
0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
02E-14 2.32E-14 1.96E-14 1.82E-14 4.70E-14 2.03E-14 1.86E-14 2.06E-14 2.40E-14
92E-14 5.64E-14 4.86E-14 4.64E-14 9.30E-14 5.00E-14 4.63E-14 5.03E-14 9.65E-14
47E-15 1.69E-15 1.45E-15 1.37E-15 3.04E-15 1.49E-15 1.38E-15 1.51E-15 1.75E-15
5.37E-14 4.66E-14 4.49E-14 8.28E-14 4.78E-14 4.45E-14 4.80E-14 1.18E-13
1.33E-13 1.17E-13 1.15E-13 1.82E-13 1.20E-13 1.13E-13 1.20E-13 2.13E-13
1.91E-13 1.69E-13 1.66E-13 2.53E-13 1.73E-13 1.62E-13 1.72E-13 1.99E-13
0.0 0.0 0.0 0.0 0.0 0.0 0.0
4.55E-14 4.00E-14 3.91E-14 6.23E-14 4.11E-14 3.83E-14 4.09E-14 4.67E-14
3.45E-14 8.37E-14 1.22E-13 8.64E-14 8.17E-14 8.61E-14 1.51E-13
3.96E-14 3.41E-14 3.25E-14 6.77E-14 3.51E-14 3.25E-14 3.54E-14 5.17E-14
0.0 0.0 0.0 0.0 0.0 0.0 0.0
6.59E-14 5.85E-14 5.79E-14 8.51E-14 6.00E-14 5.64E-14 5.97E-14 7.13E-14
3.13E-19 1.29E-19 1.02E-19 6.07E-19 1.90E-19 1.31E-19 1.95E-19 1.64E-16
Mn-51
Mn-52m
Mn-52
Mn-53
Mn-54
Mn-56
Iron
Fe-52
Fe-55
Fe-59
Fe-60
Cobalt
Co-55
Co-56
Co-57
Co-58m
Co-58
Co-60m
Co-60
Co-61
Co-62m
Nickel
Ni-56
Ni-57
Ni-59
Ni-63
Ni-65
Ni-66
Copper
Cu-60
Cu-61
Cu-62
Cu-64
Cu-66
Cu-67
Zinc
Zn-62
Zn-63
Zn-65
Zn-69m
Zn-69
Zn-71m
Zn-72
Gallium
Ga-65
Ga-66
Ga-67
Ga-68
Ga-70
Ga-72
Ga-73
4
1
1
0
4
8
3
0
5
2
9
1
5
1
4
2
1
3
1
8
9
0
0
2
6
1
3
4
8
4
5
2
5
2
1
2
7
6
5
1
7
4
4
1
1
.69E
.17E
.68E
.0
.DIE
.37E
.46E
.0
.83E
.28E
.56E
.78E
.47E
.22E
.66E
. 14E
.23E
. 94E
.34E
.22E
.42E
.0
.0
. 72E
.80E
. 92E
.90E
.75E
.89E
.37E
.30E
.03E
.19E
. 84E
.95E
.19E
.33E
. 74E
. 52E
.26E
.05E
.47E
.55E
.35E
.45E
-14
-13
-13
-14
-14
-14
-14
-19
-14
-13
-15
-19
-14
-16
-13
-15
-13
-14
-14
-14
-19
-13
-14
-14
-15
-15
-15
-14
-14
-14
-14
-17
-14
-15
-14
-13
-15
-14
-16
-13
-14
5
1
1
0
4
9
3
0
6
3
1
2
6
1
5
2
1
4
1
9
1
0
0
3
8
2
4
5
1
4
6
2
5
3
2
2
8
7
6
1
8
5
5
1
1
.37E
.33E
.91E
.0
.55E
.46E
.96E
.0
.59E
.13E
.09E
.DIE
.36E
.88E
.30E
.46E
.39E
.61E
.51E
.35E
.07E
.0
.0
.07E
.86E
.17E
.45E
.44E
. 02E
.95E
.IDE
.32E
.93E
.21E
.23E
. 62E
.36E
.79E
.32E
.40E
. 12E
.HE
.19E
. 52E
.66E
13 9.54E-
13 1.80E-
15 5.21E-
19 2.91E-
14 4.64E-
16 2.07E-
13 1.24E-
15 3.60E-
-13 1.35E-
14 9.31E-
13 1.79E-
15 4.59E-
20 3.10E-
14 4.53E-
16 1.97E-
13 1.23E-
15 3.14E-
13 1.34E-
14 1.54E-
13 2.57E-
15 1.63E-
20 2.03E-
14 7.41E-
16 3.99E-
13 1.78E-
15 1.06E-
13 1.92E-
13 9.79E-
13 1.84E-
14 5.46E-
19 9.01E-
14 4.77E-
16 2.16E-
13 1.27E-
14 3.84E-
13 1.38E-
14 9.15E
13 1.74E
15 4.87E
20 4.30E
14 4.44E
16 1.98E
13 1.20E
15 3.39E
13 1.30E
14 9.78E
13 1.83E
15 5.61E
20 8.77E
14 4.76E
16 2.17E
13 1.26E
15 3.94E
-13 1.37E
14 1.39E-13
13 2.13E-13
15 6.63E-15
20 3.05E-19
14 5.58E-14
16 3.46E-16
13 1.45E-13
15 3.24E-14
-13 2.25E-13
3.17E-14 7.92E-14 1.40E-13 8.40E-14 7.82E-14 8.41E-14 9.61E-14
1.07E-13 9.51E-14 9.39E-14 1.41E-13 9.70E-14 9.18E-14 9.69E-14 1.17E-13
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
3.07E-14 2.74E-14 2.72E-14 3.93E-14 2.80E-14 2.65E-14 2.79E-14 7.18E-14
8.86E-19 4.64E-19 3.71E-19 1.98E-18 6.00E-19 4.52E-19 6.16E-19 1.01E-15
2.17E-13 1.94E-13 1.92E-13 2.86E-13 1.98E-13 1.87E-13 1.98E-13 2.82E-13
4.45E-14 3.87E-14 3.73E-14 6.82E-14 3.97E-14 3.70E-14 3.99E-14 6.50E-14
5.44E-14 4.72E-14 4.55E-14 8.38E-14 4.84E-14 4.51E-14 4.86E-14 1.44E-13
1.02E-14 8.84E-15 8.52E-15 1.56E-14 9.06E-15 8.44E-15 9.10E-15 1.64E-14
4.95E-15 4.35E-15 4.27E-15 6.68E-15 4.48E-15 4.18E-15 4.46E-15 7.69E-14
6.10E-15 5.06E-15 4.59E-15 1.40E-14 5.29E-15 4.77E-15 5.41E-15 1.18E-14
2.32E-14 2.00E-14 1.93E-14 3.58E-14 2.06E-14 1.91E-14 2.07E-14 2.52E-14
5.93E-14 5.16E-14 4.99E-14 9.00E-14 5.30E-14 4.93E-14 5.32E-14 1.23E-13
3.21E-14 2.84E-14 2.80E-14 4.18E-14 2.92E-14 2.73E-14 2.90E-14 3.29E-14
2.23E-14 1.93E-14 1.85E-14 3.60E-14 1.98E-14 1.84E-14 1.99E-14 2.44E-14
2.62E-17 1.91E-17 1.66E-17 6.09E-17 2.11E-17 1.81E-17 2.16E-17 1.81E-14
8.36E-14 7.27E-14 7.03E-14 1.28E-13 7.47E-14 6.95E-14 7.50E-14 1.21E-13
7.79E-15 6.44E-15 5.78E-15 1.88E-14 6.74E-15 6.05E-15 6.90E-15 l.OOE-14
6.32E-14 5.47E-14 5.25E-14 1.01E-13 5.62E-14 5.22E-14 5.65E-14 1.19E-13
1.40E-13 1.27E-13 1.26E-13 1.82E-13 1.30E-13 1.23E-13 1.29E-13 2.11E-13
8.12E-15 6.79E-15 6.22E-15 1.75E-14 7.06E-15 6.41E-15 7.20E-15 8.50E-15
5.11E-14 4.44E-14 4.29E-14 7.84E-14 4.56E-14 4.24E-14 4.58E-14 1.01E-13
5.19E-16 4.46E-16 4.31E-16 7.93E-16 4.63E-16 4.27E-16 4.62E-16 4.17E-14
1.52E-13 1.36E-13 1.35E-13 1.95E-13 1.39E-13 1.32E-13 1.39E-13 1.86E-13
1.66E-14 1.42E-14 1.35E-14 3.01E-14 1.47E-14 1.35E-14 1.48E-14 4.37E-14
-------
60
Table III.l. Dose Coefficients for Air Submersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Germanium
Ge-66 3.18E-14 3.64E-14 3.13E-14 3.00E-14 5.98E-14 3.23E-14 2.99E-14 3.25E-14 4.26E-14
Ge-67 6.70E-14 7.64E-14 6.65E-14 6.42E-14 1.19E-13 6.83E-14 6.36E-14 6.86E-14 1.68E-13
Ge-68 4.77E-20 3.33E-19 2.59E-22 1.33E-20 7.11E-20 3.74E-21 2.68E-20 7.37E-20 6.62E-18
Ge-69 4.17E-14 4.74E-14 4.16E-14 4.06E-14 6.72E-14 4.27E-14 3.99E-14 4.27E-14 5.96E-14
Ge-71 4.83E-20 3.37E-19 2.62E-22 1.35E-20 7.20E-20 3.78E-21 2.71E-20 7.47E-20 6.71E-18
Ge-75 1.64E-15 1.88E-15 1.60E-15 1.50E-15 3.60E-15 1.65E-15 1.52E-15 1.68E-15 2.71E-14
Ge-77 5.20E-14 5.92E-14 5.16E-14 4.99E-14 9.28E-14 5.31E-14 4.94E-14 5.32E-14 1.02E-13
Ge-78 1.31E-14 1.49E-14 1.27E-14 1.20E-14 2.83E-14 1.32E-14 1.21E-14 1.34E-14 2.75E-14
Arsenic
As-69 4.77E-14 5.46E-14 4.74E-14 4.56E-14 8.51E-14 4.86E-14 4.52E-14 4.89E-14 1.43E-13
As-70 1.99E-13 2.26E-13 2.00E-13 1.97E-13 3.06E-13 2.05E-13 1.92E-13 2.04E-13 2.89E-13
As-71 2.68E-14 3.06E-14 2.64E-14 2.52E-14 5.24E-14 2.72E-14 2.51E-14 2.74E-14 3.78E-14
As-72 8.58E-14 9.77E-14 8.55E-14 8.33E-14 1.41E-13 8.78E-14 8.19E-14 8.78E-14 1.70E-13
As-73 2.00E-16 2.48E-16 1.56E-16 1.17E-16 6.79E-16 1.83E-16 1.46E-16 1.90E-16 2.78E-16
As-74 3.56E-14 4.07E-14 3.54E-14 3.43E-14 6.10E-14 3.64E-14 3.39E-14 3.65E-14 5.80E-14
As-76 2.08E-14 2.37E-14 2.08E-14 2.03E-14 3.39E-14 2.13E-14 1.99E-14 2.13E-14 9.61E-14
As-77 4.22E-16 4.84E-16 4.11E-16 3.88E-16 9.01E-16 4.26E-16 3.91E-16 4.31E-16 1.20E-14
As-78 6.16E-14 6.97E-14 6.19E-14 6.09E-14 9.35E-14 6.33E-14 5.96E-14 6.32E-14 1.65E-13
Selenium
Se-70 4.63E-14 5.30E-14 4.57E-14 4.38E-14 8.50E-14 4.70E-14 4.36E-14 4.73E-14 8.36E-14
Se-73m 1.14E-14 1.30E-14 1.13E-14 1.09E-14 2.02E-14 1.16E-14 1.08E-14 1.17E-14 2.39E-14
Se-73 5.05E-14 5.78E-14 4.97E-14 4.74E-14 9.59E-14 5.12E-14 4.74E-14 5.16E-14 8.31E-14
Se-75 1.81E-14 2.08E-14 1.75E-14 1.63E-14 4.26E-14 1.82E-14 1.66E-14 1.85E-14 2.16E-14
Se-77m 3.94E-15 4.53E-15 3.77E-15 3.43E-15 1.05E-14 3.94E-15 3.55E-15 4.03E-15 6.99E-15
Se-79 3.47E-19 4.67E-19 2.11E-19 1.67E-19 9.60E-19 2.96E-19 2.10E-19 3.03E-19 3.71E-16
Se-81m 6.05E-16 7.10E-16 5.67E-16 4.88E-16 1.91E-15 5.97E-16 5.29E-16 6.18E-16 1.40E-15
Se-81 5.15E-16 5.90E-16 5.02E-16 4.77E-16 1.02E-15 5.21E-16 4.78E-16 5.24E-16 3.94E-14
Se-83 1.18E-13 1.34E-13 1.18E-13 1.16E-13 1.86E-13 1.21E-13 1.14E-13 1.21E-13 1.69E-13
Bromine
Br-74m 2.02E-13 2.28E-13 2.03E-13 2.01E-13 3.07E-13 2.09E-13 1.96E-13 2.08E-13 3.31E-13
Br-74 2.32E-13 2.58E-13 2.34E-13 2.33E-13 3.36E-13 2.41E-13 2.27E-13 2.38E-13 3.40E-13
Br-75 5.71E-14 6.53E-14 5.65E-14 5.42E-14 1.05E-13 5.81E-14 5.39E-14 5.84E-14 1.01E-13
Br-76 1.30E-13 1.47E-13 1.31E-13 1.29E-13 1.97E-13 1.34E-13 1.26E-13 1.34E-13 1.97E-13
Br-77 1.48E-14 1.69E-14 1.46E-14 1.40E-14 2.78E-14 1.51E-14 1.39E-14 1.51E-14 1.77E-14
Br-80m 3.71E-16 5.00E-16 2.06E-16 1.49E-16 9.82E-16 3.10E-16 2.07E-16 3.11E-16 7.13E-16
Br-80 3.76E-15 4.30E-15 3.74E-15 3.62E-15 6.40E-15 3.84E-15 3.58E-15 3.85E-15 2.02E-14
Br-82 1.27E-13 1.44E-13 1.27E-13 1.24E-13 1.99E-13 1.30E-13 1.22E-13 1.30E-13 1.54E-13
Br-83 3.74E-16 4.29E-16 3.69E-16 3.54E-16 6.75E-16 3.80E-16 3.52E-16 3.82E-16 1.85E-14
Br-84 9.16E-14 1.02E-13 9.27E-14 9.26E-14 1.28E-13 9.50E-14 8.99E-14 9.41E-14 1.88E-13
Krypton
Kr-74 5.46E-14 6.26E-14 5.39E-14 5.15E-14 1.04E-13 5.55E-14 5.14E-14 5.59E-14 1.16E-13
Kr-76 1.99E-14 2.28E-14 1.95E-14 1.85E-14 4.04E-14 2.01E-14 1.85E-14 2.03E-14 2.37E-14
Kr-77 4.74E-14 5.44E-14 4.68E-14 4.46E-14 9.25E-14 4.82E-14 4.46E-14 4.86E-14 9.74E-14
Kr-79 1.18E-14 1.35E-14 1.17E-14 1.12E-14 2.18E-14 1.20E-14 1.12E-14 1.21E-14 1.50E-14
Kr-81m 6.01E-15 6.89E-15 5.78E-15 5.32E-15 1.50E-14 6.03E-15 5.46E-15 6.14E-15 9.42E-15
Kr-81 2.62E-16 3.06E-16 2.53E-16 2.39E-16 5.66E-16 2.62E-16 2.41E-16 2.67E-16 4.04E-16
Kr-83m 1.71E-18 5.05E-18 1.64E-19 3.83E-19 2.25E-18 6.43E-19 5.30E-19 1.50E-18 3.56E-17
Kr-85m 7.31E-15 8.41E-15 7.04E-15 6.43E-15 1.88E-14 7.33E-15 6.64E-15 7.48E-15 2.24E-14
Kr-85 1.17E-16 1.34E-16 1.14E-16 1.09E-16 2.20E-16 1.18E-16 1.09E-16 1.19E-16 1.32E-14
Kr-87 4.00E-14 4.50E-14 4.04E-14 4.00E-14 6.02E-14 4.13E-14 3.91E-14 4.12E-14 1.37E-13
Kr-88 9.90E-14 1.11E-13 1.01E-13 l.OOE-13 1.39E-13 1.03E-13 9.79E-14 1.02E-13 1.35E-13
Rubidium
Rb-79 6.36E-14 7.28E-14 6.31E-14 6.06E-14 1.15E-13 6.48E-14 6.02E-14 6.51E-14 1.28E-13
Rb-80 5.93E-14 6.78E-14 5.89E-14 5.68E-14 1.04E-13 6.05E-14 5.63E-14 6.07E-14 2.11E-13
Rb-81m 1.87E-16 2.30E-16 1.66E-16 1.38E-16 6.17E-16 1.78E-16 1.55E-16 1.88E-16 4.01E-16
Rb-81 2.89E-14 3.31E-14 2.85E-14 2.72E-14 5.53E-14 2.93E-14 2.72E-14 2.96E-14 4.46E-14
Rb-82m 1.40E-13 1.59E-13 1.40E-13 1.37E-13 2.19E-13 1.43E-13 1.34E-13 1.43E-13 1.68E-13
Rb-82 5.18E-14 5.92E-14 5.14E-14 4.96E-14 9.03E-14 5.28E-14 4.91E-14 5.30E-14 1.58E-13
Rb-83 2.33E-14 2.67E-14 2.32E-14 2.24E-14 4.06E-14 2.38E-14 2.21E-14 2.39E-14 2.77E-14
Rb-84 4.37E-14 4.97E-14 4.36E-14 4.25E-14 6.99E-14 4.48E-14 4.17E-14 4.47E-14 5.71E-14
Rb-86 4.71E-15 5.34E-15 4.71E-15 4.64E-15 7.05E-15 4.84E-15 4.52E-15 4.81E-15 4.85E-14
Rb-87 1.96E-18 2.48E-18 1.45E-18 1.18E-18 5.84E-18 1.77E-18 1.39E-18 1.82E-18 3.15E-15
-------
61
Table III.l. Dose Coefficients for Air Submersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Rubidium, cont'd
Rb-88 3.26E-14 3.67E-14 3.31E-14 3.30E-14 4.62E-14 3.37E-14 3.21E-14 3.36E-14 1.83E-13
Rb-89 1.03E-13 1.17E-13 1.04E-13 1.04E-13 1.48E-13 1.07E-13 1.01E-13 1.06E-13 1.87E-13
Strontium
Sr-80 7.92E-18 2.31E-17 9.28E-20 1.48E-18 8.27E-18 2.63E-18 1.90E-18 6.53E-18 1.44E-16
Sr-81 6.53E-14 7.46E-14 6.46E-14 6.20E-14 1.20E-13 6.64E-14 6.16E-14 6.68E-14 1.44E-13
Sr-82 7.79E-18 2.27E-17 9.13E-20 1.46E-18 8.13E-18 2.58E-18 1.87E-18 6.43E-18 1.42E-16
Sr-83 3.77E-14 4.29E-14 3.75E-14 3.65E-14 6.25E-14 3.85E-14 3.60E-14 3.86E-14 5.20E-14
Sr-85m 1.02E-14 1.17E-14 9.91E-15 9.24E-15 2.41E-14 1.03E-14 9.39E-15 1.05E-14 1.23E-14
Sr-85 2.36E-14 2.70E-14 2.34E-14 2.26E-14 4.16E-14 2.41E-14 2.24E-14 2.42E-14 2.83E-14
Sr-87m 1.49E-14 1.71E-14 1.47E-14 1.40E-14 2.87E-14 1.51E-14 1.40E-14 1.52E-14 2.15E-14
Sr-89 7.73E-17 9.08E-17 7.08E-17 6.39E-17 1.94E-16 7.60E-17 6.71E-17 7.73E-17 3.69E-14
Sr-90 7.78E-18 9.49E-18 6.44E-18 5.44E-18 2.28E-17 7.33E-18 6.11E-18 7.53E-18 9.20E-15
Sr-91 3.38E-14 3.83E-14 3.37E-14 3.31E-14 5.20E-14 3.47E-14 3.24E-14 3.45E-14 8.14E-14
Sr-92 6.61E-14 7.48E-14 6.67E-14 6.62E-14 9.49E-14 6.82E-14 6.45E-14 6.79E-14 8.56E-14
Yttrium
Y-86m 1.03E-14 1.18E-14 l.OOE-14 9.35E-15 2.39E-14 1.04E-14 9.50E-15 1.06E-14 1.28E-14
Y-86 1.75E-13 1.98E-13 1.76E-13 1.73E-13 2.65E-13 1.80E-13 1.69E-13 1.79E-13 2.17E-13
Y-87 2.10E-14 2.40E-14 2.08E-14 2.00E-14 3.76E-14 2.14E-14 1.99E-14 2.15E-14 2.51E-14
Y-88 1.33E-13 1.51E-13 1.35E-13 1.34E-13 1.90E-13 1.38E-13 1.31E-13 1.37E-13 1.54E-13
Y-90m 2.94E-14 3.36E-14 2.89E-14 2.75E-14 5.86E-14 2.98E-14 2.75E-14 3.01E-14 3.75E-14
Y-90 1.89E-16 2.20E-16 1.77E-16 1.62E-16 4.44E-16 1.87E-16 1.68E-16 1.90E-16 6.24E-14
Y-91m 2.49E-14 2.85E-14 2.48E-14 2.39E-14 4.28E-14 2.54E-14 2.37E-14 2.55E-14 3.11E-14
Y-91 2.56E-16 2.93E-16 2.50E-16 2.41E-16 4.56E-16 2.60E-16 2.39E-16 2.60E-16 3.85E-14
Y-92 1.27E-14 1.44E-14 1.27E-14 1.25E-14 1.95E-14 1.30E-14 1.22E-14 1.30E-14 1.14E-13
Y-93 4.67E-15 5.30E-15 4.68E-15 4.58E-15 7.58E-15 4.79E-15 4.51E-15 4.80E-15 8.50E-14
Y-94 5.49E-14 6.21E-14 5.50E-14 5.42E-14 8.22E-14 5.65E-14 5.30E-14 5.62E-14 1.80E-13
Y-95 4.65E-14 5.19E-14 4.72E-14 4.73E-14 6.41E-14 4.84E-14 4.59E-14 4.79E-14 1.59E-13
Zirconium
Zr-86 1.26E-14 1.44E-14 1.22E-14 1.14E-14 2.76E-14 1.26E-14 1.16E-14 1.28E-14 1.56E-14
Zr-88 1.84E-14 2.11E-14 1.81E-14 1.73E-14 3.52E-14 1.86E-14 1.73E-14 1.88E-14 2.26E-14
Zr-89 5.56E-14 6.32E-14 5.54E-14 5.43E-14 8.73E-14 5.70E-14 5.31E-14 5.68E-14 7.07E-14
Zr-93 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Zr-95 3.53E-14 4.01E-14 3.51E-14 3.43E-14 5.62E-14 3.61E-14 3.36E-14 3.60E-14 4.50E-14
Zr-97 8.80E-15 9.99E-15 8.81E-15 8.64E-15 1.38E-14 9.03E-15 8.48E-15 9.02E-15 5.55E-14
Niobium
Nb-88 1.98E-13 2.25E-13 1.97E-13 1.92E-13 3.20E-13 2.02E-13 1.88E-13 2.02E-13 3.12E-13
Nb-89bx 6.80E-14 7.70E-14 6.82E-14 6.69E-14 1.08E-13 6.99E-14 6.57E-14 6.98E-14 1.56E-13
Nb-89a2 9.05E-14 1.03E-13 8.99E-14 8.69E-14 1.57E-13 9.23E-14 8.59E-14 9.26E-14 1.63E-13
Nb-90 2.11E-13 2.37E-13 2.13E-13 2.12E-13 3.08E-13 2.18E-13 2.07E-13 2.17E-13 2.66E-13
Nb-93m 6.33E-18 1.31E-17 2.55E-19 1.18E-18 6.92E-18 3.43E-18 1.36E-18 4.44E-18 4.28E-17
Nb-94 7.54E-14 8.57E-14 7.51E-14 7.34E-14 1.19E-13 7.72E-14 7.19E-14 7.70E-14 9.52E-14
Nb-95m 2.88E-15 3.31E-15 2.77E-15 2.59E-15 6.60E-15 2.89E-15 2.63E-15 2.93E-15 1.12E-14
Nb-95 3.66E-14 4.16E-14 3.65E-14 3.56E-14 5.79E-14 3.75E-14 3.49E-14 3.74E-14 4.30E-14
Nb-96 1.19E-13 1.35E-13 1.19E-13 1.16E-13 1.87E-13 1.22E-13 1.14E-13 1.21E-13 1.52E-13
Nb-97m 3.47E-14 3.95E-14 3.46E-14 3.38E-14 5.54E-14 3.56E-14 3.31E-14 3.55E-14 4.16E-14
Nb-97 3.11E-14 3.55E-14 3.10E-14 3.01E-14 5.11E-14 3.18E-14 2.96E-14 3.18E-14 6.51E-14
Nb-98 1.18E-13 1.34E-13 1.18E-13 1.16E-13 1.81E-13 1.21E-13 1.13E-13 1.21E-13 1.96E-13
Molybdenum
Mo-90 3.85E-14 4.40E-14 3.79E-14 3.61E-14 7.50E-14 3.91E-14 3.61E-14 3.93E-14 5.52E-14
Mo-93m 1.10E-13 1.24E-13 1.10E-13 1.09E-13 1.67E-13 1.13E-13 1.07E-13 1.13E-13 1.32E-13
Mo-93 3.59E-17 7.46E-17 1.44E-18 6.69E-18 3.93E-17 1.95E-17 7.74E-18 2.52E-17 2.43E-16
Mo-99 7.13E-15 8.13E-15 7.06E-15 6.82E-15 1.24E-14 7.27E-15 6.74E-15 7.28E-15 3.14E-14
Mo-101 6.69E-14 7.58E-14 6.72E-14 6.62E-14 1.02E-13 6.88E-14 6.48E-14 6.87E-14 1.14E-13
Technetium
Tc-93m 3.62E-14 4.07E-14 3.66E-14 3.63E-14 5.47E-14 3.75E-14 3.55E-14 3.73E-14 4.62E-14
Tc-93 7.17E-14 8.12E-14 7.25E-14 7.21E-14 1.02E-13 7.40E-14 7.02E-14 7.38E-14 8.30E-14
Tc-94m 8.96E-14 1.02E-13 8.96E-14 8.77E-14 1.42E-13 9.19E-14 8.60E-14 9.18E-14 1.55E-13
Tc-94 1.28E-13 1.45E-13 1.27E-13 1.24E-13 2.00E-13 1.31E-13 1.22E-13 1.30E-13 1.51E-13
Tc-95m 3.16E-14 3.60E-14 3.12E-14 3.02E-14 5.55E-14 3.22E-14 2.98E-14 3.23E-14 3.76E-14
1 TK = 122 m
2 TK = 66 m
-------
62
Table III.l. Dose Coefficients for Air Submersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Technetium, cont'd
Tc-95 3.76E-14 4.28E-14 3.74E-14 3.66E-14 5.93E-14 3.85E-14 3.58E-14 3.84E-14 4.42E-14
Tc-96m 2.20E-15 2.52E-15 2.17E-15 2.13E-15 3.36E-15 2.24E-15 2.08E-15 2.24E-15 2.68E-15
Tc-96 1.20E-13 1.36E-13 1.19E-13 1.17E-13 1.87E-13 1.23E-13 1.14E-13 1.22E-13 1.40E-13
Tc-97m 6.10E-17 1.05E-16 1.60E-17 1.99E-17 l.OOE-16 4.26E-17 2.26E-17 4.64E-17 5.55E-16
Tc-97 4.79E-17 9.44E-17 2.66E-18 9.13E-18 5.43E-17 2.79E-17 1.08E-17 3.33E-17 2.71E-16
Tc-98 6.72E-14 7.65E-14 6.69E-14 6.52E-14 1.09E-13 6.87E-14 6.40E-14 6.86E-14 8.53E-14
Tc-99m 5.75E-15 6.65E-15 5.49E-15 4.91E-15 1.63E-14 5.75E-15 5.15E-15 5.89E-15 7.14E-15
Tc-99 1.74E-18 2.20E-18 1.29E-18 1.05E-18 5.17E-18 1.57E-18 1.24E-18 1.62E-18 2.74E-15
Tc-101 1.57E-14 1.80E-14 1.54E-14 1.46E-14 3.21E-14 1.59E-14 1.47E-14 1.61E-14 4.77E-14
Tc-104 9.83E-14 1.11E-13 9.90E-14 9.76E-14 1.51E-13 1.01E-13 9.55E-14 1.01E-13 2.25E-13
Ruthenium
Ru-94 2.49E-14 2.84E-14 2.46E-14 2.38E-14 4.33E-14 2.53E-14 2.35E-14 2.54E-14 2.95E-14
Ru-97 1.07E-14 1.23E-14 1.03E-14 9.65E-15 2.46E-14 1.08E-14 9.79E-15 1.09E-14 1.32E-14
Ru-103 2.19E-14 2.51E-14 2.18E-14 2.10E-14 3.89E-14 2.24E-14 2.08E-14 2.25E-14 2.77E-14
Ru-105 3.72E-14 4.24E-14 3.70E-14 3.59E-14 6.28E-14 3.80E-14 3.54E-14 3.81E-14 6.73E-14
Ru-106 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Rhodium
Rh-99m 3.22E-14 3.67E-14 3.19E-14 3.10E-14 5.52E-14 3.28E-14 3.06E-14 3.29E-14 3.94E-14
Rh-99 2.79E-14 3.19E-14 2.74E-14 2.62E-14 5.24E-14 2.83E-14 2.62E-14 2.85E-14 3.42E-14
Rh-100 1.37E-13 1.54E-13 1.38E-13 1.37E-13 2.00E-13 1.41E-13 1.34E-13 1.41E-13 1.63E-13
Rh-lOlm 1.38E-14 1.59E-14 1.35E-14 1.28E-14 2.85E-14 1.40E-14 1.28E-14 1.41E-14 1.71E-14
Rh-101 1.18E-14 1.37E-14 1.13E-14 1.04E-14 3.00E-14 1.18E-14 1.07E-14 1.21E-14 1.49E-14
Rh-102m 2.26E-14 2.58E-14 2.24E-14 2.16E-14 3.92E-14 2.30E-14 2.14E-14 2.31E-14 3.68E-14
Rh-102 1.02E-13 1.16E-13 1.01E-13 9.85E-14 1.65E-13 1.04E-13 9.67E-14 1.04E-13 1.19E-13
Rh-103m 1.25E-17 2.15E-17 1.87E-18 2.82E-18 1.76E-17 8.55E-18 3.68E-18 8.80E-18 4.49E-17
Rh-105 3.64E-15 4.16E-15 3.57E-15 3.38E-15 7.53E-15 3.68E-15 3.39E-15 3.72E-15 1.07E-14
Rh-106m 1.41E-13 1.60E-13 1.41E-13 1.38E-13 2.22E-13 1.44E-13 1.35E-13 1.44E-13 1.81E-13
Rh-106 1.01E-14 1.16E-14 1.01E-14 9.75E-15 1.72E-14 1.03E-14 9.63E-15 1.04E-14 1.09E-13
Rh-107 1.47E-14 1.68E-14 1.44E-14 1.37E-14 2.99E-14 1.49E-14 1.37E-14 1.50E-14 4.42E-14
Palladium
Pd-100 4.67E-15 5.60E-15 4.09E-15 3.40E-15 1.53E-14 4.47E-15 3.83E-15 4.65E-15 6.11E-15
Pd-101 1.50E-14 1.72E-14 1.47E-14 1.42E-14 2.61E-14 1.52E-14 1.41E-14 1.53E-14 1.94E-14
Pd-103 1.08E-16 1.86E-16 1.74E-17 2.66E-17 1.46E-16 7.45E-17 3.30E-17 7.68E-17 3.90E-16
Pd-107 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pd-109 2.71E-16 3.52E-16 1.94E-16 1.74E-16 7.02E-16 2.46E-16 1.92E-16 2.51E-16 2.15E-14
Silver
Ag-102 1.63E-13 1.85E-13 1.64E-13 1.61E-13 2.54E-13 1.67E-13 1.57E-13 1.67E-13 2.45E-13
Ag-103 3.59E-14 4.10E-14 3.56E-14 3.44E-14 6.35E-14 3.66E-14 3.41E-14 3.68E-14 5.84E-14
Ag-104m 5.67E-14 6.43E-14 5.68E-14 5.56E-14 9.14E-14 5.82E-14 5.46E-14 5.82E-14 l.OOE-13
Ag-104 1.29E-13 1.46E-13 1.29E-13 1.26E-13 2.02E-13 1.32E-13 1.23E-13 1.32E-13 1.56E-13
Ag-105 2.40E-14 2.75E-14 2.36E-14 2.26E-14 4.54E-14 2.44E-14 2.25E-14 2.45E-14 2.90E-14
Ag-106m 1.35E-13 1.54E-13 1.35E-13 1.32E-13 2.14E-13 1.38E-13 1.30E-13 1.38E-13 1.58E-13
Ag-106 3.32E-14 3.80E-14 3.29E-14 3.17E-14 5.84E-14 3.38E-14 3.14E-14 3.39E-14 7.27E-14
Ag-108m 7.63E-14 8.71E-14 7.57E-14 7.34E-14 1.29E-13 7.78E-14 7.24E-14 7.80E-14 9.05E-14
Ag-108 9.10E-16 1.04E-15 8.96E-16 8.63E-16 1.61E-15 9.25E-16 8.56E-16 9.28E-16 4.00E-14
Ag-109m 2.13E-16 2.85E-16 1.40E-16 1.23E-16 5.72E-16 1.88E-16 1.40E-16 1.92E-16 5.59E-16
Ag-llOm 1.33E-13 1.51E-13 1.33E-13 1.30E-13 2.05E-13 1.36E-13 1.27E-13 1.36E-13 1.57E-13
Ag-110 1.75E-15 2.00E-15 1.73E-15 1.67E-15 3.05E-15 1.78E-15 1.65E-15 1.78E-15 8.22E-14
Ag-111 1.26E-15 1.44E-15 1.23E-15 1.17E-15 2.59E-15 1.27E-15 1.17E-15 1.29E-15 2.19E-14
Ag-112 3.25E-14 3.68E-14 3.27E-14 3.22E-14 4.98E-14 3.34E-14 3.15E-14 3.34E-14 1.33E-13
Ag-115 3.51E-14 3.97E-14 3.53E-14 3.47E-14 5.57E-14 3.61E-14 3.41E-14 3.61E-14 1.11E-13
Cadmium
Cd-104 1.12E-14 1.30E-14 1.09E-14 1.03E-14 2.15E-14 1.13E-14 1.03E-14 1.14E-14 1.38E-14
Cd-107 6.64E-16 8.78E-16 4.56E-16 4.35E-16 1.37E-15 5.98E-16 4.61E-16 6.02E-16 1.50E-15
Cd-109 3.58E-16 5.21E-16 1.65E-16 1.57E-16 7.87E-16 2.91E-16 1.83E-16 2.94E-16 9.95E-16
Cd-113m 7.17E-18 8.76E-18 5.93E-18 5.01E-18 2.10E-17 6.76E-18 5.63E-18 6.94E-18 8.48E-15
Cd-113 1.56E-18 1.98E-18 1.16E-18 9.42E-19 4.63E-18 1.41E-18 1.11E-18 1.45E-18 2.41E-15
Cd-115m 1.15E-15 1.30E-15 1.14E-15 1.12E-15 1.80E-15 1.18E-15 1.10E-15 1.17E-15 3.99E-14
Cd-115 1.09E-14 1.25E-14 1.08E-14 1.04E-14 1.93E-14 1.11E-14 1.03E-14 1.12E-14 2.97E-14
Cd-117m 1.02E-13 1.15E-13 1.03E-13 1.02E-13 1.46E-13 1.05E-13 9.95E-14 1.05E-13 1.29E-13
Cd-117 5.31E-14 6.02E-14 5.33E-14 5.24E-14 8.23E-14 5.46E-14 5.14E-14 5.45E-14 8.79E-14
-------
63
Table III.l. Dose Coefficients for Air Submersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Indium
In-109 3.15E-14 3.59E-14 3.10E-14 3.00E-14 5.63E-14 3.20E-14 2.97E-14 3.21E-14 3.91E-14
In-llOb1 1.46E-13 1.66E-13 1.45E-13 1.42E-13 2.28E-13 1.49E-13 1.39E-13 1.49E-13 1.71E-13
In-110a2 7.44E-14 8.46E-14 7.43E-14 7.24E-14 1.22E-13 7.62E-14 7.12E-14 7.62E-14 1.29E-13
In-Ill 1.82E-14 2.10E-14 1.75E-14 1.62E-14 4.37E-14 1.83E-14 1.66E-14 1.86E-14 2.29E-14
In-112 1.24E-14 1.42E-14 1.22E-14 1.18E-14 2.16E-14 1.26E-14 1.17E-14 1.26E-14 2.88E-14
In-113m 1.18E-14 1.36E-14 1.16E-14 1.11E-14 2.27E-14 1.20E-14 1.11E-14 1.21E-14 2.18E-14
In-114m 4.13E-15 4.76E-15 3.98E-15 3.80E-15 7.98E-15 4.16E-15 3.80E-15 4.18E-15 1.05E-14
In-114 1.36E-16 1.55E-16 1.36E-16 1.34E-16 2.00E-16 1.40E-16 1.31E-16 1.39E-16 2.95E-15
In-115m 7.25E-15 8.34E-15 7.05E-15 6.70E-15 1.46E-14 7.32E-15 6.72E-15 7.39E-15 1.81E-14
In-115 4.69E-18 5.78E-18 3.78E-18 3.16E-18 1.39E-17 4.38E-18 3.59E-18 4.50E-18 6.18E-15
In-116m 1.22E-13 1.38E-13 1.23E-13 1.21E-13 1.78E-13 1.25E-13 1.18E-13 1.25E-13 1.58E-13
In-117m 4.12E-15 4.74E-15 3.96E-15 3.71E-15 9.24E-15 4.14E-15 3.76E-15 4.19E-15 3.17E-14
In-117 3.23E-14 3.70E-14 3.19E-14 3.05E-14 6.19E-14 3.29E-14 3.04E-14 3.31E-14 5.16E-14
In-119m 6.18E-16 7.28E-16 5.66E-16 5.40E-16 1.20E-15 6.12E-16 5.45E-16 6.14E-16 7.11E-14
In-119 3.67E-14 4.17E-14 3.65E-14 3.56E-14 5.82E-14 3.75E-14 3.49E-14 3.74E-14 8.20E-14
Tin
Sn-110 1.35E-14 1.55E-14 1.30E-14 1.23E-14 2.90E-14 1.36E-14 1.24E-14 1.37E-14 1.66E-14
Sn-111 2.39E-14 2.73E-14 2.38E-14 2.32E-14 3.95E-14 2.45E-14 2.29E-14 2.45E-14 4.22E-14
Sn-113 4.40E-16 5.90E-16 2.68E-16 2.58E-16 8.59E-16 3.84E-16 2.78E-16 3.82E-16 8.20E-16
Sn-117m 6.73E-15 7.83E-15 6.29E-15 5.70E-15 1.79E-14 6.68E-15 5.94E-15 6.82E-15 1.25E-14
Sn-119m 1.40E-16 2.14E-16 3.58E-17 3.65E-17 2.40E-16 1.04E-16 5.07E-17 1.01E-16 3.42E-16
Sn-121m 7.92E-17 1.14E-16 2.91E-17 2.45E-17 1.62E-16 6.15E-17 3.41E-17 6.02E-17 1.07E-15
Sn-121 2.51E-18 3.14E-18 1.93E-18 1.59E-18 7.46E-18 2.30E-18 1.85E-18 2.37E-18 3.71E-15
Sn-123m 6.42E-15 7.40E-15 6.12E-15 5.55E-15 1.71E-14 6.41E-15 5.77E-15 6.55E-15 3.58E-14
Sn-123 3.96E-16 4.51E-16 3.91E-16 3.80E-16 6.50E-16 4.04E-16 3.75E-16 4.03E-16 3.28E-14
Sn-125 1.55E-14 1.75E-14 1.55E-14 1.53E-14 2.31E-14 1.59E-14 1.49E-14 1.58E-14 7.13E-14
Sn-126 2.13E-15 2.55E-15 1.85E-15 1.53E-15 6.94E-15 2.03E-15 1.73E-15 2.11E-15 6.65E-15
Sn-127 9.35E-14 1.06E-13 9.39E-14 9.25E-14 1.41E-13 9.62E-14 9.04E-14 9.59E-14 1.41E-13
Sn-128 2.96E-14 3.41E-14 2.87E-14 2.74E-14 5.46E-14 2.98E-14 2.74E-14 3.00E-14 4.50E-14
Antimony
Sb-115 4.23E-14 4.84E-14 4.19E-14 4.04E-14 7.42E-14 4.30E-14 4.00E-14 4.32E-14 6.52E-14
Sb-116m 1.51E-13 1.72E-13 1.51E-13 1.48E-13 2.37E-13 1.55E-13 1.45E-13 1.55E-13 1.82E-13
Sb-116 1.05E-13 1.19E-13 1.06E-13 1.05E-13 1.58E-13 1.08E-13 1.02E-13 1.08E-13 1.50E-13
Sb-117 7.88E-15 9.16E-15 7.40E-15 6.79E-15 1.96E-14 7.84E-15 7.01E-15 7.97E-15 1.03E-14
Sb-118m 1.25E-13 1.41E-13 1.24E-13 1.22E-13 1.92E-13 1.28E-13 1.19E-13 1.27E-13 1.46E-13
Sb-119 2.98E-16 4.50E-16 7.87E-17 7.82E-17 5.17E-16 2.22E-16 1.09E-16 2.16E-16 7.09E-16
Sb-120b3 1.19E-13 1.35E-13 1.18E-13 1.16E-13 1.89E-13 1.22E-13 1.14E-13 1.22E-13 1.39E-13
Sb-120a4 2.09E-14 2.39E-14 2.06E-14 1.99E-14 3.65E-14 2.12E-14 1.97E-14 2.13E-14 4.46E-14
Sb-122 2.09E-14 2.38E-14 2.07E-14 2.01E-14 3.54E-14 2.13E-14 1.98E-14 2.13E-14 6.03E-14
Sb-124n5 9.41E-19 1.44E-18 2.27E-19 2.39E-19 1.57E-18 6.94E-19 3.33E-19 6.75E-19 2.33E-18
Sb-124m6 1.66E-14 1.89E-14 1.65E-14 1.60E-14 2.81E-14 1.69E-14 1.58E-14 1.70E-14 2.46E-14
Sb-124 8.89E-14 1.01E-13 8.97E-14 8.85E-14 1.34E-13 9.15E-14 8.66E-14 9.15E-14 1.26E-13
Sb-125 1.98E-14 2.27E-14 1.95E-14 1.87E-14 3.53E-14 2.01E-14 1.86E-14 2.02E-14 2.65E-14
Sb-126m 7.33E-14 8.36E-14 7.29E-14 7.07E-14 1.24E-13 7.49E-14 6.97E-14 7.50E-14 1.24E-13
Sb-126 1.35E-13 1.53E-13 1.34E-13 1.30E-13 2.22E-13 1.37E-13 1.28E-13 1.37E-13 1.73E-13
Sb-127 3.26E-14 3.72E-14 3.24E-14 3.14E-14 5.52E-14 3.33E-14 3.09E-14 3.33E-14 5.58E-14
Sb-128b7 1.47E-13 1.68E-13 1.47E-13 1.43E-13 2.42E-13 1.51E-13 1.40E-13 1.51E-13 1.99E-13
Sb-128a8 9.49E-14 1.08E-13 9.42E-14 9.17E-14 1.57E-13 9.70E-14 9.02E-14 9.69E-14 1.73E-13
Sb-129 6.97E-14 7.91E-14 6.98E-14 6.86E-14 1.07E-13 7.16E-14 6.71E-14 7.14E-14 1.05E-13
Sb-130 1.57E-13 1.78E-13 1.56E-13 1.52E-13 2.55E-13 1.61E-13 1.50E-13 1.60E-13 2.29E-13
Sb-131 9.14E-14 1.03E-13 9.18E-14 9.06E-14 1.36E-13 9.40E-14 8.85E-14 9.37E-14 1.40E-13
Tellurium
Te-116 2.37E-15 2.89E-15 1.97E-15 1.75E-15 6.20E-15 2.26E-15 1.89E-15 2.29E-15 3.37E-15
Te-121m 9.76E-15 1.12E-14 9.33E-15 8.74E-15 2.20E-14 9.79E-15 8.87E-15 9.90E-15 1.23E-14
TK = 4.9 h
TK = 69.1 m
TK = 5.76 d
TK = 15.89 m
TK = 20.2 m
TK = 93 s
TK = 9.01 h
T* = 10.4 m
-------
64
Table III.l. Dose Coefficients for Air Submersion
Dose
Nuclide
Gonad
Tellurium,
Te-121
Te-123m
Te-123
Te-125m
Te-127m
Te-127
Te-129m
Te-129
Te-131m
Te-131
Te-132
Te-133m
Te-133
Te-134
Iodine
I-120m
1-120
1-121
1-122
1-123
1-124
1-125
1-126
1-128
1-129
1-130
1-131
I-132m
1-132
1-133
1-134
1-135
Xenon
Xe-120
Xe-121
Xe-122
Xe-123
Xe-125
Xe-127
Xe-129m
Xe-131m
Xe-133m
Xe-133
Xe-135m
Xe-135
Xe-138
Cesium
Cs-125
Cs-126
Cs-127
Cs-128
Cs-129
Cs-130
Cs-131
Cs-132
Cs-134m
Cs-134
Cs-135m
Cs-135
Cs-136
2
6
2
5
1
2
1
2
6
1
1
1
4
4
2
1
1
4
7
5
6
2
4
4
1
1
1
1
2
1
7
1
8
2
2
1
1
1
4
1
1
2
1
5
3
5
1
4
1
2
4
3
9
7
7
6
1
Breast
Lung
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
nr
J)
Remainder
Effective
Skin
cont ' d
.65E
.43E
.91E
.96E
.90E
.37E
.56E
.71E
.85E
.99E
. 02E
. 12E
.49E
.16E
.58E
.34E
.91E
.46E
.22E
.25E
. 92E
.HE
.07E
.83E
.DIE
.78E
.50E
.09E
.87E
.27E
.77E
. 92E
.90E
.51E
.97E
.18E
.23E
.23E
.57E
.42E
.61E
.OOE
.17E
.59E
.15E
.13E
.90E
.23E
.22E
.40E
.25E
.28E
.30E
.40E
.60E
.28E
. 04E
-14
-15
-16
-16
-16
-16
-15
-15
-14
-14
-14
-13
-14
-14
-13
-13
-14
-14
-15
-14
-16
-14
-15
-16
-13
-14
-14
-13
-14
-13
-14
-14
-14
-15
-14
-14
-14
-15
-16
-15
-15
-14
-14
-14
-14
-14
-14
-14
-14
-14
-16
-14
-16
-14
-14
-19
-13
3
7
4
8
2
2
1
3
7
2
1
1
5
4
2
1
2
5
8
5
9
2
4
6
1
2
1
1
3
1
8
2
1
2
3
1
1
1
6
1
1
2
1
6
3
5
2
4
1
2
5
3
1
8
8
8
1
. 04E
.46E
.27E
.48E
.69E
.73E
.81E
. 12E
.78E
.28E
.18E
.27E
.IDE
.75E
.93E
. 52E
.19E
.IDE
.42E
.97E
.90E
.42E
.67E
.66E
.16E
. 04E
.71E
.24E
.28E
.44E
.79E
.21E
.DIE
.99E
.39E
.37E
.42E
.60E
. 02E
.70E
.96E
.29E
.33E
.32E
.61E
.87E
.19E
.83E
.42E
.75E
. 92E
.75E
. 12E
.43E
. 64E
.23E
.18E
-14
-15
-16
-16
-16
-16
-15
-15
-14
-14
-14
-13
-14
-14
-13
-13
-14
-14
-15
-14
-16
-14
-15
-16
-13
-14
-14
-13
-14
-13
-14
-14
-13
-15
-14
-14
-14
-15
-16
-15
-15
-14
-14
-14
-14
-14
-14
-14
-14
-14
-16
-14
-15
-14
-14
-19
-13
2
6
9
2
7
2
1
2
6
1
9
1
4
4
2
1
1
4
6
5
2
2
4
2
1
1
1
1
2
1
7
1
8
2
2
1
1
7
2
1
1
1
1
5
3
5
1
4
1
2
1
3
7
7
7
4
1
.61E
. 02E
.DIE
.23E
. 62E
.32E
.46E
. 64E
.83E
.96E
.65E
. 12E
.47E
.IDE
.59E
.35E
.85E
.43E
.70E
.25E
.48E
.09E
.DIE
. 14E
.DIE
.76E
.48E
.09E
.86E
.27E
. 84E
.85E
.93E
.22E
.93E
. 12E
.17E
.55E
.67E
.19E
.32E
.98E
.13E
.66E
. 12E
.08E
.85E
.19E
.17E
.37E
.75E
.24E
. 84E
.37E
.57E
.19E
. 04E
-14
-15
-17
-16
-17
-16
-15
-15
-14
-14
-15
-13
-14
-14
-13
-13
-14
-14
-15
-14
-16
-14
-15
-16
-13
-14
-14
-13
-14
-13
-14
-14
-14
-15
-14
-14
-14
-16
-16
-15
-15
-14
-14
-14
-14
-14
-14
-14
-14
-14
-16
-14
-16
-14
-14
-19
-13
2.53E-14 4.55E-14 2.69E-14
5.45E-15 1.71E-14 6.38E-15
8.12E-17 5.42E-16 2.20E-16
1.86E-16 1.22E-15 4.64E-16
6.43E-17 3.94E-16 1.50E-16
2.21E-16 4.65E-16 2.40E-16
1.42E-15 2.60E-15 1.56E-15
2.54E-15 4.88E-15 2.74E-15
6.68E-14 1.09E-13 7.02E-14
1.88E-14 3.80E-14 2.03E-14
8.95E-15 2.42E-14 1.02E-14
1.09E-13 1.75E-13 1.15E-13
4.36E-14 7.50E-14 4.59E-14
3.94E-14 7.56E-14 4.23E-14
2.55E-13 3.99E-13 2.66E-13
1.33E-13 2.08E-13 1.38E-13
1.76E-14 3.87E-14 1.92E-14
4.28E-14 7.78E-14 4.55E-14
6.11E-15 1.85E-14 7.15E-15
5.14E-14 8.31E-14 5.38E-14
2.07E-16 1.39E-15 5.34E-16
2.02E-14 3.66E-14 2.15E-14
3.85E-15 7.47E-15 4.13E-15
1.64E-16 1.10E-15 3.86E-16
9.82E-14 1.68E-13 1.04E-13
1.68E-14 3.45E-14 1.81E-14
1.43E-14 2.54E-14 1.52E-14
1.07E-13 1.73E-13 1.12E-13
2.77E-14 4.87E-14 2.93E-14
1.25E-13 1.96E-13 1.30E-13
7.76E-14 1.13E-13 8.01E-14
1.78E-14 3.49E-14 1.94E-14
8.79E-14 1.39E-13 9.15E-14
2.07E-15 5.31E-15 2.45E-15
2.83E-14 5.30E-14 3.02E-14
1.05E-14 2.62E-14 1.18E-14
1.08E-14 2.88E-14 1.23E-14
6.45E-16 2.84E-15 1.07E-15
2.27E-16 1.06E-15 3.91E-16
1.10E-15 3.23E-15 1.36E-15
1.07E-15 5.13E-15 1.51E-15
1.91E-14 3.50E-14 2.04E-14
1.07E-14 2.57E-14 1.18E-14
5.60E-14 8.46E-14 5.77E-14
3.01E-14 5.54E-14 3.21E-14
4.89E-14 9.18E-14 5.22E-14
1.77E-14 3.59E-14 1.92E-14
4.04E-14 7.46E-14 4.30E-14
1.11E-14 2.36E-14 1.23E-14
2.29E-14 4.20E-14 2.44E-14
1.36E-16 9.15E-16 3.35E-16
3.15E-14 5.38E-14 3.34E-14
6.81E-16 2.61E-15 8.88E-16
7.19E-14 1.20E-13 7.57E-14
7.41E-14 1.19E-13 7.79E-14
3.34E-19 1.81E-18 5.50E-19
1.01E-13 1.66E-13 1.07E-13
2
5
1
2
8
2
1
2
6
1
9
1
4
3
2
1
1
4
6
5
2
1
3
2
9
1
1
1
2
1
7
1
8
2
2
1
1
7
2
1
1
1
1
5
2
4
1
4
1
2
1
3
7
7
7
4
9
.50E
.68E
. 14E
.59E
. 64E
.21E
.41E
. 52E
.55E
.87E
.16E
.07E
.29E
.91E
.50E
.30E
.76E
.23E
.35E
.05E
.93E
.99E
.83E
.30E
.66E
.67E
.41E
.05E
.73E
.22E
.57E
.77E
. 62E
.13E
.80E
.06E
.HE
.60E
.71E
.15E
.24E
.89E
.08E
.49E
.98E
.85E
.77E
.OOE
. 12E
.26E
.93E
.IDE
.45E
.06E
.25E
.09E
.95E
-14
-15
-16
-16
-17
-16
-15
-15
-14
-14
-15
-13
-14
-14
-13
-13
-14
-14
-15
-14
-16
-14
-15
-16
-14
-14
-14
-13
-14
-13
-14
-14
-14
-15
-14
-14
-14
-16
-16
-15
-15
-14
-14
-14
-14
-14
-14
-14
-14
-14
-16
-14
-16
-14
-14
-19
-14
2
6
2
4
1
2
1
2
7
2
1
1
4
4
2
1
1
4
7
5
5
2
4
3
1
1
1
1
2
1
7
1
9
2
3
1
1
1
3
1
1
2
1
5
3
5
1
4
1
2
3
3
9
7
7
5
1
.70E
.51E
.15E
.53E
.47E
.42E
.55E
.75E
.DIE
. 04E
.03E
. 14E
.60E
.24E
.65E
.38E
. 94E
.56E
.28E
.38E
.22E
.15E
.16E
.80E
. 04E
. 82E
.53E
. 12E
. 94E
.30E
.98E
. 94E
. 14E
.46E
.03E
.19E
.25E
.06E
.89E
.37E
.56E
. 04E
.19E
.77E
.22E
.24E
.93E
.32E
.24E
.45E
.28E
.34E
.05E
.57E
.76E
.65E
.06E
-14
-15
-16
-16
-16
-16
-15
-15
-14
-14
-14
-13
-14
-14
-13
-13
-14
-14
-15
-14
-16
-14
-15
-16
-13
-14
-14
-13
-14
-13
-14
-14
-14
-15
-14
-14
-14
-15
-16
-15
-15
-14
-14
-14
-14
-14
-14
-14
-14
-14
-16
-14
-16
-14
-14
-19
-13
3
8
6
1
8
1
1
3
8
6
1
1
1
6
3
2
2
1
9
7
1
3
5
1
1
2
2
1
5
1
1
2
1
3
4
1
1
8
4
1
4
2
3
1
5
1
2
1
1
5
7
3
2
9
9
9
1
.18E-14
.48E-15
.32E-16
.94E-15
.49E-16
.14E-14
.49E-14
.57E-14
.85E-14
.89E-14
.39E-14
.74E-13
.06E-13
.35E-14
.86E-13
.55E-13
.72E-14
.25E-13
.40E-15
.39E-14
.39E-15
.37E-14
.38E-14
.10E-15
.36E-13
.98E-14
.22E-14
.58E-13
.83E-14
.87E-13
.11E-13
.40E-14
.40E-13
.36E-15
.52E-14
.50E-14
.57E-14
.29E-15
.82E-15
.04E-14
.97E-15
.97E-14
.12E-14
.07E-13
.97E-14
.62E-13
.38E-14
.07E-13
.52E-14
.48E-14
.84E-16
.92E-14
.88E-15
.45E-14
.10E-14
.06E-16
.25E-13
-------
65
Table III.l. Dose Coefficients for Air Submersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Cesium, cont'd
Cs-137 7.96E-18 9.67E-18 6.68E-18 5.70E-18 2.29E-17 7.55E-18 6.34E-18 7.74E-18 8.63E-15
Cs-138 1.17E-13 1.33E-13 1.19E-13 1.18E-13 1.70E-13 1.21E-13 1.15E-13 1.21E-13 2.17E-13
Barium
Ba-126 6.99E-15 8.10E-15 6.62E-15 6.27E-15 1.39E-14 6.98E-15 6.32E-15 7.03E-15 9.26E-15
Ba-128 2.91E-15 3.44E-15 2.58E-15 2.39E-15 6.38E-15 2.84E-15 2.47E-15 2.86E-15 3.85E-15
Ba-131m 3.05E-15 3.62E-15 2.72E-15 2.33E-15 9.32E-15 2.96E-15 2.55E-15 3.04E-15 3.94E-15
Ba-131 2.06E-14 2.38E-14 2.00E-14 1.90E-14 4.08E-14 2.08E-14 1.90E-14 2.10E-14 2.55E-14
Ba-133m 2.64E-15 3.10E-15 2.39E-15 2.22E-15 5.81E-15 2.60E-15 2.28E-15 2.62E-15 1.36E-14
Ba-133 1.76E-14 2.04E-14 1.68E-14 1.58E-14 3.75E-14 1.76E-14 1.60E-14 1.78E-14 2.19E-14
Ba-135m 2.35E-15 2.77E-15 2.10E-15 1.94E-15 5.22E-15 2.30E-15 2.01E-15 2.32E-15 1.30E-14
Ba-137m 2.82E-14 3.22E-14 2.80E-14 2.73E-14 4.63E-14 2.88E-14 2.68E-14 2.88E-14 3.73E-14
Ba-139 2.13E-15 2.45E-15 2.03E-15 1.87E-15 5.29E-15 2.13E-15 1.92E-15 2.17E-15 6.16E-14
Ba-140 8.41E-15 9.64E-15 8.27E-15 7.93E-15 1.55E-14 8.53E-15 7.89E-15 8.58E-15 2.52E-14
Ba-141 4.06E-14 4.63E-14 4.03E-14 3.91E-14 7.17E-14 4.15E-14 3.87E-14 4.16E-14 1.07E-13
Ba-142 5.04E-14 5.73E-14 5.02E-14 4.91E-14 8.09E-14 5.17E-14 4.81E-14 5.15E-14 8.37E-14
Lanthanum
La-131 3.08E-14 3.54E-14 3.02E-14 2.89E-14 5.81E-14 3.12E-14 2.88E-14 3.14E-14 4.87E-14
La-132 9.75E-14 1.11E-13 9.78E-14 9.59E-14 1.54E-13 l.OOE-13 9.41E-14 l.OOE-13 1.49E-13
La-134 3.27E-14 3.74E-14 3.24E-14 3.13E-14 5.72E-14 3.33E-14 3.10E-14 3.35E-14 8.88E-14
La-135 1.02E-15 1.28E-15 7.33E-16 6.52E-16 2.11E-15 9.28E-16 7.22E-16 9.21E-16 1.49E-15
La-137 5.10E-16 6.93E-16 2.40E-16 1.79E-16 1.20E-15 4.13E-16 2.52E-16 4.06E-16 8.68E-16
La-138 6.04E-14 6.85E-14 6.08E-14 6.02E-14 8.78E-14 6.22E-14 5.88E-14 6.20E-14 7.09E-14
La-140 1.14E-13 1.29E-13 1.15E-13 1.14E-13 1.69E-13 1.18E-13 1.11E-13 1.17E-13 1.66E-13
La-141 2.33E-15 2.64E-15 2.34E-15 2.31E-15 3.49E-15 2.39E-15 2.26E-15 2.39E-15 6.58E-14
La-142 1.40E-13 1.57E-13 1.42E-13 1.42E-13 1.95E-13 1.45E-13 1.38E-13 1.44E-13 2.16E-13
La-143 5.04E-15 5.70E-15 5.07E-15 5.01E-15 7.59E-15 5.19E-15 4.90E-15 5.18E-15 9.64E-14
Cerium
Ce-134 5.83E-16 7.84E-16 2.92E-16 2.15E-16 1.43E-15 4.78E-16 3.00E-16 4.71E-16 9.60E-16
Ce-135 8.35E-14 9.54E-14 8.28E-14 7.98E-14 1.48E-13 8.51E-14 7.91E-14 8.54E-14 1.10E-13
Ce-137m 2.01E-15 2.39E-15 1.76E-15 1.61E-15 4.51E-15 1.95E-15 1.68E-15 1.96E-15 1.20E-14
Ce-137 9.85E-16 1.25E-15 6.86E-16 5.93E-16 2.16E-15 8.86E-16 6.76E-16 8.81E-16 1.45E-15
Ce-139 6.72E-15 7.85E-15 6.16E-15 5.55E-15 1.76E-14 6.61E-15 5.82E-15 6.73E-15 8.94E-15
Ce-141 3.38E-15 3.93E-15 3.17E-15 2.83E-15 9.41E-15 3.35E-15 2.98E-15 3.43E-15 1.02E-14
Ce-143 1.28E-14 1.47E-14 1.23E-14 1.17E-14 2.52E-14 1.28E-14 1.17E-14 1.29E-14 3.96E-14
Ce-144 8.53E-16 1.01E-15 7.69E-16 6.68E-16 2.49E-15 8.33E-16 7.23E-16 8.53E-16 2.93E-15
Praseodymium
Pr-136 1.01E-13 1.15E-13 1.01E-13 9.85E-14 1.63E-13 1.03E-13 9.69E-14 1.03E-13 1.69E-13
Pr-137 2.32E-14 2.65E-14 2.28E-14 2.20E-14 4.03E-14 2.35E-14 2.18E-14 2.36E-14 4.01E-14
Pr-138m 1.18E-13 1.35E-13 1.18E-13 1.15E-13 1.91E-13 1.21E-13 1.13E-13 1.21E-13 1.52E-13
Pr-138 3.84E-14 4.39E-14 3.80E-14 3.67E-14 6.74E-14 3.91E-14 3.63E-14 3.92E-14 1.25E-13
Pr-139 5.17E-15 6.02E-15 4.87E-15 4.64E-15 9.34E-15 5.17E-15 4.67E-15 5.17E-15 8.75E-15
Pr-142m 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pr-142 3.06E-15 3.46E-15 3.10E-15 3.07E-15 4.43E-15 3.16E-15 3.00E-15 3.15E-15 5.67E-14
Pr-143 2.13E-17 2.55E-17 1.86E-17 1.62E-17 5.93E-17 2.05E-17 1.76E-17 2.10E-17 1.76E-14
Pr-144m 3.25E-16 4.20E-16 2.00E-16 1.56E-16 8.16E-16 2.81E-16 1.98E-16 2.79E-16 5.08E-16
Pr-144 1.90E-15 2.15E-15 1.90E-15 1.87E-15 2.99E-15 1.95E-15 1.84E-15 1.95E-15 8.43E-14
Pr-145 7.24E-16 8.27E-16 7.11E-16 6.88E-16 1.23E-15 7.37E-16 6.81E-16 7.36E-16 4.44E-14
Pr-147 4.07E-14 4.65E-14 4.02E-14 3.89E-14 7.01E-14 4.14E-14 3.85E-14 4.15E-14 9.75E-14
Neodymium
Nd-136 1.26E-14 1.47E-14 1.19E-14 1.11E-14 2.63E-14 1.26E-14 1.13E-14 1.27E-14 1.71E-14
Nd-138 1.37E-15 1.69E-15 1.04E-15 8.93E-16 3.29E-15 1.26E-15 1.01E-15 1.27E-15 1.92E-15
Nd-139m 7.48E-14 8.51E-14 7.42E-14 7.23E-14 1.20E-13 7.65E-14 7.11E-14 7.63E-14 9.17E-14
Nd-139 1.87E-14 2.14E-14 1.83E-14 1.77E-14 3.26E-14 1.90E-14 1.75E-14 1.90E-14 3.50E-14
Nd-141m 3.62E-14 4.12E-14 3.60E-14 3.52E-14 5.76E-14 3.71E-14 3.45E-14 3.70E-14 4.67E-14
Nd-141 2.94E-15 3.48E-15 2.63E-15 2.47E-15 5.50E-15 2.89E-15 2.53E-15 2.88E-15 4.24E-15
Nd-147 6.13E-15 7.12E-15 5.82E-15 5.40E-15 1.32E-14 6.12E-15 5.53E-15 6.19E-15 1.95E-14
Nd-149 1.78E-14 2.04E-14 1.72E-14 1.62E-14 3.74E-14 1.79E-14 1.64E-14 1.81E-14 4.99E-14
Nd-151 4.39E-14 4.99E-14 4.35E-14 4.21E-14 7.57E-14 4.48E-14 4.17E-14 4.48E-14 9.12E-14
Promethium
Pm-141 3.52E-14 4.02E-14 3.50E-14 3.39E-14 5.94E-14 3.59E-14 3.35E-14 3.60E-14 8.42E-14
Pm-142 4.12E-14 4.71E-14 4.09E-14 3.95E-14 7.18E-14 4.20E-14 3.91E-14 4.22E-14 1.44E-13
Pm-143 1.44E-14 1.65E-14 1.40E-14 1.36E-14 2.38E-14 1.46E-14 1.34E-14 1.46E-14 1.72E-14
-------
66
Table III.l. Dose Coefficients for Air Submersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Promethium, cont'd
Pm-144 7.33E-14 8.37E-14 7.26E-14 7.04E-14 1.23E-13 7.47E-14 6.94E-14 7.48E-14 8.71E-14
Pm-145 8.23E-16 1.07E-15 5.04E-16 3.69E-16 2.32E-15 7.07E-16 4.94E-16 7.09E-16 1.22E-15
Pm-146 3.52E-14 4.03E-14 3.48E-14 3.37E-14 5.99E-14 3.59E-14 3.33E-14 3.59E-14 4.64E-14
Pm-147 7.48E-19 9.56E-19 5.45E-19 4.46E-19 2.18E-18 6.75E-19 5.26E-19 6.93E-19 8.11E-16
Pm-148m 9.47E-14 1.08E-13 9.42E-14 9.14E-14 1.58E-13 9.68E-14 9.01E-14 9.68E-14 1.18E-13
Pm-148 2.81E-14 3.19E-14 2.83E-14 2.79E-14 4.24E-14 2.89E-14 2.73E-14 2.89E-14 7.97E-14
Pm-149 5.30E-16 6.07E-16 5.17E-16 4.89E-16 1.10E-15 5.36E-16 4.91E-16 5.41E-16 2.19E-14
Pm-150 6.99E-14 7.92E-14 7.01E-14 6.89E-14 1.09E-13 7.18E-14 6.75E-14 7.17E-14 1.34E-13
Pm-151 1.48E-14 1.70E-14 1.44E-14 1.37E-14 2.99E-14 1.50E-14 1.37E-14 1.51E-14 3.32E-14
Samarium
Sm-141m 9.49E-14 1.08E-13 9.44E-14 9.19E-14 1.57E-13 9.70E-14 9.06E-14 9.71E-14 1.39E-13
Sm-141 6.70E-14 7.64E-14 6.68E-14 6.50E-14 1.12E-13 6.85E-14 6.41E-14 6.87E-14 1.27E-13
Sm-142 3.83E-15 4.50E-15 3.51E-15 3.27E-15 7.52E-15 3.78E-15 3.36E-15 3.79E-15 6.44E-15
Sm-145 1.83E-15 2.35E-15 1.18E-15 8.62E-16 5.39E-15 1.59E-15 1.14E-15 1.61E-15 2.64E-15
Sm-146 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-147 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-151 5.20E-20 8.80E-20 7.08E-21 1.13E-20 7.09E-20 3.58E-20 1.49E-20 3.61E-20 1.90E-19
Sm-153 2.33E-15 2.82E-15 1.97E-15 1.62E-15 7.29E-15 2.22E-15 1.85E-15 2.28E-15 1.45E-14
Sm-155 4.58E-15 5.36E-15 4.26E-15 3.71E-15 1.37E-14 4.52E-15 3.99E-15 4.65E-15 4.01E-14
Sm-156 5.36E-15 6.20E-15 5.05E-15 4.57E-15 1.40E-14 5.32E-15 4.76E-15 5.43E-15 1.46E-14
Europium
Eu-145 7.05E-14 8.01E-14 7.06E-14 6.95E-14 1.07E-13 7.24E-14 6.80E-14 7.22E-14 8.33E-14
Eu-146 1.20E-13 1.36E-13 1.20E-13 1.17E-13 1.89E-13 1.23E-13 1.15E-13 1.23E-13 1.43E-13
Eu-147 2.29E-14 2.62E-14 2.23E-14 2.14E-14 4.12E-14 2.32E-14 2.13E-14 2.32E-14 2.77E-14
Eu-148 1.03E-13 1.18E-13 1.03E-13 9.99E-14 1.69E-13 1.05E-13 9.84E-14 1.06E-13 1.22E-13
Eu-149 2.33E-15 2.80E-15 1.97E-15 1.75E-15 5.55E-15 2.23E-15 1.89E-15 2.25E-15 3.09E-15
Eu-lBOb1 7.02E-14 8.02E-14 6.94E-14 6.69E-14 1.24E-13 7.15E-14 6.63E-14 7.17E-14 8.50E-14
Eu-150a2 2.18E-15 2.50E-15 2.12E-15 2.03E-15 4.01E-15 2.20E-15 2.03E-15 2.21E-15 2.05E-14
Eu-152m 1.40E-14 1.59E-14 1.38E-14 1.35E-14 2.26E-14 1.43E-14 1.32E-14 1.42E-14 4.85E-14
Eu-152 5.53E-14 6.29E-14 5.50E-14 5.37E-14 8.89E-14 5.66E-14 5.28E-14 5.65E-14 6.90E-14
Eu-154 6.00E-14 6.81E-14 5.99E-14 5.87E-14 9.43E-14 6.15E-14 5.75E-14 6.14E-14 8.29E-14
Eu-155 2.49E-15 2.95E-15 2.22E-15 1.85E-15 8.09E-15 2.41E-15 2.07E-15 2.49E-15 3.39E-15
Eu-156 6.57E-14 7.42E-14 6.63E-14 6.56E-14 9.58E-14 6.78E-14 6.41E-14 6.75E-14 9.98E-14
Eu-157 1.16E-14 1.34E-14 1.11E-14 1.04E-14 2.37E-14 1.16E-14 1.06E-14 1.17E-14 3.57E-14
Eu-158 5.15E-14 5.84E-14 5.15E-14 5.06E-14 7.82E-14 5.29E-14 4.95E-14 5.27E-14 1.21E-13
Gadolinium
Gd-145 1.12E-13 1.26E-13 1.13E-13 1.12E-13 1.64E-13 1.15E-13 1.09E-13 1.15E-13 1.66E-13
Gd-146 l.OOE-14 1.19E-14 8.87E-15 7.60E-15 2.96E-14 9.72E-15 8.34E-15 9.95E-15 1.33E-14
Gd-147 6.32E-14 7.21E-14 6.24E-14 6.04E-14 1.09E-13 6.44E-14 5.97E-14 6.45E-14 7.67E-14
Gd-148 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-149 1.90E-14 2.18E-14 1.82E-14 1.72E-14 3.89E-14 1.91E-14 1.73E-14 1.92E-14 2.42E-14
Gd-151 2.29E-15 2.76E-15 1.89E-15 1.62E-15 6.16E-15 2.17E-15 1.80E-15 2.20E-15 3.25E-15
Gd-152 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-153 3.83E-15 4.66E-15 3.16E-15 2.56E-15 1.21E-14 3.61E-15 2.97E-15 3.71E-15 5.00E-15
Gd-159 2.19E-15 2.55E-15 2.07E-15 1.92E-15 4.74E-15 2.19E-15 1.97E-15 2.21E-15 1.91E-14
Terbium
Tb-147 7.61E-14 8.66E-14 7.57E-14 7.39E-14 1.23E-13 7.79E-14 7.26E-14 7.78E-14 1.27E-13
Tb-149 7.82E-14 8.87E-14 7.82E-14 7.67E-14 1.24E-13 8.02E-14 7.53E-14 8.02E-14 1.02E-13
Tb-150 8.06E-14 9.17E-14 8.06E-14 7.87E-14 1.30E-13 8.26E-14 7.74E-14 8.26E-14 1.31E-13
Tb-151 4.12E-14 4.73E-14 4.03E-14 3.85E-14 7.78E-14 4.18E-14 3.85E-14 4.20E-14 5.07E-14
Tb-153 9.87E-15 1.15E-14 9.16E-15 8.37E-15 2.31E-14 9.77E-15 8.69E-15 9.89E-15 1.23E-14
Tb-154 1.17E-13 1.32E-13 1.18E-13 1.18E-13 1.69E-13 1.21E-13 1.15E-13 1.21E-13 1.38E-13
Tb-155 5.62E-15 6.66E-15 4.98E-15 4.30E-15 1.58E-14 5.44E-15 4.69E-15 5.56E-15 7.29E-15
Tb-156m3 8.33E-16 1.04E-15 6.21E-16 4.58E-16 2.77E-15 7.55E-16 5.86E-16 7.75E-16 1.11E-15
Tb-156n4 1.23E-16 1.52E-16 9.56E-17 7.39E-17 3.98E-16 1.13E-16 9.02E-17 1.16E-16 3.56E-16
Tb-156 8.74E-14 9.95E-14 8.70E-14 8.49E-14 1.42E-13 8.95E-14 8.36E-14 8.94E-14 1.04E-13
Tb-157 7.57E-17 9.64E-17 5.13E-17 3.72E-17 2.35E-16 6.68E-17 4.91E-17 6.78E-17 1.06E-16
Tb-158 3.78E-14 4.30E-14 3.73E-14 3.63E-14 6.10E-14 3.86E-14 3.57E-14 3.84E-14 4.70E-14
1 TK = 34.2 y
2 TK = 12.62 h
3 TK = 24.4 y
4 TK = 5.0 h
-------
67
Table III.l. Dose Coefficients for Air Submersion
Dose
Nuclide
Terbium,
Tb-160
Tb-161
Gonad
cont '
5.
1.
42E
09E
d
-14
-15
Breast
6
1
.16E
.36E
-14
-15
Lung
5
8
.40E
.20E
-14
-16
Coefficient hT (Sv per Bq s nr
J)
R Marrow BSurface Thyroid Remainder
5.28E-14 8.59E-14 5.56E-14 5
6.36E-16 3.46E-15 9.90E-16 7
.18E
.79E
-14
-16
Effective
5
1
. 54E
. 02E
-14
-15
7
7
Skin
.34E-14
.69E-15
Dysprosium
Dy-155
Dy-157
Dy-159
Dy-165
Dy-166
Holmium
Ho-155
Ho-157
Ho-159
Ho-161
Ho-162m
Ho-162
Ho-164m
Ho-164
Ho-166m
Ho-166
Ho-167
Erbium
Er-161
Er-165
Er-169
Er-171
Er-172
Thulium
Tm-162
Tm-166
Tm-167
Tm-170
Tm-171
Tm-172
Tm-173
Tm-175
2.
1.
1.
1.
1.
1.
2.
1.
1.
2.
7.
1.
9.
8.
1.
1.
4.
1.
1.
1.
2.
8.
9.
6.
2.
2.
2.
1.
5.
72E
61E
38E
19E
45E
76E
21E
59E
87E
70E
32E
44E
71E
28E
40E
69E
33E
21E
86E
75E
42E
78E
HE
08E
27E
26E
35E
81E
01E
-14
-14
-15
-15
-15
-14
-14
-14
-15
-14
-15
-15
-16
-14
-15
-14
-14
-15
-18
-14
-14
-14
-14
-15
-16
-17
-14
-14
-14
3
1
1
1
1
2
2
1
2
3
8
1
1
9
1
1
4
1
2
2
2
9
1
7
2
2
2
2
5
.HE
.85E
. 74E
.38E
.77E
.03E
.55E
.85E
.35E
.08E
.49E
.80E
.21E
.43E
. 62E
. 94E
. 94E
.51E
.34E
.01E
.78E
.91E
.03E
.13E
. 72E
.76E
.66E
.07E
.71E
-14
-14
-15
-15
-15
-14
-14
-14
-15
-14
-15
-15
-15
-14
-15
-14
-14
-15
-18
-14
-14
-14
-13
-15
-16
-17
-14
-14
-14
2
1
9
1
1
1
2
1
1
2
6
1
7
8
1
1
4
8
1
1
2
8
9
5
1
1
2
1
4
.66E
. 54E
.66E
.13E
.20E
.71E
. 12E
.49E
.38E
. 64E
. 92E
.05E
.29E
.19E
.34E
.65E
.28E
.86E
.40E
.69E
.39E
. 82E
. 14E
.53E
. 94E
.80E
.36E
.78E
.99E
-14
-14
-16
-15
-15
-14
-14
-14
-15
-14
-15
-15
-16
-14
-15
-14
-14
-16
-18
-14
-14
-14
-14
-15
-16
-17
-14
-14
-14
2.55E-14 5.01E-14 2.76E-14 2
1.45E-14 3.42E-14 1.61E-14 1
7.04E-16 4.37E-15 1.23E-15 9
1.05E-15 2.58E-15 1.19E-15 1
9.60E-16 4.55E-15 1.36E-15 1
1.62E-14 3.42E-14 1.78E-14 1
2.00E-14 4.50E-14 2.22E-14 2
1.35E-14 3.86E-14 1.58E-14 1
1.05E-15 5.89E-15 1.70E-15 1
2.55E-14 4.68E-14 2.74E-14 2
6.51E-15 1.42E-14 7.32E-15 6
7.72E-16 4.67E-15 1.29E-15 9
5.47E-16 3.16E-15 8.83E-16 6
7.92E-14 1.44E-13 8.44E-14 7
1.26E-15 2.84E-15 1.41E-15 1
1.56E-14 3.50E-14 1.71E-14 1
4.17E-14 7.09E-14 4.42E-14 4
6.52E-16 3.96E-15 1.09E-15 8
1.14E-18 5.52E-18 1.69E-18 1
1.58E-14 3.90E-14 1.76E-14 1
2.29E-14 4.44E-14 2.46E-14 2
8.70E-14 1.33E-13 9.04E-14 8
9.00E-14 1.40E-13 9.37E-14 8
4.90E-15 1.60E-14 5.95E-15 5
1.56E-16 7.53E-16 2.15E-16 1
1.36E-17 7.68E-17 2.08E-17 1
2.34E-14 3.47E-14 2.42E-14 2
1.70E-14 3.47E-14 1.83E-14 1
4.85E-14 8.25E-14 5.13E-14 4
.55E
.47E
.20E
.07E
.13E
.63E
. 02E
.41E
.31E
.53E
. 62E
. 92E
.88E
. 82E
.28E
.57E
.HE
.38E
.34E
.61E
.28E
. 52E
. 82E
.22E
.81E
.68E
.28E
.70E
.78E
-14
-14
-16
-15
-15
-14
-14
-14
-15
-14
-15
-16
-16
-14
-15
-14
-14
-16
-18
-14
-14
-14
-14
-15
-16
-17
-14
-14
-14
2
1
1
1
1
1
2
1
1
2
7
1
9
8
1
1
4
1
1
1
2
9
9
6
2
2
2
1
5
.77E
.63E
.25E
.20E
.40E
.79E
.24E
.60E
.73E
. 74E
.35E
.32E
.05E
.45E
.42E
.73E
.42E
.HE
. 74E
.78E
.47E
.01E
.35E
.06E
.23E
.15E
.41E
.85E
.13E
-14
-14
-15
-15
-15
-14
-14
-14
-15
-14
-15
-15
-16
-14
-15
-14
-14
-15
-18
-14
-14
-14
-14
-15
-16
-17
-14
-14
-14
3
1
1
2
5
3
2
1
2
3
1
1
8
9
4
2
5
1
2
4
3
1
1
1
1
3
5
3
9
.27E-14
.94E-14
.89E-15
.82E-14
.79E-15
.46E-14
.90E-14
.98E-14
.59E-15
.22E-14
.01E-14
.93E-15
.33E-15
.90E-14
.46E-14
.95E-14
.23E-14
.61E-15
.83E-15
.22E-14
.21E-14
.24E-13
.08E-13
.17E-14
.81E-14
.17E-17
.76E-14
.89E-14
.10E-14
Ytterbium
Yb-162
Yb-166
Yb-167
Yb-169
Yb-175
Yb-177
Yb-178
Lutetium
Lu-169
Lu-170
Lu-171
Lu-172
Lu-173
Lu-174m
Lu-174
Lu-176m
Lu-176
Lu-177m
Lu-177
Lu-178m
Lu-178
Lu-179
5.
3 .
1.
1.
1.
9.
1.
4.
1.
3.
9.
5.
2.
5.
5.
2.
4.
1.
5.
6.
1.
66E
OOE
09E
29E
83E
03E
63E
98E
24E
20E
06E
17E
26E
45E
91E
27E
59E
59E
12E
92E
49E
-15
-15
-14
-14
-15
-15
-15
-14
-13
-14
-14
-15
-15
-15
-16
-14
-14
-15
-14
-15
-15
6
3
1
1
2
1
1
5
1
3
1
6
2
6
7
2
5
1
5
7
1
.67E
.68E
.29E
. 52E
.10E
.03E
.87E
.67E
.40E
.67E
.03E
.13E
. 72E
.33E
.05E
.60E
.28E
. 84E
.88E
.85E
.71E
-15
-15
-14
-14
-15
-14
-15
-14
-13
-14
-13
-15
-15
-15
-16
-14
-14
-15
-14
-15
-15
5
2
9
1
1
8
1
4
1
3
9
4
1
5
5
2
4
1
4
6
1
.10E
.38E
. 82E
.17E
.78E
.93E
.60E
. 94E
.26E
.13E
.01E
.55E
.88E
.HE
.19E
.20E
.42E
.51E
.98E
. 92E
.43E
-15
-15
-15
-14
-15
-15
-15
-14
-13
-14
-14
-15
-15
-15
-16
-14
-14
-15
-14
-15
-15
4.38E-15 1.67E-14 5.51E-15 4
1.81E-15 1.01E-14 2.77E-15 2
8.41E-15 3.21E-14 1.06E-14 9
1.01E-14 3.64E-14 1.26E-14 1
1.67E-15 3.86E-15 1.84E-15 1
8.64E-15 1.59E-14 9.22E-15 8
1.52E-15 3.22E-15 1.65E-15 1
4.82E-14 8.12E-14 5.09E-14 4
1.25E-13 1.78E-13 1.29E-13 1
3.01E-14 5.64E-14 3.25E-14 2
8.80E-14 1.45E-13 9.28E-14 8
3.89E-15 1.45E-14 4.98E-15 4
1.52E-15 6.88E-15 2.12E-15 1
4.74E-15 1.12E-14 5.42E-15 4
4.22E-16 1.97E-15 5.66E-16 4
2.05E-14 5.18E-14 2.28E-14 2
4.10E-14 1.06E-13 4.60E-14 4
1.37E-15 4.17E-15 1.58E-15 1
4.67E-14 1.11E-13 5.16E-14 4
6.78E-15 1.09E-14 7.10E-15 6
1.33E-15 3.50E-15 1.50E-15 1
.79E
.23E
.23E
.10E
.69E
.55E
.53E
.75E
.22E
.99E
. 64E
.29E
.77E
.88E
.83E
.08E
.18E
.42E
.73E
.67E
.36E
-15
-15
-15
-14
-15
-15
-15
-14
-13
-14
-14
-15
-15
-15
-16
-14
-14
-15
-14
-15
-15
5
2
1
1
1
9
1
5
1
3
9
5
2
5
5
2
4
1
5
7
1
.66E
.86E
.09E
.29E
.87E
.23E
.67E
.09E
.28E
.25E
.25E
.10E
.18E
.46E
.87E
.32E
.67E
. 62E
.23E
.09E
. 52E
-15
-15
-14
-14
-15
-15
-15
-14
-13
-14
-14
-15
-15
-15
-16
-14
-14
-15
-14
-15
-15
6
3
1
1
6
3
1
5
1
3
1
6
2
6
2
3
5
7
9
5
2
.99E-15
.88E-15
.38E-14
.73E-14
.93E-15
.60E-14
.07E-14
.90E-14
.46E-13
.80E-14
.07E-13
.45E-15
.89E-15
.53E-15
.72E-14
.74E-14
.89E-14
.13E-15
.06E-14
.68E-14
.99E-14
-------
68
Table III.l. Dose Coefficients for Air Submersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Hafnium
Hf-170 2.48E-14 2.86E-14 2.39E-14 2.24E-14 5.22E-14 2.49E-14 2.27E-14 2.52E-14 3.00E-14
Hf-172 4.18E-15 5.07E-15 3.47E-15 2.75E-15 1.38E-14 3.93E-15 3.25E-15 4.06E-15 5.46E-15
Hf-173 1.82E-14 2.11E-14 1.73E-14 1.58E-14 4.53E-14 1.82E-14 1.64E-14 1.85E-14 2.23E-14
Hf-175 1.67E-14 1.92E-14 1.60E-14 1.50E-14 3.60E-14 1.67E-14 1.52E-14 1.69E-14 2.15E-14
Hf-177m 1.04E-13 1.19E-13 1.01E-13 9.45E-14 2.28E-13 1.05E-13 9.57E-14 1.06E-13 1.39E-13
Hf-178m 1.10E-13 1.25E-13 1.07E-13 1.02E-13 2.18E-13 1.11E-13 1.02E-13 1.12E-13 1.36E-13
Hf-179m 4.13E-14 4.74E-14 4.01E-14 3.75E-14 8.92E-14 4.16E-14 3.80E-14 4.21E-14 5.26E-14
Hf-180m 4.64E-14 5.33E-14 4.52E-14 4.26E-14 9.71E-14 4.69E-14 4.30E-14 4.74E-14 5.82E-14
Hf-181 2.57E-14 2.95E-14 2.52E-14 2.39E-14 5.12E-14 2.60E-14 2.40E-14 2.62E-14 3.62E-14
Hf-182m 4.35E-14 4.97E-14 4.26E-14 4.05E-14 8.39E-14 4.40E-14 4.05E-14 4.43E-14 5.82E-14
Hf-182 1.11E-14 1.28E-14 1.08E-14 1.01E-14 2.52E-14 1.12E-14 1.02E-14 1.14E-14 1.46E-14
Hf-183 3.56E-14 4.06E-14 3.52E-14 3.40E-14 6.08E-14 3.62E-14 3.36E-14 3.63E-14 6.83E-14
Hf-184 1.12E-14 1.29E-14 1.07E-14 9.87E-15 2.66E-14 1.12E-14 1.01E-14 1.14E-14 3.12E-14
Tantalum
Ta-172 7.42E-14 8.45E-14 7.38E-14 7.18E-14 1.24E-13 7.59E-14 7.08E-14 7.59E-14 1.16E-13
Ta-173 2.70E-14 3.10E-14 2.64E-14 2.51E-14 5.11E-14 2.73E-14 2.52E-14 2.75E-14 5.08E-14
Ta-174 2.91E-14 3.34E-14 2.85E-14 2.71E-14 5.70E-14 2.95E-14 2.71E-14 2.97E-14 5.36E-14
Ta-175 4.45E-14 5.07E-14 4.41E-14 4.28E-14 7.62E-14 4.54E-14 4.24E-14 4.55E-14 5.32E-14
Ta-176 1.06E-13 1.20E-13 1.07E-13 1.06E-13 1.56E-13 1.09E-13 1.03E-13 1.09E-13 1.25E-13
Ta-177 2.58E-15 3.09E-15 2.22E-15 1.81E-15 7.97E-15 2.45E-15 2.08E-15 2.53E-15 3.36E-15
Ta-178b1 4.67E-14 5.37E-14 4.51E-14 4.20E-14 1.04E-13 4.69E-14 4.28E-14 4.75E-14 5.87E-14
Ta-178a2 4.61E-15 5.39E-15 4.27E-15 3.86E-15 1.07E-14 4.55E-15 4.06E-15 4.61E-15 5.65E-15
Ta-179 1.14E-15 1.39E-15 9.19E-16 6.96E-16 3.90E-15 1.05E-15 8.57E-16 1.09E-15 1.45E-15
Ta-180m 1.76E-15 2.14E-15 1.45E-15 1.12E-15 6.02E-15 1.64E-15 1.35E-15 1.71E-15 3.67E-15
Ta-180 2.55E-14 2.93E-14 2.45E-14 2.28E-14 5.83E-14 2.56E-14 2.33E-14 2.59E-14 3.26E-14
Ta-182m 1.10E-14 1.28E-14 1.03E-14 9.16E-15 3.01E-14 1.09E-14 9.69E-15 1.11E-14 1.93E-14
Ta-182 6.26E-14 7.11E-14 6.24E-14 6.10E-14 9.94E-14 6.42E-14 5.99E-14 6.40E-14 7.85E-14
Ta-183 1.30E-14 1.50E-14 1.23E-14 1.11E-14 3.27E-14 1.29E-14 1.16E-14 1.31E-14 2.62E-14
Ta-184 7.63E-14 8.70E-14 7.54E-14 7.27E-14 1.37E-13 7.78E-14 7.20E-14 7.80E-14 1.16E-13
Ta-185 8.63E-15 9.99E-15 8.14E-15 7.37E-15 2.17E-14 8.57E-15 7.69E-15 8.73E-15 5.20E-14
Ta-186 7.37E-14 8.41E-14 7.27E-14 6.98E-14 1.36E-13 7.49E-14 6.94E-14 7.53E-14 1.49E-13
Tungsten
W-176 7.06E-15 8.41E-15 6.20E-15 5.04E-15 2.36E-14 6.76E-15 5.78E-15 7.02E-15 8.74E-15
W-177 4.18E-14 4.79E-14 4.08E-14 3.87E-14 8.11E-14 4.23E-14 3.89E-14 4.26E-14 5.11E-14
W-178 4.79E-16 5.81E-16 3.92E-16 2.99E-16 1.65E-15 4.45E-16 3.65E-16 4.62E-16 6.09E-16
W-179 1.94E-15 2.39E-15 1.51E-15 1.15E-15 6.42E-15 1.77E-15 1.42E-15 1.83E-15 2.58E-15
W-181 1.45E-15 1.76E-15 1.19E-15 9.10E-16 5.00E-15 1.35E-15 1.11E-15 1.40E-15 1.84E-15
W-185 5.53E-18 6.72E-18 4.61E-18 3.83E-18 1.70E-17 5.21E-18 4.35E-18 5.37E-18 4.52E-15
W-187 2.24E-14 2.56E-14 2.21E-14 2.12E-14 4.00E-14 2.27E-14 2.11E-14 2.28E-14 4.09E-14
W-188 8.89E-17 1.02E-16 8.52E-17 7.90E-17 2.07E-16 8.90E-17 8.08E-17 9.04E-17 2.91E-15
Rhenium
Re-177 2.90E-14 3.32E-14 2.86E-14 2.74E-14 5.31E-14 2.94E-14 2.74E-14 2.96E-14 5.17E-14
Re-178 5.95E-14 6.72E-14 5.93E-14 5.78E-14 9.91E-14 6.10E-14 5.70E-14 6.09E-14 1.04E-13
Re-180 5.62E-14 6.40E-14 5.56E-14 5.40E-14 9.29E-14 5.74E-14 5.32E-14 5.72E-14 7.11E-14
Re-181 3.58E-14 4.10E-14 3.51E-14 3.35E-14 6.73E-14 3.63E-14 3.35E-14 3.65E-14 4.76E-14
Re-182b3 8.98E-14 1.02E-13 8.86E-14 8.54E-14 1.60E-13 9.14E-14 8.48E-14 9.16E-14 1.08E-13
Re-182a4 5.66E-14 6.43E-14 5.62E-14 5.48E-14 9.20E-14 5.79E-14 5.40E-14 5.78E-14 6.71E-14
Re-184m 1.79E-14 2.05E-14 1.74E-14 1.64E-14 3.62E-14 1.81E-14 1.65E-14 1.82E-14 2.19E-14
Re-184 4.22E-14 4.80E-14 4.16E-14 4.03E-14 7.07E-14 4.30E-14 3.98E-14 4.29E-14 5.00E-14
Re-186m 5.20E-16 6.35E-16 4.21E-16 3.23E-16 1.75E-15 4.82E-16 3.93E-16 5.00E-16 7.24E-16
Re-186 9.09E-16 1.06E-15 8.40E-16 7.27E-16 2.72E-15 8.93E-16 7.87E-16 9.19E-16 2.03E-14
Re-187 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Re-188m 3.06E-15 3.65E-15 2.65E-15 2.12E-15 1.04E-14 2.90E-15 2.46E-15 3.02E-15 3.91E-15
Re-188 2.81E-15 3.23E-15 2.74E-15 2.58E-15 6.02E-15 2.84E-15 2.61E-15 2.87E-15 5.35E-14
Re-189 3.17E-15 3.65E-15 3.03E-15 2.79E-15 7.74E-15 3.17E-15 2.87E-15 3.22E-15 2.15E-14
Osmium
Os-180 2.34E-15 2.80E-15 2.02E-15 1.65E-15 7.32E-15 2.22E-15 1.89E-15 2.30E-15 3.19E-15
1 TK = 2 .2 h
2 TK = 9.31 m
3 TK = 64.0 h
4 TV, = 12.7 h
-------
69
Table III.l. Dose Coefficients for Air Submersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Osmium, cont' d
Os-181 5.82E-14 6.63E-14 5.76E-14 5.58E-14 1.01E-13 5.94E-14 5.52E-14 5.94E-14 7.03E-14
Os-182 1.97E-14 2.27E-14 1.91E-14 1.79E-14 4.18E-14 1.99E-14 1.82E-14 2.01E-14 2.46E-14
Os-185 3.36E-14 3.84E-14 3.32E-14 3.20E-14 5.82E-14 3.42E-14 3.17E-14 3.43E-14 4.01E-14
Os-189m 8.32E-20 4.53E-19 1.28E-21 2.06E-20 1.12E-19 1.21E-20 3.69E-20 1.06E-19 7.16E-18
Os-190m 7.43E-14 8.50E-14 7.35E-14 7.05E-14 1.37E-13 7.56E-14 7.01E-14 7.60E-14 9.12E-14
Os-191m 2.81E-16 3.37E-16 2.38E-16 1.86E-16 9.73E-16 2.63E-16 2.21E-16 2.75E-16 3.67E-16
Os-191 3.20E-15 3.77E-15 2.89E-15 2.41E-15 1.03E-14 3.10E-15 2.69E-15 3.21E-15 4.35E-15
Os-193 3.34E-15 3.85E-15 3.22E-15 2.99E-15 7.45E-15 3.35E-15 3.05E-15 3.40E-15 2.44E-14
Os-194 3.08E-17 3.97E-17 2.06E-17 1.49E-17 9.43E-17 2.70E-17 1.98E-17 2.75E-17 5.22E-17
Iridium
Ir-182 6.35E-14 7.25E-14 6.29E-14 6.05E-14 1.14E-13 6.47E-14 6.01E-14 6.50E-14 1.35E-13
Ir-184 9.16E-14 1.04E-13 9.12E-14 8.86E-14 1.55E-13 9.37E-14 8.75E-14 9.38E-14 1.21E-13
Ir-185 2.87E-14 3.27E-14 2.85E-14 2.77E-14 4.94E-14 2.93E-14 2.75E-14 2.94E-14 3.52E-14
Ir-18631 7.87E-14 8.95E-14 7.83E-14 7.60E-14 1.35E-13 8.04E-14 7.51E-14 8.06E-14 9.55E-14
Ir-186b2 4.56E-14 5.20E-14 4.51E-14 4.35E-14 7.97E-14 4.64E-14 4.31E-14 4.65E-14 6.41E-14
Ir-187 1.66E-14 1.90E-14 1.61E-14 1.52E-14 3.23E-14 1.67E-14 1.53E-14 1.68E-14 2.03E-14
Ir-188 7.78E-14 8.81E-14 7.83E-14 7.72E-14 1.20E-13 8.01E-14 7.57E-14 8.01E-14 9.18E-14
Ir-189 3.23E-15 3.81E-15 2.87E-15 2.41E-15 9.89E-15 3.11E-15 2.69E-15 3.21E-15 4.14E-15
Ir-190n3 7.23E-14 8.28E-14 7.12E-14 6.80E-14 1.37E-13 7.34E-14 6.79E-14 7.39E-14 8.89E-14
Ir-190m4 1.06E-19 5.36E-19 7.98E-22 2.50E-20 1.35E-19 1.58E-20 4.29E-20 1.27E-19 7.52E-18
Ir-190 6.71E-14 7.69E-14 6.60E-14 6.30E-14 1.28E-13 6.81E-14 6.29E-14 6.86E-14 8.24E-14
Ir-191m 3.01E-15 3.55E-15 2.73E-15 2.29E-15 9.62E-15 2.92E-15 2.54E-15 3.02E-15 4.07E-15
Ir-192m 7.46E-15 8.59E-15 7.15E-15 6.49E-15 2.00E-14 7.47E-15 6.74E-15 7.63E-15 8.81E-15
Ir-192 3.83E-14 4.38E-14 3.76E-14 3.59E-14 7.50E-14 3.88E-14 3.59E-14 3.91E-14 5.53E-14
Ir-194m 1.10E-13 1.25E-13 1.09E-13 1.05E-13 1.97E-13 1.12E-13 1.04E-13 1.12E-13 1.34E-13
Ir-194 4.44E-15 5.06E-15 4.38E-15 4.21E-15 8.19E-15 4.51E-15 4.19E-15 4.54E-15 5.85E-14
Ir-195m 1.90E-14 2.18E-14 1.84E-14 1.72E-14 4.05E-14 1.91E-14 1.75E-14 1.93E-14 3.53E-14
Ir-195 2.32E-15 2.75E-15 2.06E-15 1.70E-15 7.63E-15 2.23E-15 1.92E-15 2.32E-15 2.19E-14
Platinum
Pt-186 3.46E-14 3.96E-14 3.42E-14 3.30E-14 6.00E-14 3.53E-14 3.27E-14 3.53E-14 4.10E-14
Pt-188 8.77E-15 1.02E-14 8.22E-15 7.34E-15 2.30E-14 8.66E-15 7.74E-15 8.86E-15 1.18E-14
Pt-189 1.46E-14 1.68E-14 1.40E-14 1.30E-14 3.16E-14 1.46E-14 1.33E-14 1.48E-14 1.82E-14
Pt-191 1.33E-14 1.54E-14 1.26E-14 1.14E-14 3.20E-14 1.32E-14 1.19E-14 1.34E-14 1.71E-14
Pt-193m 4.20E-16 5.01E-16 3.63E-16 2.88E-16 1.45E-15 3.97E-16 3.37E-16 4.15E-16 3.07E-15
Pt-193 3.58E-19 1.63E-18 2.61E-21 7.99E-20 4.34E-19 6.58E-20 1.30E-19 3.98E-19 2.07E-17
Pt-195m 2.85E-15 3.39E-15 2.51E-15 2.03E-15 9.64E-15 2.72E-15 2.33E-15 2.84E-15 5.92E-15
Pt-197m 3.46E-15 4.03E-15 3.24E-15 2.89E-15 8.95E-15 3.41E-15 3.05E-15 3.49E-15 1.86E-14
Pt-197 l.OOE-15 1.18E-15 9.18E-16 7.81E-16 3.10E-15 9.76E-16 8.57E-16 1.01E-15 1.06E-14
Pt-199 9.52E-15 1.09E-14 9.41E-15 9.03E-15 1.75E-14 9.68E-15 8.97E-15 9.73E-15 4.38E-14
Pt-200 2.53E-15 2.95E-15 2.34E-15 2.04E-15 7.22E-15 2.48E-15 2.19E-15 2.55E-15 1.13E-14
Gold
Au-193 6.79E-15 7.92E-15 6.28E-15 5.49E-15 1.90E-14 6.65E-15 5.90E-15 6.83E-15 9.16E-15
Au-194 5.16E-14 5.86E-14 5.15E-14 5.02E-14 8.58E-14 5.28E-14 4.96E-14 5.29E-14 6.19E-14
Au-195m 9.19E-15 1.05E-14 8.88E-15 8.26E-15 2.12E-14 9.23E-15 8.41E-15 9.37E-15 1.35E-14
Au-195 3.24E-15 3.85E-15 2.83E-15 2.27E-15 1.11E-14 3.08E-15 2.63E-15 3.21E-15 4.12E-15
Au-198m 2.61E-14 3.01E-14 2.49E-14 2.26E-14 6.81E-14 2.60E-14 2.34E-14 2.66E-14 3.75E-14
Au-198 1.89E-14 2.17E-14 1.87E-14 1.79E-14 3.58E-14 1.92E-14 1.78E-14 1.94E-14 4.08E-14
Au-199 4.00E-15 4.62E-15 3.80E-15 3.42E-15 1.09E-14 3.98E-15 3.57E-15 4.08E-15 8.23E-15
Au-200m 9.84E-14 1.12E-13 9.73E-14 9.36E-14 1.78E-13 l.OOE-13 9.28E-14 1.01E-13 1.27E-13
Au-200 1.33E-14 1.51E-14 1.33E-14 1.31E-14 2.11E-14 1.37E-14 1.28E-14 1.37E-14 6.36E-14
Au-201 2.51E-15 2.88E-15 2.48E-15 2.37E-15 4.63E-15 2.55E-15 2.36E-15 2.57E-15 2.78E-14
Mercury
Hg-193m 4.94E-14 5.64E-14 4.89E-14 4.71E-14 8.88E-14 5.03E-14 4.68E-14 5.05E-14 6.21E-14
Hg-193 8.61E-15 l.OOE-14 8.00E-15 7.04E-15 2.40E-14 8.46E-15 7.52E-15 8.69E-15 1.26E-14
Hg-194 7.05E-19 2.69E-18 6.10E-21 1.46E-19 7.98E-19 1.67E-19 2.16E-19 6.92E-19 2.65E-17
Hg-195m 9.47E-15 1.09E-14 9.14E-15 8.52E-15 2.08E-14 9.50E-15 8.67E-15 9.63E-15 1.38E-14
Hg-195 9.08E-15 1.05E-14 8.73E-15 8.13E-15 1.93E-14 9.11E-15 8.29E-15 9.20E-15 1.11E-14
1 TK = 15.8 h
2 TK = 1.75 h
3 TK = 3 . 1 h
4 TV, = 1.2 h
-------
70
Table III.l. Dose Coefficients for Air Submersion
Dose
Nuclide
Mercury,
Hg-197m
Hg-197
Hg-199m
Hg-203
Thallium
Tl-194m
Tl-194
Tl-195
Tl-197
Tl-198m
Tl-198
Tl-199
Tl-200
Tl-201
Tl-202
Tl-204
Tl-206
Tl-207
Tl-208
Tl-209
Lead
Pb-195m
Pb-198
Pb-199
Pb-200
Pb-201
Pb-202m
Pb-202
Pb-203
Pb-205
Pb-209
Pb-210
Pb-211
Pb-212
Pb-214
Bismuth
Bi-200
Bi-201
Bi-202
Bi-203
Bi-205
Bi-206
Bi-207
Bi-210m
Bi-210
Bi-211
Bi-212
Bi-213
Bi-214
Polonium
Po-203
Po-205
Po-207
Po-210
Po-211
Po-212
Po-213
Po-214
Po-215
Po-216
Po-218
Gonad
cont '
3
2
8
1
1
3
6
1
5
9
1
6
3
2
5
6
1
1
9
7
2
7
9
3
9
3
1
4
8
6
2
6
1
1
6
1
1
8
1
7
1
3
2
9
6
7
7
7
6
4
3
0
0
4
8
8
4
.99E
.68E
.22E
.HE
.09E
. 62E
.17E
.89E
.57E
.81E
.HE
.27E
.77E
. 14E
. 64E
. 74E
.60E
. 72E
.95E
.51E
.OOE
.13E
.07E
.55E
.75E
.86E
.41E
.44E
.37E
.19E
.44E
.75E
.16E
. 14E
.38E
.30E
.17E
.26E
.58E
.37E
.20E
.32E
.17E
. 02E
.25E
.44E
.93E
. 62E
.38E
.08E
.73E
.0
.0
.OOE
.24E
. 12E
.39E
d
-15
-15
-15
-14
-13
-14
-14
-14
-14
-14
-14
-14
-15
-14
-17
-17
-16
-13
-14
-14
-14
-14
-15
-14
-14
-19
-14
-19
-18
-17
-15
-15
-14
-13
-14
-13
-13
-14
-13
-14
-14
-17
-15
-15
-15
-14
-14
-14
-14
-19
-16
-18
-18
-19
-19
Breast
4
3
9
1
1
4
7
2
6
1
1
7
4
2
6
7
1
1
1
8
2
8
1
4
1
1
1
2
1
8
2
7
1
1
7
1
1
9
1
8
1
3
2
1
7
8
9
8
7
4
4
0
0
4
9
9
4
. 64E
.18E
. 52E
.27E
.24E
.15E
.OOE
.17E
.37E
.HE
.28E
.13E
.44E
.46E
. 72E
.93E
. 84E
. 92E
.13E
.58E
.30E
.IDE
.05E
.06E
.HE
.88E
. 62E
.09E
. 02E
.18E
.79E
.76E
.33E
.29E
.26E
.48E
.32E
.36E
.79E
.38E
.37E
.95E
.49E
. 02E
.16E
.42E
.OOE
.65E
.25E
.63E
.24E
.0
.0
. 54E
.43E
.23E
.98E
-15
-15
-15
-14
-13
-14
-14
-14
-14
-13
-14
-14
-15
-14
-17
-17
-16
-13
-13
-14
-14
-14
-14
-14
-13
-18
-14
-18
-17
-17
-15
-15
-14
-13
-14
-13
-13
-14
-13
-14
-14
-17
-15
-14
-15
-14
-14
-14
-14
-19
-16
-18
-18
-19
-19
Lung
3
2
7
1
1
3
6
1
5
9
1
6
3
2
4
6
1
1
1
7
1
7
8
3
9
2
1
3
6
4
2
6
1
1
6
1
1
8
1
7
1
2
2
9
6
7
7
7
6
4
3
0
0
3
8
8
4
.73E
.35E
.80E
.08E
.08E
.57E
.19E
.85E
.49E
.87E
.07E
.24E
.39E
.09E
. 92E
.13E
.55E
.75E
.OOE
.43E
. 94E
.13E
.51E
.50E
.70E
.77E
.35E
.36E
.98E
.25E
.42E
.46E
.13E
. 12E
.33E
.30E
.17E
.32E
.57E
.35E
.17E
.95E
.13E
.03E
.17E
.51E
.91E
.60E
.34E
.06E
.71E
.0
.0
.98E
.15E
.09E
.37E
-15
-15
-15
-14
-13
-14
-14
-14
-14
-14
-14
-14
-15
-14
-17
-17
-16
-13
-13
-14
-14
-14
-15
-14
-14
-21
-14
-21
-18
-17
-15
-15
-14
-13
-14
-13
-13
-14
-13
-14
-14
-17
-15
-15
-15
-14
-14
-14
-14
-19
-16
-18
-18
-19
-19
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
3.26E-15 1.17E-14 3.93E-15
1.88E-15 9.18E-15 2.55E-15
7.00E-15 2.18E-14 8.17E-15
1.01E-14 2.45E-14 1.12E-14
1.04E-13 1.92E-13 1.11E-13
3.41E-14 6.76E-14 3.68E-14
6.08E-14 9.72E-14 6.34E-14
1.76E-14 3.72E-14 1.91E-14
5.26E-14 1.03E-13 5.66E-14
9.71E-14 1.52E-13 1.01E-13
9.79E-15 2.61E-14 1.11E-14
6.06E-14 1.05E-13 6.41E-14
2.81E-15 1.23E-14 3.63E-15
1.97E-14 4.33E-14 2.16E-14
4.01E-17 1.86E-16 5.37E-17
5.49E-17 1.74E-16 6.60E-17
1.47E-16 3.03E-16 1.62E-16
1.74E-13 2.42E-13 1.78E-13
9.86E-14 1.55E-13 1.02E-13
7.15E-14 1.34E-13 7.65E-14
1.81E-14 4.42E-14 2.01E-14
6.96E-14 1.16E-13 7.31E-14
7.52E-15 2.53E-14 8.96E-15
3.34E-14 6.68E-14 3.61E-14
9.45E-14 1.59E-13 9.98E-14
8.91E-20 4.82E-19 6.67E-20
1.24E-14 3.37E-14 1.41E-14
1.01E-19 5.47E-19 8.26E-20
5.93E-18 2.43E-17 7.91E-18
3.14E-17 1.95E-16 5.42E-17
2.34E-15 4.19E-15 2.49E-15
5.92E-15 1.68E-14 6.75E-15
1.06E-14 2.44E-14 1.17E-14
1.09E-13 1.97E-13 1.16E-13
6.16E-14 1.05E-13 6.52E-14
1.26E-13 2.12E-13 1.33E-13
1.16E-13 1.77E-13 1.20E-13
8.19E-14 1.26E-13 8.50E-14
1.54E-13 2.53E-13 1.62E-13
7.17E-14 1.19E-13 7.55E-14
1.10E-14 2.59E-14 1.21E-14
2.60E-17 8.98E-17 3.22E-17
2.01E-15 4.44E-15 2.19E-15
8.87E-15 1.39E-14 9.26E-15
5.91E-15 1.17E-14 6.35E-15
7.43E-14 1.09E-13 7.67E-14
7.74E-14 1.27E-13 8.13E-14
7.44E-14 1.21E-13 7.81E-14
6.18E-14 1.03E-13 6.53E-14
3.97E-19 6.39E-19 4.18E-19
3.62E-16 5.97E-16 3.82E-16
0.0 0.0 0.0
0.0 0.0 0.0
3.89E-18 6.27E-18 4.09E-18
7.81E-18 1.53E-17 8.37E-18
7.91E-19 1.27E-18 8.32E-19
4.28E-19 6.81E-19 4.50E-19
nr
J)
Remainder
3
2
7
1
1
3
5
1
5
9
1
5
3
1
4
5
1
1
9
7
1
6
7
3
9
1
1
1
6
4
2
6
1
1
6
1
1
8
1
7
1
2
2
8
5
7
7
7
6
3
3
0
0
3
7
7
4
.49E
.18E
.34E
. 02E
.03E
.40E
.97E
.77E
.24E
.53E
.DIE
.98E
.16E
.99E
.59E
.81E
.47E
.70E
.69E
.09E
. 84E
.85E
.99E
.33E
.29E
.51E
.28E
.68E
. 62E
.09E
.31E
.IDE
.07E
.08E
.07E
.24E
.13E
.03E
.51E
. 04E
.HE
.79E
. 02E
.69E
.89E
.26E
.60E
.30E
.08E
.89E
.56E
.0
.0
.81E
.77E
.75E
.19E
-15
-15
-15
-14
-13
-14
-14
-14
-14
-14
-14
-14
-15
-14
-17
-17
-16
-13
-14
-14
-14
-14
-15
-14
-14
-19
-14
-19
-18
-17
-15
-15
-14
-13
-14
-13
-13
-14
-13
-14
-14
-17
-15
-15
-15
-14
-14
-14
-14
-19
-16
-18
-18
-19
-19
Effective
4
2
8
1
1
3
6
1
5
1
1
6
3
2
5
6
1
1
1
7
2
7
9
3
9
4
1
5
8
5
2
6
1
1
6
1
1
8
1
7
1
3
2
9
6
7
8
7
6
4
3
0
0
4
8
8
4
.05E
.66E
.36E
.13E
.HE
.70E
.34E
.93E
.69E
.DIE
.13E
.42E
.78E
.18E
.59E
.73E
. 62E
.77E
. 02E
.68E
. 04E
.31E
.20E
.63E
.96E
. 52E
.44E
.06E
. 12E
. 64E
.49E
.87E
.18E
.16E
.51E
.33E
.20E
.49E
.61E
. 54E
.22E
.29E
.22E
.24E
.39E
.65E
. 12E
.80E
.51E
.16E
.81E
.0
.0
.08E
.43E
.29E
.48E
-15
-15
-15
-14
-13
-14
-14
-14
-14
-13
-14
-14
-15
-14
-17
-17
-16
-13
-13
-14
-14
-14
-15
-14
-14
-19
-14
-19
-18
-17
-15
-15
-14
-13
-14
-13
-13
-14
-13
-14
-14
-17
-15
-15
-15
-14
-14
-14
-14
-19
-16
-18
-18
-19
-19
1
3
2
1
1
4
7
2
7
1
1
7
4
2
1
3
3
2
1
9
2
8
1
4
1
2
1
2
9
1
3
1
2
1
8
1
1
9
1
9
1
2
3
4
3
1
1
9
7
4
4
0
0
4
1
9
7
Skin
.02E-14
.35E-15
.71E-14
.56E-14
.47E-13
.41E-14
.52E-14
.43E-14
.40E-14
.16E-13
.49E-14
.50E-14
.89E-15
.63E-14
.24E-14
.36E-14
.06E-14
.34E-13
.59E-13
.97E-14
.66E-14
.55E-14
.31E-14
.43E-14
.17E-13
.72E-17
.87E-14
.92E-17
.35E-15
.28E-16
.06E-14
.35E-14
.77E-14
.43E-13
.99E-14
.57E-13
.39E-13
.70E-14
.90E-13
.31E-14
.63E-14
.30E-14
.07E-15
.05E-14
.39E-14
.28E-13
.OOE-13
.10E-14
.67E-14
.81E-19
.47E-16
.0
.0
.71E-18
.01E-17
.57E-19
.56E-19
-------
71
Table III.l. Dose Coefficients for Air Submersion
Dose
Nuclide
Astatine
At-207
At-211
At-215
At-216
At-217
At-218
Radon
Rn-218
Rn-219
Rn-220
Rn-222
Franc ium
Fr-219
Fr-220
Fr-221
Fr-222
Fr-223
Radium
Ra-222
Ra-223
Ra-224
Ra-225
Ra-226
Ra-227
Ra-228
Actinium
Ac-223
Ac-224
Ac-225
Ac-226
Ac-227
Ac-228
Thorium
Th-226
Th-227
Th-228
Th-229
Th-230
Th-231
Th-232
Th-234
Gonad
6
1
9
6
1
1
3
2
1
1
1
4
1
1
2
4
5
4
3
3
7
0
2
8
7
5
5
4
3
4
9
3
1
5
9
3
.37E
.58E
. 02E
.19E
.45E
.26E
.57E
. 62E
.81E
.87E
. 62E
. 82E
.43E
.17E
.30E
.29E
.97E
.61E
.24E
.08E
.28E
.0
.03E
. 82E
.08E
.91E
.78E
.67E
. 52E
.80E
. 12E
.77E
.80E
.39E
.34E
.38E
-14
-15
-18
-17
-17
-16
-17
-15
-17
-17
-16
-16
-15
-16
-15
-16
-15
-16
-16
-16
-15
-16
-15
-16
-15
-18
-14
-16
-15
-17
-15
-17
-16
-18
-16
Breast
7
1
1
7
1
1
4
3
2
2
1
5
1
1
2
4
6
5
4
3
8
0
2
1
8
6
6
5
4
5
1
4
2
6
1
4
.23E
.87E
.03E
.29E
.65E
.60E
.08E
.OOE
.07E
. 14E
.86E
.61E
. 64E
.37E
. 72E
.91E
.91E
.28E
.24E
. 54E
.38E
.0
.37E
. 02E
.28E
.79E
.98E
.30E
.IDE
.53E
.09E
.42E
.38E
.79E
.36E
.03E
-14
-15
-17
-17
-17
-16
-17
-15
-17
-17
-16
-16
-15
-16
-15
-16
-15
-16
-16
-16
-15
-16
-14
-16
-15
-18
-14
-16
-15
-16
-15
-17
-16
-17
-16
Lung
6
1
8
5
1
9
3
2
1
1
1
4
1
1
2
4
5
4
1
2
7
0
1
8
6
5
5
4
3
4
8
3
1
4
6
3
.35E
.44E
.90E
. 62E
.43E
.67E
.55E
.56E
.80E
.86E
.60E
.56E
.38E
.08E
.07E
.21E
.70E
.47E
.96E
.95E
.07E
.0
. 94E
.37E
. 64E
.67E
.22E
.66E
.33E
.61E
.33E
.50E
.43E
.35E
.37E
.DIE
-14
-15
-18
-17
-17
-17
-17
-15
-17
-17
-16
-16
-15
-16
-15
-16
-15
-16
-16
-16
-15
-16
-15
-16
-15
-18
-14
-16
-15
-17
-15
-17
-16
-18
-16
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
6.20E-14 1.04E-13 6.52E-14
1.19E-15 5.22E-15 1.53E-15
8.50E-18 1.72E-17 9.15E-18
4.65E-17 2.06E-16 5.99E-17
1.37E-17 2.67E-17 1.47E-17
7.25E-17 4.23E-16 1.14E-16
3.45E-17 6.00E-17 3.65E-17
2.43E-15 5.44E-15 2.65E-15
1.74E-17 3.13E-17 1.85E-17
1.79E-17 3.31E-17 1.90E-17
1.52E-16 3.21E-16 1.65E-16
4.07E-16 1.36E-15 4.79E-16
1.27E-15 3.48E-15 1.44E-15
9.80E-17 2.86E-16 1.15E-16
1.80E-15 6.29E-15 2.24E-15
3.99E-16 8.87E-16 4.35E-16
5.16E-15 1.54E-14 5.96E-15
4.17E-16 1.07E-15 4.64E-16
1.42E-16 9.20E-16 2.77E-16
2.70E-16 7.95E-16 3.09E-16
6.69E-15 1.49E-14 7.34E-15
0.0 0.0 0.0
1.79E-16 4.87E-16 2.03E-16
7.49E-15 2.44E-14 8.78E-15
5.83E-16 2.07E-15 6.99E-16
5.20E-15 1.49E-14 5.91E-15
4.59E-18 1.68E-17 5.60E-18
4.56E-14 7.39E-14 4.79E-14
2.97E-16 9.97E-16 3.50E-16
4.27E-15 1.12E-14 4.81E-15
7.32E-17 2.64E-16 8.88E-17
3.03E-15 1.15E-14 3.70E-15
1.22E-17 5.29E-17 1.63E-17
3.70E-16 1.63E-15 5.00E-16
5.52E-18 2.60E-17 7.90E-18
2.49E-16 1.12E-15 3.25E-16
nr
J)
Remainder
6
1
8
5
1
9
3
2
1
1
1
4
1
1
1
4
5
4
1
2
6
0
1
7
6
5
4
4
3
4
7
3
1
4
6
2
.IDE
.33E
.48E
.22E
.36E
. 12E
.40E
.44E
. 72E
.77E
. 52E
.29E
.30E
. 02E
.95E
.OOE
.37E
.24E
.93E
.79E
.73E
.0
. 84E
.87E
.22E
.35E
. 92E
.48E
.13E
.36E
. 84E
.27E
.37E
.15E
.34E
.81E
-14
-15
-18
-17
-17
-17
-17
-15
-17
-17
-16
-16
-15
-16
-15
-16
-15
-16
-16
-16
-15
-16
-15
-16
-15
-18
-14
-16
-15
-17
-15
-17
-16
-18
-16
Effective
6
1
9
6
1
1
3
2
1
1
1
4
1
1
2
4
6
4
2
3
7
0
2
9
7
6
5
4
3
4
9
3
1
5
8
3
. 52E
.59E
.22E
.24E
.48E
.19E
.65E
.68E
.85E
.91E
.66E
. 92E
.46E
.17E
.29E
.39E
.09E
.71E
.79E
.15E
.41E
.0
.07E
.OOE
.21E
.03E
. 82E
.78E
.59E
.88E
.20E
.83E
. 74E
.22E
. 72E
.38E
-14
-15
-18
-17
-17
-16
-17
-15
-17
-17
-16
-16
-15
-16
-15
-16
-15
-16
-16
-16
-15
-16
-15
-16
-15
-18
-14
-16
-15
-17
-15
-17
-16
-18
-16
7
1
1
8
1
2
4
3
2
2
2
8
2
4
2
5
8
6
3
4
3
0
3
1
9
2
1
7
6
6
1
5
4
2
3
7
Skin
.76E-14
.96E-15
.12E-17
.03E-17
.86E-17
.12E-16
.30E-17
.38E-15
.20E-17
.28E-17
.04E-16
.53E-16
.02E-15
.76E-14
.30E-14
.51E-16
.87E-15
.35E-16
.01E-15
.79E-16
.19E-14
.0
.05E-16
.08E-14
.40E-16
.15E-14
.10E-17
.88E-14
.37E-16
.50E-15
.50E-16
.41E-15
.51E-17
.52E-15
.44E-17
.50E-16
Protactinium
Pa-227
Pa-228
Pa-230
Pa-231
Pa-232
Pa-233
Pa-234m
Pa-234
Uranium
U-230
U-231
U-232
U-233
U-234
U-235
U-236
U-237
U-238
U-239
U-240
8
5
3
1
4
9
7
9
5
2
1
1
8
7
6
5
4
2
4
.46E
.41E
.07E
.71E
.47E
.16E
.05E
. 14E
.31E
.91E
.55E
.69E
.79E
.05E
.IDE
.90E
.39E
.18E
. 92E
-16
-14
-14
-15
-14
-15
-16
-14
-17
-15
-17
-17
-18
-15
-18
-15
-18
-15
-17
1
6
3
1
5
1
8
1
6
3
2
2
1
8
1
6
8
2
8
.OOE
.16E
.50E
.99E
.08E
.05E
.05E
. 04E
.66E
.46E
.32E
.22E
.44E
.HE
.IDE
.90E
. 54E
.57E
. 04E
-15
-14
-14
-15
-14
-14
-16
-13
-17
-15
-17
-17
-17
-15
-17
-15
-18
-15
-17
7
5
3
1
4
8
6
9
4
2
9
1
4
6
2
5
9
1
1
.68E
.38E
. 04E
. 62E
.44E
.88E
. 94E
.09E
. 52E
.65E
. 84E
.35E
.38E
.75E
.18E
.48E
.96E
.96E
. 84E
-16
-14
-14
-15
-14
-15
-16
-14
-17
-15
-18
-17
-18
-15
-18
-15
-19
-15
-17
6.43E-16 2.78E-15 8.21E-16
5.23E-14 9.14E-14 5.53E-14
2.94E-14 5.27E-14 3.13E-14
1.52E-15 3.64E-15 1.70E-15
4.34E-14 7.19E-14 4.57E-14
8.27E-15 2.08E-14 9.21E-15
6.70E-16 1.24E-15 7.18E-16
8.86E-14 1.50E-13 9.35E-14
4.03E-17 1.45E-16 5.00E-17
2.27E-15 9.26E-15 2.84E-15
8.99E-18 3.86E-17 1.29E-17
1.24E-17 4.12E-17 1.55E-17
4.20E-18 1.99E-17 6.69E-18
6.15E-15 1.84E-14 7.05E-15
2.33E-18 1.19E-17 4.19E-18
4.82E-15 1.69E-14 5.81E-15
1.24E-18 7.40E-18 2.72E-18
1.67E-15 6.50E-15 2.11E-15
1.71E-17 1.05E-16 3.61E-17
7
5
2
1
4
8
6
8
4
2
1
1
4
6
2
5
1
1
2
.16E
.15E
.90E
. 54E
.26E
.42E
. 64E
.71E
.32E
.48E
.OOE
.31E
.80E
.37E
.70E
.15E
.51E
. 84E
.17E
-16
-14
-14
-15
-14
-15
-16
-14
-17
-15
-17
-17
-18
-15
-18
-15
-18
-15
-17
8
5
3
1
4
9
7
9
5
2
1
1
7
7
5
5
3
2
3
. 54E
. 54E
.13E
. 72E
.56E
.35E
.19E
.34E
.23E
.95E
.42E
.63E
.63E
.20E
.DIE
.97E
.41E
.17E
.93E
-16
-14
-14
-15
-14
-15
-16
-14
-17
-15
-17
-17
-18
-15
-18
-15
-18
-15
-17
1
6
3
2
5
1
5
1
1
3
5
4
4
8
3
9
2
2
3
.08E-15
.56E-14
.73E-14
.44E-15
.57E-14
.66E-14
.48E-14
.24E-13
.07E-16
.82E-15
.92E-17
.57E-17
.25E-17
.64E-15
.57E-17
.97E-15
.91E-17
.61E-14
.12E-15
-------
72
Table III.l. Dose Coefficients for Air Submersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Neptunium
Np-232 5.68E-14 6.47E-14 5.62E-14 5.43E-14 9.95E-14 5.79E-14 5.37E-14 5.80E-14 6.94E-14
Np-233 3.78E-15 4.43E-15 3.54E-15 3.07E-15 1.16E-14 3.73E-15 3.31E-15 3.85E-15 4.78E-15
Np-234 7.06E-14 8.00E-14 7.12E-14 7.04E-14 1.05E-13 7.27E-14 6.89E-14 7.26E-14 8.41E-14
Np-235 5.63E-17 8.36E-17 3.47E-17 3.22E-17 1.40E-16 4.69E-17 3.57E-17 5.10E-17 1.82E-16
Np-23631 5.26E-15 6.18E-15 4.91E-15 4.29E-15 1.58E-14 5.19E-15 4.60E-15 5.36E-15 9.17E-15
Np-236b2 2.10E-15 2.45E-15 1.97E-15 1.73E-15 6.11E-15 2.08E-15 1.85E-15 2.14E-15 5.76E-15
Np-237 1.04E-15 1.26E-15 9.02E-16 7.69E-16 3.20E-15 9.94E-16 8.50E-16 1.03E-15 1.54E-15
Np-238 2.66E-14 3.02E-14 2.65E-14 2.61E-14 3.99E-14 2.73E-14 2.55E-14 2.72E-14 4.31E-14
Np-239 7.53E-15 8.73E-15 7.18E-15 6.50E-15 2.00E-14 7.52E-15 6.76E-15 7.69E-15 1.60E-14
Np-240m 1.58E-14 1.80E-14 1.57E-14 1.53E-14 2.61E-14 1.62E-14 1.51E-14 1.62E-14 5.93E-14
Np-240 6.18E-14 7.04E-14 6.12E-14 5.94E-14 1.05E-13 6.31E-14 5.86E-14 6.31E-14 9.15E-14
Plutonium
Pu-234 2.79E-15 3.28E-15 2.60E-15 2.23E-15 8.87E-15 2.75E-15 2.43E-15 2.85E-15 3.46E-15
Pu-235 3.85E-15 4.51E-15 3.60E-15 3.14E-15 1.15E-14 3.80E-15 3.37E-15 3.92E-15 4.78E-15
Pu-236 8.31E-18 1.56E-17 1.89E-18 2.47E-18 1.31E-17 5.35E-18 2.88E-18 6.35E-18 4.83E-17
Pu-237 1.99E-15 2.35E-15 1.83E-15 1.57E-15 6.31E-15 1.95E-15 1.71E-15 2.02E-15 2.54E-15
Pu-238 6.56E-18 1.27E-17 1.06E-18 1.68E-18 9.30E-18 4.01E-18 1.99E-18 4.88E-18 4.09E-17
Pu-239 4.84E-18 7.55E-18 2.65E-18 2.67E-18 9.47E-18 3.88E-18 2.86E-18 4.24E-18 1.86E-17
Pu-240 6.36E-18 1.23E-17 1.09E-18 1.65E-18 9.26E-18 3.92E-18 1.96E-18 4.75E-18 3.92E-17
Pu-241 7.19E-20 8.67E-20 6.48E-20 5.63E-20 2.19E-19 6.98E-20 6.09E-20 7.25E-20 1.17E-19
Pu-242 5.34E-18 1.03E-17 9.69E-19 1.43E-18 7.90E-18 3.32E-18 1.68E-18 4.01E-18 3.27E-17
Pu-243 1.02E-15 1.21E-15 9.28E-16 7.84E-16 3.23E-15 9.91E-16 8.66E-16 1.03E-15 8.15E-15
Pu-244 4.10E-18 8.23E-18 4.23E-19 8.80E-19 5.29E-18 2.39E-18 1.08E-18 2.97E-18 2.69E-17
Pu-245 1.95E-14 2.23E-14 1.92E-14 1.85E-14 3.57E-14 1.98E-14 1.84E-14 1.99E-14 4.00E-14
Pu-246 5.93E-15 6.91E-15 5.55E-15 4.97E-15 1.61E-14 5.88E-15 5.23E-15 6.01E-15 8.82E-15
Americium
Am-237 1.67E-14 1.92E-14 1.62E-14 1.51E-14 3.78E-14 1.68E-14 1.53E-14 1.70E-14 2.14E-14
Am-238 4.24E-14 4.82E-14 4.21E-14 4.10E-14 7.05E-14 4.34E-14 4.04E-14 4.33E-14 5.09E-14
Am-239 1.02E-14 1.18E-14 9.62E-15 8.60E-15 2.83E-14 1.01E-14 9.04E-15 1.04E-14 1.56E-14
Am-240 4.90E-14 5.56E-14 4.87E-14 4.75E-14 7.84E-14 5.02E-14 4.66E-14 5.00E-14 5.79E-14
Am-241 8.58E-16 1.07E-15 6.74E-16 5.21E-16 2.87E-15 7.83E-16 6.34E-16 8.18E-16 1.28E-15
Am-242m 3.80E-17 6.01E-17 1.72E-17 1.72E-17 7.94E-17 2.95E-17 1.94E-17 3.17E-17 1.36E-16
Am-242 6.09E-16 7.30E-16 5.51E-16 4.77E-16 1.88E-15 5.94E-16 5.18E-16 6.15E-16 8.20E-15
Am-243 2.19E-15 2.61E-15 1.92E-15 1.55E-15 7.47E-15 2.09E-15 1.79E-15 2.18E-15 2.75E-15
Am-244m 6.38E-17 8.04E-17 5.16E-17 4.69E-17 1.56E-16 5.97E-17 5.00E-17 6.13E-17 3.11E-14
Am-244 3.77E-14 4.30E-14 3.74E-14 3.65E-14 6.17E-14 3.86E-14 3.58E-14 3.85E-14 5.25E-14
Am-245 1.43E-15 1.66E-15 1.37E-15 1.24E-15 3.75E-15 1.43E-15 1.29E-15 1.46E-15 1.62E-14
Am-246m 4.92E-14 5.58E-14 4.92E-14 4.83E-14 7.46E-14 5.05E-14 4.72E-14 5.03E-14 8.56E-14
Am-246 3.21E-14 3.67E-14 3.16E-14 3.04E-14 5.82E-14 3.26E-14 3.02E-14 3.28E-14 6.42E-14
Curium
Cm-238 3.18E-15 3.74E-15 2.98E-15 2.58E-15 9.94E-15 3.15E-15 2.78E-15 3.25E-15 3.94E-15
Cm-240 8.38E-18 1.60E-17 9.64E-19 1.82E-18 1.11E-17 5.14E-18 2.26E-18 6.00E-18 4.68E-17
Cm-241 2.25E-14 2.59E-14 2.21E-14 2.08E-14 4.63E-14 2.28E-14 2.10E-14 2.31E-14 3.14E-14
Cm-242 7.83E-18 1.48E-17 1.13E-18 1.89E-18 1.06E-17 4.91E-18 2.27E-18 5.69E-18 4.29E-17
Cm-243 5.77E-15 6.68E-15 5.50E-15 5.00E-15 1.50E-14 5.76E-15 5.19E-15 5.88E-15 9.79E-15
Cm-244 6.90E-18 1.33E-17 7.08E-19 1.46E-18 8.82E-18 4.19E-18 1.81E-18 4.91E-18 3.91E-17
Cm-245 3.88E-15 4.55E-15 3.63E-15 3.17E-15 1.18E-14 3.84E-15 3.40E-15 3.96E-15 5.36E-15
Cm-246 6.24E-18 1.20E-17 7.00E-19 1.35E-18 8.17E-18 3.82E-18 1.67E-18 4.46E-18 3.49E-17
Cm-247 1.47E-14 1.68E-14 1.44E-14 1.38E-14 2.83E-14 1.49E-14 1.38E-14 1.50E-14 1.79E-14
Cm-248 4.75E-18 9.12E-18 5.17E-19 1.02E-18 6.17E-18 2.90E-18 1.26E-18 3.39E-18 2.67E-17
Cm-249 9.16E-16 1.05E-15 9.07E-16 8.74E-16 1.62E-15 9.33E-16 8.66E-16 9.36E-16 1.59E-14
Cm-250 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Berkelium
Bk-245 1.01E-14 1.18E-14 9.65E-15 8.67E-15 2.77E-14 1.01E-14 9.07E-15 1.04E-14 1.58E-14
Bk-246 4.49E-14 5.12E-14 4.46E-14 4.34E-14 7.44E-14 4.60E-14 4.27E-14 4.59E-14 5.31E-14
Bk-247 4.63E-15 5.38E-15 4.37E-15 3.88E-15 1.30E-14 4.59E-15 4.10E-15 4.71E-15 7.43E-15
Bk-249 9.74E-20 1.37E-19 5.21E-20 4.24E-20 2.45E-19 8.02E-20 5.38E-20 8.21E-20 4.07E-17
Bk-250 4.29E-14 4.86E-14 4.28E-14 4.22E-14 6.42E-14 4.41E-14 4.11E-14 4.38E-14 6.43E-14
1 TK = 1.15E5 y
2 TK = 22.5 h
-------
73
Table III.l. Dose Coefficients for Air Submersion
Nuclide
Gonad
Breast
Dose
Lung
Coefficient
hT (Sv
R Marrow BSurface
per Bq s
Thyroid
nr
3)
Remainder
Effective
Skin
Californium
Cf-244
Cf-246
Cf-248
Cf-249
Cf-250
Cf-251
Cf-252
Cf-253
Cf-254
9
7
6
1
6
5
6
1
2
.79E-18
.43E-18
.70E-18
.54E-14
.38E-18
.48E-15
.85E-18
.20E-18
.08E-20
1
1
1
1
1
6
1
1
3
.80E-17
.31E-17
.23E-17
.77E-14
.17E-17
.38E-15
.21E-17
.60E-18
.81E-20
1
1
8
1
7
5
1
7
2
.15E-18
.50E-18
.04E-19
.52E-14
.62E-19
.18E-15
.42E-18
.94E-19
.49E-21
2.09E
2.05E
1.44E
1.44E
1.37E
4.65E
1.91E
6.55E
4.46E
-18 1
-18 1
-18 8
-14 3
-18 8
-15 1
-18 1
-19 3
-21 2
.29E-17
.11E-17
.86E-18
.06E-14
.42E-18
.51E-14
.04E-17
.35E-18
.75E-20
6
5
4
1
4
5
4
1
1
.26E-18
.02E-18
.29E-18
.56E-14
.08E-18
.45E-15
.64E-18
.05E-18
.33E-20
2
2
1
1
1
4
2
7
5
.67E-18
.46E-18
.84E-18
.44E-14
.75E-18
.87E-15
.29E-18
.83E-19
.70E-21
6.91E
5.48E
4.73E
1.58E
4.50E
5.58E
5.06E
1.08E
1.47E
-18 4
-18 3
-18 3
-14 1
-18 3
-15 1
-18 3
-18 1
-20 9
.65E-17
.35E-17
.17E-17
.91E-14
.02E-17
.12E-14
.08E-17
.66E-15
.83E-20
Einsteinium
Es-250
Es-251
Es-253
Es-254m
Es-254
Fermium
Fm-252
Fm-253
Fm-254
Fm-255
Fm-257
1
4
1
2
2
7
3
8
1
4
.86E-14
.05E-15
.94E-17
.21E-14
.19E-16
.13E-18
.46E-15
.79E-18
.26E-16
.58E-15
2
4
2
2
3
1
4
1
1
5
.12E-14
.75E-15
.52E-17
.52E-14
.11E-16
.26E-17
.04E-15
.48E-17
.86E-16
.35E-15
1
3
1
2
1
9
3
2
7
4
.84E-14
.80E-15
.50E-17
.19E-14
.31E-16
.95E-19
.25E-15
.20E-18
.01E-17
.31E-15
1.77E
3.34E
1.44E
2.13E
1.22E
1.57E
2.88E
2.64E
6.42E
3 .84E
-14 3
-15 1
-17 3
-14 3
-16 4
-18 9
-15 1
-18 1
-17 3
-15 1
.38E-14
.21E-14
.81E-17
.64E-14
.88E-16
.82E-18
.OOE-14
.44E-17
.05E-16
.29E-14
1
4
1
2
1
4
3
6
1
4
.90E-14
.01E-15
.79E-17
.25E-14
.85E-16
.72E-18
.43E-15
.22E-18
.03E-16
.55E-15
1
3
1
2
1
2
3
3
7
4
.75E-14
.56E-15
.48E-17
.10E-14
.36E-16
.05E-18
.05E-15
.19E-18
.34E-17
.05E-15
1.90E
4.13E
1.83E
2.25E
1.93E
5.03E
3.53E
6.57E
1.10E
4.66E
-14 2
-15 5
-17 4
-14 3
-16 5
-18 2
-15 4
-18 3
-16 3
-15 7
.21E-14
.35E-15
.55E-17
.76E-14
.65E-16
.95E-17
.55E-15
.43E-17
.95E-16
.18E-15
Mendelevium
Md-257
Md-258
4
6
.93E-15
.28E-17
5
9
.72E-15
.54E-17
4
2
.71E-15
.66E-17
4.29E
2.55E
-15 1
-17 1
.27E-14
.36E-16
4
4
.93E-15
.89E-17
4
3
.44E-15
.02E-17
5.03E
5.08E
-15 6
-17 1
.20E-15
.82E-16
-------
TABLE III.2
Dose Coefficients for Water Immersion
Explanation of Entries
For each radionuclide, values for the organ dose equivalent coefficients hT, and the effective
dose equivalent coefficient hE, based upon the weighting factors of Table II. 1, are given in
SI units. The coefficients are for water at a density of 1 x 103 kg m"3.
hT: The tissue dose equivalent coefficient for organ or tissue T (Sv per Bq s m"3), i.e., the dose
equivalent per unit time-integrated exposure to a radionuclide.
hE: The effective dose equivalent coefficient (Sv per Bq s m"3), i.e., the effective dose equivalent
per unit time-integrated exposure to a radionuclide:
Note that skin is not included in the summation.
To convert to a source per unit mass basis (Sv per Bq s kg"1), multiply table entries by
1 x 103(kgm-3).
To convert to conventional units (mrem per \i.Ci y cm"3 or mrem per \i.Ci y g"1), multiply
table entries by 1.168 x io23.
To derive coefficients for a water density other than 1 x IO3 kg m"3, multiply coefficients
(in any units) by (1 x 103/p), where p is the water density in kg m"3.
75
-------
76
Table III.2. Dose Coefficients for Water Immersion
Dose
Nuclide Gonad Breast Lung
Hydrogen
H-3 0.0 0.0 0.0
Beryllium
Be-7 5.03E-18 5.76E-18 4.98E-18
Be-10 2.24E-20 2.73E-20 1.86E-20
Carbon
C-ll 1.04E-16 1.19E-16 1.03E-16
C-14 5.10E-22 6.96E-22 2.96E-22
Nitrogen
N-13 1.04E-16 1.19E-16 1.03E-16
Oxygen
0-15 1.04E-16 1.19E-16 1.03E-16
Fluorine
F-18 1.04E-16 1.19E-16 1.03E-16
Neon
Ne-19 1.05E-16 1.20E-16 1.04E-16
Sodium
Na-22 2.30E-16 2.61E-16 2.30E-16
Na-24 4.59E-16 5.12E-16 4.67E-16
Magnesium
Mg-28 1.44E-16 1.63E-16 1.44E-16
Aluminum
Al-26 2.86E-16 3.24E-16 2.89E-16
Al-28 1.94E-16 2.19E-16 1.98E-16
Silicon
Si-31 2.34E-19 2.72E-19 2.21E-19
Si-32 1.15E-21 1.51E-21 7.49E-22
Phosphorus
P-30 1.05E-16 1.20E-16 1.04E-16
P-32 1.90E-19 2.24E-19 1.73E-19
P-33 1.77E-21 2.29E-21 1.21E-21
Sulphur
S-35 5.46E-22 7.40E-22 3.25E-22
Chlorine
Cl-36 4.52E-20 5.37E-20 4.05E-20
Cl-38 1.65E-16 1.85E-16 1.68E-16
Cl-39 1.54E-16 1.74E-16 1.55E-16
Argon
Ar-37 0.0 0.0 0.0
Ar-39 1.82E-20 2.23E-20 1.50E-20
Ar-41 1.37E-16 1.55E-16 1.38E-16
Potassium
K-38 3.44E-16 3.89E-16 3.49E-16
K-40 1.69E-17 1.91E-17 1.71E-17
K-42 3.06E-17 3.46E-17 3.10E-17
K-43 9.95E-17 1.14E-16 9.84E-17
K-44 2.51E-16 2.81E-16 2.54E-16
K-45 2.03E-16 2.29E-16 2.06E-16
Calcium
Ca-41 0.0 0.0 0.0
Ca-45 1.85E-21 2.39E-21 1.28E-21
Ca-47 1.13E-16 1.28E-16 1.14E-16
Ca-49 3.65E-16 4.02E-16 3.72E-16
Scandium
Sc-43 1.12E-16 1.28E-16 1.11E-16
Sc-44m 2.89E-17 3.31E-17 2.83E-17
Sc-44 2.23E-16 2.54E-16 2.22E-16
Sc-46 2.12E-16 2.40E-16 2.11E-16
Sc-47 1.11E-17 1.28E-17 1.06E-17
Sc-48 3.55E-16 4.02E-16 3.55E-16
Sc-49 3.79E-19 4.39E-19 3.60E-19
Coefficient
R
0
4
1
9
2
9
9
9
9
2
4
1
2
1
2
5
1
1
9
2
3
1
1
0
1
1
3
1
3
9
2
2
0
1
1
3
1
2
2
2
9
3
3
Marrow
.0
.78E
.57E
.93E
.35E
. 94E
.96E
.95E
.98E
.25E
.68E
.42E
.85E
.97E
.06E
.97E
.OOE
.56E
.73E
.58E
.63E
.68E
.53E
.0
.27E
.37E
.46E
.70E
.07E
.48E
. 54E
.05E
.0
.03E
.13E
.75E
.06E
.68E
.17E
.08E
.59E
.51E
.37E
-18
-20
-17
-22
-17
-17
-17
-17
-16
-16
-16
-16
-16
-19
-22
-16
-19
-22
-22
-20
-16
-16
-20
-16
-16
-17
-17
-17
-16
-16
-21
-16
-16
-16
-17
-16
-16
-18
-16
-19
hT
(Sv
BSurface
0
9
6
1
1
1
1
1
1
3
6
2
4
2
4
3
1
4
5
1
1
2
2
0
5
1
5
2
4
1
3
2
0
5
1
4
2
6
3
3
3
5
8
.0
. 12E
. 52E
.85E
.37E
.85E
.85E
.85E
.86E
. 62E
.23E
.17E
.29E
.70E
.98E
.27E
.87E
.79E
.13E
.49E
. 12E
.27E
.30E
.0
.30E
.97E
.HE
.41E
.39E
.78E
.50E
.99E
.0
.38E
.65E
.79E
. 04E
.03E
.57E
.18E
.OOE
.25E
.08E
-18
-20
-16
-21
-16
-16
-16
-16
-16
-16
-16
-16
-16
-19
-21
-16
-19
-21
-21
-19
-16
-16
-20
-16
-16
-17
-17
-16
-16
-16
-21
-16
-16
-16
-17
-16
-16
-17
-16
-19
per Bq s
Thyroid
0
5
2
1
4
1
1
1
1
2
4
1
2
2
2
9
1
1
1
4
4
1
1
0
1
1
3
1
3
1
2
2
0
1
1
3
1
2
2
2
1
3
3
.0
. 12E
.HE
.06E
.29E
.06E
.06E
.06E
.06E
.35E
.77E
.48E
. 94E
.DIE
.34E
.97E
.07E
.86E
.56E
.63E
.40E
.71E
.58E
.0
.71E
.41E
.55E
. 74E
.15E
.DIE
.60E
.IDE
.0
. 64E
.17E
. 82E
. 14E
.93E
.28E
.18E
.HE
.65E
.79E
-18
-20
-16
-22
-16
-16
-16
-16
-16
-16
-16
-16
-16
-19
-22
-16
-19
-21
-22
-20
-16
-16
-20
-16
-16
-17
-17
-16
-16
-16
-21
-16
-16
-16
-17
-16
-16
-17
-16
-19
nr
J)
Remainder
0
4
1
9
2
9
9
9
9
2
4
1
2
1
2
7
9
1
1
3
3
1
1
0
1
1
3
1
3
9
2
2
0
1
1
3
1
2
2
2
9
3
3
.0
.75E
.76E
.85E
.98E
.86E
.87E
.87E
.90E
.21E
. 54E
.39E
.80E
.93E
.HE
.36E
. 94E
. 64E
.18E
.26E
. 84E
. 64E
.49E
.0
.42E
.33E
.38E
.66E
.OOE
.40E
.46E
.OOE
.0
.24E
.IDE
. 62E
.06E
.69E
.13E
.03E
.99E
.42E
.44E
-18
-20
-17
-22
-17
-17
-17
-17
-16
-16
-16
-16
-16
-19
-22
-17
-19
-21
-22
-20
-16
-16
-20
-16
-16
-17
-17
-17
-16
-16
-21
-16
-16
-16
-17
-16
-16
-18
-16
-19
Effective
0
5
2
1
4
1
1
1
1
2
4
1
2
2
2
1
1
1
1
4
4
1
1
0
1
1
3
1
3
1
2
2
0
1
1
3
1
2
2
2
1
3
3
.0
.15E
.17E
.06E
.39E
.07E
.07E
.07E
.07E
.35E
.73E
.47E
. 94E
.DIE
.36E
. 02E
.07E
.90E
.60E
. 74E
.48E
.70E
.58E
.0
.76E
.41E
.55E
. 74E
.15E
. 02E
.58E
.IDE
.0
.68E
.16E
.76E
. 14E
.96E
.28E
.16E
. 14E
.63E
.83E
-18
-20
-16
-22
-16
-16
-16
-16
-16
-16
-16
-16
-16
-19
-21
-16
-19
-21
-22
-20
-16
-16
-20
-16
-16
-17
-17
-16
-16
-16
-21
-16
-16
-16
-17
-16
-16
-17
-16
-19
0
5
1
1
2
1
1
1
1
2
5
1
3
3
4
8
2
4
1
3
1
3
2
0
1
1
4
5
1
1
3
3
0
1
1
4
1
3
3
2
2
4
5
Skin
.0
.97E-18
.37E-17
.47E-16
.55E-19
.56E-16
.74E-16
.37E-16
.92E-16
.78E-16
.59E-16
.74E-16
.61E-16
.14E-16
.03E-17
.69E-19
.30E-16
.79E-17
.45E-18
.06E-19
.56E-17
.03E-16
.35E-16
.0
.13E-17
.88E-16
.86E-16
.46E-17
.41E-16
.36E-16
.97E-16
.04E-16
.0
.53E-18
.52E-16
.70E-16
.52E-16
.58E-17
.01E-16
.49E-16
.04E-17
.23E-16
.80E-17
-------
77
Table III.2. Dose Coefficients for Water Immersion
Dose
Nuclide
Titanium
Ti-44
Ti-45
Vanadium
V-47
V-48
V-49
Chromium
Cr-48
Cr-49
Cr-51
Manganese
Mn-51
Mn-52m
Mn-52
Mn-53
Mn-54
Mn-56
Iron
Fe-52
Fe-55
Fe-59
Fe-60
Cobalt
Co-55
Co-56
Co-57
Co-58m
Co-58
Co-60m
Co-60
Co-61
Co-62m
Nickel
Ni-56
Ni-57
Ni-59
Ni-63
Ni-65
Ni-66
Copper
Cu-60
Cu-61
Cu-62
Cu-64
Cu-66
Cu-67
Zinc
Zn-62
Zn-63
Zn-65
Zn-69m
Zn-69
Zn-71m
Zn-72
Gallium
Ga-65
Ga-66
Ga-67
Ga-68
Ga-70
Ga-72
Ga-73
Gonad
1
8
1
3
0
4
1
3
1
2
3
0
8
1
7
0
1
4
2
3
1
2
1
4
2
8
2
1
2
0
0
5
1
4
8
1
1
9
1
4
1
6
4
4
1
1
1
2
1
9
9
2
3
.26E
.89E
. 02E
.07E
.0
.44E
.07E
.23E
. 02E
. 54E
.65E
.0
.71E
.81E
.56E
.0
.26E
.48E
.08E
.87E
.22E
.89E
.DIE
.70E
.67E
.81E
.90E
.79E
. 04E
.0
.0
.88E
.33E
.17E
.48E
.03E
. 94E
.41E
.17E
.42E
.13E
.15E
.24E
.24E
.60E
.50E
.20E
. 72E
.56E
. 74E
.65E
. 92E
.18E
-17
-17
-16
-16
-17
-16
-18
-16
-16
-16
-17
-16
-17
-16
-22
-16
-16
-17
-22
-16
-19
-16
-18
-16
-16
-16
-17
-21
-16
-17
-16
-17
-18
-17
-17
-16
-17
-17
-20
-16
-17
-16
-16
-17
-17
-19
-16
-17
Breast
1
1
1
3
0
5
1
3
1
2
4
0
9
2
8
0
1
6
2
4
1
4
1
5
3
1
3
2
2
0
0
6
1
4
9
1
2
1
1
5
1
6
4
5
1
1
1
3
1
1
1
3
3
.50E
. 02E
.17E
.49E
.0
.HE
.23E
.69E
.17E
.88E
. 14E
.0
.89E
.05E
.67E
.0
.43E
.19E
.36E
.35E
.42E
.43E
.15E
.41E
. 02E
.03E
.27E
. 04E
.32E
.0
.0
.66E
. 74E
. 72E
.70E
.18E
.21E
.07E
.35E
.06E
.29E
.97E
.86E
.IDE
. 82E
. 74E
.38E
. 04E
.80E
.HE
.IDE
.30E
. 64E
-17
-16
-16
-16
-17
-16
-18
-16
-16
-16
-17
-16
-17
-16
-22
-16
-16
-17
-22
-16
-19
-16
-17
-16
-16
-16
-17
-21
-16
-17
-16
-17
-17
-17
-17
-16
-17
-17
-20
-16
-17
-16
-16
-17
-16
-18
-16
-17
Lung
1
8
1
3
0
4
1
3
1
2
3
0
8
1
7
0
1
2
2
3
1
6
1
4
2
7
2
1
2
0
0
5
8
4
8
1
1
9
1
4
1
6
4
3
1
1
1
2
1
9
9
2
3
.IDE
.81E
.DIE
.08E
.0
.30E
.06E
.15E
.DIE
.55E
.65E
.0
.66E
.83E
.43E
.0
.27E
.49E
.07E
.90E
.16E
. 82E
.DIE
. 52E
.68E
.99E
. 92E
.77E
.06E
.0
.0
.93E
. 94E
.20E
.41E
. 02E
. 92E
.36E
. 12E
.35E
. 12E
.15E
.19E
.66E
.58E
.42E
.19E
.75E
.49E
.65E
.46E
.95E
.IDE
-17
-17
-16
-16
-17
-16
-18
-16
-16
-16
-17
-16
-17
-16
-22
-16
-16
-17
-23
-16
-19
-16
-18
-16
-16
-16
-17
-22
-16
-17
-16
-17
-18
-17
-17
-16
-17
-17
-20
-16
-17
-16
-16
-17
-17
-19
-16
-17
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
8.84E-18 4.32E-17 1.20E-17
8.48E-17 1.58E-16 9.04E-17
9.72E-17 1.81E-16 1.04E-16
3.03E-16 4.67E-16 3.16E-16
0.0 0.0 0.0
3.98E-17 1.04E-16 4.46E-17
1.01E-16 2.04E-16 1.09E-16
2.99E-18 6.69E-18 3.26E-18
9.75E-17 1.81E-16 1.04E-16
2.50E-16 3.97E-16 2.60E-16
3.60E-16 5.52E-16 3.75E-16
0.0 0.0 0.0
8.48E-17 1.36E-16 8.92E-17
1.81E-16 2.65E-16 1.87E-16
7.07E-17 1.49E-16 7.66E-17
0.0 0.0 0.0
1.25E-16 1.85E-16 1.30E-16
1.98E-22 1.18E-21 3.73E-22
2.02E-16 3.36E-16 2.12E-16
3.87E-16 5.60E-16 3.99E-16
1.01E-17 3.64E-17 1.21E-17
7.29E-23 4.78E-22 2.12E-22
9.81E-17 1.62E-16 1.03E-16
4.29E-19 8.84E-19 4.73E-19
2.66E-16 3.86E-16 2.75E-16
6.95E-18 2.38E-17 8.57E-18
2.89E-16 4.16E-16 2.99E-16
1.72E-16 3.07E-16 1.83E-16
2.03E-16 3.07E-16 2.10E-16
0.0 0.0 0.0
0.0 0.0 0.0
5.87E-17 8.55E-17 6.06E-17
7.15E-22 3.84E-21 1.17E-21
4.15E-16 6.24E-16 4.30E-16
8.11E-17 1.49E-16 8.64E-17
9.87E-17 1.84E-16 1.05E-16
1.85E-17 3.41E-17 1.97E-17
9.19E-18 1.44E-17 9.64E-18
1.01E-17 3.13E-17 1.17E-17
4.19E-17 7.85E-17 4.49E-17
1.08E-16 1.97E-16 1.15E-16
6.07E-17 9.10E-17 6.32E-17
4.01E-17 7.90E-17 4.31E-17
3.18E-20 1.18E-19 4.07E-20
1.53E-16 2.81E-16 1.62E-16
1.27E-17 4.19E-17 1.49E-17
1.14E-16 2.21E-16 1.22E-16
2.73E-16 3.96E-16 2.82E-16
1.36E-17 3.88E-17 1.56E-17
9.30E-17 1.72E-16 9.91E-17
9.15E-19 1.67E-18 9.82E-19
2.92E-16 4.25E-16 3.01E-16
2.93E-17 6.63E-17 3.21E-17
nr
3)
Remainder
1
8
9
2
0
4
1
3
9
2
3
0
8
1
7
0
1
2
1
3
1
1
9
4
2
7
2
1
1
0
0
5
8
4
8
9
1
8
1
4
1
5
4
3
1
1
1
2
1
9
9
2
2
.03E
.41E
. 64E
.96E
.0
.07E
.DIE
.OOE
.66E
.45E
. 52E
.0
.30E
.77E
.08E
.0
.22E
. 54E
.98E
.77E
.08E
.DIE
.63E
.33E
.59E
. 52E
. 82E
.70E
.99E
.0
.0
.73E
. 74E
.06E
.03E
.78E
.83E
.99E
.05E
.16E
.07E
. 92E
.OOE
.47E
.51E
.34E
.13E
.66E
.41E
.22E
.05E
.85E
.95E
-17
-17
-17
-16
-17
-16
-18
-17
-16
-16
-17
-16
-17
-16
-22
-16
-16
-17
-22
-17
-19
-16
-18
-16
-16
-16
-17
-22
-16
-17
-17
-17
-18
-17
-17
-16
-17
-17
-20
-16
-17
-16
-16
-17
-17
-19
-16
-17
Effective
1
9
1
3
0
4
1
3
1
2
3
0
8
1
7
0
1
3
2
3
1
2
1
4
2
8
2
1
2
0
0
6
1
4
8
1
1
9
1
4
1
6
4
4
1
1
1
2
1
9
9
3
3
.25E
.09E
. 04E
.15E
.0
. 54E
.IDE
.30E
. 04E
.60E
. 74E
.0
.88E
.86E
.73E
.0
.29E
.81E
. 12E
.97E
.25E
.07E
.03E
.75E
. 74E
.77E
.97E
.83E
.IDE
.0
.0
. 04E
.20E
.29E
.67E
.06E
.98E
.59E
.20E
.51E
.16E
.29E
.34E
.16E
.63E
.53E
.23E
.80E
.59E
.96E
.81E
.OOE
.25E
-17
-17
-16
-16
-17
-16
-18
-16
-16
-16
-17
-16
-17
-16
-22
-16
-16
-17
-22
-16
-19
-16
-18
-16
-16
-16
-17
-21
-16
-17
-16
-17
-18
-17
-17
-16
-17
-17
-20
-16
-17
-16
-16
-17
-17
-19
-16
-17
1
1
1
3
0
5
1
3
1
3
4
0
1
2
1
0
1
1
2
4
1
7
1
6
3
4
4
2
2
0
0
1
1
5
1
2
2
8
1
5
1
7
5
1
2
2
2
3
1
1
4
3
6
Skin
.56E-17
.29E-16
.77E-16
.65E-16
.0
.29E-17
.68E-16
.82E-18
.87E-16
.78E-16
.27E-16
.0
.01E-16
.68E-16
.01E-16
.0
.50E-16
.73E-19
.72E-16
.53E-16
.47E-17
.22E-22
.20E-16
.55E-19
.11E-16
.OOE-17
.09E-16
.09E-16
.46E-16
.0
.0
.11E-16
.06E-18
.47E-16
.20E-16
.16E-16
.92E-17
.75E-17
.98E-17
.37E-17
.99E-16
.12E-17
.18E-17
.91E-17
.25E-16
.OOE-17
.OOE-16
.83E-16
.87E-17
.67E-16
.49E-17
.70E-16
.58E-17
-------
78
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Germanium
Ge-66 6.95E-17 7.96E-17 6.82E-17 6.52E-17 1.31E-16 7.04E-17 6.50E-17 7.09E-17 8.76E-17
Ge-67 1.46E-16 1.67E-16 1.45E-16 1.39E-16 2.60E-16 1.49E-16 1.38E-16 1.49E-16 2.67E-16
Ge-68 1.10E-22 7.68E-22 5.99E-25 3.07E-23 1.64E-22 8.63E-24 6.19E-23 1.70E-22 1.53E-20
Ge-69 9.06E-17 1.03E-16 9.02E-17 8.80E-17 1.47E-16 9.27E-17 8.65E-17 9.26E-17 1.18E-16
Ge-71 1.12E-22 7.78E-22 6.06E-25 3.11E-23 1.66E-22 8.74E-24 6.27E-23 1.72E-22 1.55E-20
Ge-75 3.59E-18 4.11E-18 3.48E-18 3.26E-18 7.93E-18 3.61E-18 3.30E-18 3.66E-18 3.09E-17
Ge-77 1.13E-16 1.29E-16 1.12E-16 1.08E-16 2.03E-16 1.15E-16 1.07E-16 1.16E-16 1.77E-16
Ge-78 2.86E-17 3.28E-17 2.79E-17 2.62E-17 6.25E-17 2.89E-17 2.65E-17 2.92E-17 4.66E-17
Arsenic
As-69 1.04E-16 1.19E-16 1.03E-16 9.89E-17 1.86E-16 1.06E-16 9.82E-17 1.06E-16 2.16E-16
As-70 4.32E-16 4.90E-16 4.33E-16 4.26E-16 6.67E-16 4.44E-16 4.17E-16 4.43E-16 5.64E-16
As-71 5.86E-17 6.70E-17 5.75E-17 5.48E-17 1.15E-16 5.94E-17 5.48E-17 5.99E-17 7.58E-17
As-72 1.87E-16 2.12E-16 1.86E-16 1.81E-16 3.08E-16 1.91E-16 1.78E-16 1.91E-16 2.93E-16
As-73 4.63E-19 5.75E-19 3.57E-19 2.66E-19 1.56E-18 4.23E-19 3.36E-19 4.37E-19 6.49E-19
As-74 7.75E-17 8.86E-17 7.69E-17 7.44E-17 1.34E-16 7.90E-17 7.35E-17 7.93E-17 1.09E-16
As-76 4.52E-17 5.14E-17 4.50E-17 4.39E-17 7.39E-17 4.62E-17 4.32E-17 4.62E-17 1.29E-16
As-77 9.22E-19 1.06E-18 8.96E-19 8.43E-19 1.98E-18 9.30E-19 8.51E-19 9.41E-19 1.32E-17
As-78 1.33E-16 1.51E-16 1.34E-16 1.32E-16 2.03E-16 1.37E-16 1.29E-16 1.37E-16 2.55E-16
Selenium
Se-70 1.01E-16 1.16E-16 9.94E-17 9.52E-17 1.87E-16 1.02E-16 9.48E-17 1.03E-16 1.51E-16
Se-73m 2.48E-17 2.84E-17 2.46E-17 2.37E-17 4.43E-17 2.53E-17 2.35E-17 2.54E-17 4.05E-17
Se-73 1.10E-16 1.26E-16 1.08E-16 1.03E-16 2.11E-16 1.12E-16 1.03E-16 1.13E-16 1.56E-16
Se-75 3.98E-17 4.58E-17 3.85E-17 3.56E-17 9.44E-17 4.00E-17 3.64E-17 4.07E-17 4.75E-17
Se-77m 8.72E-18 1.01E-17 8.32E-18 7.53E-18 2.34E-17 8.71E-18 7.83E-18 8.90E-18 1.28E-17
Se-79 6.82E-22 9.22E-22 4.08E-22 3.24E-22 1.87E-21 5.79E-22 4.08E-22 5.93E-22 3.90E-19
Se-81m 1.36E-18 1.60E-18 1.26E-18 1.08E-18 4.29E-18 1.34E-18 1.18E-18 1.38E-18 2.43E-18
Se-81 1.10E-18 1.26E-18 1.07E-18 1.02E-18 2.18E-18 1.11E-18 1.02E-18 1.12E-18 4.26E-17
Se-83 2.57E-16 2.91E-16 2.57E-16 2.52E-16 4.07E-16 2.63E-16 2.47E-16 2.63E-16 3.32E-16
Bromine
Br-74m 4.39E-16 4.95E-16 4.41E-16 4.35E-16 6.70E-16 4.53E-16 4.25E-16 4.51E-16 6.12E-16
Br-74 5.04E-16 5.61E-16 5.08E-16 5.05E-16 7.32E-16 5.22E-16 4.92E-16 5.17E-16 6.55E-16
Br-75 1.24E-16 1.42E-16 1.23E-16 1.18E-16 2.31E-16 1.26E-16 1.17E-16 1.27E-16 1.83E-16
Br-76 2.82E-16 3.18E-16 2.84E-16 2.80E-16 4.30E-16 2.91E-16 2.74E-16 2.90E-16 3.77E-16
Br-77 3.23E-17 3.70E-17 3.18E-17 3.05E-17 6.11E-17 3.28E-17 3.03E-17 3.30E-17 3.85E-17
Br-80m 8.70E-19 1.17E-18 4.77E-19 3.47E-19 2.29E-18 7.25E-19 4.80E-19 7.27E-19 1.68E-18
Br-80 8.18E-18 9.35E-18 8.12E-18 7.85E-18 1.40E-17 8.34E-18 7.76E-18 8.36E-18 2.64E-17
Br-82 2.76E-16 3.14E-16 2.75E-16 2.70E-16 4.34E-16 2.83E-16 2.64E-16 2.82E-16 3.28E-16
Br-83 8.09E-19 9.27E-19 7.96E-19 7.64E-19 1.46E-18 8.21E-19 7.60E-19 8.25E-19 2.01E-17
Br-84 1.98E-16 2.22E-16 2.01E-16 2.00E-16 2.78E-16 2.06E-16 1.95E-16 2.04E-16 3.16E-16
Krypton
Kr-74 1.19E-16 1.37E-16 1.17E-16 1.12E-16 2.28E-16 1.21E-16 1.12E-16 1.22E-16 1.96E-16
Kr-76 4.36E-17 4.99E-17 4.25E-17 4.02E-17 8.90E-17 4.40E-17 4.04E-17 4.44E-17 5.20E-17
Kr-77 1.04E-16 1.19E-16 1.02E-16 9.70E-17 2.03E-16 1.05E-16 9.71E-17 1.06E-16 1.67E-16
Kr-79 2.58E-17 2.95E-17 2.55E-17 2.44E-17 4.79E-17 2.62E-17 2.43E-17 2.64E-17 3.17E-17
Kr-81m 1.33E-17 1.52E-17 1.27E-17 1.17E-17 3.33E-17 1.33E-17 1.20E-17 1.35E-17 1.82E-17
Kr-81 5.74E-19 6.73E-19 5.53E-19 5.21E-19 1.25E-18 5.74E-19 5.27E-19 5.86E-19 8.97E-19
Kr-83m 3.99E-21 1.18E-20 3.83E-22 8.93E-22 5.24E-21 1.50E-21 1.24E-21 3.49E-21 8.31E-20
Kr-85m 1.62E-17 1.86E-17 1.55E-17 1.41E-17 4.17E-17 1.62E-17 1.46E-17 1.65E-17 3.38E-17
Kr-85 2.51E-19 2.89E-19 2.45E-19 2.34E-19 4.72E-19 2.54E-19 2.33E-19 2.55E-19 1.41E-17
Kr-87 8.67E-17 9.77E-17 8.75E-17 8.66E-17 1.31E-16 8.95E-17 8.47E-17 8.93E-17 1.97E-16
Kr-88 2.14E-16 2.41E-16 2.18E-16 2.18E-16 3.03E-16 2.22E-16 2.12E-16 2.21E-16 2.68E-16
Rubidium
Rb-79 1.39E-16 1.59E-16 1.37E-16 1.32E-16 2.53E-16 1.41E-16 1.31E-16 1.42E-16 2.20E-16
Rb-80 1.29E-16 1.47E-16 1.28E-16 1.23E-16 2.27E-16 1.31E-16 1.22E-16 1.32E-16 3.04E-16
Rb-81m 4.24E-19 5.24E-19 3.71E-19 3.09E-19 1.39E-18 4.02E-19 3.48E-19 4.25E-19 8.26E-19
Rb-81 6.31E-17 7.22E-17 6.21E-17 5.92E-17 1.22E-16 6.40E-17 5.91E-17 6.45E-17 8.59E-17
Rb-82m 3.03E-16 3.45E-16 3.03E-16 2.96E-16 4.79E-16 3.11E-16 2.90E-16 3.10E-16 3.60E-16
Rb-82 1.13E-16 1.29E-16 1.12E-16 1.08E-16 1.98E-16 1.15E-16 1.07E-16 1.15E-16 2.37E-16
Rb-83 5.07E-17 5.81E-17 5.03E-17 4.85E-17 8.89E-17 5.16E-17 4.80E-17 5.19E-17 6.04E-17
Rb-84 9.50E-17 1.08E-16 9.45E-17 9.22E-17 1.52E-16 9.72E-17 9.05E-17 9.70E-17 1.18E-16
Rb-86 1.02E-17 1.15E-17 1.02E-17 l.OOE-17 1.53E-17 1.05E-17 9.77E-18 1.04E-17 5.76E-17
Rb-87 3.83E-21 4.88E-21 2.79E-21 2.26E-21 1.13E-20 3.45E-21 2.69E-21 3.54E-21 3.31E-18
-------
79
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Rubidium, cont'd
Rb-88 7.04E-17 7.93E-17 7.14E-17 7.11E-17 9.99E-17 7.28E-17 6.93E-17 7.26E-17 2.38E-16
Rb-89 2.24E-16 2.53E-16 2.26E-16 2.24E-16 3.21E-16 2.31E-16 2.19E-16 2.30E-16 3.31E-16
Strontium
Sr-80 1.85E-20 5.39E-20 2.16E-22 3.46E-21 1.93E-20 6.13E-21 4.44E-21 1.52E-20 3.36E-19
Sr-81 1.42E-16 1.63E-16 1.41E-16 1.35E-16 2.63E-16 1.45E-16 1.34E-16 1.45E-16 2.40E-16
Sr-82 1.82E-20 5.30E-20 2.13E-22 3.41E-21 1.90E-20 6.03E-21 4.37E-21 1.50E-20 3.31E-19
Sr-83 8.20E-17 9.34E-17 8.15E-17 7.92E-17 1.37E-16 8.37E-17 7.81E-17 8.38E-17 1.05E-16
Sr-85m 2.25E-17 2.58E-17 2.17E-17 2.02E-17 5.33E-17 2.26E-17 2.06E-17 2.30E-17 2.69E-17
Sr-85 5.14E-17 5.89E-17 5.10E-17 4.91E-17 9.11E-17 5.23E-17 4.87E-17 5.26E-17 6.15E-17
Sr-87m 3.25E-17 3.73E-17 3.20E-17 3.05E-17 6.31E-17 3.30E-17 3.05E-17 3.33E-17 4.27E-17
Sr-89 1.50E-19 1.76E-19 1.36E-19 1.23E-19 3.76E-19 1.47E-19 1.29E-19 1.49E-19 3.94E-17
Sr-90 1.51E-20 1.85E-20 1.23E-20 1.04E-20 4.41E-20 1.42E-20 1.17E-20 1.46E-20 9.71E-18
Sr-91 7.33E-17 8.32E-17 7.30E-17 7.16E-17 1.13E-16 7.51E-17 7.01E-17 7.48E-17 1.30E-16
Sr-92 1.43E-16 1.62E-16 1.44E-16 1.43E-16 2.06E-16 1.48E-16 1.40E-16 1.47E-16 1.75E-16
Yttrium
Y-86m 2.27E-17 2.60E-17 2.19E-17 2.04E-17 5.30E-17 2.29E-17 2.08E-17 2.32E-17 2.75E-17
Y-86 3.79E-16 4.30E-16 3.81E-16 3.75E-16 5.77E-16 3.90E-16 3.67E-16 3.89E-16 4.56E-16
Y-87 4.57E-17 5.24E-17 4.53E-17 4.35E-17 8.25E-17 4.65E-17 4.32E-17 4.68E-17 5.47E-17
Y-88 2.89E-16 3.27E-16 2.93E-16 2.91E-16 4.13E-16 2.98E-16 2.84E-16 2.98E-16 3.34E-16
Y-90m 6.42E-17 7.36E-17 6.30E-17 5.98E-17 1.29E-16 6.50E-17 6.00E-17 6.56E-17 7.90E-17
Y-90 3.61E-19 4.22E-19 3.36E-19 3.07E-19 8.56E-19 3.58E-19 3.19E-19 3.63E-19 6.67E-17
Y-91m 5.42E-17 6.19E-17 5.38E-17 5.19E-17 9.37E-17 5.52E-17 5.14E-17 5.54E-17 6.59E-17
Y-91 5.35E-19 6.13E-19 5.22E-19 5.04E-19 9.44E-19 5.43E-19 5.01E-19 5.44E-19 4.12E-17
Y-92 2.74E-17 3.11E-17 2.74E-17 2.69E-17 4.22E-17 2.81E-17 2.63E-17 2.81E-17 1.38E-16
Y-93 1.01E-17 1.14E-17 1.01E-17 9.86E-18 1.64E-17 1.03E-17 9.70E-18 1.03E-17 9.66E-17
Y-94 1.19E-16 1.35E-16 1.19E-16 1.17E-16 1.79E-16 1.22E-16 1.15E-16 1.22E-16 2.63E-16
Y-95 1.01E-16 1.12E-16 1.02E-16 1.02E-16 1.39E-16 1.05E-16 9.93E-17 1.04E-16 2.28E-16
Zirconium
Zr-86 2.76E-17 3.17E-17 2.66E-17 2.50E-17 6.11E-17 2.77E-17 2.53E-17 2.81E-17 3.40E-17
Zr-88 4.01E-17 4.60E-17 3.95E-17 3.76E-17 7.74E-17 4.07E-17 3.76E-17 4.10E-17 4.87E-17
Zr-89 1.21E-16 1.37E-16 1.20E-16 1.18E-16 1.90E-16 1.24E-16 1.15E-16 1.23E-16 1.47E-16
Zr-93 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Zr-95 7.66E-17 8.72E-17 7.61E-17 7.42E-17 1.23E-16 7.83E-17 7.29E-17 7.82E-17 9.36E-17
Zr-97 1.91E-17 2.17E-17 1.91E-17 1.87E-17 3.01E-17 1.96E-17 1.84E-17 1.96E-17 7.04E-17
Niobium
Nb-88 4.29E-16 4.88E-16 4.27E-16 4.16E-16 6.99E-16 4.39E-16 4.09E-16 4.38E-16 5.89E-16
Nb-89bx 1.48E-16 1.67E-16 1.48E-16 1.45E-16 2.35E-16 1.52E-16 1.42E-16 1.51E-16 2.54E-16
Nb-89a2 1.97E-16 2.25E-16 1.95E-16 1.88E-16 3.44E-16 2.01E-16 1.87E-16 2.01E-16 2.92E-16
Nb-90 4.57E-16 5.15E-16 4.62E-16 4.58E-16 6.71E-16 4.72E-16 4.48E-16 4.70E-16 5.52E-16
Nb-93m 1.48E-20 3.08E-20 5.97E-22 2.76E-21 1.62E-20 8.05E-21 3.20E-21 1.04E-20 1.01E-19
Nb-94 1.64E-16 1.86E-16 1.63E-16 1.59E-16 2.59E-16 1.68E-16 1.56E-16 1.67E-16 1.99E-16
Nb-95m 6.32E-18 7.30E-18 6.06E-18 5.66E-18 1.46E-17 6.33E-18 5.75E-18 6.43E-18 1.58E-17
Nb-95 7.95E-17 9.04E-17 7.90E-17 7.72E-17 1.26E-16 8.13E-17 7.57E-17 8.11E-17 9.32E-17
Nb-96 2.58E-16 2.93E-16 2.57E-16 2.51E-16 4.08E-16 2.64E-16 2.46E-16 2.64E-16 3.15E-16
Nb-97m 7.55E-17 8.59E-17 7.50E-17 7.31E-17 1.21E-16 7.72E-17 7.18E-17 7.70E-17 8.93E-17
Nb-97 6.76E-17 7.71E-17 6.72E-17 6.53E-17 1.12E-16 6.90E-17 6.43E-17 6.91E-17 1.10E-16
Nb-98 2.55E-16 2.90E-16 2.55E-16 2.51E-16 3.93E-16 2.62E-16 2.45E-16 2.61E-16 3.60E-16
Molybdenum
Mo-90 8.41E-17 9.62E-17 8.25E-17 7.87E-17 1.65E-16 8.52E-17 7.87E-17 8.59E-17 1.10E-16
Mo-93m 2.38E-16 2.70E-16 2.39E-16 2.36E-16 3.63E-16 2.45E-16 2.31E-16 2.45E-16 2.82E-16
Mo-93 8.43E-20 1.75E-19 3.38E-21 1.57E-20 9.21E-20 4.57E-20 1.82E-20 5.92E-20 5.71E-19
Mo-99 1.55E-17 1.77E-17 1.53E-17 1.48E-17 2.71E-17 1.58E-17 1.46E-17 1.58E-17 4.26E-17
Mo-101 1.45E-16 1.65E-16 1.46E-16 1.43E-16 2.23E-16 1.49E-16 1.40E-16 1.49E-16 2.07E-16
Technetium
Tc-93m 7.87E-17 8.84E-17 7.95E-17 7.87E-17 1.19E-16 8.13E-17 7.70E-17 8.10E-17 9.54E-17
Tc-93 1.55E-16 1.76E-16 1.57E-16 1.56E-16 2.21E-16 1.60E-16 1.52E-16 1.60E-16 1.80E-16
Tc-94m 1.95E-16 2.21E-16 1.94E-16 1.90E-16 3.11E-16 2.00E-16 1.87E-16 1.99E-16 2.81E-16
Tc-94 2.77E-16 3.15E-16 2.76E-16 2.69E-16 4.37E-16 2.84E-16 2.64E-16 2.83E-16 3.26E-16
Tc-95m 6.88E-17 7.85E-17 6.79E-17 6.55E-17 1.22E-16 7.01E-17 6.49E-17 7.02E-17 8.16E-17
1 TK = 122 m
2 TK = 66 m
-------
80
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Technetium, cont'd
Tc-95 8.17E-17 9.30E-17 8.11E-17 7.92E-17 1.29E-16 8.35E-17 7.77E-17 8.33E-17 9.60E-17
Tc-96m 4.78E-18 5.48E-18 4.69E-18 4.62E-18 7.33E-18 4.86E-18 4.52E-18 4.85E-18 5.86E-18
Tc-96 2.60E-16 2.96E-16 2.59E-16 2.53E-16 4.07E-16 2.66E-16 2.48E-16 2.65E-16 3.04E-16
Tc-97m 1.42E-19 2.46E-19 3.61E-20 4.55E-20 2.31E-19 9.86E-20 5.17E-20 1.08E-19 9.02E-19
Tc-97 1.13E-19 2.22E-19 6.23E-21 2.14E-20 1.28E-19 6.55E-20 2.54E-20 7.82E-20 6.38E-19
Tc-98 1.46E-16 1.66E-16 1.45E-16 1.41E-16 2.37E-16 1.49E-16 1.39E-16 1.49E-16 1.78E-16
Tc-99m 1.28E-17 1.48E-17 1.21E-17 1.08E-17 3.63E-17 1.28E-17 1.14E-17 1.31E-17 1.56E-17
Tc-99 3.39E-21 4.32E-21 2.48E-21 2.01E-21 l.OOE-20 3.06E-21 2.38E-21 3.14E-21 2.88E-18
Tc-101 3.43E-17 3.93E-17 3.36E-17 3.18E-17 7.07E-17 3.47E-17 3.20E-17 3.51E-17 7.16E-17
Tc-104 2.13E-16 2.41E-16 2.14E-16 2.11E-16 3.29E-16 2.19E-16 2.07E-16 2.19E-16 3.66E-16
Ruthenium
Ru-94 5.41E-17 6.18E-17 5.34E-17 5.16E-17 9.50E-17 5.51E-17 5.10E-17 5.52E-17 6.43E-17
Ru-97 2.35E-17 2.71E-17 2.26E-17 2.11E-17 5.45E-17 2.36E-17 2.14E-17 2.40E-17 2.87E-17
Ru-103 4.78E-17 5.47E-17 4.73E-17 4.56E-17 8.52E-17 4.86E-17 4.52E-17 4.89E-17 5.85E-17
Ru-105 8.10E-17 9.23E-17 8.03E-17 7.78E-17 1.37E-16 8.26E-17 7.68E-17 8.27E-17 1.20E-16
Ru-106 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Rhodium
Rh-99m 7.00E-17 7.99E-17 6.93E-17 6.72E-17 1.21E-16 7.14E-17 6.64E-17 7.16E-17 8.42E-17
Rh-99 6.09E-17 6.99E-17 5.97E-17 5.71E-17 1.15E-16 6.17E-17 5.70E-17 6.21E-17 7.37E-17
Rh-100 2.97E-16 3.35E-16 3.00E-16 2.97E-16 4.36E-16 3.06E-16 2.90E-16 3.05E-16 3.48E-16
Rh-lOlm 3.03E-17 3.48E-17 2.94E-17 2.79E-17 6.29E-17 3.05E-17 2.80E-17 3.09E-17 3.70E-17
Rh-101 2.62E-17 3.03E-17 2.49E-17 2.27E-17 6.67E-17 2.61E-17 2.35E-17 2.66E-17 3.24E-17
Rh-102m 4.92E-17 5.63E-17 4.86E-17 4.70E-17 8.58E-17 5.00E-17 4.65E-17 5.02E-17 6.91E-17
Rh-102 2.21E-16 2.51E-16 2.19E-16 2.13E-16 3.60E-16 2.25E-16 2.10E-16 2.25E-16 2.59E-16
Rh-103m 2.95E-20 5.06E-20 4.37E-21 6.63E-21 4.13E-20 2.01E-20 8.63E-21 2.07E-20 1.06E-19
Rh-105 7.97E-18 9.12E-18 7.78E-18 7.37E-18 1.66E-17 8.05E-18 7.40E-18 8.14E-18 1.62E-17
Rh-106m 3.05E-16 3.47E-16 3.05E-16 2.98E-16 4.83E-16 3.13E-16 2.93E-16 3.12E-16 3.75E-16
Rh-106 2.19E-17 2.50E-17 2.17E-17 2.11E-17 3.75E-17 2.23E-17 2.08E-17 2.24E-17 1.30E-16
Rh-107 3.21E-17 3.67E-17 3.14E-17 2.98E-17 6.58E-17 3.24E-17 2.99E-17 3.28E-17 6.64E-17
Palladium
Pd-100 1.06E-17 1.27E-17 9.19E-18 7.61E-18 3.45E-17 1.01E-17 8.61E-18 1.05E-17 1.39E-17
Pd-101 3.27E-17 3.75E-17 3.20E-17 3.09E-17 5.73E-17 3.31E-17 3.06E-17 3.32E-17 4.09E-17
Pd-103 2.54E-19 4.37E-19 3.99E-20 6.18E-20 3.41E-19 1.74E-19 7.67E-20 1.80E-19 9.20E-19
Pd-107 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pd-109 6.09E-19 7.96E-19 4.27E-19 3.81E-19 1.56E-18 5.47E-19 4.22E-19 5.59E-19 2.34E-17
Silver
Ag-102 3.54E-16 4.01E-16 3.55E-16 3.48E-16 5.53E-16 3.63E-16 3.41E-16 3.63E-16 4.71E-16
Ag-103 7.83E-17 8.95E-17 7.74E-17 7.47E-17 1.39E-16 7.97E-17 7.41E-17 8.00E-17 1.10E-16
Ag-104m 1.23E-16 1.40E-16 1.23E-16 1.20E-16 2.00E-16 1.26E-16 1.18E-16 1.26E-16 1.80E-16
Ag-104 2.79E-16 3.18E-16 2.79E-16 2.73E-16 4.40E-16 2.86E-16 2.68E-16 2.86E-16 3.32E-16
Ag-105 5.25E-17 6.02E-17 5.13E-17 4.91E-17 9.99E-17 5.31E-17 4.89E-17 5.35E-17 6.31E-17
Ag-106m 2.93E-16 3.34E-16 2.93E-16 2.86E-16 4.68E-16 3.00E-16 2.81E-16 3.00E-16 3.44E-16
Ag-106 7.22E-17 8.27E-17 7.14E-17 6.88E-17 1.28E-16 7.34E-17 6.82E-17 7.38E-17 1.21E-16
Ag-108m 1.66E-16 1.90E-16 1.64E-16 1.59E-16 2.83E-16 1.69E-16 1.57E-16 1.69E-16 1.97E-16
Ag-108 1.96E-18 2.25E-18 1.93E-18 1.86E-18 3.47E-18 1.99E-18 1.84E-18 2.00E-18 4.37E-17
Ag-109m 4.89E-19 6.57E-19 3.15E-19 2.77E-19 1.30E-18 4.29E-19 3.16E-19 4.38E-19 1.09E-18
Ag-llOm 2.88E-16 3.27E-16 2.87E-16 2.82E-16 4.46E-16 2.95E-16 2.76E-16 2.94E-16 3.38E-16
Ag-110 3.72E-18 4.26E-18 3.67E-18 3.54E-18 6.48E-18 3.79E-18 3.51E-18 3.79E-18 8.99E-17
Ag-111 2.75E-18 3.15E-18 2.68E-18 2.54E-18 5.69E-18 2.78E-18 2.55E-18 2.81E-18 2.49E-17
Ag-112 7.04E-17 7.98E-17 7.07E-17 6.96E-17 1.08E-16 7.23E-17 6.81E-17 7.23E-17 1.84E-16
Ag-115 7.61E-17 8.62E-17 7.65E-17 7.52E-17 1.22E-16 7.82E-17 7.39E-17 7.83E-17 1.63E-16
Cadmium
Cd-104 2.46E-17 2.85E-17 2.37E-17 2.25E-17 4.74E-17 2.48E-17 2.26E-17 2.49E-17 3.01E-17
Cd-107 1.50E-18 2.00E-18 1.01E-18 9.61E-19 3.10E-18 1.34E-18 1.02E-18 1.35E-18 3.09E-18
Cd-109 8.31E-19 1.21E-18 3.74E-19 3.56E-19 1.80E-18 6.71E-19 4.17E-19 6.77E-19 2.12E-18
Cd-113m 1.39E-20 1.71E-20 1.14E-20 9.57E-21 4.06E-20 1.31E-20 1.08E-20 1.34E-20 8.95E-18
Cd-113 3.05E-21 3.88E-21 2.23E-21 1.81E-21 8.99E-21 2.75E-21 2.14E-21 2.82E-21 2.53E-18
Cd-115m 2.47E-18 2.81E-18 2.46E-18 2.41E-18 3.88E-18 2.53E-18 2.36E-18 2.52E-18 4.38E-17
Cd-115 2.37E-17 2.72E-17 2.35E-17 2.26E-17 4.24E-17 2.41E-17 2.24E-17 2.43E-17 4.59E-17
Cd-117m 2.20E-16 2.49E-16 2.23E-16 2.21E-16 3.18E-16 2.27E-16 2.15E-16 2.27E-16 2.66E-16
Cd-117 1.15E-16 1.31E-16 1.15E-16 1.14E-16 1.79E-16 1.18E-16 1.11E-16 1.18E-16 1.62E-16
-------
81
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Indium
In-109 6.86E-17 7.84E-17 6.75E-17 6.51E-17 1.23E-16 6.97E-17 6.46E-17 7.00E-17 8.32E-17
In-llOb1 3.16E-16 3.60E-16 3.15E-16 3.08E-16 4.98E-16 3.24E-16 3.02E-16 3.23E-16 3.70E-16
In-110a2 1.62E-16 1.84E-16 1.61E-16 1.57E-16 2.66E-16 1.65E-16 1.55E-16 1.66E-16 2.34E-16
In-Ill 4.02E-17 4.64E-17 3.84E-17 3.55E-17 9.68E-17 4.02E-17 3.63E-17 4.09E-17 4.95E-17
In-112 2.69E-17 3.09E-17 2.66E-17 2.56E-17 4.73E-17 2.74E-17 2.54E-17 2.75E-17 4.71E-17
In-113m 2.58E-17 2.97E-17 2.53E-17 2.41E-17 4.99E-17 2.61E-17 2.41E-17 2.64E-17 3.90E-17
In-114m 9.04E-18 1.04E-17 8.68E-18 8.28E-18 1.76E-17 9.09E-18 8.28E-18 9.14E-18 1.67E-17
In-114 2.95E-19 3.35E-19 2.94E-19 2.90E-19 4.33E-19 3.02E-19 2.84E-19 3.01E-19 3.29E-18
In-115m 1.59E-17 1.83E-17 1.54E-17 1.46E-17 3.23E-17 1.60E-17 1.46E-17 1.62E-17 2.90E-17
In-115 9.12E-21 1.13E-20 7.25E-21 6.04E-21 2.69E-20 8.47E-21 6.91E-21 8.70E-21 6.51E-18
In-116m 2.64E-16 2.99E-16 2.66E-16 2.63E-16 3.87E-16 2.72E-16 2.56E-16 2.71E-16 3.23E-16
In-117m 9.04E-18 1.04E-17 8.66E-18 8.09E-18 2.04E-17 9.06E-18 8.22E-18 9.18E-18 3.93E-17
In-117 7.06E-17 8.10E-17 6.95E-17 6.63E-17 1.36E-16 7.17E-17 6.62E-17 7.22E-17 9.78E-17
In-119m 1.29E-18 1.53E-18 1.17E-18 1.12E-18 2.49E-18 1.27E-18 1.13E-18 1.28E-18 7.67E-17
In-119 7.97E-17 9.07E-17 7.91E-17 7.72E-17 1.27E-16 8.15E-17 7.57E-17 8.12E-17 1.35E-16
Tin
Sn-110 2.96E-17 3.41E-17 2.85E-17 2.68E-17 6.40E-17 2.97E-17 2.71E-17 3.01E-17 3.62E-17
Sn-111 5.21E-17 5.95E-17 5.17E-17 5.03E-17 8.64E-17 5.31E-17 4.96E-17 5.33E-17 7.65E-17
Sn-113 l.OOE-18 1.35E-18 5.94E-19 5.73E-19 1.95E-18 8.68E-19 6.20E-19 8.63E-19 1.88E-18
Sn-117m 1.50E-17 1.74E-17 1.39E-17 1.25E-17 3.99E-17 1.48E-17 1.31E-17 1.51E-17 2.28E-17
Sn-119m 3.31E-19 5.04E-19 8.38E-20 8.58E-20 5.63E-19 2.45E-19 1.19E-19 2.39E-19 8.09E-19
Sn-121m 1.86E-19 2.67E-19 6.78E-20 5.71E-20 3.79E-19 1.44E-19 7.97E-20 1.41E-19 1.33E-18
Sn-121 4.89E-21 6.15E-21 3.72E-21 3.05E-21 1.45E-20 4.47E-21 3.56E-21 4.60E-21 3.90E-18
Sn-123m 1.42E-17 1.64E-17 1.35E-17 1.22E-17 3.81E-17 1.42E-17 1.27E-17 1.45E-17 4.68E-17
Sn-123 8.44E-19 9.61E-19 8.32E-19 8.11E-19 1.38E-18 8.61E-19 7.98E-19 8.59E-19 3.53E-17
Sn-125 3.35E-17 3.79E-17 3.35E-17 3.30E-17 5.02E-17 3.44E-17 3.23E-17 3.43E-17 9.57E-17
Sn-126 4.83E-18 5.81E-18 4.15E-18 3.43E-18 1.57E-17 4.60E-18 3.89E-18 4.76E-18 1.04E-17
Sn-127 2.03E-16 2.30E-16 2.03E-16 2.00E-16 3.08E-16 2.09E-16 1.96E-16 2.08E-16 2.70E-16
Sn-128 6.46E-17 7.46E-17 6.25E-17 5.97E-17 1.20E-16 6.51E-17 5.97E-17 6.55E-17 8.81E-17
Antimony
Sb-115 9.21E-17 1.05E-16 9.10E-17 8.77E-17 1.63E-16 9.36E-17 8.69E-17 9.41E-17 1.25E-16
Sb-116m 3.29E-16 3.73E-16 3.27E-16 3.21E-16 5.16E-16 3.37E-16 3.15E-16 3.36E-16 3.90E-16
Sb-116 2.29E-16 2.59E-16 2.29E-16 2.26E-16 3.44E-16 2.35E-16 2.21E-16 2.34E-16 2.95E-16
Sb-117 1.74E-17 2.03E-17 1.63E-17 1.49E-17 4.37E-17 1.73E-17 1.54E-17 1.76E-17 2.22E-17
Sb-118m 2.71E-16 3.07E-16 2.69E-16 2.64E-16 4.18E-16 2.77E-16 2.59E-16 2.76E-16 3.16E-16
Sb-119 7.02E-19 1.06E-18 1.84E-19 1.84E-19 1.21E-18 5.21E-19 2.57E-19 5.08E-19 1.68E-18
Sb-120b3 2.59E-16 2.94E-16 2.57E-16 2.51E-16 4.13E-16 2.65E-16 2.47E-16 2.64E-16 3.02E-16
Sb-120a4 4.55E-17 5.22E-17 4.48E-17 4.32E-17 8.01E-17 4.62E-17 4.28E-17 4.64E-17 7.53E-17
Sb-122 4.53E-17 5.18E-17 4.50E-17 4.36E-17 7.75E-17 4.62E-17 4.30E-17 4.64E-17 9.15E-17
Sb-124n5 2.22E-21 3.40E-21 5.32E-22 5.63E-22 3.70E-21 1.63E-21 7.82E-22 1.59E-21 5.50E-21
Sb-124m6 3.61E-17 4.12E-17 3.58E-17 3.47E-17 6.15E-17 3.68E-17 3.42E-17 3.69E-17 4.79E-17
Sb-124 1.93E-16 2.19E-16 1.94E-16 1.92E-16 2.91E-16 1.98E-16 1.88E-16 1.98E-16 2.49E-16
Sb-125 4.32E-17 4.95E-17 4.23E-17 4.07E-17 7.75E-17 4.38E-17 4.04E-17 4.39E-17 5.46E-17
Sb-126m 1.60E-16 1.82E-16 1.58E-16 1.53E-16 2.70E-16 1.63E-16 1.51E-16 1.63E-16 2.28E-16
Sb-126 2.92E-16 3.33E-16 2.90E-16 2.82E-16 4.86E-16 2.99E-16 2.78E-16 2.99E-16 3.60E-16
Sb-127 7.09E-17 8.09E-17 7.02E-17 6.80E-17 1.21E-16 7.23E-17 6.71E-17 7.24E-17 1.02E-16
Sb-128b7 3.20E-16 3.65E-16 3.18E-16 3.09E-16 5.29E-16 3.27E-16 3.05E-16 3.27E-16 4.03E-16
Sb-128a8 2.06E-16 2.35E-16 2.04E-16 1.99E-16 3.43E-16 2.11E-16 1.96E-16 2.10E-16 3.07E-16
Sb-129 1.51E-16 1.72E-16 1.51E-16 1.49E-16 2.33E-16 1.55E-16 1.45E-16 1.55E-16 2.02E-16
Sb-130 3.41E-16 3.88E-16 3.39E-16 3.30E-16 5.57E-16 3.49E-16 3.25E-16 3.48E-16 4.47E-16
Sb-131 1.98E-16 2.24E-16 1.99E-16 1.96E-16 2.97E-16 2.04E-16 1.92E-16 2.03E-16 2.66E-16
Tellurium
Te-116 5.35E-18 6.55E-18 4.38E-18 3.87E-18 1.40E-17 5.06E-18 4.20E-18 5.14E-18 7.55E-18
Te-121m 2.15E-17 2.47E-17 2.04E-17 1.91E-17 4.86E-17 2.15E-17 1.94E-17 2.17E-17 2.64E-17
TK = 4.9 h
TK = 69.1 m
TK = 5.76 d
TK = 15.89 m
TK = 20.2 m
TK = 93 s
TK = 9.01 h
T* = 10.4 m
-------
82
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Tellurium, cont'd
Te-121 5.77E-17 6.62E-17 5.67E-17 5.48E-17 9.97E-17 5.86E-17 5.43E-17 5.88E-17 6.91E-17
Te-123m 1.43E-17 1.66E-17 1.33E-17 1.20E-17 3.81E-17 1.41E-17 1.25E-17 1.44E-17 1.81E-17
Te-123 6.86E-19 1.01E-18 2.11E-19 1.91E-19 1.27E-18 5.19E-19 2.69E-19 5.05E-19 1.50E-18
Te-125m 1.40E-18 2.00E-18 5.20E-19 4.35E-19 2.85E-18 1.09E-18 6.06E-19 1.06E-18 3.59E-18
Te-127m 4.47E-19 6.33E-19 1.76E-19 1.49E-19 9.20E-19 3.51E-19 2.01E-19 3.44E-19 1.38E-18
Te-127 5.16E-19 5.93E-19 5.04E-19 4.79E-19 1.01E-18 5.21E-19 4.80E-19 5.26E-19 1.24E-17
Te-129m 3.40E-18 3.97E-18 3.18E-18 3.08E-18 5.70E-18 3.40E-18 3.06E-18 3.39E-18 1.81E-17
Te-129 5.91E-18 6.81E-18 5.73E-18 5.50E-18 1.07E-17 5.96E-18 5.48E-18 5.99E-18 4.16E-17
Te-131m 1.49E-16 1.69E-16 1.48E-16 1.45E-16 2.38E-16 1.52E-16 1.42E-16 1.52E-16 1.83E-16
Te-131 4.35E-17 4.98E-17 4.27E-17 4.08E-17 8.35E-17 4.42E-17 4.07E-17 4.44E-17 9.96E-17
Te-132 2.26E-17 2.62E-17 2.12E-17 1.96E-17 5.37E-17 2.25E-17 2.01E-17 2.28E-17 2.90E-17
Te-133m 2.43E-16 2.76E-16 2.42E-16 2.37E-16 3.81E-16 2.49E-16 2.32E-16 2.48E-16 3.30E-16
Te-133 9.75E-17 1.11E-16 9.71E-17 9.45E-17 1.64E-16 9.97E-17 9.32E-17 9.99E-17 1.71E-16
Te-134 9.06E-17 1.04E-16 8.91E-17 8.56E-17 1.66E-16 9.21E-17 8.50E-17 9.24E-17 1.22E-16
Iodine
I-120m 5.61E-16 6.35E-16 5.62E-16 5.52E-16 8.70E-16 5.76E-16 5.41E-16 5.75E-16 7.44E-16
1-120 2.92E-16 3.30E-16 2.93E-16 2.88E-16 4.53E-16 3.00E-16 2.83E-16 3.00E-16 4.45E-16
1-121 4.18E-17 4.80E-17 4.04E-17 3.83E-17 8.53E-17 4.21E-17 3.85E-17 4.24E-17 5.47E-17
1-122 9.70E-17 1.11E-16 9.61E-17 9.27E-17 1.70E-16 9.88E-17 9.19E-17 9.92E-17 1.92E-16
1-123 1.60E-17 1.87E-17 1.48E-17 1.34E-17 4.11E-17 1.58E-17 1.40E-17 1.61E-17 2.04E-17
1-124 1.14E-16 1.30E-16 1.14E-16 1.11E-16 1.81E-16 1.17E-16 1.09E-16 1.17E-16 1.47E-16
1-125 1.63E-18 2.33E-18 5.81E-19 4.86E-19 3.26E-18 1.26E-18 6.86E-19 1.23E-18 3.29E-18
1-126 4.60E-17 5.27E-17 4.53E-17 4.37E-17 8.02E-17 4.68E-17 4.33E-17 4.69E-17 6.38E-17
1-128 8.85E-18 1.01E-17 8.70E-18 8.33E-18 1.63E-17 8.97E-18 8.30E-18 9.02E-18 6.26E-17
1-129 1.14E-18 1.57E-18 4.99E-19 3.84E-19 2.56E-18 9.06E-19 5.39E-19 8.91E-19 2.29E-18
1-130 2.21E-16 2.52E-16 2.19E-16 2.13E-16 3.67E-16 2.25E-16 2.10E-16 2.25E-16 2.77E-16
1-131 3.90E-17 4.46E-17 3.83E-17 3.65E-17 7.58E-17 3.95E-17 3.64E-17 3.98E-17 5.53E-17
I-132m 3.26E-17 3.73E-17 3.21E-17 3.10E-17 5.57E-17 3.31E-17 3.07E-17 3.32E-17 4.34E-17
1-132 2.38E-16 2.70E-16 2.37E-16 2.31E-16 3.78E-16 2.43E-16 2.27E-16 2.43E-16 3.10E-16
1-133 6.25E-17 7.13E-17 6.20E-17 6.01E-17 1.06E-16 6.37E-17 5.93E-17 6.39E-17 9.96E-17
1-134 2.76E-16 3.13E-16 2.75E-16 2.70E-16 4.26E-16 2.83E-16 2.64E-16 2.82E-16 3.63E-16
1-135 1.68E-16 1.91E-16 1.70E-16 1.68E-16 2.46E-16 1.74E-16 1.64E-16 1.73E-16 2.17E-16
Xenon
Xe-120 4.20E-17 4.84E-17 4.04E-17 3.87E-17 7.68E-17 4.23E-17 3.86E-17 4.24E-17 5.16E-17
Xe-121 1.93E-16 2.19E-16 1.94E-16 1.91E-16 3.04E-16 1.99E-16 1.87E-16 1.98E-16 2.64E-16
Xe-122 5.57E-18 6.65E-18 4.87E-18 4.53E-18 1.18E-17 5.40E-18 4.68E-18 5.44E-18 7.42E-18
Xe-123 6.47E-17 7.40E-17 6.37E-17 6.14E-17 1.16E-16 6.58E-17 6.10E-17 6.61E-17 8.74E-17
Xe-125 2.61E-17 3.02E-17 2.45E-17 2.29E-17 5.81E-17 2.60E-17 2.33E-17 2.62E-17 3.25E-17
Xe-127 2.72E-17 3.15E-17 2.56E-17 2.37E-17 6.40E-17 2.71E-17 2.43E-17 2.74E-17 3.38E-17
Xe-129m 2.83E-18 3.71E-18 1.71E-18 1.45E-18 6.52E-18 2.44E-18 1.72E-18 2.43E-18 1.12E-17
Xe-131m 1.06E-18 1.40E-18 6.06E-19 5.12E-19 2.43E-18 8.99E-19 6.17E-19 8.93E-19 6.02E-18
Xe-133m 3.17E-18 3.82E-18 2.63E-18 2.41E-18 7.23E-18 3.02E-18 2.54E-18 3.04E-18 1.32E-17
Xe-133 3.69E-18 4.50E-18 2.97E-18 2.41E-18 1.16E-17 3.43E-18 2.80E-18 3.54E-18 7.89E-18
Xe-135m 4.36E-17 4.99E-17 4.31E-17 4.15E-17 7.67E-17 4.43E-17 4.11E-17 4.45E-17 5.80E-17
Xe-135 2.56E-17 2.93E-17 2.48E-17 2.33E-17 5.68E-17 2.57E-17 2.35E-17 2.61E-17 4.86E-17
Xe-138 1.21E-16 1.37E-16 1.23E-16 1.21E-16 1.84E-16 1.25E-16 1.19E-16 1.25E-16 1.86E-16
Cesium
Cs-125 6.87E-17 7.87E-17 6.77E-17 6.53E-17 1.21E-16 6.98E-17 6.47E-17 7.01E-17 1.05E-16
Cs-126 1.12E-16 1.28E-16 1.10E-16 1.06E-16 2.01E-16 1.13E-16 1.05E-16 1.14E-16 2.41E-16
Cs-127 4.16E-17 4.78E-17 4.04E-17 3.85E-17 7.89E-17 4.19E-17 3.85E-17 4.22E-17 5.10E-17
Cs-128 9.20E-17 1.05E-16 9.10E-17 8.76E-17 1.63E-16 9.35E-17 8.69E-17 9.40E-17 1.70E-16
Cs-129 2.68E-17 3.11E-17 2.56E-17 2.43E-17 5.21E-17 2.69E-17 2.44E-17 2.70E-17 3.31E-17
Cs-130 5.22E-17 5.99E-17 5.15E-17 4.96E-17 9.20E-17 5.31E-17 4.92E-17 5.33E-17 9.03E-17
Cs-131 9.99E-19 1.39E-18 4.07E-19 3.19E-19 2.15E-18 7.86E-19 4.52E-19 7.70E-19 1.85E-18
Cs-132 7.14E-17 8.16E-17 7.03E-17 6.83E-17 1.18E-16 7.26E-17 6.73E-17 7.26E-17 8.50E-17
Cs-134m 2.10E-18 2.54E-18 1.75E-18 1.51E-18 5.87E-18 2.00E-18 1.66E-18 2.03E-18 4.52E-18
Cs-134 1.61E-16 1.83E-16 1.60E-16 1.56E-16 2.62E-16 1.64E-16 1.53E-16 1.64E-16 1.97E-16
Cs-135m 1.65E-16 1.88E-16 1.64E-16 1.61E-16 2.59E-16 1.69E-16 1.57E-16 1.68E-16 1.95E-16
Cs-135 1.23E-21 1.62E-21 8.08E-22 6.44E-22 3.52E-21 1.07E-21 7.93E-22 1.10E-21 9.52E-19
Cs-136 2.27E-16 2.57E-16 2.25E-16 2.20E-16 3.62E-16 2.32E-16 2.16E-16 2.31E-16 2.68E-16
-------
83
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Cesium, cont'd
Cs-137 1.54E-20 1.88E-20 1.28E-20 1.09E-20 4.43E-20 1.46E-20 1.22E-20 1.49E-20 9.12E-18
Cs-138 2.55E-16 2.87E-16 2.57E-16 2.55E-16 3.70E-16 2.63E-16 2.49E-16 2.62E-16 3.81E-16
Barium
Ba-126 1.53E-17 1.78E-17 1.45E-17 1.37E-17 3.07E-17 1.53E-17 1.38E-17 1.54E-17 1.96E-17
Ba-128 6.46E-18 7.65E-18 5.67E-18 5.24E-18 1.42E-17 6.27E-18 5.43E-18 6.32E-18 8.45E-18
Ba-131m 6.87E-18 8.19E-18 6.06E-18 5.17E-18 2.10E-17 6.65E-18 5.70E-18 6.83E-18 8.79E-18
Ba-131 4.52E-17 5.21E-17 4.36E-17 4.13E-17 9.00E-17 4.55E-17 4.15E-17 4.58E-17 5.52E-17
Ba-133m 5.86E-18 6.89E-18 5.25E-18 4.86E-18 1.29E-17 5.73E-18 5.02E-18 5.78E-18 1.83E-17
Ba-133 3.88E-17 4.49E-17 3.68E-17 3.44E-17 8.30E-17 3.87E-17 3.50E-17 3.91E-17 4.77E-17
Ba-135m 5.22E-18 6.16E-18 4.62E-18 4.26E-18 1.16E-17 5.08E-18 4.42E-18 5.12E-18 1.72E-17
Ba-137m 6.13E-17 6.99E-17 6.09E-17 5.91E-17 1.01E-16 6.26E-17 5.82E-17 6.26E-17 7.65E-17
Ba-139 4.66E-18 5.38E-18 4.43E-18 4.05E-18 1.16E-17 4.65E-18 4.19E-18 4.73E-18 6.85E-17
Ba-140 1.83E-17 2.10E-17 1.80E-17 1.72E-17 3.40E-17 1.86E-17 1.72E-17 1.87E-17 3.79E-17
Ba-141 8.85E-17 1.01E-16 8.76E-17 8.48E-17 1.57E-16 9.02E-17 8.40E-17 9.05E-17 1.66E-16
Ba-142 1.10E-16 1.25E-16 1.09E-16 1.06E-16 1.77E-16 1.12E-16 1.04E-16 1.12E-16 1.54E-16
Lanthanum
La-131 6.74E-17 7.74E-17 6.58E-17 6.28E-17 1.28E-16 6.82E-17 6.28E-17 6.86E-17 9.32E-17
La-132 2.12E-16 2.40E-16 2.12E-16 2.08E-16 3.36E-16 2.17E-16 2.04E-16 2.17E-16 2.85E-16
La-134 7.12E-17 8.16E-17 7.04E-17 6.79E-17 1.25E-16 7.24E-17 6.73E-17 7.27E-17 1.38E-16
La-135 2.31E-18 2.92E-18 1.63E-18 1.45E-18 4.81E-18 2.09E-18 1.61E-18 2.08E-18 3.42E-18
La-137 1.20E-18 1.63E-18 5.59E-19 4.19E-19 2.80E-18 9.67E-19 5.89E-19 9.51E-19 2.05E-18
La-138 1.31E-16 1.49E-16 1.32E-16 1.30E-16 1.91E-16 1.35E-16 1.27E-16 1.34E-16 1.53E-16
La-140 2.47E-16 2.80E-16 2.50E-16 2.47E-16 3.67E-16 2.55E-16 2.41E-16 2.54E-16 3.22E-16
La-141 4.99E-18 5.66E-18 5.01E-18 4.95E-18 7.46E-18 5.13E-18 4.84E-18 5.12E-18 7.31E-17
La-142 3.03E-16 3.40E-16 3.08E-16 3.07E-16 4.25E-16 3.14E-16 2.99E-16 3.12E-16 4.06E-16
La-143 1.08E-17 1.22E-17 1.09E-17 1.07E-17 1.63E-17 1.11E-17 1.05E-17 1.11E-17 1.09E-16
Cerium
Ce-134 1.37E-18 1.84E-18 6.78E-19 5.01E-19 3.33E-18 1.12E-18 7.00E-19 1.10E-18 2.27E-18
Ce-135 1.82E-16 2.08E-16 1.80E-16 1.73E-16 3.25E-16 1.85E-16 1.72E-16 1.86E-16 2.28E-16
Ce-137m 4.49E-18 5.34E-18 3.87E-18 3.53E-18 1.01E-17 4.33E-18 3.71E-18 4.36E-18 1.57E-17
Ce-137 2.25E-18 2.85E-18 1.54E-18 1.32E-18 4.94E-18 2.01E-18 1.52E-18 2.00E-18 3.33E-18
Ce-139 1.50E-17 1.75E-17 1.36E-17 1.22E-17 3.94E-17 1.47E-17 1.29E-17 1.49E-17 1.92E-17
Ce-141 7.52E-18 8.77E-18 7.01E-18 6.23E-18 2.10E-17 7.45E-18 6.59E-18 7.62E-18 1.55E-17
Ce-143 2.80E-17 3.22E-17 2.68E-17 2.54E-17 5.56E-17 2.81E-17 2.56E-17 2.83E-17 5.93E-17
Ce-144 1.92E-18 2.27E-18 1.71E-18 1.48E-18 5.59E-18 1.86E-18 1.61E-18 1.91E-18 4.35E-18
Praseodymium
Pr-136 2.19E-16 2.50E-16 2.19E-16 2.14E-16 3.57E-16 2.24E-16 2.10E-16 2.25E-16 3.11E-16
Pr-137 5.05E-17 5.79E-17 4.96E-17 4.78E-17 8.83E-17 5.12E-17 4.74E-17 5.14E-17 7.34E-17
Pr-138m 2.58E-16 2.93E-16 2.55E-16 2.49E-16 4.17E-16 2.63E-16 2.45E-16 2.63E-16 3.15E-16
Pr-138 8.35E-17 9.56E-17 8.26E-17 7.96E-17 1.48E-16 8.49E-17 7.89E-17 8.53E-17 1.85E-16
Pr-139 1.14E-17 1.32E-17 1.06E-17 1.01E-17 2.07E-17 1.13E-17 1.02E-17 1.13E-17 1.65E-17
Pr-142m 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pr-142 6.59E-18 7.46E-18 6.66E-18 6.61E-18 9.54E-18 6.79E-18 6.46E-18 6.79E-18 6.42E-17
Pr-143 4.12E-20 4.95E-20 3.55E-20 3.08E-20 1.15E-19 3.95E-20 3.37E-20 4.04E-20 1.87E-17
Pr-144m 7.53E-19 9.78E-19 4.58E-19 3.56E-19 1.89E-18 6.49E-19 4.54E-19 6.45E-19 1.16E-18
Pr-144 4.04E-18 4.58E-18 4.05E-18 3.98E-18 6.34E-18 4.15E-18 3.91E-18 4.15E-18 9.23E-17
Pr-145 1.55E-18 1.77E-18 1.52E-18 1.47E-18 2.63E-18 1.58E-18 1.45E-18 1.57E-18 4.82E-17
Pr-147 8.86E-17 1.01E-16 8.72E-17 8.43E-17 1.54E-16 9.02E-17 8.36E-17 9.03E-17 1.57E-16
Neodymium
Nd-136 2.78E-17 3.24E-17 2.61E-17 2.43E-17 5.83E-17 2.77E-17 2.48E-17 2.79E-17 3.59E-17
Nd-138 3.11E-18 3.85E-18 2.32E-18 1.99E-18 7.49E-18 2.85E-18 2.25E-18 2.86E-18 4.36E-18
Nd-139m 1.63E-16 1.85E-16 1.61E-16 1.57E-16 2.63E-16 1.66E-16 1.54E-16 1.66E-16 1.95E-16
Nd-139 4.07E-17 4.68E-17 3.99E-17 3.84E-17 7.15E-17 4.13E-17 3.81E-17 4.14E-17 6.21E-17
Nd-141m 7.87E-17 8.95E-17 7.81E-17 7.62E-17 1.26E-16 8.04E-17 7.48E-17 8.02E-17 9.66E-17
Nd-141 6.52E-18 7.72E-18 5.77E-18 5.40E-18 1.23E-17 6.36E-18 5.56E-18 6.35E-18 8.83E-18
Nd-147 1.35E-17 1.57E-17 1.28E-17 1.18E-17 2.93E-17 1.35E-17 1.21E-17 1.36E-17 2.92E-17
Nd-149 3.89E-17 4.48E-17 3.77E-17 3.54E-17 8.26E-17 3.92E-17 3.58E-17 3.96E-17 7.69E-17
Nd-151 9.56E-17 1.09E-16 9.45E-17 9.15E-17 1.66E-16 9.75E-17 9.05E-17 9.76E-17 1.54E-16
Promethium
Pm-141 7.66E-17 8.75E-17 7.59E-17 7.36E-17 1.30E-16 7.81E-17 7.27E-17 7.83E-17 1.36E-16
Pm-142 8.96E-17 1.02E-16 8.87E-17 8.56E-17 1.57E-16 9.12E-17 8.48E-17 9.16E-17 2.08E-16
Pm-143 3.14E-17 3.60E-17 3.05E-17 2.94E-17 5.23E-17 3.18E-17 2.91E-17 3.17E-17 3.74E-17
-------
84
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Promethium, cont'd
Pm-144 1.59E-16 1.82E-16 1.58E-16 1.53E-16 2.69E-16 1.62E-16 1.51E-16 1.63E-16 1.89E-16
Pm-145 1.92E-18 2.50E-18 1.16E-18 8.52E-19 5.38E-18 1.65E-18 1.14E-18 1.65E-18 2.87E-18
Pm-146 7.67E-17 8.77E-17 7.56E-17 7.31E-17 1.31E-16 7.81E-17 7.23E-17 7.82E-17 9.58E-17
Pm-147 1.52E-21 1.94E-21 1.10E-21 9.01E-22 4.41E-21 1.37E-21 1.06E-21 1.40E-21 8.52E-19
Pm-148m 2.06E-16 2.35E-16 2.04E-16 1.98E-16 3.46E-16 2.10E-16 1.95E-16 2.10E-16 2.50E-16
Pm-148 6.10E-17 6.92E-17 6.12E-17 6.03E-17 9.23E-17 6.26E-17 5.90E-17 6.26E-17 1.21E-16
Pm-149 1.15E-18 1.32E-18 1.12E-18 1.06E-18 2.39E-18 1.16E-18 1.07E-18 1.17E-18 2.39E-17
Pm-150 1.52E-16 1.72E-16 1.52E-16 1.49E-16 2.37E-16 1.56E-16 1.46E-16 1.56E-16 2.32E-16
Pm-151 3.25E-17 3.73E-17 3.15E-17 2.98E-17 6.59E-17 3.27E-17 3.00E-17 3.30E-17 5.51E-17
Samarium
Sm-141m 2.06E-16 2.35E-16 2.05E-16 1.99E-16 3.44E-16 2.11E-16 1.97E-16 2.11E-16 2.71E-16
Sm-141 1.46E-16 1.66E-16 1.45E-16 1.41E-16 2.45E-16 1.49E-16 1.39E-16 1.49E-16 2.23E-16
Sm-142 8.47E-18 9.97E-18 7.68E-18 7.15E-18 1.68E-17 8.33E-18 7.36E-18 8.35E-18 1.24E-17
Sm-145 4.26E-18 5.49E-18 2.72E-18 1.99E-18 1.25E-17 3.70E-18 2.64E-18 3.73E-18 6.19E-18
Sm-146 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-147 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-151 1.22E-22 2.07E-22 1.66E-23 2.67E-23 1.67E-22 8.42E-23 3.51E-23 8.50E-23 4.29E-22
Sm-153 5.31E-18 6.43E-18 4.42E-18 3.62E-18 1.65E-17 5.02E-18 4.16E-18 5.15E-18 1.90E-17
Sm-155 1.02E-17 1.20E-17 9.46E-18 8.19E-18 3.08E-17 1.01E-17 8.86E-18 1.04E-17 4.91E-17
Sm-156 1.19E-17 1.38E-17 1.11E-17 l.OOE-17 3.12E-17 1.18E-17 1.05E-17 1.20E-17 2.29E-17
Europium
Eu-145 1.53E-16 1.74E-16 1.53E-16 1.51E-16 2.33E-16 1.57E-16 1.47E-16 1.57E-16 1.80E-16
Eu-146 2.61E-16 2.96E-16 2.59E-16 2.54E-16 4.13E-16 2.67E-16 2.49E-16 2.66E-16 3.07E-16
Eu-147 5.01E-17 5.74E-17 4.85E-17 4.65E-17 9.07E-17 5.06E-17 4.64E-17 5.07E-17 5.99E-17
Eu-148 2.24E-16 2.56E-16 2.23E-16 2.17E-16 3.70E-16 2.29E-16 2.13E-16 2.29E-16 2.65E-16
Eu-149 5.23E-18 6.30E-18 4.38E-18 3.86E-18 1.25E-17 4.98E-18 4.19E-18 5.02E-18 6.87E-18
Eu-lBOb1 1.53E-16 1.75E-16 1.51E-16 1.45E-16 2.72E-16 1.56E-16 1.44E-16 1.56E-16 1.83E-16
Eu-150a2 4.75E-18 5.46E-18 4.62E-18 4.42E-18 8.82E-18 4.80E-18 4.42E-18 4.82E-18 2.46E-17
Eu-152m 3.04E-17 3.47E-17 3.00E-17 2.92E-17 4.94E-17 3.10E-17 2.87E-17 3.09E-17 6.98E-17
Eu-152 1.20E-16 1.37E-16 1.19E-16 1.16E-16 1.94E-16 1.23E-16 1.15E-16 1.23E-16 1.45E-16
Eu-154 1.30E-16 1.48E-16 1.30E-16 1.27E-16 2.06E-16 1.34E-16 1.25E-16 1.33E-16 1.66E-16
Eu-155 5.63E-18 6.70E-18 4.98E-18 4.13E-18 1.83E-17 5.43E-18 4.65E-18 5.61E-18 7.32E-18
Eu-156 1.42E-16 1.61E-16 1.44E-16 1.42E-16 2.08E-16 1.47E-16 1.39E-16 1.46E-16 1.90E-16
Eu-157 2.56E-17 2.96E-17 2.43E-17 2.27E-17 5.26E-17 2.55E-17 2.31E-17 2.58E-17 5.38E-17
Eu-158 1.12E-16 1.27E-16 1.11E-16 1.10E-16 1.70E-16 1.15E-16 1.07E-16 1.14E-16 1.95E-16
Gadolinium
Gd-145 2.42E-16 2.74E-16 2.45E-16 2.42E-16 3.58E-16 2.49E-16 2.37E-16 2.49E-16 3.20E-16
Gd-146 2.26E-17 2.69E-17 1.98E-17 1.69E-17 6.67E-17 2.18E-17 1.86E-17 2.23E-17 2.91E-17
Gd-147 1.38E-16 1.57E-16 1.36E-16 1.31E-16 2.39E-16 1.40E-16 1.30E-16 1.40E-16 1.64E-16
Gd-148 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-149 4.17E-17 4.81E-17 3.99E-17 3.75E-17 8.61E-17 4.18E-17 3.79E-17 4.21E-17 5.15E-17
Gd-151 5.17E-18 6.27E-18 4.23E-18 3.59E-18 1.40E-17 4.88E-18 4.03E-18 4.95E-18 7.05E-18
Gd-152 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-153 8.75E-18 1.07E-17 7.13E-18 5.76E-18 2.75E-17 8.21E-18 6.72E-18 8.42E-18 1.14E-17
Gd-159 4.84E-18 5.63E-18 4.54E-18 4.20E-18 1.05E-17 4.80E-18 4.31E-18 4.86E-18 2.33E-17
Terbium
Tb-147 1.65E-16 1.88E-16 1.64E-16 1.60E-16 2.69E-16 1.69E-16 1.58E-16 1.69E-16 2.34E-16
Tb-149 1.70E-16 1.93E-16 1.70E-16 1.66E-16 2.71E-16 1.74E-16 1.63E-16 1.74E-16 2.10E-16
Tb-150 1.75E-16 1.99E-16 1.75E-16 1.71E-16 2.83E-16 1.79E-16 1.68E-16 1.79E-16 2.45E-16
Tb-151 9.02E-17 1.03E-16 8.78E-17 8.37E-17 1.72E-16 9.12E-17 8.38E-17 9.17E-17 1.09E-16
Tb-153 2.19E-17 2.55E-17 2.02E-17 1.84E-17 5.16E-17 2.16E-17 1.91E-17 2.19E-17 2.69E-17
Tb-154 2.54E-16 2.87E-16 2.57E-16 2.55E-16 3.69E-16 2.62E-16 2.49E-16 2.61E-16 2.96E-16
Tb-155 1.26E-17 1.50E-17 1.11E-17 9.54E-18 3.57E-17 1.22E-17 1.05E-17 1.25E-17 1.61E-17
Tb-156m3 1.93E-18 2.42E-18 1.43E-18 1.05E-18 6.37E-18 1.75E-18 1.35E-18 1.79E-18 2.59E-18
Tb-156n4 2.84E-19 3.52E-19 2.18E-19 1.68E-19 9.11E-19 2.60E-19 2.06E-19 2.67E-19 5.80E-19
Tb-156 1.90E-16 2.17E-16 1.89E-16 1.84E-16 3.10E-16 1.94E-16 1.81E-16 1.94E-16 2.25E-16
Tb-157 1.76E-19 2.25E-19 1.18E-19 8.58E-20 5.42E-19 1.55E-19 1.14E-19 1.57E-19 2.48E-19
Tb-158 8.22E-17 9.37E-17 8.09E-17 7.87E-17 1.34E-16 8.39E-17 7.75E-17 8.35E-17 9.92E-17
1 TK = 34.2 y
2 TK = 12.62 h
3 TK = 24.4 y
4 TK = 5.0 h
-------
85
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Terbium, cont'd
Tb-160 1.18E-16 1.34E-16 1.17E-16 1.15E-16 1.88E-16 1.21E-16 1.12E-16 1.20E-16 1.48E-16
Tb-161 2.51E-18 3.14E-18 1.87E-18 1.45E-18 7.91E-18 2.27E-18 1.78E-18 2.33E-18 9.99E-18
Dysprosium
Dy-155 5.95E-17 6.81E-17 5.80E-17 5.55E-17 1.10E-16 6.03E-17 5.55E-17 6.05E-17 7.08E-17
Dy-157 3.53E-17 4.08E-17 3.38E-17 3.16E-17 7.58E-17 3.54E-17 3.21E-17 3.57E-17 4.26E-17
Dy-159 3.20E-18 4.06E-18 2.22E-18 1.62E-18 1.01E-17 2.84E-18 2.12E-18 2.90E-18 4.43E-18
Dy-165 2.62E-18 3.04E-18 2.47E-18 2.28E-18 5.70E-18 2.61E-18 2.34E-18 2.63E-18 3.15E-17
Dy-166 3.32E-18 4.05E-18 2.70E-18 2.16E-18 1.04E-17 3.10E-18 2.55E-18 3.19E-18 8.42E-18
Holmium
Ho-155 3.85E-17 4.44E-17 3.73E-17 3.53E-17 7.55E-17 3.88E-17 3.55E-17 3.91E-17 6.05E-17
Ho-157 4.87E-17 5.62E-17 4.64E-17 4.36E-17 9.98E-17 4.88E-17 4.42E-17 4.91E-17 6.11E-17
Ho-159 3.54E-17 4.12E-17 3.28E-17 2.97E-17 8.63E-17 3.50E-17 3.11E-17 3.55E-17 4.35E-17
Ho-161 4.33E-18 5.45E-18 3.14E-18 2.40E-18 1.35E-17 3.91E-18 3.00E-18 3.99E-18 6.03E-18
Ho-162m 5.89E-17 6.73E-17 5.75E-17 5.54E-17 1.03E-16 5.98E-17 5.51E-17 5.98E-17 6.98E-17
Ho-162 1.61E-17 1.87E-17 1.52E-17 1.42E-17 3.16E-17 1.61E-17 1.45E-17 1.61E-17 2.09E-17
Ho-164m 3.33E-18 4.19E-18 2.40E-18 1.77E-18 1.08E-17 2.99E-18 2.28E-18 3.06E-18 4.52E-18
Ho-164 2.25E-18 2.81E-18 1.66E-18 1.25E-18 7.25E-18 2.03E-18 1.58E-18 2.08E-18 1.05E-17
Ho-166m 1.80E-16 2.06E-16 1.78E-16 1.72E-16 3.15E-16 1.84E-16 1.70E-16 1.84E-16 2.14E-16
Ho-166 3.06E-18 3.54E-18 2.91E-18 2.72E-18 6.24E-18 3.06E-18 2.79E-18 3.09E-18 4.93E-17
Ho-167 3.71E-17 4.25E-17 3.61E-17 3.40E-17 7.71E-17 3.74E-17 3.43E-17 3.78E-17 5.41E-17
Erbium
Er-161 9.43E-17 1.08E-16 9.30E-17 9.04E-17 1.55E-16 9.62E-17 8.91E-17 9.60E-17 1.12E-16
Er-165 2.80E-18 3.51E-18 2.03E-18 1.50E-18 9.12E-18 2.52E-18 1.93E-18 2.58E-18 3.77E-18
Er-169 3.63E-21 4.59E-21 2.69E-21 2.20E-21 1.07E-20 3.29E-21 2.59E-21 3.38E-21 2.97E-18
Er-171 3.85E-17 4.43E-17 3.71E-17 3.45E-17 8.63E-17 3.86E-17 3.51E-17 3.92E-17 6.86E-17
Er-172 5.29E-17 6.07E-17 5.20E-17 4.97E-17 9.75E-17 5.36E-17 4.95E-17 5.39E-17 6.64E-17
Thulium
Tm-162 1.91E-16 2.15E-16 1.91E-16 1.89E-16 2.90E-16 1.96E-16 1.85E-16 1.96E-16 2.44E-16
Tm-166 1.98E-16 2.25E-16 1.98E-16 1.95E-16 3.05E-16 2.03E-16 1.91E-16 2.03E-16 2.32E-16
Tm-167 1.36E-17 1.60E-17 1.22E-17 1.08E-17 3.58E-17 1.33E-17 1.16E-17 1.35E-17 2.12E-17
Tm-170 5.10E-19 6.14E-19 4.33E-19 3.46E-19 1.69E-18 4.82E-19 4.04E-19 5.00E-19 1.95E-17
Tm-171 5.21E-20 6.40E-20 4.10E-20 3.09E-20 1.76E-19 4.78E-20 3.84E-20 4.95E-20 7.02E-20
Tm-172 5.09E-17 5.77E-17 5.12E-17 5.06E-17 7.56E-17 5.24E-17 4.95E-17 5.23E-17 9.13E-17
Tm-173 3.95E-17 4.53E-17 3.88E-17 3.70E-17 7.63E-17 4.00E-17 3.70E-17 4.03E-17 6.54E-17
Tm-175 1.09E-16 1.24E-16 1.08E-16 1.05E-16 1.80E-16 1.11E-16 1.04E-16 1.11E-16 1.62E-16
Ytterbium
Yb-162 1.27E-17 1.51E-17 1.14E-17 9.73E-18 3.75E-17 1.24E-17 1.07E-17 1.27E-17 1.57E-17
Yb-166 6.92E-18 8.52E-18 5.42E-18 4.11E-18 2.31E-17 6.36E-18 5.09E-18 6.57E-18 9.01E-18
Yb-167 2.46E-17 2.92E-17 2.19E-17 1.87E-17 7.23E-17 2.39E-17 2.06E-17 2.45E-17 3.08E-17
Yb-169 2.89E-17 3.42E-17 2.59E-17 2.24E-17 8.19E-17 2.81E-17 2.44E-17 2.88E-17 3.71E-17
Yb-175 4.01E-18 4.62E-18 3.89E-18 3.65E-18 8.54E-18 4.04E-18 3.69E-18 4.09E-18 9.78E-18
Yb-177 1.97E-17 2.24E-17 1.94E-17 1.87E-17 3.49E-17 2.01E-17 1.86E-17 2.01E-17 4.99E-17
Yb-178 3.57E-18 4.09E-18 3.49E-18 3.32E-18 7.08E-18 3.61E-18 3.32E-18 3.64E-18 1.35E-17
Lutetium
Lu-169 1.08E-16 1.24E-16 1.07E-16 1.05E-16 1.78E-16 1.11E-16 1.03E-16 1.11E-16 1.28E-16
Lu-170 2.70E-16 3.04E-16 2.72E-16 2.71E-16 3.87E-16 2.79E-16 2.64E-16 2.77E-16 3.13E-16
Lu-171 7.00E-17 8.03E-17 6.82E-17 6.53E-17 1.24E-16 7.09E-17 6.51E-17 7.09E-17 8.30E-17
Lu-172 1.97E-16 2.24E-16 1.95E-16 1.91E-16 3.16E-16 2.02E-16 1.88E-16 2.01E-16 2.31E-16
Lu-173 1.16E-17 1.39E-17 1.02E-17 8.64E-18 3.29E-17 1.12E-17 9.58E-18 1.14E-17 1.45E-17
Lu-174m 5.14E-18 6.23E-18 4.24E-18 3.42E-18 1.57E-17 4.83E-18 4.00E-18 4.95E-18 6.59E-18
Lu-174 1.20E-17 1.40E-17 1.12E-17 1.04E-17 2.51E-17 1.20E-17 1.07E-17 1.20E-17 1.45E-17
Lu-176m 1.33E-18 1.59E-18 1.16E-18 9.37E-19 4.42E-18 1.27E-18 1.08E-18 1.32E-18 2.98E-17
Lu-176 5.00E-17 5.74E-17 4.81E-17 4.48E-17 1.15E-16 5.01E-17 4.56E-17 5.09E-17 7.03E-17
Lu-177m 1.01E-16 1.16E-16 9.69E-17 8.96E-17 2.35E-16 1.01E-16 9.18E-17 1.03E-16 1.25E-16
Lu-177 3.52E-18 4.08E-18 3.33E-18 3.00E-18 9.30E-18 3.50E-18 3.13E-18 3.58E-18 9.72E-18
Lu-178m 1.12E-16 1.29E-16 1.09E-16 1.02E-16 2.45E-16 1.13E-16 1.03E-16 1.15E-16 1.65E-16
Lu-178 1.50E-17 1.70E-17 1.50E-17 1.47E-17 2.37E-17 1.54E-17 1.44E-17 1.54E-17 6.93E-17
Lu-179 3.26E-18 3.75E-18 3.13E-18 2.90E-18 7.72E-18 3.27E-18 2.97E-18 3.32E-18 3.37E-17
-------
86
Table III.2. Dose Coefficients for Water Immersion
Dose
Nuclide
Hafnium
Hf-170
Hf-172
Hf-173
Hf-175
Hf-177m
Hf-178m
Hf-179m
Hf-180m
Hf-181
Hf-182m
Hf-182
Hf-183
Hf-184
Tantalum
Ta-172
Ta-173
Ta-174
Ta-175
Ta-176
Ta-177
Ta-178b1
Ta-178a2
Ta-179
Ta-180m
Ta-180
Ta-182m
Ta-182
Ta-183
Ta-184
Ta-185
Ta-186
Tungsten
W-176
W-177
W-178
W-179
W-181
W-185
W-187
W-188
Rhenium
Re-177
Re-178
Re-180
Re-181
Re-182b3
Re-182a4
Re-184m
Re-184
Re-186m
Re-186
Re-187
Re-188m
Re-188
Re-189
Osmium
Os-180
1 TK = 2.
2 TK = 9.
3 TK = 64
4 TK = 12
Gonad
5
9
4
3
2
2
9
1
5
9
2
7
2
1
5
6
9
2
5
1
1
2
4
5
2
1
2
1
1
1
1
9
1
4
3
1
4
1
6
1
1
7
1
1
3
9
1
2
0
6
6
6
5
2
31
.0
.7
.45E
.58E
.04E
.66E
.28E
.40E
.07E
.02E
.62E
.51E
.45E
.75E
.46E
.62E
.91E
.38E
.71E
.30E
.86E
.03E
.03E
.62E
.05E
.62E
.45E
.36E
.87E
.66E
.91E
.61E
.60E
.16E
.IDE
.48E
.34E
.15E
.88E
.95E
.34E
.30E
.22E
.83E
.96E
.23E
.93E
.19E
.20E
.03E
.0
.97E
.15E
.99E
.32E
h
m
h
h
-17
-18
-17
-17
-16
-16
-17
-16
-17
-17
-17
-17
-17
-16
-17
-17
-17
-16
-18
-16
-17
-18
-18
-17
-17
-16
-17
-16
-17
-16
-17
-17
-18
-18
-18
-20
-17
-19
-17
-16
-16
-17
-16
-16
-17
-17
-18
-18
-18
-18
-18
-18
Breast
6
1
4
4
2
2
1
1
6
1
2
8
2
1
6
7
1
2
7
1.
1.
3
4
6
2
1
3
1
2
1
1
1
1
5
4
1
5
2
7
1
1
8
2.
1.
4
1
1
2
0
8
7
8
6
.29E
.17E
.69E
.23E
. 62E
.75E
. 04E
.17E
.46E
.09E
.81E
. 84E
.85E
. 84E
.78E
.32E
.HE
.60E
. 04E
,18E
,20E
.21E
. 94E
.47E
.85E
.55E
.33E
.90E
.22E
. 84E
. 92E
.05E
.34E
. 54E
.07E
.40E
.58E
.25E
.26E
.46E
.39E
.98E
,23E
,40E
.51E
.05E
.47E
.38E
.0
.36E
.06E
.06E
.39E
-17
-17
-17
-17
-16
-16
-16
-16
-17
-16
-17
-17
-17
-16
-17
-17
-16
-16
-18
-16
-17
-18
-18
-17
-17
-16
-17
-16
-17
-16
-17
-16
-18
-18
-18
-20
-17
-19
-17
-16
-16
-17
-16
-16
-17
-16
-18
-18
-18
-18
-18
-18
Lung
5
7
3
3
2
2
8
9
5
9
2
7
2
1
5
6
9
2
4
9.
9.
2
3
5
2
1
2
1
1
1
1
8
8
3
2
9
4
1
6
1
1
7
1.
1.
3
9
9
1
0
5
5
6
4
.24E
.87E
. 82E
.51E
.21E
.34E
.76E
.89E
.50E
.28E
.36E
. 64E
.35E
.60E
.75E
.21E
.60E
.31E
.99E
,88E
,43E
.09E
.30E
.38E
.28E
.35E
.70E
. 64E
.79E
.58E
.40E
.91E
.93E
.43E
.71E
. 52E
.80E
.87E
.22E
.29E
.21E
.65E
,93E
,22E
.79E
. 04E
.57E
.86E
.0
.98E
.96E
.66E
.53E
-17
-18
-17
-17
-16
-16
-17
-17
-17
-17
-17
-17
-17
-16
-17
-17
-17
-16
-18
-17
-18
-18
-18
-17
-17
-16
-17
-16
-17
-16
-17
-17
-19
-18
-18
-21
-17
-19
-17
-16
-16
-17
-16
-16
-17
-17
-19
-18
-18
-18
-18
-18
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
4.88E-17 1.16E-16 5.47E-17
6.21E-18 3.14E-17 8.96E-18
3.46E-17 1.01E-16 4.02E-17
3.27E-17 7.99E-17 3.67E-17
2.06E-16 5.05E-16 2.30E-16
2.22E-16 4.81E-16 2.42E-16
8.19E-17 1.97E-16 9.11E-17
9.29E-17 2.15E-16 1.03E-16
5.20E-17 1.13E-16 5.68E-17
8.82E-17 1.85E-16 9.62E-17
2.20E-17 5.57E-17 2.46E-17
7.38E-17 1.33E-16 7.88E-17
2.16E-17 5.91E-17 2.46E-17
1.56E-16 2.71E-16 1.65E-16
5.46E-17 1.13E-16 5.97E-17
5.89E-17 1.26E-16 6.45E-17
9.29E-17 1.68E-16 9.90E-17
2.29E-16 3.40E-16 2.37E-16
4.06E-18 1.81E-17 5.56E-18
9.18E-17 2.30E-16 1.03E-16
8.48E-18 2.41E-17 1.01E-17
1.59E-18 8.93E-18 2.42E-18
2.54E-18 1.37E-17 3.77E-18
4.98E-17 1.29E-16 5.62E-17
2.02E-17 6.73E-17 2.42E-17
1.32E-16 2.17E-16 1.39E-16
2.44E-17 7.28E-17 2.85E-17
1.58E-16 3.00E-16 1.69E-16
1.62E-17 4.84E-17 1.89E-17
1.52E-16 2.99E-16 1.63E-16
1.13E-17 5.34E-17 1.53E-17
8.44E-17 1.79E-16 9.26E-17
6.80E-19 3.77E-18 1.02E-18
2.62E-18 1.47E-17 4.08E-18
2.07E-18 1.14E-17 3.10E-18
7.88E-21 3.53E-20 1.08E-20
4.60E-17 8.79E-17 4.95E-17
1.72E-19 4.57E-19 1.95E-19
5.96E-17 1.17E-16 6.43E-17
1.26E-16 2.17E-16 1.33E-16
1.17E-16 2.03E-16 1.25E-16
7.29E-17 1.48E-16 7.93E-17
1.86E-16 3.52E-16 1.99E-16
1.19E-16 2.02E-16 1.26E-16
3.57E-17 8.01E-17 3.95E-17
8.75E-17 1.55E-16 9.36E-17
7.34E-19 4.01E-18 1.10E-18
1.61E-18 6.10E-18 1.99E-18
0.0 0.0 0.0
4.77E-18 2.35E-17 6.60E-18
5.59E-18 1.32E-17 6.20E-18
6.10E-18 1.72E-17 6.98E-18
3.69E-18 1.66E-17 5.03E-18
m"
3)
Remainder
4
7
3
3
2
2
8
9
5
8
2
7
2
1
5
5
9
2
4
9.
8.
1
3
5
2
1
2
1
1
1
1
8
8
3
2
8
4
1
5
1
1
7
1.
1.
3
8
8
1
0
5
5
6
4
.97E
.37E
.61E
.33E
.09E
.23E
.32E
.39E
.23E
. 84E
.24E
.30E
.23E
. 54E
.48E
. 92E
.23E
.24E
.68E
,36E
,97E
.96E
.08E
.IDE
. 14E
.30E
.55E
.57E
.69E
.51E
.30E
.48E
.33E
.24E
.53E
.99E
.58E
.77E
.96E
.24E
.15E
.29E
,85E
,17E
.61E
.65E
.96E
.75E
.0
.57E
.66E
.29E
.25E
-17
-18
-17
-17
-16
-16
-17
-17
-17
-17
-17
-17
-17
-16
-17
-17
-17
-16
-18
-17
-18
-18
-18
-17
-17
-16
-17
-16
-17
-16
-17
-17
-19
-18
-18
-21
-17
-19
-17
-16
-16
-17
-16
-16
-17
-17
-19
-18
-18
-18
-18
-18
Effective
5
9
4
3
2
2
9
1
5
9
2
7
2
1
6
6
9
2
5
1.
1.
2
3
5
2
1
2
1
1
1
1
9
1
4
3
1
4
1
6
1
1
7
2.
1.
3
9
1
2
0
6
6
7
5
. 52E
.25E
.09E
.71E
.33E
.44E
.23E
. 04E
. 74E
.68E
.49E
.89E
.50E
.65E
.OOE
.49E
. 92E
.36E
. 72E
. 04E
. 02E
.51E
.90E
.70E
.47E
.39E
.90E
.70E
.93E
. 64E
.59E
.31E
.06E
.21E
.22E
.HE
.97E
.98E
.47E
.33E
.25E
.97E
.OOE
,26E
.98E
.34E
. 14E
.05E
.0
.86E
.26E
.IDE
.20E
-17
-18
-17
-17
-16
-16
-17
-16
-17
-17
-17
-17
-17
-16
-17
-17
-17
-16
-18
-16
-17
-18
-18
-17
-17
-16
-17
-16
-17
-16
-17
-17
-18
-18
-18
-20
-17
-19
-17
-16
-16
-17
-16
-16
-17
-17
-18
-18
-18
-18
-18
-18
6
1
4
4
2
2
1
1
7
1
3
1
4
2
9
9
1
2
7
1.
1.
3
6
6
3
1
4
2
6
2
2
1
1
6
4
4
7
3
9
1
1
9
2.
1.
4
1
1
2
0
8
6
2
7
Skin
.57E-17
.24E-17
.90E-17
.56E-17
.88E-16
.92E-16
.12E-16
.24E-16
.29E-17
.20E-16
.05E-17
.19E-16
.84E-17
.20E-16
.02E-17
.59E-17
.15E-16
.69E-16
.51E-18
.26E-16
.25E-17
.37E-18
.68E-18
.93E-17
.59E-17
.64E-16
.58E-17
.24E-16
.73E-17
.56E-16
.OOE-17
.10E-16
.41E-18
.OOE-18
.27E-18
.76E-18
.31E-17
.18E-18
.35E-17
.87E-16
.49E-16
.83E-17
.33E-16
.45E-16
.73E-17
.08E-16
.65E-18
.28E-17
.0
.85E-18
.07E-17
.71E-17
.04E-18
-------
87
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Osmium, cont' d
Os-181 1.27E-16 1.45E-16 1.25E-16 1.21E-16 2.21E-16 1.29E-16 1.20E-16 1.29E-16 1.51E-16
Os-182 4.34E-17 5.00E-17 4.18E-17 3.91E-17 9.25E-17 4.35E-17 3.97E-17 4.40E-17 5.29E-17
Os-185 7.33E-17 8.38E-17 7.22E-17 6.95E-17 1.28E-16 7.45E-17 6.89E-17 7.47E-17 8.70E-17
Os-189m 1.93E-22 1.05E-21 2.97E-24 4.78E-23 2.59E-22 2.80E-23 8.55E-23 2.46E-22 1.66E-20
Os-190m 1.62E-16 1.86E-16 1.60E-16 1.53E-16 3.02E-16 1.65E-16 1.52E-16 1.66E-16 1.96E-16
Os-191m 6.43E-19 7.76E-19 5.40E-19 4.20E-19 2.22E-18 6.02E-19 5.02E-19 6.28E-19 8.39E-19
Os-191 7.23E-18 8.55E-18 6.47E-18 5.39E-18 2.32E-17 6.98E-18 6.04E-18 7.23E-18 9.36E-18
Os-193 7.35E-18 8.49E-18 7.06E-18 6.53E-18 1.65E-17 7.36E-18 6.69E-18 7.46E-18 3.04E-17
Os-194 7.18E-20 9.28E-20 4.74E-20 3.45E-20 2.18E-19 6.28E-20 4.58E-20 6.39E-20 1.20E-19
Iridium
Ir-182 1.39E-16 1.58E-16 1.37E-16 1.31E-16 2.50E-16 1.41E-16 1.31E-16 1.41E-16 2.28E-16
Ir-184 1.99E-16 2.27E-16 1.98E-16 1.92E-16 3.39E-16 2.04E-16 1.90E-16 2.04E-16 2.48E-16
Ir-185 6.26E-17 7.14E-17 6.21E-17 6.02E-17 1.09E-16 6.38E-17 5.99E-17 6.42E-17 7.51E-17
Ir-18631 1.71E-16 1.95E-16 1.70E-16 1.65E-16 2.95E-16 1.75E-16 1.63E-16 1.75E-16 2.04E-16
Ir-186b2 9.93E-17 1.13E-16 9.80E-17 9.45E-17 1.75E-16 1.01E-16 9.38E-17 1.01E-16 1.28E-16
Ir-187 3.63E-17 4.18E-17 3.52E-17 3.32E-17 7.15E-17 3.66E-17 3.35E-17 3.68E-17 4.39E-17
Ir-188 1.69E-16 1.91E-16 1.70E-16 1.67E-16 2.63E-16 1.74E-16 1.64E-16 1.74E-16 1.98E-16
Ir-189 7.29E-18 8.64E-18 6.43E-18 5.37E-18 2.23E-17 6.99E-18 6.02E-18 7.22E-18 9.21E-18
Ir-190n3 1.58E-16 1.81E-16 1.55E-16 1.48E-16 3.01E-16 1.60E-16 1.48E-16 1.61E-16 1.91E-16
Ir-190m4 2.46E-22 1.24E-21 1.85E-24 5.79E-23 3.13E-22 3.68E-23 9.94E-23 2.95E-22 1.74E-20
Ir-190 1.47E-16 1.68E-16 1.44E-16 1.37E-16 2.81E-16 1.49E-16 1.37E-16 1.50E-16 1.77E-16
Ir-191m 6.80E-18 8.03E-18 6.10E-18 5.10E-18 2.17E-17 6.57E-18 5.70E-18 6.81E-18 8.78E-18
Ir-192m 1.65E-17 1.91E-17 1.58E-17 1.43E-17 4.44E-17 1.65E-17 1.48E-17 1.69E-17 1.96E-17
Ir-192 8.36E-17 9.57E-17 8.21E-17 7.81E-17 1.65E-16 8.47E-17 7.81E-17 8.54E-17 1.10E-16
Ir-194m 2.39E-16 2.73E-16 2.36E-16 2.27E-16 4.33E-16 2.43E-16 2.25E-16 2.44E-16 2.88E-16
Ir-194 9.63E-18 1.10E-17 9.49E-18 9.12E-18 1.79E-17 9.79E-18 9.07E-18 9.84E-18 6.80E-17
Ir-195m 4.17E-17 4.81E-17 4.03E-17 3.76E-17 8.97E-17 4.19E-17 3.82E-17 4.24E-17 6.33E-17
Ir-195 5.26E-18 6.25E-18 4.63E-18 3.79E-18 1.72E-17 5.03E-18 4.32E-18 5.23E-18 2.67E-17
Platinum
Pt-186 7.55E-17 8.63E-17 7.44E-17 7.16E-17 1.32E-16 7.68E-17 7.10E-17 7.69E-17 8.92E-17
Pt-188 1.95E-17 2.27E-17 1.82E-17 1.62E-17 5.14E-17 1.92E-17 1.71E-17 1.97E-17 2.49E-17
Pt-189 3.21E-17 3.71E-17 3.07E-17 2.84E-17 7.02E-17 3.21E-17 2.91E-17 3.25E-17 3.93E-17
Pt-191 2.95E-17 3.43E-17 2.77E-17 2.51E-17 7.14E-17 2.92E-17 2.62E-17 2.97E-17 3.67E-17
Pt-193m 9.58E-19 1.15E-18 8.21E-19 6.49E-19 3.29E-18 9.03E-19 7.63E-19 9.43E-19 3.88E-18
Pt-193 8.32E-22 3.78E-21 6.05E-24 1.86E-22 1.01E-21 1.53E-22 3.02E-22 9.23E-22 4.79E-20
Pt-195m 6.49E-18 7.74E-18 5.65E-18 4.56E-18 2.18E-17 6.17E-18 5.26E-18 6.43E-18 1.06E-17
Pt-197m 7.70E-18 8.99E-18 7.16E-18 6.37E-18 2.00E-17 7.57E-18 6.75E-18 7.75E-18 2.46E-17
Pt-197 2.25E-18 2.65E-18 2.05E-18 1.74E-18 6.97E-18 2.19E-18 1.91E-18 2.26E-18 1.26E-17
Pt-199 2.08E-17 2.37E-17 2.05E-17 1.96E-17 3.84E-17 2.11E-17 1.95E-17 2.12E-17 5.91E-17
Pt-200 5.65E-18 6.61E-18 5.19E-18 4.52E-18 1.62E-17 5.52E-18 4.87E-18 5.68E-18 1.56E-17
Gold
Au-193 1.52E-17 1.78E-17 1.39E-17 1.21E-17 4.26E-17 1.48E-17 1.31E-17 1.52E-17 1.95E-17
Au-194 1.12E-16 1.28E-16 1.12E-16 1.09E-16 1.88E-16 1.15E-16 1.08E-16 1.15E-16 1.33E-16
Au-195m 2.02E-17 2.32E-17 1.95E-17 1.81E-17 4.70E-17 2.03E-17 1.84E-17 2.06E-17 2.67E-17
Au-195 7.38E-18 8.81E-18 6.39E-18 5.12E-18 2.51E-17 7.00E-18 5.95E-18 7.30E-18 9.34E-18
Au-198m 5.79E-17 6.69E-17 5.49E-17 4.96E-17 1.52E-16 5.76E-17 5.17E-17 5.88E-17 7.58E-17
Au-198 4.13E-17 4.73E-17 4.07E-17 3.89E-17 7.86E-17 4.19E-17 3.88E-17 4.22E-17 6.85E-17
Au-199 8.89E-18 1.03E-17 8.40E-18 7.52E-18 2.43E-17 8.83E-18 7.89E-18 9.04E-18 1.43E-17
Au-200m 2.14E-16 2.45E-16 2.12E-16 2.03E-16 3.90E-16 2.18E-16 2.02E-16 2.19E-16 2.64E-16
Au-200 2.89E-17 3.28E-17 2.89E-17 2.83E-17 4.61E-17 2.96E-17 2.78E-17 2.96E-17 8.48E-17
Au-201 5.47E-18 6.27E-18 5.38E-18 5.15E-18 1.01E-17 5.55E-18 5.13E-18 5.58E-18 3.28E-17
Mercury
Hg-193m 1.08E-16 1.23E-16 1.06E-16 1.02E-16 1.95E-16 1.10E-16 1.02E-16 1.10E-16 1.31E-16
Hg-193 1.92E-17 2.25E-17 1.77E-17 1.55E-17 5.37E-17 1.89E-17 1.67E-17 1.94E-17 2.57E-17
Hg-194 1.64E-21 6.26E-21 1.42E-23 3.39E-22 1.86E-21 3.89E-22 5.02E-22 1.61E-21 6.15E-20
Hg-195m 2.08E-17 2.40E-17 2.00E-17 1.86E-17 4.62E-17 2.09E-17 1.90E-17 2.12E-17 2.75E-17
Hg-195 2.00E-17 2.31E-17 1.91E-17 1.78E-17 4.28E-17 2.00E-17 1.82E-17 2.02E-17 2.42E-17
1 TK = 15.8 h
2 TK = 1.75 h
3 TK = 3 . 1 h
4 TV, = 1.2 h
-------
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Mercury, cont'd
Hg-197m 8.92E-18 1.04E-17 8.28E-18 7.20E-18 2.62E-17 8.77E-18 7.75E-18 9.03E-18 1.65E-17
Hg-197 6.10E-18 7.27E-18 5.30E-18 4.24E-18 2.08E-17 5.78E-18 4.93E-18 6.04E-18 7.66E-18
Hg-199m 1.83E-17 2.12E-17 1.72E-17 1.54E-17 4.86E-17 1.81E-17 1.62E-17 1.85E-17 4.01E-17
Hg-203 2.44E-17 2.79E-17 2.36E-17 2.21E-17 5.42E-17 2.45E-17 2.24E-17 2.48E-17 3.14E-17
Thallium
Tl-194m 2.37E-16 2.71E-16 2.34E-16 2.26E-16 4.22E-16 2.41E-16 2.24E-16 2.42E-16 3.00E-16
Tl-194 7.92E-17 9.07E-17 7.77E-17 7.42E-17 1.49E-16 8.02E-17 7.41E-17 8.07E-17 9.51E-17
Tl-195 1.34E-16 1.52E-16 1.34E-16 1.32E-16 2.12E-16 1.38E-16 1.30E-16 1.38E-16 1.60E-16
Tl-197 4.15E-17 4.76E-17 4.04E-17 3.83E-17 8.21E-17 4.19E-17 3.86E-17 4.22E-17 5.11E-17
Tl-198m 1.22E-16 1.39E-16 1.20E-16 1.14E-16 2.26E-16 1.23E-16 1.14E-16 1.24E-16 1.53E-16
Tl-198 2.13E-16 2.42E-16 2.14E-16 2.10E-16 3.33E-16 2.19E-16 2.07E-16 2.19E-16 2.50E-16
Tl-199 2.46E-17 2.84E-17 2.34E-17 2.15E-17 5.80E-17 2.45E-17 2.22E-17 2.49E-17 3.12E-17
Tl-200 1.36E-16 1.55E-16 1.35E-16 1.32E-16 2.30E-16 1.39E-16 1.30E-16 1.40E-16 1.61E-16
Tl-201 8.53E-18 1.01E-17 7.60E-18 6.28E-18 2.77E-17 8.20E-18 7.08E-18 8.51E-18 1.08E-17
Tl-202 4.69E-17 5.39E-17 4.57E-17 4.30E-17 9.55E-17 4.73E-17 4.34E-17 4.78E-17 5.68E-17
Tl-204 1.24E-19 1.48E-19 1.07E-19 8.70E-20 4.11E-19 1.18E-19 l.OOE-19 1.22E-19 1.32E-17
Tl-206 1.31E-19 1.55E-19 1.18E-19 1.05E-19 3.39E-19 1.28E-19 1.12E-19 1.30E-19 3.58E-17
Tl-207 3.34E-19 3.85E-19 3.22E-19 3.08E-19 6.27E-19 3.37E-19 3.08E-19 3.38E-19 3.27E-17
Tl-208 3.73E-16 4.17E-16 3.79E-16 3.78E-16 5.27E-16 3.87E-16 3.68E-16 3.84E-16 4.66E-16
Tl-209 2.16E-16 2.45E-16 2.17E-16 2.14E-16 3.39E-16 2.22E-16 2.10E-16 2.22E-16 2.97E-16
Lead
Pb-195m 1.64E-16 1.87E-16 1.62E-16 1.55E-16 2.95E-16 1.67E-16 1.54E-16 1.67E-16 2.05E-16
Pb-198 4.41E-17 5.07E-17 4.25E-17 3.95E-17 9.79E-17 4.42E-17 4.03E-17 4.48E-17 5.55E-17
Pb-199 1.55E-16 1.76E-16 1.55E-16 1.51E-16 2.54E-16 1.59E-16 1.49E-16 1.59E-16 1.83E-16
Pb-200 2.02E-17 2.36E-17 1.89E-17 1.66E-17 5.66E-17 1.99E-17 1.77E-17 2.05E-17 2.68E-17
Pb-201 7.77E-17 8.88E-17 7.62E-17 7.27E-17 1.47E-16 7.87E-17 7.26E-17 7.92E-17 9.42E-17
Pb-202m 2.12E-16 2.41E-16 2.11E-16 2.05E-16 3.47E-16 2.17E-16 2.02E-16 2.16E-16 2.51E-16
Pb-202 8.97E-22 4.36E-21 6.43E-24 2.07E-22 1.12E-21 1.55E-22 3.50E-22 1.05E-21 6.29E-20
Pb-203 3.11E-17 3.59E-17 2.97E-17 2.73E-17 7.49E-17 3.11E-17 2.81E-17 3.16E-17 3.92E-17
Pb-205 1.03E-21 4.85E-21 7.81E-24 2.34E-22 1.27E-21 1.92E-22 3.89E-22 1.17E-21 6.76E-20
Pb-209 1.62E-20 1.98E-20 1.34E-20 1.13E-20 4.71E-20 1.53E-20 1.27E-20 1.57E-20 9.88E-18
Pb-210 1.44E-19 1.91E-19 9.78E-20 7.22E-20 4.50E-19 1.26E-19 9.44E-20 1.31E-19 3.00E-19
Pb-211 5.30E-18 6.05E-18 5.24E-18 5.07E-18 9.14E-18 5.40E-18 5.01E-18 5.41E-18 3.56E-17
Pb-212 1.49E-17 1.72E-17 1.42E-17 1.30E-17 3.73E-17 1.49E-17 1.34E-17 1.52E-17 2.35E-17
Pb-214 2.54E-17 2.91E-17 2.47E-17 2.32E-17 5.38E-17 2.56E-17 2.34E-17 2.59E-17 4.49E-17
Bismuth
Bi-200 2.47E-16 2.82E-16 2.44E-16 2.36E-16 4.31E-16 2.52E-16 2.34E-16 2.52E-16 3.01E-16
Bi-201 1.39E-16 1.58E-16 1.38E-16 1.34E-16 2.30E-16 1.42E-16 1.32E-16 1.42E-16 1.79E-16
Bi-202 2.83E-16 3.22E-16 2.81E-16 2.74E-16 4.64E-16 2.89E-16 2.69E-16 2.89E-16 3.36E-16
Bi-203 2.53E-16 2.87E-16 2.55E-16 2.51E-16 3.85E-16 2.60E-16 2.46E-16 2.60E-16 2.98E-16
Bi-205 1.79E-16 2.03E-16 1.80E-16 1.77E-16 2.74E-16 1.84E-16 1.74E-16 1.84E-16 2.09E-16
Bi-206 3.43E-16 3.90E-16 3.41E-16 3.33E-16 5.53E-16 3.51E-16 3.28E-16 3.51E-16 4.06E-16
Bi-207 1.60E-16 1.82E-16 1.59E-16 1.55E-16 2.60E-16 1.64E-16 1.53E-16 1.64E-16 1.95E-16
Bi-210m 2.63E-17 3.01E-17 2.55E-17 2.40E-17 5.72E-17 2.65E-17 2.42E-17 2.68E-17 3.34E-17
Bi-210 6.41E-20 7.65E-20 5.64E-20 4.95E-20 1.74E-19 6.19E-20 5.34E-20 6.33E-20 2.44E-17
Bi-211 4.75E-18 5.45E-18 4.64E-18 4.39E-18 9.79E-18 4.80E-18 4.41E-18 4.85E-18 6.17E-18
Bi-212 1.95E-17 2.22E-17 1.96E-17 1.92E-17 3.02E-17 2.00E-17 1.88E-17 2.00E-17 5.47E-17
Bi-213 1.36E-17 1.56E-17 1.34E-17 1.28E-17 2.57E-17 1.38E-17 1.28E-17 1.39E-17 4.43E-17
Bi-214 1.61E-16 1.83E-16 1.63E-16 1.61E-16 2.38E-16 1.66E-16 1.57E-16 1.66E-16 2.32E-16
Polonium
Po-203 1.72E-16 1.96E-16 1.72E-16 1.68E-16 2.77E-16 1.77E-16 1.65E-16 1.76E-16 2.09E-16
Po-205 1.66E-16 1.88E-16 1.65E-16 1.61E-16 2.65E-16 1.70E-16 1.58E-16 1.69E-16 1.95E-16
Po-207 1.39E-16 1.58E-16 1.38E-16 1.34E-16 2.26E-16 1.42E-16 1.32E-16 1.42E-16 1.64E-16
Po-210 8.86E-22 1.01E-21 8.80E-22 8.61E-22 1.39E-21 9.06E-22 8.43E-22 9.03E-22 1.04E-21
Po-211 8.10E-19 9.22E-19 8.05E-19 7.85E-19 1.30E-18 8.28E-19 7.71E-19 8.27E-19 9.59E-19
Po-212 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Po-213 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Po-214 8.68E-21 9.86E-21 8.63E-21 8.43E-21 1.37E-20 8.88E-21 8.26E-21 8.85E-21 1.02E-20
Po-215 1.80E-20 2.06E-20 1.77E-20 1.70E-20 3.36E-20 1.82E-20 1.69E-20 1.84E-20 2.17E-20
Po-216 1.76E-21 2.00E-21 1.75E-21 1.71E-21 2.77E-21 1.81E-21 1.68E-21 1.80E-21 2.07E-21
Po-218 9.52E-22 1.08E-21 9.47E-22 9.27E-22 1.49E-21 9.75E-22 9.07E-22 9.71E-22 1.37E-21
-------
89
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Astatine
At-207 1.38E-16 1.57E-16 1.38E-16 1.34E-16 2.28E-16 1.42E-16 1.32E-16 1.42E-16 1.65E-16
At-211 3.58E-18 4.23E-18 3.22E-18 2.66E-18 1.18E-17 3.45E-18 3.00E-18 3.59E-18 4.45E-18
At-215 1.97E-20 2.25E-20 1.94E-20 1.85E-20 3.78E-20 2.00E-20 1.85E-20 2.01E-20 2.39E-20
At-216 1.40E-19 1.66E-19 1.26E-19 1.04E-19 4.66E-19 1.35E-19 1.17E-19 1.41E-19 1.78E-19
At-217 3.15E-20 3.61E-20 3.11E-20 2.98E-20 5.87E-20 3.20E-20 2.96E-20 3.22E-20 3.89E-20
At-218 2.92E-19 3.71E-19 2.21E-19 1.66E-19 9.71E-19 2.64E-19 2.09E-19 2.75E-19 4.94E-19
Radon
Rn-218 7.77E-20 8.87E-20 7.71E-20 7.47E-20 1.31E-19 7.92E-20 7.37E-20 7.94E-20 9.26E-20
Rn-219 5.73E-18 6.57E-18 5.60E-18 5.29E-18 1.20E-17 5.79E-18 5.32E-18 5.85E-18 7.10E-18
Rn-220 3.94E-20 4.51E-20 3.91E-20 3.78E-20 6.86E-20 4.02E-20 3.74E-20 4.03E-20 4.73E-20
Rn-222 4.07E-20 4.66E-20 4.03E-20 3.88E-20 7.25E-20 4.14E-20 3.85E-20 4.16E-20 4.90E-20
Francium
Fr-219 3.55E-19 4.07E-19 3.48E-19 3.31E-19 7.06E-19 3.60E-19 3.32E-19 3.63E-19 4.34E-19
Fr-220 1.07E-18 1.25E-18 1.01E-18 8.97E-19 3.04E-18 1.06E-18 9.49E-19 1.09E-18 1.61E-18
Fr-221 3.16E-18 3.62E-18 3.03E-18 2.79E-18 7.73E-18 3.16E-18 2.86E-18 3.22E-18 4.09E-18
Fr-222 2.24E-19 2.63E-19 2.06E-19 1.86E-19 5.52E-19 2.20E-19 1.95E-19 2.24E-19 5.08E-17
Fr-223 5.16E-18 6.12E-18 4.59E-18 3.98E-18 1.41E-17 4.99E-18 4.33E-18 5.11E-18 2.78E-17
Radium
Ra-222 9.40E-19 1.08E-18 9.19E-19 8.69E-19 1.96E-18 9.50E-19 8.74E-19 9.60E-19 1.16E-18
Ra-223 1.32E-17 1.53E-17 1.26E-17 1.13E-17 3.43E-17 1.32E-17 1.18E-17 1.35E-17 1.77E-17
Ra-224 1.01E-18 1.16E-18 9.79E-19 9.11E-19 2.36E-18 1.02E-18 9.28E-19 1.03E-18 1.30E-18
Ra-225 7.57E-19 9.94E-19 4.54E-19 3.28E-19 2.13E-18 6.46E-19 4.46E-19 6.49E-19 3.83E-18
Ra-226 6.82E-19 7.86E-19 6.50E-19 5.92E-19 1.77E-18 6.81E-19 6.13E-19 6.95E-19 9.31E-19
Ra-227 1.59E-17 1.84E-17 1.54E-17 1.46E-17 3.29E-17 1.60E-17 1.47E-17 1.62E-17 4.39E-17
Ra-228 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Actinium
Ac-223 4.49E-19 5.25E-19 4.27E-19 3.92E-19 1.08E-18 4.47E-19 4.04E-19 4.57E-19 6.40E-19
Ac-224 1.96E-17 2.28E-17 1.85E-17 1.65E-17 5.45E-17 1.95E-17 1.74E-17 2.00E-17 2.39E-17
Ac-225 1.58E-18 1.86E-18 1.47E-18 1.29E-18 4.63E-18 1.56E-18 1.38E-18 1.61E-18 2.05E-18
Ac-226 1.30E-17 1.50E-17 1.25E-17 1.14E-17 3.30E-17 1.30E-17 1.18E-17 1.33E-17 3.10E-17
Ac-227 1.30E-20 1.57E-20 1.16E-20 1.02E-20 3.77E-20 1.25E-20 1.09E-20 1.30E-20 2.23E-20
Ac-228 1.01E-16 1.15E-16 1.01E-16 9.89E-17 1.61E-16 1.04E-16 9.71E-17 1.04E-16 1.44E-16
Thorium
Th-226 7.84E-19 9.16E-19 7.38E-19 6.54E-19 2.23E-18 7.77E-19 6.93E-19 7.99E-19 1.19E-18
Th-227 1.06E-17 1.22E-17 1.01E-17 9.34E-18 2.49E-17 1.06E-17 9.57E-18 1.07E-17 1.36E-17
Th-228 2.04E-19 2.45E-19 1.85E-19 1.62E-19 5.92E-19 1.98E-19 1.74E-19 2.05E-19 3.18E-19
Th-229 8.46E-18 9.95E-18 7.78E-18 6.71E-18 2.58E-17 8.28E-18 7.29E-18 8.56E-18 1.14E-17
Th-230 4.09E-20 5.43E-20 3.20E-20 2.73E-20 1.20E-19 3.68E-20 3.08E-20 3.94E-20 1.01E-19
Th-231 1.22E-18 1.55E-18 9.75E-19 8.28E-19 3.69E-18 1.13E-18 9.32E-19 1.18E-18 3.79E-18
Th-232 2.14E-20 3.13E-20 1.44E-20 1.24E-20 5.90E-20 1.80E-20 1.43E-20 1.99E-20 7.65E-20
Th-234 7.65E-19 9.16E-19 6.76E-19 5.58E-19 2.53E-18 7.34E-19 6.31E-19 7.64E-19 1.33E-18
Protactinium
Pa-227 1.91E-18 2.27E-18 1.72E-18 1.44E-18 6.26E-18 1.85E-18 1.60E-18 1.92E-18 2.45E-18
Pa-228 1.18E-16 1.34E-16 1.17E-16 1.13E-16 2.00E-16 1.20E-16 1.12E-16 1.20E-16 1.41E-16
Pa-230 6.69E-17 7.63E-17 6.60E-17 6.38E-17 1.16E-16 6.82E-17 6.31E-17 6.82E-17 7.99E-17
Pa-231 3.75E-18 4.39E-18 3.54E-18 3.33E-18 8.06E-18 3.73E-18 3.37E-18 3.78E-18 5.18E-18
Pa-232 9.71E-17 1.10E-16 9.64E-17 9.40E-17 1.57E-16 9.93E-17 9.23E-17 9.91E-17 1.17E-16
Pa-233 2.01E-17 2.32E-17 1.95E-17 1.81E-17 4.61E-17 2.02E-17 1.84E-17 2.05E-17 3.01E-17
Pa-234m 1.49E-18 1.71E-18 1.47E-18 1.42E-18 2.61E-18 1.52E-18 1.41E-18 1.52E-18 5.92E-17
Pa-234 1.99E-16 2.26E-16 1.97E-16 1.92E-16 3.29E-16 2.03E-16 1.89E-16 2.03E-16 2.51E-16
Uranium
U-230 1.19E-19 1.50E-19 l.OOE-19 8.92E-20 3.26E-19 1.12E-19 9.61E-20 1.17E-19 2.33E-19
U-231 6.57E-18 7.83E-18 5.92E-18 5.04E-18 2.08E-17 6.38E-18 5.55E-18 6.61E-18 8.67E-18
U-232 3.55E-20 5.33E-20 2.20E-20 2.02E-20 8.77E-20 2.93E-20 2.26E-20 3.22E-20 1.31E-19
U-233 3.79E-20 5.02E-20 2.98E-20 2.73E-20 9.26E-20 3.46E-20 2.91E-20 3.64E-20 9.56E-20
U-234 2.03E-20 3.35E-20 9.87E-21 9.50E-21 4.54E-20 1.53E-20 1.09E-20 1.75E-20 9.55E-20
U-235 1.56E-17 1.80E-17 1.49E-17 1.35E-17 4.08E-17 1.56E-17 1.40E-17 1.59E-17 1.89E-17
U-236 1.42E-20 2.56E-20 4.94E-21 5.30E-21 2.72E-20 9.67E-21 6.16E-21 1.16E-20 8.19E-20
U-237 1.32E-17 1.55E-17 1.22E-17 1.07E-17 3.78E-17 1.29E-17 1.14E-17 1.33E-17 1.92E-17
U-238 1.03E-20 2.00E-20 2.29E-21 2.88E-21 1.72E-20 6.34E-21 3.52E-21 7.95E-21 6.83E-20
U-239 4.89E-18 5.79E-18 4.38E-18 3.70E-18 1.46E-17 4.72E-18 4.10E-18 4.87E-18 3.09E-17
U-240 1.14E-19 1.88E-19 4.20E-20 3.91E-20 2.41E-19 8.35E-20 4.97E-20 9.11E-20 3.52E-18
-------
90
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Neptunium
Np-232 1.24E-16 1.41E-16 1.22E-16 1.18E-16 2.18E-16 1.26E-16 1.17E-16 1.26E-16 1.48E-16
Np-233 8.47E-18 9.96E-18 7.88E-18 6.80E-18 2.60E-17 8.34E-18 7.36E-18 8.61E-18 1.06E-17
Np-234 1.53E-16 1.74E-16 1.54E-16 1.52E-16 2.30E-16 1.58E-16 1.49E-16 1.58E-16 1.80E-16
Np-235 1.29E-19 1.93E-19 7.76E-20 7.23E-20 3.17E-19 1.06E-19 8.02E-20 1.16E-19 4.22E-19
Np-23631 1.18E-17 1.39E-17 1.09E-17 9.50E-18 3.55E-17 1.16E-17 1.02E-17 1.20E-17 1.77E-17
Np-236b2 4.69E-18 5.50E-18 4.38E-18 3.83E-18 1.37E-17 4.63E-18 4.10E-18 4.76E-18 9.16E-18
Np-237 2.35E-18 2.86E-18 2.02E-18 1.71E-18 7.20E-18 2.24E-18 1.90E-18 2.32E-18 3.43E-18
Np-238 5.77E-17 6.55E-17 5.75E-17 5.66E-17 8.69E-17 5.92E-17 5.52E-17 5.89E-17 8.00E-17
Np-239 1.67E-17 1.94E-17 1.58E-17 1.43E-17 4.45E-17 1.66E-17 1.49E-17 1.70E-17 2.75E-17
Np-240m 3.44E-17 3.92E-17 3.41E-17 3.32E-17 5.71E-17 3.51E-17 3.27E-17 3.51E-17 8.38E-17
Np-240 1.34E-16 1.53E-16 1.33E-16 1.29E-16 2.29E-16 1.37E-16 1.27E-16 1.37E-16 1.78E-16
Plutonium
Pu-234 6.27E-18 7.39E-18 5.79E-18 4.96E-18 1.99E-17 6.16E-18 5.41E-18 6.37E-18 7.83E-18
Pu-235 8.62E-18 1.01E-17 8.00E-18 6.95E-18 2.59E-17 8.49E-18 7.49E-18 8.75E-18 1.08E-17
Pu-236 1.94E-20 3.64E-20 4.30E-21 5.68E-21 3.03E-20 1.24E-20 6.64E-21 1.48E-20 1.12E-19
Pu-237 4.47E-18 5.31E-18 4.09E-18 3.49E-18 1.42E-17 4.37E-18 3.82E-18 4.53E-18 5.75E-18
Pu-238 1.53E-20 2.99E-20 2.43E-21 3.89E-21 2.16E-20 9.36E-21 4.60E-21 1.14E-20 9.55E-20
Pu-239 1.10E-20 1.74E-20 5.88E-21 5.94E-21 2.15E-20 8.75E-21 6.38E-21 9.60E-21 4.26E-20
Pu-240 1.49E-20 2.88E-20 2.49E-21 3.82E-21 2.15E-20 9.15E-21 4.55E-21 1.11E-20 9.13E-20
Pu-241 1.62E-22 1.96E-22 1.44E-22 1.25E-22 4.92E-22 1.56E-22 1.36E-22 1.62E-22 2.50E-22
Pu-242 1.25E-20 2.41E-20 2.21E-21 3.30E-21 1.83E-20 7.74E-21 3.90E-21 9.35E-21 7.60E-20
Pu-243 2.30E-18 2.73E-18 2.07E-18 1.75E-18 7.27E-18 2.23E-18 1.94E-18 2.31E-18 1.01E-17
Pu-244 9.63E-21 1.93E-20 9.83E-22 2.06E-21 1.24E-20 5.61E-21 2.52E-21 6.96E-21 6.32E-20
Pu-245 4.25E-17 4.86E-17 4.19E-17 4.02E-17 7.85E-17 4.32E-17 3.99E-17 4.34E-17 6.82E-17
Pu-246 1.32E-17 1.54E-17 1.23E-17 1.10E-17 3.59E-17 1.30E-17 1.16E-17 1.33E-17 1.79E-17
Americium
Am-237 3.67E-17 4.23E-17 3.54E-17 3.29E-17 8.37E-17 3.69E-17 3.36E-17 3.74E-17 4.56E-17
Am-238 9.22E-17 1.05E-16 9.15E-17 8.89E-17 1.54E-16 9.43E-17 8.77E-17 9.42E-17 1.09E-16
Am-239 2.26E-17 2.64E-17 2.13E-17 1.89E-17 6.32E-17 2.24E-17 2.00E-17 2.30E-17 3.11E-17
Am-240 1.06E-16 1.21E-16 1.06E-16 1.03E-16 1.71E-16 1.09E-16 1.01E-16 1.09E-16 1.25E-16
Am-241 1.98E-18 2.48E-18 1.53E-18 1.18E-18 6.55E-18 1.80E-18 1.45E-18 1.88E-18 2.98E-18
Am-242m 8.78E-20 1.39E-19 3.87E-20 3.88E-20 1.81E-19 6.76E-20 4.40E-20 7.28E-20 3.13E-19
Am-242 1.37E-18 1.64E-18 1.23E-18 1.06E-18 4.21E-18 1.33E-18 1.15E-18 1.38E-18 9.65E-18
Am-243 5.00E-18 5.97E-18 4.33E-18 3.48E-18 1.69E-17 4.74E-18 4.03E-18 4.94E-18 6.31E-18
Am-244m 1.26E-19 1.61E-19 9.87E-20 8.98E-20 3.05E-19 1.17E-19 9.63E-20 1.20E-19 3.32E-17
Am-244 8.21E-17 9.36E-17 8.12E-17 7.90E-17 1.35E-16 8.38E-17 7.77E-17 8.37E-17 1.05E-16
Am-245 3.17E-18 3.68E-18 3.01E-18 2.72E-18 8.34E-18 3.16E-18 2.83E-18 3.23E-18 1.92E-17
Am-246m 1.07E-16 1.21E-16 1.06E-16 1.05E-16 1.63E-16 1.10E-16 1.02E-16 1.09E-16 1.54E-16
Am-246 7.00E-17 8.01E-17 6.88E-17 6.61E-17 1.28E-16 7.11E-17 6.56E-17 7.14E-17 1.11E-16
Curium
Cm-238 7.15E-18 8.41E-18 6.63E-18 5.72E-18 2.23E-17 7.04E-18 6.20E-18 7.27E-18 8.88E-18
Cm-240 1.97E-20 3.77E-20 2.24E-21 4.27E-21 2.59E-20 1.21E-20 5.30E-21 1.41E-20 1.10E-19
Cm-241 4.94E-17 5.69E-17 4.82E-17 4.54E-17 1.02E-16 4.99E-17 4.58E-17 5.04E-17 6.41E-17
Cm-242 1.83E-20 3.47E-20 2.59E-21 4.38E-21 2.48E-20 1.15E-20 5.29E-21 1.33E-20 l.OOE-19
Cm-243 1.28E-17 1.48E-17 1.21E-17 1.10E-17 3.35E-17 1.27E-17 1.14E-17 1.30E-17 1.85E-17
Cm-244 1.62E-20 3.12E-20 1.65E-21 3.41E-21 2.07E-20 9.83E-21 4.23E-21 1.15E-20 9.19E-20
Cm-245 8.69E-18 1.02E-17 8.08E-18 7.02E-18 2.64E-17 8.57E-18 7.56E-18 8.84E-18 1.14E-17
Cm-246 1.46E-20 2.81E-20 1.63E-21 3.16E-21 1.91E-20 8.96E-21 3.92E-21 1.05E-20 8.21E-20
Cm-247 3.20E-17 3.67E-17 3.15E-17 3.00E-17 6.23E-17 3.24E-17 3.00E-17 3.27E-17 3.86E-17
Cm-248 1.11E-20 2.14E-20 1.21E-21 2.38E-21 1.44E-20 6.80E-21 2.96E-21 7.96E-21 6.28E-20
Cm-249 1.99E-18 2.28E-18 1.97E-18 1.89E-18 3.53E-18 2.03E-18 1.88E-18 2.03E-18 1.80E-17
Cm-250 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Berkelium
Bk-245 2.25E-17 2.62E-17 2.13E-17 1.91E-17 6.18E-17 2.24E-17 2.00E-17 2.30E-17 3.11E-17
Bk-246 9.78E-17 1.11E-16 9.68E-17 9.41E-17 1.63E-16 9.99E-17 9.26E-17 9.97E-17 1.15E-16
Bk-247 1.03E-17 1.20E-17 9.68E-18 8.56E-18 2.91E-17 1.02E-17 9.09E-18 1.05E-17 1.44E-17
Bk-249 1.92E-22 2.71E-22 1.02E-22 8.30E-23 4.79E-22 1.58E-22 1.05E-22 1.62E-22 4.29E-20
Bk-250 9.31E-17 1.05E-16 9.28E-17 9.13E-17 1.40E-16 9.55E-17 8.91E-17 9.50E-17 1.23E-16
1 TK = 1.15E5 y
2 TK = 22.5 h
-------
91
Table III.2. Dose Coefficients for Water Immersion
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Californium
Cf-244 2.30E-20 4.23E-20 2.68E-21 4.91E-21 3.02E-20 1.47E-20 6.27E-21 1.62E-20 1.10E-19
Cf-246 1.74E-20 3.08E-20 3.43E-21 4.72E-21 2.59E-20 1.17E-20 5.70E-21 1.28E-20 7.76E-20
Cf-248 1.58E-20 2.89E-20 1.88E-21 3.38E-21 2.08E-20 1.01E-20 4.32E-21 1.11E-20 7.46E-20
Cf-249 3.37E-17 3.87E-17 3.31E-17 3.14E-17 6.73E-17 3.41E-17 3.15E-17 3.45E-17 4.10E-17
Cf-250 1.50E-20 2.75E-20 1.78E-21 3.21E-21 1.98E-20 9.58E-21 4.10E-21 1.06E-20 7.10E-20
Cf-251 1.22E-17 1.42E-17 1.14E-17 1.02E-17 3.37E-17 1.21E-17 1.08E-17 1.24E-17 1.97E-17
Cf-252 1.60E-20 2.83E-20 3.24E-21 4.40E-21 2.41E-20 1.08E-20 5.30E-21 1.18E-20 7.11E-20
Cf-253 2.40E-21 3.23E-21 1.54E-21 1.27E-21 6.58E-21 2.07E-21 1.53E-21 2.14E-21 1.75E-18
Cf-254 4.89E-23 8.96E-23 5.83E-24 1.05E-23 6.44E-23 3.12E-23 1.34E-23 3.45E-23 2.31E-22
Einsteinium
Es-250 4.07E-17 4.64E-17 4.00E-17 3.84E-17 7.44E-17 4.14E-17 3.82E-17 4.15E-17 4.81E-17
Es-251 9.06E-18 1.06E-17 8.43E-18 7.38E-18 2.71E-17 8.95E-18 7.90E-18 9.21E-18 1.16E-17
Es-253 4.33E-20 5.68E-20 3.29E-20 3.16E-20 8.52E-20 3.97E-20 3.27E-20 4.06E-20 9.41E-20
Es-254m 4.79E-17 5.47E-17 4.75E-17 4.62E-17 7.96E-17 4.89E-17 4.55E-17 4.89E-17 6.89E-17
Es-254 5.00E-19 7.15E-19 2.94E-19 2.74E-19 1.11E-18 4.20E-19 3.05E-19 4.38E-19 1.29E-18
Fermium
Fm-252 1.68E-20 2.96E-20 2.33E-21 3.69E-21 2.31E-20 1.11E-20 4.81E-21 1.18E-20 6.95E-20
Fm-253 7.72E-18 9.04E-18 7.21E-18 6.36E-18 2.24E-17 7.64E-18 6.77E-18 7.85E-18 9.87E-18
Fm-254 2.06E-20 3.46E-20 5.02E-21 6.08E-21 3.34E-20 1.45E-20 7.39E-21 1.53E-20 7.86E-20
Fm-255 2.90E-19 4.31E-19 1.58E-19 1.45E-19 6.95E-19 2.35E-19 1.66E-19 2.51E-19 8.88E-19
Fm-257 1.02E-17 1.20E-17 9.53E-18 8.48E-18 2.89E-17 1.01E-17 8.97E-18 1.04E-17 1.43E-17
Mendelevium
Md-257 1.09E-17 1.27E-17 1.04E-17 9.42E-18 2.82E-17 1.09E-17 9.79E-18 1.11E-17 1.36E-17
Md-258 1.46E-19 2.23E-19 6.05E-20 5.81E-20 3.12E-19 1.13E-19 6.92E-20 1.18E-19 4.21E-19
-------
TABLE III.3
Dose Coefficients for Exposure to Contaminated Ground Surface
Explanation of Entries
For each radionuclide, values for the organ dose equivalent coefficients hT, and the effective
dose equivalent coefficient hE, based upon the weighting factors of Table II. 1, are given in
SI units.
hT: The tissue dose equivalent coefficient for organ or tissue T (Sv per Bq s m"2), i.e., the dose
equivalent per unit time-integrated exposure to a radionuclide.
hE: The effective dose equivalent coefficient (Sv per Bq s m"2), i.e., the effective dose equivalent
per unit time-integrated exposure to a radionuclide:
Note that skin is not included in the summation.
To convert to conventional units (mrem per (iCi y cm"2), multiply table entries by
1.168 x 1021.
The coefficients are valid for any soil density.
93
-------
94
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose
Nuclide Gonad Breast Lung
Hydrogen
H-3 0.0 0.0 0.0
Beryllium
Be-7 5.13E-17 4.93E-17 4.67E-17
Be-10 4.78E-19 4.99E-19 3.22E-19
Carbon
C-ll 1.06E-15 1.02E-15 9.66E-16
C-14 2.22E-20 2.52E-20 8.65E-21
Nitrogen
N-13 1.06E-15 1.02E-15 9.67E-16
Oxygen
0-15 1.06E-15 1.02E-15 9.69E-16
Fluorine
F-18 1.06E-15 1.02E-15 9.67E-16
Neon
Ne-19 1.07E-15 1.02E-15 9.72E-16
Sodium
Na-22 2.20E-15 2.10E-15 2.02E-15
Na-24 3.73E-15 3.55E-15 3.49E-15
Magnesium
Mg-28 1.36E-15 1.30E-15 1.24E-15
Aluminum
Al-26 2.58E-15 2.47E-15 2.40E-15
Al-28 1.67E-15 1.59E-15 1.57E-15
Silicon
Si-31 3.26E-18 3.24E-18 2.69E-18
Si-32 4.09E-20 4.54E-20 1.88E-20
Phosphorus
P-30 1.07E-15 1.03E-15 9.77E-16
P-32 3.18E-18 3.19E-18 2.54E-18
P-33 5.74E-20 6.31E-20 2.83E-20
Sulphur
S-35 2.30E-20 2.59E-20 9.21E-21
Chlorine
Cl-36 7.56E-19 7.72E-19 5.63E-19
Cl-38 1.38E-15 1.32E-15 1.30E-15
Cl-39 1.40E-15 1.34E-15 1.30E-15
Argon
Ar-37 0.0 0.0 0.0
Ar-39 3.94E-19 4.12E-19 2.63E-19
Ar-41 1.25E-15 1.19E-15 1.16E-15
Potassium
K-38 3.03E-15 2.89E-15 2.82E-15
K-40 1.52E-16 1.45E-16 1.41E-16
K-42 2.76E-16 2.64E-16 2.57E-16
K-43 l.OOE-15 9.63E-16 9.14E-16
K-44 2.11E-15 2.01E-15 1.97E-15
K-45 1.75E-15 1.67E-15 1.64E-15
Calcium
Ca-41 0.0 0.0 0.0
Ca-45 5.93E-20 6.50E-20 2.96E-20
Ca-47 1.04E-15 9.94E-16 9.64E-16
Ca-49 2.71E-15 2.57E-15 2.54E-15
Scandium
Sc-43 1.14E-15 1.09E-15 1.04E-15
Sc-44m 2.83E-16 2.75E-16 2.59E-16
Sc-44 2.16E-15 2.07E-15 1.98E-15
Sc-46 2.01E-15 1.92E-15 1.85E-15
Sc-47 1.07E-16 1.04E-16 9.84E-17
Sc-48 3.32E-15 3.16E-15 3.06E-15
Sc-49 5.31E-18 5.26E-18 4.44E-18
Coefficient
R
0
4
2
9
7
9
9
9
9
2
3
1
2
1
2
1
9
2
2
7
5
1
1
0
2
1
2
1
2
9
2
1
0
2
9
2
1
2
2
1
9
3
4
Marrow
.0
.71E
.86E
.75E
.25E
.76E
.78E
.77E
.81E
.06E
.60E
.27E
.46E
.61E
.59E
.57E
.87E
.40E
.38E
.71E
.22E
.34E
.33E
.0
.32E
.20E
.89E
.45E
. 64E
.25E
.03E
.68E
.0
.48E
. 92E
.63E
.05E
.61E
. 02E
.90E
. 64E
.15E
.30E
-17
-19
-16
-21
-16
-16
-16
-16
-15
-15
-15
-15
-15
-18
-20
-16
-18
-20
-21
-19
-15
-15
-19
-15
-15
-16
-16
-16
-15
-15
-20
-16
-15
-15
-16
-15
-15
-17
-15
-18
hT
(Sv
BSurface
0
7
1
1
4
1
1
1
1
2
4
1
3
2
6
9
1
6
1
4
1
1
1
0
9
1
3
1
3
1
2
2
0
1
1
3
1
4
2
2
2
4
1
.0
.24E
.19E
.47E
.63E
.48E
.48E
.48E
.49E
.90E
.61E
.79E
.34E
.08E
.44E
.30E
.50E
.90E
.35E
.86E
.69E
.73E
. 82E
.0
. 82E
.59E
.91E
.93E
.55E
.41E
.65E
.29E
.0
.40E
.33E
.30E
.61E
.49E
.87E
.59E
.30E
.25E
.03E
-17
-18
-15
-20
-15
-15
-15
-15
-15
-15
-15
-15
-15
-18
-20
-15
-18
-19
-20
-18
-15
-15
-19
-15
-15
-16
-16
-15
-15
-15
-19
-15
-15
-15
-16
-15
-15
-16
-15
-17
per Bq s
Thyroid
0
4
3
1
1
1
1
1
1
2
3
1
2
1
2
2
1
2
3
1
6
1
1
0
2
1
2
1
2
9
1
1
0
3
9
2
1
2
2
1
9
3
4
.0
.88E
.63E
.DIE
.25E
.DIE
.DIE
.DIE
. 02E
.05E
.29E
.25E
.33E
.46E
.81E
.50E
. 02E
.71E
.65E
.31E
.16E
.21E
.27E
.0
.97E
.15E
. 72E
.36E
.47E
.51E
.90E
.55E
.0
.78E
.55E
.37E
.08E
. 62E
.03E
.89E
.88E
.08E
.59E
-17
-19
-15
-20
-15
-15
-15
-15
-15
-15
-15
-15
-15
-18
-20
-15
-18
-20
-20
-19
-15
-15
-19
-15
-15
-16
-16
-16
-15
-15
-20
-16
-15
-15
-16
-15
-15
-17
-15
-18
nr
2)
Remainder
0
4
3
9
1
9
9
9
9
2
3
1
2
1
2
2
9
2
3
1
5
1
1
0
2
1
2
1
2
8
1
1
0
3
9
2
1
2
1
1
9
3
4
.0
.57E
.26E
.46E
.03E
.47E
.49E
.48E
. 52E
.OOE
. 52E
.24E
.39E
.57E
.65E
.HE
.57E
.51E
.HE
.08E
.63E
.31E
.30E
.0
.67E
.16E
. 82E
.41E
.57E
. 94E
.97E
. 64E
.0
.23E
.61E
.58E
.DIE
.53E
.96E
. 84E
.56E
.05E
.39E
-17
-19
-16
-20
-16
-16
-16
-16
-15
-15
-15
-15
-15
-18
-20
-16
-18
-20
-20
-19
-15
-15
-19
-15
-15
-16
-16
-16
-15
-15
-20
-16
-15
-15
-16
-15
-15
-17
-15
-18
Effective
0
4
4
1
1
1
1
1
1
2
3
1
2
1
3
3
1
2
4
1
6
1
1
0
3
1
2
1
2
9
2
1
0
4
1
2
1
2
2
1
1
3
4
.0
.89E
. 12E
.DIE
.61E
.DIE
.DIE
.DIE
. 02E
.IDE
.61E
.30E
.49E
. 62E
.DIE
.IDE
. 02E
.91E
.46E
.68E
.73E
.34E
.35E
.0
.38E
.20E
. 92E
.46E
.66E
.55E
. 04E
.69E
.0
.61E
.OOE
.63E
.08E
. 72E
.07E
.93E
. 04E
.18E
.93E
-17
-19
-15
-20
-15
-15
-15
-15
-15
-15
-15
-15
-15
-18
-20
-15
-18
-20
-20
-19
-15
-15
-19
-15
-15
-16
-16
-16
-15
-15
-20
-15
-15
-15
-16
-15
-15
-16
-15
-18
0
5
3
4
7
6
1
1
1
2
1
1
7
1
6
1
1
8
1
7
1
1
1
0
2
6
1
6
1
2
1
1
0
1
3
1
3
3
9
2
1
4
9
Skin
.0
.83E-17
.06E-16
.15E-15
.46E-20
.26E-15
.OOE-14
.65E-15
.25E-14
.60E-15
.03E-14
.58E-15
.88E-15
.51E-14
.86E-15
.20E-19
.57E-14
.26E-15
.58E-19
.54E-20
.06E-15
.40E-14
.10E-14
.0
.24E-16
.04E-15
.65E-14
.25E-15
.41E-14
.88E-15
.51E-14
.30E-14
.0
.61E-19
.42E-15
.30E-14
.61E-15
.23E-16
.47E-15
.28E-15
.95E-16
.27E-15
.74E-15
-------
95
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose
Nuclide
Titanium
Ti-44
Ti-45
Vanadium
V-47
V-48
V-49
Chromium
Cr-48
Cr-49
Cr-51
Manganese
Mn-51
Mn-52m
Mn-52
Mn-53
Mn-54
Mn-56
Iron
Fe-52
Fe-55
Fe-59
Fe-60
Cobalt
Co-55
Co-56
Co-57
Co-58m
Co-58
Co-60m
Co-60
Co-61
Co-62m
Nickel
Ni-56
Ni-57
Ni-59
Ni-63
Ni-65
Ni-66
Copper
Cu-60
Cu-61
Cu-62
Cu-64
Cu-66
Cu-67
Zinc
Zn-62
Zn-63
Zn-65
Zn-69m
Zn-69
Zn-71m
Zn-72
Gallium
Ga-65
Ga-66
Ga-67
Ga-68
Ga-70
Ga-72
Ga-73
Gonad
1
9
1
2
0
4
1
3
1
2
3
0
8
1
7
0
1
2
2
3
1
1
9
4
2
9
2
1
1
0
0
5
4
3
8
1
1
9
1
4
1
5
4
8
1
1
1
2
1
9
1
2
3
.31E
.05E
. 04E
.90E
.0
.39E
.09E
.23E
. 04E
.40E
.44E
.0
.50E
. 64E
.61E
.0
.17E
.08E
. 02E
.42E
.17E
.48E
.97E
.60E
.45E
.22E
. 62E
. 74E
.87E
.0
.0
.35E
.55E
.78E
.56E
.06E
.97E
.20E
. 14E
. 54E
. 14E
.78E
.32E
. 12E
.60E
.45E
.21E
.31E
.53E
.89E
. 04E
.60E
.19E
-16
-16
-15
-15
-16
-15
-17
-15
-15
-15
-16
-15
-16
-15
-20
-15
-15
-16
-20
-16
-18
-15
-17
-15
-15
-15
-16
-20
-15
-16
-15
-16
-17
-16
-16
-15
-16
-16
-19
-15
-16
-15
-15
-16
-16
-17
-15
-16
Breast
1
8
9
2
0
4
1
3
1
2
3
0
8
1
7
0
1
2
1
3
1
1
9
4
2
9
2
1
1
0
0
5
5
3
8
1
1
8
1
4
1
5
4
8
1
1
1
2
1
9
1
2
3
.31E
.69E
.96E
.77E
.0
.25E
.05E
.13E
.OOE
.30E
.28E
.0
. 12E
.57E
.33E
.0
. 12E
.37E
. 94E
.26E
. 14E
.66E
. 52E
.45E
.34E
.07E
.50E
.66E
.79E
.0
.0
.HE
.03E
.61E
.21E
.DIE
.89E
.80E
.HE
.36E
.IDE
.51E
.16E
.36E
. 54E
.41E
.17E
.20E
.49E
.49E
.DIE
.48E
.09E
-16
-16
-16
-15
-16
-15
-17
-15
-15
-15
-16
-15
-16
-15
-20
-15
-15
-16
-20
-16
-18
-15
-17
-15
-15
-15
-16
-20
-15
-16
-15
-16
-17
-16
-16
-15
-16
-16
-19
-15
-16
-15
-15
-16
-16
-17
-15
-16
Lung
1
8
9
2
0
4
9
2
9
2
3
0
7
1
6
0
1
7
1
3
1
3
9
4
2
8
2
1
1
0
0
4
2
3
7
9
1
8
1
4
1
5
3
5
1
1
1
2
1
9
9
2
2
.20E
.24E
.44E
.67E
.0
. 02E
.95E
. 94E
.48E
.21E
.17E
.0
.77E
. 52E
. 94E
.0
.08E
.68E
.85E
.17E
.08E
.21E
.IDE
.18E
.27E
.33E
.43E
.59E
.73E
.0
.0
.97E
.16E
.50E
.80E
.61E
.79E
.39E
.05E
.IDE
. 04E
.31E
. 94E
.88E
.46E
.33E
.HE
. 14E
.41E
.DIE
.19E
.41E
.90E
-16
-16
-16
-15
-16
-16
-17
-16
-15
-15
-16
-15
-16
-15
-21
-15
-15
-16
-21
-16
-18
-15
-17
-15
-15
-15
-16
-20
-15
-16
-16
-16
-17
-16
-16
-15
-16
-16
-19
-15
-16
-15
-15
-16
-16
-18
-15
-16
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
1.04E-16 4.68E-16 1.19E-16
8.32E-16 1.26E-15 8.61E-16
9.54E-16 1.44E-15 9.86E-16
2.74E-15 3.76E-15 2.70E-15
0.0 0.0 0.0
3.98E-16 8.10E-16 4.10E-16
9.97E-16 1.66E-15 1.04E-15
2.96E-17 5.02E-17 3.01E-17
9.58E-16 1.45E-15 9.91E-16
2.26E-15 3.16E-15 2.22E-15
3.25E-15 4.44E-15 3.19E-15
0.0 0.0 0.0
7.96E-16 1.11E-15 8.07E-16
1.56E-15 2.10E-15 1.50E-15
6.97E-16 1.17E-15 7.19E-16
0.0 0.0 0.0
1.11E-15 1.50E-15 1.08E-15
6.45E-21 4.21E-20 1.14E-20
1.89E-15 2.70E-15 1.90E-15
3.26E-15 4.35E-15 3.12E-15
1.04E-16 2.95E-16 1.10E-16
3.01E-21 2.21E-20 7.35E-21
9.29E-16 1.32E-15 9.46E-16
4.04E-18 9.01E-18 4.13E-18
2.33E-15 3.11E-15 2.25E-15
7.56E-17 2.60E-16 8.40E-17
2.50E-15 3.32E-15 2.39E-15
1.62E-15 2.45E-15 1.63E-15
1.78E-15 2.43E-15 1.70E-15
0.0 0.0 0.0
0.0 0.0 0.0
5.11E-16 6.83E-16 4.87E-16
1.81E-20 1.05E-19 2.83E-20
3.59E-15 4.88E-15 3.45E-15
7.89E-16 1.19E-15 8.11E-16
9.70E-16 1.47E-15 l.OOE-15
1.81E-16 2.72E-16 1.87E-16
8.58E-17 1.23E-16 8.59E-17
1.02E-16 2.45E-16 1.05E-16
4.12E-16 6.52E-16 4.29E-16
1.05E-15 1.58E-15 1.09E-15
5.47E-16 7.39E-16 5.38E-16
3.97E-16 6.21E-16 4.10E-16
5.35E-19 1.95E-18 6.46E-19
1.48E-15 2.23E-15 1.52E-15
1.29E-16 3.30E-16 1.34E-16
1.11E-15 1.79E-15 1.15E-15
2.20E-15 2.96E-15 2.10E-15
1.38E-16 3.11E-16 1.43E-16
9.10E-16 1.37E-15 9.40E-16
9.24E-18 1.63E-17 9.48E-18
2.48E-15 3.31E-15 2.37E-15
2.90E-16 5.11E-16 2.96E-16
nr
2)
Remainder
1
8
9
2
0
3
9
2
9
2
3
0
7
1
6
0
1
9
1
3
1
5
8
4
2
8
2
1
1
0
0
4
2
3
7
9
1
8
1
4
1
5
3
5
1
1
1
2
1
8
9
2
2
.15E
.08E
.25E
.65E
.0
.90E
. 72E
.86E
.29E
.19E
. 14E
.0
.71E
. 52E
.77E
.0
.08E
.31E
.83E
.16E
.05E
.03E
.99E
.09E
.26E
.05E
.42E
.57E
.73E
.0
.0
.96E
.40E
.48E
. 64E
.41E
.75E
.34E
.DIE
.DIE
. 02E
.29E
.85E
.89E
.43E
.29E
.08E
. 14E
.36E
.83E
.09E
.41E
. 82E
-16
-16
-16
-15
-16
-16
-17
-16
-15
-15
-16
-15
-16
-15
-21
-15
-15
-16
-21
-16
-18
-15
-17
-15
-15
-15
-16
-20
-15
-16
-16
-16
-17
-16
-16
-15
-16
-16
-19
-15
-16
-15
-15
-16
-16
-18
-15
-16
Effective
1
8
9
2
0
4
1
3
9
2
3
0
8
1
7
0
1
1
1
3
1
9
9
4
2
9
2
1
1
0
0
5
3
3
8
1
1
8
1
4
1
5
4
7
1
1
1
2
1
9
9
2
3
.32E
.61E
.87E
.78E
.0
.23E
. 04E
.08E
.91E
.30E
.29E
.0
. 12E
.58E
.27E
.0
. 12E
.48E
.93E
.29E
.15E
.32E
.50E
.42E
.35E
. 02E
. 52E
.66E
.80E
.0
.0
.15E
.49E
.63E
.15E
.OOE
.87E
.78E
.HE
.30E
.09E
.53E
. 12E
.18E
.53E
.41E
.16E
.22E
.49E
.41E
. 82E
.50E
.05E
-16
-16
-16
-15
-16
-15
-17
-16
-15
-15
-16
-15
-16
-15
-20
-15
-15
-16
-21
-16
-18
-15
-17
-15
-15
-15
-16
-20
-15
-16
-15
-16
-17
-16
-16
-15
-16
-16
-19
-15
-16
-15
-15
-16
-16
-18
-15
-16
1
4
1
3
0
4
8
3
1
1
3
0
9
1
1
0
1
7
6
5
1
3
1
2
2
4
1
1
2
0
0
7
1
1
4
1
3
1
1
5
1
6
5
2
7
1
1
1
1
1
7
7
4
Skin
.49E-16
.37E-15
.09E-14
.73E-15
.0
.98E-16
.29E-15
.68E-17
.22E-14
.52E-14
.95E-15
.0
.65E-16
.02E-14
.87E-15
.0
.34E-15
.20E-20
.99E-15
.22E-15
.38E-16
.24E-20
.14E-15
.22E-17
.76E-15
.69E-15
.43E-14
.97E-15
.89E-15
.0
.0
.23E-15
.30E-19
.44E-14
.15E-15
.48E-14
.93E-16
.19E-14
.61E-16
.52E-16
.19E-14
.52E-16
.64E-16
.02E-15
.85E-15
.72E-16
.09E-14
.09E-14
.74E-16
.OOE-14
.55E-15
.19E-15
.64E-15
-------
96
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Germanium
Ge-66 7.04E-16 6.78E-16 6.38E-16 6.39E-16 1.07E-15 6.60E-16 6.23E-16 6.70E-16 1.31E-15
Ge-67 1.44E-15 1.39E-15 1.32E-15 1.33E-15 2.07E-15 1.36E-15 1.29E-15 1.38E-15 1.48E-14
Ge-68 2.56E-20 7.12E-20 9.89E-23 2.19E-21 1.34E-20 4.81E-21 1.22E-20 2.16E-20 2.90E-18
Ge-69 8.85E-16 8.46E-16 8.10E-16 8.26E-16 1.18E-15 8.33E-16 7.99E-16 8.44E-16 2.82E-15
Ge-71 2.59E-20 7.21E-20 l.OOE-22 2.22E-21 1.36E-20 4.87E-21 1.24E-20 2.18E-20 2.93E-18
Ge-75 3.60E-17 3.51E-17 3.26E-17 3.27E-17 6.04E-17 3.32E-17 3.18E-17 3.44E-17 3.94E-15
Ge-77 1.10E-15 1.06E-15 1.01E-15 1.02E-15 1.58E-15 1.02E-15 9.88E-16 1.05E-15 8.23E-15
Ge-78 2.83E-16 2.75E-16 2.58E-16 2.59E-16 4.61E-16 2.62E-16 2.52E-16 2.71E-16 9.56E-16
Arsenic
As-69 1.06E-15 1.02E-15 9.66E-16 9.74E-16 1.49E-15 1.01E-15 9.45E-16 1.01E-15 1.46E-14
As-70 4.07E-15 3.89E-15 3.75E-15 3.83E-15 5.32E-15 3.77E-15 3.71E-15 3.90E-15 1.47E-14
As-71 5.81E-16 5.60E-16 5.31E-16 5.34E-16 9.02E-16 5.46E-16 5.18E-16 5.56E-16 1.22E-15
As-72 1.84E-15 1.76E-15 1.68E-15 1.71E-15 2.47E-15 1.73E-15 1.65E-15 1.75E-15 1.33E-14
As-73 6.32E-18 6.51E-18 5.09E-18 3.89E-18 2.31E-17 5.23E-18 4.88E-18 5.95E-18 1.55E-17
As-74 7.85E-16 7.53E-16 7.15E-16 7.24E-16 1.07E-15 7.48E-16 7.01E-16 7.47E-16 3.23E-15
As-76 4.44E-16 4.25E-16 4.06E-16 4.13E-16 5.97E-16 4.17E-16 4.00E-16 4.24E-16 1.18E-14
As-77 9.39E-18 9.13E-18 8.47E-18 8.45E-18 1.57E-17 8.68E-18 8.25E-18 8.95E-18 5.63E-16
As-78 1.25E-15 1.19E-15 1.15E-15 1.18E-15 1.62E-15 1.15E-15 1.14E-15 1.20E-15 1.40E-14
Selenium
Se-70 1.03E-15 9.93E-16 9.36E-16 9.40E-16 1.52E-15 9.75E-16 9.15E-16 9.81E-16 6.44E-15
Se-73m 2.53E-16 2.43E-16 2.30E-16 2.32E-16 3.54E-16 2.40E-16 2.25E-16 2.40E-16 2.22E-15
Se-73 1.12E-15 1.08E-15 1.02E-15 1.02E-15 1.72E-15 1.06E-15 9.98E-16 1.07E-15 5.40E-15
Se-75 3.91E-16 3.80E-16 3.58E-16 3.55E-16 7.20E-16 3.63E-16 3.48E-16 3.77E-16 4.76E-16
Se-77m 8.40E-17 8.22E-17 7.70E-17 7.56E-17 1.78E-16 7.73E-17 7.49E-17 8.18E-17 1.10E-16
Se-79 2.83E-20 3.18E-20 1.15E-20 9.59E-21 6.04E-20 1.62E-20 1.34E-20 2.07E-20 9.10E-20
Se-81m 1.37E-17 1.39E-17 1.22E-17 1.14E-17 3.74E-17 1.24E-17 1.19E-17 1.34E-17 4.41E-17
Se-81 1.20E-17 1.17E-17 1.06E-17 1.06E-17 1.95E-17 1.10E-17 1.04E-17 1.13E-17 7.07E-15
Se-83 2.40E-15 2.30E-15 2.21E-15 2.26E-15 3.20E-15 2.22E-15 2.19E-15 2.30E-15 7.37E-15
Bromine
Br-74m 3.96E-15 3.78E-15 3.65E-15 3.73E-15 5.16E-15 3.65E-15 3.62E-15 3.79E-15 1.74E-14
Br-74 4.20E-15 4.00E-15 3.89E-15 3.99E-15 5.39E-15 3.82E-15 3.89E-15 4.04E-15 1.58E-14
Br-75 1.25E-15 1.21E-15 1.14E-15 1.15E-15 1.81E-15 1.18E-15 1.12E-15 1.20E-15 7.59E-15
Br-76 2.54E-15 2.43E-15 2.35E-15 2.40E-15 3.32E-15 2.33E-15 2.34E-15 2.44E-15 9.52E-15
Br-77 3.24E-16 3.13E-16 2.95E-16 2.98E-16 4.76E-16 3.05E-16 2.88E-16 3.09E-16 4.05E-16
Br-80m 2.15E-17 2.41E-17 1.11E-17 7.89E-18 5.64E-17 1.44E-17 1.19E-17 1.70E-17 8.46E-17
Br-80 8.30E-17 7.96E-17 7.55E-17 7.65E-17 1.13E-16 7.89E-17 7.40E-17 7.89E-17 2.80E-15
Br-82 2.67E-15 2.55E-15 2.45E-15 2.50E-15 3.51E-15 2.51E-15 2.42E-15 2.55E-15 3.05E-15
Br-83 8.61E-18 8.31E-18 7.69E-18 7.71E-18 1.27E-17 8.07E-18 7.54E-18 8.13E-18 2.09E-15
Br-84 1.66E-15 1.58E-15 1.54E-15 1.59E-15 2.08E-15 1.49E-15 1.55E-15 1.60E-15 1.28E-14
Krypton
Kr-74 1.21E-15 1.16E-15 1.10E-15 1.10E-15 1.83E-15 1.14E-15 1.07E-15 1.15E-15 1.07E-14
Kr-76 4.40E-16 4.28E-16 3.98E-16 3.99E-16 7.00E-16 4.10E-16 3.88E-16 4.20E-16 5.50E-16
Kr-77 1.04E-15 1.01E-15 9.53E-16 9.56E-16 1.62E-15 9.90E-16 9.30E-16 9.99E-16 8.78E-15
Kr-79 2.60E-16 2.51E-16 2.36E-16 2.38E-16 3.75E-16 2.44E-16 2.30E-16 2.47E-16 3.60E-16
Kr-81m 1.29E-16 1.26E-16 1.17E-16 1.16E-16 2.47E-16 1.17E-16 1.15E-16 1.24E-16 1.60E-16
Kr-81 6.80E-18 7.72E-18 5.13E-18 5.25E-18 9.79E-18 5.34E-18 5.31E-18 6.15E-18 4.39E-17
Kr-83m 6.16E-19 1.05E-18 1.40E-20 6.21E-20 3.80E-19 8.51E-20 1.54E-19 3.80E-19 1.29E-17
Kr-85m 1.57E-16 1.53E-16 1.44E-16 1.42E-16 3.20E-16 1.45E-16 1.40E-16 1.52E-16 1.36E-15
Kr-85 2.82E-18 2.74E-18 2.45E-18 2.43E-18 4.47E-18 2.59E-18 2.41E-18 2.64E-18 8.00E-16
Kr-87 7.61E-16 7.27E-16 7.06E-16 7.22E-16 9.99E-16 6.86E-16 7.04E-16 7.32E-16 1.35E-14
Kr-88 1.80E-15 1.72E-15 1.69E-15 1.73E-15 2.28E-15 1.59E-15 1.69E-15 1.74E-15 4.43E-15
Rubidium
Rb-79 1.40E-15 1.35E-15 1.28E-15 1.29E-15 2.02E-15 1.33E-15 1.25E-15 1.34E-15 1.08E-14
Rb-80 1.32E-15 1.26E-15 1.20E-15 1.21E-15 1.83E-15 1.25E-15 1.17E-15 1.25E-15 1.83E-14
Rb-81m 6.38E-18 7.67E-18 3.80E-18 3.61E-18 1.47E-17 4.04E-18 4.10E-18 5.43E-18 4.06E-17
Rb-81 6.36E-16 6.15E-16 5.79E-16 5.82E-16 9.52E-16 5.99E-16 5.65E-16 6.07E-16 1.98E-15
Rb-82m 2.94E-15 2.81E-15 2.69E-15 2.75E-15 3.86E-15 2.76E-15 2.66E-15 2.81E-15 3.98E-15
Rb-82 1.15E-15 1.10E-15 1.04E-15 1.05E-15 1.59E-15 1.09E-15 1.02E-15 1.09E-15 1.54E-14
Rb-83 5.18E-16 4.98E-16 4.70E-16 4.75E-16 7.12E-16 4.91E-16 4.61E-16 4.92E-16 6.37E-16
Rb-84 9.34E-16 8.94E-16 8.52E-16 8.70E-16 1.24E-15 8.84E-16 8.41E-16 8.90E-16 1.87E-15
Rb-86 9.74E-17 9.30E-17 8.92E-17 9.15E-17 1.27E-16 9.08E-17 8.88E-17 9.31E-17 7.72E-15
Rb-87 1.10E-19 1.19E-19 5.98E-20 5.05E-20 2.69E-19 7.36E-20 6.37E-20 8.80E-20 2.73E-19
-------
97
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Rubidium, cont'd
Rb-88 6.16E-16 5.89E-16 5.75E-16 5.91E-16 7.85E-16 5.50E-16 5.76E-16 5.95E-16 1.67E-14
Rb-89 1.99E-15 1.90E-15 1.85E-15 1.90E-15 2.52E-15 1.81E-15 1.84E-15 1.91E-15 1.21E-14
Strontium
Sr-80 3.15E-18 5.00E-18 2.34E-20 3.02E-19 1.81E-18 3.72E-19 6.80E-19 1.85E-18 4.91E-17
Sr-81 1.43E-15 1.38E-15 1.31E-15 1.32E-15 2.09E-15 1.36E-15 1.28E-15 1.37E-15 1.27E-14
Sr-82 3.10E-18 4.91E-18 2.30E-20 2.97E-19 1.78E-18 3.65E-19 6.69E-19 1.82E-18 4.83E-17
Sr-83 8.10E-16 7.78E-16 7.37E-16 7.50E-16 1.10E-15 7.60E-16 7.26E-16 7.71E-16 2.26E-15
Sr-85m 2.20E-16 2.14E-16 2.00E-16 2.00E-16 3.91E-16 2.01E-16 1.96E-16 2.12E-16 2.57E-16
Sr-85 5.27E-16 5.07E-16 4.77E-16 4.82E-16 7.28E-16 4.99E-16 4.68E-16 5.00E-16 6.76E-16
Sr-87m 3.31E-16 3.19E-16 3.00E-16 3.02E-16 4.88E-16 3.12E-16 2.93E-16 3.15E-16 4.02E-16
Sr-89 2.49E-18 2.51E-18 1.98E-18 1.86E-18 5.43E-18 2.11E-18 1.95E-18 2.27E-18 6.66E-15
Sr-90 3.33E-19 3.50E-19 2.19E-19 1.93E-19 8.31E-19 2.49E-19 2.23E-19 2.84E-19 1.40E-16
Sr-91 7.08E-16 6.76E-16 6.48E-16 6.64E-16 9.25E-16 6.67E-16 6.43E-16 6.77E-16 7.53E-15
Sr-92 1.30E-15 1.24E-15 1.21E-15 1.24E-15 1.64E-15 1.18E-15 1.20E-15 1.25E-15 1.86E-15
Yttrium
Y-86m 2.20E-16 2.15E-16 2.02E-16 2.01E-16 3.92E-16 2.02E-16 1.97E-16 2.13E-16 2.91E-16
Y-86 3.54E-15 3.38E-15 3.26E-15 3.34E-15 4.60E-15 3.27E-15 3.24E-15 3.39E-15 6.46E-15
Y-87 4.71E-16 4.55E-16 4.25E-16 4.29E-16 6.58E-16 4.44E-16 4.16E-16 4.46E-16 5.90E-16
Y-88 2.56E-15 2.45E-15 2.39E-15 2.45E-15 3.23E-15 2.30E-15 2.39E-15 2.47E-15 2.92E-15
Y-90m 6.46E-16 6.24E-16 5.88E-16 5.91E-16 9.97E-16 6.07E-16 5.73E-16 6.16E-16 9.99E-16
Y-90 5.75E-18 5.72E-18 4.76E-18 4.57E-18 1.17E-17 5.02E-18 4.68E-18 5.32E-18 1.05E-14
Y-91m 5.50E-16 5.27E-16 5.01E-16 5.07E-16 7.52E-16 5.23E-16 4.91E-16 5.23E-16 9.52E-16
Y-91 6.11E-18 5.96E-18 5.31E-18 5.29E-18 1.01E-17 5.44E-18 5.25E-18 5.74E-18 6.92E-15
Y-92 2.65E-16 2.53E-16 2.43E-16 2.48E-16 3.50E-16 2.46E-16 2.41E-16 2.53E-16 1.39E-14
Y-93 9.51E-17 9.14E-17 8.74E-17 8.90E-17 1.33E-16 8.61E-17 8.66E-17 9.12E-17 1.23E-14
Y-94 1.12E-15 1.07E-15 1.03E-15 1.05E-15 1.45E-15 1.04E-15 1.02E-15 1.07E-15 1.63E-14
Y-95 8.27E-16 7.87E-16 7.71E-16 7.95E-16 1.04E-15 7.37E-16 7.76E-16 7.99E-16 1.38E-14
Zirconium
Zr-86 2.88E-16 2.86E-16 2.48E-16 2.49E-16 4.70E-16 2.54E-16 2.44E-16 2.69E-16 4.22E-16
Zr-88 4.13E-16 4.01E-16 3.70E-16 3.73E-16 6.04E-16 3.85E-16 3.63E-16 3.91E-16 5.21E-16
Zr-89 1.18E-15 1.13E-15 1.08E-15 1.10E-15 1.55E-15 1.11E-15 1.07E-15 1.13E-15 2.13E-15
Zr-93 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Zr-95 7.59E-16 7.25E-16 6.92E-16 7.06E-16 l.OOE-15 7.22E-16 6.83E-16 7.23E-16 8.91E-16
Zr-97 1.82E-16 1.74E-16 1.67E-16 1.71E-16 2.43E-16 1.68E-16 1.65E-16 1.74E-16 8.27E-15
Niobium
Nb-88 4.20E-15 4.02E-15 3.84E-15 3.91E-15 5.65E-15 3.95E-15 3.78E-15 4.01E-15 1.74E-14
Nb-89bx 1.38E-15 1.32E-15 1.27E-15 1.29E-15 1.84E-15 1.27E-15 1.25E-15 1.32E-15 1.26E-14
Nb-89a2 2.00E-15 1.92E-15 1.82E-15 1.84E-15 2.76E-15 1.90E-15 1.78E-15 1.90E-15 1.20E-14
Nb-90 3.99E-15 3.81E-15 3.71E-15 3.80E-15 5.16E-15 3.58E-15 3.70E-15 3.84E-15 8.73E-15
Nb-93m 1.72E-18 2.21E-18 4.95E-20 2.02E-19 1.28E-18 3.36E-19 3.28E-19 9.39E-19 9.70E-18
Nb-94 1.61E-15 1.54E-15 1.47E-15 1.50E-15 2.11E-15 1.53E-15 1.45E-15 1.53E-15 1.87E-15
Nb-95m 6.81E-17 6.85E-17 5.61E-17 5.67E-17 1.11E-16 5.75E-17 5.57E-17 6.26E-17 1.09E-16
Nb-95 7.85E-16 7.49E-16 7.16E-16 7.32E-16 1.03E-15 7.47E-16 7.08E-16 7.48E-16 9.05E-16
Nb-96 2.51E-15 2.40E-15 2.30E-15 2.35E-15 3.31E-15 2.37E-15 2.27E-15 2.39E-15 3.73E-15
Nb-97m 7.47E-16 7.14E-16 6.82E-16 6.96E-16 9.85E-16 7.11E-16 6.73E-16 7.12E-16 1.08E-15
Nb-97 6.78E-16 6.49E-16 6.18E-16 6.28E-16 9.06E-16 6.45E-16 6.07E-16 6.45E-16 5.56E-15
Nb-98 2.43E-15 2.32E-15 2.24E-15 2.29E-15 3.17E-15 2.27E-15 2.22E-15 2.33E-15 1.26E-14
Molybdenum
Mo-90 8.36E-16 8.10E-16 7.54E-16 7.60E-16 1.30E-15 7.72E-16 7.39E-16 7.96E-16 2.20E-15
Mo-93m 2.21E-15 2.11E-15 2.04E-15 2.09E-15 2.88E-15 2.02E-15 2.03E-15 2.12E-15 2.52E-15
Mo-93 9.79E-18 1.26E-17 2.81E-19 1.15E-18 7.29E-18 1.91E-18 1.86E-18 5.34E-18 5.51E-17
Mo-99 1.55E-16 1.49E-16 1.40E-16 1.42E-16 2.21E-16 1.46E-16 1.38E-16 1.47E-16 3.76E-15
Mo-101 1.34E-15 1.29E-15 1.24E-15 1.27E-15 1.77E-15 1.23E-15 1.23E-15 1.29E-15 7.06E-15
Technetium
Tc-93m 6.75E-16 6.46E-16 6.23E-16 6.38E-16 8.86E-16 6.02E-16 6.23E-16 6.48E-16 7.69E-16
Tc-93 1.40E-15 1.34E-15 1.30E-15 1.34E-15 1.76E-15 1.26E-15 1.30E-15 1.35E-15 1.62E-15
Tc-94m 1.87E-15 1.79E-15 1.71E-15 1.75E-15 2.48E-15 1.75E-15 1.69E-15 1.79E-15 1.07E-14
Tc-94 2.72E-15 2.60E-15 2.48E-15 2.54E-15 3.57E-15 2.58E-15 2.45E-15 2.59E-15 3.40E-15
Tc-95m 6.89E-16 6.64E-16 6.18E-16 6.29E-16 9.73E-16 6.41E-16 6.09E-16 6.53E-16 8.42E-16
1 TK = 122 m
2 TK = 66 m
-------
98
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Technetium, cont'd
Tc-95 8.15E-16 7.82E-16 7.33E-16 7.51E-16 1.06E-15 7.65E-16 7.27E-16 7.72E-16 9.83E-16
Tc-96m 5.27E-17 5.23E-17 4.18E-17 4.33E-17 6.53E-17 4.44E-17 4.24E-17 4.72E-17 8.27E-17
Tc-96 2.55E-15 2.44E-15 2.32E-15 2.38E-15 3.33E-15 2.41E-15 2.30E-15 2.43E-15 2.98E-15
Tc-97m 1.10E-17 1.32E-17 8.79E-19 1.65E-18 1.01E-17 3.21E-18 2.52E-18 6.18E-18 4.34E-17
Tc-97 1.19E-17 1.47E-17 4.88E-19 1.46E-18 9.49E-18 2.77E-18 2.36E-18 6.48E-18 5.57E-17
Tc-98 1.45E-15 1.39E-15 1.33E-15 1.35E-15 1.93E-15 1.38E-15 1.31E-15 1.38E-15 1.69E-15
Tc-99m 1.24E-16 1.20E-16 1.13E-16 1.10E-16 2.86E-16 1.14E-16 1.10E-16 1.21E-16 1.44E-16
Tc-99 9.74E-20 1.06E-19 5.29E-20 4.48E-20 2.38E-19 6.52E-20 5.65E-20 7.80E-20 2.43E-19
Tc-101 3.44E-16 3.33E-16 3.13E-16 3.15E-16 5.35E-16 3.21E-16 3.05E-16 3.28E-16 5.26E-15
Tc-104 1.93E-15 1.84E-15 1.78E-15 1.83E-15 2.55E-15 1.76E-15 1.77E-15 1.85E-15 1.65E-14
Ruthenium
Ru-94 5.49E-16 5.31E-16 4.88E-16 4.97E-16 7.61E-16 5.08E-16 4.81E-16 5.18E-16 6.70E-16
Ru-97 2.43E-16 2.41E-16 2.10E-16 2.10E-16 4.13E-16 2.14E-16 2.06E-16 2.28E-16 3.22E-16
Ru-103 4.87E-16 4.68E-16 4.43E-16 4.48E-16 6.80E-16 4.63E-16 4.34E-16 4.63E-16 6.16E-16
Ru-105 8.07E-16 7.73E-16 7.36E-16 7.48E-16 1.10E-15 7.66E-16 7.23E-16 7.69E-16 4.48E-15
Ru-106 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Rhodium
Rh-99m 6.98E-16 6.73E-16 6.25E-16 6.36E-16 9.67E-16 6.43E-16 6.17E-16 6.60E-16 9.37E-16
Rh-99 6.23E-16 6.04E-16 5.53E-16 5.56E-16 9.52E-16 5.74E-16 5.43E-16 5.88E-16 8.42E-16
Rh-100 2.65E-15 2.53E-15 2.45E-15 2.51E-15 3.38E-15 2.39E-15 2.44E-15 2.54E-15 3.71E-15
Rh-lOlm 3.17E-16 3.11E-16 2.75E-16 2.78E-16 4.86E-16 2.85E-16 2.70E-16 2.96E-16 4.03E-16
Rh-101 2.71E-16 2.68E-16 2.33E-16 2.30E-16 5.27E-16 2.39E-16 2.28E-16 2.55E-16 3.56E-16
Rh-102m 5.05E-16 4.86E-16 4.51E-16 4.57E-16 6.94E-16 4.72E-16 4.44E-16 4.76E-16 2.28E-15
Rh-102 2.19E-15 2.10E-15 1.99E-15 2.03E-15 2.92E-15 2.06E-15 1.96E-15 2.08E-15 2.57E-15
Rh-103m 2.18E-18 2.54E-18 2.32E-19 3.38E-19 2.31E-18 7.86E-19 5.55E-19 1.25E-18 6.88E-18
Rh-105 7.98E-17 7.74E-17 7.26E-17 7.30E-17 1.25E-16 7.44E-17 7.07E-17 7.62E-17 1.76E-16
Rh-106m 2.93E-15 2.80E-15 2.69E-15 2.75E-15 3.88E-15 2.74E-15 2.66E-15 2.80E-15 5.20E-15
Rh-106 2.23E-16 2.14E-16 2.03E-16 2.05E-16 3.09E-16 2.11E-16 1.99E-16 2.12E-16 1.42E-14
Rh-107 3.22E-16 3.12E-16 2.93E-16 2.94E-16 4.98E-16 3.00E-16 2.85E-16 3.07E-16 4.63E-15
Palladium
Pd-100 1.33E-16 1.37E-16 9.78E-17 8.90E-17 3.71E-16 1.05E-16 9.78E-17 1.20E-16 2.13E-16
Pd-101 3.52E-16 3.45E-16 2.94E-16 3.00E-16 4.81E-16 3.11E-16 2.93E-16 3.22E-16 5.66E-16
Pd-103 1.89E-17 2.21E-17 1.94E-18 2.94E-18 1.95E-17 6.78E-18 4.78E-18 1.09E-17 6.02E-17
Pd-107 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pd-109 1.58E-17 1.74E-17 5.86E-18 5.82E-18 2.69E-17 9.00E-18 7.27E-18 1.12E-17 2.87E-15
Silver
Ag-102 3.33E-15 3.18E-15 3.06E-15 3.12E-15 4.38E-15 3.08E-15 3.03E-15 3.18E-15 1.28E-14
Ag-103 7.81E-16 7.52E-16 7.03E-16 7.12E-16 1.12E-15 7.25E-16 6.91E-16 7.41E-16 3.86E-15
Ag-104m 1.17E-15 1.12E-15 1.07E-15 1.09E-15 1.57E-15 1.09E-15 1.06E-15 1.12E-15 6.86E-15
Ag-104 2.71E-15 2.59E-15 2.47E-15 2.53E-15 3.56E-15 2.53E-15 2.45E-15 2.58E-15 3.97E-15
Ag-105 5.45E-16 5.30E-16 4.78E-16 4.83E-16 8.05E-16 4.99E-16 4.69E-16 5.11E-16 6.70E-16
Ag-106m 2.85E-15 2.73E-15 2.60E-15 2.65E-15 3.78E-15 2.66E-15 2.57E-15 2.72E-15 3.32E-15
Ag-106 7.43E-16 7.15E-16 6.70E-16 6.77E-16 1.03E-15 7.02E-16 6.57E-16 7.04E-16 6.96E-15
Ag-108m 1.68E-15 1.62E-15 1.52E-15 1.54E-15 2.30E-15 1.59E-15 1.49E-15 1.60E-15 2.00E-15
Ag-108 2.12E-17 2.05E-17 1.87E-17 1.88E-17 3.09E-17 1.97E-17 1.84E-17 1.99E-17 7.07E-15
Ag-109m 1.42E-17 1.57E-17 4.52E-18 4.53E-18 2.36E-17 7.57E-18 5.95E-18 9.71E-18 3.28E-17
Ag-llOm 2.77E-15 2.65E-15 2.54E-15 2.60E-15 3.62E-15 2.61E-15 2.52E-15 2.65E-15 3.22E-15
Ag-110 4.04E-17 3.89E-17 3.62E-17 3.64E-17 5.92E-17 3.78E-17 3.55E-17 3.82E-17 1.27E-14
Ag-111 2.81E-17 2.72E-17 2.54E-17 2.54E-17 4.43E-17 2.61E-17 2.47E-17 2.67E-17 2.75E-15
Ag-112 6.60E-16 6.31E-16 6.08E-16 6.22E-16 8.65E-16 6.09E-16 6.03E-16 6.33E-16 1.38E-14
Ag-115 6.86E-16 6.58E-16 6.36E-16 6.50E-16 9.37E-16 6.19E-16 6.32E-16 6.61E-16 1.15E-14
Cadmium
Cd-104 2.72E-16 2.67E-16 2.25E-16 2.25E-16 4.41E-16 2.42E-16 2.24E-16 2.50E-16 3.63E-16
Cd-107 4.40E-17 4.86E-17 1.38E-17 1.45E-17 6.29E-17 2.35E-17 1.84E-17 2.98E-17 1.02E-16
Cd-109 3.56E-17 4.02E-17 7.72E-18 8.29E-18 5.02E-17 1.67E-17 1.22E-17 2.25E-17 8.95E-17
Cd-113m 3.09E-19 3.24E-19 2.02E-19 1.78E-19 7.69E-19 2.30E-19 2.06E-19 2.63E-19 1.55E-16
Cd-113 8.74E-20 9.48E-20 4.74E-20 4.02E-20 2.13E-19 5.85E-20 5.06E-20 6.99E-20 2.19E-19
Cd-115m 2.45E-17 2.35E-17 2.22E-17 2.26E-17 3.40E-17 2.27E-17 2.20E-17 2.34E-17 7.00E-15
Cd-115 2.43E-16 2.34E-16 2.20E-16 2.22E-16 3.40E-16 2.30E-16 2.16E-16 2.31E-16 2.28E-15
Cd-117m 1.95E-15 1.87E-15 1.82E-15 1.87E-15 2.48E-15 1.77E-15 1.82E-15 1.88E-15 3.12E-15
Cd-117 1.07E-15 1.02E-15 9.87E-16 1.01E-15 1.42E-15 9.79E-16 9.80E-16 1.03E-15 5.15E-15
-------
99
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Indium
In-109 6.84E-16 6.62E-16 6.08E-16 6.17E-16 9.97E-16 6.25E-16 6.00E-16 6.46E-16 9.62E-16
In-llOb1 3.11E-15 2.98E-15 2.83E-15 2.89E-15 4.08E-15 2.93E-15 2.80E-15 2.96E-15 3.64E-15
In-110a2 1.58E-15 1.52E-15 1.44E-15 1.46E-15 2.13E-15 1.48E-15 1.42E-15 1.51E-15 9.11E-15
In-Ill 4.14E-16 4.09E-16 3.59E-16 3.57E-16 7.50E-16 3.68E-16 3.52E-16 3.90E-16 5.09E-16
In-112 2.81E-16 2.71E-16 2.50E-16 2.52E-16 3.89E-16 2.63E-16 2.46E-16 2.64E-16 2.29E-15
In-113m 2.69E-16 2.61E-16 2.39E-16 2.40E-16 3.97E-16 2.50E-16 2.34E-16 2.54E-16 3.29E-16
In-114m l.OOE-16 9.89E-17 8.22E-17 8.27E-17 1.54E-16 8.83E-17 8.17E-17 9.15E-17 1.31E-16
In-114 2.87E-18 2.77E-18 2.53E-18 2.59E-18 3.77E-18 2.55E-18 2.54E-18 2.70E-18 1.86E-17
In-115m 1.69E-16 1.66E-16 1.46E-16 1.46E-16 2.59E-16 1.53E-16 1.43E-16 1.58E-16 2.73E-16
In-115 2.16E-19 2.28E-19 1.35E-19 1.17E-19 5.38E-19 1.56E-19 1.39E-19 1.81E-19 2.07E-17
In-116m 2.41E-15 2.30E-15 2.23E-15 2.29E-15 3.08E-15 2.21E-15 2.22E-15 2.32E-15 4.69E-15
In-117m 9.60E-17 9.44E-17 8.23E-17 8.20E-17 1.65E-16 8.59E-17 8.08E-17 8.96E-17 4.16E-15
In-117 7.13E-16 6.86E-16 6.48E-16 6.51E-16 1.08E-15 6.73E-16 6.32E-16 6.79E-16 1.65E-15
In-119m 2.01E-17 2.05E-17 1.35E-17 1.34E-17 3.22E-17 1.55E-17 1.40E-17 1.69E-17 1.15E-14
In-119 7.92E-16 7.58E-16 7.18E-16 7.34E-16 1.04E-15 7.50E-16 7.10E-16 7.53E-16 7.92E-15
Tin
Sn-110 3.15E-16 3.10E-16 2.69E-16 2.69E-16 5.06E-16 2.80E-16 2.64E-16 2.93E-16 3.89E-16
Sn-111 5.22E-16 5.03E-16 4.66E-16 4.73E-16 7.08E-16 4.80E-16 4.61E-16 4.92E-16 3.22E-15
Sn-113 3.13E-17 3.45E-17 l.OOE-17 9.75E-18 4.74E-17 1.75E-17 1.32E-17 2.13E-17 6.47E-17
Sn-117m 1.64E-16 1.64E-16 1.34E-16 1.30E-16 3.40E-16 1.41E-16 1.32E-16 1.51E-16 2.10E-16
Sn-119m 1.64E-17 1.84E-17 3.74E-18 3.42E-18 2.51E-17 8.27E-18 5.70E-18 1.04E-17 3.57E-17
Sn-121m 7.16E-18 7.90E-18 2.32E-18 1.83E-18 1.35E-17 4.13E-18 2.96E-18 4.89E-18 1.34E-17
Sn-121 1.29E-19 1.38E-19 7.44E-20 6.38E-20 3.18E-19 8.92E-20 7.81E-20 1.05E-19 3.01E-19
Sn-123m 1.40E-16 1.37E-16 1.26E-16 1.24E-16 2.99E-16 1.28E-16 1.23E-16 1.35E-16 4.74E-15
Sn-123 8.85E-18 8.55E-18 7.86E-18 7.94E-18 1.32E-17 8.07E-18 7.79E-18 8.37E-18 5.71E-15
Sn-125 3.14E-16 3.00E-16 2.89E-16 2.96E-16 4.08E-16 2.91E-16 2.87E-16 3.01E-16 9.21E-15
Sn-126 5.99E-17 6.08E-17 4.57E-17 4.06E-17 1.73E-16 4.96E-17 4.52E-17 5.47E-17 8.07E-17
Sn-127 1.88E-15 1.80E-15 1.73E-15 1.78E-15 2.45E-15 1.74E-15 1.72E-15 1.80E-15 6.48E-15
Sn-128 7.10E-16 6.93E-16 6.03E-16 6.01E-16 1.09E-15 6.46E-16 5.96E-16 6.57E-16 1.14E-15
Antimony
Sb-115 9.49E-16 9.13E-16 8.52E-16 8.60E-16 1.32E-15 8.93E-16 8.36E-16 8.97E-16 3.88E-15
Sb-116m 3.15E-15 3.02E-15 2.87E-15 2.94E-15 4.21E-15 2.92E-15 2.85E-15 3.01E-15 4.59E-15
Sb-116 2.12E-15 2.03E-15 1.95E-15 2.00E-15 2.75E-15 1.95E-15 1.94E-15 2.03E-15 7.34E-15
Sb-117 1.94E-16 1.93E-16 1.57E-16 1.54E-16 3.78E-16 1.67E-16 1.55E-16 1.77E-16 2.53E-16
Sb-118m 2.58E-15 2.48E-15 2.34E-15 2.40E-15 3.43E-15 2.37E-15 2.33E-15 2.46E-15 2.99E-15
Sb-119 3.39E-17 3.80E-17 8.10E-18 7.22E-18 5.33E-17 1.74E-17 1.20E-17 2.17E-17 7.20E-17
Sb-120b3 2.46E-15 2.36E-15 2.24E-15 2.29E-15 3.40E-15 2.28E-15 2.23E-15 2.35E-15 2.84E-15
Sb-120a4 4.75E-16 4.59E-16 4.22E-16 4.25E-16 6.62E-16 4.44E-16 4.15E-16 4.47E-16 4.27E-15
Sb-122 4.59E-16 4.40E-16 4.18E-16 4.23E-16 6.26E-16 4.36E-16 4.10E-16 4.36E-16 6.72E-15
Sb-124n5 1.12E-19 1.26E-19 2.48E-20 2.31E-20 1.70E-19 5.63E-20 3.86E-20 7.12E-20 2.45E-19
Sb-124m6 3.64E-16 3.49E-16 3.32E-16 3.37E-16 4.95E-16 3.47E-16 3.25E-16 3.47E-16 1.19E-15
Sb-124 1.78E-15 1.70E-15 1.65E-15 1.69E-15 2.30E-15 1.63E-15 1.64E-15 1.71E-15 5.20E-15
Sb-125 4.53E-16 4.38E-16 4.00E-16 4.02E-16 6.50E-16 4.22E-16 3.93E-16 4.25E-16 5.97E-16
Sb-126m 1.60E-15 1.53E-15 1.46E-15 1.48E-15 2.18E-15 1.52E-15 1.43E-15 1.52E-15 8.61E-15
Sb-126 2.92E-15 2.79E-15 2.66E-15 2.71E-15 3.92E-15 2.77E-15 2.62E-15 2.78E-15 5.33E-15
Sb-127 7.10E-16 6.81E-16 6.47E-16 6.56E-16 9.73E-16 6.74E-16 6.35E-16 6.76E-16 2.85E-15
Sb-128b7 3.17E-15 3.03E-15 2.89E-15 2.95E-15 4.26E-15 3.00E-15 2.85E-15 3.02E-15 7.48E-15
Sb-128a8 2.04E-15 1.95E-15 1.86E-15 1.90E-15 2.76E-15 1.93E-15 1.83E-15 1.94E-15 1.28E-14
Sb-129 1.44E-15 1.37E-15 1.32E-15 1.35E-15 1.87E-15 1.34E-15 1.31E-15 1.38E-15 5.10E-15
Sb-130 3.30E-15 3.16E-15 3.02E-15 3.09E-15 4.47E-15 3.10E-15 2.99E-15 3.16E-15 1.11E-14
Sb-131 1.83E-15 1.75E-15 1.69E-15 1.74E-15 2.37E-15 1.69E-15 1.68E-15 1.76E-15 7.51E-15
Tellurium
Te-116 8.71E-17 9.08E-17 5.19E-17 4.75E-17 1.84E-16 6.47E-17 5.49E-17 7.13E-17 1.35E-16
Te-121m 2.24E-16 2.21E-16 1.92E-16 1.91E-16 3.93E-16 1.98E-16 1.89E-16 2.10E-16 2.71E-16
TK = 4.9 h
TK = 69.1 m
TK = 5.76 d
TK = 15.89 m
TK = 20.2 m
TK = 93 s
TK = 9.01 h
T* = 10.4 m
-------
100
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Tellurium, cont'd
Te-121 6.08E-16 5.88E-16 5.35E-16 5.40E-16 8.43E-16 5.67E-16 5.27E-16 5.70E-16 7.49E-16
Te-123m 1.53E-16 1.51E-16 1.28E-16 1.24E-16 3.23E-16 1.34E-16 1.26E-16 1.43E-16 1.87E-16
Te-123 2.94E-17 3.27E-17 8.44E-18 6.87E-18 5.13E-17 1.63E-17 1.14E-17 1.95E-17 5.71E-17
Te-125m 5.24E-17 5.76E-17 1.78E-17 1.36E-17 1.01E-16 3.10E-17 2.22E-17 3.61E-17 9.45E-17
Te-127m 1.63E-17 1.79E-17 5.57E-18 4.34E-18 3.13E-17 9.66E-18 6.95E-18 1.13E-17 5.20E-17
Te-127 5.48E-18 5.33E-18 4.88E-18 4.87E-18 8.57E-18 5.09E-18 4.77E-18 5.18E-18 5.40E-16
Te-129m 4.33E-17 4.32E-17 3.22E-17 3.18E-17 6.49E-17 3.66E-17 3.27E-17 3.78E-17 2.27E-15
Te-129 6.51E-17 6.36E-17 5.52E-17 5.52E-17 9.63E-17 5.90E-17 5.46E-17 6.01E-17 5.74E-15
Te-131m 1.44E-15 1.38E-15 1.31E-15 1.34E-15 1.94E-15 1.34E-15 1.30E-15 1.37E-15 2.20E-15
Te-131 4.29E-16 4.13E-16 3.90E-16 3.92E-16 6.74E-16 4.01E-16 3.82E-16 4.10E-16 8.36E-15
Te-132 2.45E-16 2.43E-16 2.06E-16 2.01E-16 4.58E-16 2.15E-16 2.03E-16 2.28E-16 2.99E-16
Te-133m 2.32E-15 2.22E-15 2.13E-15 2.18E-15 3.09E-15 2.17E-15 2.11E-15 2.22E-15 1.01E-14
Te-133 9.34E-16 8.96E-16 8.57E-16 8.73E-16 1.29E-15 8.66E-16 8.46E-16 8.94E-16 1.01E-14
Te-134 9.12E-16 8.78E-16 8.24E-16 8.32E-16 1.35E-15 8.57E-16 8.08E-16 8.67E-16 2.16E-15
Iodine
I-120m 5.24E-15 5.01E-15 4.82E-15 4.93E-15 6.87E-15 4.85E-15 4.78E-15 5.02E-15 1.81E-14
1-120 2.67E-15 2.55E-15 2.46E-15 2.51E-15 3.52E-15 2.46E-15 2.44E-15 2.56E-15 1.58E-14
1-121 4.36E-16 4.26E-16 3.81E-16 3.80E-16 6.96E-16 3.97E-16 3.73E-16 4.09E-16 1.16E-15
1-122 9.90E-16 9.51E-16 8.97E-16 9.06E-16 1.37E-15 9.36E-16 8.80E-16 9.40E-16 1.21E-14
1-123 1.82E-16 1.82E-16 1.46E-16 1.41E-16 3.69E-16 1.56E-16 1.44E-16 1.66E-16 2.33E-16
1-124 1.11E-15 1.06E-15 l.OOE-15 1.02E-15 1.48E-15 1.02E-15 9.93E-16 1.05E-15 3.50E-15
1-125 6.22E-17 6.85E-17 2.08E-17 1.59E-17 1.19E-16 3.66E-17 2.61E-17 4.27E-17 1.13E-16
1-126 4.75E-16 4.58E-16 4.23E-16 4.27E-16 6.65E-16 4.45E-16 4.15E-16 4.47E-16 1.61E-15
1-128 9.28E-17 8.96E-17 8.30E-17 8.34E-17 1.35E-16 8.70E-17 8.14E-17 8.77E-17 8.78E-15
1-129 3.55E-17 3.84E-17 1.48E-17 1.07E-17 7.91E-17 2.28E-17 1.69E-17 2.58E-17 5.80E-17
1-130 2.20E-15 2.11E-15 2.01E-15 2.04E-15 2.96E-15 2.09E-15 1.97E-15 2.10E-15 4.29E-15
1-131 3.94E-16 3.81E-16 3.58E-16 3.60E-16 5.90E-16 3.71E-16 3.49E-16 3.76E-16 6.43E-16
I-132m 3.35E-16 3.23E-16 2.98E-16 3.01E-16 4.70E-16 3.13E-16 2.93E-16 3.15E-16 1.06E-15
1-132 2.32E-15 2.22E-15 2.12E-15 2.17E-15 3.06E-15 2.19E-15 2.10E-15 2.21E-15 7.54E-15
1-133 6.27E-16 6.01E-16 5.72E-16 5.80E-16 8.55E-16 5.94E-16 5.61E-16 5.97E-16 4.55E-15
1-134 2.64E-15 2.52E-15 2.42E-15 2.48E-15 3.45E-15 2.48E-15 2.40E-15 2.53E-15 9.85E-15
1-135 1.53E-15 1.46E-15 1.42E-15 1.46E-15 1.95E-15 1.40E-15 1.42E-15 1.47E-15 4.83E-15
Xenon
Xe-120 4.59E-16 4.49E-16 3.86E-16 3.85E-16 7.11E-16 4.13E-16 3.82E-16 4.23E-16 6.44E-16
Xe-121 1.76E-15 1.69E-15 1.61E-15 1.64E-15 2.39E-15 1.60E-15 1.60E-15 1.69E-15 7.79E-15
Xe-122 8.06E-17 8.24E-17 5.46E-17 5.14E-17 1.45E-16 6.42E-17 5.60E-17 6.83E-17 1.12E-16
Xe-123 6.44E-16 6.23E-16 5.74E-16 5.78E-16 9.67E-16 5.88E-16 5.65E-16 6.09E-16 2.51E-15
Xe-125 2.87E-16 2.85E-16 2.38E-16 2.33E-16 5.13E-16 2.52E-16 2.35E-16 2.65E-16 3.56E-16
Xe-127 2.94E-16 2.91E-16 2.48E-16 2.43E-16 5.40E-16 2.59E-16 2.43E-16 2.73E-16 3.58E-16
Xe-129m 7.02E-17 7.52E-17 3.32E-17 2.62E-17 1.51E-16 4.72E-17 3.67E-17 5.29E-17 1.11E-16
Xe-131m 2.76E-17 2.97E-17 1.25E-17 9.79E-18 5.88E-17 1.83E-17 1.40E-17 2.06E-17 4.44E-17
Xe-133m 4.89E-17 5.06E-17 3.15E-17 2.87E-17 9.51E-17 3.76E-17 3.24E-17 4.07E-17 6.93E-17
Xe-133 5.20E-17 5.34E-17 3.71E-17 3.12E-17 1.51E-16 4.19E-17 3.70E-17 4.61E-17 6.93E-17
Xe-135m 4.48E-16 4.30E-16 4.04E-16 4.08E-16 6.23E-16 4.24E-16 3.96E-16 4.24E-16 1.41E-15
Xe-135 2.53E-16 2.47E-16 2.30E-16 2.30E-16 4.23E-16 2.33E-16 2.24E-16 2.42E-16 2.09E-15
Xe-138 1.07E-15 1.02E-15 9.97E-16 1.02E-15 1.41E-15 9.55E-16 9.94E-16 1.03E-15 7.65E-15
Cesium
Cs-125 7.09E-16 6.83E-16 6.34E-16 6.38E-16 1.01E-15 6.65E-16 6.23E-16 6.69E-16 4.88E-15
Cs-126 1.14E-15 1.10E-15 1.04E-15 1.05E-15 1.61E-15 1.08E-15 1.02E-15 1.09E-15 1.48E-14
Cs-127 4.43E-16 4.31E-16 3.86E-16 3.85E-16 6.77E-16 4.07E-16 3.79E-16 4.14E-16 6.13E-16
Cs-128 9.42E-16 9.06E-16 8.53E-16 8.60E-16 1.32E-15 8.91E-16 8.36E-16 8.94E-16 1.02E-14
Cs-129 3.05E-16 3.00E-16 2.53E-16 2.49E-16 4.84E-16 2.73E-16 2.50E-16 2.79E-16 3.75E-16
Cs-130 5.43E-16 5.23E-16 4.85E-16 4.88E-16 7.66E-16 5.09E-16 4.76E-16 5.12E-16 5.43E-15
Cs-131 3.34E-17 3.63E-17 1.31E-17 9.52E-18 7.10E-17 2.10E-17 1.54E-17 2.39E-17 5.56E-17
Cs-132 7.37E-16 7.09E-16 6.54E-16 6.62E-16 1.01E-15 6.90E-16 6.44E-16 6.93E-16 9.10E-16
Cs-134m 3.01E-17 3.08E-17 2.06E-17 1.83E-17 7.16E-17 2.40E-17 2.08E-17 2.59E-17 4.14E-17
Cs-134 1.60E-15 1.53E-15 1.46E-15 1.48E-15 2.12E-15 1.52E-15 1.44E-15 1.52E-15 2.17E-15
Cs-135m 1.62E-15 1.55E-15 1.48E-15 1.51E-15 2.12E-15 1.54E-15 1.46E-15 1.54E-15 2.37E-15
Cs-135 4.38E-20 4.85E-20 2.02E-20 1.69E-20 l.OOE-19 2.68E-20 2.26E-20 3.33E-20 1.27E-19
Cs-136 2.18E-15 2.09E-15 2.00E-15 2.04E-15 2.95E-15 2.05E-15 1.98E-15 2.09E-15 2.54E-15
-------
101
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Cesium, cont'd
Cs-137 3.31E-19 3.47E-19 2.22E-19 1.97E-19 8.15E-19 2.51E-19 2.25E-19 2.85E-19 2.75E-16
Cs-138 2.27E-15 2.17E-15 2.11E-15 2.17E-15 2.90E-15 2.06E-15 2.11E-15 2.19E-15 1.52E-14
Barium
Ba-126 1.78E-16 1.76E-16 1.45E-16 1.42E-16 2.95E-16 1.57E-16 1.44E-16 1.62E-16 2.66E-16
Ba-128 8.77E-17 8.91E-17 6.29E-17 5.88E-17 1.65E-16 7.14E-17 6.34E-17 7.60E-17 1.17E-16
Ba-131m 8.09E-17 8.07E-17 6.46E-17 5.84E-17 2.16E-16 6.99E-17 6.33E-17 7.46E-17 9.99E-17
Ba-131 4.83E-16 4.71E-16 4.19E-16 4.15E-16 7.84E-16 4.43E-16 4.12E-16 4.52E-16 5.89E-16
Ba-133m 7.44E-17 7.49E-17 5.64E-17 5.32E-17 1.40E-16 6.23E-17 5.62E-17 6.59E-17 9.65E-17
Ba-133 4.28E-16 4.21E-16 3.63E-16 3.55E-16 7.50E-16 3.84E-16 3.57E-16 3.97E-16 5.13E-16
Ba-135m 6.82E-17 6.89E-17 5.06E-17 4.73E-17 1.31E-16 5.65E-17 5.06E-17 6.00E-17 8.86E-17
Ba-137m 6.17E-16 5.90E-16 5.61E-16 5.70E-16 8.27E-16 5.87E-16 5.51E-16 5.86E-16 1.65E-15
Ba-139 4.79E-17 4.69E-17 4.27E-17 4.17E-17 9.73E-17 4.33E-17 4.17E-17 4.59E-17 1.03E-14
Ba-140 1.91E-16 1.85E-16 1.70E-16 1.71E-16 2.81E-16 1.79E-16 1.67E-16 1.80E-16 1.95E-15
Ba-141 8.52E-16 8.20E-16 7.80E-16 7.91E-16 1.23E-15 7.88E-16 7.68E-16 8.15E-16 1.06E-14
Ba-142 1.05E-15 1.01E-15 9.61E-16 9.80E-16 1.44E-15 9.79E-16 9.52E-16 1.01E-15 4.80E-15
Lanthanum
La-131 7.01E-16 6.78E-16 6.23E-16 6.22E-16 1.07E-15 6.52E-16 6.11E-16 6.61E-16 2.96E-15
La-132 1.99E-15 1.91E-15 1.83E-15 1.86E-15 2.67E-15 1.84E-15 1.81E-15 1.90E-15 7.53E-15
La-134 7.31E-16 7.03E-16 6.60E-16 6.65E-16 1.03E-15 6.89E-16 6.47E-16 6.93E-16 8.96E-15
La-135 4.67E-17 4.89E-17 2.62E-17 2.15E-17 1.01E-16 3.42E-17 2.77E-17 3.71E-17 6.89E-17
La-137 3.43E-17 3.68E-17 1.57E-17 1.11E-17 8.17E-17 2.29E-17 1.74E-17 2.57E-17 5.34E-17
La-138 1.21E-15 1.16E-15 1.11E-15 1.14E-15 1.56E-15 1.10E-15 1.11E-15 1.16E-15 1.39E-15
La-140 2.24E-15 2.14E-15 2.08E-15 2.13E-15 2.89E-15 2.03E-15 2.07E-15 2.16E-15 8.24E-15
La-141 4.74E-17 4.54E-17 4.35E-17 4.44E-17 6.43E-17 4.27E-17 4.33E-17 4.54E-17 1.08E-14
La-142 2.54E-15 2.42E-15 2.37E-15 2.44E-15 3.19E-15 2.27E-15 2.38E-15 2.46E-15 1.17E-14
La-143 1.01E-16 9.70E-17 9.32E-17 9.52E-17 1.36E-16 9.17E-17 9.28E-17 9.71E-17 1.34E-14
Cerium
Ce-134 3.64E-17 3.88E-17 1.79E-17 1.26E-17 9.16E-17 2.49E-17 1.93E-17 2.79E-17 5.50E-17
Ce-135 1.84E-15 1.76E-15 1.67E-15 1.69E-15 2.58E-15 1.74E-15 1.63E-15 1.75E-15 2.73E-15
Ce-137m 6.04E-17 6.11E-17 4.46E-17 4.05E-17 1.26E-16 4.98E-17 4.44E-17 5.31E-17 7.82E-17
Ce-137 4.57E-17 4.77E-17 2.61E-17 2.07E-17 1.05E-16 3.35E-17 2.73E-17 3.65E-17 6.64E-17
Ce-139 1.69E-16 1.68E-16 1.38E-16 1.31E-16 3.70E-16 1.46E-16 1.36E-16 1.56E-16 2.06E-16
Ce-141 7.71E-17 7.56E-17 6.80E-17 6.48E-17 1.80E-16 6.98E-17 6.60E-17 7.38E-17 1.32E-16
Ce-143 2.98E-16 2.90E-16 2.60E-16 2.56E-16 4.99E-16 2.72E-16 2.54E-16 2.79E-16 3.99E-15
Ce-144 2.17E-17 2.15E-17 1.80E-17 1.64E-17 5.64E-17 1.90E-17 1.75E-17 2.03E-17 2.61E-17
Praseodymium
Pr-136 2.12E-15 2.03E-15 1.94E-15 1.97E-15 2.86E-15 1.98E-15 1.91E-15 2.02E-15 1.02E-14
Pr-137 5.23E-16 5.05E-16 4.66E-16 4.67E-16 7.57E-16 4.88E-16 4.58E-16 4.93E-16 2.95E-15
Pr-138m 2.52E-15 2.41E-15 2.29E-15 2.34E-15 3.41E-15 2.37E-15 2.27E-15 2.40E-15 5.02E-15
Pr-138 8.56E-16 8.22E-16 7.75E-16 7.82E-16 1.20E-15 8.10E-16 7.60E-16 8.13E-16 1.23E-14
Pr-139 1.34E-16 1.32E-16 1.09E-16 1.05E-16 2.29E-16 1.18E-16 1.08E-16 1.22E-16 5.53E-16
Pr-142m 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pr-142 6.00E-17 5.75E-17 5.56E-17 5.70E-17 7.89E-17 5.33E-17 5.56E-17 5.78E-17 9.15E-15
Pr-143 7.93E-19 8.16E-19 5.75E-19 5.23E-19 1.91E-18 6.31E-19 5.75E-19 7.01E-19 2.00E-15
Pr-144m 1.62E-17 1.69E-17 9.29E-18 6.79E-18 4.36E-17 1.18E-17 9.57E-18 1.30E-17 2.67E-17
Pr-144 3.96E-17 3.81E-17 3.61E-17 3.66E-17 5.65E-17 3.56E-17 3.58E-17 3.78E-17 1.27E-14
Pr-145 1.65E-17 1.60E-17 1.47E-17 1.47E-17 2.52E-17 1.53E-17 1.45E-17 1.56E-17 7.90E-15
Pr-147 8.84E-16 8.51E-16 7.97E-16 8.01E-16 1.31E-15 8.18E-16 7.83E-16 8.39E-16 9.59E-15
Neodymium
Nd-136 3.13E-16 3.07E-16 2.64E-16 2.53E-16 5.93E-16 2.82E-16 2.59E-16 2.90E-16 6.17E-16
Nd-138 5.30E-17 5.46E-17 3.45E-17 2.81E-17 1.31E-16 4.10E-17 3.48E-17 4.45E-17 7.17E-17
Nd-139m 1.60E-15 1.53E-15 1.44E-15 1.47E-15 2.23E-15 1.49E-15 1.43E-15 1.52E-15 2.40E-15
Nd-139 4.25E-16 4.10E-16 3.77E-16 3.77E-16 6.27E-16 3.96E-16 3.70E-16 4.00E-16 2.87E-15
Nd-141m 7.80E-16 7.45E-16 7.10E-16 7.25E-16 1.03E-15 7.41E-16 7.01E-16 7.42E-16 1.90E-15
Nd-141 8.54E-17 8.53E-17 6.46E-17 5.91E-17 1.69E-16 7.17E-17 6.44E-17 7.55E-17 1.58E-16
Nd-147 1.48E-16 1.45E-16 1.28E-16 1.23E-16 2.90E-16 1.36E-16 1.25E-16 1.39E-16 1.10E-15
Nd-149 3.96E-16 3.84E-16 3.56E-16 3.53E-16 6.76E-16 3.67E-16 3.47E-16 3.77E-16 5.04E-15
Nd-151 9.22E-16 8.84E-16 8.42E-16 8.53E-16 1.36E-15 8.57E-16 8.31E-16 8.82E-16 7.87E-15
Promethium
Pm-141 7.67E-16 7.36E-16 6.95E-16 7.01E-16 1.08E-15 7.17E-16 6.83E-16 7.28E-16 7.77E-15
Pm-142 9.11E-16 8.75E-16 8.28E-16 8.35E-16 1.28E-15 8.61E-16 8.12E-16 8.66E-16 1.35E-14
Pm-143 3.32E-16 3.21E-16 2.90E-16 2.89E-16 4.99E-16 3.07E-16 2.85E-16 3.10E-16 4.04E-16
-------
102
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose
Nuclide
Gonad
Promethium
Pm-144
Pm-145
Pm-146
Pm-147
Pm-148m
Pm-148
Pm-149
Pm-150
Pm-151
Samarium
Sm-141m
Sm-141
Sm-142
Sm-145
Sm-146
Sm-147
Sm-151
Sm-153
Sm-155
Sm-156
Europium
Eu-145
Eu-146
Eu-147
Eu-148
Eu-149
Eu-lSOb1
Eu-150a2
Eu-152m
Eu-152
Eu-154
Eu-155
Eu-156
Eu-157
Eu-158
1
3
7
4
2
5
1
1
3
2
1
1
8
0
0
8
6
1
1
1
2
5
2
7
1
4
3
1
1
6
1
2
1
Breast
Lung
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
nr
2)
Remainder
Effective
Skin
, cont ' d
.62E
.96E
.82E
.37E
.06E
.71E
.19E
.41E
.31E
.OOE
.43E
.05E
.IDE
.0
.0
.66E
.71E
.05E
.22E
.44E
.53E
.HE
.23E
.19E
. 54E
-15
-17
-16
-20
-15
-16
-17
-15
-16
-15
-15
-16
-17
-21
-17
-16
-16
-15
-15
-16
-15
-17
-15
.93E-17
.DIE
.16E
.24E
.09E
.28E
.76E
.06E
-16
-15
-15
-17
-15
-16
-15
1
4
7
4
1
5
1
1
3
1
1
1
8
0
0
1
6
1
1
1
2
4
2
7
1.
4.
2
1
1
6
1
2
1
.56E
.13E
.51E
.79E
.97E
.46E
.16E
.35E
.20E
. 92E
.37E
.03E
.39E
.0
.0
.OOE
. 72E
. 02E
.20E
.38E
.42E
. 94E
.13E
.23E
,48E
-15
-17
-16
-20
-15
-16
-17
-15
-16
-15
-15
-16
-17
-20
-17
-16
-16
-15
-15
-16
-15
-17
-15
.78E-17
.89E
.HE
.18E
.DIE
.23E
.69E
.DIE
-16
-15
-15
-17
-15
-16
-15
1
2
7
2
1
5
1
1
2
1
1
8
5
0
0
1
5
9
1
1
2
4
2
5
1.
4.
2
1
1
5
1
2
9
.47E
.38E
.05E
.20E
.88E
.27E
.07E
.30E
.97E
.83E
.30E
.41E
.18E
.0
.0
.DIE
.37E
.40E
.08E
.32E
.31E
. 54E
.03E
.45E
,39E
-15
-17
-16
-20
-15
-16
-17
-15
-16
-15
-15
-17
-17
-21
-17
-17
-16
-15
-15
-16
-15
-17
-15
.37E-17
. 72E
.05E
. 14E
.34E
.19E
.43E
.69E
-16
-15
-15
-17
-15
-16
-16
1.48E-15 2.24E-15 1.54E-15
1.70E-17 1.17E-16 2.92E-17
7.11E-16 1.10E-15 7.38E-16
1.86E-20 1.02E-19 2.80E-20
1.91E-15 2.80E-15 1.95E-15
5.40E-16 7.42E-16 5.26E-16
1.07E-17 1.95E-17 1.10E-17
1.33E-15 1.88E-15 1.30E-15
2.96E-16 5.46E-16 3.08E-16
1.85E-15 2.80E-15 1.86E-15
1.32E-15 1.98E-15 1.33E-15
7.80E-17 2.07E-16 9.15E-17
3.72E-17 2.52E-16 6.12E-17
0.0 0.0 0.0
0.0 0.0 0.0
1.39E-21 9.63E-21 3.33E-21
4.51E-17 2.06E-16 5.73E-17
8.74E-17 2.81E-16 9.61E-17
1.04E-16 2.67E-16 1.10E-16
1.35E-15 1.94E-15 1.33E-15
2.35E-15 3.40E-15 2.37E-15
4.51E-16 8.30E-16 4.71E-16
2.05E-15 3.05E-15 2.09E-15
4.71E-17 1.76E-16 5.99E-17
1.41E-15 2.23E-15 1.44E-15
4.34E-17 7.83E-17 4.52E-17
2.75E-16 4.31E-16 2.82E-16
1.07E-15 1.63E-15 1.07E-15
1.16E-15 1.69E-15 1.15E-15
4.71E-17 1.90E-16 5.48E-17
1.22E-15 1.66E-15 1.17E-15
2.35E-16 5.09E-16 2.54E-16
9.91E-16 1.41E-15 9.82E-16
1
2
6
2
1
5
1
1
2
1
1
8
5
0
0
2
5
9
1
1
2
4
1
5
1.
4.
2
1
1
5
1
2
9
.44E
.41E
.91E
.40E
. 84E
.24E
. 04E
.29E
.90E
.80E
.28E
.29E
.17E
.0
.0
.30E
.19E
.06E
.05E
.31E
.28E
.46E
.99E
.35E
,37E
-15
-17
-16
-20
-15
-16
-17
-15
-16
-15
-15
-17
-17
-21
-17
-17
-16
-15
-15
-16
-15
-17
-15
.28E-17
.69E
. 04E
.13E
. 12E
.19E
.37E
.63E
-16
-15
-15
-17
-15
-16
-16
1
3
7
3
1
5
1
1
3
1
1
9
6
0
0
5
6
1
1
1
2
4
2
6
1.
4.
2
1
1
5
1
2
1
. 54E
.26E
.41E
.41E
.96E
.48E
.13E
.36E
.15E
.91E
.36E
.49E
. 84E
.0
.0
.03E
.22E
. 02E
.17E
.38E
.42E
.83E
. 12E
.41E
,46E
-15
-17
-16
-20
-15
-16
-17
-15
-16
-15
-15
-17
-17
-21
-17
-16
-16
-15
-15
-16
-15
-17
-15
.65E-17
.86E
.IDE
.19E
.90E
.23E
.61E
.DIE
-16
-15
-15
-17
-15
-16
-15
1
5
1
1
2
8
2
1
2
6
8
3
1
0
0
2
7
6
4
1
3
6
2
9
2.
2.
6
1
2
7
5
3
1
.96E-15
.49E-17
.25E-15
.20E-19
.62E-15
.36E-15
.97E-15
.05E-14
.07E-15
.48E-15
.93E-15
.93E-16
.09E-16
.0
.0
.53E-20
.12E-16
.24E-15
.31E-16
.87E-15
.34E-15
.17E-16
.67E-15
.07E-17
.OOE-15
.40E-15
.HE-IS
.75E-15
.91E-15
.04E-17
.05E-15
.35E-15
.10E-14
Gadolinium
Gd-145
Gd-146
Gd-147
Gd-148
Gd-149
Gd-151
Gd-152
Gd-153
Gd-159
Terbium
Tb-147
Tb-149
Tb-150
Tb-151
Tb-153
Tb-154
Tb-155
Tb-156m3
Tb-156n4
Tb-156
Tb-157
Tb-158
1 TK = 34
2 TK = 12
3 TK = 24
4 TK = 5.
2
2
1
0
4
7
0
1
5
1
1
1
9
2
2
1
2
4
1
3
8
.2
.16E
.63E
.36E
.0
.36E
.IDE
.0
.15E
.34E
.61E
.59E
.69E
.19E
.39E
.21E
.47E
-15
-16
-15
-16
-17
-16
-17
-15
-15
-15
-16
-16
-15
-16
.83E-17
.02E-18
.82E
.05E
.HE
Y
-15
-18
-16
2
2
1
0
4
7
0
1
5
1
1
1
8
2
2
1
2.
4.
1
3
7
.07E
.61E
.31E
.0
.24E
.17E
.0
.16E
.23E
. 54E
.53E
. 62E
.88E
.35E
.HE
.46E
-15
-16
-15
-16
-17
-16
-17
-15
-15
-15
-16
-16
-15
-16
.85E-17
.07E-18
.75E
.13E
.77E
-15
-18
-16
2
2
1
0
3
5
0
9
4
1
1
1
8
2
2
1
2.
3 .
1
2
7
.DIE
.18E
.24E
.0
.86E
.39E
.0
. 02E
.65E
.47E
.46E
.55E
.26E
.06E
.05E
.23E
-15
-16
-15
-16
-17
-17
-17
-15
-15
-15
-16
-16
-15
-16
.21E-17
.10E-18
.67E
. 12E
.33E
-15
-18
-16
2.06E-15 2.82E-15 1.95E-15
1.93E-16 7.28E-16 2.29E-16
1.25E-15 1.98E-15 1.27E-15
0.0 0.0 0.0
3.78E-16 7.77E-16 4.01E-16
4.54E-17 1.93E-16 5.85E-17
0.0 0.0 0.0
7.43E-17 3.60E-16 9.70E-17
4.43E-17 1.05E-16 4.85E-17
1.50E-15 2.22E-15 1.51E-15
1.49E-15 2.19E-15 1.46E-15
1.57E-15 2.30E-15 1.58E-15
8.22E-16 1.47E-15 8.54E-16
1.93E-16 5.21E-16 2.13E-16
2.10E-15 2.94E-15 1.98E-15
1.09E-16 3.99E-16 1.29E-16
1.64E-17 1.03E-16 2.32E-17
2.41E-18 1.37E-17 3.32E-18
1.69E-15 2.59E-15 1.68E-15
1.52E-18 1.03E-17 2.38E-18
7.40E-16 1.18E-15 7.57E-16
2
2
1
0
3
5
0
8
4
1
1
1
8
2
2
1
2.
2.
1
2
7
.OOE
.HE
.21E
.0
.76E
.26E
.0
. 72E
. 52E
.45E
.45E
.53E
.07E
.OOE
.05E
.19E
-15
-16
-15
-16
-17
-17
-17
-15
-15
-15
-16
-16
-15
-16
.10E-17
.99E-18
.65E
.07E
.25E
-15
-18
-16
2
2
1
0
4
6
0
1
5
1
1
1
8
2
2
1
2.
3 .
1
2
7
.08E
.46E
.30E
.0
. 12E
.38E
.0
.06E
. 02E
. 54E
.53E
. 62E
.73E
.25E
.13E
.38E
-15
-16
-15
-16
-17
-16
-17
-15
-15
-15
-16
-16
-15
-16
.61E-17
.68E-18
. 74E
.67E
. 72E
-15
-18
-16
8
3
1
0
5
8
0
1
1
7
3
7
1
2
3
1
3 .
4.
2
3
1
.38E-15
.14E-16
.62E-15
.0
.19E-16
.96E-17
.0
.41E-16
.84E-15
.55E-15
.65E-15
.52E-15
.13E-15
.88E-16
.OOE-15
.77E-16
.42E-17
.95E-18
.HE-IS
.93E-18
.17E-15
.62 h
.4
0
Y
h
-------
103
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Terbium, cont'd
Tb-160 1.13E-15 1.08E-15 1.03E-15 1.06E-15 1.54E-15 1.05E-15 1.02E-15 1.08E-15 1.88E-15
Tb-161 3.97E-17 4.10E-17 2.72E-17 2.15E-17 1.24E-16 3.06E-17 2.70E-17 3.47E-17 8.88E-17
Dysprosium
Dy-155 5.88E-16 5.68E-16 5.30E-16 5.28E-16 9.59E-16 5.37E-16 5.20E-16 5.60E-16 7.27E-16
Dy-157 3.71E-16 3.62E-16 3.30E-16 3.22E-16 6.62E-16 3.40E-16 3.20E-16 3.51E-16 4.29E-16
Dy-159 5.22E-17 5.33E-17 3.78E-17 2.74E-17 1.81E-16 4.14E-17 3.65E-17 4.65E-17 6.59E-17
Dy-165 2.85E-17 2.77E-17 2.50E-17 2.39E-17 5.81E-17 2.60E-17 2.43E-17 2.69E-17 4.41E-15
Dy-166 4.27E-17 4.28E-17 3.49E-17 2.83E-17 1.41E-16 3.64E-17 3.35E-17 4.01E-17 5.18E-17
Holmium
Ho-155 4.03E-16 3.90E-16 3.60E-16 3.55E-16 6.77E-16 3.75E-16 3.51E-16 3.82E-16 2.89E-15
Ho-157 5.10E-16 4.96E-16 4.52E-16 4.40E-16 9.39E-16 4.67E-16 4.40E-16 4.83E-16 8.95E-16
Ho-159 3.77E-16 3.69E-16 3.31E-16 3.12E-16 8.43E-16 3.40E-16 3.21E-16 3.58E-16 4.40E-16
Ho-161 7.05E-17 7.25E-17 4.85E-17 3.72E-17 2.24E-16 5.45E-17 4.78E-17 6.15E-17 9.59E-17
Ho-162m 5.78E-16 5.57E-16 5.22E-16 5.20E-16 9.29E-16 5.29E-16 5.13E-16 5.51E-16 6.65E-16
Ho-162 1.73E-16 1.69E-16 1.51E-16 1.43E-16 3.50E-16 1.55E-16 1.47E-16 1.63E-16 4.19E-16
Ho-164m 5.11E-17 5.20E-17 3.83E-17 2.83E-17 1.80E-16 4.12E-17 3.69E-17 4.63E-17 6.35E-17
Ho-164 3.32E-17 3.37E-17 2.54E-17 1.91E-17 1.16E-16 2.71E-17 2.44E-17 3.03E-17 8.46E-16
Ho-166m 1.78E-15 1.71E-15 1.63E-15 1.65E-15 2.56E-15 1.68E-15 1.60E-15 1.70E-15 2.11E-15
Ho-166 3.15E-17 3.07E-17 2.81E-17 2.68E-17 6.63E-17 2.79E-17 2.74E-17 3.01E-17 7.71E-15
Ho-167 3.76E-16 3.65E-16 3.41E-16 3.40E-16 6.14E-16 3.51E-16 3.32E-16 3.59E-16 1.07E-15
Erbium
Er-161 9.26E-16 8.88E-16 8.42E-16 8.50E-16 1.35E-15 8.64E-16 8.30E-16 8.83E-16 1.13E-15
Er-165 4.20E-17 4.25E-17 3.21E-17 2.37E-17 1.51E-16 3.41E-17 3.08E-17 3.84E-17 5.14E-17
Er-169 l.OOE-19 1.08E-19 5.59E-20 4.76E-20 2.46E-19 6.82E-20 5.93E-20 8.10E-20 2.46E-19
Er-171 3.90E-16 3.79E-16 3.53E-16 3.48E-16 7.09E-16 3.61E-16 3.43E-16 3.73E-16 3.34E-15
Er-172 5.42E-16 5.21E-16 4.91E-16 4.91E-16 8.18E-16 5.11E-16 4.79E-16 5.15E-16 6.32E-16
Thulium
Tm-162 1.71E-15 1.64E-15 1.58E-15 1.61E-15 2.33E-15 1.55E-15 1.57E-15 1.64E-15 5.30E-15
Tm-166 1.82E-15 1.74E-15 1.68E-15 1.71E-15 2.51E-15 1.66E-15 1.67E-15 1.75E-15 2.42E-15
Tm-167 1.50E-16 1.48E-16 1.30E-16 1.19E-16 3.74E-16 1.33E-16 1.26E-16 1.43E-16 1.76E-16
Tm-170 6.14E-18 6.13E-18 5.25E-18 4.42E-18 2.06E-17 5.36E-18 5.03E-18 5.91E-18 2.12E-15
Tm-171 6.73E-19 6.76E-19 5.60E-19 4.35E-19 2.50E-18 5.72E-19 5.33E-19 6.41E-19 7.91E-19
Tm-172 4.63E-16 4.43E-16 4.30E-16 4.40E-16 6.18E-16 4.20E-16 4.28E-16 4.46E-16 5.72E-15
Tm-173 4.03E-16 3.89E-16 3.66E-16 3.68E-16 6.05E-16 3.80E-16 3.58E-16 3.84E-16 2.29E-15
Tm-175 1.07E-15 1.03E-15 9.81E-16 9.96E-16 1.47E-15 1.01E-15 9.65E-16 1.02E-15 5.87E-15
Ytterbium
Yb-162 1.39E-16 1.37E-16 1.21E-16 1.09E-16 3.89E-16 1.24E-16 1.16E-16 1.33E-16 1.60E-16
Yb-166 9.11E-17 9.15E-17 7.48E-17 5.80E-17 3.32E-16 7.70E-17 7.12E-17 8.61E-17 1.08E-16
Yb-167 2.71E-16 2.66E-16 2.37E-16 2.10E-16 7.81E-16 2.41E-16 2.27E-16 2.60E-16 3.16E-16
Yb-169 3.17E-16 3.13E-16 2.78E-16 2.50E-16 8.60E-16 2.82E-16 2.66E-16 3.04E-16 3.66E-16
Yb-175 4.09E-17 3.97E-17 3.71E-17 3.67E-17 7.01E-17 3.82E-17 3.61E-17 3.91E-17 5.21E-17
Yb-177 1.87E-16 1.80E-16 1.72E-16 1.74E-16 2.89E-16 1.74E-16 1.70E-16 1.80E-16 4.49E-15
Yb-178 3.64E-17 3.53E-17 3.30E-17 3.31E-17 5.61E-17 3.42E-17 3.22E-17 3.47E-17 3.05E-16
Lutetium
Lu-169 1.03E-15 9.86E-16 9.42E-16 9.49E-16 1.55E-15 9.41E-16 9.31E-16 9.86E-16 1.30E-15
Lu-170 2.32E-15 2.22E-15 2.16E-15 2.21E-15 3.06E-15 2.08E-15 2.16E-15 2.24E-15 3.08E-15
Lu-171 7.16E-16 6.89E-16 6.44E-16 6.40E-16 1.15E-15 6.71E-16 6.30E-16 6.80E-16 8.55E-16
Lu-172 1.89E-15 1.81E-15 1.73E-15 1.76E-15 2.66E-15 1.76E-15 1.71E-15 1.81E-15 2.31E-15
Lu-173 1.34E-16 1.33E-16 1.16E-16 1.01E-16 3.87E-16 1.18E-16 1.11E-16 1.28E-16 1.57E-16
Lu-174m 6.36E-17 6.35E-17 5.34E-17 4.36E-17 2.12E-16 5.47E-17 5.11E-17 6.04E-17 7.71E-17
Lu-174 1.26E-16 1.23E-16 1.12E-16 1.04E-16 2.86E-16 1.12E-16 1.08E-16 1.20E-16 1.45E-16
Lu-176m 1.51E-17 1.50E-17 1.33E-17 1.14E-17 5.01E-17 1.34E-17 1.27E-17 1.47E-17 4.30E-15
Lu-176 4.97E-16 4.84E-16 4.53E-16 4.48E-16 8.94E-16 4.59E-16 4.40E-16 4.78E-16 7.15E-16
Lu-177m 1.02E-15 9.90E-16 9.24E-16 9.06E-16 1.93E-15 9.41E-16 8.96E-16 9.77E-16 1.16E-15
Lu-177 3.50E-17 3.42E-17 3.18E-17 3.07E-17 7.71E-17 3.20E-17 3.09E-17 3.39E-17 5.64E-17
Lu-178m 1.13E-15 1.10E-15 1.03E-15 1.02E-15 1.97E-15 1.06E-15 l.OOE-15 1.09E-15 5.51E-15
Lu-178 1.39E-16 1.33E-16 1.29E-16 1.31E-16 2.02E-16 1.26E-16 1.28E-16 1.34E-16 8.63E-15
Lu-179 3.26E-17 3.19E-17 2.95E-17 2.93E-17 6.06E-17 2.98E-17 2.88E-17 3.13E-17 4.72E-15
-------
104
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose
Nuclide
Hafnium
Hf-170
Hf-172
Hf-173
Hf-175
Hf-177m
Hf-178m
Hf-179m
Hf-180m
Hf-181
Hf-182m
Hf-182
Hf-183
Hf-184
Tantalum
Ta-172
Ta-173
Ta-174
Ta-175
Ta-176
Ta-177
Ta-178b1
Ta-178a2
Ta-179
Ta-180m
Ta-180
Ta-182m
Ta-182
Ta-183
Ta-184
Ta-185
Ta-186
Tungsten
W-176
W-177
W-178
W-179
W-181
W-185
W-187
W-188
Rhenium
Re-177
Re-178
Re-180
Re-181
Re-182b3
Re-182a4
Re-184m
Re-184
Re-186m
Re-186
Re-187
Re-188m
Re-188
Re-189
Osmium
Os-180
1 TK = 2.
2 TK = 9.
3 TK = 64
4 TK = 12
Gonad
5
1
4
3
2
2
9
1
5
9
2
7
2
1
5
6
9
2
6
1
1
3
4
5
2
1
2
1
1
1
1
9
1
6
4
2
4
2
6
1
1
7
1
1
3
9
1
2
0
7
6
6
6
2
31
.0
.7
.62E
.20E
.HE
.80E
.29E
.42E
.21E
.03E
.72E
.52E
.43E
.68E
.50E
.55E
.94E
.36E
.14E
.05E
.82E
. 04E
.08E
.28E
.93E
.68E
.48E
.28E
.94E
.64E
.95E
.60E
.75E
.IDE
.34E
.47E
.06E
.12E
.92E
.02E
.14E
.18E
.20E
.83E
.87E
.16E
.91E
.04E
.54E
.09E
.0
.69E
.15E
.98E
.33E
h
m
h
h
-16
-16
-16
-16
-15
-15
-16
-15
-16
-16
-16
-16
-16
-15
-16
-16
-16
-15
-17
-15
-16
-17
-17
-16
-16
-15
-16
-15
-16
-15
-16
-16
-17
-17
-17
-19
-16
-18
-16
-15
-15
-16
-15
-15
-16
-16
-17
-17
-17
-17
-17
-17
Breast
5
1
4
3
2
2
8
1
5
9
2
7
2
1
5
6
8
1
6
1.
1.
3
4
5
2
1
2
1
1
1
1
8
1
6
4
2
4
1
5
1
1
7
1.
1.
3
8
1
2
0
7
5
6
6
.44E
.21E
.OOE
.70E
.23E
.34E
.93E
.OOE
.51E
.18E
.36E
.37E
.44E
.48E
.73E
. 14E
.79E
.96E
.77E
.DIE
,06E
.29E
.93E
. 54E
.44E
.22E
.87E
.58E
.91E
. 54E
.73E
.77E
.34E
. 62E
.06E
.22E
.73E
.98E
. 92E
.13E
.15E
.55E
,79E
.HE
.77E
.65E
.58E
.05E
.0
.65E
.95E
.83E
.38E
-16
-16
-16
-16
-15
-15
-16
-15
-16
-16
-16
-16
-16
-15
-16
-16
-16
-15
-17
-15
-16
-17
-17
-16
-16
-15
-16
-15
-16
-15
-16
-16
-17
-17
-17
-19
-16
-18
-16
-15
-15
-16
-15
-15
-16
-16
-17
-17
-17
-17
-17
-17
Lung
5
9
3
3
2
2
8
9
5
8
2
7
2
1
5
5
8
1
5
9.
9.
2
4
5
2
1
2
1
1
1
1
8
1
4
3
1
4
1
5
1
1
7
1.
1.
3
8
1
1
0
6
5
6
5
.07E
. 82E
. 72E
.43E
.08E
.20E
.36E
.40E
.20E
.66E
.21E
.DIE
.26E
.42E
.39E
.79E
.41E
.90E
.91E
,48E
,61E
.78E
.22E
.15E
.25E
.18E
.65E
.50E
.76E
.46E
.56E
.29E
.15E
.81E
.49E
.43E
.48E
.80E
. 62E
.08E
.09E
.13E
,71E
,07E
.55E
.24E
.26E
.89E
.0
. 84E
.59E
.35E
.29E
-16
-17
-16
-16
-15
-15
-16
-16
-16
-16
-16
-16
-16
-15
-16
-16
-16
-15
-17
-16
-17
-17
-17
-16
-16
-15
-16
-15
-16
-15
-16
-16
-17
-17
-17
-19
-16
-18
-16
-15
-15
-16
-15
-15
-16
-16
-17
-17
-17
-17
-17
-17
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
4.94E-16 1.05E-15 5.24E-16
8.04E-17 4.06E-16 1.02E-16
3.56E-16 8.96E-16 3.78E-16
3.34E-16 7.01E-16 3.52E-16
2.06E-15 4.03E-15 2.13E-15
2.20E-15 3.85E-15 2.28E-15
8.25E-16 1.63E-15 8.59E-16
9.32E-16 1.75E-15 9.66E-16
5.18E-16 9.24E-16 5.40E-16
8.65E-16 1.54E-15 8.93E-16
2.20E-16 4.26E-16 2.24E-16
7.08E-16 1.13E-15 7.25E-16
2.20E-16 4.94E-16 2.31E-16
1.44E-15 2.24E-15 1.43E-15
5.33E-16 1.01E-15 5.52E-16
5.74E-16 1.08E-15 5.91E-16
8.43E-16 1.44E-15 8.31E-16
1.94E-15 2.75E-15 1.85E-15
4.96E-17 2.24E-16 5.99E-17
9.30E-16 1.93E-15 9.71E-16
8.74E-17 2.75E-16 9.58E-17
2.18E-17 1.23E-16 2.81E-17
3.37E-17 1.81E-16 4.27E-17
5.05E-16 1.07E-15 5.24E-16
2.12E-16 6.01E-16 2.26E-16
1.20E-15 1.82E-15 1.18E-15
2.54E-16 6.49E-16 2.69E-16
1.52E-15 2.41E-15 1.54E-15
1.68E-16 4.42E-16 1.78E-16
1.47E-15 2.39E-15 1.50E-15
1.34E-16 5.90E-16 1.57E-16
8.20E-16 1.58E-15 8.48E-16
9.14E-18 5.01E-17 1.16E-17
3.77E-17 2.16E-16 5.22E-17
2.77E-17 1.51E-16 3.51E-17
1.25E-19 5.64E-19 1.61E-19
4.50E-16 7.40E-16 4.67E-16
1.76E-18 3.83E-18 1.83E-18
5.57E-16 1.03E-15 5.63E-16
1.10E-15 1.74E-15 1.08E-15
1.11E-15 1.74E-15 1.13E-15
7.10E-16 1.28E-15 7.32E-16
1.72E-15 2.96E-15 1.72E-15
1.08E-15 1.75E-15 1.07E-15
3.50E-16 7.07E-16 3.63E-16
8.32E-16 1.34E-15 8.52E-16
9.99E-18 5.46E-17 1.30E-17
1.74E-17 5.75E-17 1.91E-17
0.0 0.0 0.0
5.78E-17 2.71E-16 6.85E-17
5.54E-17 1.11E-16 5.70E-17
6.20E-17 1.41E-16 6.40E-17
4.51E-17 2.03E-16 5.42E-17
m"
2)
Remainder
4
9
3
3
2
2
8
9
5
8
2
6
2
1
5
5
8
1
5
9.
9.
2
4
4
2
1
2
1
1
1
1
8
1
4
3
1
4
1
5
1
1
6
1.
1.
3
8
1
1
0
6
5
6
5
. 92E
.44E
.59E
.32E
. 02E
.15E
. 12E
.13E
.07E
.45E
.15E
.89E
.19E
.40E
.26E
.65E
.28E
.90E
.65E
,19E
,28E
.65E
. 02E
.99E
.17E
.17E
.56E
.47E
.71E
.43E
.48E
.09E
.IDE
.71E
.32E
.45E
.38E
.75E
.51E
.07E
.08E
.96E
,69E
,06E
.47E
.13E
.21E
.81E
.0
.53E
.46E
.16E
. 12E
-16
-17
-16
-16
-15
-15
-16
-16
-16
-16
-16
-16
-16
-15
-16
-16
-16
-15
-17
-16
-17
-17
-17
-16
-16
-15
-16
-15
-16
-15
-16
-16
-17
-17
-17
-19
-16
-18
-16
-15
-15
-16
-15
-15
-16
-16
-17
-17
-17
-17
-17
-17
Effective
5
1
3
3
2
2
8
9
5
9
2
7
2
1
5
6
8
1
6
1.
1.
3
4
5
2
1
2
1
1
1
1
8
1
5
3
1
4
1
5
1
1
7
1.
1.
3
8
1
2
0
7
5
6
6
.37E
.13E
.96E
.63E
.20E
.31E
. 82E
.89E
.46E
.IDE
.33E
.34E
.40E
.48E
.68E
.09E
.79E
.97E
.57E
.OOE
. 04E
.16E
.76E
.45E
.41E
.23E
.83E
.57E
.89E
.53E
.71E
.73E
.30E
.86E
.93E
. 84E
.69E
. 92E
.90E
.13E
.15E
.49E
,79E
. 12E
.75E
. 64E
.46E
. 04E
.0
.56E
.91E
. 74E
. 02E
-16
-16
-16
-16
-15
-15
-16
-16
-16
-16
-16
-16
-16
-15
-16
-16
-16
-15
-17
-15
-16
-17
-17
-16
-16
-15
-16
-15
-16
-15
-16
-16
-17
-17
-17
-19
-16
-18
-16
-15
-15
-16
-15
-15
-16
-16
-17
-17
-17
-17
-17
-17
6
1
4
4
2
2
1
1
6
1
2
5
2
6
3
3
1
2
8
1.
1.
3
1
6
2
1
5
5
7
1
2
1
1
8
4
1
2
2
3
6
2
9
2.
1.
4
1
3
2
0
9
8
2
1
Skin
.60E-16
.50E-16
.78E-16
.36E-16
.65E-15
.88E-15
.06E-15
.21E-15
.82E-16
.37E-15
.77E-16
.06E-15
.17E-15
.58E-15
.80E-15
.75E-15
.09E-15
.75E-15
.OOE-17
.20E-15
.27E-16
.91E-17
.20E-16
.51E-16
.86E-16
.63E-15
.49E-16
.44E-15
.49E-15
.22E-14
.01E-16
.18E-15
.69E-17
.44E-17
.79E-17
.57E-18
.03E-15
.48E-18
.63E-15
.37E-15
.31E-15
.24E-16
.23E-15
.49E-15
.64E-16
.10E-15
.48E-17
.56E-15
.0
.91E-17
.89E-15
.10E-15
.17E-16
-------
105
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Osmium, cont' d
Os-181 1.22E-15 1.17E-15 1.12E-15 1.12E-15 1.85E-15 1.13E-15 1.10E-15 1.17E-15 1.68E-15
Os-182 4.44E-16 4.30E-16 4.02E-16 3.95E-16 8.02E-16 4.15E-16 3.91E-16 4.25E-16 5.88E-16
Os-185 7.38E-16 7.08E-16 6.72E-16 6.75E-16 1.10E-15 6.99E-16 6.58E-16 7.04E-16 9.50E-16
Os-189m 4.13E-20 9.90E-20 2.30E-22 3.62E-21 2.19E-20 6.57E-21 1.60E-20 3.13E-20 3.05E-18
Os-190m 1.64E-15 1.57E-15 1.49E-15 1.50E-15 2.39E-15 1.55E-15 1.46E-15 1.56E-15 2.01E-15
Os-191m 7.30E-18 7.39E-18 6.42E-18 5.30E-18 2.69E-17 6.40E-18 6.16E-18 7.19E-18 1.31E-17
Os-191 7.48E-17 7.41E-17 6.78E-17 6.04E-17 2.35E-16 6.79E-17 6.49E-17 7.38E-17 9.88E-17
Os-193 7.52E-17 7.31E-17 6.83E-17 6.66E-17 1.45E-16 7.02E-17 6.63E-17 7.23E-17 2.81E-15
Os-194 1.32E-18 1.42E-18 8.64E-19 6.24E-19 4.23E-18 9.84E-19 8.63E-19 1.14E-18 4.60E-18
Iridium
Ir-182 1.37E-15 1.31E-15 1.25E-15 1.26E-15 2.04E-15 1.28E-15 1.22E-15 1.31E-15 9.34E-15
Ir-184 1.89E-15 1.82E-15 1.74E-15 1.76E-15 2.75E-15 1.75E-15 1.72E-15 1.82E-15 3.99E-15
Ir-185 5.70E-16 5.49E-16 5.28E-16 5.27E-16 9.44E-16 5.07E-16 5.22E-16 5.52E-16 8.40E-16
Ir-18631 1.62E-15 1.56E-15 1.49E-15 1.51E-15 2.40E-15 1.50E-15 1.47E-15 1.56E-15 2.10E-15
Ir-186b2 9.72E-16 9.33E-16 8.89E-16 8.95E-16 1.47E-15 9.10E-16 8.73E-16 9.30E-16 2.76E-15
Ir-187 3.67E-16 3.54E-16 3.33E-16 3.28E-16 6.55E-16 3.42E-16 3.24E-16 3.51E-16 4.93E-16
Ir-188 1.51E-15 1.45E-15 1.40E-15 1.43E-15 2.11E-15 1.36E-15 1.40E-15 1.46E-15 1.84E-15
Ir-189 7.87E-17 7.83E-17 7.02E-17 6.18E-17 2.44E-16 7.03E-17 6.74E-17 7.69E-17 1.03E-16
Ir-190n3 1.60E-15 1.54E-15 1.46E-15 1.46E-15 2.44E-15 1.51E-15 1.42E-15 1.53E-15 1.97E-15
Ir-190m4 5.24E-20 1.19E-19 2.37E-22 4.59E-21 2.76E-20 7.70E-21 1.86E-20 3.81E-20 3.14E-18
Ir-190 1.48E-15 1.42E-15 1.35E-15 1.35E-15 2.31E-15 1.39E-15 1.31E-15 1.41E-15 1.80E-15
Ir-191m 7.01E-17 6.93E-17 6.36E-17 5.69E-17 2.18E-16 6.37E-17 6.09E-17 6.91E-17 9.31E-17
Ir-192m 1.59E-16 1.55E-16 1.46E-16 1.43E-16 3.38E-16 1.47E-16 1.42E-16 1.55E-16 1.80E-16
Ir-192 8.42E-16 8.13E-16 7.67E-16 7.71E-16 1.28E-15 7.91E-16 7.47E-16 8.03E-16 1.21E-15
Ir-194m 2.41E-15 2.32E-15 2.20E-15 2.22E-15 3.43E-15 2.29E-15 2.15E-15 2.30E-15 2.95E-15
Ir-194 9.60E-17 9.26E-17 8.74E-17 8.83E-17 1.43E-16 8.93E-17 8.56E-17 9.16E-17 9.33E-15
Ir-195m 4.25E-16 4.13E-16 3.85E-16 3.79E-16 7.70E-16 3.96E-16 3.74E-16 4.07E-16 1.43E-15
Ir-195 5.60E-17 5.59E-17 5.02E-17 4.40E-17 1.85E-16 5.03E-17 4.82E-17 5.52E-17 2.44E-15
Platinum
Pt-186 7.59E-16 7.28E-16 6.91E-16 6.95E-16 1.13E-15 7.20E-16 6.77E-16 7.24E-16 9.05E-16
Pt-188 2.00E-16 1.96E-16 1.81E-16 1.71E-16 4.79E-16 1.83E-16 1.75E-16 1.94E-16 2.42E-16
Pt-189 3.26E-16 3.17E-16 2.96E-16 2.86E-16 6.64E-16 3.03E-16 2.88E-16 3.14E-16 4.59E-16
Pt-191 3.06E-16 2.99E-16 2.77E-16 2.63E-16 6.89E-16 2.83E-16 2.68E-16 2.96E-16 4.00E-16
Pt-193m 1.05E-17 1.06E-17 9.33E-18 7.89E-18 3.77E-17 9.27E-18 8.96E-18 1.04E-17 1.82E-17
Pt-193 1.71E-19 3.62E-19 8.04E-22 1.52E-20 9.08E-20 2.36E-20 5.53E-20 1.19E-19 8.51E-18
Pt-195m 6.96E-17 6.97E-17 6.22E-17 5.37E-17 2.39E-16 6.22E-17 5.96E-17 6.87E-17 1.02E-16
Pt-197m 8.02E-17 7.90E-17 7.24E-17 6.79E-17 1.94E-16 7.33E-17 6.99E-17 7.77E-17 1.26E-16
Pt-197 2.30E-17 2.30E-17 2.09E-17 1.91E-17 6.78E-17 2.08E-17 2.01E-17 2.27E-17 3.33E-16
Pt-199 2.09E-16 2.02E-16 1.91E-16 1.92E-16 3.09E-16 1.98E-16 1.86E-16 2.00E-16 5.67E-15
Pt-200 5.78E-17 5.72E-17 5.24E-17 4.86E-17 1.54E-16 5.26E-17 5.05E-17 5.65E-17 2.90E-16
Gold
Au-193 1.56E-16 1.54E-16 1.42E-16 1.31E-16 4.16E-16 1.43E-16 1.37E-16 1.53E-16 1.93E-16
Au-194 1.04E-15 9.99E-16 9.61E-16 9.74E-16 1.52E-15 9.46E-16 9.50E-16 l.OOE-15 1.35E-15
Au-195m 2.00E-16 1.96E-16 1.83E-16 1.81E-16 3.65E-16 1.84E-16 1.78E-16 1.93E-16 2.42E-16
Au-195 7.91E-17 7.91E-17 7.11E-17 6.09E-17 2.79E-16 7.08E-17 6.81E-17 7.84E-17 1.09E-16
Au-198m 5.69E-16 5.57E-16 5.21E-16 5.05E-16 1.24E-15 5.23E-16 5.05E-16 5.53E-16 6.66E-16
Au-198 4.21E-16 4.05E-16 3.83E-16 3.85E-16 6.16E-16 3.98E-16 3.74E-16 4.01E-16 2.53E-15
Au-199 8.66E-17 8.48E-17 7.94E-17 7.68E-17 1.97E-16 7.95E-17 7.69E-17 8.45E-17 1.04E-16
Au-200m 2.14E-15 2.06E-15 1.95E-15 1.97E-15 3.09E-15 2.02E-15 1.91E-15 2.04E-15 2.79E-15
Au-200 2.74E-16 2.62E-16 2.52E-16 2.58E-16 3.69E-16 2.53E-16 2.50E-16 2.63E-16 8.43E-15
Au-201 5.61E-17 5.40E-17 5.08E-17 5.10E-17 8.45E-17 5.29E-17 4.97E-17 5.33E-17 3.95E-15
Mercury
Hg-193m 1.04E-15 l.OOE-15 9.55E-16 9.61E-16 1.60E-15 9.63E-16 9.37E-16 9.99E-16 1.34E-15
Hg-193 1.97E-16 1.94E-16 1.78E-16 1.66E-16 5.08E-16 1.79E-16 1.72E-16 1.92E-16 3.78E-16
Hg-194 3.16E-19 5.98E-19 1.73E-21 2.87E-20 1.72E-19 3.99E-20 8.72E-20 2.05E-19 1.04E-17
Hg-195m 2.10E-16 2.05E-16 1.91E-16 1.87E-16 3.95E-16 1.94E-16 1.85E-16 2.02E-16 2.93E-16
Hg-195 2.01E-16 1.95E-16 1.83E-16 1.77E-16 4.07E-16 1.86E-16 1.78E-16 1.94E-16 2.82E-16
1 TK = 15.8 h
2 TK = 1.75 h
3 TK = 3 . 1 h
4 TV, = 1.2 h
-------
106
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Mercury, cont'd
Hg-197m 8.87E-17 8.72E-17 8.11E-17 7.60E-17 2.35E-16 8.15E-17 7.80E-17 8.70E-17 1.15E-16
Hg-197 6.45E-17 6.46E-17 5.84E-17 5.02E-17 2.29E-16 5.79E-17 5.60E-17 6.42E-17 9.10E-17
Hg-199m 1.82E-16 1.78E-16 1.67E-16 1.59E-16 4.21E-16 1.68E-16 1.61E-16 1.77E-16 2.29E-16
Hg-203 2.41E-16 2.35E-16 2.20E-16 2.20E-16 4.11E-16 2.23E-16 2.14E-16 2.32E-16 2.79E-16
Thallium
Tl-194m 2.39E-15 2.29E-15 2.17E-15 2.19E-15 3.45E-15 2.26E-15 2.13E-15 2.27E-15 5.37E-15
Tl-194 7.98E-16 7.68E-16 7.27E-16 7.28E-16 1.24E-15 7.54E-16 7.10E-16 7.62E-16 9.81E-16
Tl-195 1.23E-15 1.18E-15 1.14E-15 1.16E-15 1.73E-15 1.12E-15 1.13E-15 1.18E-15 1.94E-15
Tl-197 4.06E-16 3.92E-16 3.72E-16 3.68E-16 7.18E-16 3.76E-16 3.63E-16 3.91E-16 6.59E-16
Tl-198m 1.23E-15 1.18E-15 1.12E-15 1.12E-15 1.85E-15 1.16E-15 1.09E-15 1.17E-15 1.58E-15
Tl-198 1.94E-15 1.86E-15 1.80E-15 1.83E-15 2.65E-15 1.76E-15 1.78E-15 1.87E-15 2.39E-15
Tl-199 2.48E-16 2.42E-16 2.26E-16 2.19E-16 5.18E-16 2.30E-16 2.19E-16 2.40E-16 3.13E-16
Tl-200 1.31E-15 1.25E-15 1.20E-15 1.22E-15 1.88E-15 1.21E-15 1.18E-15 1.25E-15 1.64E-15
Tl-201 8.80E-17 8.77E-17 8.01E-17 7.11E-17 2.85E-16 7.96E-17 7.68E-17 8.73E-17 1.15E-16
Tl-202 4.80E-16 4.64E-16 4.37E-16 4.32E-16 8.08E-16 4.52E-16 4.26E-16 4.59E-16 5.70E-16
Tl-204 1.55E-18 1.57E-18 1.30E-18 1.13E-18 4.96E-18 1.33E-18 1.26E-18 1.48E-18 9.54E-16
Tl-206 2.19E-18 2.21E-18 1.73E-18 1.62E-18 4.91E-18 1.84E-18 1.71E-18 1.99E-18 5.89E-15
Tl-207 4.04E-18 3.96E-18 3.44E-18 3.40E-18 6.99E-18 3.62E-18 3.40E-18 3.76E-18 5.21E-15
Tl-208 3.09E-15 2.94E-15 2.88E-15 2.96E-15 3.90E-15 2.75E-15 2.90E-15 2.98E-15 9.77E-15
Tl-209 1.97E-15 1.88E-15 1.83E-15 1.87E-15 2.69E-15 1.78E-15 1.82E-15 1.90E-15 9.87E-15
Lead
Pb-195m 1.63E-15 1.56E-15 1.49E-15 1.50E-15 2.40E-15 1.53E-15 1.45E-15 1.55E-15 3.11E-15
Pb-198 4.41E-16 4.29E-16 4.02E-16 3.96E-16 8.24E-16 4.11E-16 3.91E-16 4.25E-16 5.67E-16
Pb-199 1.45E-15 1.39E-15 1.34E-15 1.36E-15 2.06E-15 1.33E-15 1.32E-15 1.39E-15 1.79E-15
Pb-200 2.03E-16 1.99E-16 1.85E-16 1.75E-16 5.11E-16 1.86E-16 1.78E-16 1.98E-16 2.65E-16
Pb-201 7.65E-16 7.38E-16 6.99E-16 7.02E-16 1.21E-15 7.16E-16 6.84E-16 7.33E-16 9.73E-16
Pb-202m 2.08E-15 1.99E-15 1.90E-15 1.94E-15 2.81E-15 1.97E-15 1.88E-15 1.99E-15 2.49E-15
Pb-202 1.87E-19 4.14E-19 8.68E-22 1.65E-20 9.92E-20 2.74E-20 6.49E-20 1.34E-19 1.14E-17
Pb-203 3.12E-16 3.05E-16 2.84E-16 2.77E-16 6.25E-16 2.87E-16 2.75E-16 3.01E-16 3.78E-16
Pb-205 2.12E-19 4.59E-19 1.03E-21 1.88E-20 1.13E-19 3.06E-20 7.15E-20 1.50E-19 1.22E-17
Pb-209 3.50E-19 3.67E-19 2.34E-19 2.07E-19 8.69E-19 2.64E-19 2.37E-19 3.01E-19 2.94E-16
Pb-210 3.02E-18 3.59E-18 1.64E-18 1.27E-18 8.31E-18 1.87E-18 1.76E-18 2.48E-18 1.98E-17
Pb-211 5.33E-17 5.12E-17 4.84E-17 4.91E-17 7.54E-17 5.03E-17 4.76E-17 5.08E-17 4.64E-15
Pb-212 1.47E-16 1.44E-16 1.34E-16 1.32E-16 3.01E-16 1.35E-16 1.31E-16 1.43E-16 1.88E-16
Pb-214 2.54E-16 2.47E-16 2.32E-16 2.31E-16 4.24E-16 2.37E-16 2.25E-16 2.44E-16 9.10E-16
Bismuth
Bi-200 2.43E-15 2.33E-15 2.22E-15 2.25E-15 3.50E-15 2.29E-15 2.18E-15 2.32E-15 4.15E-15
Bi-201 1.35E-15 1.29E-15 1.23E-15 1.25E-15 1.93E-15 1.27E-15 1.22E-15 1.29E-15 4.69E-15
Bi-202 2.73E-15 2.61E-15 2.50E-15 2.54E-15 3.78E-15 2.56E-15 2.47E-15 2.61E-15 3.75E-15
Bi-203 2.31E-15 2.21E-15 2.14E-15 2.19E-15 3.10E-15 2.11E-15 2.13E-15 2.23E-15 3.32E-15
Bi-205 1.64E-15 1.57E-15 1.52E-15 1.55E-15 2.21E-15 1.49E-15 1.51E-15 1.58E-15 2.03E-15
Bi-206 3.28E-15 3.14E-15 3.01E-15 3.07E-15 4.50E-15 3.06E-15 2.98E-15 3.14E-15 4.25E-15
Bi-207 1.55E-15 1.48E-15 1.42E-15 1.44E-15 2.15E-15 1.45E-15 1.40E-15 1.48E-15 3.18E-15
Bi-210m 2.61E-16 2.53E-16 2.38E-16 2.38E-16 4.36E-16 2.42E-16 2.31E-16 2.50E-16 3.13E-16
Bi-210 1.17E-18 1.20E-18 8.80E-19 8.11E-19 2.74E-18 9.54E-19 8.76E-19 1.05E-18 3.42E-15
Bi-211 4.79E-17 4.64E-17 4.37E-17 4.37E-17 7.64E-17 4.49E-17 4.25E-17 4.58E-17 5.55E-17
Bi-212 1.87E-16 1.79E-16 1.71E-16 1.75E-16 2.46E-16 1.74E-16 1.70E-16 1.79E-16 5.35E-15
Bi-213 1.39E-16 1.34E-16 1.26E-16 1.27E-16 2.06E-16 1.31E-16 1.24E-16 1.32E-16 4.23E-15
Bi-214 1.46E-15 1.40E-15 1.36E-15 1.39E-15 1.88E-15 1.33E-15 1.35E-15 1.41E-15 8.48E-15
Polonium
Po-203 1.63E-15 1.56E-15 1.50E-15 1.53E-15 2.27E-15 1.51E-15 1.48E-15 1.56E-15 2.95E-15
Po-205 1.57E-15 1.50E-15 1.44E-15 1.47E-15 2.19E-15 1.46E-15 1.43E-15 1.51E-15 2.20E-15
Po-207 1.33E-15 1.28E-15 1.22E-15 1.25E-15 1.88E-15 1.25E-15 1.21E-15 1.28E-15 1.89E-15
Po-210 8.69E-21 8.30E-21 7.94E-21 8.12E-21 1.14E-20 8.26E-21 7.86E-21 8.29E-21 1.11E-20
Po-211 7.98E-18 7.63E-18 7.29E-18 7.44E-18 1.06E-17 7.57E-18 7.19E-18 7.61E-18 1.12E-17
Po-212 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Po-213 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Po-214 8.52E-20 8.13E-20 7.78E-20 7.96E-20 1.12E-19 8.10E-20 7.70E-20 8.13E-20 1.09E-19
Po-215 1.83E-19 1.76E-19 1.67E-19 1.68E-19 2.65E-19 1.74E-19 1.63E-19 1.74E-19 2.15E-19
Po-216 1.73E-20 1.65E-20 1.58E-20 1.62E-20 2.27E-20 1.64E-20 1.56E-20 1.65E-20 2.20E-20
Po-218 9.31E-21 8.88E-21 8.50E-21 8.70E-21 1.22E-20 8.83E-21 8.43E-21 8.88E-21 1.17E-20
-------
107
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Astatine
At-207 1.31E-15 1.26E-15 1.21E-15 1.23E-15 1.86E-15 1.22E-15 1.19E-15 1.26E-15 1.70E-15
At-211 3.65E-17 3.64E-17 3.32E-17 2.97E-17 1.18E-16 3.32E-17 3.19E-17 3.62E-17 5.47E-17
At-215 2.00E-19 1.93E-19 1.82E-19 1.83E-19 2.95E-19 1.89E-19 1.78E-19 1.91E-19 2.30E-19
At-216 1.41E-18 1.40E-18 1.30E-18 1.16E-18 4.59E-18 1.29E-18 1.24E-18 1.41E-18 1.96E-18
At-217 3.17E-19 3.05E-19 2.89E-19 2.91E-19 4.70E-19 3.00E-19 2.82E-19 3.03E-19 4.11E-19
At-218 4.74E-18 5.34E-18 3.17E-18 2.49E-18 1.49E-17 3.36E-18 3.21E-18 4.18E-18 2.32E-17
Radon
Rn-218 7.84E-19 7.50E-19 7.14E-19 7.24E-19 1.06E-18 7.47E-19 7.00E-19 7.45E-19 1.05E-18
Rn-219 5.74E-17 5.56E-17 5.23E-17 5.25E-17 9.18E-17 5.37E-17 5.09E-17 5.49E-17 6.64E-17
Rn-220 4.00E-19 3.84E-19 3.65E-19 3.69E-19 5.51E-19 3.81E-19 3.57E-19 3.81E-19 5.21E-19
Rn-222 4.15E-19 3.98E-19 3.78E-19 3.81E-19 5.79E-19 3.95E-19 3.70E-19 3.95E-19 5.20E-19
Francium
Fr-219 3.59E-18 3.47E-18 3.27E-18 3.28E-18 5.57E-18 3.38E-18 3.19E-18 3.43E-18 4.34E-18
Fr-220 1.10E-17 1.10E-17 9.55E-18 9.24E-18 2.52E-17 9.67E-18 9.35E-18 1.05E-17 2.11E-17
Fr-221 3.08E-17 3.02E-17 2.81E-17 2.79E-17 5.86E-17 2.82E-17 2.74E-17 2.98E-17 3.67E-17
Fr-222 3.68E-18 3.68E-18 2.98E-18 2.83E-18 7.79E-18 3.16E-18 2.93E-18 3.38E-18 8.43E-15
Fr-223 6.03E-17 6.08E-17 5.00E-17 4.50E-17 1.58E-16 5.16E-17 4.86E-17 5.65E-17 2.72E-15
Radium
Ra-222 9.42E-18 9.13E-18 8.58E-18 8.61E-18 1.48E-17 8.79E-18 8.35E-18 9.00E-18 1.08E-17
Ra-223 1.32E-16 1.29E-16 1.20E-16 1.16E-16 2.90E-16 1.22E-16 1.16E-16 1.28E-16 1.67E-16
Ra-224 9.94E-18 9.70E-18 9.07E-18 9.05E-18 1.76E-17 9.13E-18 8.84E-18 9.57E-18 1.16E-17
Ra-225 1.63E-17 1.74E-17 9.40E-18 6.74E-18 4.72E-17 1.15E-17 9.63E-18 1.33E-17 3.25E-17
Ra-226 6.64E-18 6.52E-18 6.06E-18 5.95E-18 1.36E-17 6.06E-18 5.90E-18 6.44E-18 8.12E-18
Ra-227 1.71E-16 1.68E-16 1.46E-16 1.46E-16 2.73E-16 1.53E-16 1.44E-16 1.59E-16 3.34E-15
Ra-228 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Actinium
Ac-223 5.07E-18 5.32E-18 4.07E-18 4.03E-18 9.30E-18 4.22E-18 4.07E-18 4.66E-18 1.62E-17
Ac-224 1.94E-16 1.91E-16 1.76E-16 1.69E-16 4.51E-16 1.77E-16 1.70E-16 1.89E-16 2.54E-16
Ac-225 1.66E-17 1.67E-17 1.42E-17 1.36E-17 4.08E-17 1.45E-17 1.39E-17 1.58E-17 3.08E-17
Ac-226 1.29E-16 1.27E-16 1.16E-16 1.15E-16 2.56E-16 1.17E-16 1.13E-16 1.24E-16 1.84E-15
Ac-227 1.89E-19 2.12E-19 1.14E-19 1.13E-19 3.71E-19 1.25E-19 1.21E-19 1.57E-19 7.43E-19
Ac-228 9.71E-16 9.30E-16 8.88E-16 9.08E-16 1.30E-15 9.03E-16 8.80E-16 9.28E-16 4.75E-15
Thorium
Th-226 8.18E-18 8.22E-18 6.98E-18 6.76E-18 1.86E-17 7.13E-18 6.85E-18 7.75E-18 1.46E-17
Th-227 1.09E-16 1.08E-16 9.60E-17 9.46E-17 2.03E-16 9.78E-17 9.38E-17 1.04E-16 1.56E-16
Th-228 2.71E-18 2.99E-18 1.81E-18 1.77E-18 5.67E-18 1.92E-18 1.87E-18 2.35E-18 9.74E-18
Th-229 8.95E-17 9.03E-17 7.64E-17 7.18E-17 2.34E-16 7.79E-17 7.45E-17 8.54E-17 1.57E-16
Th-230 1.05E-18 1.33E-18 3.52E-19 3.74E-19 1.65E-18 4.46E-19 4.59E-19 7.50E-19 7.17E-18
Th-231 2.42E-17 2.75E-17 1.12E-17 1.08E-17 4.78E-17 1.41E-17 1.28E-17 1.85E-17 8.58E-17
Th-232 8.47E-19 1.12E-18 1.74E-19 2.09E-19 1.06E-18 2.68E-19 2.86E-19 5.51E-19 6.86E-18
Th-234 8.90E-18 9.15E-18 7.11E-18 6.40E-18 2.63E-17 7.34E-18 6.97E-18 8.32E-18 1.72E-17
Protactinium
Pa-227 2.08E-17 2.11E-17 1.76E-17 1.60E-17 6.14E-17 1.79E-17 1.71E-17 1.99E-17 3.69E-17
Pa-228 1.14E-15 1.09E-15 1.03E-15 1.05E-15 1.64E-15 1.05E-15 1.02E-15 1.09E-15 1.55E-15
Pa-230 6.56E-16 6.30E-16 5.95E-16 6.04E-16 9.60E-16 6.15E-16 5.88E-16 6.26E-16 8.54E-16
Pa-231 4.65E-17 4.83E-17 3.41E-17 3.44E-17 7.16E-17 3.69E-17 3.47E-17 4.07E-17 1.07E-16
Pa-232 9.51E-16 9.11E-16 8.64E-16 8.83E-16 1.28E-15 8.94E-16 8.56E-16 9.06E-16 1.26E-15
Pa-233 2.05E-16 2.01E-16 1.83E-16 1.82E-16 3.66E-16 1.88E-16 1.78E-16 1.95E-16 2.70E-16
Pa-234m 1.61E-17 1.56E-17 1.43E-17 1.44E-17 2.52E-17 1.47E-17 1.41E-17 1.53E-17 9.39E-15
Pa-234 1.93E-15 1.85E-15 1.76E-15 1.79E-15 2.68E-15 1.80E-15 1.74E-15 1.84E-15 3.89E-15
Uranium
U-230 2.42E-18 2.87E-18 1.03E-18 1.08E-18 3.83E-18 1.24E-18 1.21E-18 1.80E-18 1.17E-17
U-231 7.76E-17 8.02E-17 5.91E-17 5.55E-17 1.99E-16 6.27E-17 5.89E-17 7.07E-17 1.60E-16
U-232 1.62E-18 2.09E-18 2.71E-19 3.61E-19 1.78E-18 4.89E-19 4.93E-19 1.01E-18 1.10E-17
U-233 1.04E-18 1.28E-18 3.20E-19 3.61E-19 1.33E-18 4.42E-19 4.30E-19 7.16E-19 5.94E-18
U-234 1.25E-18 1.64E-18 1.40E-19 2.21E-19 1.22E-18 3.21E-19 3.28E-19 7.48E-19 9.09E-18
U-235 1.53E-16 1.51E-16 1.38E-16 1.36E-16 3.14E-16 1.39E-16 1.35E-16 1.48E-16 1.94E-16
U-236 1.12E-18 1.49E-18 8.56E-20 1.67E-19 9.84E-19 2.54E-19 2.64E-19 6.50E-19 8.45E-18
U-237 1.41E-16 1.41E-16 1.20E-16 1.13E-16 3.45E-16 1.23E-16 1.17E-16 1.33E-16 2.07E-16
U-238 9.65E-19 1.29E-18 5.59E-20 1.28E-19 8.09E-19 2.04E-19 2.14E-19 5.51E-19 7.42E-18
U-239 5.32E-17 5.32E-17 4.63E-17 4.17E-17 1.57E-16 4.70E-17 4.49E-17 5.15E-17 3.64E-15
U-240 7.02E-18 8.73E-18 9.78E-19 1.26E-18 8.22E-18 2.21E-18 1.94E-18 4.23E-18 3.74E-17
-------
108
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Neptunium
Np-232 1.22E-15 1.17E-15 1.10E-15 1.12E-15 1.77E-15 1.14E-15 1.09E-15 1.16E-15 1.67E-15
Np-233 8.71E-17 8.63E-17 7.61E-17 7.18E-17 2.30E-16 7.80E-17 7.40E-17 8.39E-17 1.30E-16
Np-234 1.39E-15 1.33E-15 1.28E-15 1.32E-15 1.84E-15 1.25E-15 1.28E-15 1.33E-15 2.03E-15
Np-235 5.92E-18 7.44E-18 9.59E-19 1.31E-18 6.45E-18 1.89E-18 1.77E-18 3.65E-18 3.45E-17
Np-23631 1.30E-16 1.32E-16 1.05E-16 l.OOE-16 3.11E-16 1.09E-16 1.03E-16 1.20E-16 2.38E-16
Np-236b2 4.90E-17 4.86E-17 4.22E-17 4.01E-17 1.22E-16 4.35E-17 4.12E-17 4.67E-17 1.12E-16
Np-237 3.38E-17 3.61E-17 2.18E-17 2.02E-17 7.96E-17 2.45E-17 2.25E-17 2.87E-17 8.36E-17
Np-238 5.55E-16 5.31E-16 5.04E-16 5.19E-16 7.15E-16 5.18E-16 5.03E-16 5.29E-16 2.47E-15
Np-239 1.71E-16 1.69E-16 1.50E-16 1.46E-16 3.65E-16 1.53E-16 1.46E-16 1.63E-16 2.63E-16
Np-240m 3.46E-16 3.34E-16 3.10E-16 3.16E-16 4.66E-16 3.21E-16 3.06E-16 3.27E-16 7.44E-15
Np-240 1.33E-15 1.28E-15 1.20E-15 1.22E-15 1.87E-15 1.25E-15 1.19E-15 1.27E-15 3.12E-15
Plutonium
Pu-234 6.54E-17 6.53E-17 5.60E-17 5.27E-17 1.76E-16 5.77E-17 5.47E-17 6.26E-17 1.01E-16
Pu-235 9.11E-17 9.09E-17 7.72E-17 7.32E-17 2.32E-16 7.98E-17 7.56E-17 8.65E-17 1.44E-16
Pu-236 1.73E-18 2.23E-18 1.09E-19 2.38E-19 1.47E-18 4.09E-19 3.85E-19 9.81E-19 1.10E-17
Pu-237 4.99E-17 5.07E-17 4.01E-17 3.77E-17 1.31E-16 4.19E-17 3.96E-17 4.65E-17 9.06E-17
Pu-238 1.49E-18 1.93E-18 7.87E-20 1.94E-19 1.22E-18 3.40E-19 3.20E-19 8.38E-19 9.64E-18
Pu-239 6.14E-19 7.77E-19 7.87E-20 1.20E-19 5.81E-19 1.78E-19 1.68E-19 3.67E-19 3.67E-18
Pu-240 1.43E-18 1.85E-18 7.81E-20 1.87E-19 1.18E-18 3.28E-19 3.08E-19 8.03E-19 9.18E-18
Pu-241 2.31E-21 2.51E-21 1.42E-21 1.39E-21 4.81E-21 1.57E-21 1.49E-21 1.93E-21 7.06E-21
Pu-242 1.18E-18 1.53E-18 6.60E-20 1.57E-19 9.84E-19 2.73E-19 2.57E-19 6.67E-19 7.61E-18
Pu-243 2.53E-17 2.55E-17 2.13E-17 1.95E-17 7.24E-17 2.19E-17 2.07E-17 2.41E-17 1.18E-16
Pu-244 9.98E-19 1.30E-18 4.65E-20 1.25E-19 8.05E-19 2.23E-19 2.10E-19 5.58E-19 6.49E-18
Pu-245 4.25E-16 4.10E-16 3.84E-16 3.88E-16 6.31E-16 3.97E-16 3.77E-16 4.04E-16 2.03E-15
Pu-246 1.41E-16 1.40E-16 1.20E-16 1.15E-16 3.17E-16 1.24E-16 1.17E-16 1.33E-16 1.94E-16
Americium
Am-237 3.72E-16 3.63E-16 3.31E-16 3.29E-16 6.73E-16 3.41E-16 3.24E-16 3.54E-16 4.94E-16
Am-238 8.90E-16 8.54E-16 8.09E-16 8.24E-16 1.27E-15 8.27E-16 8.02E-16 8.50E-16 1.31E-15
Am-239 2.34E-16 2.32E-16 2.02E-16 1.95E-16 5.29E-16 2.07E-16 1.97E-16 2.22E-16 3.39E-16
Am-240 1.03E-15 9.89E-16 9.35E-16 9.56E-16 1.42E-15 9.64E-16 9.30E-16 9.84E-16 1.39E-15
Am-241 3.25E-17 3.52E-17 2.01E-17 1.68E-17 9.30E-17 2.21E-17 2.06E-17 2.75E-17 8.32E-17
Am-242m 5.08E-18 6.21E-18 6.54E-19 9.41E-19 5.31E-18 1.64E-18 1.38E-18 3.02E-18 2.41E-17
Am-242 1.82E-17 1.91E-17 1.22E-17 1.18E-17 4.08E-17 1.35E-17 1.25E-17 1.57E-17 2.55E-16
Am-243 5.49E-17 5.54E-17 4.76E-17 4.13E-17 1.86E-16 4.78E-17 4.60E-17 5.35E-17 7.60E-17
Am-244m 3.48E-18 3.86E-18 1.58E-18 1.59E-18 5.72E-18 2.04E-18 1.82E-18 2.61E-18 5.34E-15
Am-244 8.24E-16 7.93E-16 7.35E-16 7.51E-16 1.12E-15 7.68E-16 7.29E-16 7.79E-16 1.57E-15
Am-245 3.27E-17 3.23E-17 2.84E-17 2.78E-17 6.81E-17 2.92E-17 2.78E-17 3.10E-17 1.25E-15
Am-246m 1.02E-15 9.76E-16 9.32E-16 9.57E-16 1.33E-15 9.53E-16 9.27E-16 9.75E-16 5.72E-15
Am-246 7.17E-16 6.94E-16 6.33E-16 6.42E-16 1.04E-15 6.61E-16 6.24E-16 6.74E-16 3.92E-15
Curium
Cm-238 7.44E-17 7.39E-17 6.36E-17 6.03E-17 1.94E-16 6.56E-17 6.21E-17 7.10E-17 1.10E-16
Cm-240 1.87E-18 2.36E-18 1.11E-19 2.46E-19 1.61E-18 4.79E-19 4.10E-19 1.05E-18 1.03E-17
Cm-241 5.13E-16 4.99E-16 4.54E-16 4.54E-16 8.37E-16 4.75E-16 4.45E-16 4.85E-16 7.52E-16
Cm-242 1.70E-18 2.14E-18 1.05E-19 2.28E-19 1.47E-18 4.38E-19 3.75E-19 9.56E-19 9.38E-18
Cm-243 1.32E-16 1.31E-16 1.14E-16 1.12E-16 2.73E-16 1.17E-16 1.12E-16 1.25E-16 1.90E-16
Cm-244 1.57E-18 1.98E-18 9.00E-20 2.04E-19 1.34E-18 3.98E-19 3.41E-19 8.78E-19 8.70E-18
Cm-245 9.21E-17 9.22E-17 7.73E-17 7.38E-17 2.29E-16 7.99E-17 7.58E-17 8.70E-17 1.46E-16
Cm-246 1.40E-18 1.77E-18 8.26E-20 1.84E-19 1.20E-18 3.58E-19 3.06E-19 7.85E-19 7.74E-18
Cm-247 3.26E-16 3.15E-16 2.96E-16 2.97E-16 4.86E-16 3.07E-16 2.89E-16 3.10E-16 3.79E-16
Cm-248 1.07E-18 1.35E-18 6.26E-20 1.40E-19 9.18E-19 2.73E-19 2.33E-19 6.00E-19 5.92E-18
Cm-249 2.04E-17 1.96E-17 1.84E-17 1.86E-17 2.93E-17 1.93E-17 1.81E-17 1.94E-17 1.47E-15
Cm-250 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Berkelium
Bk-245 2.31E-16 2.28E-16 2.01E-16 1.96E-16 5.10E-16 2.07E-16 1.97E-16 2.20E-16 3.14E-16
Bk-246 9.62E-16 9.23E-16 8.68E-16 8.85E-16 1.35E-15 9.00E-16 8.60E-16 9.15E-16 1.25E-15
Bk-247 1.04E-16 1.02E-16 9.33E-17 8.91E-17 2.52E-16 9.45E-17 9.03E-17 1.01E-16 1.29E-16
Bk-249 9.86E-21 1.14E-20 3.25E-21 2.81E-21 1.84E-20 5.09E-21 4.14E-21 6.85E-21 3.80E-20
Bk-250 8.91E-16 8.51E-16 8.13E-16 8.36E-16 1.15E-15 8.34E-16 8.10E-16 8.51E-16 2.40E-15
1 TK = 1.15E5 y
2 TK = 22.5 h
-------
109
Table III.3. Dose Coefficients for Exposure to Contaminated Ground Surface
Dose Coefficient hT (Sv per Bq s nr2)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Californium
Cf-244 2.00E-18 2.46E-18 1.55E-19 2.79E-19 1.87E-18 5.95E-19 4.66E-19 1.14E-18 9.25E-18
Cf-246 1.38E-18 1.69E-18 1.21E-19 2.05E-19 1.32E-18 4.20E-19 3.32E-19 7.88E-19 6.30E-18
Cf-248 1.36E-18 1.67E-18 1.06E-19 1.91E-19 1.28E-18 4.06E-19 3.18E-19 7.74E-19 6.29E-18
Cf-249 3.46E-16 3.35E-16 3.10E-16 3.12E-16 5.24E-16 3.22E-16 3.03E-16 3.28E-16 4.13E-16
Cf-250 1.30E-18 1.59E-18 1.01E-19 1.82E-19 1.22E-18 3.87E-19 3.03E-19 7.37E-19 5.99E-18
Cf-251 1.30E-16 1.30E-16 1.08E-16 1.06E-16 2.81E-16 1.12E-16 1.07E-16 1.22E-16 1.97E-16
Cf-252 1.26E-18 1.54E-18 1.12E-19 1.88E-19 1.21E-18 3.86E-19 3.05E-19 7.22E-19 5.75E-18
Cf-253 8.86E-20 9.99E-20 3.53E-20 3.16E-20 1.77E-19 4.93E-20 4.18E-20 6.45E-20 2.80E-19
Cf-254 4.23E-21 5.19E-21 3.29E-22 5.92E-22 3.96E-21 1.26E-21 9.87E-22 2.40E-21 1.95E-20
Einsteinium
Es-250 3.96E-16 3.82E-16 3.56E-16 3.61E-16 6.18E-16 3.66E-16 3.53E-16 3.78E-16 5.38E-16
Es-251 9.70E-17 9.68E-17 8.03E-17 7.72E-17 2.32E-16 8.38E-17 7.90E-17 9.09E-17 1.44E-16
Es-253 1.20E-18 1.38E-18 3.83E-19 4.24E-19 1.47E-18 5.89E-19 5.06E-19 8.18E-19 4.14E-18
Es-254m 4.86E-16 4.66E-16 4.37E-16 4.45E-16 6.53E-16 4.59E-16 4.31E-16 4.60E-16 1.77E-15
Es-254 1.99E-17 2.35E-17 4.37E-18 5.00E-18 2.54E-17 8.07E-18 6.78E-18 1.27E-17 7.85E-17
Fermium
Fm-252 1.31E-18 1.58E-18 1.28E-19 1.97E-19 1.34E-18 4.33E-19 3.27E-19 7.56E-19 5.32E-18
Fm-253 8.22E-17 8.18E-17 6.85E-17 6.62E-17 1.90E-16 7.14E-17 6.74E-17 7.70E-17 1.18E-16
Fm-254 1.42E-18 1.70E-18 1.61E-19 2.32E-19 1.50E-18 4.85E-19 3.70E-19 8.28E-19 5.66E-18
Fm-255 1.33E-17 1.61E-17 2.36E-18 2.93E-18 1.61E-17 4.71E-18 4.10E-18 8.22E-18 6.07E-17
Fm-257 1.10E-16 1.10E-16 9.06E-17 8.81E-17 2.45E-16 9.46E-17 8.94E-17 1.03E-16 1.65E-16
Mendelevium
Md-257 1.14E-16 1.13E-16 9.83E-17 9.63E-17 2.35E-16 1.03E-16 9.63E-17 1.08E-16 1.54E-16
Md-258 7.35E-18 8.63E-18 1.27E-18 1.50E-18 9.31E-18 2.91E-18 2.25E-18 4.51E-18 2.55E-17
-------
TABLE III.4
Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Explanation of Entries
For each radionuclide, values for the organ dose equivalent coefficients hT, and the effective
dose equivalent coefficient hE, based upon the weighting factors of Table II. 1, are given in
SI units. The coefficients are for soil at a density of 1.6 x 103 kg m"3.
hT: The tissue dose equivalent coefficient for organ or tissue T (Sv per Bq s m"3), i.e., the dose
equivalent per unit time-integrated exposure to a radionuclide.
hE: The effective dose equivalent coefficient (Sv per Bq s m"3), i.e., the effective dose equivalent
per unit time-integrated exposure to a radionuclide:
Note that skin is not included in the summation.
To convert to a source per unit mass basis (Sv per Bq s kg"1), multiply table entries by
1.6 x 103(kgm-3).
To convert to conventional units (mrem per \i.Ci y cm"3), multiply table entries by
1.168 x 1023.
To convert to conventional units for a source per unit mass basis (mrem per \iCi y g"1),
multiply table entries by 1.868 x 1023.
Radionuclide dose coefficients for soil contaminated to a finite depth cannot be scaled
to account for a different soil density.
Ill
-------
112
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose
Nuclide Gonad Breast Lung
Hydrogen
H-3 0.0 0.0 0.0
Beryllium
Be-7 3.21E-19 3.29E-19 3.07E-19
Be-10 2.07E-21 2.21E-21 1.71E-21
Carbon
C-ll 6.62E-18 6.79E-18 6.35E-18
C-14 5.31E-23 6.02E-23 3.02E-23
Nitrogen
N-13 6.63E-18 6.79E-18 6.35E-18
Oxygen
0-15 6.64E-18 6.81E-18 6.37E-18
Fluorine
F-18 6.63E-18 6.80E-18 6.36E-18
Neon
Ne-19 6.66E-18 6.83E-18 6.39E-18
Sodium
Na-22 1.38E-17 1.41E-17 1.34E-17
Na-24 2.42E-17 2.42E-17 2.34E-17
Magnesium
Mg-28 8.40E-18 8.63E-18 8.17E-18
Aluminum
Al-26 1.65E-17 1.67E-17 1.59E-17
Al-28 1.07E-17 1.08E-17 1.04E-17
Silicon
Si-31 1.79E-20 1.87E-20 1.65E-20
Si-32 1.15E-22 1.28E-22 7.46E-23
Phosphorus
P-30 6.70E-18 6.87E-18 6.42E-18
P-32 1.70E-20 1.78E-20 1.53E-20
P-33 1.75E-22 1.93E-22 1.19E-22
Sulphur
S-35 5.65E-23 6.39E-23 3.31E-23
Chlorine
Cl-36 3.70E-21 3.90E-21 3.24E-21
Cl-38 8.95E-18 8.98E-18 8.68E-18
Cl-39 8.83E-18 9.03E-18 8.62E-18
Argon
Ar-37 0.0 0.0 0.0
Ar-39 1.69E-21 1.80E-21 1.39E-21
Ar-41 7.85E-18 8.04E-18 7.69E-18
Potassium
K-38 1.94E-17 1.96E-17 1.87E-17
K-40 9.60E-19 9.77E-19 9.36E-19
K-42 1.75E-18 1.78E-18 1.70E-18
K-43 6.26E-18 6.44E-18 6.02E-18
K-44 1.35E-17 1.36E-17 1.32E-17
K-45 1.12E-17 1.13E-17 1.09E-17
Calcium
Ca-41 0.0 0.0 0.0
Ca-45 1.82E-22 2.01E-22 1.26E-22
Ca-47 6.52E-18 6.68E-18 6.38E-18
Ca-49 1.79E-17 1.76E-17 1.73E-17
Scandium
Sc-43 7.12E-18 7.31E-18 6.82E-18
Sc-44m 1.79E-18 1.86E-18 1.72E-18
Sc-44 1.35E-17 1.38E-17 1.31E-17
Sc-46 1.25E-17 1.29E-17 1.22E-17
Sc-47 6.83E-19 7.09E-19 6.48E-19
Sc-48 2.06E-17 2.12E-17 2.02E-17
Sc-49 2.99E-20 3.10E-20 2.76E-20
Coefficient
R
0
3
1
6
2
6
6
6
6
1
2
8
1
1
1
6
6
1
9
2
2
8
8
0
1
7
1
9
1
5
1
1
0
1
6
1
6
1
1
1
6
2
2
Marrow
.0
. 04E
.51E
.28E
.38E
.29E
.30E
.30E
.32E
.34E
.39E
.22E
.60E
.06E
.58E
.OOE
.36E
.43E
.73E
.61E
.99E
. 84E
.69E
.0
.22E
.77E
.89E
.48E
. 72E
.97E
.34E
.IDE
.0
.03E
.44E
.77E
. 74E
.70E
.31E
.23E
.21E
. 04E
. 64E
-19
-21
-18
-23
-18
-18
-18
-18
-17
-17
-18
-17
-17
-20
-23
-18
-20
-23
-23
-21
-18
-18
-21
-18
-17
-19
-18
-18
-17
-17
-22
-18
-17
-18
-18
-17
-17
-19
-17
-20
hT
(Sv
BSurface
0
4
5
9
1
9
9
9
9
1
3
1
2
1
3
3
9
3
4
1
8
1
1
0
4
1
2
1
2
9
1
1
0
5
8
2
1
2
1
1
1
2
5
.0
.67E
.51E
.49E
.36E
.51E
.53E
.51E
.57E
.86E
.DIE
. 12E
.16E
.35E
.53E
.13E
. 64E
. 72E
.83E
.47E
.43E
. 12E
.17E
.0
.50E
.DIE
. 54E
.23E
.26E
. 12E
. 72E
.49E
.0
.05E
.47E
.19E
. 04E
.99E
. 84E
.65E
. 52E
.71E
.79E
-19
-21
-18
-22
-18
-18
-18
-18
-17
-17
-17
-17
-17
-20
-22
-18
-20
-22
-22
-21
-17
-17
-21
-17
-17
-18
-18
-18
-17
-17
-22
-18
-17
-17
-18
-17
-17
-18
-17
-20
per Bq s
Thyroid
0
3
1
6
3
6
6
6
6
1
2
8
1
1
1
7
6
1
1
3
3
8
8
0
1
7
1
9
1
6
1
1
0
1
6
1
7
1
1
1
6
2
2
.0
.17E
.70E
.56E
.35E
.56E
.58E
.57E
.60E
.37E
.32E
.34E
.59E
.03E
.65E
.93E
.63E
. 52E
.25E
.63E
.25E
.56E
.69E
.0
.38E
. 82E
.87E
.41E
.70E
.19E
.32E
.08E
.0
.31E
.50E
.70E
.DIE
.71E
.35E
.26E
.23E
.08E
.75E
-19
-21
-18
-23
-18
-18
-18
-18
-17
-17
-18
-17
-17
-20
-23
-18
-20
-22
-23
-21
-18
-18
-21
-18
-17
-19
-18
-18
-17
-17
-22
-18
-17
-18
-18
-17
-17
-19
-17
-20
nr
J)
Remainder
0
2
1
6
3
6
6
6
6
1
2
7
1
1
1
7
6
1
1
3
3
8
8
0
1
7
1
9
1
5
1
1
0
1
6
1
6
1
1
1
6
1
2
.0
.96E
. 62E
.HE
.03E
. 12E
.13E
. 12E
.15E
.29E
.27E
.88E
. 54E
.DIE
.57E
.28E
.18E
.45E
.16E
.29E
.08E
.43E
.32E
.0
.32E
.43E
.81E
.06E
.65E
.79E
.27E
.06E
.0
.21E
.17E
.68E
.56E
. 64E
.26E
.18E
.13E
.95E
.63E
-19
-21
-18
-23
-18
-18
-18
-18
-17
-17
-18
-17
-17
-20
-23
-18
-20
-22
-23
-21
-18
-18
-21
-18
-17
-19
-18
-18
-17
-17
-22
-18
-17
-18
-18
-17
-17
-19
-17
-20
Effective
0
3
1
6
4
6
6
6
6
1
2
8
1
1
1
9
6
1
1
4
3
8
8
0
1
7
1
9
1
6
1
1
0
1
6
1
6
1
1
1
6
2
2
.0
.15E
. 94E
.50E
.30E
.51E
. 52E
. 52E
. 54E
.36E
.38E
.31E
. 62E
.06E
. 74E
.78E
.58E
. 64E
.51E
. 62E
.53E
.81E
.75E
.0
.57E
.79E
.91E
.50E
.73E
.16E
.33E
.HE
.0
.59E
.47E
.75E
.99E
.77E
.33E
.24E
.77E
.05E
.90E
-19
-21
-18
-23
-18
-18
-18
-18
-17
-17
-18
-17
-17
-20
-23
-18
-20
-22
-23
-21
-18
-18
-21
-18
-17
-19
-18
-18
-17
-17
-22
-18
-17
-18
-18
-17
-17
-19
-17
-20
0
3
2
8
8
9
1
7
1
1
2
9
2
2
3
1
2
5
2
9
1
3
1
0
2
1
3
4
2
7
3
2
0
2
8
2
8
2
1
1
7
2
7
Skin
.0
.61E-19
.73E-20
.23E-18
.85E-23
.37E-18
.31E-17
.51E-18
.73E-17
.54E-17
.91E-17
.46E-18
.02E-17
.72E-17
.56E-18
.74E-22
.68E-17
.15E-18
.53E-22
.25E-23
.70E-19
.15E-17
.74E-17
.0
.06E-20
.06E-17
.60E-17
.06E-18
.15E-17
.52E-18
.51E-17
.28E-17
.0
.63E-22
.69E-18
.74E-17
.70E-18
.02E-18
.88E-17
.41E-17
.66E-19
.34E-17
.43E-18
-------
113
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose Coefficient hT (Sv per
itr3)
Nuclide
Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Titanium
Ti-44 7
Ti-45 5
Vanadium
V-47
V-48
V-49
Chromium
Cr-48
Cr-49
Cr-51
Manganese
54E-19 7.92E-19 6.93E-19 5.80E-19 2.59E-18 6.66E-19 6.43E-19 7.51E-19 8.36E-19
65E-18 5.79E-18 5.42E-18 5.36E-18 8.10E-18 5.60E-18 5.22E-18 5.55E-18 7.38E-18
47E-18 6.64E-18 6.21E-18 6.15E-18 9.29E-18 6.41E-18 5.98E-18 6.36E-18 1.43E-17
81E-17 1.86E-17 1.77E-17 1.77E-17 2.40E-17 1.81E-17 1.70E-17 1.79E-17 2.04E-17
0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
78E-18 2.87E-18 2.64E-18 2.56E-18 5.32E-18 2.61E-18 2.52E-18 2.74E-18 3.10E-18
81E-18 6.98E-18 6.51E-18 6.40E-18 1.06E-17 6.68E-18 6.25E-18 6.69E-18 1.13E-17
04E-19 2.11E-19 1.94E-19 1.92E-19 3.33E-19 1.95E-19 1.87E-19 2.01E-19 2.30E-19
6.66E-18 6.23E-18 6.17E-18 9.34E-18 6.44E-18 6.00E-18 6.39E-18 1.68E-17
1.54E-17 1.46E-17 1.47E-17 2.03E-17 1.49E-17 1.41E-17 1.49E-17 3.03E-17
2.20E-17 2.09E-17 2.11E-17 2.84E-17 2.15E-17 2.02E-17 2.13E-17 2.41E-17
0.0 0.0 0.0 0.0 0.0 0.0 0.0
5.42E-18 5.13E-18 5.13E-18 7.07E-18 5.34E-18 4.94E-18 5.21E-18 5.95E-18
1.06E-17 1.01E-17 1.02E-17 1.35E-17 1.02E-17 9.76E-18 1.02E-17 2.02E-17
4.91E-18 4.56E-18 4.49E-18 7.61E-18 4.64E-18 4.38E-18 4.70E-18 5.55E-18
0.0 0.0 0.0 0.0 0.0 0.0 0.0
7.51E-18 7.16E-18 7.22E-18 9.54E-18 7.33E-18 6.91E-18 7.26E-18 8.22E-18
5.39E-23 2.57E-23 2.01E-23 1.18E-22 2.89E-23 2.60E-23 3.76E-23 8.12E-23
Mn-51
Mn-52m
Mn-52
Mn-53
Mn-54
Mn-56
Iron
Fe-52
Fe-55
Fe-59
Fe-60
Cobalt
Co-55
Co-56
Co-57
Co-58m
Co-58
Co-60m
Co-60
Co-61
Co-62m
Nickel
Ni-56
Ni-57
Ni-59
Ni-63
Ni-65
Ni-66
Copper
Cu-60
Cu-61
Cu-62
Cu-64
Cu-66
Cu-67
Zinc
Zn-62
Zn-63
Zn-65
Zn-69m
Zn-69
Zn-71m
Zn-72
Gallium
Ga-65
Ga-66
Ga-67
Ga-68
Ga-70
Ga-72
Ga-73
6
1
2
0
5
1
4
0
7
4
1
2
7
2
6
2
1
5
1
1
1
0
0
3
1
2
5
6
1
5
7
2
7
3
2
3
9
9
7
1
9
6
6
1
2
.50E
.51E
.15E
.0
.24E
. 04E
.77E
.0
.30E
. 72E
.26E
.17E
.47E
.20E
.16E
.73E
.53E
.28E
.65E
.08E
.18E
.0
.0
.37E
.33E
.39E
.34E
.58E
.23E
.65E
.20E
.79E
.13E
.58E
.71E
. 84E
.99E
.18E
.57E
.48E
.65E
.17E
.18E
.65E
.OOE
-18
-17
-17
-18
-17
-18
-18
-23
-17
-17
-19
-23
-18
-20
-17
-19
-17
-17
-17
-18
-22
-17
-18
-18
-18
-19
-19
-18
-18
-18
-18
-21
-18
-19
-18
-17
-19
-18
-20
-17
-18
6
1
2
0
5
1
4
0
7
5
1
2
7
2
6
2
1
5
1
1
1
0
0
3
1
2
5
6
1
5
7
2
7
3
2
4
1
9
7
1
9
6
6
1
2
.66E
. 54E
.20E
.0
.42E
.06E
.91E
.0
.51E
.39E
.29E
.20E
.65E
.63E
.36E
. 82E
.57E
.55E
.68E
. 12E
.20E
.0
.0
.44E
.47E
.43E
.48E
.75E
.26E
. 84E
.49E
.87E
.31E
.69E
.78E
.07E
.03E
.49E
.76E
.49E
.99E
.33E
.41E
.67E
.07E
•17 1.22E
•17 2.HE
•19 7.03E
•23 4.05E
•18 6.OOE
•20 2.59E
•17 1.50E
•19 4.93E
•17 1.61E
17 1.22E-
17 2.13E-
19 6.57E-
24 4.16E-
18 5.99E-
20 2.49E-
17 1.52E-
19 4.40E-
17 1.63E-
17 1.73E-
17 2.80E-
19 1.92E-
24 2.81E-
18 8.40E-
20 4.99E-
17 1.98E-
19 1.42E-
17 2.12E-
17 1.26E
17 2.14E
18 6.74E
23 7.86E
18 6.24E
20 2.61E
17 1.53E
18 4.91E
17 1.64E
17 1.18E-
17 2.04E-
19 6.60E-
24 6.38E-
18 5.77E-
20 2.48E-
17 1.45E-
19 4.62E-
17 1.56E-
1.
17
17 2
19 7
24 1
18 6
20 2
17 1
19 5
17
1.
25E
14E
41E
34E
IDE
69E
52E
23E
63E
17 1.64E-17
17 2.47E-17
19 8.16E-19
23 4.45E-23
18 6.97E-18
20 3.98E-20
17 1.72E-17
19 2.40E-18
17 3.03E-17
1.12E-17 1.05E-17 1.05E-17 1.58E-17 1.08E-17 1.01E-17 1.07E-17 1.22E-17
1.20E-17 1.15E-17 1.16E-17 1.56E-17 1.16E-17 1.11E-17 1.17E-17 1.33E-17
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
3.44E-18 3.29E-18 3.33E-18 4.37E-18 3.33E-18 3.18E-18 3.34E-18 8.96E-18
1.47E-22 8.85E-23 7.17E-23 3.65E-22 9.33E-23 8.61E-23 1.14E-22 1.97E-22
2.43E-17 2.32E-17 2.34E-17 3.15E-17 2.35E-17 2.24E-17 2.36E-17 3.59E-17
5.48E-18 5.13E-18 5.08E-18 7.69E-18 5.29E-18 4.94E-18 5.25E-18 7.22E-18
6.75E-18 6.31E-18 6.25E-18 9.46E-18 6.52E-18 6.08E-18 6.47E-18 2.38E-17
1.26E-18 1.18E-18 1.17E-18 1.75E-18 1.21E-18 1.13E-18 1.21E-18 1.40E-18
5.84E-19 5.52E-19 5.53E-19 7.74E-19 5.70E-19 5.32E-19 5.61E-19 1.28E-17
7.49E-19 6.82E-19 6.52E-19 1.60E-18 6.59E-19 6.46E-19 7.14E-19 8.07E-19
2.87E-18 2.67E-18 2.64E-18 4.07E-18 2.76E-18 2.57E-18 2.74E-18 3.16E-18
7.31E-18 6.85E-18 6.79E-18 1.01E-17 7.07E-18 6.59E-18 7.01E-18 1.76E-17
3.69E-18 3.52E-18 3.54E-18 4.71E-18 3.62E-18 3.40E-18 3.57E-18 4.04E-18
2.78E-18 2.59E-18 2.56E-18 4.03E-18 2.66E-18 2.49E-18 2.66E-18 3.05E-18
4.07E-21 3.30E-21 2.99E-21 9.59E-21 3.28E-21 3.13E-21 3.65E-21 4.84E-19
1.03E-17 9.61E-18 9.54E-18 1.44E-17 9.90E-18 9.25E-18 9.84E-18 1.44E-17
9.49E-19 8.67E-19 8.23E-19 2.16E-18 8.33E-19 8.18E-19 9.10E-19 1.02E-18
7.76E-18 7.26E-18 7.16E-18 1.15E-17 7.46E-18 6.97E-18 7.45E-18 1.62E-17
1.49E-17 1.43E-17 1.45E-17 1.92E-17 1.45E-17 1.38E-17 1.46E-17 3.05E-17
3.16E-19 8.79E-19 2.01E-18 9.00E-19 8.69E-19 9.55E-19 1.08E-18
6.33E-18 5.92E-18 5.87E-18 8.83E-18 6.12E-18 5.70E-18 6.07E-18 1.34E-17
6.41E-20 5.94E-20 5.87E-20 9.77E-20 6.07E-20 5.70E-20 6.11E-20 4.52E-18
1.67E-17 1.60E-17 1.62E-17 2.13E-17 1.62E-17 1.55E-17 1.63E-17 2.18E-17
2.07E-18 1.91E-18 1.88E-18 3.34E-18 1.91E-18 1.83E-18 1.97E-18 3.91E-18
-------
114
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Germanium
Ge-66 4.36E-18 4.49E-18 4.16E-18 4.10E-18 6.77E-18 4.25E-18 4.00E-18 4.29E-18 5.05E-18
Ge-67 9.04E-18 9.27E-18 8.69E-18 8.62E-18 1.33E-17 8.89E-18 8.36E-18 8.90E-18 2.71E-17
Ge-68 5.68E-24 1.48E-23 1.35E-26 3.75E-25 2.28E-24 5.32E-25 1.65E-24 4.26E-24 4.59E-22
Ge-69 5.51E-18 5.66E-18 5.34E-18 5.34E-18 7.57E-18 5.51E-18 5.14E-18 5.44E-18 6.90E-18
Ge-71 5.75E-24 1.49E-23 1.36E-26 3.80E-25 2.31E-24 5.39E-25 1.67E-24 4.31E-24 4.65E-22
Ge-75 2.26E-19 2.35E-19 2.15E-19 2.11E-19 3.99E-19 2.13E-19 2.06E-19 2.23E-19 1.64E-18
Ge-77 6.88E-18 7.10E-18 6.64E-18 6.61E-18 1.03E-17 6.74E-18 6.38E-18 6.80E-18 1.29E-17
Ge-78 1.79E-18 1.87E-18 1.71E-18 1.69E-18 3.09E-18 1.70E-18 1.64E-18 1.77E-18 2.12E-18
Arsenic
As-69 6.62E-18 6.79E-18 6.34E-18 6.28E-18 9.61E-18 6.54E-18 6.11E-18 6.50E-18 2.36E-17
As-70 2.55E-17 2.61E-17 2.48E-17 2.49E-17 3.41E-17 2.53E-17 2.39E-17 2.52E-17 3.73E-17
As-71 3.65E-18 3.76E-18 3.50E-18 3.45E-18 5.88E-18 3.54E-18 3.35E-18 3.60E-18 4.21E-18
As-72 1.14E-17 1.17E-17 1.11E-17 1.10E-17 1.58E-17 1.14E-17 1.06E-17 1.13E-17 2.49E-17
As-73 2.91E-20 3.15E-20 2.38E-20 1.78E-20 1.02E-19 2.37E-20 2.19E-20 2.73E-20 3.54E-20
As-74 4.89E-18 5.02E-18 4.70E-18 4.67E-18 6.89E-18 4.87E-18 4.53E-18 4.81E-18 6.44E-18
As-76 2.77E-18 2.84E-18 2.68E-18 2.67E-18 3.82E-18 2.76E-18 2.58E-18 2.73E-18 1.56E-17
As-77 5.83E-20 6.05E-20 5.55E-20 5.44E-20 1.01E-19 5.55E-20 5.31E-20 5.75E-20 1.42E-19
As-78 7.84E-18 8.00E-18 7.61E-18 7.65E-18 1.04E-17 7.77E-18 7.35E-18 7.74E-18 2.70E-17
Selenium
Se-70 6.40E-18 6.58E-18 6.12E-18 6.03E-18 9.63E-18 6.29E-18 5.88E-18 6.29E-18 9.95E-18
Se-73m 1.58E-18 1.62E-18 1.51E-18 1.50E-18 2.28E-18 1.56E-18 1.45E-18 1.55E-18 3.00E-18
Se-73 6.99E-18 7.19E-18 6.68E-18 6.56E-18 1.09E-17 6.84E-18 6.41E-18 6.87E-18 9.62E-18
Se-75 2.48E-18 2.57E-18 2.36E-18 2.29E-18 4.77E-18 2.32E-18 2.25E-18 2.45E-18 2.78E-18
Se-77m 5.35E-19 5.55E-19 5.07E-19 4.87E-19 1.18E-18 4.88E-19 4.80E-19 5.30E-19 5.98E-19
Se-79 7.04E-23 7.95E-23 4.15E-23 3.27E-23 1.84E-22 4.54E-23 4.12E-23 5.77E-23 1.14E-22
Se-81m 8.27E-20 8.46E-20 7.72E-20 7.03E-20 2.34E-19 7.39E-20 7.22E-20 8.20E-20 9.56E-20
Se-81 7.26E-20 7.53E-20 6.90E-20 6.77E-20 1.21E-19 6.99E-20 6.61E-20 7.14E-20 4.00E-18
Se-83 1.51E-17 1.55E-17 1.47E-17 1.47E-17 2.07E-17 1.49E-17 1.41E-17 1.49E-17 2.00E-17
Bromine
Br-74m 2.51E-17 2.54E-17 2.43E-17 2.44E-17 3.34E-17 2.47E-17 2.34E-17 2.47E-17 4.73E-17
Br-74 2.71E-17 2.71E-17 2.61E-17 2.64E-17 3.52E-17 2.63E-17 2.53E-17 2.66E-17 4.32E-17
Br-75 7.85E-18 8.08E-18 7.53E-18 7.45E-18 1.18E-17 7.70E-18 7.24E-18 7.73E-18 1.26E-17
Br-76 1.62E-17 1.64E-17 1.56E-17 1.57E-17 2.15E-17 1.58E-17 1.51E-17 1.59E-17 2.66E-17
Br-77 2.02E-18 2.09E-18 1.94E-18 1.92E-18 3.10E-18 1.98E-18 1.87E-18 2.00E-18 2.29E-18
Br-80m 6.08E-20 6.94E-20 3.22E-20 2.28E-20 1.53E-19 3.73E-20 3.25E-20 4.77E-20 9.49E-20
Br-80 5.15E-19 5.29E-19 4.96E-19 4.92E-19 7.26E-19 5.14E-19 4.78E-19 5.07E-19 1.46E-18
Br-82 1.66E-17 1.71E-17 1.62E-17 1.62E-17 2.24E-17 1.67E-17 1.56E-17 1.64E-17 1.87E-17
Br-83 5.25E-20 5.39E-20 5.00E-20 4.92E-20 7.88E-20 5.16E-20 4.81E-20 5.14E-20 5.68E-19
Br-84 1.07E-17 1.07E-17 1.03E-17 1.05E-17 1.35E-17 1.04E-17 l.OOE-17 1.05E-17 2.79E-17
Krypton
Kr-74 7.54E-18 7.75E-18 7.22E-18 7.10E-18 1.18E-17 7.38E-18 6.93E-18 7.42E-18 1.58E-17
Kr-76 2.74E-18 2.84E-18 2.61E-18 2.57E-18 4.51E-18 2.63E-18 2.50E-18 2.70E-18 3.10E-18
Kr-77 6.55E-18 6.72E-18 6.26E-18 6.15E-18 1.05E-17 6.39E-18 6.01E-18 6.44E-18 1.25E-17
Kr-79 1.62E-18 1.67E-18 1.55E-18 1.54E-18 2.44E-18 1.59E-18 1.49E-18 1.59E-18 1.83E-18
Kr-81m 8.15E-19 8.52E-19 7.75E-19 7.53E-19 1.65E-18 7.50E-19 7.38E-19 8.08E-19 9.20E-19
Kr-81 3.59E-20 3.77E-20 3.39E-20 3.35E-20 6.15E-20 3.36E-20 3.26E-20 3.53E-20 4.88E-20
Kr-83m 2.47E-22 4.10E-22 2.42E-23 3.27E-23 2.08E-22 4.41E-23 5.92E-23 1.55E-22 3.46E-21
Kr-85m 9.98E-19 1.03E-18 9.47E-19 9.12E-19 2.12E-18 9.20E-19 8.98E-19 9.88E-19 1.36E-18
Kr-85 1.67E-20 1.72E-20 1.57E-20 1.54E-20 2.66E-20 1.61E-20 1.51E-20 1.63E-20 1.34E-19
Kr-87 4.87E-18 4.92E-18 4.70E-18 4.74E-18 6.50E-18 4.70E-18 4.54E-18 4.79E-18 2.30E-17
Kr-88 1.16E-17 1.17E-17 1.13E-17 1.14E-17 1.48E-17 1.11E-17 1.09E-17 1.14E-17 1.53E-17
Rubidium
Rb-79 8.75E-18 8.99E-18 8.40E-18 8.31E-18 1.30E-17 8.65E-18 8.08E-18 8.62E-18 1.74E-17
Rb-80 8.21E-18 8.42E-18 7.88E-18 7.80E-18 1.17E-17 8.14E-18 7.59E-18 8.07E-18 4.01E-17
Rb-81m 2.55E-20 2.69E-20 2.30E-20 2.01E-20 7.94E-20 2.20E-20 2.15E-20 2.50E-20 3.77E-20
Rb-81 3.97E-18 4.09E-18 3.81E-18 3.76E-18 6.19E-18 3.88E-18 3.66E-18 3.91E-18 4.86E-18
Rb-82m 1.83E-17 1.88E-17 1.78E-17 1.78E-17 2.47E-17 1.83E-17 1.71E-17 1.81E-17 2.08E-17
Rb-82 7.14E-18 7.32E-18 6.85E-18 6.79E-18 1.02E-17 7.08E-18 6.60E-18 7.02E-18 2.71E-17
Rb-83 3.22E-18 3.30E-18 3.09E-18 3.06E-18 4.58E-18 3.19E-18 2.97E-18 3.16E-18 3.63E-18
Rb-84 5.77E-18 5.96E-18 5.62E-18 5.61E-18 7.90E-18 5.83E-18 5.41E-18 5.72E-18 6.76E-18
Rb-86 6.01E-19 6.20E-19 5.89E-19 5.91E-19 8.05E-19 6.07E-19 5.68E-19 5.98E-19 5.90E-18
Rb-87 3.71E-22 4.05E-22 2.70E-22 2.24E-22 1.04E-21 2.77E-22 2.59E-22 3.30E-22 5.11E-22
-------
115
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Rubidium, cont'd
Rb-88 3.94E-18 3.98E-18 3.82E-18 3.88E-18 5.05E-18 3.82E-18 3.70E-18 3.88E-18 3.58E-17
Rb-89 1.26E-17 1.28E-17 1.23E-17 1.24E-17 1.62E-17 1.24E-17 1.19E-17 1.24E-17 2.57E-17
Strontium
Sr-80 1.13E-21 1.90E-21 6.86E-24 9.87E-23 5.68E-22 8.60E-23 1.86E-22 6.55E-22 1.48E-20
Sr-81 8.95E-18 9.19E-18 8.59E-18 8.49E-18 1.35E-17 8.81E-18 8.25E-18 8.81E-18 2.15E-17
Sr-82 1.11E-21 1.87E-21 6.74E-24 9.71E-23 5.58E-22 8.46E-23 1.83E-22 6.44E-22 1.45E-20
Sr-83 5.02E-18 5.16E-18 4.86E-18 4.84E-18 7.02E-18 5.00E-18 4.68E-18 4.96E-18 6.16E-18
Sr-85m 1.39E-18 1.45E-18 1.33E-18 1.30E-18 2.63E-18 1.30E-18 1.27E-18 1.38E-18 1.57E-18
Sr-85 3.27E-18 3.35E-18 3.13E-18 3.10E-18 4.68E-18 3.24E-18 3.02E-18 3.21E-18 3.69E-18
Sr-87m 2.07E-18 2.13E-18 1.98E-18 1.95E-18 3.19E-18 2.02E-18 1.90E-18 2.04E-18 2.34E-18
Sr-89 1.31E-20 1.38E-20 1.18E-20 1.11E-20 2.90E-20 1.18E-20 1.12E-20 1.27E-20 3.66E-18
Sr-90 1.40E-21 1.50E-21 1.14E-21 l.OOE-21 3.76E-21 1.14E-21 1.09E-21 1.31E-21 1.22E-20
Sr-91 4.38E-18 4.52E-18 4.28E-18 4.29E-18 5.89E-18 4.43E-18 4.12E-18 4.35E-18 1.03E-17
Sr-92 8.17E-18 8.35E-18 7.99E-18 8.08E-18 1.05E-17 8.08E-18 7.73E-18 8.10E-18 9.37E-18
Yttrium
Y-86m 1.40E-18 1.46E-18 1.33E-18 1.31E-18 2.62E-18 1.30E-18 1.27E-18 1.38E-18 1.60E-18
Y-86 2.22E-17 2.27E-17 2.16E-17 2.17E-17 2.95E-17 2.20E-17 2.08E-17 2.19E-17 2.64E-17
Y-87 2.91E-18 2.99E-18 2.79E-18 2.76E-18 4.23E-18 2.88E-18 2.69E-18 2.86E-18 3.30E-18
Y-88 1.63E-17 1.65E-17 1.58E-17 1.60E-17 2.08E-17 1.59E-17 1.53E-17 1.61E-17 1.80E-17
Y-90m 4.05E-18 4.18E-18 3.87E-18 3.81E-18 6.53E-18 3.92E-18 3.72E-18 3.99E-18 4.58E-18
Y-90 3.19E-20 3.33E-20 2.93E-20 2.79E-20 6.52E-20 2.94E-20 2.79E-20 3.10E-20 9.79E-18
Y-91m 3.42E-18 3.51E-18 3.29E-18 3.27E-18 4.83E-18 3.41E-18 3.17E-18 3.37E-18 3.91E-18
Y-91 3.56E-20 3.69E-20 3.38E-20 3.32E-20 5.88E-20 3.43E-20 3.24E-20 3.50E-20 4.00E-18
Y-92 1.64E-18 1.69E-18 1.60E-18 1.61E-18 2.22E-18 1.64E-18 1.54E-18 1.63E-18 2.18E-17
Y-93 5.97E-19 6.11E-19 5.77E-19 5.78E-19 8.54E-19 5.79E-19 5.56E-19 5.89E-19 1.51E-17
Y-94 6.96E-18 7.15E-18 6.80E-18 6.84E-18 9.23E-18 6.98E-18 6.56E-18 6.90E-18 3.20E-17
Y-95 5.34E-18 5.35E-18 5.18E-18 5.26E-18 6.74E-18 5.16E-18 5.01E-18 5.25E-18 2.78E-17
Zirconium
Zr-86 1.72E-18 1.79E-18 1.63E-18 1.60E-18 3.02E-18 1.61E-18 1.56E-18 1.69E-18 1.99E-18
Zr-88 2.56E-18 2.63E-18 2.44E-18 2.41E-18 3.92E-18 2.49E-18 2.35E-18 2.51E-18 2.90E-18
Zr-89 7.28E-18 7.52E-18 7.10E-18 7.11E-18 9.88E-18 7.37E-18 6.84E-18 7.22E-18 8.47E-18
Zr-93 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Zr-95 4.69E-18 4.84E-18 4.56E-18 4.55E-18 6.38E-18 4.75E-18 4.39E-18 4.64E-18 5.31E-18
Zr-97 1.14E-18 1.16E-18 1.10E-18 1.11E-18 1.55E-18 1.13E-18 1.06E-18 1.12E-18 6.92E-18
Niobium
Nb-88 2.61E-17 2.68E-17 2.53E-17 2.53E-17 3.61E-17 2.61E-17 2.44E-17 2.58E-17 4.43E-17
Nb-89bx 8.70E-18 8.84E-18 8.38E-18 8.40E-18 1.19E-17 8.52E-18 8.09E-18 8.55E-18 2.48E-17
Nb-89a2 1.25E-17 1.28E-17 1.20E-17 1.19E-17 1.77E-17 1.24E-17 1.15E-17 1.23E-17 2.24E-17
Nb-90 2.55E-17 2.57E-17 2.47E-17 2.49E-17 3.34E-17 2.47E-17 2.39E-17 2.51E-17 3.03E-17
Nb-93m 1.03E-21 1.41E-21 2.52E-23 1.13E-22 6.72E-22 1.38E-22 1.59E-22 5.59E-22 5.28E-21
Nb-94 9.93E-18 1.03E-17 9.69E-18 9.69E-18 1.35E-17 1.01E-17 9.33E-18 9.85E-18 1.13E-17
Nb-95m 3.92E-19 4.11E-19 3.71E-19 3.64E-19 7.18E-19 3.63E-19 3.54E-19 3.87E-19 4.60E-19
Nb-95 4.84E-18 5.00E-18 4.72E-18 4.72E-18 6.58E-18 4.92E-18 4.54E-18 4.80E-18 5.49E-18
Nb-96 1.56E-17 1.60E-17 1.52E-17 1.52E-17 2.11E-17 1.57E-17 1.46E-17 1.54E-17 1.77E-17
Nb-97m 4.62E-18 4.76E-18 4.49E-18 4.49E-18 6.28E-18 4.68E-18 4.32E-18 4.57E-18 5.31E-18
Nb-97 4.20E-18 4.32E-18 4.07E-18 4.05E-18 5.79E-18 4.23E-18 3.92E-18 4.15E-18 6.69E-18
Nb-98 1.52E-17 1.56E-17 1.48E-17 1.48E-17 2.03E-17 1.52E-17 1.42E-17 1.50E-17 2.60E-17
Molybdenum
Mo-90 5.18E-18 5.34E-18 4.97E-18 4.90E-18 8.41E-18 5.01E-18 4.76E-18 5.11E-18 6.24E-18
Mo-93m 1.39E-17 1.42E-17 1.35E-17 1.36E-17 1.85E-17 1.37E-17 1.30E-17 1.37E-17 1.55E-17
Mo-93 5.87E-21 8.04E-21 1.42E-22 6.39E-22 3.81E-21 7.81E-22 9.02E-22 3.18E-21 3.00E-20
Mo-99 9.52E-19 9.84E-19 9.22E-19 9.15E-19 1.41E-18 9.51E-19 8.85E-19 9.42E-19 2.43E-18
Mo-101 8.45E-18 8.64E-18 8.22E-18 8.26E-18 1.13E-17 8.34E-18 7.93E-18 8.36E-18 1.36E-17
Technetium
Tc-93m 4.33E-18 4.35E-18 4.16E-18 4.21E-18 5.79E-18 4.14E-18 4.03E-18 4.25E-18 4.74E-18
Tc-93 8.80E-18 8.97E-18 8.59E-18 8.70E-18 1.12E-17 8.66E-18 8.32E-18 8.71E-18 9.82E-18
Tc-94m 1.17E-17 1.20E-17 1.13E-17 1.13E-17 1.59E-17 1.16E-17 1.09E-17 1.15E-17 2.15E-17
Tc-94 1.68E-17 1.73E-17 1.64E-17 1.64E-17 2.27E-17 1.70E-17 1.57E-17 1.66E-17 1.91E-17
Tc-95m 4.21E-18 4.36E-18 4.08E-18 4.05E-18 6.23E-18 4.18E-18 3.91E-18 4.17E-18 4.80E-18
1 TK = 122 m
2 TK = 66 m
-------
116
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Technetium, cont'd
Tc-95 4.96E-18 5.13E-18 4.83E-18 4.83E-18 6.72E-18 5.03E-18 4.65E-18 4.92E-18 5.65E-18
Tc-96m 2.85E-19 2.95E-19 2.73E-19 2.75E-19 3.79E-19 2.83E-19 2.64E-19 2.80E-19 3.37E-19
Tc-96 1.57E-17 1.62E-17 1.53E-17 1.53E-17 2.12E-17 1.59E-17 1.48E-17 1.56E-17 1.78E-17
Tc-97m l.OOE-20 1.24E-20 2.10E-21 2.53E-21 1.16E-20 3.18E-21 2.99E-21 6.26E-21 3.21E-20
Tc-97 8.07E-21 1.06E-20 2.79E-22 9.26E-22 5.61E-21 1.29E-21 1.30E-21 4.35E-21 3.45E-20
Tc-98 9.00E-18 9.27E-18 8.74E-18 8.71E-18 1.23E-17 9.09E-18 8.41E-18 8.90E-18 1.02E-17
Tc-99m 7.84E-19 8.07E-19 7.40E-19 7.00E-19 1.88E-18 7.10E-19 6.97E-19 7.76E-19 8.64E-19
Tc-99 3.29E-22 3.59E-22 2.39E-22 1.99E-22 9.20E-22 2.46E-22 2.30E-22 2.92E-22 4.53E-22
Tc-101 2.16E-18 2.24E-18 2.07E-18 2.04E-18 3.54E-18 2.08E-18 1.98E-18 2.13E-18 4.49E-18
Tc-104 1.22E-17 1.24E-17 1.19E-17 1.19E-17 1.65E-17 1.19E-17 1.14E-17 1.21E-17 3.62E-17
Ruthenium
Ru-94 3.34E-18 3.45E-18 3.22E-18 3.20E-18 4.85E-18 3.31E-18 3.10E-18 3.30E-18 3.80E-18
Ru-97 1.46E-18 1.53E-18 1.38E-18 1.36E-18 2.69E-18 1.36E-18 1.32E-18 1.44E-18 1.68E-18
Ru-103 3.04E-18 3.12E-18 2.91E-18 2.88E-18 4.38E-18 3.01E-18 2.81E-18 2.99E-18 3.43E-18
Ru-105 5.01E-18 5.16E-18 4.85E-18 4.83E-18 7.09E-18 5.02E-18 4.66E-18 4.95E-18 6.91E-18
Ru-106 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Rhodium
Rh-99m 4.28E-18 4.41E-18 4.12E-18 4.11E-18 6.17E-18 4.21E-18 3.97E-18 4.22E-18 4.87E-18
Rh-99 3.78E-18 3.89E-18 3.62E-18 3.56E-18 5.98E-18 3.69E-18 3.47E-18 3.72E-18 4.30E-18
Rh-100 1.68E-17 1.70E-17 1.63E-17 1.64E-17 2.18E-17 1.63E-17 1.57E-17 1.65E-17 1.93E-17
Rh-lOlm 1.91E-18 1.98E-18 1.81E-18 1.79E-18 3.13E-18 1.82E-18 1.74E-18 1.88E-18 2.19E-18
Rh-101 1.62E-18 1.68E-18 1.52E-18 1.47E-18 3.38E-18 1.48E-18 1.44E-18 1.59E-18 1.84E-18
Rh-102m 3.09E-18 3.17E-18 2.96E-18 2.94E-18 4.41E-18 3.06E-18 2.86E-18 3.04E-18 4.22E-18
Rh-102 1.35E-17 1.39E-17 1.31E-17 1.31E-17 1.86E-17 1.36E-17 1.26E-17 1.34E-17 1.53E-17
Rh-103m 2.21E-21 2.70E-21 2.43E-22 3.42E-22 2.19E-21 5.95E-22 4.99E-22 1.26E-21 6.13E-21
Rh-105 5.03E-19 5.21E-19 4.80E-19 4.74E-19 8.28E-19 4.81E-19 4.60E-19 4.96E-19 5.75E-19
Rh-106m 1.83E-17 1.88E-17 1.78E-17 1.78E-17 2.49E-17 1.83E-17 1.71E-17 1.81E-17 2.10E-17
Rh-106 1.38E-18 1.42E-18 1.33E-18 1.32E-18 1.97E-18 1.38E-18 1.28E-18 1.36E-18 2.06E-17
Rh-107 2.02E-18 2.10E-18 1.93E-18 1.91E-18 3.29E-18 1.94E-18 1.85E-18 1.99E-18 3.99E-18
Palladium
Pd-100 6.41E-19 6.73E-19 5.70E-19 4.96E-19 1.99E-18 5.52E-19 5.34E-19 6.26E-19 7.58E-19
Pd-101 2.02E-18 2.09E-18 1.92E-18 1.91E-18 2.92E-18 1.97E-18 1.85E-18 1.98E-18 2.35E-18
Pd-103 1.91E-20 2.32E-20 2.17E-21 3.22E-21 1.73E-20 5.21E-21 4.40E-21 1.09E-20 5.33E-20
Pd-107 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pd-109 4.12E-20 4.50E-20 2.74E-20 2.54E-20 9.12E-20 2.91E-20 2.72E-20 3.52E-20 8.91E-19
Silver
Ag-102 2.09E-17 2.13E-17 2.02E-17 2.03E-17 2.81E-17 2.06E-17 1.95E-17 2.06E-17 3.27E-17
Ag-103 4.81E-18 4.94E-18 4.62E-18 4.59E-18 7.15E-18 4.72E-18 4.44E-18 4.74E-18 7.10E-18
Ag-104m 7.37E-18 7.51E-18 7.09E-18 7.09E-18 1.01E-17 7.25E-18 6.84E-18 7.24E-18 1.41E-17
Ag-104 1.68E-17 1.73E-17 1.63E-17 1.63E-17 2.27E-17 1.68E-17 1.57E-17 1.66E-17 1.93E-17
Ag-105 3.28E-18 3.40E-18 3.13E-18 3.09E-18 5.08E-18 3.19E-18 3.01E-18 3.23E-18 3.75E-18
Ag-106m 1.77E-17 1.82E-17 1.71E-17 1.72E-17 2.41E-17 1.76E-17 1.65E-17 1.75E-17 1.99E-17
Ag-106 4.59E-18 4.71E-18 4.40E-18 4.35E-18 6.59E-18 4.54E-18 4.23E-18 4.51E-18 9.63E-18
Ag-108m 1.04E-17 1.07E-17 9.99E-18 9.93E-18 1.46E-17 1.04E-17 9.62E-18 1.02E-17 1.17E-17
Ag-108 1.27E-19 1.31E-19 1.21E-19 1.20E-19 1.90E-19 1.25E-19 1.17E-19 1.25E-19 4.23E-18
Ag-109m 3.23E-20 3.56E-20 1.92E-20 1.76E-20 7.34E-20 2.08E-20 1.95E-20 2.65E-20 5.24E-20
Ag-llOm 1.72E-17 1.77E-17 1.68E-17 1.68E-17 2.31E-17 1.74E-17 1.62E-17 1.71E-17 1.95E-17
Ag-110 2.45E-19 2.53E-19 2.35E-19 2.33E-19 3.66E-19 2.43E-19 2.26E-19 2.42E-19 1.47E-17
Ag-111 1.75E-19 1.81E-19 1.67E-19 1.64E-19 2.89E-19 1.68E-19 1.60E-19 1.72E-19 9.94E-19
Ag-112 4.15E-18 4.23E-18 4.02E-18 4.04E-18 5.54E-18 4.10E-18 3.88E-18 4.10E-18 2.34E-17
Ag-115 4.37E-18 4.44E-18 4.22E-18 4.25E-18 6.09E-18 4.21E-18 4.07E-18 4.31E-18 1.69E-17
Cadmium
Cd-104 1.52E-18 1.58E-18 1.44E-18 1.40E-18 2.54E-18 1.48E-18 1.38E-18 1.49E-18 1.76E-18
Cd-107 l.OOE-19 1.10E-19 6.08E-20 5.95E-20 1.69E-19 6.82E-20 6.23E-20 8.19E-20 1.64E-19
Cd-109 5.83E-20 6.70E-20 2.25E-20 2.18E-20 1.01E-19 2.86E-20 2.58E-20 4.16E-20 1.14E-19
Cd-113m 1.29E-21 1.38E-21 1.05E-21 9.23E-22 3.47E-21 1.05E-21 l.OOE-21 1.20E-21 1.54E-20
Cd-113 2.95E-22 3.22E-22 2.15E-22 1.79E-22 8.22E-22 2.20E-22 2.06E-22 2.62E-22 4.07E-22
Cd-115m 1.50E-19 1.55E-19 1.46E-19 1.46E-19 2.11E-19 1.50E-19 1.40E-19 1.48E-19 4.13E-18
Cd-115 1.51E-18 1.55E-18 1.44E-18 1.43E-18 2.18E-18 1.49E-18 1.39E-18 1.48E-18 2.34E-18
Cd-117m 1.24E-17 1.26E-17 1.21E-17 1.22E-17 1.60E-17 1.22E-17 1.17E-17 1.23E-17 1.42E-17
Cd-117 6.72E-18 6.88E-18 6.53E-18 6.57E-18 9.14E-18 6.61E-18 6.30E-18 6.65E-18 1.04E-17
-------
117
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Indium
In-109 4.16E-18 4.29E-18 3.99E-18 3.97E-18 6.29E-18 4.05E-18 3.84E-18 4.10E-18 4.75E-18
In-llOb1 1.91E-17 1.97E-17 1.86E-17 1.86E-17 2.59E-17 1.93E-17 1.79E-17 1.90E-17 2.17E-17
In-110a2 9.86E-18 1.01E-17 9.50E-18 9.47E-18 1.36E-17 9.78E-18 9.16E-18 9.70E-18 1.76E-17
In-Ill 2.49E-18 2.61E-18 2.35E-18 2.29E-18 4.81E-18 2.29E-18 2.24E-18 2.45E-18 2.85E-18
In-112 1.71E-18 1.76E-18 1.63E-18 1.62E-18 2.44E-18 1.69E-18 1.57E-18 1.68E-18 2.96E-18
In-113m 1.65E-18 1.70E-18 1.56E-18 1.54E-18 2.53E-18 1.60E-18 1.51E-18 1.62E-18 1.87E-18
In-114m 5.63E-19 5.86E-19 5.27E-19 5.20E-19 8.97E-19 5.38E-19 5.07E-19 5.49E-19 6.54E-19
In-114 1.71E-20 1.76E-20 1.65E-20 1.67E-20 2.27E-20 1.68E-20 1.60E-20 1.69E-20 1.97E-20
In-115m 1.01E-18 1.05E-18 9.49E-19 9.37E-19 1.62E-18 9.59E-19 9.13E-19 9.86E-19 1.17E-18
In-115 8.55E-22 9.19E-22 6.79E-22 5.87E-22 2.34E-21 6.81E-22 6.46E-22 7.88E-22 2.00E-21
In-116m 1.51E-17 1.55E-17 1.48E-17 1.49E-17 1.98E-17 1.50E-17 1.43E-17 1.50E-17 1.75E-17
In-117m 5.70E-19 5.93E-19 5.34E-19 5.22E-19 1.03E-18 5.31E-19 5.11E-19 5.58E-19 3.13E-18
In-117 4.44E-18 4.57E-18 4.25E-18 4.19E-18 6.99E-18 4.35E-18 4.08E-18 4.37E-18 5.13E-18
In-119m 9.20E-20 9.67E-20 8.07E-20 7.91E-20 1.53E-19 8.29E-20 7.79E-20 8.71E-20 1.20E-17
In-119 4.86E-18 5.02E-18 4.73E-18 4.72E-18 6.61E-18 4.93E-18 4.55E-18 4.81E-18 9.58E-18
Tin
Sn-110 1.86E-18 1.94E-18 1.75E-18 1.72E-18 3.17E-18 1.74E-18 1.68E-18 1.83E-18 2.14E-18
Sn-111 3.19E-18 3.26E-18 3.05E-18 3.04E-18 4.42E-18 3.13E-18 2.94E-18 3.13E-18 4.97E-18
Sn-113 6.96E-20 7.85E-20 3.62E-20 3.59E-20 1.04E-19 4.25E-20 3.85E-20 5.38E-20 1.14E-19
Sn-117m 9.25E-19 9.66E-19 8.46E-19 8.10E-19 2.03E-18 8.21E-19 8.03E-19 9.01E-19 1.06E-18
Sn-119m 2.52E-20 3.00E-20 5.06E-21 4.96E-21 3.36E-20 9.29E-21 7.58E-21 1.56E-20 5.00E-20
Sn-121m 1.39E-20 1.63E-20 4.39E-21 3.56E-21 2.41E-20 6.35E-21 5.31E-21 9.39E-21 2.38E-20
Sn-121 4.67E-22 5.06E-22 3.54E-22 3.00E-22 1.30E-21 3.59E-22 3.38E-22 4.22E-22 6.22E-22
Sn-123m 8.75E-19 9.10E-19 8.25E-19 7.90E-19 1.94E-18 7.95E-19 7.80E-19 8.65E-19 2.80E-18
Sn-123 5.28E-20 5.47E-20 5.09E-20 5.06E-20 7.93E-20 5.22E-20 4.89E-20 5.22E-20 2.88E-18
Sn-125 1.96E-18 2.01E-18 1.91E-18 1.92E-18 2.60E-18 1.96E-18 1.84E-18 1.94E-18 1.05E-17
Sn-126 2.96E-19 3.10E-19 2.57E-19 2.24E-19 9.06E-19 2.51E-19 2.42E-19 2.85E-19 3.43E-19
Sn-127 1.18E-17 1.21E-17 1.15E-17 1.15E-17 1.57E-17 1.17E-17 1.11E-17 1.17E-17 1.76E-17
Sn-128 4.10E-18 4.23E-18 3.84E-18 3.77E-18 6.30E-18 3.97E-18 3.69E-18 3.99E-18 4.73E-18
Antimony
Sb-115 5.83E-18 5.99E-18 5.57E-18 5.52E-18 8.36E-18 5.76E-18 5.37E-18 5.72E-18 8.09E-18
Sb-116m 1.95E-17 2.00E-17 1.89E-17 1.90E-17 2.67E-17 1.94E-17 1.82E-17 1.93E-17 2.23E-17
Sb-116 1.33E-17 1.36E-17 1.29E-17 1.30E-17 1.75E-17 1.31E-17 1.25E-17 1.31E-17 1.89E-17
Sb-117 1.08E-18 1.13E-18 9.91E-19 9.55E-19 2.23E-18 9.74E-19 9.43E-19 1.05E-18 1.25E-18
Sb-118m 1.58E-17 1.63E-17 1.54E-17 1.55E-17 2.15E-17 1.58E-17 1.49E-17 1.57E-17 1.79E-17
Sb-119 5.35E-20 6.37E-20 1.12E-20 1.07E-20 7.30E-20 2.01E-20 1.64E-20 3.33E-20 1.04E-19
Sb-120b3 1.51E-17 1.56E-17 1.48E-17 1.48E-17 2.14E-17 1.51E-17 1.42E-17 1.50E-17 1.71E-17
Sb-120a4 2.89E-18 2.96E-18 2.75E-18 2.72E-18 4.13E-18 2.84E-18 2.65E-18 2.83E-18 5.52E-18
Sb-122 2.85E-18 2.93E-18 2.75E-18 2.73E-18 4.00E-18 2.84E-18 2.64E-18 2.81E-18 6.83E-18
Sb-124n5 1.69E-22 2.02E-22 3.17E-23 3.22E-23 2.18E-22 6.09E-23 4.95E-23 1.04E-22 3.40E-22
Sb-124m6 2.27E-18 2.33E-18 2.18E-18 2.17E-18 3.18E-18 2.26E-18 2.10E-18 2.23E-18 2.82E-18
Sb-124 1.12E-17 1.14E-17 1.09E-17 1.10E-17 1.48E-17 1.10E-17 1.05E-17 1.11E-17 1.50E-17
Sb-125 2.73E-18 2.81E-18 2.59E-18 2.57E-18 3.99E-18 2.68E-18 2.50E-18 2.67E-18 3.11E-18
Sb-126m 9.93E-18 1.02E-17 9.60E-18 9.55E-18 1.40E-17 9.95E-18 9.24E-18 9.80E-18 1.56E-17
Sb-126 1.81E-17 1.86E-17 1.75E-17 1.75E-17 2.51E-17 1.82E-17 1.69E-17 1.79E-17 2.15E-17
Sb-127 4.40E-18 4.54E-18 4.25E-18 4.23E-18 6.23E-18 4.40E-18 4.09E-18 4.35E-18 5.57E-18
Sb-128b7 1.97E-17 2.03E-17 1.91E-17 1.90E-17 2.73E-17 1.98E-17 1.84E-17 1.94E-17 2.43E-17
Sb-128a8 1.26E-17 1.30E-17 1.23E-17 1.22E-17 1.77E-17 1.27E-17 1.18E-17 1.25E-17 2.38E-17
Sb-129 8.96E-18 9.20E-18 8.73E-18 8.76E-18 1.20E-17 8.97E-18 8.42E-18 8.87E-18 1.23E-17
Sb-130 2.05E-17 2.12E-17 2.00E-17 1.99E-17 2.87E-17 2.05E-17 1.92E-17 2.03E-17 2.92E-17
Sb-131 1.15E-17 1.18E-17 1.12E-17 1.13E-17 1.52E-17 1.14E-17 1.08E-17 1.14E-17 1.69E-17
Tellurium
Te-116 3.42E-19 3.64E-19 2.68E-19 2.47E-19 7.81E-19 2.76E-19 2.59E-19 3.11E-19 4.31E-19
Te-121m 1.32E-18 1.38E-18 1.24E-18 1.21E-18 2.42E-18 1.22E-18 1.18E-18 1.30E-18 1.52E-18
TK = 4.9 h
TK = 69.1 m
TK = 5.76 d
TK = 15.89 m
TK = 20.2 m
TK = 93 s
TK = 9.01 h
T* = 10.4 m
-------
118
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose
Nuclide
Gonad
Tellurium,
Te-121
Te-123m
Te-123
Te-125m
Te-127m
Te-127
Te-129m
Te-129
Te-131m
Te-131
Te-132
Te-133m
Te-133
Te-134
Iodine
I-120m
1-120
1-121
1-122
1-123
1-124
1-125
1-126
1-128
1-129
1-130
1-131
I-132m
1-132
1-133
1-134
1-135
Xenon
Xe-120
Xe-121
Xe-122
Xe-123
Xe-125
Xe-127
Xe-129m
Xe-131m
Xe-133m
Xe-133
Xe-135m
Xe-135
Xe-138
Cesium
Cs-125
Cs-126
Cs-127
Cs-128
Cs-129
Cs-130
Cs-131
Cs-132
Cs-134m
Cs-134
Cs-135m
Cs-135
Cs-136
3
8
5
1
3
3
2
3
8
2
1
1
5
5
3
1
2
6
9
6
1
2
5
8
1
2
2
1
3
1
9
2
1
3
3
1
1
1
7
2
2
2
1
6
4
7
2
5
1
3
7
4
1
9
9
1
1
Breast
Lung
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
nr
J)
Remainder
Effective
Skin
cont ' d
.65E
. 82E
.20E
.05E
.31E
.34E
.15E
.76E
.89E
.66E
.41E
.44E
.85E
. 62E
.30E
.69E
.61E
. 14E
.99E
.85E
.22E
.88E
.69E
.31E
.37E
.47E
. 02E
.44E
.90E
. 64E
. 64E
.61E
.HE
. 62E
. 92E
. 62E
.70E
.97E
.42E
.05E
.30E
.77E
.59E
.85E
.33E
. 12E
.63E
. 84E
. 72E
.31E
.41E
.43E
.34E
.89E
.98E
.24E
.35E
-18
-19
-20
-19
-20
-20
-19
-19
-18
-18
-18
-17
-18
-18
-17
-17
-18
-18
-19
-18
-19
-18
-19
-20
-17
-18
-18
-17
-18
-17
-18
-18
-17
-19
-18
-18
-18
-19
-20
-19
-19
-18
-18
-18
-18
-18
-18
-18
-18
-18
-20
-18
-19
-18
-18
-22
-17
3
9
6
1
3
3
2
3
9
2
1
1
6
5
3
1
2
6
1
7
1
2
5
9
1
2
2
1
4
1
9
2
1
3
4
1
1
2
8
2
2
2
1
6
4
7
2
5
1
3
8
4
1
1
1
1
1
.76E
.21E
.17E
.23E
.88E
.45E
.25E
.89E
.16E
. 74E
.48E
.48E
. 02E
.80E
.36E
. 72E
.71E
.30E
. 04E
.OOE
.44E
.97E
.85E
.68E
.41E
. 54E
.08E
.48E
.DIE
.69E
.85E
.71E
.13E
.85E
. 02E
.70E
.78E
.23E
.43E
.22E
.46E
. 84E
.66E
.93E
.45E
.31E
. 72E
.99E
.79E
.40E
.68E
.57E
.42E
. 02E
.03E
.38E
.40E
-18
-19
-20
-19
-20
-20
-19
-19
-18
-18
-18
-17
-18
-18
-17
-17
-18
-18
-18
-18
-19
-18
-19
-20
-17
-18
-18
-17
-18
-17
-18
-18
-17
-19
-18
-18
-18
-19
-20
-19
-19
-18
-18
-18
-18
-18
-18
-18
-18
-18
-20
-18
-19
-17
-17
-22
-17
3
8
1
3
1
3
1
3
8
2
1
1
5
5
3
1
2
5
9
6
3
2
5
3
1
2
1
1
3
1
9
2
1
3
3
1
1
1
3
1
1
2
1
6
4
6
2
5
1
3
2
4
1
9
9
8
1
.47E
.IDE
.32E
.34E
.13E
.17E
.93E
. 52E
.65E
.56E
.30E
.40E
.67E
.40E
.19E
.63E
.47E
.89E
. 02E
.59E
.73E
.76E
.41E
.30E
.32E
.36E
. 94E
.40E
.76E
.60E
.42E
.44E
.07E
.DIE
.73E
.49E
.57E
.08E
.83E
. 62E
.86E
.65E
. 52E
. 62E
.13E
.81E
.48E
.58E
.58E
.15E
.67E
.25E
.07E
.60E
.75E
.05E
.32E
-18
-19
-20
-20
-20
-20
-19
-19
-18
-18
-18
-17
-18
-18
-17
-17
-18
-18
-19
-18
-20
-18
-19
-20
-17
-18
-18
-17
-18
-17
-18
-18
-17
-19
-18
-18
-18
-19
-20
-19
-19
-18
-18
-18
-18
-18
-18
-18
-18
-18
-20
-18
-19
-18
-18
-23
-17
3.44E-18 5.15E-18 3.61E-18
7.75E-19 1.95E-18 7.86E-19
1.15E-20 7.89E-20 2.14E-20
2.70E-20 1.80E-19 4.81E-20
9.28E-21 5.79E-20 1.58E-20
3.11E-20 5.35E-20 3.23E-20
1.91E-19 3.06E-19 2.04E-19
3.48E-19 5.58E-19 3.63E-19
8.65E-18 1.23E-17 8.90E-18
2.52E-18 4.31E-18 2.60E-18
1.26E-18 2.70E-18 1.28E-18
1.41E-17 1.97E-17 1.44E-17
5.67E-18 8.34E-18 5.76E-18
5.34E-18 8.54E-18 5.54E-18
3.20E-17 4.42E-17 3.26E-17
1.64E-17 2.27E-17 1.66E-17
2.43E-18 4.31E-18 2.49E-18
5.83E-18 8.77E-18 6.08E-18
8.65E-19 2.11E-18 8.86E-19
6.59E-18 9.28E-18 6.74E-18
3.00E-20 2.07E-19 5.50E-20
2.74E-18 4.13E-18 2.85E-18
5.34E-19 8.51E-19 5.56E-19
2.45E-20 1.68E-19 4.30E-20
1.32E-17 1.90E-17 1.37E-17
2.33E-18 3.84E-18 2.40E-18
1.92E-18 2.89E-18 2.01E-18
1.40E-17 1.95E-17 1.45E-17
3.74E-18 5.49E-18 3.89E-18
1.61E-17 2.20E-17 1.65E-17
9.51E-18 1.25E-17 9.54E-18
2.40E-18 4.02E-18 2.52E-18
1.07E-17 1.52E-17 1.08E-17
2.90E-19 6.26E-19 3.12E-19
3.70E-18 5.96E-18 3.78E-18
1.45E-18 2.95E-18 1.49E-18
1.53E-18 3.22E-18 1.55E-18
9.31E-20 3.90E-19 1.24E-19
3.28E-20 1.46E-19 4.47E-20
1.55E-19 3.82E-19 1.67E-19
1.57E-19 6.89E-19 1.85E-19
2.62E-18 3.95E-18 2.74E-18
1.49E-18 2.81E-18 1.50E-18
6.69E-18 9.17E-18 6.58E-18
4.09E-18 6.27E-18 4.26E-18
6.74E-18 1.04E-17 7.02E-18
2.44E-18 4.06E-18 2.54E-18
5.53E-18 8.42E-18 5.76E-18
1.55E-18 2.69E-18 1.62E-18
3.12E-18 4.75E-18 3.26E-18
2.02E-20 1.39E-19 3.63E-20
4.23E-18 6.13E-18 4.43E-18
9.79E-20 3.22E-19 1.08E-19
9.58E-18 1.36E-17 9.97E-18
9.75E-18 1.35E-17 1.02E-17
6.48E-23 3.38E-22 8.55E-23
1.32E-17 1.88E-17 1.36E-17
3
7
1
4
1
3
1
3
8
2
1
1
5
5
3
1
2
5
8
6
4
2
5
3
1
2
1
1
3
1
9
2
1
2
3
1
1
1
4
1
1
2
1
6
3
6
2
5
1
3
3
4
1
9
9
7
1
.35E
.68E
.76E
.03E
.33E
. 04E
.87E
.39E
.32E
.45E
.24E
.35E
.45E
.19E
.08E
.58E
.37E
.67E
.59E
.36E
.58E
.66E
.21E
.65E
.27E
.26E
.87E
.35E
. 62E
. 54E
.IDE
.35E
.03E
. 92E
.59E
.43E
.50E
.HE
.OOE
.58E
.76E
.55E
.45E
.41E
.98E
.56E
.38E
.38E
. 52E
. 04E
.06E
.09E
.03E
.24E
.39E
.86E
.27E
-18
-19
-20
-20
-20
-20
-19
-19
-18
-18
-18
-17
-18
-18
-17
-17
-18
-18
-19
-18
-20
-18
-19
-20
-17
-18
-18
-17
-18
-17
-18
-18
-17
-19
-18
-18
-18
-19
-20
-19
-19
-18
-18
-18
-18
-18
-18
-18
-18
-18
-20
-18
-19
-18
-18
-23
-17
3
8
3
7
2
3
2
3
8
2
1
1
5
5
3
1
2
6
9
6
8
2
5
5
1
2
1
1
3
1
9
2
1
3
3
1
1
1
5
1
2
2
1
6
4
6
2
5
1
3
5
4
1
9
9
1
1
.57E
.61E
.35E
.08E
.28E
.28E
.05E
.66E
.80E
.63E
.37E
.43E
.79E
. 54E
.25E
.66E
.56E
.03E
.66E
.73E
.19E
.83E
.57E
.95E
.35E
.43E
.99E
.42E
.85E
.63E
.55E
. 54E
.09E
.35E
. 84E
.58E
.66E
.56E
. 74E
.87E
.15E
.71E
.57E
. 74E
.25E
.99E
.57E
.73E
.66E
.24E
.16E
.36E
.23E
.78E
.91E
.05E
.34E
-18
-19
-20
-20
-20
-20
-19
-19
-18
-18
-18
-17
-18
-18
-17
-17
-18
-18
-19
-18
-20
-18
-19
-20
-17
-18
-18
-17
-18
-17
-18
-18
-17
-19
-18
-18
-18
-19
-20
-19
-19
-18
-18
-18
-18
-18
-18
-18
-18
-18
-20
-18
-19
-18
-18
-22
-17
4
1
9
1
5
1
1
3
1
8
1
2
1
6
5
3
3
2
1
9
2
3
7
1
1
2
2
1
5
2
1
3
1
4
5
1
1
2
1
2
2
3
2
1
7
2
3
1
1
7
1
5
1
1
1
1
1
.15E-18
.OOE-18
.38E-20
.75E-19
.87E-20
.12E-19
.55E-18
.18E-18
.05E-17
.61E-18
.63E-18
.18E-17
.42E-17
.58E-18
.38E-17
.94E-17
.20E-18
.06E-17
.15E-18
.31E-18
.07E-19
.61E-18
.32E-18
.28E-19
.60E-17
.80E-18
.63E-18
.90E-17
.85E-18
.28E-17
.21E-17
.02E-18
.88E-17
.44E-19
.34E-18
.88E-18
.95E-18
.82E-19
.08E-19
.58E-19
.75E-19
.22E-18
.23E-18
.36E-17
.87E-18
.92E-17
.02E-18
.69E-17
.99E-18
.42E-18
.17E-19
.05E-18
.61E-19
.12E-17
.16E-17
.87E-22
.53E-17
-------
119
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Cesium, cont'd
Cs-137 1.43E-21 1.52E-21 1.18E-21 1.04E-21 3.74E-21 1.18E-21 1.12E-21 1.34E-21 9.03E-20
Cs-138 1.44E-17 1.46E-17 1.40E-17 1.42E-17 1.87E-17 1.41E-17 1.36E-17 1.42E-17 3.08E-17
Barium
Ba-126 9.79E-19 1.02E-18 8.90E-19 8.71E-19 1.59E-18 9.12E-19 8.58E-19 9.42E-19 1.15E-18
Ba-128 4.16E-19 4.43E-19 3.50E-19 3.37E-19 7.44E-19 3.57E-19 3.38E-19 3.87E-19 5.04E-19
Ba-131m 4.28E-19 4.44E-19 3.72E-19 3.36E-19 1.16E-18 3.63E-19 3.51E-19 4.09E-19 4.85E-19
Ba-131 2.86E-18 2.95E-18 2.67E-18 2.62E-18 4.65E-18 2.73E-18 2.57E-18 2.78E-18 3.25E-18
Ba-133m 3.75E-19 3.98E-19 3.24E-19 3.13E-19 6.74E-19 3.29E-19 3.12E-19 3.54E-19 4.47E-19
Ba-133 2.46E-18 2.57E-18 2.27E-18 2.21E-18 4.30E-18 2.30E-18 2.18E-18 2.39E-18 2.83E-18
Ba-135m 3.35E-19 3.56E-19 2.85E-19 2.74E-19 6.09E-19 2.90E-19 2.75E-19 3.14E-19 4.01E-19
Ba-137m 3.81E-18 3.92E-18 3.68E-18 3.67E-18 5.25E-18 3.83E-18 3.55E-18 3.76E-18 4.55E-18
Ba-139 2.93E-19 3.05E-19 2.75E-19 2.65E-19 6.10E-19 2.68E-19 2.61E-19 2.88E-19 9.14E-18
Ba-140 1.16E-18 1.20E-18 1.11E-18 1.09E-18 1.75E-18 1.14E-18 1.06E-18 1.14E-18 1.80E-18
Ba-141 5.34E-18 5.49E-18 5.15E-18 5.13E-18 7.98E-18 5.20E-18 4.95E-18 5.27E-18 1.49E-17
Ba-142 6.50E-18 6.71E-18 6.32E-18 6.33E-18 9.13E-18 6.49E-18 6.09E-18 6.44E-18 9.05E-18
Lanthanum
La-131 4.25E-18 4.38E-18 4.03E-18 3.97E-18 6.58E-18 4.13E-18 3.87E-18 4.16E-18 6.11E-18
La-132 1.25E-17 1.27E-17 1.20E-17 1.21E-17 1.70E-17 1.22E-17 1.16E-17 1.23E-17 2.04E-17
La-134 4.51E-18 4.63E-18 4.31E-18 4.27E-18 6.47E-18 4.45E-18 4.15E-18 4.42E-18 1.39E-17
La-135 1.58E-19 1.74E-19 1.03E-19 9.17E-20 2.90E-19 1.15E-19 1.03E-19 1.32E-19 2.10E-19
La-137 8.69E-20 1.01E-19 3.71E-20 2.70E-20 1.85E-19 4.69E-20 4.01E-20 6.35E-20 1.29E-19
La-138 7.54E-18 7.71E-18 7.34E-18 7.41E-18 9.79E-18 7.45E-18 7.10E-18 7.46E-18 8.45E-18
La-140 1.42E-17 1.44E-17 1.38E-17 1.39E-17 1.86E-17 1.39E-17 1.33E-17 1.40E-17 1.87E-17
La-141 2.95E-19 3.01E-19 2.86E-19 2.88E-19 4.02E-19 2.88E-19 2.76E-19 2.91E-19 1.03E-17
La-142 1.64E-17 1.65E-17 1.59E-17 1.61E-17 2.08E-17 1.58E-17 1.54E-17 1.61E-17 2.65E-17
La-143 6.36E-19 6.47E-19 6.15E-19 6.19E-19 8.60E-19 6.21E-19 5.94E-19 6.27E-19 1.81E-17
Cerium
Ce-134 9.81E-20 1.13E-19 4.53E-20 3.26E-20 2.22E-19 5.55E-20 4.77E-20 7.34E-20 1.41E-19
Ce-135 1.14E-17 1.18E-17 1.10E-17 1.09E-17 1.66E-17 1.13E-17 1.06E-17 1.13E-17 1.31E-17
Ce-137m 2.88E-19 3.08E-19 2.40E-19 2.26E-19 5.48E-19 2.46E-19 2.31E-19 2.67E-19 3.47E-19
Ce-137 1.54E-19 1.70E-19 9.81E-20 8.47E-20 3.05E-19 1.10E-19 9.78E-20 1.28E-19 2.05E-19
Ce-139 9.32E-19 9.81E-19 8.34E-19 7.90E-19 2.04E-18 8.15E-19 7.92E-19 8.98E-19 1.07E-18
Ce-141 4.64E-19 4.82E-19 4.28E-19 4.04E-19 1.09E-18 4.14E-19 4.04E-19 4.55E-19 5.22E-19
Ce-143 1.75E-18 1.83E-18 1.64E-18 1.61E-18 2.89E-18 1.67E-18 1.58E-18 1.71E-18 3.43E-18
Ce-144 1.19E-19 1.24E-19 1.05E-19 9.61E-20 3.05E-19 1.03E-19 9.94E-20 1.15E-19 1.35E-19
Praseodymium
Pr-136 1.33E-17 1.35E-17 1.28E-17 1.27E-17 1.82E-17 1.31E-17 1.23E-17 1.30E-17 2.41E-17
Pr-137 3.17E-18 3.26E-18 3.01E-18 2.98E-18 4.58E-18 3.11E-18 2.90E-18 3.10E-18 5.03E-18
Pr-138m 1.55E-17 1.60E-17 1.51E-17 1.51E-17 2.15E-17 1.56E-17 1.45E-17 1.54E-17 1.89E-17
Pr-138 5.31E-18 5.44E-18 5.08E-18 5.03E-18 7.63E-18 5.24E-18 4.89E-18 5.21E-18 2.20E-17
Pr-139 7.20E-19 7.49E-19 6.46E-19 6.28E-19 1.12E-18 6.72E-19 6.23E-19 6.86E-19 9.66E-19
Pr-142m 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pr-142 3.78E-19 3.84E-19 3.67E-19 3.71E-19 4.99E-19 3.66E-19 3.55E-19 3.73E-19 8.14E-18
Pr-143 3.75E-21 3.97E-21 3.22E-21 2.91E-21 9.37E-21 3.20E-21 3.05E-21 3.56E-21 5.00E-19
Pr-144m 5.18E-20 5.83E-20 3.01E-20 2.30E-20 1.25E-19 3.42E-20 3.01E-20 4.19E-20 7.16E-20
Pr-144 2.46E-19 2.50E-19 2.37E-19 2.37E-19 3.51E-19 2.38E-19 2.28E-19 2.42E-19 1.53E-17
Pr-145 9.86E-20 1.02E-19 9.46E-20 9.35E-20 1.50E-19 9.76E-20 9.08E-20 9.72E-20 5.21E-18
Pr-147 5.40E-18 5.56E-18 5.17E-18 5.12E-18 8.00E-18 5.29E-18 4.97E-18 5.31E-18 1.26E-17
Neodymium
Nd-136 1.76E-18 1.82E-18 1.60E-18 1.54E-18 3.15E-18 1.64E-18 1.53E-18 1.69E-18 2.08E-18
Nd-138 2.07E-19 2.27E-19 1.48E-19 1.29E-19 4.50E-19 1.58E-19 1.44E-19 1.81E-19 2.62E-19
Nd-139m 9.75E-18 1.01E-17 9.43E-18 9.40E-18 1.37E-17 9.74E-18 9.08E-18 9.63E-18 1.14E-17
Nd-139 2.56E-18 2.63E-18 2.42E-18 2.39E-18 3.73E-18 2.50E-18 2.33E-18 2.50E-18 4.45E-18
Nd-141m 4.80E-18 4.96E-18 4.68E-18 4.67E-18 6.54E-18 4.87E-18 4.50E-18 4.76E-18 5.82E-18
Nd-141 4.11E-19 4.35E-19 3.49E-19 3.30E-19 6.99E-19 3.66E-19 3.36E-19 3.82E-19 5.00E-19
Nd-147 8.56E-19 8.86E-19 7.88E-19 7.52E-19 1.60E-18 8.05E-19 7.52E-19 8.30E-19 1.15E-18
Nd-149 2.43E-18 2.52E-18 2.31E-18 2.25E-18 4.24E-18 2.32E-18 2.21E-18 2.39E-18 4.74E-18
Nd-151 5.71E-18 5.89E-18 5.53E-18 5.49E-18 8.60E-18 5.64E-18 5.31E-18 5.65E-18 1.09E-17
Promethium
Pm-141 4.74E-18 4.86E-18 4.54E-18 4.51E-18 6.72E-18 4.66E-18 4.37E-18 4.65E-18 1.29E-17
Pm-142 5.66E-18 5.81E-18 5.42E-18 5.37E-18 8.12E-18 5.59E-18 5.22E-18 5.56E-18 2.63E-17
Pm-143 1.93E-18 2.01E-18 1.83E-18 1.81E-18 2.79E-18 1.92E-18 1.76E-18 1.89E-18 2.22E-18
-------
120
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Promethium, cont'd
Pm-144 9.95E-18 1.02E-17 9.57E-18 9.50E-18 1.40E-17 9.95E-18 9.21E-18 9.79E-18 1.13E-17
Pm-145 1.31E-19 1.47E-19 7.79E-20 5.64E-20 3.58E-19 8.65E-20 7.65E-20 1.07E-19 1.73E-19
Pm-146 4.78E-18 4.93E-18 4.59E-18 4.55E-18 6.83E-18 4.76E-18 4.42E-18 4.71E-18 5.48E-18
Pm-147 1.37E-22 1.50E-22 9.54E-23 7.93E-23 3.71E-22 9.91E-23 9.22E-23 1.19E-22 1.96E-22
Pm-148m 1.28E-17 1.31E-17 1.23E-17 1.23E-17 1.79E-17 1.28E-17 1.19E-17 1.26E-17 1.45E-17
Pm-148 3.58E-18 3.66E-18 3.49E-18 3.51E-18 4.75E-18 3.55E-18 3.37E-18 3.54E-18 1.05E-17
Pm-149 7.34E-20 7.64E-20 6.99E-20 6.87E-20 1.24E-19 7.01E-20 6.69E-20 7.23E-20 9.98E-19
Pm-150 8.87E-18 9.09E-18 8.62E-18 8.67E-18 1.21E-17 8.75E-18 8.32E-18 8.78E-18 1.69E-17
Pm-151 2.03E-18 2.10E-18 1.93E-18 1.89E-18 3.40E-18 1.95E-18 1.85E-18 1.99E-18 2.76E-18
Samarium
Sm-141m 1.24E-17 1.28E-17 1.20E-17 1.20E-17 1.77E-17 1.23E-17 1.15E-17 1.23E-17 1.83E-17
Sm-141 8.91E-18 9.12E-18 8.56E-18 8.53E-18 1.26E-17 8.75E-18 8.25E-18 8.76E-18 1.88E-17
Sm-142 5.44E-19 5.70E-19 4.76E-19 4.51E-19 9.46E-19 4.97E-19 4.57E-19 5.13E-19 7.19E-19
Sm-145 2.86E-19 3.19E-19 1.83E-19 1.32E-19 8.32E-19 1.98E-19 1.76E-19 2.41E-19 3.68E-19
Sm-146 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-147 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-151 9.28E-24 1.13E-23 8.75E-25 1.36E-24 8.72E-24 2.47E-24 2.02E-24 5.22E-24 2.44E-23
Sm-153 3.34E-19 3.53E-19 2.79E-19 2.37E-19 9.80E-19 2.77E-19 2.62E-19 3.15E-19 4.86E-19
Sm-155 6.32E-19 6.50E-19 5.83E-19 5.33E-19 1.69E-18 5.64E-19 5.46E-19 6.21E-19 3.82E-18
Sm-156 7.34E-19 7.66E-19 6.84E-19 6.49E-19 1.63E-18 6.66E-19 6.48E-19 7.21E-19 8.71E-19
Europium
Eu-145 8.94E-18 9.17E-18 8.67E-18 8.70E-18 1.20E-17 8.86E-18 8.37E-18 8.83E-18 1.02E-17
Eu-146 1.57E-17 1.61E-17 1.52E-17 1.52E-17 2.14E-17 1.57E-17 1.46E-17 1.55E-17 1.79E-17
Eu-147 3.04E-18 3.15E-18 2.89E-18 2.84E-18 4.81E-18 2.96E-18 2.77E-18 2.98E-18 3.46E-18
Eu-148 1.38E-17 1.41E-17 1.33E-17 1.32E-17 1.92E-17 1.37E-17 1.28E-17 1.36E-17 1.55E-17
Eu-149 3.39E-19 3.63E-19 2.78E-19 2.50E-19 7.34E-19 2.87E-19 2.66E-19 3.13E-19 4.06E-19
Eu-lBOb1 9.50E-18 9.79E-18 9.11E-18 9.03E-18 1.40E-17 9.35E-18 8.76E-18 9.35E-18 1.08E-17
Eu-150a2 2.96E-19 3.06E-19 2.79E-19 2.75E-19 4.62E-19 2.85E-19 2.68E-19 2.89E-19 l.OOE-18
Eu-152m 1.82E-18 1.89E-18 1.77E-18 1.76E-18 2.61E-18 1.83E-18 1.70E-18 1.81E-18 5.94E-18
Eu-152 7.11E-18 7.33E-18 6.89E-18 6.88E-18 1.01E-17 7.04E-18 6.63E-18 7.03E-18 8.13E-18
Eu-154 7.68E-18 7.90E-18 7.48E-18 7.49E-18 1.07E-17 7.67E-18 7.21E-18 7.62E-18 9.41E-18
Eu-155 3.45E-19 3.58E-19 3.09E-19 2.70E-19 1.05E-18 2.99E-19 2.89E-19 3.37E-19 3.83E-19
Eu-156 8.09E-18 8.24E-18 7.88E-18 7.95E-18 1.06E-17 7.97E-18 7.62E-18 8.00E-18 1.21E-17
Eu-157 1.62E-18 1.68E-18 1.51E-18 1.45E-18 2.85E-18 1.54E-18 1.44E-18 1.58E-18 2.94E-18
Eu-158 6.54E-18 6.73E-18 6.39E-18 6.41E-18 8.85E-18 6.56E-18 6.15E-18 6.49E-18 1.71E-17
Gadolinium
Gd-145 1.38E-17 1.39E-17 1.33E-17 1.34E-17 1.80E-17 1.33E-17 1.29E-17 1.35E-17 2.17E-17
Gd-146 1.41E-18 1.48E-18 1.23E-18 1.10E-18 3.74E-18 1.21E-18 1.16E-18 1.35E-18 1.61E-18
Gd-147 8.37E-18 8.65E-18 8.06E-18 8.00E-18 1.23E-17 8.26E-18 7.74E-18 8.26E-18 9.49E-18
Gd-148 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-149 2.60E-18 2.70E-18 2.44E-18 2.37E-18 4.53E-18 2.47E-18 2.33E-18 2.54E-18 2.96E-18
Gd-151 3.32E-19 3.57E-19 2.69E-19 2.34E-19 8.23E-19 2.72E-19 2.56E-19 3.06E-19 3.97E-19
Gd-152 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-153 5.53E-19 5.87E-19 4.52E-19 3.78E-19 1.65E-18 4.50E-19 4.25E-19 5.16E-19 6.42E-19
Gd-159 3.09E-19 3.22E-19 2.84E-19 2.71E-19 5.72E-19 2.88E-19 2.71E-19 3.00E-19 7.95E-19
Terbium
Tb-147 9.97E-18 1.03E-17 9.67E-18 9.64E-18 1.40E-17 9.96E-18 9.30E-18 9.86E-18 1.82E-17
Tb-149 9.97E-18 1.02E-17 9.63E-18 9.64E-18 1.39E-17 9.75E-18 9.28E-18 9.83E-18 1.28E-17
Tb-150 1.06E-17 1.08E-17 1.02E-17 1.02E-17 1.45E-17 1.04E-17 9.81E-18 1.04E-17 1.87E-17
Tb-151 5.60E-18 5.79E-18 5.32E-18 5.22E-18 8.94E-18 5.43E-18 5.11E-18 5.50E-18 6.36E-18
Tb-153 1.35E-18 1.42E-18 1.24E-18 1.17E-18 2.81E-18 1.24E-18 1.17E-18 1.31E-18 1.55E-18
Tb-154 1.40E-17 1.42E-17 1.36E-17 1.37E-17 1.85E-17 1.36E-17 1.31E-17 1.38E-17 1.57E-17
Tb-155 7.91E-19 8.33E-19 6.94E-19 6.21E-19 2.03E-18 6.86E-19 6.54E-19 7.58E-19 9.06E-19
Tb-156m3 1.24E-19 1.35E-19 9.61E-20 7.04E-20 4.24E-19 9.73E-20 8.90E-20 1.14E-19 1.48E-19
Tb-156n4 1.81E-20 1.95E-20 1.42E-20 1.11E-20 5.79E-20 1.43E-20 1.33E-20 1.66E-20 2.14E-20
Tb-156 1.13E-17 1.16E-17 1.09E-17 1.09E-17 1.61E-17 1.11E-17 1.05E-17 1.11E-17 1.27E-17
Tb-157 1.17E-20 1.29E-20 8.02E-21 5.74E-21 3.66E-20 8.46E-21 7.59E-21 1.01E-20 1.46E-20
Tb-158 4.90E-18 5.08E-18 4.75E-18 4.72E-18 7.09E-18 4.92E-18 4.56E-18 4.85E-18 5.62E-18
1 TK = 34.2 y
2 TK = 12.62 h
3 TK = 24.4 y
4 TK = 5.0 h
-------
121
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose
Nuclide
Terbium,
Tb-160
Tb-161
Gonad
cont '
6.
1.
98E
60E
d
-18
-19
Breast
7
1
.20E
. 74E
-18
-19
Lung
6
1
.81E
.22E
-18
-19
Coefficient hT (Sv per Bq s nr
J)
R Marrow BSurface Thyroid Remainder
6.81E-18 9.73E-18 7.00E-18 6
9.57E-20 5.06E-19 1.24E-19 1
.55E
.15E
-18
-19
Effective
6
1
.93E
.46E
-18
-19
8
2
Skin
.02E-18
.OOE-19
Dysprosium
Dy-155
Dy-157
Dy-159
Dy-165
Dy-166
Holmium
Ho-155
Ho-157
Ho-159
Ho -161
Ho-162m
Ho-162
Ho-164m
Ho-164
Ho-166m
Ho-166
Ho-167
Erbium
Er-161
Er-165
Er-169
Er-171
Er-172
Thulium
Tm-162
Tm-166
Tm-167
Tm-170
Tm-171
Tm-172
Tm-173
Tm-175
3.
2.
2.
1.
2.
2.
3.
2.
2.
3 .
9.
2.
1.
1.
1.
2.
5.
1.
3.
2.
3 .
1.
1.
8.
3 .
3 .
2.
2.
6.
57E
24E
09E
65E
09E
43E
02E
19E
80E
49E
78E
15E
44E
IDE
84E
34E
65E
80E
49E
41E
34E
08E
14E
46E
25E
24E
91E
52E
65E
-18
-18
-19
-19
-19
-18
-18
-18
-19
-18
-19
-19
-19
-17
-19
-18
-18
-19
-22
-18
-18
-17
-17
-19
-20
-21
-18
-18
-18
3
2
2
1
2
2
3
2
3
3
1
2
1
1
1
2
5
1
3
2
3
1
1
8
3
3
2
2
6
.70E
.33E
.31E
. 72E
.23E
.51E
. 14E
.29E
.06E
.61E
. 02E
.35E
.57E
. 14E
.90E
.43E
. 84E
.97E
.80E
.51E
.44E
.IDE
.16E
.95E
.43E
.49E
.97E
.59E
.85E
-18
-18
-19
-19
-19
-18
-18
-18
-19
-18
-18
-19
-19
-17
-19
-18
-18
-19
-22
-18
-18
-17
-17
-19
-20
-21
-18
-18
-18
3
2
1
1
1
2
2
2
2
3
9
1
1
1
1
2
5
1
2
2
3
1
1
7
2
2
2
2
6
.41E
.09E
.50E
.53E
.75E
.29E
.83E
. 02E
.08E
.34E
.DIE
. 62E
.HE
.07E
. 72E
.23E
.47E
.37E
.59E
.28E
.19E
. 04E
.IDE
.65E
.85E
.70E
.83E
.40E
.44E
-18
-18
-19
-19
-19
-18
-18
-18
-19
-18
-19
-19
-19
-17
-19
-18
-18
-19
-22
-18
-18
-17
-17
-19
-20
-21
-18
-18
-18
3.36E-18 5.75E-18 3.44E-18 3
2.03E-18 3.94E-18 2.11E-18 2
1.09E-19 6.78E-19 1.56E-19 1
1.46E-19 3.21E-19 1.56E-19 1
1.42E-19 6.47E-19 1.75E-19 1
2.23E-18 4.00E-18 2.35E-18 2
2.73E-18 5.35E-18 2.88E-18 2
1.90E-18 4.70E-18 2.01E-18 1
1.59E-19 8.75E-19 2.13E-19 1
3.30E-18 5.47E-18 3.41E-18 3
8.57E-19 1.79E-18 9.20E-19 8
1.19E-19 7.15E-19 1.65E-19 1
8.36E-20 4.76E-19 1.13E-19 1
1.06E-17 1.63E-17 1.10E-17 1
1.63E-19 3.62E-19 1.72E-19 1
2.18E-18 3.93E-18 2.24E-18 2
5.43E-18 8.19E-18 5.64E-18 5
l.OOE-19 6.08E-19 1.40E-19 1
2.17E-22 9.72E-22 2.64E-22 2
2.22E-18 4.45E-18 2.28E-18 2
3.14E-18 5.09E-18 3.29E-18 3
1.05E-17 1.47E-17 1.05E-17 1
1.11E-17 1.57E-17 1.11E-17 1
7.02E-19 1.99E-18 7.54E-19 7
2.37E-20 1.05E-19 2.78E-20 2
2.06E-21 1.14E-20 2.67E-21 2
2.85E-18 3.90E-18 2.86E-18 2
2.37E-18 3.90E-18 2.45E-18 2
6.42E-18 9.35E-18 6.65E-18 6
.27E
.OOE
.41E
.46E
.63E
.20E
.70E
.91E
.96E
.21E
.60E
.51E
. 04E
.03E
. 64E
. 14E
.25E
.27E
.48E
.18E
.07E
.DIE
.06E
.21E
.65E
.49E
. 74E
.31E
.20E
-18
-18
-19
-19
-19
-18
-18
-18
-19
-18
-19
-19
-19
-17
-19
-18
-18
-19
-22
-18
-18
-17
-17
-19
-20
-21
-18
-18
-18
3
2
1
1
1
2
2
2
2
3
9
1
1
1
1
2
5
1
3
2
3
1
1
8
3
3
2
2
6
. 52E
.18E
.85E
.61E
.97E
.38E
.95E
.13E
.51E
.44E
.47E
. 94E
.32E
.09E
.80E
.31E
.59E
. 64E
.13E
.37E
.28E
.06E
. 12E
.20E
.15E
.07E
.88E
.47E
.57E
-18
-18
-19
-19
-19
-18
-18
-18
-19
-18
-19
-19
-19
-17
-19
-18
-18
-19
-22
-18
-18
-17
-17
-19
-20
-21
-18
-18
-18
4
2
2
1
2
4
3
2
3
3
1
2
3
1
5
2
6
2
4
3
3
1
1
9
5
3
6
3
9
.06E-18
.54E-18
.57E-19
.95E-18
.43E-19
.62E-18
.56E-18
.48E-18
.47E-19
.95E-18
.19E-18
.60E-19
.77E-19
.25E-17
.32E-18
.80E-18
.43E-18
.16E-19
.75E-22
.63E-18
.77E-18
.60E-17
.30E-17
.70E-19
.80E-19
.76E-21
.69E-18
.29E-18
.77E-18
Ytterbium
Yb-162
Yb-166
Yb-167
Yb-169
Yb-175
Yb-177
Yb-178
Lutetium
Lu-169
Lu-170
Lu-171
Lu-172
Lu-173
Lu-174m
Lu-174
Lu-176m
Lu-176
Lu-177m
Lu-177
Lu-178m
Lu-178
Lu-179
7.
4.
1.
1.
2.
1.
2.
6.
1.
4.
1.
7.
3 .
7.
8.
3.
6.
2.
7.
8.
2.
88E
33E
52E
79E
54E
16E
27E
33E
48E
29E
16E
26E
18E
12E
34E
12E
31E
17E
07E
67E
03E
-19
-19
-18
-18
-19
-18
-19
-18
-17
-18
-17
-19
-19
-19
-20
-18
-18
-19
-18
-19
-19
8
4
1
1
2
1
2
6
1
4
1
7
3
7
8
3
6
2
7
8
2
.26E
.67E
.59E
.89E
. 62E
.20E
.34E
.51E
.49E
.45E
.20E
.69E
.40E
.44E
. 74E
.25E
.56E
.26E
.32E
.87E
.13E
-19
-19
-18
-18
-19
-18
-19
-18
-17
-18
-17
-19
-19
-19
-20
-18
-18
-19
-18
-19
-19
7
3
1
1
2
1
2
6
1
4
1
6
2
6
7
2
5
2
6
8
1
.09E
.57E
.36E
. 62E
.41E
.13E
.16E
. 12E
.43E
. 12E
.13E
.45E
. 72E
.61E
.48E
.96E
.98E
. 04E
. 72E
.42E
.93E
-19
-19
-18
-18
-19
-18
-19
-18
-17
-18
-17
-19
-19
-19
-20
-18
-18
-19
-18
-19
-19
6.35E-19 2.11E-18 6.90E-19 6
2.74E-19 1.49E-18 3.55E-19 3
1.21E-18 4.16E-18 1.34E-18 1
1.46E-18 4.63E-18 1.59E-18 1
2.34E-19 4.42E-19 2.43E-19 2
1.12E-18 1.82E-18 1.14E-18 1
2.13E-19 3.61E-19 2.20E-19 2
6.08E-18 9.38E-18 6.21E-18 5
1.45E-17 1.94E-17 1.44E-17 1
4.03E-18 6.73E-18 4.27E-18 3
1.13E-17 1.66E-17 1.16E-17 1
5.64E-19 1.95E-18 6.40E-19 6
2.22E-19 9.89E-19 2.72E-19 2
6.16E-19 1.47E-18 6.68E-19 6
6.33E-20 2.68E-19 7.25E-20 6
2.88E-18 5.80E-18 2.93E-18 2
5.77E-18 1.21E-17 5.93E-18 5
1.94E-19 4.84E-19 1.98E-19 1
6.55E-18 1.26E-17 6.74E-18 6
8.41E-19 1.25E-18 8.49E-19 8
1.88E-19 3.93E-19 1.89E-19 1
.65E
.30E
.28E
. 52E
.30E
.08E
.08E
.88E
.39E
. 94E
.09E
. 04E
.53E
.26E
.95E
.83E
.69E
.93E
.43E
.HE
. 84E
-19
-19
-18
-18
-19
-18
-19
-18
-17
-18
-17
-19
-19
-19
-20
-18
-18
-19
-18
-19
-19
7
4
1
1
2
1
2
6
1
4
1
7
3
6
8
3
6
2
6
8
2
.66E
.09E
.47E
.75E
.50E
.15E
.23E
.26E
.46E
.23E
.15E
.DIE
. 04E
.95E
.16E
.08E
.22E
.15E
.97E
.58E
.DIE
-19
-19
-18
-18
-19
-18
-19
-18
-17
-18
-17
-19
-19
-19
-20
-18
-18
-19
-18
-19
-19
8
5
1
2
2
3
2
7
1
4
1
8
3
8
1
3
7
2
9
7
2
.88E-19
.04E-19
.71E-18
.04E-18
.86E-19
.18E-18
.86E-19
.18E-18
.68E-17
.88E-18
.32E-17
.31E-19
.68E-19
.10E-19
.78E-18
.53E-18
.HE-IS
.44E-19
.65E-18
.57E-18
.22E-18
-------
122
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose
Nuclide
Hafnium
Hf-170
Hf-172
Hf-173
Hf-175
Hf-177m
Hf-178m
Hf-179m
Hf-180m
Hf-181
Hf-182m
Hf-182
Hf-183
Hf-184
Tantalum
Ta-172
Ta-173
Ta-174
Ta-175
Ta-176
Ta-177
Ta-178b1
Ta-178a2
Ta-179
Ta-180m
Ta-180
Ta-182m
Ta-182
Ta-183
Ta-184
Ta-185
Ta-186
Tungsten
W-176
W-177
W-178
W-179
W-181
W-185
W-187
W-188
Rhenium
Re-177
Re-178
Re-180
Re-181
Re-182b3
Re-182a4
Re-184m
Re-184
Re-186m
Re-186
Re-187
Re-188m
Re-188
Re-189
Osmium
Os-180
1 TK = 2.
2 TK = 9.
3 TK = 64
4 TK = 12
Gonad
3
5
2
2
1
1
5
6
3
5
1
4
1
9
3
3
5
1
3
6
6
1
2
3
1
7
1
1
1
9
9
5
6
2
2
9
3
1
3
7
7
4
1
7
2
5
7
1
0
4
3
4
3
2
31
.0
.7
.41E
.93E
.50E
.32E
.43E
.51E
.71E
.43E
.56E
.88E
.53E
.73E
.54E
.61E
.62E
.91E
.67E
.29E
.60E
.45E
.08E
.62E
.50E
.51E
.51E
.91E
.78E
.02E
.18E
.95E
.80E
.56E
.76E
.81E
.05E
.HE
.04E
.23E
.79E
.43E
.35E
.81E
.15E
.15E
.38E
.52E
.41E
.25E
.0
.22E
.81E
.33E
.26E
h
m
h
h
-18
-19
-18
-18
-17
-17
-18
-18
-18
-18
-18
-18
-18
-18
-18
-18
-18
-17
-19
-18
-19
-19
-19
-18
-18
-18
-18
-17
-18
-18
-19
-18
-20
-19
-19
-22
-18
-20
-18
-18
-18
-18
-17
-18
-18
-18
-20
-19
-19
-19
-19
-19
Breast
3
6
2
2
1
1
5
6
3
6
1
4
1
9
3
4
5
1
3
6.
6.
1
2
3
1
8
1
1
1
1
1
5
7
3
2
9
3
1
3
7
7
4
1.
7.
2
5
7
1
0
4
3
4
3
. 52E
.33E
.60E
.41E
.48E
.56E
.91E
.65E
.66E
.08E
.59E
.88E
.60E
.89E
.73E
.05E
.81E
.31E
. 82E
,69E
,36E
. 74E
.67E
.66E
.58E
.15E
.86E
.05E
.23E
.03E
.03E
.75E
.25E
.05E
.20E
. 72E
.13E
.28E
.88E
.57E
.60E
.97E
,19E
,36E
.47E
. 72E
.96E
.30E
.0
.46E
.93E
. 52E
.45E
-18
-19
-18
-18
-17
-17
-18
-18
-18
-18
-18
-18
-18
-18
-18
-18
-18
-17
-19
-18
-19
-19
-19
-18
-18
-18
-18
-17
-18
-17
-18
-18
-20
-19
-19
-22
-18
-20
-18
-18
-18
-18
-17
-18
-18
-18
-20
-19
-19
-19
-19
-19
Lung
3
5
2
2
1
1
5
6
3
5
1
4
1
9
3
3
5
1
3
6.
5.
1
2
3
1
7
1
9
1
9
8
5
5
2
1
7
2
1
3
7
7
4
1.
6.
2
5
6
1
0
3
3
4
2
.22E
.06E
.35E
.18E
.36E
.44E
.41E
.HE
.39E
. 64E
.45E
.58E
.45E
.30E
.45E
. 74E
.45E
.26E
.17E
.HE
,60E
.37E
. 14E
.32E
.41E
. 72E
.67E
.85E
.HE
.58E
.80E
.33E
. 82E
.24E
.77E
.49E
. 92E
.16E
. 62E
.15E
.15E
.61E
. 12E
,95E
.28E
.37E
.22E
.16E
.0
.79E
. 64E
.IDE
.89E
-18
-19
-18
-18
-17
-17
-18
-18
-18
-18
-18
-18
-18
-18
-18
-18
-18
-17
-19
-18
-19
-19
-19
-18
-18
-18
-18
-18
-18
-18
-19
-18
-20
-19
-19
-22
-18
-20
-18
-18
-18
-18
-17
-18
-18
-18
-20
-19
-19
-19
-19
-19
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
3.10E-18 6.23E-18 3.27E-18
4.10E-19 1.94E-18 4.98E-19
2.22E-18 5.40E-18 2.32E-18
2.10E-18 4.22E-18 2.20E-18
1.32E-17 2.58E-17 1.35E-17
1.41E-17 2.47E-17 1.46E-17
5.25E-18 1.02E-17 5.44E-18
5.96E-18 1.11E-17 6.16E-18
3.32E-18 5.87E-18 3.46E-18
5.53E-18 9.64E-18 5.74E-18
1.42E-18 2.79E-18 1.43E-18
4.53E-18 7.04E-18 4.73E-18
1.39E-18 3.07E-18 1.44E-18
9.26E-18 1.41E-17 9.48E-18
3.36E-18 6.05E-18 3.52E-18
3.65E-18 6.62E-18 3.79E-18
5.39E-18 8.80E-18 5.48E-18
1.26E-17 1.73E-17 1.26E-17
2.64E-19 1.11E-18 3.13E-19
5.90E-18 1.20E-17 6.12E-18
5.10E-19 1.43E-18 5.59E-19
1.06E-19 5.74E-19 1.35E-19
1.69E-19 8.70E-19 2.10E-19
3.21E-18 6.68E-18 3.30E-18
1.31E-18 3.60E-18 1.36E-18
7.71E-18 1.14E-17 7.88E-18
1.58E-18 3.89E-18 1.64E-18
9.77E-18 1.55E-17 1.01E-17
1.04E-18 2.63E-18 1.09E-18
9.47E-18 1.54E-17 9.79E-18
7.42E-19 3.17E-18 8.51E-19
5.19E-18 9.58E-18 5.42E-18
4.52E-20 2.41E-19 5.70E-20
1.74E-19 9.38E-19 2.24E-19
1.38E-19 7.28E-19 1.73E-19
6.44E-22 2.61E-21 7.44E-22
2.88E-18 4.63E-18 3.02E-18
1.12E-20 2.38E-20 1.14E-20
3.54E-18 6.23E-18 3.65E-18
7.12E-18 1.10E-17 7.22E-18
7.09E-18 1.08E-17 7.40E-18
4.51E-18 7.84E-18 4.70E-18
1.10E-17 1.84E-17 1.13E-17
6.90E-18 1.07E-17 7.08E-18
2.21E-18 4.29E-18 2.31E-18
5.31E-18 8.25E-18 5.56E-18
4.87E-20 2.54E-19 6.14E-20
1.05E-19 3.40E-19 1.12E-19
0.0 0.0 0.0
3.14E-19 1.43E-18 3.67E-19
3.53E-19 7.02E-19 3.64E-19
3.94E-19 8.90E-19 4.02E-19
2.41E-19 1.02E-18 2.85E-19
m"
3)
Remainder
3
4
2
2
1
1
5
5
3
5
1
4
1
8
3
3
5
1
2
5.
5.
1
1
3
1
7
1
9
1
9
8
5
5
2
1
7
2
1
3
6
6
4
1.
6.
2
5
5
1
0
3
3
3
2
.07E
.70E
.22E
.08E
.30E
.38E
.17E
.85E
.25E
.40E
.39E
.40E
.38E
. 94E
.30E
.58E
.24E
.21E
.95E
,83E
,27E
.27E
.98E
.17E
.32E
.43E
.58E
.46E
.05E
.19E
.17E
.09E
.37E
.09E
.63E
.08E
.81E
.IDE
.47E
.88E
.86E
.41E
,07E
,68E
.17E
.15E
.77E
.09E
.0
. 52E
.46E
.89E
.69E
-18
-19
-18
-18
-17
-17
-18
-18
-18
-18
-18
-18
-18
-18
-18
-18
-18
-17
-19
-18
-19
-19
-19
-18
-18
-18
-18
-18
-18
-18
-19
-18
-20
-19
-19
-22
-18
-20
-18
-18
-18
-18
-17
-18
-18
-18
-20
-19
-19
-19
-19
-19
Effective
3
5
2
2
1
1
5
6
3
5
1
4
1
9
3
3
5
1
3
6.
5.
1
2
3
1
7
1
1
1
9
9
5
6
2
1
8
3
1
3
7
7
4
1.
7.
2
5
7
1
0
4
3
4
3
.34E
.68E
.46E
.27E
.41E
.49E
. 62E
.32E
.50E
.80E
.51E
.68E
. 52E
.50E
.56E
.86E
.59E
.28E
.49E
,35E
,93E
.55E
.40E
.46E
.49E
.86E
.76E
.DIE
.16E
.83E
.59E
.49E
. 52E
.61E
.98E
. 54E
.OOE
.21E
.73E
.32E
.29E
. 74E
. 14E
,09E
.36E
.48E
.05E
.24E
.0
.15E
.76E
.28E
.17E
-18
-19
-18
-18
-17
-17
-18
-18
-18
-18
-18
-18
-18
-18
-18
-18
-18
-17
-19
-18
-19
-19
-19
-18
-18
-18
-18
-17
-18
-18
-19
-18
-20
-19
-19
-22
-18
-20
-18
-18
-18
-18
-17
-18
-18
-18
-20
-19
-19
-19
-19
-19
3
6
2
2
1
1
6
7
4
6
1
7
2
1
7
7
6
1
4
7.
6.
1
2
3
1
9
2
1
5
2
1
6
7
3
2
1
3
1
7
1
8
5
1.
8.
2
6
8
8
0
4
7
1
3
Skin
.84E-18
.86E-19
.81E-18
.62E-18
.61E-17
.70E-17
.43E-18
.25E-18
.OOE-18
.71E-18
.72E-18
.09E-18
.27E-18
.54E-17
.16E-18
.45E-18
.36E-18
.47E-17
.11E-19
.27E-18
.90E-19
.87E-19
.94E-19
.97E-18
.69E-18
.03E-18
.03E-18
.28E-17
.81E-18
.03E-17
.09E-18
.37E-18
.76E-20
.38E-19
.35E-19
.14E-21
.96E-18
.40E-20
.07E-18
.47E-17
.93E-18
.44E-18
.31E-17
.17E-18
.70E-18
.29E-18
.85E-20
.99E-19
.0
.75E-19
.HE-IS
.03E-18
.83E-19
-------
123
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Osmium, cont' d
Os-181 7.53E-18 7.76E-18 7.28E-18 7.22E-18 1.16E-17 7.41E-18 6.99E-18 7.45E-18 8.62E-18
Os-182 2.72E-18 2.81E-18 2.58E-18 2.49E-18 4.91E-18 2.61E-18 2.47E-18 2.68E-18 3.07E-18
Os-185 4.53E-18 4.67E-18 4.37E-18 4.31E-18 6.77E-18 4.53E-18 4.19E-18 4.47E-18 5.15E-18
Os-189m 1.05E-23 2.37E-23 1.47E-25 8.10E-25 4.90E-24 l.OOE-24 2.63E-24 7.26E-24 5.34E-22
Os-190m 1.02E-17 1.05E-17 9.80E-18 9.69E-18 1.55E-17 l.OOE-17 9.42E-18 1.01E-17 1.15E-17
Os-191m 3.88E-20 4.12E-20 3.46E-20 2.78E-20 1.38E-19 3.35E-20 3.20E-20 3.81E-20 4.46E-20
Os-191 4.38E-19 4.57E-19 4.03E-19 3.52E-19 1.34E-18 3.88E-19 3.75E-19 4.33E-19 4.88E-19
Os-193 4.62E-19 4.77E-19 4.37E-19 4.19E-19 8.87E-19 4.40E-19 4.17E-19 4.54E-19 1.38E-18
Os-194 4.76E-21 5.30E-21 3.22E-21 2.30E-21 1.47E-20 3.41E-21 3.06E-21 4.11E-21 6.53E-21
Iridium
Ir-182 8.50E-18 8.76E-18 8.19E-18 8.10E-18 1.30E-17 8.37E-18 7.87E-18 8.40E-18 2.18E-17
Ir-184 1.18E-17 1.21E-17 1.14E-17 1.14E-17 1.75E-17 1.16E-17 1.10E-17 1.17E-17 1.54E-17
Ir-185 3.56E-18 3.63E-18 3.42E-18 3.38E-18 5.73E-18 3.38E-18 3.29E-18 3.51E-18 4.03E-18
Ir-18631 1.02E-17 1.04E-17 9.80E-18 9.74E-18 1.52E-17 9.93E-18 9.42E-18 l.OOE-17 1.15E-17
Ir-186b2 6.01E-18 6.19E-18 5.81E-18 5.74E-18 9.20E-18 5.94E-18 5.57E-18 5.94E-18 8.26E-18
Ir-187 2.22E-18 2.30E-18 2.13E-18 2.06E-18 3.90E-18 2.17E-18 2.03E-18 2.19E-18 2.53E-18
Ir-188 9.58E-18 9.71E-18 9.26E-18 9.29E-18 1.34E-17 9.27E-18 8.94E-18 9.44E-18 1.07E-17
Ir-189 4.44E-19 4.69E-19 4.05E-19 3.51E-19 1.32E-18 3.94E-19 3.78E-19 4.37E-19 5.03E-19
Ir-190n3 9.94E-18 1.02E-17 9.52E-18 9.36E-18 1.56E-17 9.74E-18 9.14E-18 9.79E-18 1.12E-17
Ir-190m4 1.34E-23 2.96E-23 5.63E-26 9.86E-25 5.83E-24 1.09E-24 3.13E-24 9.07E-24 5.86E-22
Ir-190 9.18E-18 9.46E-18 8.79E-18 8.64E-18 1.46E-17 8.99E-18 8.44E-18 9.04E-18 1.04E-17
Ir-191m 4.12E-19 4.30E-19 3.80E-19 3.33E-19 1.25E-18 3.65E-19 3.54E-19 4.07E-19 4.59E-19
Ir-192m 1.01E-18 1.05E-18 9.61E-19 9.22E-19 2.25E-18 9.25E-19 9.10E-19 1.01E-18 1.13E-18
Ir-192 5.28E-18 5.45E-18 5.05E-18 4.98E-18 8.35E-18 5.12E-18 4.85E-18 5.20E-18 5.99E-18
Ir-194m 1.50E-17 1.55E-17 1.45E-17 1.43E-17 2.22E-17 1.49E-17 1.39E-17 1.48E-17 1.70E-17
Ir-194 5.99E-19 6.18E-19 5.76E-19 5.71E-19 9.22E-19 5.83E-19 5.53E-19 5.91E-19 8.20E-18
Ir-195m 2.61E-18 2.70E-18 2.48E-18 2.40E-18 4.75E-18 2.51E-18 2.37E-18 2.57E-18 3.17E-18
Ir-195 3.18E-19 3.34E-19 2.91E-19 2.49E-19 1.02E-18 2.81E-19 2.71E-19 3.15E-19 1.02E-18
Platinum
Pt-186 4.66E-18 4.81E-18 4.50E-18 4.44E-18 7.00E-18 4.67E-18 4.32E-18 4.60E-18 5.28E-18
Pt-188 1.20E-18 1.26E-18 1.13E-18 1.05E-18 2.82E-18 1.11E-18 1.06E-18 1.19E-18 1.36E-18
Pt-189 1.97E-18 2.04E-18 1.87E-18 1.78E-18 3.89E-18 1.89E-18 1.77E-18 1.94E-18 2.23E-18
Pt-191 1.83E-18 1.90E-18 1.72E-18 1.61E-18 3.99E-18 1.73E-18 1.63E-18 1.80E-18 2.07E-18
Pt-193m 5.74E-20 6.07E-20 5.20E-20 4.27E-20 2.01E-19 5.02E-20 4.82E-20 5.68E-20 6.55E-20
Pt-193 4.65E-23 9.70E-23 1.62E-25 3.52E-24 2.06E-23 3.60E-24 l.OOE-23 3.03E-23 1.66E-21
Pt-195m 3.90E-19 4.10E-19 3.55E-19 2.99E-19 1.30E-18 3.42E-19 3.30E-19 3.86E-19 4.39E-19
Pt-197m 4.77E-19 4.98E-19 4.46E-19 4.12E-19 1.12E-18 4.42E-19 4.21E-19 4.70E-19 5.43E-19
Pt-197 1.36E-19 1.43E-19 1.27E-19 1.13E-19 3.96E-19 1.23E-19 1.19E-19 1.36E-19 1.90E-19
Pt-199 1.30E-18 1.34E-18 1.25E-18 1.24E-18 1.98E-18 1.28E-18 1.20E-18 1.28E-18 4.34E-18
Pt-200 3.45E-19 3.61E-19 3.22E-19 2.93E-19 9.05E-19 3.14E-19 3.02E-19 3.42E-19 4.14E-19
Gold
Au-193 9.29E-19 9.71E-19 8.66E-19 7.87E-19 2.40E-18 8.48E-19 8.13E-19 9.18E-19 1.04E-18
Au-194 6.54E-18 6.69E-18 6.32E-18 6.30E-18 9.65E-18 6.34E-18 6.09E-18 6.46E-18 7.40E-18
Au-195m 1.26E-18 1.31E-18 1.20E-18 1.16E-18 2.38E-18 1.18E-18 1.14E-18 1.24E-18 1.42E-18
Au-195 4.43E-19 4.66E-19 4.03E-19 3.36E-19 1.51E-18 3.88E-19 3.74E-19 4.38E-19 4.97E-19
Au-198m 3.56E-18 3.71E-18 3.37E-18 3.20E-18 7.88E-18 3.27E-18 3.19E-18 3.52E-18 3.99E-18
Au-198 2.63E-18 2.71E-18 2.52E-18 2.48E-18 4.00E-18 2.57E-18 2.42E-18 2.59E-18 3.50E-18
Au-199 5.44E-19 5.66E-19 5.14E-19 4.87E-19 1.26E-18 4.95E-19 4.85E-19 5.39E-19 6.07E-19
Au-200m 1.33E-17 1.38E-17 1.28E-17 1.27E-17 2.00E-17 1.32E-17 1.23E-17 1.32E-17 1.51E-17
Au-200 1.71E-18 1.76E-18 1.67E-18 1.67E-18 2.37E-18 1.70E-18 1.60E-18 1.70E-18 8.61E-18
Au-201 3.46E-19 3.56E-19 3.32E-19 3.26E-19 5.33E-19 3.41E-19 3.18E-19 3.41E-19 1.90E-18
Mercury
Hg-193m 6.48E-18 6.68E-18 6.25E-18 6.18E-18 1.01E-17 6.33E-18 6.00E-18 6.41E-18 7.33E-18
Hg-193 1.18E-18 1.23E-18 1.10E-18 1.01E-18 2.98E-18 1.07E-18 1.03E-18 1.16E-18 1.37E-18
Hg-194 9.47E-23 1.82E-22 4.09E-25 7.60E-24 4.40E-23 7.13E-24 1.83E-23 5.89E-23 2.32E-21
Hg-195m 1.29E-18 1.34E-18 1.23E-18 1.18E-18 2.44E-18 1.23E-18 1.17E-18 1.27E-18 1.46E-18
Hg-195 1.20E-18 1.25E-18 1.15E-18 1.10E-18 2.39E-18 1.17E-18 1.09E-18 1.19E-18 1.37E-18
1 TK = 15.8 h
2 TK = 1.75 h
3 TK = 3 . 1 h
4 TV, = 1.2 h
-------
124
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose
Nuclide
Mercury,
Hg-197m
Hg-197
Hg-199m
Hg-203
Thallium
Tl-194m
Tl-194
Tl-195
Tl-197
Tl-198m
Tl-198
Tl-199
Tl-200
Tl-201
Tl-202
Tl-204
Tl-206
Tl-207
Tl-208
Tl-209
Lead
Pb-195m
Pb-198
Pb-199
Pb-200
Pb-201
Pb-202m
Pb-202
Pb-203
Pb-205
Pb-209
Pb-210
Pb-211
Pb-212
Pb-214
Bismuth
Bi-200
Bi-201
Bi-202
Bi-203
Bi-205
Bi-206
Bi-207
Bi-210m
Bi-210
Bi-211
Bi-212
Bi-213
Bi-214
Polonium
Po-203
Po-205
Po-207
Po-210
Po-211
Po-212
Po-213
Po-214
Po-215
Po-216
Po-218
Gonad
cont '
5
3
1
1
1
4
7
2
7
1
1
8
5
2
8
1
2
2
1
1
2
9
1
4
1
4
1
5
1
9
3
9
1
1
8
1
1
1
2
9
1
5
3
1
8
9
1
9
8
5
4
0
0
5
1
1
5
.44E
. 64E
. 12E
. 52E
.48E
. 94E
.73E
.50E
. 62E
.23E
. 52E
.15E
. 12E
.97E
.20E
.15E
.31E
.OOE
.25E
.DIE
.73E
.IDE
.24E
.75E
.29E
.97E
.93E
.76E
.50E
.36E
.29E
.20E
.59E
.51E
.32E
.70E
.45E
.03E
. 04E
.59E
. 64E
.79E
.DIE
.16E
.67E
.26E
.DIE
.75E
.25E
.36E
. 94E
.0
.0
.26E
.15E
.07E
.73E
d
-19
-19
-18
-18
-17
-18
-18
-18
-18
-17
-18
-18
-19
-18
-21
-20
-20
-17
-17
-17
-18
-18
-18
-18
-17
-23
-18
-23
-21
-21
-19
-19
-18
-17
-18
-17
-17
-17
-17
-18
-18
-21
-19
-18
-19
-18
-17
-18
-18
-23
-20
-22
-21
-22
-23
Breast
5
3
1
1
1
5
7
2
7
1
1
8
5
3
8
1
2
2
1
1
2
9
1
4
1
1
2
1
1
1
3
9
1
1
8
1
1
1
2
9
1
6
3
1
8
9
1
1
8
5
5
0
0
5
1
1
5
. 64E
.83E
.17E
.58E
. 52E
.09E
.88E
.58E
.85E
.25E
.57E
.38E
.37E
.06E
.65E
.20E
.40E
.OOE
.27E
. 04E
.83E
.32E
.29E
.91E
.33E
.06E
.DIE
.21E
.60E
.05E
.40E
.60E
.65E
.56E
.58E
. 74E
.48E
.05E
.IDE
.87E
.71E
.HE
.HE
.19E
.91E
.42E
. 04E
.OOE
.51E
. 54E
.09E
.0
.0
.43E
.18E
.IDE
.93E
-19
-19
-18
-18
-17
-18
-18
-18
-18
-17
-18
-18
-19
-18
-21
-20
-20
-17
-17
-17
-18
-18
-18
-18
-17
-22
-18
-22
-21
-20
-19
-19
-18
-17
-18
-17
-17
-17
-17
-18
-18
-21
-19
-18
-19
-18
-17
-17
-18
-23
-20
-22
-21
-22
-23
Lung
5
3
1
1
1
4
7
2
7
1
1
7
4
2
7
1
2
1
1
9
2
8
1
4
1
1
1
2
1
6
3
8
1
1
8
1
1
1
1
9
1
5
2
1
8
9
9
9
8
5
4
0
0
5
1
1
5
.IDE
.34E
.06E
.45E
.43E
. 74E
.49E
.40E
.31E
.19E
.44E
.90E
. 74E
.83E
.35E
.03E
.17E
.93E
.21E
.75E
.60E
. 82E
.16E
.57E
.25E
.71E
.83E
. 14E
.23E
.63E
.18E
.73E
. 52E
.46E
.09E
.65E
.42E
.OOE
.98E
.33E
.57E
.06E
.87E
.13E
.29E
.DIE
.87E
.51E
. 04E
.24E
.81E
.0
.0
.13E
.IDE
. 04E
.61E
-19
-19
-18
-18
-17
-18
-18
-18
-18
-17
-18
-18
-19
-18
-21
-20
-20
-17
-17
-18
-18
-18
-18
-18
-17
-25
-18
-25
-21
-21
-19
-19
-18
-17
-18
-17
-17
-17
-17
-18
-18
-21
-19
-18
-19
-18
-18
-18
-18
-23
-20
-22
-21
-22
-23
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
4.68E-19 1.43E-18 4.92E-19
2.78E-19 1.25E-18 3.21E-19
9.97E-19 2.60E-18 1.04E-18
1.42E-18 2.71E-18 1.44E-18
1.41E-17 2.19E-17 1.47E-17
4.66E-18 7.80E-18 4.87E-18
7.49E-18 1.09E-17 7.56E-18
2.34E-18 4.40E-18 2.43E-18
7.20E-18 1.17E-17 7.51E-18
1.19E-17 1.69E-17 1.20E-17
1.37E-18 3.14E-18 1.44E-18
7.86E-18 1.19E-17 8.04E-18
4.11E-19 1.61E-18 4.56E-19
2.75E-18 5.04E-18 2.88E-18
6.25E-21 2.63E-20 7.13E-21
9.53E-21 2.61E-20 1.02E-20
2.12E-20 3.99E-20 2.22E-20
1.96E-17 2.55E-17 1.92E-17
1.21E-17 1.73E-17 1.21E-17
9.64E-18 1.53E-17 l.OOE-17
2.51E-18 5.16E-18 2.61E-18
8.80E-18 1.31E-17 8.92E-18
1.08E-18 3.09E-18 1.13E-18
4.50E-18 7.67E-18 4.65E-18
1.25E-17 1.80E-17 1.30E-17
3.72E-24 2.18E-23 3.97E-24
1.76E-18 3.93E-18 1.81E-18
4.38E-24 2.57E-23 4.58E-24
1.09E-21 3.98E-21 1.23E-21
4.81E-21 3.01E-20 6.88E-21
3.16E-19 4.79E-19 3.28E-19
8.38E-19 1.93E-18 8.53E-19
1.49E-18 2.75E-18 1.53E-18
1.45E-17 2.23E-17 1.50E-17
8.04E-18 1.21E-17 8.35E-18
1.64E-17 2.41E-17 1.69E-17
1.42E-17 1.97E-17 1.43E-17
1.01E-17 1.41E-17 1.01E-17
1.98E-17 2.86E-17 2.03E-17
9.30E-18 1.36E-17 9.59E-18
1.54E-18 2.87E-18 1.56E-18
4.64E-21 1.39E-20 5.03E-21
2.82E-19 4.97E-19 2.89E-19
1.13E-18 1.57E-18 1.16E-18
8.17E-19 1.33E-18 8.50E-19
9.09E-18 1.21E-17 9.11E-18
9.86E-18 1.44E-17 1.01E-17
9.49E-18 1.38E-17 9.75E-18
8.02E-18 1.19E-17 8.29E-18
5.24E-23 7.26E-23 5.45E-23
4.80E-20 6.77E-20 4.99E-20
0.0 0.0 0.0
0.0 0.0 0.0
5.13E-22 7.12E-22 5.35E-22
1.08E-21 1.71E-21 1.12E-21
1.04E-22 1.44E-22 1.09E-22
5.61E-23 7.74E-23 5.84E-23
nr
J)
Remainder
4
3
1
1
1
4
7
2
7
1
1
7
4
2
6
9
2
1
1
9
2
8
1
4
1
1
1
1
1
6
3
8
1
1
7
1
1
9
1
8
1
4
2
1
7
8
9
9
7
5
4
0
0
4
1
1
5
.78E
.09E
.OOE
.39E
.37E
.55E
.22E
.30E
. 02E
.15E
.36E
.59E
.41E
.71E
.86E
.71E
.08E
.87E
.17E
.36E
.48E
.49E
.09E
.38E
.21E
.HE
. 74E
.26E
.17E
.25E
.06E
.29E
.45E
.40E
.78E
.58E
.37E
.67E
.91E
.97E
.50E
.80E
.75E
.09E
.97E
.71E
.50E
.15E
.73E
. 04E
. 62E
.0
.0
. 94E
.05E
.OOE
.40E
-19
-19
-18
-18
-17
-18
-18
-18
-18
-17
-18
-18
-19
-18
-21
-21
-20
-17
-17
-18
-18
-18
-18
-18
-17
-23
-18
-23
-21
-21
-19
-19
-18
-17
-18
-17
-17
-18
-17
-18
-18
-21
-19
-18
-19
-18
-18
-18
-18
-23
-20
-22
-21
-22
-23
Effective
5
3
1
1
1
4
7
2
7
1
1
8
5
2
8
1
2
1
1
9
2
8
1
4
1
3
1
3
1
8
3
9
1
1
8
1
1
1
2
9
1
5
2
1
8
9
1
9
8
5
4
0
0
5
1
1
5
.39E
. 62E
.HE
.50E
.46E
.87E
.63E
.48E
.51E
.21E
.50E
.06E
.09E
. 92E
. 04E
.IDE
.26E
.96E
.23E
.98E
.70E
.99E
.23E
.70E
.28E
.30E
.91E
.78E
.40E
.27E
.25E
.HE
.57E
.49E
.25E
.68E
.44E
. 02E
. 02E
.50E
. 62E
. 54E
.96E
.15E
. 52E
.15E
.OOE
.67E
.19E
.32E
.89E
.0
.0
.22E
.13E
.06E
.70E
-19
-19
-18
-18
-17
-18
-18
-18
-18
-17
-18
-18
-19
-18
-21
-20
-20
-17
-17
-18
-18
-18
-18
-18
-17
-23
-18
-23
-21
-21
-19
-19
-18
-17
-18
-17
-17
-17
-17
-18
-18
-21
-19
-18
-19
-18
-17
-18
-18
-23
-20
-22
-21
-22
-23
6
4
1
1
1
5
8
2
8
1
1
9
5
3
1
3
2
2
1
1
3
1
1
5
1
2
2
2
3
1
2
1
1
1
1
1
1
1
2
1
1
1
3
5
2
1
1
1
9
6
5
0
0
6
1
1
6
Skin
.05E-19
.09E-19
.26E-18
.72E-18
.93E-17
.59E-18
.93E-18
.89E-18
.63E-18
.37E-17
.71E-18
.24E-18
.73E-19
.34E-18
.80E-19
.01E-18
.43E-18
.53E-17
.88E-17
.24E-17
.09E-18
.02E-17
.38E-18
.39E-18
.46E-17
.07E-21
.18E-18
.24E-21
.59E-20
.55E-20
.38E-18
.04E-18
.91E-18
.83E-17
.OOE-17
.95E-17
.65E-17
.16E-17
.31E-17
.17E-17
.86E-18
.19E-18
.39E-19
.37E-18
.71E-18
.56E-17
.22E-17
.12E-17
.48E-18
.12E-23
.67E-20
.0
.0
.OOE-22
.29E-21
.22E-22
.55E-23
-------
125
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose
Nuclide
Astatine
At-207
At-211
At-215
At-216
At-217
At-218
Radon
Rn-218
Rn-219
Rn-220
Rn-222
Franc ium
Fr-219
Fr-220
Fr-221
Fr-222
Fr-223
Radium
Ra-222
Ra-223
Ra-224
Ra-225
Ra-226
Ra-227
Ra-228
Actinium
Ac-223
Ac-224
Ac-225
Ac-226
Ac-227
Ac-228
Thorium
Th-226
Th-227
Th-228
Th-229
Th-230
Th-231
Th-232
Th-234
Gonad
8
2
1
8
1
1
4
3
2
2
2
6
1
1
3
5
8
6
5
4
1
0
2
1
9
8
7
6
4
6
1
5
2
7
1
4
.19E
.15E
.25E
.41E
.98E
. 84E
.87E
.61E
.49E
.59E
.25E
.56E
.95E
.99E
.20E
.93E
.18E
.29E
.17E
.18E
.DIE
.0
.80E
.20E
.67E
. 04E
. 94E
. 02E
.81E
.59E
.24E
.15E
.50E
. 64E
.33E
. 64E
-18
-19
-21
-21
-21
-20
-21
-19
-21
-21
-20
-20
-19
-20
-19
-20
-19
-20
-20
-20
-18
-20
-18
-20
-19
-22
-18
-20
-19
-20
-19
-21
-20
-21
-20
Breast
8
2
1
8
2
2
5
3
2
2
2
6
2
2
3
6
8
6
5
4
1
0
2
1
1
8
8
6
4
6
1
5
2
8
1
4
.39E
.23E
.29E
.73E
. 04E
.DIE
.OOE
. 74E
.56E
.65E
.32E
.81E
.03E
.08E
.38E
.15E
.47E
.56E
.83E
.37E
. 04E
.0
.90E
.25E
.OOE
.38E
.35E
.20E
.97E
.87E
.31E
.34E
.77E
.22E
. 54E
.83E
-18
-19
-21
-21
-21
-20
-21
-19
-21
-21
-20
-20
-19
-20
-19
-20
-19
-20
-20
-20
-18
-20
-18
-19
-19
-22
-18
-20
-19
-20
-19
-21
-20
-21
-20
Lung
7
2
1
7
1
1
4
3
2
2
2
6
1
1
2
5
7
6
3
3
9
0
2
1
9
7
7
5
4
6
1
4
2
6
9
4
. 94E
.OOE
.20E
.81E
.90E
.47E
.70E
.45E
.40E
.48E
.15E
.17E
.85E
.81E
.88E
.67E
. 74E
.OOE
.08E
.97E
.49E
.0
.63E
.13E
. 04E
.63E
.HE
.87E
.51E
.22E
. 14E
.78E
.OOE
. 02E
.06E
.20E
-18
-19
-21
-21
-21
-20
-21
-19
-21
-21
-20
-20
-19
-20
-19
-20
-19
-20
-20
-20
-19
-20
-18
-20
-19
-22
-18
-20
-19
-20
-19
-21
-20
-22
-20
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
7.92E-18 1.18E-17 8.10E-18
1.73E-19 6.83E-19 1.92E-19
1.18E-21 1.92E-21 1.22E-21
6.80E-21 2.68E-20 7.48E-21
1.87E-21 3.02E-21 1.95E-21
1.11E-20 6.34E-20 1.47E-20
4.67E-21 6.79E-21 4.88E-21
3.39E-19 6.04E-19 3.46E-19
2.38E-21 3.54E-21 2.48E-21
2.46E-21 3.73E-21 2.56E-21
2.11E-20 3.61E-20 2.18E-20
5.81E-20 1.59E-19 5.94E-20
1.80E-19 3.87E-19 1.80E-19
1.70E-20 4.25E-20 1.80E-20
2.58E-19 8.20E-19 2.85E-19
5.58E-20 9.79E-20 5.68E-20
7.33E-19 1.82E-18 7.59E-19
5.87E-20 1.17E-19 5.87E-20
2.19E-20 1.44E-19 3.42E-20
3.83E-20 8.93E-20 3.84E-20
9.31E-19 1.69E-18 9.59E-19
0.0 0.0 0.0
2.52E-20 5.68E-20 2.61E-20
1.07E-18 2.87E-18 1.09E-18
8.35E-20 2.51E-19 8.73E-20
7.36E-19 1.68E-18 7.42E-19
6.57E-22 2.03E-21 6.87E-22
5.87E-18 8.32E-18 6.02E-18
4.23E-20 1.17E-19 4.35E-20
6.02E-19 1.27E-18 6.14E-19
1.05E-20 3.21E-20 1.10E-20
4.36E-19 1.41E-18 4.60E-19
1.76E-21 6.89E-21 1.96E-21
5.35E-20 2.09E-19 5.98E-20
7.90E-22 3.41E-21 9.09E-22
3.64E-20 1.46E-19 4.04E-20
nr
J)
Remainder
7
1
1
7
1
1
4
3
2
2
2
5
1
1
2
5
7
5
3
3
9
0
2
1
8
7
6
5
4
5
1
4
1
5
8
3
. 64E
.86E
.15E
.27E
. 82E
.36E
. 52E
.31E
.31E
.39E
.06E
. 82E
.76E
. 72E
.70E
.43E
.32E
. 72E
.DIE
.77E
.IDE
.0
.50E
.07E
.48E
.25E
.71E
.65E
.25E
.93E
.07E
.48E
.91E
.76E
.85E
. 92E
-18
-19
-21
-21
-21
-20
-21
-19
-21
-21
-20
-20
-19
-20
-19
-20
-19
-20
-20
-20
-19
-20
-18
-20
-19
-22
-18
-20
-19
-20
-19
-21
-20
-22
-20
Effective
8
2
1
8
1
1
4
3
2
2
2
6
1
1
3
5
8
6
4
4
9
0
2
1
9
7
7
5
4
6
1
5
2
7
1
4
.IDE
. 14E
.23E
.37E
.95E
.71E
.80E
.56E
.45E
. 54E
.21E
.50E
.93E
.93E
.IDE
.85E
.IDE
.22E
.24E
.15E
.85E
.0
.75E
.19E
.56E
.97E
.70E
.97E
.75E
.49E
.22E
.09E
.33E
. 04E
.16E
.56E
-18
-19
-21
-21
-21
-20
-21
-19
-21
-21
-20
-20
-19
-20
-19
-20
-19
-20
-20
-20
-19
-20
-18
-20
-19
-22
-18
-20
-19
-20
-19
-21
-20
-21
-20
9
2
1
9
2
2
5
4
2
2
2
7
2
6
1
6
9
7
7
4
2
0
3
1
1
1
1
8
5
7
1
5
4
1
3
5
Skin
.24E-18
.39E-19
.41E-21
.30E-21
.23E-21
.59E-20
.52E-21
.08E-19
.82E-21
.92E-21
.53E-20
.51E-20
.20E-19
.13E-18
.17E-18
.70E-20
.16E-19
.11E-20
.14E-20
.71E-20
.27E-18
.0
.41E-20
.34E-18
.10E-19
.37E-18
.08E-21
.58E-18
.49E-20
.55E-19
.62E-20
.87E-19
.98E-21
.14E-19
.64E-21
.40E-20
Protactinium
Pa-227
Pa-228
Pa-230
Pa-231
Pa-232
Pa-233
Pa-234m
Pa-234
Uranium
U-230
U-231
U-232
U-233
U-234
U-235
U-236
U-237
U-238
U-239
U-240
1
7
4
2
5
1
9
1
7
4
2
2
1
9
9
8
6
2
8
.16E
. 02E
. 02E
.37E
.85E
.26E
.66E
.19E
.34E
.DIE
.26E
.40E
.32E
.57E
.38E
.09E
. 92E
.96E
.OOE
-19
-18
-18
-19
-18
-18
-20
-17
-21
-19
-21
-21
-21
-19
-22
-19
-22
-19
-21
1
7
4
2
6
1
9
1
7
4
2
2
1
9
1
8
9
3
9
.20E
.22E
.15E
.49E
. 04E
.31E
.98E
.23E
.93E
. 14E
. 64E
. 64E
.61E
.97E
.20E
.42E
.19E
.IDE
. 74E
-19
-18
-18
-19
-18
-18
-20
-17
-21
-19
-21
-21
-21
-19
-21
-19
-22
-19
-21
1
6
3
2
5
1
9
1
6
3
1
1
6
9
3
7
1
2
2
.06E
.81E
.91E
.18E
.70E
.20E
.27E
.16E
.19E
.63E
.37E
. 84E
.18E
.07E
.09E
.49E
.47E
.73E
.85E
-19
-18
-18
-19
-18
-18
-20
-17
-21
-19
-21
-21
-22
-19
-22
-19
-22
-19
-21
9.36E-20 3.56E-19 1.02E-19
6.78E-18 1.04E-17 6.96E-18
3.88E-18 6.06E-18 4.03E-18
2.14E-19 4.07E-19 2.19E-19
5.69E-18 8.15E-18 5.90E-18
1.16E-18 2.36E-18 1.19E-18
9.15E-20 1.52E-19 9.46E-20
1.15E-17 1.71E-17 1.19E-17
5.74E-21 1.77E-20 6.07E-21
3.27E-19 1.15E-18 3.50E-19
1.26E-21 4.87E-21 1.42E-21
1.74E-21 4.93E-21 1.85E-21
5.78E-22 2.50E-21 6.71E-22
8.73E-19 2.06E-18 8.76E-19
3.06E-22 1.46E-21 3.69E-22
6.91E-19 2.05E-18 7.25E-19
1.54E-22 9.25E-22 2.05E-22
2.39E-19 8.65E-19 2.68E-19
2.43E-21 1.50E-20 3.54E-21
9
6
3
2
5
1
8
1
5
3
1
1
6
8
3
7
2
2
3
.91E
. 54E
.75E
.09E
.48E
. 14E
.89E
.HE
.91E
.40E
.38E
.79E
.57E
.60E
.66E
. 04E
.05E
.55E
.23E
-20
-18
-18
-19
-18
-18
-20
-17
-21
-19
-21
-21
-22
-19
-22
-19
-22
-19
-21
1
6
3
2
5
1
9
1
6
3
1
2
1
9
6
7
4
2
5
. 14E
.95E
.99E
.30E
.80E
.24E
.53E
.18E
. 94E
. 92E
.88E
.16E
.DIE
.49E
.53E
.96E
.42E
.93E
. 62E
-19
-18
-18
-19
-18
-18
-20
-17
-21
-19
-21
-21
-21
-19
-22
-19
-22
-19
-21
1
7
4
2
6
1
7
1
1
4
6
4
4
1
4
9
3
1
2
.32E-19
.99E-18
.57E-18
.92E-19
.69E-18
.43E-18
.82E-18
.40E-17
.19E-20
.71E-19
.36E-21
.67E-21
.66E-21
.08E-18
.03E-21
.21E-19
.40E-21
.63E-18
.38E-20
-------
126
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Neptunium
Np-232 7.49E-18 7.74E-18 7.27E-18 7.21E-18 1.13E-17 7.46E-18 6.97E-18 7.43E-18 8.57E-18
Np-233 5.18E-19 5.31E-19 4.82E-19 4.41E-19 1.42E-18 4.65E-19 4.51E-19 5.12E-19 5.76E-19
Np-234 8.72E-18 8.88E-18 8.49E-18 8.56E-18 1.18E-17 8.52E-18 8.20E-18 8.63E-18 9.97E-18
Np-235 8.31E-21 9.59E-21 4.73E-21 4.50E-21 1.70E-20 4.97E-21 4.84E-21 6.74E-21 2.20E-20
Np-23631 7.20E-19 7.43E-19 6.66E-19 6.16E-19 1.90E-18 6.40E-19 6.25E-19 7.09E-19 8.29E-19
Np-236b2 2.87E-19 2.94E-19 2.67E-19 2.47E-19 7.48E-19 2.60E-19 2.51E-19 2.83E-19 3.26E-19
Np-237 1.45E-19 1.53E-19 1.24E-19 1.11E-19 4.04E-19 1.21E-19 1.17E-19 1.38E-19 1.84E-19
Np-238 3.40E-18 3.51E-18 3.33E-18 3.35E-18 4.52E-18 3.46E-18 3.22E-18 3.38E-18 4.57E-18
Np-239 1.03E-18 1.07E-18 9.70E-19 9.23E-19 2.32E-18 9.45E-19 9.18E-19 1.02E-18 1.17E-18
Np-240m 2.12E-18 2.17E-18 2.04E-18 2.03E-18 2.95E-18 2.10E-18 1.96E-18 2.08E-18 7.13E-18
Np-240 8.17E-18 8.43E-18 7.92E-18 7.88E-18 1.19E-17 8.16E-18 7.61E-18 8.08E-18 9.59E-18
Plutonium
Pu-234 3.82E-19 3.91E-19 3.54E-19 3.22E-19 1.09E-18 3.39E-19 3.31E-19 3.77E-19 4.26E-19
Pu-235 5.25E-19 5.39E-19 4.88E-19 4.48E-19 1.41E-18 4.72E-19 4.57E-19 5.18E-19 5.91E-19
Pu-236 1.34E-21 1.73E-21 2.61E-22 3.05E-22 1.55E-21 3.92E-22 3.83E-22 8.34E-22 5.73E-21
Pu-237 2.73E-19 2.81E-19 2.50E-19 2.27E-19 7.79E-19 2.40E-19 2.34E-19 2.68E-19 3.13E-19
Pu-238 1.07E-21 1.40E-21 1.43E-22 1.96E-22 1.05E-21 2.58E-22 2.56E-22 6.34E-22 4.89E-21
Pu-239 7.31E-22 8.68E-22 3.62E-22 3.63E-22 1.12E-21 4.02E-22 3.85E-22 5.61E-22 2.20E-21
Pu-240 1.04E-21 1.36E-21 1.48E-22 1.94E-22 1.07E-21 2.58E-22 2.55E-22 6.20E-22 4.68E-21
Pu-241 9.91E-24 1.03E-23 8.81E-24 8.09E-24 2.66E-23 8.50E-24 8.31E-24 9.60E-24 1.28E-23
Pu-242 8.67E-22 1.13E-21 1.32E-22 1.70E-22 9.11E-22 2.22E-22 2.20E-22 5.23E-22 3.89E-21
Pu-243 1.40E-19 1.45E-19 1.29E-19 1.14E-19 4.15E-19 1.24E-19 1.20E-19 1.38E-19 1.66E-19
Pu-244 6.77E-22 9.02E-22 5.60E-23 9.54E-23 5.88E-22 1.35E-22 1.35E-22 3.85E-22 3.25E-21
Pu-245 2.62E-18 2.70E-18 2.52E-18 2.50E-18 4.04E-18 2.58E-18 2.42E-18 2.59E-18 3.39E-18
Pu-246 8.16E-19 8.50E-19 7.53E-19 7.09E-19 1.89E-18 7.32E-19 7.11E-19 7.99E-19 9.31E-19
Americium
Am-237 2.28E-18 2.35E-18 2.17E-18 2.10E-18 4.32E-18 2.16E-18 2.06E-18 2.25E-18 2.58E-18
Am-238
Am-239
Am-240
Am-241
Am-242m
Am-242
Am-243
Am-244m
Am-244
Am-245
Am-246m
Am-246
Curium
Cm-238
Cm-240
Cm-241
Cm-242
Cm-243
Cm-244
Cm-245
Cm-246
Cm-247
Cm-248
Cm-249
Cm-250
5
1
6
1
5
8
2
1
4
1
6
4
4
1
3
1
7
1
5
1
2
8
1
0
.48E
.39E
.31E
.22E
.96E
.45E
.99E
.10E
.98E
.97E
.29E
.32E
.36E
.41E
. 12E
.31E
.89E
.16E
.31E
.05E
. 04E
.01E
.26E
.0
-18
-18
-18
-19
-21
-20
-19
-20
-18
-19
-18
-18
-19
-21
-18
-21
-19
-21
-19
-21
-18
-22
-19
5
1
6
1
7
8
3
1
5
2
6
4
4
1
3
1
8
1
5
1
2
1
1
0
. 64E
.43E
. 52E
.33E
.09E
. 74E
.15E
.19E
.15E
. 04E
.49E
.46E
.47E
.83E
.21E
.69E
.18E
.51E
.46E
.36E
.IDE
. 04E
.29E
.0
-18
-18
-18
-19
-21
-20
-19
-20
-18
-19
-18
-18
-19
-21
-18
-21
-19
-21
-19
-21
-18
-21
-19
5
1
6
9
2
7
2
8
4
1
6
4
4
1
2
1
7
9
4
9
1
6
1
0
.33E
.30E
.16E
.96E
.36E
. 52E
. 72E
. 72E
. 84E
.85E
.16E
.15E
.05E
.26E
.97E
.47E
.42E
.OOE
.93E
.09E
.95E
.67E
.21E
.0
-18
-18
-18
-20
-21
-20
-19
-21
-18
-19
-18
-18
-19
-22
-18
-22
-19
-23
-19
-23
-18
-23
-19
5.31E-18 8.04E-18 5.46E-18
1.23E-18 3.33E-18 1.26E-18
6.16E-18 8.96E-18 6.37E-18
7.83E-20 4.15E-19 9.85E-20
2.34E-21 9.75E-21 2.80E-21
6.88E-20 2.30E-19 7.26E-20
2.28E-19 1.01E-18 2.62E-19
8.17E-21 2.33E-20 8.87E-21
4.83E-18 7.02E-18 5.02E-18
1.76E-19 4.33E-19 1.80E-19
6.19E-18 8.43E-18 6.36E-18
4.11E-18 6.58E-18 4.27E-18
3.71E-19 1.20E-18 3.88E-19
2.05E-22 1.27E-21 3.09E-22
2.90E-18 5.31E-18 3.02E-18
2.18E-22 1.21E-21 3.12E-22
7.09E-19 1.74E-18 7.23E-19
1.60E-22 9.96E-22 2.44E-22
4.55E-19 1.42E-18 4.73E-19
1.51E-22 9.36E-22 2.28E-22
1.92E-18 3.16E-18 1.98E-18
1.13E-22 7.03E-22 1.71E-22
1.19E-19 1.85E-19 1.25E-19
0.0 0.0 0.0
5
1
5
9
2
7
2
8
4
1
5
3
3
2
2
2
7
2
4
2
1
1
1
0
. 12E
.23E
.93E
.28E
.65E
.08E
.53E
.42E
.65E
.75E
. 94E
.99E
.79E
.91E
. 84E
. 94E
.03E
.30E
. 62E
.15E
.87E
. 62E
.16E
.0
-18
-18
-18
-20
-21
-20
-19
-21
-18
-19
-18
-18
-19
-22
-18
-22
-19
-22
-19
-22
-18
-22
-19
5
1
6
1
4
8
2
1
4
1
6
4
4
8
3
7
7
6
5
5
2
4
1
0
.43E
.37E
.27E
.15E
.29E
.18E
.96E
.DIE
. 94E
. 94E
.25E
.26E
.31E
. 02E
.07E
.59E
.79E
. 54E
.24E
.96E
.OOE
. 52E
.24E
.0
-18
-18
-18
-19
-21
-20
-19
-20
-18
-19
-18
-18
-19
-22
-18
-22
-19
-22
-19
-22
-18
-22
-19
6
1
7
1
1
1
3
2
5
4
9
5
4
5
3
5
8
4
6
4
2
3
4
0
.33E-18
.57E-18
.24E-18
.62E-19
.67E-20
.28E-19
.39E-19
.60E-18
.85E-18
.91E-19
.26E-18
.89E-18
.86E-19
.82E-21
.53E-18
.31E-21
.97E-19
.86E-21
.OOE-19
.35E-21
.30E-18
.32E-21
.67E-19
.0
Berkelium
Bk-245 1.39E-18 1.43E-18 1.30E-18 1.23E-18 3.24E-18 1.27E-18 1.23E-18 1.37E-18 1.56E-18
Bk-246 5.87E-18 6.06E-18 5.71E-18 5.69E-18 8.50E-18 5.90E-18 5.49E-18 5.83E-18 6.71E-18
Bk-247 6.33E-19 6.55E-19 5.95E-19 5.54E-19 1.56E-18 5.77E-19 5.60E-19 6.26E-19 7.06E-19
Bk-249 2.04E-23 2.34E-23 1.02E-23 8.12E-24 4.72E-23 1.18E-23 1.06E-23 1.57E-23 3.75E-23
Bk-250 5.47E-18 5.66E-18 5.37E-18 5.40E-18 7.27E-18 5.57E-18 5.19E-18 5.45E-18 6.81E-18
1 TK = 1.15E5 y
2 TK = 22.5 h
-------
127
Table III.4. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 1 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Californium
Cf-244 1.69E-21 2.14E-21 1.45E-22 2.39E-22 1.51E-21 3.96E-22 3.50E-22 9.53E-22 5.99E-21
Cf-246 1.26E-21 1.57E-21 1.97E-22 2.52E-22 1.32E-21 3.63E-22 3.29E-22 7.52E-22 4.19E-21
Cf-248 1.16E-21 1.46E-21 1.02E-22 1.65E-22 1.04E-21 2.73E-22 2.41E-22 6.53E-22 4.08E-21
Cf-249 2.14E-18 2.21E-18 2.04E-18 2.01E-18 3.41E-18 2.07E-18 1.96E-18 2.11E-18 2.42E-18
Cf-250 1.10E-21 1.39E-21 9.67E-23 1.57E-22 9.90E-22 2.59E-22 2.29E-22 6.21E-22 3.89E-21
Cf-251 7.50E-19 7.77E-19 6.98E-19 6.62E-19 1.75E-18 6.75E-19 6.60E-19 7.38E-19 8.57E-19
Cf-252 1.16E-21 1.44E-21 1.87E-22 2.36E-22 1.23E-21 3.39E-22 3.07E-22 6.95E-22 3.83E-21
Cf-253 2.27E-22 2.53E-22 1.48E-22 1.23E-22 5.94E-22 1.56E-22 1.45E-22 1.93E-22 3.64E-22
Cf-254 3.59E-24 4.54E-24 3.17E-25 5.12E-25 3.23E-24 8.47E-25 7.48E-25 2.02E-24 1.27E-23
Einsteinium
Es-250 2.41E-18 2.49E-18 2.34E-18 2.31E-18 3.90E-18 2.38E-18 2.24E-18 2.39E-18 2.76E-18
Es-251 5.56E-19 5.71E-19 5.14E-19 4.78E-19 1.44E-18 4.93E-19 4.83E-19 5.46E-19 6.27E-19
Es-253 2.86E-21 3.12E-21 2.03E-21 2.00E-21 4.47E-21 2.17E-21 2.02E-21 2.47E-21 4.91E-21
Es-254m 2.97E-18 3.06E-18 2.88E-18 2.86E-18 4.13E-18 2.99E-18 2.77E-18 2.94E-18 3.73E-18
Es-254 3.34E-20 3.82E-20 1.83E-20 1.72E-20 6.28E-20 2.04E-20 1.89E-20 2.65E-20 7.11E-20
Fermium
Fm-252 1.25E-21 1.55E-21 1.29E-22 1.87E-22 1.20E-21 3.23E-22 2.77E-22 7.11E-22 3.90E-21
Fm-253 4.74E-19 4.88E-19 4.39E-19 4.12E-19 1.18E-18 4.24E-19 4.14E-19 4.66E-19 5.35E-19
Fm-254 1.49E-21 1.82E-21 2.93E-22 3.39E-22 1.77E-21 4.92E-22 4.38E-22 9.20E-22 4.31E-21
Fm-255 1.91E-20 2.22E-20 9.78E-21 9.01E-21 3.93E-20 1.08E-20 1.02E-20 1.49E-20 4.65E-20
Fm-257 6.28E-19 6.49E-19 5.82E-19 5.48E-19 1.51E-18 5.62E-19 5.49E-19 6.17E-19 7.16E-19
Mendelevium
Md-257 6.80E-19 6.99E-19 6.36E-19 6.07E-19 1.47E-18 6.26E-19 6.03E-19 6.68E-19 7.65E-19
Md-258 1.01E-20 1.19E-20 3.69E-21 3.52E-21 1.77E-20 4.70E-21 4.27E-21 7.13E-21 2.35E-20
-------
TABLE III.5
Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Explanation of Entries
For each radionuclide, values for the organ dose equivalent coefficients hT, and the effective
dose equivalent coefficient hE, based upon the weighting factors of Table II. 1, are given in
SI units. The coefficients are for soil at a density of 1.6 x 103 kg m"3.
hT: The tissue dose equivalent coefficient for organ or tissue T (Sv per Bq s m"3), i.e., the dose
equivalent per unit time-integrated exposure to a radionuclide.
hE: The effective dose equivalent coefficient (Sv per Bq s m"3), i.e., the effective dose equivalent
per unit time-integrated exposure to a radionuclide:
Note that skin is not included in the summation.
To convert to a source per unit mass basis (Sv per Bq s kg"1), multiply table entries by
1.6 x 103(kgm-3).
To convert to conventional units (mrem per \i.Ci y cm"3), multiply table entries by
1.168 x 1023.
To convert to conventional units for a source per unit mass basis (mrem per \iCi y g"1),
multiply table entries by 1.868 x 1023.
Radionuclide dose coefficients for soil contaminated to a finite depth cannot be scaled
to account for a different soil density.
129
-------
130
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose
Nuclide
Hydrogen
H-3 0
Beryllium
Be-7 9
Be-10 4
Carbon
C-ll 1
C-14 8
Nitrogen
N-13 1
Oxygen
0-15 1
Fluorine
F-18 1
Neon
Ne-19 1
Sodium
Na-22 4
Na-24 7
Magnesium
Mg-28 2
Aluminum
Al-26 4
Al-28 3
Gonad
.0
.44E
. 72E
.95E
.IDE
.95E
.95E
.95E
.96E
.07E
.18E
.48E
.86E
.17E
-19
-21
-17
-23
-17
-17
-17
-17
-17
-17
-17
-17
-17
Breast
0
9
5
2
9
2
2
2
2
4
7
2
4
3
.0
.69E
.OOE
.OOE
.09E
.OOE
.DIE
.OOE
.DIE
.17E
.26E
.55E
.97E
.24E
-19
-21
-17
-23
-17
-17
-17
-17
-17
-17
-17
-17
-17
Lung
0
8
3
1
5
1
1
1
1
3
6
2
4
3
.0
. 74E
.99E
.81E
. 04E
.81E
.81E
.81E
. 82E
. 84E
.91E
.36E
. 62E
.05E
-19
-21
-17
-23
-17
-17
-17
-17
-17
-17
-17
-17
-17
Coefficient
R
0
8
3
1
3
1
1
1
1
3
7
2
4
3
Marrow
.0
.60E
.55E
.78E
.97E
.78E
.79E
.78E
.79E
.83E
.OOE
.36E
. 64E
.09E
-19
-21
-17
-23
-17
-17
-17
-17
-17
-17
-17
-17
-17
hT
(Sv
BSurface
0
1
1
2
2
2
2
2
2
5
8
3
6
3
.0
.40E
.25E
.85E
.19E
.85E
.86E
.85E
.87E
. 54E
.90E
.29E
.42E
.98E
-18
-20
-17
-22
-17
-17
-17
-17
-17
-17
-17
-17
-17
per Bq s
Thyroid
0
8
3
1
5
1
1
1
1
3
6
2
4
2
.0
.32E
. 82E
. 72E
.29E
. 72E
.73E
. 72E
.73E
.65E
.67E
.24E
.41E
.91E
-19
-21
-17
-23
-17
-17
-17
-17
-17
-17
-17
-17
-17
nr
J)
Remainder
0
8
3
1
4
1
1
1
1
3
6
2
4
2
.0
.40E
.76E
. 74E
. 92E
. 74E
. 74E
. 74E
.75E
.71E
. 72E
.28E
.48E
.97E
-19
-21
-17
-23
-17
-17
-17
-17
-17
-17
-17
-17
-17
Effective
0
9
4
1
6
1
1
1
1
3
7
2
4
3
.0
.08E
.45E
.88E
.76E
.88E
.88E
.88E
.89E
.95E
.03E
.42E
. 74E
.HE
-19
-21
-17
-23
-17
-17
-17
-17
-17
-17
-17
-17
-17
0
1
3
2
1
2
2
2
3
4
8
2
5
5
Skin
.0
. 04E
. 02E
.23E
.21E
.34E
. 72E
.16E
. 14E
.48E
. 02E
. 74E
. 52E
.OOE
-18
-20
-17
-22
-17
-17
-17
-17
-17
-17
-17
-17
-17
Silicon
Si-31 4.85E-20 5.03E-20 4.42E-20 4.24E-20 9.25E-20 4.20E-20 4.22E-20 4.68E-20 3.59E-18
Si-32 1.96E-22 2.16E-22 1.37E-22 1.11E-22 5.56E-22 1.39E-22 1.31E-22 1.71E-22 2.67E-22
Phosphorus
P-30 1.97E-17 2.02E-17 1.83E-17 1.80E-17 2.89E-17 1.74E-17 1.76E-17 1.90E-17 4.10E-17
P-32 4.45E-20 4.65E-20 3.98E-20 3.74E-20 9.57E-20 3.78E-20 3.78E-20 4.27E-20 5.18E-18
P-33
Sulphur
S-35
Chlorine
Cl-36
Cl-38
Cl-39
Argon
Ar-37
Ar-39
Ar-41
3
8
9
2
2
0
3
2
.13E
.81E
.30E
.65E
. 62E
.0
.81E
.33E
-22
-23
-21
-17
-17
-21
-17
3
9
9
2
2
0
4
2
.42E
.85E
.73E
.70E
.68E
.0
. 04E
.39E
-22
-23
-21
-17
-17
-21
-17
2
5
8
2
2
0
3
2
.29E
. 62E
.18E
.55E
.50E
.0
.21E
.23E
-22
-23
-21
-17
-17
-21
-17
1
4
7
2
2
0
2
2
.89E
.46E
.60E
.58E
.51E
.0
.85E
.25E
-22
-23
-21
-17
-17
-21
-17
8
2
2
3
3
0
1
3
.96E
.41E
.06E
.31E
.48E
.0
.DIE
.OOE
-22
-22
-20
-17
-17
-20
-17
2
5
7
2
2
0
3
2
.29E
.85E
.81E
.44E
.37E
.0
.08E
. 12E
-22
-23
-21
-17
-17
-21
-17
2
5
7
2
2
0
3
2
.18E
.46E
.76E
.48E
.42E
.0
. 02E
.16E
-22
-23
-21
-17
-17
-21
-17
2
7
8
2
2
0
3
2
.79E
.43E
.86E
.60E
.56E
.0
.59E
.28E
-22
-23
-21
-17
-17
-21
-17
4
1
1
5
3
0
2
2
.HE
.30E
.76E
. 04E
.63E
.0
.29E
.75E
-22
-22
-19
-17
-17
-20
-17
Potassium
K-38
K-40
K-42
K-43
K-44
K-45
Calcium
Ca-41
Ca-45
Ca-47
Ca-49
Scandium
Sc-43
Sc-44m
Sc-44
Sc-46
Sc-47
Sc-48
Sc-49
5
2
5
1
4
3
0
3
1
5
2
5
3
3
1
6
8
. 74E
. 84E
.16E
.85E
. 02E
.32E
.0
.29E
. 94E
.34E
.IDE
.28E
.99E
.71E
. 94E
.13E
. 14E
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-20
5
2
5
1
4
3
0
3
1
5
2
5
4
3
2
6
8
.85E
.91E
.29E
.90E
.08E
.39E
.0
.59E
.98E
.32E
.15E
.46E
.09E
.80E
.DIE
.29E
.44E
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-20
5
2
4
1
3
3
0
2
1
5
1
4
3
3
1
5
7
.47E
.73E
.95E
. 72E
.86E
.18E
.0
.43E
.85E
. 14E
. 94E
.88E
.76E
. 52E
.78E
.85E
.45E
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-20
5
2
4
1
3
3
0
2
1
5
1
4
3
3
1
5
7
.49E
.75E
.99E
.69E
.89E
.21E
.0
.DIE
.86E
.22E
.91E
.79E
. 74E
. 52E
.68E
.86E
.16E
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-20
7
3
6
2
5
4
0
9
2
6
3
9
5
4
4
8
1
.55E
. 64E
.67E
. 74E
.08E
.40E
.0
.43E
.51E
.48E
. 14E
. 12E
.48E
.88E
.44E
. 02E
. 54E
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-19
5
2
4
1
3
3
0
2
1
5
1
4
3
3
1
5
7
.24E
.59E
.70E
.63E
.71E
. 04E
.0
.42E
.76E
.06E
.85E
. 62E
.57E
.34E
.66E
. 54E
.07E
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-20
5
2
4
1
3
3
0
2
1
5
1
4
3
3
1
5
7
.30E
. 64E
.80E
.65E
. 74E
.09E
.0
.31E
.79E
.DIE
.86E
.68E
. 62E
.40E
.68E
.65E
.HE
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-20
5
2
5
1
3
3
0
2
1
5
2
5
3
3
1
5
7
.60E
.78E
.06E
.78E
.93E
.25E
.0
. 94E
.89E
.23E
. 02E
. 12E
.87E
.61E
.89E
.99E
.86E
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-20
7
6
2
2
6
4
0
4
2
6
2
5
4
4
2
6
7
.71E
.HE
. 52E
.08E
.38E
.66E
.0
.30E
.27E
.47E
.38E
. 84E
.76E
.09E
.13E
.79E
.49E
-17
-18
-17
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-18
-------
131
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose Coefficient hT (Sv per
itr3)
Nuclide
Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Titanium
Ti-44
Ti-45
Vanadium
V-47
V-48
V-49
Chromium
Cr-48
Cr-49
Cr-51
Manganese
1.72E-18 1.82E-18 1.51E-18 1.26E-18 5.76E-18 1.43E-18 1.40E-18 1.67E-18 1.90E-18
1.66E-17 1.71E-17 1.54E-17 1.52E-17 2.43E-17 1.47E-17 1.48E-17 1.60E-17 1.94E-17
1.91E-17 1.95E-17 1.77E-17 1.74E-17 2.79E-17 1.68E-17 1.70E-17 1.83E-17 2.80E-17
5.36E-17 5.50E-17 5.10E-17 5.10E-17 7.13E-17 4.83E-17 4.92E-17 5.22E-17 5.92E-17
0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
7.99E-18 8.26E-18 7.34E-18 7.07E-18 1.56E-17 6.94E-18 6.99E-18 7.74E-18 8.80E-18
1.98E-17 2.04E-17 1.83E-17 1.79E-17 3.12E-17 1.74E-17 1.76E-17 1.91E-17 2.55E-17
6.01E-19 6.21E-19 5.53E-19 5.41E-19 1.02E-18 5.24E-19 5.30E-19 5.80E-19 6.64E-19
1.96E-17 1.77E-17 1.75E-17 2.80E-17 1.69E-17 1.71E-17 1.84E-17 3.05E-17
4.57E-17 4.22E-17 4.21E-17 6.05E-17 4.01E-17 4.08E-17 4.34E-17 6.24E-17
6.52E-17 6.05E-17 6.05E-17 8.43E-17 5.74E-17 5.84E-17 6.20E-17 7.01E-17
0.0 0.0 0.0 0.0 0.0 0.0 0.0
1.60E-17 1.47E-17 1.47E-17 2.10E-17 1.40E-17 1.42E-17 1.51E-17 1.72E-17
3.14E-17 2.93E-17 2.95E-17 3.99E-17 2.79E-17 2.84E-17 3.00E-17 4.24E-17
1.44E-17 1.29E-17 1.26E-17 2.27E-17 1.22E-17 1.24E-17 1.35E-17 1.56E-17
0.0 0.0 0.0 0.0 0.0 0.0 .0
2.22E-17 2.07E-17 2.08E-17 2.82E-17 1.96E-17 2.00E-17 2.12E-17 2.39E-17
7.85E-23 4.13E-23 3.23E-23 1.84E-22 4.40E-23 4.06E-23 5.70E-23 1.08E-22
Mn-51
Mn-52m
Mn-52
Mn-53
Mn-54
Mn-56
Iron
Fe-52
Fe-55
Fe-59
Fe-60
Cobalt
Co-55
Co-56
Co-57
Co-58m
Co-58
Co-60m
Co-60
Co-61
Co-62m
Nickel
Ni-56
Ni-57
Ni-59
Ni-63
Ni-65
Ni-66
Copper
Cu-60
Cu-61
Cu-62
Cu-64
Cu-66
Cu-67
Zinc
Zn-62
Zn-63
Zn-65
Zn-69m
Zn-69
Zn-71m
Zn-72
Gallium
Ga-65
Ga-66
Ga-67
Ga-68
Ga-70
Ga-72
Ga-73
1
4
6
0
1
3
1
0
2
6
3
6
2
2
1
7
4
1
4
3
3
0
0
9
2
7
1
1
3
1
2
8
2
1
7
9
2
2
2
4
2
1
1
4
5
.91E
.46E
.36E
.0
.56E
.07E
.39E
.0
.17E
.96E
.73E
.43E
.03E
.27E
.83E
.44E
.55E
.31E
.89E
.20E
.49E
.0
.0
.99E
.32E
.08E
.57E
. 94E
.61E
.67E
.03E
.17E
.IDE
.07E
.96E
.31E
.95E
.56E
.21E
.40E
.73E
. 82E
.78E
.89E
.86E
-17
-17
-17
-17
-17
-17
-17
-23
-17
-17
-18
-23
-17
-20
-17
-18
-17
-17
-17
-18
-22
-17
-17
-17
-18
-18
-18
-18
-17
-17
-18
-21
-17
-18
-17
-17
-18
-17
-19
-17
-18
1
4
6
0
1
3
1
0
2
7
3
6
2
2
1
7
4
1
5
3
3
0
0
1
2
7
1
1
3
1
2
8
2
1
8
9
3
2
2
4
2
1
1
4
6
.96E
.57E
. 52E
.0
.60E
. 14E
.44E
.0
.22E
.85E
. 82E
.55E
.IDE
.70E
.87E
.70E
.67E
.38E
.OOE
.28E
.58E
.0
.0
. 02E
.55E
.24E
.61E
.99E
.70E
.71E
.HE
.39E
.15E
.09E
.18E
.81E
. 02E
.66E
.27E
.45E
.83E
.86E
. 84E
.98E
.06E
•17 3.51E-
•17 6.14E-
•18 1.86E-
•23 4.08E-
•17 1.72E-
•20 6.96E-
•17 4.36E-
•18 1.18E-
•17 4.68E-
17 3.49E-
17 6.17E-
18 1.71E-
24 4.24E-
17 1.71E-
20 6.76E-
17 4.38E-
18 1.07E-
17 4.71E-
17 5.16E-
17 8.31E-
18 5.32E-
24 2.85E-
17 2.50E-
20 1.23E-
17 5.87E-
18 3.22E-
17 6.28E-
17 3.33E-
17 5.88E-
18 1.74E-
23 7.91E-
17 1.63E-
19 6.62E-
17 4.13E-
18 1.12E-
17 4.45E-
17 3.38E-
17 5.95E-
18 1.74E-
24 6.47E-
17 1.66E-
20 6.68E-
17 4.22E-
18 1.11E-
17 4.53E-
17 3.61E
17 6.28E
18 1.99E
24 1.38E
17 1.77E
20 7.23E
17 4.45E
18 1.27E
17 4.78E
17 4.33E-17
17 7.09E-17
18 2.21E-18
23 4.58E-23
17 2.02E-17
20 9.16E-20
17 5.02E-17
18 3.26E-18
17 6.56E-17
3.28E-17 3.00E-17 2.97E-17 4.69E-17 2.85E-17 2.89E-17 3.10E-17 3.53E-17
3.58E-17 3.33E-17 3.34E-17 4.63E-17 3.16E-17 3.22E-17 3.41E-17 3.85E-17
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
1.02E-17 9.56E-18 9.61E-18 1.29E-17 9.07E-18 9.26E-18 9.77E-18 1.62E-17
2.55E-22 1.66E-22 1.36E-22 6.62E-22 1.67E-22 1.59E-22 2.05E-22 3.11E-22
7.24E-17 6.74E-17 6.76E-17 9.35E-17 6.43E-17 6.52E-17 6.91E-17 8.68E-17
1.61E-17 1.46E-17 1.44E-17 2.30E-17 1.39E-17 1.41E-17 1.52E-17 1.86E-17
1.99E-17 1.80E-17 1.77E-17 2.84E-17 1.71E-17 1.73E-17 1.87E-17 3.77E-17
3.70E-18 3.35E-18 3.31E-18 5.26E-18 3.19E-18 3.22E-18 3.48E-18 4.00E-18
1.71E-18 1.58E-18 1.58E-18 2.26E-18 1.50E-18 1.53E-18 1.63E-18 1.40E-17
2.11E-18 1.86E-18 1.76E-18 4.60E-18 1.75E-18 1.76E-18 1.98E-18 2.24E-18
8.39E-18 7.57E-18 7.45E-18 1.20E-17 7.20E-18 7.27E-18 7.86E-18 9.03E-18
2.15E-17 1.95E-17 1.93E-17 3.04E-17 1.86E-17 1.88E-17 2.02E-17 3.27E-17
1.09E-17 1.02E-17 1.02E-17 1.39E-17 9.63E-18 9.81E-18 1.04E-17 1.18E-17
8.18E-18 7.36E-18 7.23E-18 1.21E-17 7.00E-18 7.07E-18 7.66E-18 8.79E-18
9.81E-21 8.09E-21 7.37E-21 2.29E-20 7.71E-21 7.63E-21 8.86E-21 4.90E-19
3.02E-17 2.74E-17 2.71E-17 4.32E-17 2.61E-17 2.64E-17 2.84E-17 3.56E-17
2.66E-18 2.35E-18 2.20E-18 6.15E-18 2.20E-18 2.21E-18 2.50E-18 2.81E-18
2.27E-17 2.05E-17 2.02E-17 3.38E-17 1.95E-17 1.97E-17 2.13E-17 3.21E-17
4.45E-17 4.18E-17 4.21E-17 5.72E-17 4.05E-17 4.06E-17 4.28E-17 6.18E-17
2.83E-18 2.50E-18 2.39E-18 5.74E-18 2.36E-18 2.38E-18 2.65E-18 3.01E-18
1.86E-17 1.69E-17 1.66E-17 2.65E-17 1.61E-17 1.62E-17 1.75E-17 2.65E-17
1.84E-19 1.67E-19 1.65E-19 2.76E-19 1.58E-19 1.61E-19 1.73E-19 4.65E-18
4.98E-17 4.66E-17 4.69E-17 6.32E-17 4.46E-17 4.52E-17 4.77E-17 5.69E-17
6.06E-18 5.40E-18 5.28E-18 l.OOE-17 5.11E-18 5.17E-18 5.66E-18 8.13E-18
-------
132
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Germanium
Ge-66 1.27E-17 1.31E-17 1.18E-17 1.15E-17 1.99E-17 1.12E-17 1.13E-17 1.23E-17 1.42E-17
Ge-67 2.66E-17 2.73E-17 2.48E-17 2.44E-17 3.98E-17 2.36E-17 2.38E-17 2.57E-17 4.62E-17
Ge-68 5.68E-24 1.48E-23 1.35E-26 3.75E-25 2.28E-24 5.32E-25 1.65E-24 4.26E-24 4.59E-22
Ge-69 1.63E-17 1.67E-17 1.53E-17 1.52E-17 2.26E-17 1.46E-17 1.48E-17 1.58E-17 1.87E-17
Ge-71 5.75E-24 1.49E-23 1.36E-26 3.80E-25 2.31E-24 5.39E-25 1.67E-24 4.31E-24 4.65E-22
Ge-75 6.62E-19 6.86E-19 6.08E-19 5.93E-19 1.21E-18 5.75E-19 5.82E-19 6.41E-19 2.11E-18
Ge-77 2.03E-17 2.09E-17 1.90E-17 1.88E-17 3.10E-17 1.80E-17 1.83E-17 1.97E-17 2.75E-17
Ge-78 5.29E-18 5.48E-18 4.86E-18 4.75E-18 9.45E-18 4.60E-18 4.66E-18 5.11E-18 5.94E-18
Arsenic
As-69 1.95E-17 2.00E-17 1.80E-17 1.78E-17 2.88E-17 1.72E-17 1.73E-17 1.87E-17 3.76E-17
As-70 7.55E-17 7.73E-17 7.15E-17 7.14E-17 1.01E-16 6.80E-17 6.91E-17 7.34E-17 9.17E-17
As-71 1.07E-17 1.10E-17 9.90E-18 9.69E-18 1.75E-17 9.38E-18 9.49E-18 1.03E-17 1.19E-17
As-72 3.38E-17 3.46E-17 3.17E-17 3.14E-17 4.73E-17 3.01E-17 3.05E-17 3.27E-17 4.93E-17
As-73 5.25E-20 5.75E-20 4.09E-20 3.07E-20 1.77E-19 4.03E-20 3.79E-20 4.82E-20 6.27E-20
As-74 1.44E-17 1.48E-17 1.34E-17 1.32E-17 2.06E-17 1.28E-17 1.29E-17 1.39E-17 1.68E-17
As-76 8.18E-18 8.38E-18 7.67E-18 7.62E-18 1.14E-17 7.30E-18 7.40E-18 7.92E-18 2.15E-17
As-77 1.70E-19 1.76E-19 1.56E-19 1.52E-19 3.02E-19 1.48E-19 1.49E-19 1.64E-19 2.64E-19
As-78 2.32E-17 2.37E-17 2.20E-17 2.20E-17 3.09E-17 2.09E-17 2.13E-17 2.26E-17 4.38E-17
Selenium
Se-70 1.87E-17 1.92E-17 1.73E-17 1.70E-17 2.85E-17 1.65E-17 1.66E-17 1.80E-17 2.34E-17
Se-73m 4.64E-18 4.76E-18 4.30E-18 4.24E-18 6.83E-18 4.09E-18 4.13E-18 4.46E-18 6.34E-18
Se-73 2.04E-17 2.09E-17 1.88E-17 1.84E-17 3.20E-17 1.79E-17 1.80E-17 1.96E-17 2.42E-17
Se-75 7.17E-18 7.42E-18 6.59E-18 6.35E-18 1.41E-17 6.21E-18 6.27E-18 6.95E-18 7.90E-18
Se-77m 1.52E-18 1.58E-18 1.39E-18 1.32E-18 3.45E-18 1.31E-18 1.32E-18 1.48E-18 1.67E-18
Se-79 1.10E-22 1.23E-22 7.05E-23 5.58E-23 3.02E-22 7.33E-23 6.84E-23 9.29E-23 1.61E-22
Se-81m 2.15E-19 2.24E-19 1.97E-19 1.77E-19 6.19E-19 1.84E-19 1.83E-19 2.11E-19 2.40E-19
Se-81 2.10E-19 2.17E-19 1.94E-19 1.89E-19 3.51E-19 1.84E-19 1.86E-19 2.03E-19 4.15E-18
Se-83 4.47E-17 4.58E-17 4.23E-17 4.22E-17 6.16E-17 4.02E-17 4.08E-17 4.35E-17 5.23E-17
Bromine
Br-74m 7.43E-17 7.56E-17 7.03E-17 7.03E-17 9.95E-17 6.75E-17 6.80E-17 7.22E-17 l.OOE-16
Br-74 8.04E-17 8.11E-17 7.64E-17 7.68E-17 1.05E-16 7.42E-17 7.41E-17 7.83E-17 l.OOE-16
Br-75 2.31E-17 2.38E-17 2.14E-17 2.11E-17 3.55E-17 2.04E-17 2.06E-17 2.23E-17 2.93E-17
Br-76 4.79E-17 4.88E-17 4.53E-17 4.54E-17 6.40E-17 4.34E-17 4.39E-17 4.65E-17 6.09E-17
Br-77 5.96E-18 6.14E-18 5.53E-18 5.44E-18 9.34E-18 5.25E-18 5.31E-18 5.76E-18 6.59E-18
Br-80m 8.01E-20 9.18E-20 4.11E-20 2.90E-20 1.95E-19 4.69E-20 4.15E-20 6.19E-20 1.20E-19
Br-80 1.52E-18 1.56E-18 1.41E-18 1.40E-18 2.17E-18 1.35E-18 1.36E-18 1.46E-18 2.55E-18
Br-82 4.92E-17 5.05E-17 4.64E-17 4.63E-17 6.66E-17 4.41E-17 4.48E-17 4.78E-17 5.43E-17
Br-83 1.53E-19 1.57E-19 1.41E-19 1.38E-19 2.30E-19 1.34E-19 1.35E-19 1.47E-19 6.77E-19
Br-84 3.16E-17 3.20E-17 3.03E-17 3.06E-17 4.01E-17 2.92E-17 2.94E-17 3.09E-17 5.04E-17
Krypton
Kr-74 2.20E-17 2.26E-17 2.04E-17 2.00E-17 3.48E-17 1.94E-17 1.96E-17 2.12E-17 3.16E-17
Kr-76 8.01E-18 8.26E-18 7.37E-18 7.21E-18 1.34E-17 6.99E-18 7.07E-18 7.72E-18 8.86E-18
Kr-77 1.91E-17 1.96E-17 1.77E-17 1.73E-17 3.10E-17 1.68E-17 1.69E-17 1.84E-17 2.62E-17
Kr-79 4.77E-18 4.90E-18 4.42E-18 4.35E-18 7.34E-18 4.20E-18 4.25E-18 4.60E-18 5.27E-18
Kr-81m 2.36E-18 2.45E-18 2.16E-18 2.08E-18 4.94E-18 2.03E-18 2.06E-18 2.29E-18 2.61E-18
Kr-81 1.05E-19 1.09E-19 9.64E-20 9.42E-20 1.88E-19 9.12E-20 9.24E-20 1.02E-19 1.24E-19
Kr-83m 2.57E-22 4.21E-22 2.73E-23 3.51E-23 2.24E-22 4.78E-23 6.28E-23 1.62E-22 3.47E-21
Kr-85m 2.85E-18 2.95E-18 2.61E-18 2.49E-18 6.20E-18 2.46E-18 2.48E-18 2.77E-18 3.37E-18
Kr-85 4.76E-20 4.90E-20 4.38E-20 4.27E-20 7.56E-20 4.17E-20 4.20E-20 4.58E-20 1.67E-19
Kr-87 1.44E-17 1.47E-17 1.37E-17 1.37E-17 1.93E-17 1.31E-17 1.33E-17 1.40E-17 3.33E-17
Kr-88 3.44E-17 3.50E-17 3.31E-17 3.34E-17 4.40E-17 3.17E-17 3.21E-17 3.37E-17 3.99E-17
Rubidium
Rb-79 2.57E-17 2.64E-17 2.39E-17 2.35E-17 3.88E-17 2.27E-17 2.29E-17 2.48E-17 3.60E-17
Rb-80 2.42E-17 2.48E-17 2.24E-17 2.21E-17 3.52E-17 2.14E-17 2.16E-17 2.33E-17 5.75E-17
Rb-81m 6.09E-20 6.43E-20 5.41E-20 4.67E-20 1.92E-19 5.07E-20 5.03E-20 5.93E-20 7.66E-20
Rb-81 1.17E-17 1.20E-17 1.08E-17 1.06E-17 1.86E-17 1.03E-17 1.04E-17 1.13E-17 1.33E-17
Rb-82m 5.41E-17 5.55E-17 5.11E-17 5.08E-17 7.35E-17 4.85E-17 4.92E-17 5.25E-17 5.99E-17
Rb-82 2.10E-17 2.16E-17 1.95E-17 1.93E-17 3.06E-17 1.86E-17 1.88E-17 2.02E-17 4.23E-17
Rb-83 9.47E-18 9.72E-18 8.80E-18 8.68E-18 1.37E-17 8.37E-18 8.46E-18 9.12E-18 1.05E-17
Rb-84 1.71E-17 1.76E-17 1.61E-17 1.60E-17 2.35E-17 1.53E-17 1.55E-17 1.66E-17 1.91E-17
Rb-86 1.78E-18 1.83E-18 1.69E-18 1.69E-18 2.37E-18 1.61E-18 1.64E-18 1.74E-18 7.19E-18
Rb-87 7.10E-22 7.68E-22 5.47E-22 4.59E-22 2.04E-21 5.37E-22 5.17E-22 6.46E-22 8.93E-22
-------
133
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Rubidium, cont'd
Rb-88 1.16E-17 1.19E-17 1.12E-17 1.13E-17 1.49E-17 1.07E-17 1.08E-17 1.14E-17 4.41E-17
Rb-89 3.73E-17 3.81E-17 3.57E-17 3.60E-17 4.80E-17 3.41E-17 3.46E-17 3.65E-17 5.26E-17
Strontium
Sr-80 1.13E-21 1.90E-21 6.86E-24 9.87E-23 5.68E-22 8.60E-23 1.86E-22 6.55E-22 1.48E-20
Sr-81 2.63E-17 2.70E-17 2.44E-17 2.40E-17 4.03E-17 2.32E-17 2.34E-17 2.53E-17 4.04E-17
Sr-82 1.11E-21 1.87E-21 6.74E-24 9.71E-23 5.58E-22 8.46E-23 1.83E-22 6.44E-22 1.45E-20
Sr-83 1.48E-17 1.52E-17 1.39E-17 1.38E-17 2.10E-17 1.32E-17 1.34E-17 1.44E-17 1.69E-17
Sr-85m 4.08E-18 4.24E-18 3.74E-18 3.63E-18 7.98E-18 3.53E-18 3.57E-18 3.96E-18 4.51E-18
Sr-85 9.62E-18 9.87E-18 8.92E-18 8.79E-18 1.40E-17 8.50E-18 8.58E-18 9.26E-18 1.06E-17
Sr-87m 6.10E-18 6.28E-18 5.63E-18 5.52E-18 9.66E-18 5.35E-18 5.40E-18 5.88E-18 6.73E-18
Sr-89 3.43E-20 3.58E-20 3.07E-20 2.88E-20 7.42E-20 2.91E-20 2.91E-20 3.29E-20 3.69E-18
Sr-90 3.13E-21 3.33E-21 2.63E-21 2.33E-21 8.38E-21 2.52E-21 2.48E-21 2.95E-21 1.41E-20
Sr-91 1.30E-17 1.33E-17 1.23E-17 1.23E-17 1.75E-17 1.17E-17 1.19E-17 1.26E-17 1.98E-17
Sr-92 2.42E-17 2.48E-17 2.32E-17 2.34E-17 3.12E-17 2.20E-17 2.25E-17 2.37E-17 2.69E-17
Yttrium
Y-86m 4.08E-18 4.24E-18 3.75E-18 3.64E-18 7.92E-18 3.54E-18 3.58E-18 3.96E-18 4.53E-18
Y-86 6.58E-17 6.73E-17 6.24E-17 6.24E-17 8.76E-17 5.94E-17 6.03E-17 6.40E-17 7.38E-17
Y-87 8.57E-18 8.80E-18 7.94E-18 7.81E-18 1.27E-17 7.56E-18 7.63E-18 8.25E-18 9.47E-18
Y-88 4.82E-17 4.93E-17 4.62E-17 4.66E-17 6.16E-17 4.40E-17 4.48E-17 4.72E-17 5.27E-17
Y-90m 1.19E-17 1.22E-17 1.10E-17 1.07E-17 1.96E-17 1.04E-17 1.05E-17 1.15E-17 1.31E-17
Y-90 8.64E-20 8.98E-20 7.81E-20 7.44E-20 1.73E-19 7.42E-20 7.44E-20 8.31E-20 9.85E-18
Y-91m 1.01E-17 1.04E-17 9.39E-18 9.27E-18 1.45E-17 8.94E-18 9.03E-18 9.73E-18 1.12E-17
Y-91 1.01E-19 1.04E-19 9.43E-20 9.26E-20 1.62E-19 8.95E-20 9.06E-20 9.80E-20 4.07E-18
Y-92 4.86E-18 4.98E-18 4.60E-18 4.60E-18 6.56E-18 4.37E-18 4.44E-18 4.73E-18 2.53E-17
Y-93 1.76E-18 1.80E-18 1.66E-18 1.66E-18 2.52E-18 1.58E-18 1.61E-18 1.71E-18 1.64E-17
Y-94 2.06E-17 2.12E-17 1.96E-17 1.96E-17 2.73E-17 1.87E-17 1.90E-17 2.01E-17 4.70E-17
Y-95 1.59E-17 1.60E-17 1.52E-17 1.54E-17 2.00E-17 1.47E-17 1.48E-17 1.55E-17 3.90E-17
Zirconium
Zr-86 5.02E-18 5.20E-18 4.60E-18 4.49E-18 9.16E-18 4.35E-18 4.40E-18 4.85E-18 5.59E-18
Zr-88 7.52E-18 7.74E-18 6.93E-18 6.81E-18 1.19E-17 6.59E-18 6.66E-18 7.24E-18 8.32E-18
Zr-89 2.16E-17 2.22E-17 2.04E-17 2.03E-17 2.94E-17 1.93E-17 1.96E-17 2.10E-17 2.41E-17
Zr-93 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Zr-95 1.39E-17 1.43E-17 1.31E-17 1.30E-17 1.90E-17 1.24E-17 1.26E-17 1.35E-17 1.54E-17
Zr-97 3.36E-18 3.44E-18 3.18E-18 3.17E-18 4.62E-18 3.02E-18 3.07E-18 3.27E-18 9.34E-18
Niobium
Nb-88 7.71E-17 7.91E-17 7.25E-17 7.20E-17 1.07E-16 6.88E-17 6.98E-17 7.47E-17 l.OOE-16
Nb-89bx 2.57E-17 2.62E-17 2.42E-17 2.41E-17 3.54E-17 2.32E-17 2.34E-17 2.49E-17 4.33E-17
Nb-89a2 3.67E-17 3.77E-17 3.41E-17 3.37E-17 5.31E-17 3.25E-17 3.28E-17 3.54E-17 4.89E-17
Nb-90 7.53E-17 7.67E-17 7.19E-17 7.23E-17 9.90E-17 6.88E-17 6.97E-17 7.36E-17 8.42E-17
Nb-93m 1.03E-21 1.41E-21 2.51E-23 1.12E-22 6.70E-22 1.37E-22 1.58E-22 5.57E-22 5.26E-21
Nb-94 2.95E-17 3.02E-17 2.78E-17 2.76E-17 4.00E-17 2.64E-17 2.68E-17 2.86E-17 3.26E-17
Nb-95m 1.14E-18 1.19E-18 1.05E-18 1.02E-18 2.19E-18 9.88E-19 l.OOE-18 1.11E-18 1.28E-18
Nb-95 1.44E-17 1.47E-17 1.35E-17 1.35E-17 1.96E-17 1.28E-17 1.30E-17 1.39E-17 1.59E-17
Nb-96 4.61E-17 4.73E-17 4.35E-17 4.33E-17 6.28E-17 4.13E-17 4.19E-17 4.47E-17 5.11E-17
Nb-97m 1.37E-17 1.40E-17 1.29E-17 1.28E-17 1.87E-17 1.22E-17 1.24E-17 1.33E-17 1.52E-17
Nb-97 1.24E-17 1.27E-17 1.16E-17 1.15E-17 1.73E-17 1.10E-17 1.12E-17 1.20E-17 1.57E-17
Nb-98 4.50E-17 4.61E-17 4.26E-17 4.25E-17 6.02E-17 4.04E-17 4.11E-17 4.37E-17 5.85E-17
Molybdenum
Mo-90 1.51E-17 1.56E-17 1.41E-17 1.38E-17 2.50E-17 1.33E-17 1.35E-17 1.47E-17 1.71E-17
Mo-93m 4.11E-17 4.22E-17 3.91E-17 3.92E-17 5.51E-17 3.71E-17 3.78E-17 4.01E-17 4.52E-17
Mo-93 5.84E-21 8.00E-21 1.42E-22 6.37E-22 3.80E-21 7.78E-22 8.98E-22 3.16E-21 2.99E-20
Mo-99 2.80E-18 2.88E-18 2.62E-18 2.59E-18 4.15E-18 2.49E-18 2.52E-18 2.71E-18 4.45E-18
Mo-101 2.50E-17 2.56E-17 2.38E-17 2.38E-17 3.37E-17 2.26E-17 2.30E-17 2.44E-17 3.16E-17
Technetium
Tc-93m 1.28E-17 1.30E-17 1.22E-17 1.22E-17 1.73E-17 1.17E-17 1.18E-17 1.25E-17 1.39E-17
Tc-93 2.61E-17 2.67E-17 2.50E-17 2.52E-17 3.32E-17 2.38E-17 2.43E-17 2.55E-17 2.87E-17
Tc-94m 3.45E-17 3.54E-17 3.25E-17 3.24E-17 4.74E-17 3.10E-17 3.14E-17 3.35E-17 4.63E-17
Tc-94 4.97E-17 5.11E-17 4.69E-17 4.67E-17 6.75E-17 4.45E-17 4.52E-17 4.82E-17 5.51E-17
Tc-95m 1.24E-17 1.28E-17 1.16E-17 1.15E-17 1.86E-17 1.10E-17 1.12E-17 1.20E-17 1.38E-17
1 TK = 122 m
2 TK = 66 m
-------
134
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Technetium, cont'd
Tc-95 1.47E-17 1.51E-17 1.39E-17 1.38E-17 2.00E-17 1.31E-17 1.33E-17 1.43E-17 1.63E-17
Tc-96m 8.35E-19 8.58E-19 7.86E-19 7.85E-19 1.12E-18 7.46E-19 7.59E-19 8.10E-19 9.38E-19
Tc-96 4.66E-17 4.78E-17 4.40E-17 4.38E-17 6.29E-17 4.17E-17 4.24E-17 4.52E-17 5.16E-17
Tc-97m 1.28E-20 1.53E-20 4.63E-21 4.75E-21 2.02E-20 5.50E-21 5.31E-21 8.99E-21 3.51E-20
Tc-97 8.02E-21 1.06E-20 2.78E-22 9.22E-22 5.59E-21 1.28E-21 1.30E-21 4.33E-21 3.44E-20
Tc-98 2.66E-17 2.73E-17 2.50E-17 2.48E-17 3.67E-17 2.37E-17 2.41E-17 2.58E-17 2.95E-17
Tc-99m 2.18E-18 2.26E-18 2.00E-18 1.87E-18 5.35E-18 1.87E-18 1.88E-18 2.13E-18 2.38E-18
Tc-99 6.31E-22 6.83E-22 4.87E-22 4.09E-22 1.81E-21 4.78E-22 4.60E-22 5.74E-22 7.94E-22
Tc-101 6.37E-18 6.58E-18 5.87E-18 5.75E-18 1.08E-17 5.57E-18 5.63E-18 6.16E-18 9.09E-18
Tc-104 3.62E-17 3.70E-17 3.44E-17 3.44E-17 4.92E-17 3.28E-17 3.33E-17 3.53E-17 6.22E-17
Ruthenium
Ru-94 9.86E-18 1.01E-17 9.20E-18 9.10E-18 1.46E-17 8.73E-18 8.85E-18 9.53E-18 1.09E-17
Ru-97 4.25E-18 4.42E-18 3.90E-18 3.79E-18 8.15E-18 3.68E-18 3.72E-18 4.12E-18 4.73E-18
Ru-103 8.95E-18 9.18E-18 8.29E-18 8.17E-18 1.31E-17 7.90E-18 7.97E-18 8.61E-18 9.87E-18
Ru-105 1.48E-17 1.52E-17 1.39E-17 1.37E-17 2.12E-17 1.32E-17 1.33E-17 1.43E-17 1.76E-17
Ru-106 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Rhodium
Rh-99m 1.26E-17 1.30E-17 1.18E-17 1.17E-17 1.85E-17 1.12E-17 1.14E-17 1.22E-17 1.40E-17
Rh-99 1.10E-17 1.13E-17 1.02E-17 9.99E-18 1.74E-17 9.68E-18 9.78E-18 1.06E-17 1.22E-17
Rh-100 4.96E-17 5.06E-17 4.73E-17 4.76E-17 6.47E-17 4.52E-17 4.59E-17 4.84E-17 5.49E-17
Rh-lOlm 5.60E-18 5.79E-18 5.15E-18 5.04E-18 9.53E-18 4.88E-18 4.94E-18 5.41E-18 6.22E-18
Rh-101 4.59E-18 4.77E-18 4.20E-18 4.01E-18 9.87E-18 3.95E-18 3.98E-18 4.46E-18 5.09E-18
Rh-102m 9.09E-18 9.33E-18 8.45E-18 8.34E-18 1.32E-17 8.04E-18 8.13E-18 8.77E-18 1.08E-17
Rh-102 4.00E-17 4.10E-17 3.75E-17 3.72E-17 5.55E-17 3.56E-17 3.61E-17 3.87E-17 4.42E-17
Rh-103m 2.27E-21 2.77E-21 2.69E-22 3.61E-22 2.31E-21 6.23E-22 5.25E-22 1.30E-21 6.22E-21
Rh-105 1.48E-18 1.53E-18 1.36E-18 1.34E-18 2.52E-18 1.29E-18 1.31E-18 1.43E-18 1.65E-18
Rh-106m 5.42E-17 5.55E-17 5.11E-17 5.09E-17 7.40E-17 4.86E-17 4.93E-17 5.26E-17 6.01E-17
Rh-106 4.08E-18 4.18E-18 3.80E-18 3.76E-18 5.86E-18 3.62E-18 3.66E-18 3.93E-18 2.36E-17
Rh-107 5.96E-18 6.16E-18 5.49E-18 5.38E-18 l.OOE-17 5.21E-18 5.27E-18 5.76E-18 8.30E-18
Palladium
Pd-100 1.51E-18 1.59E-18 1.32E-18 1.14E-18 4.69E-18 1.25E-18 1.23E-18 1.46E-18 1.71E-18
Pd-101 5.91E-18 6.08E-18 5.49E-18 5.43E-18 8.72E-18 5.22E-18 5.29E-18 5.70E-18 6.60E-18
Pd-103 2.05E-20 2.47E-20 3.41E-21 4.44E-21 1.96E-20 6.35E-21 5.56E-21 1.22E-20 5.50E-20
Pd-107 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pd-109 8.43E-20 9.01E-20 6.54E-20 5.94E-20 2.07E-19 6.40E-20 6.26E-20 7.65E-20 9.38E-19
Silver
Ag-102 6.18E-17 6.32E-17 5.84E-17 5.83E-17 8.38E-17 5.57E-17 5.64E-17 6.01E-17 7.72E-17
Ag-103 1.41E-17 1.45E-17 1.32E-17 1.30E-17 2.12E-17 1.25E-17 1.27E-17 1.36E-17 1.72E-17
Ag-104m 2.18E-17 2.22E-17 2.04E-17 2.03E-17 3.02E-17 1.95E-17 1.97E-17 2.11E-17 2.98E-17
Ag-104 4.97E-17 5.10E-17 4.69E-17 4.67E-17 6.75E-17 4.45E-17 4.52E-17 4.82E-17 5.52E-17
Ag-105 9.61E-18 9.90E-18 8.88E-18 8.74E-18 1.52E-17 8.44E-18 8.53E-18 9.27E-18 1.07E-17
Ag-106m 5.23E-17 5.36E-17 4.93E-17 4.91E-17 7.17E-17 4.68E-17 4.75E-17 5.07E-17 5.77E-17
Ag-106 1.35E-17 1.39E-17 1.25E-17 1.23E-17 1.97E-17 1.19E-17 1.20E-17 1.30E-17 1.93E-17
Ag-108m 3.06E-17 3.14E-17 2.85E-17 2.82E-17 4.36E-17 2.71E-17 2.74E-17 2.95E-17 3.38E-17
Ag-108 3.70E-19 3.80E-19 3.43E-19 3.37E-19 5.53E-19 3.26E-19 3.29E-19 3.56E-19 4.49E-18
Ag-109m 6.02E-20 6.50E-20 4.37E-20 3.87E-20 1.60E-19 4.33E-20 4.20E-20 5.34E-20 8.32E-20
Ag-llOm 5.11E-17 5.24E-17 4.83E-17 4.82E-17 6.86E-17 4.59E-17 4.66E-17 4.96E-17 5.64E-17
Ag-110 7.15E-19 7.35E-19 6.66E-19 6.56E-19 1.06E-18 6.33E-19 6.40E-19 6.90E-19 1.52E-17
Ag-111 5.14E-19 5.30E-19 4.72E-19 4.62E-19 8.71E-19 4.48E-19 4.53E-19 4.95E-19 1.36E-18
Ag-112 1.23E-17 1.26E-17 1.16E-17 1.16E-17 1.65E-17 1.11E-17 1.12E-17 1.19E-17 3.22E-17
Ag-115 1.29E-17 1.32E-17 1.22E-17 1.22E-17 1.81E-17 1.17E-17 1.18E-17 1.26E-17 2.62E-17
Cadmium
Cd-104 4.31E-18 4.44E-18 3.98E-18 3.87E-18 7.04E-18 3.78E-18 3.81E-18 4.15E-18 4.80E-18
Cd-107 2.04E-19 2.18E-19 1.54E-19 1.48E-19 3.81E-19 1.53E-19 1.50E-19 1.81E-19 2.78E-19
Cd-109 8.67E-20 9.69E-20 4.70E-20 4.29E-20 1.88E-19 5.12E-20 4.84E-20 6.87E-20 1.46E-19
Cd-113m 2.88E-21 3.06E-21 2.42E-21 2.14E-21 7.71E-21 2.32E-21 2.28E-21 2.71E-21 1.72E-20
Cd-113 5.68E-22 6.14E-22 4.39E-22 3.69E-22 1.62E-21 4.30E-22 4.15E-22 5.17E-22 7.14E-22
Cd-115m 4.40E-19 4.52E-19 4.16E-19 4.15E-19 6.12E-19 3.95E-19 4.02E-19 4.28E-19 4.44E-18
Cd-115 4.43E-18 4.55E-18 4.11E-18 4.05E-18 6.53E-18 3.91E-18 3.95E-18 4.27E-18 5.53E-18
Cd-117m 3.68E-17 3.76E-17 3.52E-17 3.54E-17 4.74E-17 3.35E-17 3.41E-17 3.60E-17 4.07E-17
Cd-117 1.99E-17 2.04E-17 1.89E-17 1.89E-17 2.72E-17 1.79E-17 1.83E-17 1.94E-17 2.48E-17
-------
135
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Indium
In-109 1.22E-17 1.25E-17 1.14E-17 1.13E-17 1.87E-17 1.08E-17 1.10E-17 1.18E-17 1.35E-17
In-llOb1 5.67E-17 5.82E-17 5.34E-17 5.32E-17 7.68E-17 5.07E-17 5.15E-17 5.50E-17 6.27E-17
In-110a2 2.91E-17 2.98E-17 2.72E-17 2.70E-17 4.06E-17 2.60E-17 2.63E-17 2.81E-17 3.85E-17
In-Ill 7.19E-18 7.47E-18 6.56E-18 6.34E-18 1.44E-17 6.19E-18 6.26E-18 6.96E-18 7.98E-18
In-112 5.01E-18 5.14E-18 4.64E-18 4.58E-18 7.28E-18 4.42E-18 4.47E-18 4.82E-18 6.56E-18
In-113m 4.83E-18 4.97E-18 4.44E-18 4.36E-18 7.62E-18 4.23E-18 4.27E-18 4.64E-18 5.34E-18
In-114m 1.62E-18 1.67E-18 1.49E-18 1.46E-18 2.63E-18 1.41E-18 1.43E-18 1.56E-18 1.81E-18
In-114 5.01E-20 5.15E-20 4.77E-20 4.79E-20 6.59E-20 4.53E-20 4.62E-20 4.89E-20 5.58E-20
In-115m 2.94E-18 3.04E-18 2.69E-18 2.64E-18 4.88E-18 2.56E-18 2.58E-18 2.83E-18 3.28E-18
In-115 1.84E-21 1.96E-21 1.51E-21 1.32E-21 5.04E-21 1.46E-21 1.43E-21 1.72E-21 3.09E-21
In-116m 4.49E-17 4.60E-17 4.29E-17 4.31E-17 5.85E-17 4.08E-17 4.15E-17 4.39E-17 4.99E-17
In-117m 1.64E-18 1.70E-18 1.50E-18 1.45E-18 3.06E-18 1.42E-18 1.43E-18 1.58E-18 4.30E-18
In-117 1.30E-17 1.34E-17 1.20E-17 1.18E-17 2.08E-17 1.14E-17 1.15E-17 1.25E-17 1.45E-17
In-119m 2.47E-19 2.57E-19 2.22E-19 2.17E-19 4.16E-19 2.12E-19 2.14E-19 2.36E-19 1.21E-17
In-119 1.44E-17 1.48E-17 1.35E-17 1.35E-17 1.96E-17 1.29E-17 1.30E-17 1.39E-17 2.00E-17
Tin
Sn-110 5.42E-18 5.62E-18 4.96E-18 4.84E-18 9.60E-18 4.70E-18 4.75E-18 5.23E-18 6.03E-18
Sn-111 9.35E-18 9.59E-18 8.74E-18 8.67E-18 1.31E-17 8.33E-18 8.43E-18 9.04E-18 1.17E-17
Sn-113 1.30E-19 1.41E-19 8.94E-20 8.76E-20 2.16E-19 9.16E-20 8.90E-20 1.11E-19 1.81E-19
Sn-117m 2.55E-18 2.65E-18 2.30E-18 2.18E-18 5.81E-18 2.17E-18 2.18E-18 2.47E-18 2.83E-18
Sn-119m 2.62E-20 3.11E-20 5.21E-21 5.14E-21 3.46E-20 9.48E-21 7.81E-21 1.61E-20 5.18E-20
Sn-121m 1.56E-20 1.82E-20 4.98E-21 4.03E-21 2.71E-20 7.01E-21 5.96E-21 1.05E-20 2.61E-20
Sn-121 9.45E-22 1.02E-21 7.53E-22 6.44E-22 2.66E-21 7.32E-22 7.10E-22 8.71E-22 1.16E-21
Sn-123m 2.47E-18 2.57E-18 2.26E-18 2.14E-18 5.63E-18 2.12E-18 2.14E-18 2.40E-18 4.54E-18
Sn-123 1.53E-19 1.57E-19 1.44E-19 1.43E-19 2.25E-19 1.37E-19 1.39E-19 1.49E-19 2.99E-18
Sn-125 5.80E-18 5.95E-18 5.52E-18 5.52E-18 7.69E-18 5.24E-18 5.33E-18 5.65E-18 1.47E-17
Sn-126 6.82E-19 7.19E-19 5.94E-19 5.12E-19 2.13E-18 5.62E-19 5.53E-19 6.58E-19 7.67E-19
Sn-127 3.49E-17 3.57E-17 3.32E-17 3.32E-17 4.66E-17 3.15E-17 3.21E-17 3.40E-17 4.28E-17
Sn-128 1.17E-17 1.21E-17 1.08E-17 1.05E-17 1.80E-17 1.03E-17 1.03E-17 1.12E-17 1.30E-17
Antimony
Sb-115 1.71E-17 1.76E-17 1.59E-17 1.56E-17 2.50E-17 1.51E-17 1.53E-17 1.65E-17 2.04E-17
Sb-116m 5.75E-17 5.90E-17 5.44E-17 5.43E-17 7.87E-17 5.16E-17 5.25E-17 5.59E-17 6.38E-17
Sb-116 3.93E-17 4.02E-17 3.74E-17 3.74E-17 5.20E-17 3.55E-17 3.61E-17 3.83E-17 4.72E-17
Sb-117 2.99E-18 3.11E-18 2.72E-18 2.59E-18 6.38E-18 2.56E-18 2.58E-18 2.89E-18 3.33E-18
Sb-118m 4.68E-17 4.81E-17 4.44E-17 4.44E-17 6.35E-17 4.21E-17 4.29E-17 4.56E-17 5.17E-17
Sb-119 5.56E-20 6.60E-20 1.14E-20 1.10E-20 7.49E-20 2.04E-20 1.69E-20 3.44E-20 1.08E-19
Sb-120b3 4.47E-17 4.59E-17 4.24E-17 4.22E-17 6.26E-17 4.01E-17 4.08E-17 4.35E-17 4.94E-17
Sb-120a4 8.45E-18 8.67E-18 7.82E-18 7.71E-18 1.23E-17 7.45E-18 7.52E-18 8.12E-18 1.16E-17
Sb-122 8.41E-18 8.63E-18 7.83E-18 7.74E-18 1.20E-17 7.45E-18 7.54E-18 8.11E-18 1.29E-17
Sb-124n5 1.75E-22 2.08E-22 3.20E-23 3.29E-23 2.22E-22 6.14E-23 5.02E-23 1.06E-22 3.50E-22
Sb-124m6 6.69E-18 6.86E-18 6.23E-18 6.16E-18 9.50E-18 5.93E-18 5.99E-18 6.45E-18 7.65E-18
Sb-124 3.33E-17 3.40E-17 3.16E-17 3.17E-17 4.40E-17 3.01E-17 3.06E-17 3.24E-17 3.89E-17
Sb-125 7.96E-18 8.18E-18 7.36E-18 7.25E-18 1.18E-17 7.01E-18 7.08E-18 7.66E-18 8.82E-18
Sb-126m 2.94E-17 3.01E-17 2.74E-17 2.71E-17 4.17E-17 2.61E-17 2.64E-17 2.83E-17 3.68E-17
Sb-126 5.35E-17 5.49E-17 5.01E-17 4.97E-17 7.51E-17 4.76E-17 4.82E-17 5.17E-17 6.02E-17
Sb-127 1.30E-17 1.34E-17 1.21E-17 1.20E-17 1.86E-17 1.15E-17 1.17E-17 1.26E-17 1.50E-17
Sb-128b7 5.82E-17 5.97E-17 5.46E-17 5.42E-17 8.15E-17 5.18E-17 5.26E-17 5.63E-17 6.64E-17
Sb-128a8 3.74E-17 3.84E-17 3.51E-17 3.48E-17 5.29E-17 3.33E-17 3.38E-17 3.62E-17 5.08E-17
Sb-129 2.66E-17 2.72E-17 2.52E-17 2.51E-17 3.56E-17 2.39E-17 2.43E-17 2.58E-17 3.15E-17
Sb-130 6.08E-17 6.24E-17 5.73E-17 5.69E-17 8.54E-17 5.43E-17 5.52E-17 5.90E-17 7.32E-17
Sb-131 3.41E-17 3.49E-17 3.24E-17 3.25E-17 4.50E-17 3.08E-17 3.14E-17 3.32E-17 4.15E-17
Tellurium
Te-116 7.85E-19 8.25E-19 6.64E-19 6.10E-19 1.86E-18 6.38E-19 6.29E-19 7.37E-19 9.18E-19
Te-121m 3.79E-18 3.94E-18 3.47E-18 3.37E-18 7.19E-18 3.28E-18 3.32E-18 3.67E-18 4.22E-18
4.9 h
69.1 m
5.76 d
15.89 m
20.2 m
93 s
9.01 h
10.4 m
-------
136
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose
Nuclide
Gonad
Tellurium,
Te-121
Te-123m
Te-123
Te-125m
Te-127m
Te-127
Te-129m
Te-129
Te-131m
Te-131
Te-132
Te-133m
Te-133
Te-134
Iodine
I-120m
1-120
1-121
1-122
1-123
1-124
1-125
1-126
1-128
1-129
1-130
1-131
I-132m
1-132
1-133
1-134
1-135
Xenon
Xe-120
Xe-121
Xe-122
Xe-123
Xe-125
Xe-127
Xe-129m
Xe-131m
Xe-133m
Xe-133
Xe-135m
Xe-135
Xe-138
Cesium
Cs-125
Cs-126
Cs-127
Cs-128
Cs-129
Cs-130
Cs-131
Cs-132
Cs-134m
Cs-134
Cs-135m
Cs-135
Cs-136
1
2
5
1
3
9
5
1
2
7
3
4
1
1
9
5
7
1
2
2
1
8
1
9
4
7
5
4
1
4
2
7
3
9
1
4
4
3
1
5
4
8
4
2
1
2
7
1
4
9
8
1
3
2
2
2
4
Breast
Lung
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
nr
J)
Remainder
Effective
Skin
cont ' d
.07E
.43E
.50E
.17E
.89E
.69E
. 92E
.08E
.63E
.75E
.97E
.27E
.73E
.65E
.75E
.OOE
.57E
.81E
. 72E
.DIE
.33E
.46E
.66E
.73E
. 04E
.25E
.91E
.27E
.15E
.87E
.86E
.42E
.26E
.28E
. 14E
.55E
.80E
.28E
.18E
.DIE
.86E
. 12E
.68E
. 02E
.27E
.09E
.59E
.71E
.86E
.67E
.36E
.30E
. 12E
.93E
.96E
.HE
.OOE
-17
-18
-20
-19
-20
-20
-19
-18
-17
-18
-18
-17
-17
-17
-17
-17
-18
-17
-18
-17
-19
-18
-18
-20
-17
-18
-18
-17
-17
-17
-17
-18
-17
-19
-17
-18
-18
-19
-19
-19
-19
-18
-18
-17
-17
-17
-18
-17
-18
-18
-20
-17
-19
-17
-17
-22
-17
1
2
6
1
4
9
6
1
2
7
4
4
1
1
9
5
7
1
2
2
1
8
1
1
4
7
6
4
1
4
2
7
3
9
1
4
4
3
1
5
5
8
4
2
1
2
7
1
5
9
9
1
3
3
3
2
4
.09E
.53E
.50E
.37E
.51E
.98E
.HE
.HE
.70E
.98E
. 14E
.38E
.78E
.69E
.97E
.IDE
. 82E
.85E
.83E
.06E
.57E
.69E
.71E
.13E
. 14E
.47E
.07E
.38E
.18E
.99E
.93E
.65E
.33E
.70E
.17E
.73E
.99E
.61E
.30E
.29E
.18E
.33E
.85E
.07E
.30E
.15E
. 82E
.76E
. 02E
.93E
.78E
.33E
.29E
.OOE
. 04E
.32E
.HE
-17
-18
-20
-19
-20
-20
-19
-18
-17
-18
-18
-17
-17
-17
-17
-17
-18
-17
-18
-17
-19
-18
-18
-19
-17
-18
-18
-17
-17
-17
-17
-18
-17
-19
-17
-18
-18
-19
-19
-19
-19
-18
-18
-17
-17
-17
-18
-17
-18
-18
-20
-17
-19
-17
-17
-22
-17
9
2
1
3
1
8
5
9
2
7
3
4
1
1
9
4
6
1
2
1
4
7
1
3
3
6
5
4
1
4
2
6
3
8
1
4
4
2
7
4
4
7
4
1
1
1
6
1
4
8
2
1
2
2
2
1
3
.88E
.20E
.37E
.85E
.47E
.90E
.38E
. 94E
.48E
.23E
.59E
. 04E
.63E
.53E
.22E
. 72E
.96E
.68E
.45E
.89E
.OOE
.85E
.53E
.81E
.78E
.70E
.51E
. 02E
.07E
.61E
.73E
. 84E
.09E
.07E
.06E
. 14E
.35E
.13E
.29E
.24E
.03E
.53E
.30E
.93E
.17E
. 94E
.98E
.59E
.42E
.95E
. 94E
.21E
.65E
.75E
.80E
.48E
.78E
-18
-18
-20
-20
-20
-20
-19
-19
-17
-18
-18
-17
-17
-17
-17
-17
-18
-17
-18
-17
-20
-18
-18
-20
-17
-18
-18
-17
-17
-17
-17
-18
-17
-19
-17
-18
-18
-19
-20
-19
-19
-18
-18
-17
-17
-17
-18
-17
-18
-18
-20
-17
-19
-17
-17
-22
-17
9.75E-18 1.53E-17 9.41E-18
2.08E-18 5.55E-18 2.07E-18
1.20E-20 8.21E-20 2.20E-20
3.15E-20 2.03E-19 5.35E-20
1.23E-20 6.97E-20 1.91E-20
8.70E-20 1.57E-19 8.47E-20
5.32E-19 8.33E-19 5.15E-19
9.79E-19 1.63E-18 9.48E-19
2.47E-17 3.64E-17 2.35E-17
7.09E-18 1.27E-17 6.85E-18
3.47E-18 7.82E-18 3.40E-18
4.03E-17 5.83E-17 3.83E-17
1.62E-17 2.50E-17 1.55E-17
1.51E-17 2.53E-17 1.45E-17
9.20E-17 1.32E-16 8.79E-17
4.72E-17 6.76E-17 4.53E-17
6.81E-18 1.28E-17 6.60E-18
1.65E-17 2.62E-17 1.60E-17
2.33E-18 5.95E-18 2.31E-18
1.89E-17 2.75E-17 1.81E-17
3.23E-20 2.23E-19 5.83E-20
7.76E-18 1.23E-17 7.47E-18
1.51E-18 2.53E-18 1.46E-18
2.84E-20 1.94E-19 4.88E-20
3.75E-17 5.66E-17 3.59E-17
6.57E-18 1.16E-17 6.36E-18
5.45E-18 8.52E-18 5.24E-18
4.00E-17 5.81E-17 3.82E-17
1.06E-17 1.64E-17 1.02E-17
4.60E-17 6.54E-17 4.37E-17
2.75E-17 3.71E-17 2.60E-17
6.73E-18 1.14E-17 6.51E-18
3.08E-17 4.50E-17 2.96E-17
7.81E-19 1.63E-18 7.77E-19
1.05E-17 1.75E-17 1.01E-17
4.01E-18 8.48E-18 3.92E-18
4.20E-18 9.39E-18 4.12E-18
1.92E-19 6.56E-19 2.23E-19
6.52E-20 2.40E-19 7.73E-20
4.08E-19 9.57E-19 4.09E-19
3.41E-19 1.50E-18 3.87E-19
7.42E-18 1.18E-17 7.17E-18
4.19E-18 8.56E-18 4.06E-18
1.94E-17 2.73E-17 1.84E-17
1.16E-17 1.86E-17 1.12E-17
1.91E-17 3.10E-17 1.84E-17
6.85E-18 1.19E-17 6.65E-18
1.57E-17 2.52E-17 1.51E-17
4.33E-18 7.72E-18 4.22E-18
8.83E-18 1.41E-17 8.53E-18
2.23E-20 1.54E-19 3.96E-20
1.20E-17 1.80E-17 1.15E-17
2.42E-19 7.84E-19 2.53E-19
2.73E-17 4.04E-17 2.61E-17
2.78E-17 4.01E-17 2.65E-17
1.20E-22 6.00E-22 1.50E-22
3.76E-17 5.55E-17 3.58E-17
9
2
1
4
1
8
5
9
2
6
3
3
1
1
8
4
6
1
2
1
4
7
1
4
3
6
5
3
1
4
2
6
2
7
1
3
4
2
7
4
3
7
4
1
1
1
6
1
4
8
3
1
2
2
2
1
3
.51E
.08E
.83E
.57E
.66E
. 54E
.20E
.56E
.39E
.93E
.43E
.90E
.57E
.47E
.91E
.57E
.67E
.61E
.32E
.83E
.91E
.56E
.47E
.21E
. 64E
.43E
.30E
.87E
.03E
.45E
.65E
.58E
.98E
.76E
. 02E
.96E
.15E
.HE
.29E
.08E
.78E
.24E
.HE
.87E
.13E
.86E
.70E
.53E
.25E
.61E
.37E
.17E
.50E
.65E
.69E
.42E
. 64E
-18
-18
-20
-20
-20
-20
-19
-19
-17
-18
-18
-17
-17
-17
-17
-17
-18
-17
-18
-17
-20
-18
-18
-20
-17
-18
-18
-17
-17
-17
-17
-18
-17
-19
-17
-18
-18
-19
-20
-19
-19
-18
-18
-17
-17
-17
-18
-17
-18
-18
-20
-17
-19
-17
-17
-22
-17
1
2
3
7
2
9
5
1
2
7
3
4
1
1
9
4
7
1
2
1
8
8
1
6
3
6
5
4
1
4
2
7
3
8
1
4
4
2
9
4
4
7
4
1
1
2
7
1
4
9
5
1
2
2
2
1
3
.03E
.36E
. 52E
.97E
. 74E
.32E
. 64E
. 04E
.55E
. 52E
.83E
.15E
.68E
.59E
.48E
.86E
.30E
. 74E
. 62E
.95E
.87E
.15E
.60E
. 92E
.90E
.99E
.71E
. 14E
.HE
.73E
.80E
. 14E
.18E
.73E
.IDE
.39E
.63E
.75E
.69E
.68E
.58E
. 82E
.53E
.98E
.22E
.DIE
.30E
.65E
.65E
.30E
.77E
.25E
. 94E
.83E
.87E
.85E
.89E
-17
-18
-20
-20
-20
-20
-19
-18
-17
-18
-18
-17
-17
-17
-17
-17
-18
-17
-18
-17
-20
-18
-18
-20
-17
-18
-18
-17
-17
-17
-17
-18
-17
-19
-17
-18
-18
-19
-20
-19
-19
-18
-18
-17
-17
-17
-18
-17
-18
-18
-20
-17
-19
-17
-17
-22
-17
1
2
9
1
6
1
1
3
2
1
4
5
2
1
1
7
8
3
3
2
2
9
8
1
4
8
6
4
1
5
3
8
4
1
1
5
5
4
1
5
5
9
5
2
1
4
8
2
5
1
1
1
3
3
3
2
4
.18E-17
.70E-18
.89E-20
.94E-19
.64E-20
.81E-19
.96E-18
.95E-18
.95E-17
.42E-17
.43E-18
.26E-17
.67E-17
.84E-17
.24E-16
.52E-17
.62E-18
.36E-17
.04E-18
.38E-17
.24E-19
.69E-18
.51E-18
.48E-19
.52E-17
.03E-18
.88E-18
.99E-17
.42E-17
.80E-17
.27E-17
.29E-18
.22E-17
.07E-18
.35E-17
.09E-18
.34E-18
.32E-19
.58E-19
.84E-19
.59E-19
.07E-18
.60E-18
.81E-17
.70E-17
.43E-17
.44E-18
.92E-17
.42E-18
.44E-17
.31E-19
.44E-17
.57E-19
.24E-17
.30E-17
.87E-22
.42E-17
-------
137
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Nuclide
Cesium,
Cs-137
Cs-138
Barium
Ba-126
Ba-128
Ba-131m
Ba-131
Ba-133m
Ba-133
Ba-135m
Ba-137m
Ba-139
Ba-140
Ba-141
Ba-142
Gonad
Breast
Dose
Lung
Coefficient
hT (Sv
R Marrow BSurface
per Bq s
Thyroid
nr
3)
Remainder
Effective
Skin
cont ' d
3
4
2
1
1
8
9
6
8
1
8
3
1
1
.26E-21
.27E-17
.73E-18
.08E-18
.04E-18
.16E-18
.95E-19
.93E-18
. 74E-19
.13E-17
.24E-19
.39E-18
.57E-17
. 92E-17
3
4
2
1
1
8
1
7
9
1
8
3
1
1
.45E-21
.36E-17
.83E-18
.13E-18
.09E-18
.42E-18
. 04E-18
. 17E-18
.15E-19
.15E-17
.57E-19
.49E-18
.62E-17
.97E-17
2
4
2
9
9
7
8
6
7
1
7
3
1
1
.76E-21
.08E-17
.47E-18
.39E-19
.20E-19
.48E-18
.76E-19
.29E-18
. 64E-19
.05E-17
.55E-19
.13E-18
.47E-17
. 81E-17
2.46E
4.10E
2.42E
9.08E
8.25E
7.31E
8.48E
6.10E
7.38E
1.04E
7.22E
3.08E
1.46E
1.8 IE
-21 8
-17 5
-18 4
-19 1
-19 2
-18 1
-19 1
-18 1
-19 1
-17 1
-19 1
-18 5
-17 2
-17 2
.46E-21
.54E-17
.48E-18
.95E-18
.91E-18
.34E-17
.80E-18
.22E-17
.60E-18
.56E-17
.75E-18
.18E-18
.38E-17
.69E-17
2
3
2
9
8
7
8
5
7
1
7
2
1
1
.64E-21
.89E-17
.36E-18
.OOE-19
.68E-19
.12E-18
.38E-19
.98E-18
.32E-19
.OOE-17
.11E-19
.98E-18
.40E-17
.72E-17
2
3
2
9
8
7
8
6
7
1
7
3
1
1
.60E-21
.95E-17
.37E-18
.02E-19
.59E-19
.18E-18
.41E-19
.02E-18
.33E-19
.01E-17
.17E-19
.01E-18
.42E-17
.75E-17
3.07E
4.17E
2.61E
1.02E
1.01E
7.85E
9.43E
6.64E
8.26E
1.09E
8.01E
3.26E
1.53E
1.87E
-21 9
-17 6
-18 3
-18 1
-18 1
-18 9
-19 1
-18 7
-19 9
-17 1
-19 9
-18 4
-17 2
-17 2
.23E-20
.15E-17
.06E-18
.23E-18
.16E-18
.05E-18
.13E-18
.71E-18
.93E-19
.27E-17
.72E-18
.23E-18
.62E-17
.29E-17
Lanthanum
La-131
La-132
La-134
La-135
La-137
La-138
La-140
La-141
La-142
La-143
Cerium
Ce-134
Ce-135
Ce-137m
Ce-137
Ce-139
Ce-141
Ce-143
Ce-144
1
3
1
3
1
2
4
8
4
1
1
3
7
2
2
1
4
3
.23E-17
.68E-17
.32E-17
.05E-19
. 04E-19
.23E-17
.20E-17
.65E-19
.86E-17
.87E-18
.21E-19
.37E-17
.19E-19
.83E-19
.49E-18
.26E-18
.99E-18
.OOE-19
1
3
1
3
1
2
4
8
4
1
1
3
7
3
2
1
5
3
.27E-17
.77E-17
.36E-17
.28E-19
.21E-19
.28E-17
.30E-17
.87E-19
.93E-17
.91E-18
.40E-19
.46E-17
.55E-19
.06E-19
.60E-18
.31E-18
.16E-18
. 14E-19
1
3
1
2
4
2
4
8
4
1
5
3
6
2
2
1
4
2
.14E-17
.47E-17
.23E-17
.27E-19
.34E-20
.13E-17
.01E-17
.25E-19
.66E-17
.78E-18
.45E-20
.13E-17
.19E-19
.04E-19
.22E-18
.14E-18
.57E-18
.65E-19
1.11E
3.46E
1.21E
2.12E
3 .15E
2.14E
4.02E
8.27E
4.70E
1.78E
3 .91E
3.09E
5.93E
1.86E
2.10E
1.07E
4.47E
2.42E
-17 1
-17 5
-17 1
-19 5
-20 2
-17 2
-17 5
-19 1
-17 6
-18 2
-20 2
-17 4
-19 1
-19 5
-18 5
-18 3
-18 8
-19 7
.93E-17
.06E-17
.92E-17
.14E-19
.16E-19
.88E-17
.52E-17
.17E-18
.15E-17
.52E-18
.66E-19
.99E-17
.33E-18
.11E-19
.58E-18
.04E-18
.19E-18
.76E-19
1
3
1
2
5
2
3
7
4
1
6
2
5
2
2
1
4
2
.08E-17
.32E-17
.17E-17
.30E-19
.41E-20
.02E-17
.81E-17
.84E-19
.49E-17
.70E-18
.58E-20
.98E-17
.96E-19
.08E-19
.10E-18
.07E-18
.35E-18
.51E-19
1
3
1
2
4
2
3
7
4
1
5
3
5
1
2
1
4
2
.09E-17
.35E-17
.18E-17
.21E-19
.69E-20
.06E-17
.88E-17
.99E-19
.53E-17
.72E-18
.74E-20
.01E-17
.94E-19
.99E-19
.10E-18
.08E-18
.39E-18
.49E-19
1.19E
3.57E
1.27E
2.67E
7.52E
2.18E
4.10E
8.46E
4.76E
1.82E
8.97E
3.25E
6.74E
2.45E
2.39E
1.22E
4.80E
2.88E
-17 1
-17 4
-17 2
-19 3
-20 1
-17 2
-17 4
-19 1
-17 6
-18 1
-20 1
-17 3
-19 8
-19 3
-18 2
-18 1
-18 6
-19 3
.49E-17
.69E-17
.34E-17
.76E-19
.52E-19
.45E-17
.89E-17
.09E-17
.11E-17
.94E-17
.72E-19
.74E-17
.22E-19
.51E-19
.78E-18
.39E-18
.97E-18
.33E-19
Praseodymium
Pr-136
Pr-137
Pr-138m
Pr-138
Pr-139
Pr-142m
Pr-142
Pr-143
Pr-144m
Pr-144
Pr-145
Pr-147
3
9
4
1
1
0
1
9
7
7
2
1
.91E-17
.21E-18
.59E-17
.56E-17
.96E-18
.0
.HE-IS
.09E-21
.79E-20
.18E-19
.85E-19
. 57E-17
4
9
4
1
2
0
1
9
8
7
2
1
.OOE-17
.46E-18
.71E-17
.60E-17
.02E-18
.0
.14E-18
.57E-21
.69E-20
.34E-19
.93E-19
.61E-17
3
8
4
1
1
0
1
7
4
6
2
1
.66E-17
. 53E-18
.32E-17
.44E-17
.77E-18
.0
.07E-18
.89E-21
.75E-20
.79E-19
.66E-19
.47E-17
3.64E
8.41E
4.30E
1.42E
1.73E
0.0
1.07E
7.19E
3.82E
6.77E
2.63E
1.45E
-17 5
-18 1
-17 6
-17 2
-18 2
0
-18 1
-21 2
-20 1
-19 1
-19 4
-17 2
.43E-17
.34E-17
.38E-17
.27E-17
.92E-18
.0
.46E-18
.24E-20
.73E-19
.01E-18
.24E-19
.31E-17
3
8
4
1
1
0
1
7
5
6
2
1
.49E-17
.13E-18
.10E-17
.37E-17
.69E-18
.0
.01E-18
.52E-21
.11E-20
.48E-19
.53E-19
.39E-17
3
8
4
1
1
0
1
7
4
6
2
1
.54E-17
.20E-18
.16E-17
.39E-17
.70E-18
.0
.03E-18
.44E-21
.69E-20
.57E-19
.56E-19
.41E-17
3.78E
8.86E
4.45E
1.50E
1.86E
0.0
1.09E
8.64E
6.36E
6.99E
2.76E
1.52E
-17 5
-18 1
-17 5
-17 3
-18 2
0
-18 8
-21 5
-20 1
-19 1
-19 5
-17 2
.22E-17
.16E-17
.20E-17
.32E-17
.32E-18
.0
.94E-18
.06E-19
.03E-19
.58E-17
.41E-18
.39E-17
Neodymium
Nd-136
Nd-138
Nd-139m
Nd-139
Nd-141m
Nd-141
Nd-147
Nd-149
Nd-151
4
4
2
7
1
1
2
7
1
.77E-18
.20E-19
.86E-17
.39E-18
.42E-17
.03E-18
.33E-18
.01E-18
.67E-17
4
4
2
7
1
1
2
7
1
.93E-18
.50E-19
. 94E-17
. 60E-18
.46E-17
.07E-18
.41E-18
.25E-18
.72E-17
4
3
2
6
1
9
2
6
1
.32E-18
.24E-19
.69E-17
.84E-18
.34E-17
.04E-19
.HE-IS
.45E-18
.57E-17
4.16E
2.95E
2.67E
6.74E
1.33E
8.75E
2.03E
6.27E
1.56E
-18 8
-19 8
-17 3
-18 1
-17 1
-19 1
-18 4
-18 1
-17 2
.33E-18
.44E-19
.99E-17
.08E-17
.94E-17
.59E-18
.21E-18
.23E-17
.51E-17
4
3
2
6
1
8
2
6
1
.12E-18
.22E-19
.56E-17
.52E-18
.27E-17
.73E-19
.02E-18
.HE-IS
.49E-17
4
3
2
6
1
8
2
6
1
.13E-18
.11E-19
.59E-17
.58E-18
.29E-17
.71E-19
.02E-18
.17E-18
.51E-17
4.56E
3 .75E
2.77E
7. HE
1.38E
9.67E
2.23E
6.77E
1.63E
-18 5
-19 5
-17 3
-18 9
-17 1
-19 1
-18 2
-18 9
-17 2
.38E-18
.01E-19
.20E-17
.73E-18
.61E-17
.18E-18
.76E-18
.74E-18
.29E-17
Promethium
Pm-141 1.39E-17 1.42E-17 1.29E-17 1.28E-17 1.98E-17 1.23E-17 1.25E-17 1.34E-17 2.29E-17
Pm-142 1.66E-17 1.71E-17 1.54E-17 1.52E-17 2.42E-17 1.47E-17 1.49E-17 1.60E-17 3.83E-17
Pm-143 5.54E-18 5.70E-18 5.14E-18 5.08E-18 7.77E-18 4.90E-18 4.95E-18 5.33E-18 6.17E-18
-------
138
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Promethium, cont'd
Pm-144 2.92E-17 3.00E-17 2.72E-17 2.69E-17 4.12E-17 2.59E-17 2.62E-17 2.82E-17 3.23E-17
Pm-145 1.88E-19 2.12E-19 1.11E-19 8.09E-20 5.04E-19 1.20E-19 1.09E-19 1.53E-19 2.44E-19
Pm-146 1.40E-17 1.44E-17 1.30E-17 1.29E-17 2.01E-17 1.24E-17 1.25E-17 1.35E-17 1.56E-17
Pm-147 2.55E-22 2.77E-22 1.91E-22 1.61E-22 7.13E-22 1.89E-22 1.82E-22 2.29E-22 3.30E-22
Pm-148m 3.77E-17 3.87E-17 3.53E-17 3.49E-17 5.34E-17 3.35E-17 3.39E-17 3.64E-17 4.17E-17
Pm-148 1.06E-17 1.09E-17 1.01E-17 1.01E-17 1.41E-17 9.57E-18 9.74E-18 1.03E-17 1.81E-17
Pm-149 2.14E-19 2.21E-19 1.97E-19 1.92E-19 3.69E-19 1.87E-19 1.89E-19 2.07E-19 1.15E-18
Pm-150 2.63E-17 2.69E-17 2.49E-17 2.49E-17 3.59E-17 2.37E-17 2.41E-17 2.56E-17 3.58E-17
Pm-151 5.86E-18 6.05E-18 5.40E-18 5.27E-18 9.87E-18 5.12E-18 5.17E-18 5.65E-18 6.95E-18
Samarium
Sm-141m 3.65E-17 3.75E-17 3.43E-17 3.41E-17 5.22E-17 3.26E-17 3.31E-17 3.54E-17 4.46E-17
Sm-141 2.62E-17 2.69E-17 2.45E-17 2.43E-17 3.73E-17 2.33E-17 2.36E-17 2.53E-17 3.77E-17
Sm-142 1.41E-18 1.46E-18 1.24E-18 1.20E-18 2.26E-18 1.20E-18 1.20E-18 1.33E-18 1.67E-18
Sm-145 4.28E-19 4.79E-19 2.68E-19 1.95E-19 1.21E-18 2.84E-19 2.59E-19 3.57E-19 5.42E-19
Sm-146 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-147 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-151 9.38E-24 1.14E-23 8.79E-25 1.37E-24 8.77E-24 2.48E-24 2.03E-24 5.27E-24 2.46E-23
Sm-153 7.31E-19 7.75E-19 6.16E-19 5.30E-19 2.12E-18 5.90E-19 5.75E-19 6.90E-19 9.29E-19
Sm-155 1.64E-18 1.71E-18 1.48E-18 1.35E-18 4.40E-18 1.39E-18 1.39E-18 1.59E-18 4.93E-18
Sm-156 2.02E-18 2.11E-18 1.84E-18 1.74E-18 4.52E-18 1.73E-18 1.74E-18 1.96E-18 2.28E-18
Europium
Eu-145 2.63E-17 2.70E-17 2.49E-17 2.49E-17 3.50E-17 2.37E-17 2.41E-17 2.56E-17 2.91E-17
Eu-146 4.62E-17 4.74E-17 4.35E-17 4.34E-17 6.29E-17 4.14E-17 4.20E-17 4.48E-17 5.12E-17
Eu-147 8.67E-18 8.94E-18 8.06E-18 7.92E-18 1.34E-17 7.65E-18 7.74E-18 8.38E-18 9.63E-18
Eu-148 4.05E-17 4.15E-17 3.79E-17 3.76E-17 5.66E-17 3.60E-17 3.65E-17 3.91E-17 4.47E-17
Eu-149 7.88E-19 8.33E-19 6.61E-19 6.14E-19 1.55E-18 6.42E-19 6.31E-19 7.30E-19 9.06E-19
Eu-lBOb1 2.78E-17 2.86E-17 2.59E-17 2.56E-17 4.13E-17 2.46E-17 2.49E-17 2.69E-17 3.09E-17
Eu-150a2 8.49E-19 8.75E-19 7.83E-19 7.70E-19 1.31E-18 7.46E-19 7.53E-19 8.17E-19 1.61E-18
Eu-152m 5.33E-18 5.48E-18 5.02E-18 4.98E-18 7.49E-18 4.76E-18 4.83E-18 5.17E-18 9.77E-18
Eu-152 2.08E-17 2.14E-17 1.97E-17 1.96E-17 2.93E-17 1.87E-17 1.90E-17 2.03E-17 2.31E-17
Eu-154 2.26E-17 2.32E-17 2.15E-17 2.14E-17 3.13E-17 2.04E-17 2.07E-17 2.21E-17 2.58E-17
Eu-155 8.20E-19 8.61E-19 7.24E-19 6.30E-19 2.49E-18 6.83E-19 6.73E-19 7.94E-19 9.06E-19
Eu-156 2.39E-17 2.45E-17 2.29E-17 2.30E-17 3.12E-17 2.18E-17 2.21E-17 2.34E-17 2.93E-17
Eu-157 4.50E-18 4.65E-18 4.09E-18 3.95E-18 7.58E-18 3.90E-18 3.92E-18 4.31E-18 6.10E-18
Eu-158 1.93E-17 1.98E-17 1.84E-17 1.83E-17 2.59E-17 1.74E-17 1.77E-17 1.88E-17 3.11E-17
Gadolinium
Gd-145 4.05E-17 4.14E-17 3.86E-17 3.88E-17 5.31E-17 3.69E-17 3.75E-17 3.96E-17 5.08E-17
Gd-146 3.42E-18 3.59E-18 2.98E-18 2.68E-18 8.96E-18 2.83E-18 2.79E-18 3.26E-18 3.82E-18
Gd-147 2.45E-17 2.52E-17 2.29E-17 2.27E-17 3.61E-17 2.17E-17 2.21E-17 2.37E-17 2.71E-17
Gd-148 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-149 7.33E-18 7.58E-18 6.71E-18 6.52E-18 1.26E-17 6.38E-18 6.43E-18 7.05E-18 8.14E-18
Gd-151 7.38E-19 7.86E-19 6.09E-19 5.49E-19 1.71E-18 5.91E-19 5.77E-19 6.83E-19 8.52E-19
Gd-152 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-153 1.17E-18 1.24E-18 9.63E-19 8.17E-19 3.44E-18 9.28E-19 9.00E-19 1.09E-18 1.33E-18
Gd-159 8.45E-19 8.77E-19 7.61E-19 7.32E-19 1.50E-18 7.27E-19 7.28E-19 8.07E-19 1.38E-18
Terbium
Tb-147 2.94E-17 3.01E-17 2.76E-17 2.75E-17 4.10E-17 2.62E-17 2.66E-17 2.85E-17 3.94E-17
Tb-149 2.93E-17 3.00E-17 2.77E-17 2.76E-17 4.07E-17 2.63E-17 2.67E-17 2.85E-17 3.38E-17
Tb-150 3.11E-17 3.18E-17 2.92E-17 2.90E-17 4.29E-17 2.78E-17 2.82E-17 3.01E-17 4.10E-17
Tb-151 1.61E-17 1.66E-17 1.49E-17 1.46E-17 2.56E-17 1.42E-17 1.43E-17 1.56E-17 1.79E-17
Tb-153 3.61E-18 3.76E-18 3.25E-18 3.09E-18 7.19E-18 3.09E-18 3.09E-18 3.46E-18 4.03E-18
Tb-154 4.13E-17 4.21E-17 3.95E-17 3.97E-17 5.38E-17 3.78E-17 3.83E-17 4.04E-17 4.51E-17
Tb-155 1.92E-18 2.02E-18 1.68E-18 1.52E-18 4.75E-18 1.60E-18 1.58E-18 1.83E-18 2.16E-18
Tb-156m3 2.10E-19 2.32E-19 1.55E-19 1.14E-19 6.90E-19 1.56E-19 1.44E-19 1.88E-19 2.51E-19
Tb-156n4 3.39E-20 3.68E-20 2.64E-20 2.10E-20 1.06E-19 2.59E-20 2.46E-20 3.10E-20 3.96E-20
Tb-156 3.30E-17 3.39E-17 3.11E-17 3.09E-17 4.66E-17 2.96E-17 3.00E-17 3.21E-17 3.64E-17
Tb-157 1.79E-20 2.01E-20 1.18E-20 8.48E-21 5.40E-20 1.23E-20 1.12E-20 1.53E-20 2.23E-20
Tb-158 1.43E-17 1.47E-17 1.34E-17 1.33E-17 2.00E-17 1.27E-17 1.29E-17 1.38E-17 1.59E-17
1 TK = 34.2 y
2 TK = 12.62 h
3 TK = 24.4 y
4 TK = 5.0 h
-------
139
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose
Nuclide
Terbium,
Tb-160
Tb-161
Gonad
cont '
2.
2.
06E
93E
d
-17
-19
Breast
2
3
. 12E
.19E
-17
-19
Lung
1
2
.95E
.24E
-17
-19
Coefficient hT (Sv per Bq s nr
J)
R Marrow BSurface Thyroid Remainder
1.94E-17 2.86E-17 1.85E-17 1
1.77E-19 9.09E-19 2.21E-19 2
.88E
.IDE
-17
-19
Effective
2
2
.DIE
.66E
-17
-19
2
3
Skin
.29E-17
.53E-19
Dysprosium
Dy-155
Dy-157
Dy-159
Dy-165
Dy-166
Holmium
Ho-155
Ho-157
Ho-159
Ho -161
Ho-162m
Ho-162
Ho-164m
Ho-164
Ho-166m
Ho-166
Ho-167
Erbium
Er-161
Er-165
Er-169
Er-171
Er-172
Thulium
Tm-162
Tm-166
Tm-167
Tm-170
Tm-171
Tm-172
Tm-173
Tm-175
1.
6.
3.
4.
4.
6.
8.
5.
4.
9.
2.
3.
2.
3.
4.
6.
1.
3.
6.
6.
9.
3.
3.
2.
7.
6.
8.
7.
1.
03E
35E
34E
47E
31E
92E
43E
85E
92E
99E
60E
59E
53E
25E
91E
82E
65E
DIE
86E
91E
71E
17E
34E
17E
12E
07E
57E
38E
96E
-17
-18
-19
-19
-19
-18
-18
-18
-19
-18
-18
-19
-19
-17
-19
-18
-17
-19
-22
-18
-18
-17
-17
-18
-20
-21
-18
-18
-17
1
6
3
4
4
7
8
6
5
1
2
3
2
3
5
7
1
3
7
7
9
3
3
2
7
6
8
7
2
.06E
.58E
.71E
.63E
.61E
.13E
.73E
.IDE
.39E
.03E
.70E
.97E
.78E
.34E
.09E
.05E
.69E
.33E
.40E
.15E
.98E
.23E
.42E
.29E
.56E
.61E
.78E
.59E
.DIE
-17
-18
-19
-19
-19
-18
-18
-18
-19
-17
-18
-19
-19
-17
-19
-18
-17
-19
-22
-18
-18
-17
-17
-18
-20
-21
-18
-18
-17
9
5
2
4
3
6
7
5
3
9
2
2
1
3
4
6
1
2
5
6
8
3
3
1
6
4
8
6
1
.56E
.78E
.30E
.07E
.55E
.35E
. 72E
.29E
.63E
.37E
.38E
.59E
.89E
. 04E
.55E
.26E
.55E
.19E
.37E
.33E
.98E
.DIE
.17E
. 92E
.IDE
. 84E
.19E
.80E
. 84E
-18
-18
-19
-19
-19
-18
-18
-18
-19
-18
-18
-19
-19
-17
-19
-18
-17
-19
-22
-18
-18
-17
-17
-18
-20
-21
-18
-18
-17
9.41E-18 1.62E-17 9.08E-18 9
5.61E-18 1.11E-17 5.49E-18 5
1.66E-19 1.04E-18 2.36E-19 2
3.89E-19 8.20E-19 3.87E-19 3
2.95E-19 1.26E-18 3.44E-19 3
6.19E-18 1.12E-17 6.05E-18 6
7.49E-18 1.44E-17 7.34E-18 7
5.00E-18 1.21E-17 5.02E-18 5
2.84E-19 1.49E-18 3.64E-19 3
9.25E-18 1.51E-17 8.89E-18 9
2.30E-18 4.31E-18 2.27E-18 2
1.91E-19 1.15E-18 2.62E-19 2
1.44E-19 8.04E-19 1.89E-19 1
3.00E-17 4.80E-17 2.88E-17 2
4.37E-19 8.87E-19 4.32E-19 4
6.11E-18 1.16E-17 5.95E-18 6
1.54E-17 2.33E-17 1.47E-17 1
1.61E-19 9.78E-19 2.21E-19 2
4.55E-22 1.95E-21 5.25E-22 5
6.12E-18 1.28E-17 5.99E-18 6
8.81E-18 1.48E-17 8.55E-18 8
3.01E-17 4.26E-17 2.88E-17 2
3.17E-17 4.52E-17 3.02E-17 3
1.79E-18 4.85E-18 1.83E-18 1
5.10E-20 2.25E-19 5.81E-20 5
3.70E-21 2.06E-20 4.72E-21 4
8.22E-18 1.13E-17 7.77E-18 7
6.67E-18 1.16E-17 6.47E-18 6
1.83E-17 2.76E-17 1.75E-17 1
.20E
.53E
.16E
.88E
.31E
.09E
.39E
. 02E
.41E
. 02E
.28E
.43E
.77E
. 92E
.35E
.OOE
.49E
.05E
.07E
. 04E
. 62E
.91E
.07E
. 82E
.66E
.48E
.93E
.53E
.77E
-18
-18
-19
-19
-19
-18
-18
-18
-19
-18
-18
-19
-19
-17
-19
-18
-17
-19
-22
-18
-18
-17
-17
-18
-20
-21
-18
-18
-17
9
6
2
4
4
6
8
5
4
9
2
3
2
3
4
6
1
2
6
6
9
3
3
2
6
5
8
7
1
.95E
.IDE
.90E
.30E
. 02E
.65E
.HE
.63E
.40E
.70E
.50E
.18E
.28E
.15E
.76E
.58E
.60E
.68E
.28E
.67E
.35E
.09E
.25E
.08E
.81E
. 64E
.38E
.IDE
.90E
-18
-18
-19
-19
-19
-18
-18
-18
-19
-18
-18
-19
-19
-17
-19
-18
-17
-19
-22
-18
-18
-17
-17
-18
-20
-21
-18
-18
-17
1
7
4
2
4
9
9
6
5
1
2
4
5
3
5
7
1
3
8
8
1
3
3
2
6
7
1
8
2
.14E-17
.05E-18
.09E-19
.26E-18
.94E-19
.53E-18
.49E-18
.51E-18
.95E-19
.11E-17
.98E-18
.32E-19
.05E-19
.59E-17
.66E-18
.69E-18
.83E-17
.62E-19
.53E-22
.55E-18
.07E-17
.86E-17
.69E-17
.44E-18
.24E-19
.02E-21
.29E-17
.59E-18
.39E-17
Ytterbium
Yb-162
Yb-166
Yb-167
Yb-169
Yb-175
Yb-177
Yb-178
Lutetium
Lu-169
Lu-170
Lu-171
Lu-172
Lu-173
Lu-174m
Lu-174
Lu-176m
Lu-176
Lu-177m
Lu-177
Lu-178m
Lu-178
Lu-179
1.
8.
3.
4.
7.
3.
6.
1.
4.
1.
3 .
1.
6.
1.
1.
9.
1.
6.
2.
2.
5.
95E
13E
68E
49E
31E
38E
65E
83E
35E
23E
42E
72E
61E
84E
90E
02E
80E
04E
04E
53E
87E
-18
-19
-18
-18
-19
-18
-19
-17
-17
-17
-17
-18
-19
-18
-19
-18
-17
-19
-17
-18
-19
2
8
3
4
7
3
6
1
4
1
3
1
7
1
2
9
1
6
2
2
6
.05E
. 84E
.87E
. 72E
. 54E
.48E
.85E
.88E
.43E
.26E
.51E
. 82E
.09E
. 92E
.DIE
.35E
.86E
.29E
.HE
.59E
.IDE
-18
-19
-18
-18
-19
-18
-19
-17
-17
-17
-17
-18
-19
-18
-19
-18
-17
-19
-17
-18
-19
1
6
3
3
6
3
6
1
4
1
3
1
5
1
1
8
1
5
1
2
5
.73E
.45E
.25E
.97E
.70E
.19E
. 12E
.73E
.17E
. 14E
.23E
.49E
. 52E
.69E
.66E
.26E
. 64E
.50E
.87E
.41E
.38E
-18
-19
-18
-18
-19
-18
-19
-17
-17
-17
-17
-18
-19
-18
-19
-18
-17
-19
-17
-18
-19
1.56E-18 5.08E-18 1.63E-18 1
4.99E-19 2.70E-18 6.31E-19 5
2.91E-18 9.68E-18 3.09E-18 3
3.61E-18 1.10E-17 3.77E-18 3
6.51E-19 1.28E-18 6.36E-19 6
3.15E-18 5.24E-18 3.02E-18 3
5.99E-19 1.08E-18 5.81E-19 5
1.72E-17 2.63E-17 1.65E-17 1
4.20E-17 5.63E-17 4.00E-17 4
1.12E-17 1.83E-17 1.09E-17 1
3.21E-17 4.77E-17 3.06E-17 3
1.33E-18 4.24E-18 1.43E-18 1
4.61E-19 1.89E-18 5.34E-19 5
1.61E-18 3.34E-18 1.61E-18 1
1.40E-19 5.96E-19 1.57E-19 1
8.00E-18 1.71E-17 7.81E-18 7
1.58E-17 3.47E-17 1.56E-17 1
5.20E-19 1.35E-18 5.18E-19 5
1.82E-17 3.66E-17 1.78E-17 1
2.40E-18 3.55E-18 2.28E-18 2
5.20E-19 1.16E-18 5.08E-19 5
. 62E
.98E
. 04E
. 74E
.41E
.07E
.87E
.67E
.05E
.IDE
.HE
.40E
.15E
.61E
. 54E
.89E
.57E
.21E
.79E
.32E
. 14E
-18
-19
-18
-18
-19
-18
-19
-17
-17
-17
-17
-18
-19
-18
-19
-18
-17
-19
-17
-18
-19
1
7
3
4
7
3
6
1
4
1
3
1
6
1
1
8
1
5
1
2
5
.88E
.53E
. 54E
.31E
. 04E
.30E
.40E
.79E
.26E
.18E
.32E
.63E
.20E
.77E
.83E
. 72E
. 74E
.86E
.97E
.47E
.70E
-18
-19
-18
-18
-19
-18
-19
-17
-17
-17
-17
-18
-19
-18
-19
-18
-17
-19
-17
-18
-19
2
9
4
5
8
5
7
2
4
1
3
1
7
2
1
9
1
6
2
9
2
.18E-18
.43E-19
.HE-IS
.02E-18
.07E-19
.60E-18
.64E-19
.03E-17
.79E-17
.36E-17
.78E-17
.94E-18
.57E-19
.06E-18
.90E-18
.98E-18
.99E-17
.68E-19
.42E-17
.38E-18
.64E-18
-------
140
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Hafnium
Hf-170 9.54E-18 9.86E-18 8.76E-18 8.44E-18 1.69E-17 8.32E-18 8.37E-18 9.19E-18 1.06E-17
Hf-172 1.23E-18 1.32E-18 1.02E-18 8.36E-19 3.88E-18 9.84E-19 9.50E-19 1.16E-18 1.40E-18
Hf-173 6.87E-18 7.13E-18 6.26E-18 5.92E-18 1.45E-17 5.92E-18 5.93E-18 6.64E-18 7.59E-18
Hf-175 6.54E-18 6.78E-18 5.97E-18 5.76E-18 1.17E-17 5.67E-18 5.70E-18 6.29E-18 7.25E-18
Hf-177m 4.13E-17 4.27E-17 3.79E-17 3.67E-17 7.52E-17 3.59E-17 3.62E-17 3.99E-17 4.56E-17
Hf-178m 4.39E-17 4.53E-17 4.05E-17 3.96E-17 7.26E-17 3.85E-17 3.89E-17 4.24E-17 4.85E-17
Hf-179m 1.63E-17 1.69E-17 1.50E-17 1.45E-17 2.93E-17 1.42E-17 1.43E-17 1.58E-17 1.81E-17
Hf-180m 1.85E-17 1.92E-17 1.70E-17 1.66E-17 3.21E-17 1.62E-17 1.63E-17 1.79E-17 2.05E-17
Hf-181 1.03E-17 1.06E-17 9.49E-18 9.25E-18 1.70E-17 9.02E-18 9.09E-18 9.92E-18 1.13E-17
Hf-182m 1.70E-17 1.76E-17 1.58E-17 1.54E-17 2.77E-17 1.50E-17 1.51E-17 1.65E-17 1.89E-17
Hf-182 4.44E-18 4.61E-18 4.07E-18 3.96E-18 8.32E-18 3.85E-18 3.89E-18 4.30E-18 4.91E-18
Hf-183 1.38E-17 1.42E-17 1.29E-17 1.28E-17 2.02E-17 1.23E-17 1.24E-17 1.34E-17 1.70E-17
Hf-184 4.35E-18 4.51E-18 3.97E-18 3.80E-18 8.67E-18 3.75E-18 3.78E-18 4.20E-18 5.34E-18
Tantalum
Ta-172 2.81E-17 2.89E-17 2.65E-17 2.63E-17 4.07E-17 2.51E-17 2.55E-17 2.73E-17 3.56E-17
Ta-173 1.03E-17 1.06E-17 9.54E-18 9.31E-18 1.66E-17 9.07E-18 9.15E-18 9.94E-18 1.45E-17
Ta-174 1.12E-17 1.16E-17 1.04E-17 1.02E-17 1.86E-17 9.87E-18 9.97E-18 1.09E-17 1.54E-17
Ta-175 1.63E-17 1.68E-17 1.54E-17 1.52E-17 2.45E-17 1.46E-17 1.48E-17 1.59E-17 1.80E-17
Ta-176 3.80E-17 3.89E-17 3.63E-17 3.65E-17 5.02E-17 3.46E-17 3.52E-17 3.72E-17 4.20E-17
Ta-177 7.90E-19 8.40E-19 6.76E-19 5.73E-19 2.27E-18 6.48E-19 6.30E-19 7.50E-19 8.91E-19
Ta-178b1 1.83E-17 1.90E-17 1.68E-17 1.62E-17 3.39E-17 1.59E-17 1.60E-17 1.77E-17 2.03E-17
Ta-178a2 1.52E-18 1.59E-18 1.38E-18 1.28E-18 3.16E-18 1.31E-18 1.31E-18 1.46E-18 1.70E-18
Ta-179 3.10E-19 3.36E-19 2.51E-19 1.93E-19 1.06E-18 2.44E-19 2.32E-19 2.90E-19 3.56E-19
Ta-180m 4.97E-19 5.36E-19 4.10E-19 3.23E-19 1.67E-18 3.96E-19 3.79E-19 4.68E-19 5.75E-19
Ta-180 l.OOE-17 1.04E-17 9.15E-18 8.82E-18 1.90E-17 8.66E-18 8.73E-18 9.67E-18 1.11E-17
Ta-182m 4.06E-18 4.24E-18 3.67E-18 3.42E-18 9.54E-18 3.46E-18 3.46E-18 3.93E-18 4.49E-18
Ta-182 2.32E-17 2.38E-17 2.20E-17 2.19E-17 3.26E-17 2.09E-17 2.13E-17 2.26E-17 2.57E-17
Ta-183 4.89E-18 5.10E-18 4.44E-18 4.19E-18 1.04E-17 4.20E-18 4.21E-18 4.73E-18 5.44E-18
Ta-184 3.00E-17 3.09E-17 2.80E-17 2.76E-17 4.57E-17 2.66E-17 2.69E-17 2.90E-17 3.44E-17
Ta-185 3.20E-18 3.33E-18 2.91E-18 2.74E-18 6.91E-18 2.75E-18 2.76E-18 3.10E-18 8.03E-18
Ta-186 2.92E-17 3.00E-17 2.72E-17 2.67E-17 4.55E-17 2.58E-17 2.61E-17 2.82E-17 4.13E-17
Tungsten
W-176 2.23E-18 2.35E-18 1.94E-18 1.64E-18 7.05E-18 1.84E-18 1.80E-18 2.15E-18 2.47E-18
W-177 1.58E-17 1.63E-17 1.47E-17 1.44E-17 2.64E-17 1.40E-17 1.41E-17 1.53E-17 1.76E-17
W-178 1.33E-19 1.43E-19 1.09E-19 8.45E-20 4.55E-19 1.05E-19 1.01E-19 1.25E-19 1.52E-19
W-179 5.22E-19 5.68E-19 4.09E-19 3.18E-19 1.72E-18 4.01E-19 3.82E-19 4.81E-19 6.13E-19
W-181 4.04E-19 4.36E-19 3.32E-19 2.58E-19 1.38E-18 3.20E-19 3.07E-19 3.80E-19 4.61E-19
W-185 2.00E-21 2.12E-21 1.67E-21 1.45E-21 5.69E-21 1.60E-21 1.57E-21 1.88E-21 2.34E-21
W-187 8.84E-18 9.09E-18 8.23E-18 8.08E-18 1.33E-17 7.82E-18 7.90E-18 8.54E-18 1.03E-17
W-188 3.49E-20 3.63E-20 3.19E-20 3.07E-20 6.77E-20 3.02E-20 3.04E-20 3.37E-20 3.88E-20
Rhenium
Re-177 1.08E-17 1.11E-17 1.01E-17 9.86E-18 1.71E-17 9.59E-18 9.68E-18 1.05E-17 1.47E-17
Re-178 2.17E-17 2.22E-17 2.04E-17 2.03E-17 3.18E-17 1.96E-17 1.97E-17 2.11E-17 3.01E-17
Re-180 2.15E-17 2.21E-17 2.02E-17 2.00E-17 3.08E-17 1.92E-17 1.95E-17 2.09E-17 2.44E-17
Re-181 1.38E-17 1.43E-17 1.29E-17 1.26E-17 2.20E-17 1.22E-17 1.23E-17 1.34E-17 1.53E-17
Re-182b3 3.35E-17 3.45E-17 3.15E-17 3.11E-17 5.22E-17 2.98E-17 3.03E-17 3.26E-17 3.70E-17
Re-182a4 2.07E-17 2.13E-17 1.97E-17 1.95E-17 2.98E-17 1.86E-17 1.90E-17 2.02E-17 2.30E-17
Re-184m 6.75E-18 6.98E-18 6.26E-18 6.08E-18 1.17E-17 5.93E-18 5.99E-18 6.54E-18 7.48E-18
Re-184 1.61E-17 1.65E-17 1.51E-17 1.50E-17 2.34E-17 1.43E-17 1.46E-17 1.56E-17 1.78E-17
Re-186m 1.45E-19 1.56E-19 1.18E-19 9.24E-20 4.82E-19 1.14E-19 1.09E-19 1.35E-19 1.69E-19
Re-186 3.23E-19 3.38E-19 2.91E-19 2.64E-19 8.63E-19 2.74E-19 2.73E-19 3.14E-19 1.12E-18
Re-187 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Re-188m 9.32E-19 9.91E-19 8.06E-19 6.67E-19 3.05E-18 7.65E-19 7.47E-19 8.97E-19 1.04E-18
Re-188 1.09E-18 1.12E-18 1.01E-18 9.75E-19 1.99E-18 9.52E-19 9.62E-19 1.05E-18 7.88E-18
Re-189 1.23E-18 1.27E-18 1.12E-18 1.07E-18 2.52E-18 1.06E-18 1.07E-18 1.19E-18 1.89E-18
Osmium
Os-180 7.20E-19 7.65E-19 6.19E-19 5.22E-19 2.12E-18 5.92E-19 5.77E-19 6.86E-19 8.23E-19
1 TK = 2 .2 h
2 TK = 9.31 m
3 TK = 64.0 h
4 TV, = 12.7 h
-------
141
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose
Nuclide
Gonad
Breast
Lung
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
nr
3)
Remainder
Effective
Skin
Osmium, cont ' d
Os-181
Os-182
Os-185
Os-189m
Os-190m
Os-191m
Os-191
Os-193
Os-194
Iridium
Ir-182
Ir-184
Ir-185
Ir-18631
Ir-186b2
Ir-187
Ir-188
Ir-189
Ir-190n3
Ir-190m4
Ir-190
Ir-191m
Ir-192m
Ir-192
Ir-194m
Ir-194
Ir-195m
Ir-195
Platinum
Pt-186
Pt-188
Pt-189
Pt-191
Pt-193m
Pt-193
Pt-195m
Pt-197m
Pt-197
Pt-199
Pt-200
Gold
Au-193
Au-194
Au-195m
Au-195
Au-198m
Au-198
Au-199
Au-200m
Au-200
Au-201
Mercury
Hg-193m
Hg-193
Hg-194
Hg-195m
Hg-195
1 TK = 15
2 TK = 1.
3 TK = 3 .
4 TK = 1.
2
7
1
1
3
8
1
1
7
2
3
1
2
1
6
2
1
2
1
2
1
2
1
4
1
7
7
1
3
5
4
1
4
8
1
3
3
8
2
1
3
9
9
7
1
3
5
1
1
3
9
3
3
.8
75
1
2
.19E
.72E
.32E
.05E
.OOE
.16E
.06E
.30E
.26E
.49E
.47E
.02E
.97E
-17
-18
-17
-23
-17
-20
-18
-18
-21
-17
-17
-17
-17
.75E-17
.27E
.80E
.06E
.90E
.34E
.67E
.DIE
.88E
.55E
.43E
.76E
.41E
.48E
.36E
.22E
.41E
.93E
.26E
.65E
.92E
.26E
.44E
.82E
.98E
.40E
.91E
.64E
.97E
.96E
.74E
.51E
.93E
.07E
.DIE
.89E
.09E
.47E
.65E
.32E
h
h
h
h
-18
-17
-18
-17
-23
-17
-18
-18
-17
-17
-18
-18
-19
-17
-18
-18
-18
-19
-23
-19
-18
-19
-18
-19
-18
-17
-18
-19
-18
-18
-18
-17
-18
-18
-17
-18
-23
-18
-18
2
7
1
2
3
8
1
1
8
2
3
1
3.
1.
6
2
1
2.
2.
2
1
2
1
4
1
7
7
1
3
5
5
1
9
9
1
3
3
9
2
1
3
1
1
7
1
4
5
1
1
3
1
3
3
.25E
.97E
.35E
.38E
.09E
. 74E
. 12E
.34E
. 14E
.56E
.56E
. 04E
,05E
-17
-18
-17
-23
-17
-20
-18
-18
-21
-17
-17
-17
-17
.80E-17
.47E
.87E
. 12E
,98E
,97E
.75E
.06E
.99E
.60E
.55E
.81E
.66E
.90E
.39E
.36E
.60E
. 12E
.34E
.70E
.44E
.32E
.61E
.93E
.39E
.51E
.96E
.78E
.06E
. 04E
.96E
.58E
. 04E
.20E
. 04E
. 94E
.23E
. 82E
.78E
.44E
-18
-17
-18
-17
-23
-17
-18
-18
-17
-17
-18
-18
-19
-17
-18
-18
-18
-19
-23
-19
-18
-19
-18
-19
-18
-17
-18
-18
-17
-18
-18
-17
-18
-18
-17
-18
-22
-18
-18
2
7
1
1
2
6
9
1
4
2
3
9
2.
1.
5
2
9
2.
5.
2
8
2
1
4
1
6
6
1
2
4
4
1
1
7
1
3
3
8
2
1
3
8
9
7
1
3
4
9
1
2
4
3
3
.06E
.08E
.23E
.58E
.78E
. 94E
.47E
.19E
.71E
.32E
.26E
. 62E
,79E
-17
-18
-17
-25
-17
-20
-19
-18
-21
-17
-17
-18
-17
.64E-17
.81E
.67E
.31E
,68E
,65E
.47E
.99E
. 64E
.43E
. 12E
. 64E
.81E
.59E
.27E
.91E
.98E
.48E
.09E
. 62E
. 82E
. 14E
.09E
.55E
.09E
.16E
.81E
.33E
.70E
.09E
.15E
.38E
.66E
.80E
.35E
.77E
.78E
.09E
.36E
.07E
-18
-17
-19
-17
-26
-17
-19
-18
-17
-17
-18
-18
-19
-17
-18
-18
-18
-19
-25
-19
-18
-19
-18
-19
-18
-17
-18
-19
-18
-18
-18
-17
-18
-19
-17
-18
-25
-18
-18
2.04E-17 3.29E-17 1.95E-17
6.84E-18 1.36E-17 6.73E-18
1.21E-17 1.93E-17 1.17E-17
8.20E-25 4.96E-24 1.02E-24
2.74E-17 4.62E-17 2.64E-17
5.55E-20 2.80E-19 6.62E-20
8.27E-19 3.16E-18 8.92E-19
1.14E-18 2.43E-18 1.13E-18
3.39E-21 2.15E-20 4.94E-21
2.29E-17 3.80E-17 2.20E-17
3.24E-17 5.09E-17 3.10E-17
9.51E-18 1.56E-17 9.15E-18
2.76E-17 4.41E-17 2.66E-17
1.62E-17 2.63E-17 1.56E-17
5.64E-18 1.04E-17 5.52E-18
2.67E-17 3.86E-17 2.55E-17
8.16E-19 2.96E-18 8.84E-19
2.63E-17 4.56E-17 2.55E-17
9.87E-25 5.83E-24 1.09E-24
2.42E-17 4.24E-17 2.35E-17
7.88E-19 2.97E-18 8.46E-19
2.50E-18 6.56E-18 2.48E-18
1.41E-17 2.52E-17 1.36E-17
4.05E-17 6.65E-17 3.91E-17
1.62E-18 2.75E-18 1.56E-18
6.58E-18 1.33E-17 6.46E-18
5.64E-19 2.32E-18 6.23E-19
1.25E-17 2.00E-17 1.20E-17
2.72E-18 7.26E-18 2.76E-18
4.76E-18 1.01E-17 4.72E-18
4.21E-18 1.01E-17 4.25E-18
8.92E-20 4.28E-19 1.04E-19
3.52E-24 2.06E-23 3.60E-24
6.56E-19 2.90E-18 7.39E-19
1.06E-18 2.81E-18 1.08E-18
2.75E-19 9.69E-19 2.91E-19
3.49E-18 5.88E-18 3.37E-18
7.38E-19 2.27E-18 7.63E-19
1.97E-18 5.92E-18 2.05E-18
1.80E-17 2.79E-17 1.72E-17
3.22E-18 6.99E-18 3.15E-18
7.23E-19 3.31E-18 8.23E-19
8.60E-18 2.21E-17 8.56E-18
7.01E-18 1.20E-17 6.80E-18
1.30E-18 3.54E-18 1.30E-18
3.60E-17 5.97E-17 3.47E-17
4.79E-18 7.04E-18 4.55E-18
9.17E-19 1.55E-18 8.89E-19
1.74E-17 2.92E-17 1.68E-17
2.56E-18 7.53E-18 2.63E-18
7.60E-24 4.40E-23 7.13E-24
3.23E-18 6.78E-18 3.18E-18
2.94E-18 6.14E-18 2.91E-18
1
6
1
2
2
6
8
1
4
2
3
9
2.
1.
5
2
8
2.
3.
2
8
2
1
3
1
6
6
1
2
4
4
1
1
7
1
2
3
7
2
1
3
8
8
6
1
3
4
8
1
2
1
3
2
.98E
.77E
.18E
. 64E
.67E
.42E
.81E
.13E
.49E
.23E
.15E
.28E
,69E
-17
-18
-17
-24
-17
-20
-19
-18
-21
-17
-17
-18
-17
.58E-17
.57E
.58E
.71E
,57E
,13E
.37E
.37E
.50E
.37E
.95E
.58E
.51E
.13E
.22E
.76E
.75E
.25E
.DIE
.OOE
.25E
.08E
.89E
.41E
.61E
. 04E
.75E
.18E
.07E
. 62E
.86E
.30E
.51E
.63E
.97E
.70E
.63E
.83E
.21E
.93E
-18
-17
-19
-17
-24
-17
-19
-18
-17
-17
-18
-18
-19
-17
-18
-18
-18
-19
-23
-19
-18
-19
-18
-19
-18
-17
-18
-19
-18
-18
-18
-17
-18
-19
-17
-18
-23
-18
-18
2
7
1
7
2
7
1
1
6
2
3
9
2.
1.
6
2
1
2.
9.
2
9
2
1
4
1
7
7
1
3
5
4
1
3
8
1
3
3
8
2
1
3
9
9
7
1
3
4
9
1
2
5
3
3
.13E
.44E
.27E
.28E
.90E
.81E
.03E
.25E
.15E
.41E
.37E
.93E
,89E
-17
-18
-17
-24
-17
-20
-18
-18
-21
-17
-17
-18
-17
.70E-17
.06E
. 74E
. 02E
,80E
,07E
.58E
.79E
.81E
.50E
.27E
.71E
.15E
.24E
.31E
.HE
.23E
.75E
.22E
.03E
. 64E
.22E
.35E
.69E
.70E
.32E
.86E
. 52E
.65E
.67E
.45E
.47E
.80E
.93E
. 72E
.83E
.99E
.89E
.53E
.22E
-18
-17
-18
-17
-24
-17
-19
-18
-17
-17
-18
-18
-19
-17
-18
-18
-18
-19
-23
-19
-18
-19
-18
-19
-18
-17
-18
-19
-18
-18
-18
-17
-18
-19
-17
-18
-23
-18
-18
2
8
1
5
3
9
1
2
9
3
4
1
3.
2.
6
3
1
3.
5.
2
1
3
1
4
9
8
1
1
3
6
5
1
1
9
1
4
7
1
2
2
4
1
1
9
1
4
1
2
2
3
2
4
3
.43E-17
.53E-18
.46E-17
.34E-22
.32E-17
.26E-20
.18E-18
.30E-18
.62E-21
.97E-17
.03E-17
.12E-17
.28E-17
.08E-17
.96E-18
.07E-17
.19E-18
.20E-17
.86E-22
.95E-17
.HE-IS
.16E-18
.72E-17
.90E-17
.47E-18
.42E-18
.49E-18
.50E-17
.57E-18
.OOE-18
.46E-18
.42E-19
.66E-21
.94E-19
.41E-18
.18E-19
.09E-18
.02E-18
.67E-18
.11E-17
.03E-18
.HE-IS
.10E-17
.07E-18
.67E-18
.34E-17
.23E-17
.62E-18
.09E-17
.47E-18
.32E-21
.05E-18
.69E-18
-------
142
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose
Nuclide
Mercury,
Hg-197m
Hg-197
Hg-199m
Hg-203
Thallium
Tl-194m
Tl-194
Tl-195
Tl-197
Tl-198m
Tl-198
Tl-199
Tl-200
Tl-201
Tl-202
Tl-204
Tl-206
Tl-207
Tl-208
Tl-209
Lead
Pb-195m
Pb-198
Pb-199
Pb-200
Pb-201
Pb-202m
Pb-202
Pb-203
Pb-205
Pb-209
Pb-210
Pb-211
Pb-212
Pb-214
Bismuth
Bi-200
Bi-201
Bi-202
Bi-203
Bi-205
Bi-206
Bi-207
Bi-210m
Bi-210
Bi-211
Bi-212
Bi-213
Bi-214
Polonium
Po-203
Po-205
Po-207
Po-210
Po-211
Po-212
Po-213
Po-214
Po-215
Po-216
Po-218
Gonad
cont '
1
8
3
4
4
1
2
7
2
3
4
2
1
8
1
2
6
5
3
2
7
2
3
1
3
4
5
5
3
1
9
2
4
4
2
5
4
3
6
2
4
1
8
3
2
2
2
2
2
1
1
0
0
1
3
3
1
.44E
.24E
.08E
.45E
.34E
.44E
.26E
. 12E
.22E
.61E
.20E
.39E
.23E
. 52E
.88E
.96E
.47E
.93E
.67E
.96E
.77E
.67E
.30E
.38E
. 82E
.97E
.46E
.76E
.40E
.49E
.69E
.61E
.63E
.44E
.44E
.OOE
.29E
.03E
. 02E
. 82E
.81E
.44E
.80E
.44E
. 54E
. 74E
.98E
.87E
.43E
.59E
.46E
.0
.0
.56E
.37E
.17E
.70E
d
-18
-19
-18
-18
-17
-17
-17
-18
-17
-17
-18
-17
-18
-18
-20
-20
-20
-17
-17
-17
-18
-17
-18
-17
-17
-23
-18
-23
-21
-20
-19
-18
-18
-17
-17
-17
-17
-17
-17
-17
-18
-20
-19
-18
-18
-17
-17
-17
-17
-22
-19
-21
-21
-22
-22
Breast
1
8
3
4
4
1
2
7
2
3
4
2
1
8
1
3
6
6
3
3
8
2
3
1
3
1
5
1
3
1
9
2
4
4
2
5
4
3
6
2
4
1
9
3
2
2
3
2
2
1
1
0
0
1
3
3
1
.50E
. 74E
.20E
.61E
.46E
.48E
.32E
.34E
.29E
.69E
.35E
.46E
.30E
.77E
.99E
.09E
.69E
.OOE
.76E
.05E
. 04E
. 74E
.44E
.42E
. 92E
.06E
.67E
.21E
.60E
.67E
.96E
.71E
.79E
.56E
.50E
.13E
.39E
.HE
.18E
.90E
.98E
. 52E
.08E
.53E
.61E
.80E
.06E
. 94E
.49E
.63E
.50E
.0
.0
.60E
.46E
.25E
.75E
-18
-19
-18
-18
-17
-17
-17
-18
-17
-17
-18
-17
-18
-18
-20
-20
-20
-17
-17
-17
-18
-17
-18
-17
-17
-22
-18
-22
-21
-20
-19
-18
-18
-17
-17
-17
-17
-17
-17
-17
-18
-20
-19
-18
-18
-17
-17
-17
-17
-22
-19
-21
-21
-22
-22
Lung
1
7
2
4
4
1
2
6
2
3
3
2
1
7
1
2
5
5
3
2
7
2
3
1
3
1
4
2
2
1
9
2
4
4
2
4
4
2
5
2
4
1
8
3
2
2
2
2
2
1
1
0
0
1
3
2
1
.30E
.22E
.80E
.09E
. 04E
.33E
.15E
.63E
.06E
.43E
.85E
.25E
.IDE
. 84E
. 64E
. 64E
.99E
.67E
.49E
.76E
.15E
.53E
.OOE
.29E
.59E
.71E
.99E
. 14E
.87E
.DIE
.05E
.38E
.26E
.16E
.30E
.71E
.09E
.89E
.68E
.66E
.42E
.27E
.09E
.26E
.35E
.61E
. 82E
. 72E
.29E
.50E
.38E
.0
.0
.47E
.HE
.99E
.61E
-18
-19
-18
-18
-17
-17
-17
-18
-17
-17
-18
-17
-18
-18
-20
-20
-20
-17
-17
-17
-18
-17
-18
-17
-17
-25
-18
-25
-21
-20
-19
-18
-18
-17
-17
-17
-17
-17
-17
-17
-18
-20
-19
-18
-18
-17
-17
-17
-17
-22
-19
-21
-21
-22
-22
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
1.19E-18 3.73E-18 1.22E-18
5.99E-19 2.76E-18 6.83E-19
2.63E-18 7.01E-18 2.64E-18
3.98E-18 8.14E-18 3.87E-18
3.98E-17 6.46E-17 3.84E-17
1.30E-17 2.25E-17 1.27E-17
2.14E-17 3.16E-17 2.05E-17
6.45E-18 1.21E-17 6.29E-18
2.03E-17 3.44E-17 1.96E-17
3.42E-17 4.95E-17 3.26E-17
3.66E-18 8.39E-18 3.64E-18
2.23E-17 3.48E-17 2.14E-17
9.49E-19 3.76E-18 1.03E-18
7.60E-18 1.43E-17 7.45E-18
1.39E-20 5.87E-20 1.55E-20
2.46E-20 6.59E-20 2.50E-20
5.83E-20 1.08E-19 5.68E-20
5.72E-17 7.56E-17 5.48E-17
3.49E-17 5.08E-17 3.32E-17
2.72E-17 4.48E-17 2.62E-17
6.89E-18 1.45E-17 6.77E-18
2.51E-17 3.81E-17 2.40E-17
2.76E-18 8.05E-18 2.82E-18
1.26E-17 2.21E-17 1.22E-17
3.57E-17 5.34E-17 3.41E-17
3.72E-24 2.18E-23 3.97E-24
4.77E-18 1.10E-17 4.72E-18
4.38E-24 2.57E-23 4.58E-24
2.55E-21 8.97E-21 2.75E-21
7.37E-21 4.62E-20 1.04E-20
8.95E-19 1.41E-18 8.59E-19
2.28E-18 5.47E-18 2.25E-18
4.15E-18 8.09E-18 4.04E-18
4.11E-17 6.57E-17 3.94E-17
2.28E-17 3.49E-17 2.18E-17
4.67E-17 7.07E-17 4.47E-17
4.09E-17 5.77E-17 3.89E-17
2.89E-17 4.10E-17 2.75E-17
5.65E-17 8.41E-17 5.40E-17
2.64E-17 3.96E-17 2.53E-17
4.31E-18 8.60E-18 4.18E-18
1.17E-20 3.41E-20 1.21E-20
7.90E-19 1.48E-18 7.68E-19
3.25E-18 4.63E-18 3.09E-18
2.30E-18 3.94E-18 2.23E-18
2.63E-17 3.58E-17 2.49E-17
2.81E-17 4.18E-17 2.68E-17
2.70E-17 4.01E-17 2.58E-17
2.28E-17 3.44E-17 2.17E-17
1.49E-22 2.16E-22 1.42E-22
1.37E-19 2.01E-19 1.31E-19
0.0 0.0 0.0
0.0 0.0 0.0
1.46E-21 2.12E-21 1.40E-21
3.06E-21 5.15E-21 2.96E-21
2.97E-22 4.29E-22 2.83E-22
1.60E-22 2.30E-22 1.53E-22
nr
J)
Remainder
1
6
2
3
3
1
2
6
1
3
3
2
1
7
1
2
5
5
3
2
6
2
2
1
3
1
4
1
2
9
8
2
4
4
2
4
3
2
5
2
4
1
7
3
2
2
2
2
2
1
1
0
0
1
2
2
1
.22E
.70E
.65E
.91E
.88E
.28E
.08E
.35E
.98E
.31E
.66E
.17E
. 02E
.50E
. 52E
.50E
.73E
.51E
.38E
.65E
. 82E
.44E
. 82E
.23E
.46E
.HE
.75E
.26E
.70E
.57E
.71E
.27E
.08E
.OOE
.21E
. 54E
.95E
.80E
.48E
.57E
.23E
.20E
.75E
. 14E
.25E
.53E
. 72E
. 62E
.21E
.45E
.33E
.0
.0
.42E
.99E
.88E
.55E
-18
-19
-18
-18
-17
-17
-17
-18
-17
-17
-18
-17
-18
-18
-20
-20
-20
-17
-17
-17
-18
-17
-18
-17
-17
-23
-18
-23
-21
-21
-19
-18
-18
-17
-17
-17
-17
-17
-17
-17
-18
-20
-19
-18
-18
-17
-17
-17
-17
-22
-19
-21
-21
-22
-22
Effective
1
8
2
4
4
1
2
6
2
3
4
2
1
8
1
2
6
5
3
2
7
2
3
1
3
3
5
3
3
1
9
2
4
4
2
4
4
2
5
2
4
1
8
3
2
2
2
2
2
1
1
0
0
1
3
3
1
.40E
.OOE
.99E
.31E
.19E
.39E
.21E
.91E
.15E
. 52E
.06E
.32E
.20E
.20E
.81E
. 84E
.26E
.79E
.58E
.87E
. 52E
.60E
.21E
.34E
.70E
.30E
.28E
.78E
.20E
.29E
.37E
.53E
.47E
.30E
.37E
.85E
.19E
.96E
.85E
. 74E
.65E
.38E
.48E
.34E
.44E
.68E
.90E
.79E
.36E
. 54E
.42E
.0
.0
.51E
.24E
.07E
.65E
-18
-19
-18
-18
-17
-17
-17
-18
-17
-17
-18
-17
-18
-18
-20
-20
-20
-17
-17
-17
-18
-17
-18
-17
-17
-23
-18
-23
-21
-20
-19
-18
-18
-17
-17
-17
-17
-17
-17
-17
-18
-20
-19
-18
-18
-17
-17
-17
-17
-22
-19
-21
-21
-22
-22
1
9
3
4
5
1
2
7
2
3
4
2
1
9
1
3
2
6
4
3
8
2
3
1
4
2
6
2
3
2
3
2
5
5
2
5
4
3
6
3
5
1
9
7
4
3
3
3
2
1
1
0
0
1
3
3
1
Skin
.58E-18
.19E-19
.40E-18
.92E-18
.06E-17
.59E-17
.52E-17
.93E-18
.46E-17
.96E-17
.65E-18
.64E-17
.37E-18
.40E-18
.92E-19
.03E-18
.48E-18
.74E-17
.51E-17
.37E-17
.60E-18
.94E-17
.64E-18
.53E-17
.23E-17
.07E-21
.04E-18
.24E-21
.80E-20
.22E-20
.08E-18
.88E-18
.23E-18
.03E-17
.76E-17
.56E-17
.74E-17
.34E-17
.65E-17
.21E-17
.32E-18
.20E-18
.71E-19
.85E-18
.53E-18
.53E-17
.37E-17
.18E-17
.70E-17
.77E-22
.63E-19
.0
.0
.73E-21
.71E-21
.51E-22
.89E-22
-------
143
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose
Nuclide
Astatine
At-207
At-211
At-215
At-216
At-217
At-218
Radon
Rn-218
Rn-219
Rn-220
Rn-222
Franc ium
Fr-219
Fr-220
Fr-221
Fr-222
Fr-223
Radium
Ra-222
Ra-223
Ra-224
Ra-225
Ra-226
Ra-227
Ra-228
Actinium
Ac-223
Ac-224
Ac-225
Ac-226
Ac-227
Ac-228
Thorium
Th-226
Th-227
Th-228
Th-229
Th-230
Th-231
Th-232
Th-234
Gonad
2
5
3
2
5
3
1
1
7
7
6
1
5
5
7
1
2
1
7
1
2
0
7
3
2
2
2
1
1
1
3
1
5
1
2
1
.40E
.19E
.69E
. 04E
.79E
.28E
.44E
.06E
.35E
. 62E
.57E
.80E
.63E
.29E
.88E
.75E
.27E
. 84E
.27E
.19E
.90E
.0
.83E
.31E
.57E
.30E
.05E
.78E
.31E
.88E
.24E
.34E
.53E
.69E
.60E
.IDE
-17
-19
-21
-20
-21
-20
-20
-18
-21
-21
-20
-19
-19
-20
-19
-19
-18
-19
-20
-19
-18
-20
-18
-19
-18
-21
-17
-19
-18
-20
-18
-21
-19
-21
-19
Breast
2
5
3
2
5
3
1
1
7
7
6
1
5
5
8
1
2
1
8
1
3
0
8
3
2
2
2
1
1
1
3
1
5
1
2
1
.46E
.45E
.79E
. 14E
.96E
.61E
.47E
.09E
. 54E
.81E
.76E
.87E
.85E
.51E
.28E
.80E
.35E
.91E
.24E
.24E
.OOE
.0
. 12E
.44E
.68E
.39E
. 14E
.83E
.36E
.95E
.40E
.40E
.97E
.79E
.89E
.16E
-17
-19
-21
-20
-21
-20
-20
-18
-21
-21
-20
-19
-19
-20
-19
-19
-18
-19
-20
-19
-18
-20
-18
-19
-18
-21
-17
-19
-18
-20
-18
-21
-19
-21
-19
Lung
2
4
3
1
5
2
1
9
6
7
6
1
5
4
6
1
2
1
4
1
2
0
7
3
2
2
1
1
1
1
2
1
4
1
1
9
.27E
.65E
.40E
.83E
.38E
.53E
.34E
.76E
.83E
.06E
.06E
. 64E
.16E
.75E
.95E
.61E
.07E
.69E
.18E
.09E
.66E
.0
.15E
. 02E
.34E
.HE
.83E
.69E
.20E
. 72E
.91E
.21E
.61E
.41E
.97E
.75E
-17
-19
-21
-20
-21
-20
-20
-19
-21
-21
-20
-19
-19
-20
-19
-19
-18
-19
-20
-19
-18
-20
-18
-19
-18
-21
-17
-19
-18
-20
-18
-21
-19
-21
-20
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
2.25E-17 3.43E-17 2.16E-17
4.01E-19 1.62E-18 4.37E-19
3.34E-21 5.79E-21 3.23E-21
1.58E-20 6.43E-20 1.72E-20
5.28E-21 8.95E-21 5.11E-21
1.89E-20 1.10E-19 2.49E-20
1.33E-20 2.03E-20 1.28E-20
9.53E-19 1.82E-18 9.25E-19
6.74E-21 1.06E-20 6.50E-21
6.95E-21 1.12E-20 6.72E-21
5.93E-20 1.07E-19 5.76E-20
1.53E-19 4.42E-19 1.54E-19
4.97E-19 1.15E-18 4.86E-19
4.49E-20 1.11E-19 4.51E-20
6.32E-19 1.89E-18 6.62E-19
1.57E-19 2.97E-19 1.52E-19
1.95E-18 5.01E-18 1.95E-18
1.64E-19 3.54E-19 1.59E-19
2.96E-20 1.95E-19 4.57E-20
1.04E-19 2.61E-19 1.03E-19
2.60E-18 4.95E-18 2.53E-18
0.0 0.0 0.0
6.82E-20 1.59E-19 6.76E-20
2.82E-18 7.93E-18 2.83E-18
2.14E-19 6.66E-19 2.19E-19
2.01E-18 4.89E-18 1.98E-18
1.67E-21 5.34E-21 1.72E-21
1.68E-17 2.46E-17 1.60E-17
1.11E-19 3.25E-19 1.12E-19
1.66E-18 3.67E-18 1.62E-18
2.67E-20 8.41E-20 2.74E-20
1.10E-18 3.67E-18 1.14E-18
4.03E-21 1.56E-20 4.38E-21
1.24E-19 4.91E-19 1.35E-19
1.70E-21 7.19E-21 1.91E-21
8.39E-20 3.45E-19 9.18E-20
nr
J)
Remainder
2
4
3
1
5
2
1
9
6
6
5
1
4
4
6
1
1
1
4
1
2
0
6
2
2
2
1
1
1
1
2
1
4
1
1
9
.19E
.32E
.27E
.70E
.16E
.34E
.29E
.35E
.57E
.79E
.81E
.55E
.91E
.51E
.55E
. 54E
.96E
.61E
.09E
. 04E
.55E
.0
.80E
.85E
.19E
.OOE
. 72E
.63E
.13E
. 64E
. 74E
.13E
.34E
.33E
.88E
.05E
-17
-19
-21
-20
-21
-20
-20
-19
-21
-21
-20
-19
-19
-20
-19
-19
-18
-19
-20
-19
-18
-20
-18
-19
-18
-21
-17
-19
-18
-20
-18
-21
-19
-21
-20
Effective
2
5
3
2
5
3
1
1
7
7
6
1
5
5
7
1
2
1
5
1
2
0
7
3
2
2
1
1
1
1
3
1
5
1
2
1
.34E
.07E
.55E
.OOE
.59E
.OOE
.39E
. 02E
.08E
.33E
.33E
.76E
.46E
.08E
. 54E
.69E
.20E
.78E
.86E
.16E
.80E
.0
.57E
.22E
.50E
.23E
.98E
.73E
.28E
. 82E
. 14E
.30E
.22E
.59E
.36E
.07E
-17
-19
-21
-20
-21
-20
-20
-18
-21
-21
-20
-19
-19
-20
-19
-19
-18
-19
-20
-19
-18
-20
-18
-19
-18
-21
-17
-19
-18
-20
-18
-21
-19
-21
-19
2
5
4
2
6
4
1
1
8
8
7
2
6
6
1
1
2
2
9
1
4
0
8
3
2
3
2
2
1
2
3
1
8
2
5
1
Skin
.65E-17
.73E-19
.07E-21
.25E-20
.40E-21
.28E-20
.59E-20
.17E-18
.12E-21
.40E-21
.25E-20
.OOE-19
.22E-19
.16E-18
.69E-18
.93E-19
.50E-18
.03E-19
.80E-20
.32E-19
.34E-18
.0
.91E-20
.64E-18
.86E-19
.OOE-18
.45E-21
.15E-17
.46E-19
.09E-18
.81E-20
.49E-18
.32E-21
.15E-19
.04E-21
.24E-19
Protactinium
Pa-227
Pa-228
Pa-230
Pa-231
Pa-232
Pa-233
Pa-234m
Pa-234
Uranium
U-230
U-231
U-232
U-233
U-234
U-235
U-236
U-237
U-238
U-239
U-240
2
2
1
6
1
3
2
3
1
1
4
5
2
2
1
2
8
7
1
. 84E
.06E
.18E
.73E
.73E
.63E
.78E
.51E
.81E
.OOE
.35E
.68E
.17E
.73E
.32E
.13E
.IDE
.17E
. 02E
-19
-17
-17
-19
-17
-18
-19
-17
-20
-18
-21
-21
-21
-18
-21
-18
-22
-19
-20
2
2
1
6
1
3
2
3
1
1
4
6
2
2
1
2
1
7
1
.97E
.HE
.21E
.99E
.78E
.76E
.87E
.60E
. 92E
.05E
.85E
.06E
. 52E
. 84E
.61E
.23E
.05E
. 54E
.22E
-19
-17
-17
-19
-17
-18
-19
-17
-20
-18
-21
-21
-21
-18
-21
-18
-21
-19
-20
2
1
1
6
1
3
2
3
1
9
3
4
1
2
6
1
2
6
4
. 54E
. 94E
.HE
.IDE
.63E
.33E
.61E
.31E
.57E
. 02E
.18E
.75E
.35E
.50E
.30E
.93E
.29E
.41E
.24E
-19
-17
-17
-19
-17
-18
-19
-17
-20
-19
-21
-21
-21
-18
-22
-18
-22
-19
-21
2.22E-19 8.70E-19 2.38E-19
1.92E-17 3.03E-17 1.84E-17
1.09E-17 1.76E-17 1.05E-17
5.95E-19 1.19E-18 5.80E-19
1.62E-17 2.41E-17 1.55E-17
3.22E-18 6.89E-18 3.15E-18
2.57E-19 4.31E-19 2.47E-19
3.28E-17 5.02E-17 3.14E-17
1.45E-20 4.48E-20 1.49E-20
8.03E-19 2.95E-18 8.46E-19
2.86E-21 1.06E-20 3.09E-21
4.46E-21 1.24E-20 4.54E-21
1.21E-21 4.98E-21 1.35E-21
2.38E-18 6.03E-18 2.34E-18
5.79E-22 2.60E-21 6.70E-22
1.77E-18 5.36E-18 1.81E-18
2.14E-22 1.29E-21 2.86E-22
5.64E-19 1.99E-18 6.06E-19
3.47E-21 2.11E-20 4.94E-21
2
1
1
5
1
3
2
3
1
8
3
4
1
2
6
1
2
5
4
.36E
.87E
.07E
.85E
.57E
.18E
.51E
.19E
.49E
.39E
.06E
. 54E
.33E
.37E
. 62E
.81E
.81E
.99E
.55E
-19
-17
-17
-19
-17
-18
-19
-17
-20
-19
-21
-21
-21
-18
-22
-18
-22
-19
-21
2
2
1
6
1
3
2
3
1
9
3
5
1
2
1
2
5
6
7
.77E
.OOE
. 14E
.46E
.68E
.51E
.70E
.41E
.73E
.79E
.87E
.30E
. 82E
.65E
.DIE
.07E
.45E
.95E
.45E
-19
-17
-17
-19
-17
-18
-19
-17
-20
-19
-21
-21
-21
-18
-21
-18
-22
-19
-21
3
2
1
7
1
4
8
3
2
1
8
8
5
3
4
2
3
2
2
.16E-19
.28E-17
.30E-17
.69E-19
.92E-17
.02E-18
.02E-18
.93E-17
.38E-20
.13E-18
.66E-21
.26E-21
.61E-21
.01E-18
.46E-21
.37E-18
.54E-21
.10E-18
.64E-20
-------
144
Table III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Neptunium
Np-232 2.20E-17 2.26E-17 2.07E-17 2.04E-17 3.32E-17 1.96E-17 1.99E-17 2.14E-17 2.44E-17
Np-233 1.35E-18 1.41E-18 1.23E-18 1.11E-18 3.74E-18 1.15E-18 1.15E-18 1.32E-18 1.49E-18
Np-234 2.57E-17 2.63E-17 2.46E-17 2.47E-17 3.44E-17 2.33E-17 2.38E-17 2.52E-17 2.85E-17
Np-235 1.59E-20 1.75E-20 1.15E-20 1.04E-20 3.95E-20 1.12E-20 1.10E-20 1.41E-20 3.02E-20
Np-23631 1.90E-18 1.98E-18 1.73E-18 1.58E-18 5.12E-18 1.62E-18 1.62E-18 1.86E-18 2.12E-18
Np-236b2 7.55E-19 7.84E-19 6.90E-19 6.30E-19 1.98E-18 6.47E-19 6.45E-19 7.37E-19 8.38E-19
Np-237 3.45E-19 3.63E-19 3.01E-19 2.67E-19 9.88E-19 2.84E-19 2.81E-19 3.31E-19 4.03E-19
Np-238 1.01E-17 1.04E-17 9.60E-18 9.60E-18 1.34E-17 9.10E-18 9.26E-18 9.84E-18 1.19E-17
Np-239 2.87E-18 2.98E-18 2.62E-18 2.47E-18 6.53E-18 2.47E-18 2.48E-18 2.79E-18 3.17E-18
Np-240m 6.23E-18 6.40E-18 5.84E-18 5.79E-18 8.78E-18 5.55E-18 5.62E-18 6.03E-18 1.16E-17
Np-240 2.40E-17 2.47E-17 2.26E-17 2.23E-17 3.50E-17 2.14E-17 2.17E-17 2.33E-17 2.69E-17
Plutonium
Pu-234 9.87E-19 1.03E-18 8.98E-19 8.04E-19 2.86E-18 8.39E-19 8.34E-19 9.66E-19 1.09E-18
Pu-235 1.37E-18 1.42E-18 1.25E-18 1.13E-18 3.72E-18 1.17E-18 1.17E-18 1.34E-18 1.52E-18
Pu-236 1.62E-21 2.03E-21 4.95E-22 5.07E-22 2.32E-21 6.12E-22 6.00E-22 1.10E-21 6.04E-21
Pu-237 6.95E-19 7.25E-19 6.28E-19 5.61E-19 2.02E-18 5.88E-19 5.84E-19 6.79E-19 7.74E-19
Pu-238 1.20E-21 1.55E-21 2.54E-22 2.91E-22 1.43E-21 3.62E-22 3.58E-22 7.60E-22 5.03E-21
Pu-239 1.35E-21 1.51E-21 9.07E-22 8.72E-22 2.45E-21 9.04E-22 8.99E-22 1.15E-21 2.87E-21
Pu-240 1.17E-21 1.50E-21 2.56E-22 2.85E-22 1.46E-21 3.60E-22 3.55E-22 7.44E-22 4.83E-21
Pu-241 2.51E-23 2.63E-23 2.25E-23 2.03E-23 6.99E-23 2.11E-23 2.10E-23 2.44E-23 2.95E-23
Pu-242 9.96E-22 1.27E-21 2.37E-22 2.59E-22 1.28E-21 3.22E-22 3.17E-22 6.43E-22 4.03E-21
Pu-243 3.45E-19 3.61E-19 3.09E-19 2.72E-19 1.01E-18 2.91E-19 2.88E-19 3.36E-19 3.91E-19
Pu-244 7.00E-22 9.28E-22 7.02E-23 1.05E-22 6.54E-22 1.49E-22 1.49E-22 4.04E-22 3.27E-21
Pu-245 7.68E-18 7.90E-18 7.16E-18 7.05E-18 1.20E-17 6.79E-18 6.87E-18 7.43E-18 8.92E-18
Pu-246 2.21E-18 2.30E-18 2.00E-18 1.87E-18 5.15E-18 1.88E-18 1.89E-18 2.14E-18 2.46E-18
Americium
Am-237 6.52E-18 6.74E-18 6.01E-18 5.79E-18 1.25E-17 5.68E-18 5.72E-18 6.32E-18 7.21E-18
Am-238 1.61E-17 1.65E-17 1.52E-17 1.51E-17 2.34E-17 1.44E-17 1.46E-17 1.57E-17 1.79E-17
Am-239 3.80E-18 3.95E-18 3.47E-18 3.23E-18 9.23E-18 3.26E-18 3.26E-18 3.70E-18 4.20E-18
Am-240 1.86E-17 1.91E-17 1.76E-17 1.75E-17 2.62E-17 1.67E-17 1.70E-17 1.81E-17 2.07E-17
Am-241 2.34E-19 2.54E-19 1.87E-19 1.46E-19 7.86E-19 1.82E-19 1.74E-19 2.18E-19 2.89E-19
Am-242m 9.36E-21 1.07E-20 5.32E-21 4.97E-21 1.93E-20 5.55E-21 5.39E-21 7.54E-21 2.05E-20
Am-242 2.14E-19 2.23E-19 1.91E-19 1.72E-19 6.03E-19 1.79E-19 1.78E-19 2.07E-19 2.69E-19
Am-243 6.79E-19 7.19E-19 5.95E-19 4.96E-19 2.25E-18 5.62E-19 5.52E-19 6.59E-19 7.59E-19
Am-244m 2.62E-20 2.77E-20 2.22E-20 2.07E-20 5.70E-20 2.13E-20 2.11E-20 2.45E-20 2.61E-18
Am-244 1.47E-17 1.51E-17 1.38E-17 1.37E-17 2.07E-17 1.31E-17 1.33E-17 1.43E-17 1.65E-17
Am-245 5.49E-19 5.70E-19 5.02E-19 4.75E-19 1.23E-18 4.72E-19 4.75E-19 5.34E-19 8.76E-19
Am-246m 1.87E-17 1.92E-17 1.77E-17 1.77E-17 2.49E-17 1.68E-17 1.71E-17 1.82E-17 2.28E-17
Am-246 1.26E-17 1.30E-17 1.18E-17 1.16E-17 1.95E-17 1.12E-17 1.13E-17 1.22E-17 1.50E-17
Curium
Cm-238 1.14E-18 1.19E-18 1.04E-18 9.39E-19 3.22E-18 9.72E-19 9.68E-19 1.12E-18 1.26E-18
Cm-240 1.46E-21 1.88E-21 1.55E-22 2.26E-22 1.40E-21 3.38E-22 3.18E-22 8.39E-22 5.87E-21
Cm-241 8.99E-18 9.25E-18 8.30E-18 8.05E-18 1.55E-17 7.87E-18 7.93E-18 8.68E-18 9.94E-18
Cm-242 1.42E-21 1.81E-21 2.37E-22 2.98E-22 1.49E-21 3.97E-22 3.78E-22 8.60E-22 5.42E-21
Cm-243 2.21E-18 2.29E-18 2.02E-18 1.91E-18 4.93E-18 1.90E-18 1.91E-18 2.14E-18 2.44E-18
Cm-244 1.19E-21 1.54E-21 1.05E-22 1.71E-22 1.06E-21 2.58E-22 2.44E-22 6.74E-22 4.89E-21
Cm-245 1.41E-18 1.46E-18 1.28E-18 1.17E-18 3.82E-18 1.20E-18 1.19E-18 1.37E-18 1.55E-18
Cm-246 1.08E-21 1.40E-21 1.10E-22 1.65E-22 1.02E-21 2.48E-22 2.33E-22 6.21E-22 4.38E-21
Cm-247 5.99E-18 6.16E-18 5.52E-18 5.41E-18 9.53E-18 5.25E-18 5.30E-18 5.77E-18 6.61E-18
Cm-248 8.22E-22 1.06E-21 7.99E-23 1.23E-22 7.63E-22 1.85E-22 1.74E-22 4.70E-22 3.34E-21
Cm-249 3.68E-19 3.78E-19 3.43E-19 3.37E-19 5.48E-19 3.26E-19 3.29E-19 3.55E-19 7.31E-19
Cm-250 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Berkelium
Bk-245 3.83E-18 3.97E-18 3.50E-18 3.28E-18 9.06E-18 3.29E-18 3.30E-18 3.73E-18 4.22E-18
Bk-246 1.73E-17 1.77E-17 1.63E-17 1.61E-17 2.49E-17 1.54E-17 1.57E-17 1.68E-17 1.92E-17
Bk-247 1.71E-18 1.78E-18 1.56E-18 1.44E-18 4.20E-18 1.46E-18 1.47E-18 1.66E-18 1.88E-18
Bk-249 2.91E-23 3.30E-23 1.62E-23 1.29E-23 7.12E-23 1.77E-23 1.63E-23 2.33E-23 4.80E-23
Bk-250 1.63E-17 1.67E-17 1.55E-17 1.55E-17 2.15E-17 1.47E-17 1.49E-17 1.59E-17 1.86E-17
1 TK = 1.15E5 y
2 TK = 22.5 h
-------
145
tTable III.5. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 5 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Californium
Cf-244 1.72E-21 2.17E-21 1.55E-22 2.47E-22 1.56E-21 4.06E-22 3.60E-22 9.70E-22 6.02E-21
Cf-246 1.44E-21 1.76E-21 3.57E-22 3.95E-22 1.84E-21 5.12E-22 4.76E-22 9.29E-22 4.40E-21
Cf-248 1.18E-21 1.49E-21 1.11E-22 1.72E-22 1.09E-21 2.83E-22 2.50E-22 6.67E-22 4.11E-21
Cf-249 6.29E-18 6.48E-18 5.79E-18 5.67E-18 1.03E-17 5.50E-18 5.55E-18 6.06E-18 6.95E-18
Cf-250 1.12E-21 1.41E-21 1.05E-22 1.63E-22 1.03E-21 2.68E-22 2.38E-22 6.34E-22 3.91E-21
Cf-251 2.06E-18 2.14E-18 1.88E-18 1.76E-18 4.93E-18 1.76E-18 1.77E-18 2.00E-18 2.29E-18
Cf-252 1.34E-21 1.63E-21 3.40E-22 3.72E-22 1.73E-21 4.81E-22 4.47E-22 8.64E-22 4.03E-21
Cf-253 4.05E-22 4.44E-22 2.91E-22 2.44E-22 1.12E-21 2.91E-22 2.79E-22 3.58E-22 5.66E-22
Cf-254 3.65E-24 4.60E-24 3.45E-25 5.33E-25 3.37E-24 8.76E-25 7.76E-25 2.07E-24 1.27E-23
Einsteinium
Es-250 7.01E-18 7.21E-18 6.60E-18 6.49E-18 1.12E-17 6.24E-18 6.33E-18 6.83E-18 7.78E-18
Es-251 1.48E-18 1.54E-18 1.35E-18 1.24E-18 3.93E-18 1.26E-18 1.26E-18 1.45E-18 1.64E-18
Es-253 6.65E-21 7.05E-21 5.43E-21 5.29E-21 1.12E-20 5.29E-21 5.27E-21 6.08E-21 9.07E-21
Es-254m 8.78E-18 9.01E-18 8.21E-18 8.13E-18 1.23E-17 7.80E-18 7.90E-18 8.48E-18 1.01E-17
Es-254 6.07E-20 6.70E-20 4.18E-20 3.86E-20 1.26E-19 4.22E-20 4.10E-20 5.22E-20 1.01E-19
Fermium
Fm-252 1.27E-21 1.57E-21 1.35E-22 1.92E-22 1.23E-21 3.30E-22 2.84E-22 7.24E-22 3.93E-21
Fm-253 1.28E-18 1.33E-18 1.16E-18 1.08E-18 3.27E-18 1.09E-18 1.09E-18 1.25E-18 1.41E-18
Fm-254 1.77E-21 2.12E-21 5.31E-22 5.48E-22 2.59E-21 7.13E-22 6.57E-22 1.19E-21 4.63E-21
Fm-255 3.25E-20 3.64E-20 2.13E-20 1.89E-20 7.95E-20 2.15E-20 2.09E-20 2.77E-20 6.14E-20
Fm-257 1.71E-18 1.77E-18 1.55E-18 1.44E-18 4.21E-18 1.46E-18 1.46E-18 1.66E-18 1.89E-18
Mendelevium
Md-257 1.89E-18 1.95E-18 1.73E-18 1.63E-18 4.16E-18 1.63E-18 1.63E-18 1.83E-18 2.08E-18
Md-258 1.43E-20 1.64E-20 7.21E-21 6.45E-21 3.13E-20 7.96E-21 7.53E-21 1.11E-20 2.83E-20
-------
TABLE III.6
Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Explanation of Entries
For each radionuclide, values for the organ dose equivalent coefficients hT, and the effective
dose equivalent coefficient hE, based upon the weighting factors of Table II. 1, are given in
SI units. The coefficients are for soil at a density of 1.6 x 103 kg m"3.
hT: The tissue dose equivalent coefficient for organ or tissue T (Sv per Bq s m"3), i.e., the dose
equivalent per unit time-integrated exposure to a radionuclide.
hE: The effective dose equivalent coefficient (Sv per Bq s m"3), i.e., the effective dose equivalent
per unit time-integrated exposure to a radionuclide:
Note that skin is not included in the summation.
To convert to a source per unit mass basis (Sv per Bq s kg"1), multiply table entries by
1.6 x 103(kgm-3).
To convert to conventional units (mrem per \i.Ci y cm"3), multiply table entries by
1.168 x 1023.
To convert to conventional units for a source per unit mass basis (mrem per \iCi y g"1),
multiply table entries by 1.868 x 1023.
Radionuclide dose coefficients for soil contaminated to a finite depth cannot be scaled
to account for a different soil density.
147
-------
148
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose
Nuclide Gonad Breast Lung
Hydrogen
H-3 0.0 0.0 0.0
Beryllium
Be-7 1.48E-18 1.52E-18 1.33E-18
Be-10 6.02E-21 6.35E-21 5.09E-21
Carbon
C-ll 3.07E-17 3.14E-17 2.76E-17
C-14 8.60E-23 9.61E-23 5.41E-23
Nitrogen
N-13 3.07E-17 3.15E-17 2.77E-17
Oxygen
0-15 3.07E-17 3.15E-17 2.77E-17
Fluorine
F-18 3.07E-17 3.15E-17 2.77E-17
Neon
Ne-19 3.08E-17 3.16E-17 2.78E-17
Sodium
Na-22 6.59E-17 6.72E-17 6.06E-17
Na-24 1.23E-16 1.23E-16 1.15E-16
Magnesium
Mg-28 4.06E-17 4.14E-17 3.77E-17
Aluminum
Al-26 8.05E-17 8.17E-17 7.46E-17
Al-28 5.38E-17 5.43E-17 5.04E-17
Silicon
Si-31 7.19E-20 7.43E-20 6.47E-20
Si-32 2.16E-22 2.37E-22 1.53E-22
Phosphorus
P-30 3.10E-17 3.18E-17 2.79E-17
P-32 6.30E-20 6.55E-20 5.57E-20
P-33 3.53E-22 3.84E-22 2.62E-22
Sulphur
S-35 9.42E-23 1.05E-22 6.08E-23
Chlorine
Cl-36 1.29E-20 1.35E-20 1.13E-20
Cl-38 4.52E-17 4.55E-17 4.23E-17
Cl-39 4.31E-17 4.39E-17 4.02E-17
Argon
Ar-37 0.0 0.0 0.0
Ar-39 4.84E-21 5.11E-21 4.08E-21
Ar-41 3.86E-17 3.93E-17 3.61E-17
Potassium
K-38 9.58E-17 9.68E-17 8.88E-17
K-40 4.74E-18 4.81E-18 4.43E-18
K-42 8.63E-18 8.75E-18 8.06E-18
K-43 2.90E-17 2.98E-17 2.62E-17
K-44 6.80E-17 6.84E-17 6.37E-17
K-45 5.57E-17 5.62E-17 5.20E-17
Calcium
Ca-41 0.0 0.0 0.0
Ca-45 3.73E-22 4.05E-22 2.78E-22
Ca-47 3.20E-17 3.25E-17 2.98E-17
Ca-49 9.32E-17 9.25E-17 8.78E-17
Scandium
Sc-43 3.28E-17 3.37E-17 2.95E-17
Sc-44m 8.07E-18 8.34E-18 7.30E-18
Sc-44 6.42E-17 6.56E-17 5.90E-17
Sc-46 6.03E-17 6.16E-17 5.60E-17
Sc-47 2.73E-18 2.84E-18 2.46E-18
Sc-48 1.01E-16 1.02E-16 9.36E-17
Sc-49 1.22E-19 1.25E-19 1.09E-19
Coefficient
R
0
1
4
2
4
2
2
2
2
6
1
3
7
5
6
1
2
5
2
4
1
4
4
0
3
3
8
4
8
2
6
5
0
2
2
8
2
7
5
5
2
9
1
Marrow
.0
.31E
.56E
. 72E
.28E
.73E
.73E
.73E
. 74E
. 04E
.17E
.77E
.48E
.09E
.23E
.25E
.75E
.25E
.16E
. 84E
.05E
.29E
.03E
.0
. 64E
. 62E
. 92E
.47E
.HE
.59E
.43E
.24E
.0
.31E
.99E
.93E
.91E
.13E
.87E
.60E
.32E
.37E
.06E
-18
-21
-17
-23
-17
-17
-17
-17
-17
-16
-17
-17
-17
-20
-22
-17
-20
-22
-23
-20
-17
-17
-21
-17
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-19
hT
(Sv
BSurface
0
2
1
4
2
4
4
4
4
9
1
5
1
6
1
6
4
1
1
2
2
5
5
0
1
4
1
6
1
4
8
7
0
1
4
1
5
1
8
8
6
1
2
.0
.26E
.57E
.60E
.34E
.61E
. 62E
.61E
.63E
.IDE
. 52E
.43E
.07E
.73E
.33E
.16E
.66E
.33E
.DIE
.59E
.79E
. 62E
.76E
.0
.27E
.99E
.26E
.07E
.HE
.41E
.59E
.31E
.0
.07E
.17E
. 12E
.05E
.43E
.97E
.05E
.40E
.33E
.24E
-18
-20
-17
-22
-17
-17
-17
-17
-17
-16
-17
-16
-17
-19
-22
-17
-19
-21
-22
-20
-17
-17
-20
-17
-16
-18
-17
-17
-17
-17
-21
-17
-16
-17
-17
-17
-17
-18
-16
-19
per Bq s
Thyroid
0
1
4
2
5
2
2
2
2
5
1
3
7
4
6
1
2
5
2
6
1
4
3
0
3
3
8
4
7
2
6
4
0
2
2
8
2
6
5
5
2
8
1
.0
.25E
.83E
.59E
. 64E
.59E
.60E
.59E
.60E
.69E
.HE
. 54E
.06E
.79E
.08E
. 54E
. 62E
.23E
.59E
.29E
.06E
. 04E
.78E
.0
.88E
.39E
.45E
.18E
.61E
.46E
.08E
. 94E
.0
. 74E
.80E
.57E
.77E
. 82E
. 52E
.23E
.29E
.76E
.03E
-18
-21
-17
-23
-17
-17
-17
-17
-17
-16
-17
-17
-17
-20
-22
-17
-20
-22
-23
-20
-17
-17
-21
-17
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-19
nr
J)
Remainder
0
1
4
2
5
2
2
2
2
5
1
3
7
4
6
1
2
5
2
5
1
4
3
0
3
3
8
4
7
2
6
5
0
2
2
8
2
7
5
5
2
9
1
.0
.28E
.79E
.66E
.26E
.66E
.67E
.67E
.68E
.86E
. 12E
. 64E
.22E
.89E
.19E
.46E
.69E
.29E
.48E
.89E
.07E
. 12E
.89E
.0
. 84E
.49E
.61E
.30E
.81E
.53E
.19E
.05E
.0
. 64E
.88E
.58E
. 84E
.OOE
.69E
.41E
.33E
.05E
.05E
-18
-21
-17
-23
-17
-17
-17
-17
-17
-16
-17
-17
-17
-20
-22
-17
-20
-22
-23
-20
-17
-17
-21
-17
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-19
Effective
0
1
5
2
7
2
2
2
2
6
1
3
7
5
6
1
2
6
3
7
1
4
4
0
4
3
9
4
8
2
6
5
0
3
3
9
3
7
6
5
2
9
1
.0
.40E
.67E
.91E
.20E
.91E
. 92E
. 92E
.93E
.31E
.19E
.90E
.73E
.19E
.87E
.90E
. 94E
.OOE
.16E
.97E
.22E
.36E
.16E
.0
.55E
. 72E
.20E
.57E
.31E
.76E
.56E
.37E
.0
.35E
.08E
.DIE
. 12E
.73E
. 14E
.80E
. 64E
.67E
.16E
-18
-21
-17
-23
-17
-17
-17
-17
-17
-16
-17
-17
-17
-20
-22
-17
-20
-22
-23
-20
-17
-17
-21
-17
-17
-18
-18
-17
-17
-17
-22
-17
-17
-17
-18
-17
-17
-18
-17
-19
0
1
3
3
1
3
3
3
4
7
1
4
8
7
3
2
5
5
4
1
1
7
5
0
2
4
1
8
2
3
9
7
0
4
3
1
3
8
7
6
3
1
7
Skin
.0
.62E-18
.16E-20
.43E-17
.27E-22
.55E-17
.93E-17
.37E-17
.36E-17
.21E-17
.34E-16
.45E-17
.92E-17
.33E-17
.62E-18
.89E-22
.32E-17
.20E-18
.55E-22
.36E-22
.80E-19
.01E-17
.46E-17
.0
.40E-20
.40E-17
.18E-16
.16E-18
.89E-17
.23E-17
.33E-17
.04E-17
.0
.78E-22
.63E-17
.06E-16
.66E-17
.87E-18
.40E-17
.64E-17
.OOE-18
.10E-16
.53E-18
-------
149
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Titanium
Ti-44 2.00E-18 2.11E-18 1.73E-18 1.44E-18 6.62E-18 1.63E-18 1.60E-18 1.92E-18 2.20E-18
Ti-45 2.62E-17 2.68E-17 2.36E-17 2.33E-17 3.93E-17 2.21E-17 2.27E-17 2.48E-17 2.97E-17
Vanadium
V-47 3.00E-17 3.07E-17 2.70E-17 2.67E-17 4.50E-17 2.53E-17 2.60E-17 2.85E-17 3.98E-17
V-48 8.75E-17 8.92E-17 8.11E-17 8.10E-17 1.18E-16 7.60E-17 7.84E-17 8.40E-17 9.60E-17
V-49 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Chromium
Cr-48 1.18E-17 1.22E-17 1.06E-17 1.02E-17 2.32E-17 9.91E-18 1.01E-17 1.13E-17 1.29E-17
Cr-49 3.07E-17 3.16E-17 2.77E-17 2.71E-17 4.89E-17 2.59E-17 2.66E-17 2.92E-17 3.74E-17
Cr-51 9.17E-19 9.48E-19 8.24E-19 8.05E-19 1.60E-18 7.71E-19 7.90E-19 8.75E-19 1.01E-18
Manganese
Mn-51 3.01E-17 3.09E-17 2.71E-17 2.67E-17 4.52E-17 2.54E-17 2.61E-17 2.86E-17 4.24E-17
Mn-52m 7.26E-17 7.40E-17 6.69E-17 6.68E-17 9.95E-17 6.29E-17 6.47E-17 6.96E-17 9.26E-17
Mn-52 1.04E-16 1.06E-16 9.63E-17 9.63E-17 1.39E-16 9.03E-17 9.31E-17 9.98E-17 1.14E-16
Mn-53 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Mn-54 2.51E-17 2.56E-17 2.31E-17 2.30E-17 3.44E-17 2.16E-17 2.23E-17 2.40E-17 2.76E-17
Mn-56 5.09E-17 5.17E-17 4.74E-17 4.76E-17 6.64E-17 4.47E-17 4.59E-17 4.90E-17 6.41E-17
Iron
Fe-52 2.15E-17 2.21E-17 1.94E-17 1.89E-17 3.56E-17 1.81E-17 1.86E-17 2.05E-17 2.37E-17
Fe-55 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Fe-59 3.57E-17 3.63E-17 3.33E-17 3.34E-17 4.68E-17 3.12E-17 3.22E-17 3.44E-17 3.91E-17
Fe-60 7.29E-23 8.21E-23 4.37E-23 3.43E-23 1.94E-22 4.64E-23 4.29E-23 6.00E-23 1.11E-22
Cobalt
Co-55 5.99E-17 6.12E-17 5.49E-17 5.46E-17 8.42E-17 5.14E-17 5.30E-17 5.72E-17 6.79E-17
Co-56 1.07E-16 1.08E-16 9.98E-17 l.OOE-16 1.39E-16 9.45E-17 9.67E-17 1.03E-16 1.17E-16
Co-57 2.74E-18 2.84E-18 2.47E-18 2.26E-18 7.24E-18 2.29E-18 2.31E-18 2.66E-18 2.98E-18
Co-58m 2.26E-23 2.69E-23 4.07E-24 4.23E-24 2.85E-23 7.90E-24 6.46E-24 1.37E-23 4.57E-23
Co-58 2.93E-17 3.00E-17 2.69E-17 2.67E-17 4.08E-17 2.51E-17 2.59E-17 2.80E-17 3.22E-17
Co-60m 1.16E-19 1.19E-19 1.07E-19 1.05E-19 1.79E-19 1.01E-19 1.03E-19 1.11E-19 1.37E-19
Co-60 7.53E-17 7.66E-17 7.03E-17 7.05E-17 9.75E-17 6.59E-17 6.80E-17 7.25E-17 8.23E-17
Co-61 1.78E-18 1.85E-18 1.58E-18 1.45E-18 4.02E-18 1.49E-18 1.50E-18 1.70E-18 3.77E-18
Co-62m 8.12E-17 8.24E-17 7.58E-17 7.62E-17 1.05E-16 7.14E-17 7.34E-17 7.82E-17 l.OOE-16
Nickel
Ni-56 5.08E-17 5.20E-17 4.65E-17 4.61E-17 7.53E-17 4.35E-17 4.48E-17 4.86E-17 5.57E-17
Ni-57 5.77E-17 5.86E-17 5.35E-17 5.36E-17 7.66E-17 5.04E-17 5.18E-17 5.54E-17 6.29E-17
Ni-59 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Ni-63 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Ni-65 1.66E-17 1.68E-17 1.54E-17 1.55E-17 2.15E-17 1.45E-17 1.50E-17 1.59E-17 2.32E-17
Ni-66 2.59E-22 2.83E-22 1.88E-22 1.54E-22 7.41E-22 1.87E-22 1.79E-22 2.30E-22 3.40E-22
Copper
Cu-60 1.17E-16 1.19E-16 1.09E-16 1.09E-16 1.55E-16 1.03E-16 1.05E-16 1.12E-16 1.36E-16
Cu-61 2.48E-17 2.54E-17 2.24E-17 2.21E-17 3.71E-17 2.10E-17 2.16E-17 2.36E-17 2.84E-17
Cu-62 3.05E-17 3.12E-17 2.75E-17 2.71E-17 4.58E-17 2.58E-17 2.65E-17 2.89E-17 4.97E-17
Cu-64 5.69E-18 5.83E-18 5.14E-18 5.07E-18 8.50E-18 4.81E-18 4.95E-18 5.41E-18 6.25E-18
Cu-66 2.70E-18 2.76E-18 2.51E-18 2.50E-18 3.69E-18 2.34E-18 2.42E-18 2.60E-18 1.51E-17
Cu-67 2.88E-18 2.99E-18 2.59E-18 2.44E-18 6.60E-18 2.41E-18 2.45E-18 2.78E-18 3.16E-18
Zinc
Zn-62 1.28E-17 1.32E-17 1.16E-17 1.14E-17 1.93E-17 1.08E-17 1.11E-17 1.22E-17 1.41E-17
Zn-63 3.32E-17 3.40E-17 3.00E-17 2.96E-17 4.92E-17 2.81E-17 2.89E-17 3.15E-17 4.59E-17
Zn-65 1.74E-17 1.78E-17 1.62E-17 1.62E-17 2.30E-17 1.52E-17 1.57E-17 1.68E-17 1.92E-17
Zn-69m 1.24E-17 1.28E-17 1.12E-17 1.10E-17 1.94E-17 1.05E-17 1.07E-17 1.18E-17 1.36E-17
Zn-69 1.24E-20 1.30E-20 1.07E-20 9.81E-21 3.01E-20 1.01E-20 1.01E-20 1.18E-20 4.93E-19
Zn-71m 4.65E-17 4.76E-17 4.21E-17 4.16E-17 6.97E-17 3.94E-17 4.05E-17 4.42E-17 5.41E-17
Zn-72 3.56E-18 3.70E-18 3.20E-18 2.99E-18 8.68E-18 2.98E-18 3.02E-18 3.44E-18 3.89E-18
Gallium
Ga-65 3.46E-17 3.55E-17 3.13E-17 3.08E-17 5.36E-17 2.93E-17 3.01E-17 3.29E-17 4.56E-17
Ga-66 7.37E-17 7.42E-17 6.85E-17 6.89E-17 9.61E-17 6.56E-17 6.65E-17 7.08E-17 9.32E-17
Ga-67 3.95E-18 4.10E-18 3.55E-18 3.38E-18 8.31E-18 3.32E-18 3.38E-18 3.80E-18 4.33E-18
Ga-68 2.86E-17 2.93E-17 2.58E-17 2.55E-17 4.28E-17 2.42E-17 2.49E-17 2.72E-17 3.78E-17
Ga-70 2.80E-19 2.87E-19 2.57E-19 2.54E-19 4.29E-19 2.41E-19 2.48E-19 2.69E-19 4.76E-18
Ga-72 8.13E-17 8.24E-17 7.57E-17 7.61E-17 1.06E-16 7.17E-17 7.34E-17 7.82E-17 9.17E-17
Ga-73 8.93E-18 9.23E-18 8.03E-18 7.84E-18 1.57E-17 7.52E-18 7.71E-18 8.53E-18 1.15E-17
-------
150
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Germanium
Ge-66 1.98E-17 2.03E-17 1.78E-17 1.75E-17 3.14E-17 1.67E-17 1.71E-17 1.88E-17 2.18E-17
Ge-67 4.19E-17 4.29E-17 3.80E-17 3.75E-17 6.38E-17 3.57E-17 3.66E-17 4.00E-17 6.28E-17
Ge-68 5.68E-24 1.48E-23 1.35E-26 3.75E-25 2.28E-24 5.32E-25 1.65E-24 4.26E-24 4.59E-22
Ge-69 2.62E-17 2.67E-17 2.40E-17 2.38E-17 3.68E-17 2.25E-17 2.31E-17 2.50E-17 2.94E-17
Ge-71 5.75E-24 1.49E-23 1.36E-26 3.80E-25 2.31E-24 5.39E-25 1.67E-24 4.31E-24 4.65E-22
Ge-75 9.95E-19 1.03E-18 8.94E-19 8.69E-19 1.86E-18 8.36E-19 8.56E-19 9.53E-19 2.47E-18
Ge-77 3.21E-17 3.29E-17 2.93E-17 2.89E-17 4.96E-17 2.74E-17 2.82E-17 3.07E-17 4.03E-17
Ge-78 7.98E-18 8.27E-18 7.18E-18 6.99E-18 1.47E-17 6.71E-18 6.87E-18 7.64E-18 8.87E-18
Arsenic
As-69 3.06E-17 3.13E-17 2.75E-17 2.71E-17 4.63E-17 2.58E-17 2.65E-17 2.90E-17 4.96E-17
As-70 1.23E-16 1.25E-16 1.14E-16 1.14E-16 1.67E-16 1.07E-16 1.10E-16 1.18E-16 1.43E-16
As-71 1.65E-17 1.69E-17 1.49E-17 1.46E-17 2.74E-17 1.39E-17 1.43E-17 1.57E-17 1.82E-17
As-72 5.40E-17 5.52E-17 4.93E-17 4.89E-17 7.71E-17 4.62E-17 4.76E-17 5.16E-17 7.13E-17
As-73 5.50E-20 6.02E-20 4.26E-20 3.19E-20 1.85E-19 4.19E-20 3.94E-20 5.04E-20 6.56E-20
As-74 2.28E-17 2.34E-17 2.06E-17 2.04E-17 3.35E-17 1.93E-17 1.99E-17 2.17E-17 2.59E-17
As-76 1.31E-17 1.34E-17 1.20E-17 1.19E-17 1.86E-17 1.12E-17 1.16E-17 1.25E-17 2.68E-17
As-77 2.56E-19 2.65E-19 2.31E-19 2.24E-19 4.64E-19 2.16E-19 2.21E-19 2.45E-19 3.58E-19
As-78 3.80E-17 3.86E-17 3.51E-17 3.51E-17 5.11E-17 3.30E-17 3.39E-17 3.64E-17 5.97E-17
Selenium
Se-70 2.92E-17 3.00E-17 2.63E-17 2.58E-17 4.54E-17 2.46E-17 2.53E-17 2.77E-17 3.47E-17
Se-73m 7.29E-18 7.47E-18 6.57E-18 6.48E-18 1.10E-17 6.16E-18 6.33E-18 6.92E-18 9.21E-18
Se-73 3.15E-17 3.24E-17 2.84E-17 2.78E-17 5.03E-17 2.66E-17 2.72E-17 3.00E-17 3.63E-17
Se-75 1.06E-17 1.09E-17 9.50E-18 9.14E-18 2.12E-17 8.87E-18 9.06E-18 1.01E-17 1.16E-17
Se-77m 2.15E-18 2.24E-18 1.94E-18 1.83E-18 4.99E-18 1.80E-18 1.83E-18 2.08E-18 2.36E-18
Se-79 1.18E-22 1.31E-22 7.62E-23 6.05E-23 3.25E-22 7.87E-23 7.37E-23 9.96E-23 1.69E-22
Se-81m 2.80E-19 2.90E-19 2.51E-19 2.24E-19 8.03E-19 2.33E-19 2.33E-19 2.72E-19 3.10E-19
Se-81 3.21E-19 3.31E-19 2.90E-19 2.83E-19 5.43E-19 2.71E-19 2.78E-19 3.07E-19 4.27E-18
Se-83 7.27E-17 7.41E-17 6.70E-17 6.69E-17 1.01E-16 6.31E-17 6.48E-17 6.97E-17 8.24E-17
Bromine
Br-74m 1.22E-16 1.24E-16 1.13E-16 1.13E-16 1.65E-16 1.07E-16 1.09E-16 1.17E-16 1.52E-16
Br-74 1.35E-16 1.36E-16 1.25E-16 1.26E-16 1.76E-16 1.21E-16 1.22E-16 1.30E-16 1.58E-16
Br-75 3.61E-17 3.71E-17 3.26E-17 3.20E-17 5.67E-17 3.05E-17 3.13E-17 3.43E-17 4.33E-17
Br-76 7.89E-17 7.99E-17 7.28E-17 7.29E-17 1.06E-16 6.91E-17 7.05E-17 7.56E-17 9.40E-17
Br-77 9.27E-18 9.54E-18 8.38E-18 8.24E-18 1.49E-17 7.84E-18 8.06E-18 8.84E-18 1.02E-17
Br-80m 8.04E-20 9.21E-20 4.11E-20 2.91E-20 1.95E-19 4.70E-20 4.16E-20 6.21E-20 1.20E-19
Br-80 2.40E-18 2.46E-18 2.18E-18 2.15E-18 3.51E-18 2.04E-18 2.10E-18 2.29E-18 3.51E-18
Br-82 7.95E-17 8.12E-17 7.31E-17 7.29E-17 1.09E-16 6.85E-17 7.06E-17 7.61E-17 8.72E-17
Br-83 2.38E-19 2.44E-19 2.15E-19 2.11E-19 3.66E-19 2.01E-19 2.06E-19 2.26E-19 7.70E-19
Br-84 5.35E-17 5.38E-17 5.00E-17 5.05E-17 6.78E-17 4.79E-17 4.86E-17 5.16E-17 7.35E-17
Krypton
Kr-74 3.42E-17 3.51E-17 3.08E-17 3.02E-17 5.48E-17 2.88E-17 2.96E-17 3.25E-17 4.48E-17
Kr-76 1.22E-17 1.26E-17 1.10E-17 1.08E-17 2.10E-17 1.03E-17 1.06E-17 1.17E-17 1.35E-17
Kr-77 2.94E-17 3.02E-17 2.65E-17 2.59E-17 4.84E-17 2.48E-17 2.54E-17 2.80E-17 3.74E-17
Kr-79 7.44E-18 7.65E-18 6.73E-18 6.62E-18 1.17E-17 6.30E-18 6.47E-18 7.09E-18 8.17E-18
Kr-81m 3.42E-18 3.56E-18 3.08E-18 2.94E-18 7.37E-18 2.87E-18 2.93E-18 3.30E-18 3.76E-18
Kr-81 1.59E-19 1.65E-19 1.42E-19 1.38E-19 2.92E-19 1.33E-19 1.36E-19 1.52E-19 1.82E-19
Kr-83m 2.57E-22 4.21E-22 2.74E-23 3.51E-23 2.24E-22 4.79E-23 6.28E-23 1.62E-22 3.47E-21
Kr-85m 4.08E-18 4.23E-18 3.67E-18 3.48E-18 9.03E-18 3.42E-18 3.48E-18 3.93E-18 4.71E-18
Kr-85 7.35E-20 7.55E-20 6.59E-20 6.45E-20 1.17E-19 6.18E-20 6.33E-20 6.97E-20 1.95E-19
Kr-87 2.39E-17 2.42E-17 2.22E-17 2.23E-17 3.22E-17 2.11E-17 2.15E-17 2.30E-17 4.34E-17
Kr-88 5.83E-17 5.87E-17 5.46E-17 5.52E-17 7.42E-17 5.22E-17 5.31E-17 5.63E-17 6.52E-17
Rubidium
Rb-79 4.03E-17 4.13E-17 3.64E-17 3.58E-17 6.21E-17 3.41E-17 3.50E-17 3.83E-17 5.17E-17
Rb-80 3.81E-17 3.90E-17 3.44E-17 3.39E-17 5.68E-17 3.22E-17 3.31E-17 3.62E-17 7.26E-17
Rb-81m 7.42E-20 7.80E-20 6.48E-20 5.58E-20 2.33E-19 6.07E-20 6.02E-20 7.16E-20 9.08E-20
Rb-81 1.81E-17 1.86E-17 1.63E-17 1.60E-17 2.94E-17 1.52E-17 1.56E-17 1.72E-17 2.02E-17
Rb-82m 8.73E-17 8.92E-17 8.03E-17 8.00E-17 1.21E-16 7.52E-17 7.76E-17 8.36E-17 9.60E-17
Rb-82 3.31E-17 3.40E-17 2.99E-17 2.95E-17 4.94E-17 2.80E-17 2.88E-17 3.15E-17 5.54E-17
Rb-83 1.49E-17 1.53E-17 1.35E-17 1.33E-17 2.22E-17 1.26E-17 1.30E-17 1.42E-17 1.64E-17
Rb-84 2.74E-17 2.81E-17 2.52E-17 2.50E-17 3.84E-17 2.35E-17 2.43E-17 2.62E-17 3.04E-17
Rb-86 2.90E-18 2.96E-18 2.70E-18 2.70E-18 3.88E-18 2.52E-18 2.61E-18 2.79E-18 8.41E-18
Rb-87 8.25E-22 8.87E-22 6.40E-22 5.40E-22 2.36E-21 6.23E-22 6.04E-22 7.52E-22 1.02E-21
-------
151
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Rubidium, cont'd
Rb-88 1.96E-17 1.98E-17 1.83E-17 1.85E-17 2.50E-17 1.74E-17 1.78E-17 1.89E-17 5.26E-17
Rb-89 6.22E-17 6.30E-17 5.81E-17 5.84E-17 8.02E-17 5.49E-17 5.63E-17 5.99E-17 7.93E-17
Strontium
Sr-80 1.13E-21 1.90E-21 6.86E-24 9.87E-23 5.68E-22 8.60E-23 1.86E-22 6.55E-22 1.48E-20
Sr-81 4.10E-17 4.21E-17 3.71E-17 3.65E-17 6.42E-17 3.47E-17 3.57E-17 3.91E-17 5.64E-17
Sr-82 1.11E-21 1.87E-21 6.74E-24 9.71E-23 5.58E-22 8.46E-23 1.83E-22 6.44E-22 1.45E-20
Sr-83 2.37E-17 2.42E-17 2.16E-17 2.15E-17 3.41E-17 2.03E-17 2.09E-17 2.26E-17 2.65E-17
Sr-85m 6.03E-18 6.26E-18 5.42E-18 5.23E-18 1.21E-17 5.06E-18 5.18E-18 5.79E-18 6.63E-18
Sr-85 1.51E-17 1.55E-17 1.37E-17 1.35E-17 2.27E-17 1.28E-17 1.31E-17 1.44E-17 1.66E-17
Sr-87m 9.44E-18 9.71E-18 8.47E-18 8.31E-18 1.54E-17 7.94E-18 8.14E-18 8.97E-18 1.03E-17
Sr-89 4.85E-20 5.04E-20 4.28E-20 4.04E-20 1.03E-19 4.02E-20 4.07E-20 4.62E-20 3.70E-18
Sr-90 3.96E-21 4.19E-21 3.33E-21 2.96E-21 1.05E-20 3.16E-21 3.13E-21 3.72E-21 1.50E-20
Sr-91 2.10E-17 2.15E-17 1.94E-17 1.94E-17 2.87E-17 1.82E-17 1.88E-17 2.02E-17 2.85E-17
Sr-92 4.03E-17 4.09E-17 3.76E-17 3.78E-17 5.20E-17 3.54E-17 3.64E-17 3.88E-17 4.42E-17
Yttrium
Y-86m 6.05E-18 6.28E-18 5.46E-18 5.28E-18 1.20E-17 5.10E-18 5.21E-18 5.82E-18 6.68E-18
Y-86 1.08E-16 1.10E-16 9.96E-17 9.96E-17 1.45E-16 9.37E-17 9.63E-17 1.03E-16 1.19E-16
Y-87 1.34E-17 1.38E-17 1.21E-17 1.19E-17 2.05E-17 1.13E-17 1.16E-17 1.28E-17 1.47E-17
Y-88 8.07E-17 8.17E-17 7.53E-17 7.59E-17 1.03E-16 7.13E-17 7.31E-17 7.77E-17 8.75E-17
Y-90m 1.82E-17 1.88E-17 1.64E-17 1.60E-17 3.08E-17 1.54E-17 1.58E-17 1.74E-17 2.00E-17
Y-90 1.26E-19 1.30E-19 1.12E-19 1.07E-19 2.47E-19 1.05E-19 1.07E-19 1.20E-19 9.90E-18
Y-91m 1.60E-17 1.64E-17 1.44E-17 1.43E-17 2.35E-17 1.35E-17 1.39E-17 1.52E-17 1.75E-17
Y-91 1.58E-19 1.62E-19 1.45E-19 1.43E-19 2.48E-19 1.36E-19 1.39E-19 1.52E-19 4.13E-18
Y-92 7.88E-18 8.05E-18 7.30E-18 7.29E-18 1.07E-17 6.84E-18 7.05E-18 7.57E-18 2.86E-17
Y-93 2.85E-18 2.90E-18 2.63E-18 2.63E-18 4.09E-18 2.49E-18 2.55E-18 2.74E-18 1.76E-17
Y-94 3.38E-17 3.44E-17 3.13E-17 3.13E-17 4.51E-17 2.94E-17 3.03E-17 3.24E-17 6.12E-17
Y-95 2.70E-17 2.71E-17 2.53E-17 2.56E-17 3.39E-17 2.43E-17 2.46E-17 2.61E-17 5.08E-17
Zirconium
Zr-86 7.53E-18 7.81E-18 6.77E-18 6.58E-18 1.42E-17 6.33E-18 6.48E-18 7.21E-18 8.33E-18
Zr-88 1.16E-17 1.20E-17 1.04E-17 1.02E-17 1.89E-17 9.79E-18 l.OOE-17 1.11E-17 1.28E-17
Zr-89 3.48E-17 3.55E-17 3.20E-17 3.19E-17 4.80E-17 2.99E-17 3.09E-17 3.33E-17 3.85E-17
Zr-93 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Zr-95 2.23E-17 2.28E-17 2.04E-17 2.03E-17 3.10E-17 1.90E-17 1.97E-17 2.13E-17 2.45E-17
Zr-97 5.45E-18 5.56E-18 5.02E-18 5.01E-18 7.55E-18 4.72E-18 4.85E-18 5.22E-18 1.16E-17
Niobium
Nb-88 1.23E-16 1.26E-16 1.13E-16 1.13E-16 1.75E-16 1.06E-16 1.09E-16 1.18E-16 1.51E-16
Nb-89bx 4.18E-17 4.25E-17 3.84E-17 3.82E-17 5.82E-17 3.63E-17 3.71E-17 4.00E-17 6.05E-17
Nb-89a2 5.80E-17 5.94E-17 5.24E-17 5.17E-17 8.59E-17 4.91E-17 5.04E-17 5.51E-17 7.19E-17
Nb-90 1.26E-16 1.27E-16 1.17E-16 1.18E-16 1.65E-16 1.11E-16 1.14E-16 1.21E-16 1.38E-16
Nb-93m 1.03E-21 1.41E-21 2.51E-23 1.12E-22 6.70E-22 1.37E-22 1.58E-22 5.57E-22 5.26E-21
Nb-94 4.73E-17 4.84E-17 4.35E-17 4.33E-17 6.55E-17 4.06E-17 4.20E-17 4.53E-17 5.21E-17
Nb-95m 1.70E-18 1.77E-18 1.53E-18 1.48E-18 3.35E-18 1.42E-18 1.46E-18 1.63E-18 1.89E-18
Nb-95 2.30E-17 2.36E-17 2.12E-17 2.10E-17 3.20E-17 1.98E-17 2.04E-17 2.20E-17 2.54E-17
Nb-96 7.43E-17 7.59E-17 6.83E-17 6.80E-17 1.03E-16 6.39E-17 6.60E-17 7.11E-17 8.18E-17
Nb-97m 2.19E-17 2.24E-17 2.01E-17 2.00E-17 3.06E-17 1.88E-17 1.94E-17 2.10E-17 2.42E-17
Nb-97 1.98E-17 2.03E-17 1.80E-17 1.79E-17 2.82E-17 1.69E-17 1.74E-17 1.89E-17 2.37E-17
Nb-98 7.31E-17 7.45E-17 6.75E-17 6.74E-17 9.92E-17 6.33E-17 6.52E-17 7.01E-17 8.90E-17
Molybdenum
Mo-90 2.34E-17 2.41E-17 2.12E-17 2.08E-17 3.90E-17 1.99E-17 2.04E-17 2.24E-17 2.61E-17
Mo-93m 6.74E-17 6.86E-17 6.25E-17 6.26E-17 9.09E-17 5.88E-17 6.05E-17 6.48E-17 7.36E-17
Mo-93 5.84E-21 8.00E-21 1.42E-22 6.37E-22 3.80E-21 7.78E-22 8.98E-22 3.16E-21 2.99E-20
Mo-99 4.42E-18 4.53E-18 4.04E-18 3.99E-18 6.63E-18 3.77E-18 3.89E-18 4.23E-18 6.22E-18
Mo-101 4.10E-17 4.17E-17 3.79E-17 3.80E-17 5.55E-17 3.57E-17 3.67E-17 3.93E-17 4.88E-17
Technetium
Tc-93m 2.14E-17 2.15E-17 1.98E-17 1.99E-17 2.88E-17 1.90E-17 1.92E-17 2.05E-17 2.29E-17
Tc-93 4.35E-17 4.42E-17 4.07E-17 4.10E-17 5.56E-17 3.84E-17 3.94E-17 4.20E-17 4.74E-17
Tc-94m 5.58E-17 5.69E-17 5.12E-17 5.10E-17 7.77E-17 4.81E-17 4.94E-17 5.33E-17 6.93E-17
Tc-94 8.00E-17 8.18E-17 7.36E-17 7.32E-17 1.10E-16 6.87E-17 7.10E-17 7.65E-17 8.81E-17
Tc-95m 1.96E-17 2.01E-17 1.79E-17 1.77E-17 2.98E-17 1.67E-17 1.72E-17 1.87E-17 2.16E-17
1 TK = 122 m
2 TK = 66 m
-------
152
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Technetium, cont'd
Tc-95 2.36E-17 2.42E-17 2.17E-17 2.16E-17 3.27E-17 2.03E-17 2.09E-17 2.26E-17 2.60E-17
Tc-96m 1.35E-18 1.38E-18 1.24E-18 1.24E-18 1.83E-18 1.16E-18 1.20E-18 1.29E-18 1.50E-18
Tc-96 7.50E-17 7.67E-17 6.91E-17 6.88E-17 1.03E-16 6.45E-17 6.67E-17 7.18E-17 8.26E-17
Tc-97m 1.41E-20 1.66E-20 5.68E-21 5.66E-21 2.39E-20 6.47E-21 6.28E-21 1.02E-20 3.64E-20
Tc-97 8.02E-21 1.06E-20 2.78E-22 9.22E-22 5.59E-21 1.28E-21 1.30E-21 4.33E-21 3.44E-20
Tc-98 4.26E-17 4.36E-17 3.89E-17 3.86E-17 6.00E-17 3.64E-17 3.75E-17 4.06E-17 4.68E-17
Tc-99m 3.01E-18 3.12E-18 2.71E-18 2.52E-18 7.49E-18 2.52E-18 2.55E-18 2.91E-18 3.28E-18
Tc-99 7.35E-22 7.90E-22 5.71E-22 4.83E-22 2.10E-21 5.56E-22 5.39E-22 6.70E-22 9.06E-22
Tc-101 9.74E-18 1.01E-17 8.77E-18 8.57E-18 1.69E-17 8.20E-18 8.41E-18 9.30E-18 1.27E-17
Tc-104 5.96E-17 6.05E-17 5.51E-17 5.52E-17 8.13E-17 5.22E-17 5.34E-17 5.72E-17 8.71E-17
Ruthenium
Ru-94 1.55E-17 1.60E-17 1.42E-17 1.40E-17 2.34E-17 1.32E-17 1.36E-17 1.48E-17 1.71E-17
Ru-97 6.31E-18 6.56E-18 5.67E-18 5.48E-18 1.24E-17 5.30E-18 5.42E-18 6.06E-18 6.97E-18
Ru-103 1.41E-17 1.44E-17 1.27E-17 1.25E-17 2.12E-17 1.19E-17 1.22E-17 1.33E-17 1.54E-17
Ru-105 2.35E-17 2.41E-17 2.14E-17 2.12E-17 3.43E-17 2.00E-17 2.06E-17 2.24E-17 2.71E-17
Ru-106 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Rhodium
Rh-99m 2.00E-17 2.05E-17 1.83E-17 1.81E-17 2.98E-17 1.71E-17 1.76E-17 1.91E-17 2.20E-17
Rh-99 1.71E-17 1.75E-17 1.54E-17 1.52E-17 2.72E-17 1.45E-17 1.48E-17 1.63E-17 1.87E-17
Rh-100 8.26E-17 8.37E-17 7.68E-17 7.72E-17 1.08E-16 7.28E-17 7.44E-17 7.94E-17 9.00E-17
Rh-lOlm 8.54E-18 8.83E-18 7.66E-18 7.49E-18 1.50E-17 7.17E-18 7.35E-18 8.15E-18 9.41E-18
Rh-101 6.60E-18 6.85E-18 5.92E-18 5.63E-18 1.44E-17 5.52E-18 5.62E-18 6.35E-18 7.27E-18
Rh-102m 1.44E-17 1.47E-17 1.30E-17 1.28E-17 2.13E-17 1.22E-17 1.25E-17 1.37E-17 1.65E-17
Rh-102 6.39E-17 6.54E-17 5.85E-17 5.80E-17 9.05E-17 5.47E-17 5.64E-17 6.10E-17 7.02E-17
Rh-103m 2.27E-21 2.77E-21 2.69E-22 3.61E-22 2.31E-21 6.23E-22 5.25E-22 1.30E-21 6.22E-21
Rh-105 2.26E-18 2.34E-18 2.03E-18 1.98E-18 3.97E-18 1.90E-18 1.95E-18 2.16E-18 2.49E-18
Rh-106m 8.75E-17 8.94E-17 8.05E-17 8.02E-17 1.21E-16 7.55E-17 7.78E-17 8.38E-17 9.63E-17
Rh-106 6.46E-18 6.62E-18 5.87E-18 5.80E-18 9.48E-18 5.50E-18 5.65E-18 6.15E-18 2.62E-17
Rh-107 9.12E-18 9.42E-18 8.20E-18 8.02E-18 1.58E-17 7.68E-18 7.87E-18 8.71E-18 1.17E-17
Palladium
Pd-100 1.83E-18 1.92E-18 1.58E-18 1.36E-18 5.65E-18 1.49E-18 1.47E-18 1.75E-18 2.05E-18
Pd-101 9.32E-18 9.57E-18 8.45E-18 8.36E-18 1.40E-17 7.92E-18 8.14E-18 8.89E-18 1.03E-17
Pd-103 2.16E-20 2.59E-20 4.37E-21 5.37E-21 2.16E-20 7.22E-21 6.46E-21 1.33E-20 5.62E-20
Pd-107 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pd-109 1.06E-19 1.13E-19 8.40E-20 7.63E-20 2.61E-19 8.10E-20 8.01E-20 9.70E-20 9.62E-19
Silver
Ag-102 1.01E-16 1.03E-16 9.27E-17 9.25E-17 1.38E-16 8.74E-17 8.96E-17 9.64E-17 1.19E-16
Ag-103 2.22E-17 2.28E-17 2.03E-17 2.00E-17 3.38E-17 1.90E-17 1.95E-17 2.12E-17 2.61E-17
Ag-104m 3.52E-17 3.58E-17 3.22E-17 3.20E-17 4.95E-17 3.04E-17 3.11E-17 3.36E-17 4.42E-17
Ag-104 8.03E-17 8.20E-17 7.39E-17 7.36E-17 1.11E-16 6.92E-17 7.13E-17 7.69E-17 8.84E-17
Ag-105 1.49E-17 1.53E-17 1.35E-17 1.32E-17 2.40E-17 1.26E-17 1.29E-17 1.42E-17 1.64E-17
Ag-106m 8.43E-17 8.61E-17 7.75E-17 7.71E-17 1.17E-16 7.26E-17 7.48E-17 8.07E-17 9.24E-17
Ag-106 2.12E-17 2.18E-17 1.91E-17 1.89E-17 3.19E-17 1.79E-17 1.84E-17 2.02E-17 2.77E-17
Ag-108m 4.84E-17 4.96E-17 4.40E-17 4.35E-17 7.06E-17 4.11E-17 4.24E-17 4.61E-17 5.32E-17
Ag-108 5.79E-19 5.94E-19 5.24E-19 5.16E-19 8.79E-19 4.90E-19 5.04E-19 5.51E-19 4.72E-18
Ag-109m 7.11E-20 7.63E-20 5.26E-20 4.62E-20 1.94E-19 5.16E-20 5.03E-20 6.35E-20 9.49E-20
Ag-llOm 8.27E-17 8.45E-17 7.63E-17 7.61E-17 1.13E-16 7.14E-17 7.37E-17 7.93E-17 9.09E-17
Ag-110 1.12E-18 1.15E-18 1.02E-18 1.01E-18 1.69E-18 9.56E-19 9.83E-19 1.07E-18 1.56E-17
Ag-111 7.83E-19 8.09E-19 7.03E-19 6.86E-19 1.36E-18 6.58E-19 6.74E-19 7.47E-19 1.66E-18
Ag-112 2.01E-17 2.04E-17 1.85E-17 1.85E-17 2.72E-17 1.75E-17 1.79E-17 1.92E-17 4.06E-17
Ag-115 2.11E-17 2.15E-17 1.96E-17 1.96E-17 2.97E-17 1.85E-17 1.89E-17 2.03E-17 3.49E-17
Cadmium
Cd-104 6.62E-18 6.80E-18 5.98E-18 5.85E-18 1.06E-17 5.60E-18 5.75E-18 6.31E-18 7.32E-18
Cd-107 2.77E-19 2.92E-19 2.17E-19 2.08E-19 5.16E-19 2.11E-19 2.11E-19 2.49E-19 3.57E-19
Cd-109 9.75E-20 1.08E-19 5.59E-20 5.05E-20 2.22E-19 5.94E-20 5.66E-20 7.88E-20 1.57E-19
Cd-113m 3.65E-21 3.85E-21 3.06E-21 2.72E-21 9.64E-21 2.91E-21 2.88E-21 3.42E-21 1.80E-20
Cd-113 6.63E-22 7.13E-22 5.17E-22 4.37E-22 1.89E-21 5.02E-22 4.88E-22 6.05E-22 8.18E-22
Cd-115m 7.10E-19 7.25E-19 6.56E-19 6.54E-19 9.89E-19 6.14E-19 6.34E-19 6.82E-19 4.74E-18
Cd-115 6.97E-18 7.15E-18 6.28E-18 6.19E-18 1.05E-17 5.89E-18 6.05E-18 6.62E-18 8.27E-18
Cd-117m 6.14E-17 6.21E-17 5.72E-17 5.76E-17 7.92E-17 5.41E-17 5.55E-17 5.91E-17 6.70E-17
Cd-117 3.25E-17 3.31E-17 3.01E-17 3.01E-17 4.46E-17 2.83E-17 2.91E-17 3.12E-17 3.84E-17
-------
153
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Indium
In-109 1.92E-17 1.97E-17 1.75E-17 1.73E-17 2.97E-17 1.64E-17 1.69E-17 1.84E-17 2.11E-17
In-llOb1 9.12E-17 9.33E-17 8.39E-17 8.35E-17 1.26E-16 7.84E-17 8.10E-17 8.73E-17 l.OOE-16
In-110a2 4.67E-17 4.77E-17 4.26E-17 4.23E-17 6.64E-17 4.00E-17 4.11E-17 4.45E-17 5.75E-17
In-Ill 1.05E-17 1.09E-17 9.44E-18 9.08E-18 2.17E-17 8.82E-18 9.01E-18 1.01E-17 1.16E-17
In-112 7.90E-18 8.09E-18 7.12E-18 7.02E-18 1.18E-17 6.67E-18 6.86E-18 7.49E-18 9.68E-18
In-113m 7.46E-18 7.68E-18 6.69E-18 6.56E-18 1.21E-17 6.27E-18 6.43E-18 7.09E-18 8.19E-18
In-114m 2.48E-18 2.56E-18 2.24E-18 2.19E-18 4.12E-18 2.10E-18 2.15E-18 2.37E-18 2.75E-18
In-114 8.25E-20 8.40E-20 7.67E-20 7.69E-20 1.09E-19 7.21E-20 7.43E-20 7.94E-20 9.07E-20
In-115m 4.49E-18 4.64E-18 4.02E-18 3.93E-18 7.69E-18 3.77E-18 3.86E-18 4.28E-18 4.96E-18
In-115 2.27E-21 2.41E-21 1.88E-21 1.65E-21 6.18E-21 1.79E-21 1.77E-21 2.12E-21 3.57E-21
In-116m 7.42E-17 7.54E-17 6.92E-17 6.94E-17 9.72E-17 6.51E-17 6.69E-17 7.15E-17 8.15E-17
In-117m 2.44E-18 2.53E-18 2.18E-18 2.11E-18 4.66E-18 2.04E-18 2.09E-18 2.33E-18 5.17E-18
In-117 2.01E-17 2.06E-17 1.81E-17 1.78E-17 3.26E-17 1.70E-17 1.74E-17 1.92E-17 2.22E-17
In-119m 3.74E-19 3.87E-19 3.33E-19 3.26E-19 6.29E-19 3.14E-19 3.21E-19 3.55E-19 1.23E-17
In-119 2.31E-17 2.36E-17 2.12E-17 2.11E-17 3.21E-17 1.98E-17 2.04E-17 2.21E-17 2.95E-17
Tin
Sn-110 8.18E-18 8.48E-18 7.32E-18 7.13E-18 1.49E-17 6.85E-18 7.02E-18 7.81E-18 9.03E-18
Sn-111 1.50E-17 1.53E-17 1.36E-17 1.35E-17 2.14E-17 1.28E-17 1.32E-17 1.43E-17 1.78E-17
Sn-113 1.74E-19 1.87E-19 1.28E-19 1.24E-19 3.06E-19 1.27E-19 1.26E-19 1.52E-19 2.29E-19
Sn-117m 3.57E-18 3.72E-18 3.19E-18 3.00E-18 8.34E-18 2.98E-18 3.02E-18 3.44E-18 3.95E-18
Sn-119m 2.61E-20 3.10E-20 5.21E-21 5.15E-21 3.46E-20 9.47E-21 7.81E-21 1.61E-20 5.17E-20
Sn-121m 1.56E-20 1.82E-20 5.02E-21 4.06E-21 2.72E-20 7.04E-21 5.99E-21 1.05E-20 2.62E-20
Sn-121 1.13E-21 1.21E-21 9.07E-22 7.81E-22 3.17E-21 8.74E-22 8.55E-22 1.04E-21 1.36E-21
Sn-123m 3.49E-18 3.63E-18 3.13E-18 2.95E-18 8.12E-18 2.92E-18 2.97E-18 3.37E-18 5.65E-18
Sn-123 2.44E-19 2.49E-19 2.25E-19 2.23E-19 3.54E-19 2.10E-19 2.17E-19 2.34E-19 3.09E-18
Sn-125 9.49E-18 9.67E-18 8.81E-18 8.82E-18 1.27E-17 8.27E-18 8.52E-18 9.12E-18 1.87E-17
Sn-126 8.26E-19 8.67E-19 7.11E-19 6.10E-19 2.56E-18 6.70E-19 6.61E-19 7.90E-19 9.22E-19
Sn-127 5.71E-17 5.81E-17 5.30E-17 5.30E-17 7.69E-17 4.98E-17 5.13E-17 5.49E-17 6.69E-17
Sn-128 1.82E-17 1.87E-17 1.63E-17 1.60E-17 2.83E-17 1.53E-17 1.57E-17 1.72E-17 2.00E-17
Antimony
Sb-115 2.70E-17 2.76E-17 2.43E-17 2.40E-17 4.04E-17 2.28E-17 2.34E-17 2.56E-17 3.10E-17
Sb-116m 9.31E-17 9.50E-17 8.60E-17 8.58E-17 1.28E-16 8.06E-17 8.31E-17 8.93E-17 1.02E-16
Sb-116 6.46E-17 6.57E-17 5.98E-17 5.99E-17 8.61E-17 5.63E-17 5.79E-17 6.20E-17 7.44E-17
Sb-117 4.29E-18 4.46E-18 3.84E-18 3.65E-18 9.29E-18 3.59E-18 3.65E-18 4.12E-18 4.74E-18
Sb-118m 7.60E-17 7.76E-17 7.05E-17 7.05E-17 1.04E-16 6.60E-17 6.81E-17 7.31E-17 8.35E-17
Sb-119 5.55E-20 6.59E-20 1.14E-20 1.10E-20 7.47E-20 2.04E-20 1.68E-20 3.43E-20 1.08E-19
Sb-120b3 7.20E-17 7.36E-17 6.68E-17 6.66E-17 1.01E-16 6.25E-17 6.45E-17 6.93E-17 7.92E-17
Sb-120a4 1.33E-17 1.36E-17 1.20E-17 1.18E-17 1.98E-17 1.12E-17 1.15E-17 1.26E-17 1.68E-17
Sb-122 1.33E-17 1.37E-17 1.21E-17 1.19E-17 1.94E-17 1.13E-17 1.16E-17 1.27E-17 1.82E-17
Sb-124n5 1.74E-22 2.07E-22 3.19E-23 3.28E-23 2.21E-22 6.12E-23 5.01E-23 1.06E-22 3.50E-22
Sb-124m6 1.06E-17 1.09E-17 9.61E-18 9.50E-18 1.54E-17 8.99E-18 9.26E-18 1.01E-17 1.19E-17
Sb-124 5.48E-17 5.57E-17 5.07E-17 5.08E-17 7.30E-17 4.78E-17 4.90E-17 5.25E-17 6.20E-17
Sb-125 1.25E-17 1.28E-17 1.12E-17 1.11E-17 1.90E-17 1.05E-17 1.08E-17 1.18E-17 1.37E-17
Sb-126m 4.66E-17 4.77E-17 4.24E-17 4.19E-17 6.77E-17 3.96E-17 4.08E-17 4.44E-17 5.55E-17
Sb-126 8.52E-17 8.72E-17 7.77E-17 7.70E-17 1.22E-16 7.27E-17 7.49E-17 8.13E-17 9.47E-17
Sb-127 2.06E-17 2.11E-17 1.88E-17 1.86E-17 3.01E-17 1.75E-17 1.81E-17 1.97E-17 2.32E-17
Sb-128b7 9.29E-17 9.51E-17 8.49E-17 8.43E-17 1.33E-16 7.94E-17 8.19E-17 8.87E-17 1.04E-16
Sb-128a8 5.96E-17 6.11E-17 5.45E-17 5.41E-17 8.60E-17 5.09E-17 5.26E-17 5.70E-17 7.50E-17
Sb-129 4.32E-17 4.40E-17 3.99E-17 3.99E-17 5.86E-17 3.74E-17 3.86E-17 4.14E-17 4.96E-17
Sb-130 9.74E-17 9.96E-17 8.96E-17 8.90E-17 1.39E-16 8.38E-17 8.64E-17 9.33E-17 1.13E-16
Sb-131 5.60E-17 5.69E-17 5.19E-17 5.20E-17 7.45E-17 4.88E-17 5.02E-17 5.38E-17 6.51E-17
Tellurium
Te-116 1.05E-18 1.10E-18 8.87E-19 8.18E-19 2.44E-18 8.42E-19 8.42E-19 9.82E-19 1.20E-18
Te-121m 5.64E-18 5.86E-18 5.08E-18 4.92E-18 1.09E-17 4.75E-18 4.86E-18 5.42E-18 6.24E-18
TK = 4.9 h
TK = 69.1 m
TK = 5.76 d
TK = 15.89 m
TK = 20.2 m
TK = 93 s
TK = 9.01 h
T* = 10.4 m
-------
154
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Tellurium, cont'd
Te-121 1.68E-17 1.73E-17 1.52E-17 1.50E-17 2.47E-17 1.42E-17 1.46E-17 1.60E-17 1.85E-17
Te-123m 3.41E-18 3.55E-18 3.05E-18 2.87E-18 7.97E-18 2.85E-18 2.88E-18 3.29E-18 3.76E-18
Te-123 5.49E-20 6.49E-20 1.36E-20 1.19E-20 8.20E-20 2.20E-20 1.83E-20 3.51E-20 9.87E-20
Te-125m 1.19E-19 1.39E-19 3.97E-20 3.26E-20 2.07E-19 5.46E-20 4.69E-20 8.10E-20 1.95E-19
Te-127m 4.05E-20 4.67E-20 1.60E-20 1.36E-20 7.29E-20 2.03E-20 1.79E-20 2.89E-20 6.81E-20
Te-127 1.49E-19 1.53E-19 1.33E-19 1.30E-19 2.46E-19 1.25E-19 1.28E-19 1.41E-19 2.38E-19
Te-129m 9.28E-19 9.54E-19 8.32E-19 8.24E-19 1.33E-18 7.82E-19 8.04E-19 8.78E-19 2.33E-18
Te-129 1.69E-18 1.73E-18 1.52E-18 1.49E-18 2.59E-18 1.42E-18 1.46E-18 1.60E-18 4.61E-18
Te-131m 4.23E-17 4.32E-17 3.90E-17 3.88E-17 5.93E-17 3.65E-17 3.77E-17 4.06E-17 4.69E-17
Te-131 1.20E-17 1.23E-17 1.10E-17 1.07E-17 1.97E-17 1.02E-17 1.05E-17 1.15E-17 1.88E-17
Te-132 5.81E-18 6.06E-18 5.18E-18 4.99E-18 1.17E-17 4.85E-18 4.95E-18 5.56E-18 6.44E-18
Te-133m 6.90E-17 7.05E-17 6.38E-17 6.36E-17 9.53E-17 5.97E-17 6.16E-17 6.62E-17 8.13E-17
Te-133 2.77E-17 2.84E-17 2.55E-17 2.53E-17 4.05E-17 2.39E-17 2.46E-17 2.66E-17 3.80E-17
Te-134 2.57E-17 2.64E-17 2.34E-17 2.30E-17 4.01E-17 2.19E-17 2.25E-17 2.46E-17 2.85E-17
Iodine
I-120m 1.59E-16 1.62E-16 1.47E-16 1.46E-16 2.17E-16 1.38E-16 1.42E-16 1.52E-16 1.90E-16
1-120 8.20E-17 8.32E-17 7.55E-17 7.54E-17 1.12E-16 7.16E-17 7.31E-17 7.85E-17 1.09E-16
1-121 1.16E-17 1.19E-17 1.04E-17 1.02E-17 2.00E-17 9.73E-18 9.97E-18 1.10E-17 1.29E-17
1-122 2.85E-17 2.92E-17 2.57E-17 2.54E-17 4.24E-17 2.41E-17 2.48E-17 2.71E-17 4.49E-17
1-123 3.86E-18 4.01E-18 3.43E-18 3.24E-18 8.59E-18 3.21E-18 3.25E-18 3.70E-18 4.27E-18
1-124 3.26E-17 3.33E-17 2.99E-17 2.98E-17 4.52E-17 2.82E-17 2.89E-17 3.12E-17 3.72E-17
1-125 1.33E-19 1.57E-19 3.99E-20 3.23E-20 2.23E-19 5.82E-20 4.91E-20 8.86E-20 2.24E-19
1-126 1.33E-17 1.37E-17 1.21E-17 1.19E-17 1.98E-17 1.13E-17 1.16E-17 1.27E-17 1.50E-17
1-128 2.59E-18 2.66E-18 2.33E-18 2.29E-18 4.03E-18 2.18E-18 2.24E-18 2.46E-18 9.51E-18
1-129 9.74E-20 1.13E-19 3.81E-20 2.84E-20 1.94E-19 4.88E-20 4.21E-20 6.93E-20 1.48E-19
1-130 6.44E-17 6.59E-17 5.87E-17 5.81E-17 9.21E-17 5.49E-17 5.65E-17 6.14E-17 7.12E-17
1-131 1.12E-17 1.15E-17 1.01E-17 9.89E-18 1.84E-17 9.44E-18 9.69E-18 1.07E-17 1.23E-17
I-132m 9.35E-18 9.59E-18 8.51E-18 8.42E-18 1.37E-17 7.96E-18 8.20E-18 8.92E-18 1.06E-17
1-132 6.87E-17 7.02E-17 6.30E-17 6.27E-17 9.52E-17 5.90E-17 6.08E-17 6.57E-17 7.81E-17
1-133 1.83E-17 1.87E-17 1.66E-17 1.64E-17 2.67E-17 1.55E-17 1.60E-17 1.74E-17 2.15E-17
1-134 7.88E-17 8.05E-17 7.28E-17 7.27E-17 1.07E-16 6.82E-17 7.04E-17 7.56E-17 9.09E-17
1-135 4.74E-17 4.81E-17 4.41E-17 4.43E-17 6.17E-17 4.16E-17 4.27E-17 4.56E-17 5.29E-17
Xenon
Xe-120 1.15E-17 1.19E-17 1.04E-17 1.03E-17 1.79E-17 9.77E-18 l.OOE-17 1.10E-17 1.28E-17
Xe-121 5.35E-17 5.43E-17 4.94E-17 4.94E-17 7.40E-17 4.68E-17 4.78E-17 5.13E-17 6.44E-17
Xe-122 1.37E-18 1.42E-18 1.18E-18 1.14E-18 2.44E-18 1.12E-18 1.13E-18 1.28E-18 1.54E-18
Xe-123 1.79E-17 1.84E-17 1.64E-17 1.62E-17 2.77E-17 1.54E-17 1.58E-17 1.72E-17 2.05E-17
Xe-125 6.77E-18 7.02E-18 6.05E-18 5.86E-18 1.28E-17 5.67E-18 5.79E-18 6.47E-18 7.50E-18
Xe-127 7.04E-18 7.31E-18 6.28E-18 6.04E-18 1.41E-17 5.87E-18 5.99E-18 6.73E-18 7.78E-18
Xe-129m 4.04E-19 4.40E-19 2.79E-19 2.54E-19 8.27E-19 2.82E-19 2.73E-19 3.46E-19 5.15E-19
Xe-131m 1.41E-19 1.55E-19 9.31E-20 8.40E-20 2.97E-19 9.57E-20 9.19E-20 1.19E-19 1.83E-19
Xe-133m 7.14E-19 7.50E-19 6.07E-19 5.83E-19 1.40E-18 5.76E-19 5.83E-19 6.68E-19 8.15E-19
Xe-133 5.71E-19 6.06E-19 4.71E-19 3.98E-19 1.76E-18 4.50E-19 4.41E-19 5.37E-19 6.50E-19
Xe-135m 1.28E-17 1.31E-17 1.15E-17 1.14E-17 1.91E-17 1.08E-17 1.11E-17 1.21E-17 1.41E-17
Xe-135 7.03E-18 7.29E-18 6.32E-18 6.14E-18 1.32E-17 5.91E-18 6.05E-18 6.74E-18 8.16E-18
Xe-138 3.36E-17 3.40E-17 3.12E-17 3.14E-17 4.52E-17 2.96E-17 3.03E-17 3.23E-17 4.23E-17
Cesium
Cs-125 1.99E-17 2.04E-17 1.80E-17 1.77E-17 2.99E-17 1.69E-17 1.73E-17 1.89E-17 2.48E-17
Cs-126 3.28E-17 3.37E-17 2.96E-17 2.91E-17 4.99E-17 2.77E-17 2.84E-17 3.12E-17 5.72E-17
Cs-127 1.18E-17 1.21E-17 1.06E-17 1.04E-17 1.88E-17 9.90E-18 1.01E-17 1.12E-17 1.29E-17
Cs-128 2.70E-17 2.76E-17 2.43E-17 2.40E-17 4.06E-17 2.28E-17 2.34E-17 2.56E-17 3.98E-17
Cs-129 7.46E-18 7.70E-18 6.64E-18 6.50E-18 1.21E-17 6.24E-18 6.39E-18 7.06E-18 8.24E-18
Cs-130 1.52E-17 1.56E-17 1.37E-17 1.35E-17 2.27E-17 1.29E-17 1.32E-17 1.45E-17 2.04E-17
Cs-131 8.37E-20 9.78E-20 2.94E-20 2.23E-20 1.54E-19 3.96E-20 3.37E-20 5.77E-20 1.31E-19
Cs-132 2.07E-17 2.12E-17 1.88E-17 1.86E-17 2.93E-17 1.76E-17 1.81E-17 1.97E-17 2.27E-17
Cs-134m 4.09E-19 4.29E-19 3.47E-19 3.16E-19 1.04E-18 3.29E-19 3.27E-19 3.85E-19 4.61E-19
Cs-134 4.68E-17 4.79E-17 4.28E-17 4.25E-17 6.60E-17 4.00E-17 4.13E-17 4.47E-17 5.15E-17
Cs-135m 4.76E-17 4.87E-17 4.39E-17 4.37E-17 6.56E-17 4.09E-17 4.23E-17 4.56E-17 5.28E-17
Cs-135 2.33E-22 2.55E-22 1.65E-22 1.35E-22 6.65E-22 1.66E-22 1.58E-22 2.05E-22 3.11E-22
Cs-136 6.43E-17 6.58E-17 5.94E-17 5.91E-17 9.02E-17 5.55E-17 5.73E-17 6.17E-17 7.08E-17
-------
155
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Cesium, cont'd
Cs-137 4.19E-21 4.42E-21 3.54E-21 3.18E-21 1.07E-20 3.36E-21 3.34E-21 3.94E-21 9.34E-20
Cs-138 7.10E-17 7.20E-17 6.62E-17 6.65E-17 9.24E-17 6.26E-17 6.41E-17 6.84E-17 9.19E-17
Barium
Ba-126 4.16E-18 4.30E-18 3.70E-18 3.61E-18 6.97E-18 3.47E-18 3.55E-18 3.94E-18 4.61E-18
Ba-128 1.58E-18 1.65E-18 1.37E-18 1.32E-18 2.93E-18 1.29E-18 1.31E-18 1.48E-18 1.77E-18
Ba-131m 1.34E-18 1.40E-18 1.17E-18 1.05E-18 3.77E-18 1.10E-18 1.09E-18 1.29E-18 1.48E-18
Ba-131 1.25E-17 1.29E-17 1.12E-17 1.09E-17 2.09E-17 1.05E-17 1.08E-17 1.19E-17 1.37E-17
Ba-133m 1.46E-18 1.52E-18 1.28E-18 1.24E-18 2.72E-18 1.20E-18 1.23E-18 1.38E-18 1.64E-18
Ba-133 1.04E-17 1.08E-17 9.25E-18 8.98E-18 1.85E-17 8.68E-18 8.87E-18 9.88E-18 1.15E-17
Ba-135m 1.28E-18 1.33E-18 1.11E-18 1.07E-18 2.40E-18 1.05E-18 1.06E-18 1.20E-18 1.43E-18
Ba-137m 1.79E-17 1.84E-17 1.63E-17 1.62E-17 2.55E-17 1.53E-17 1.57E-17 1.71E-17 1.99E-17
Ba-139 1.19E-18 1.24E-18 1.07E-18 1.02E-18 2.56E-18 l.OOE-18 1.02E-18 1.15E-18 1.01E-17
Ba-140 5.29E-18 5.43E-18 4.76E-18 4.68E-18 8.25E-18 4.46E-18 4.58E-18 5.02E-18 6.29E-18
Ba-141 2.49E-17 2.55E-17 2.28E-17 2.26E-17 3.82E-17 2.14E-17 2.20E-17 2.39E-17 3.62E-17
Ba-142 3.09E-17 3.16E-17 2.85E-17 2.84E-17 4.36E-17 2.67E-17 2.75E-17 2.96E-17 3.56E-17
Lanthanum
La-131 1.91E-17 1.96E-17 1.72E-17 1.69E-17 3.05E-17 1.61E-17 1.65E-17 1.82E-17 2.23E-17
La-132 6.00E-17 6.10E-17 5.50E-17 5.49E-17 8.31E-17 5.20E-17 5.32E-17 5.73E-17 7.16E-17
La-134 2.08E-17 2.14E-17 1.88E-17 1.85E-17 3.11E-17 1.76E-17 1.81E-17 1.98E-17 3.16E-17
La-135 4.18E-19 4.43E-19 3.24E-19 3.08E-19 6.90E-19 3.18E-19 3.15E-19 3.71E-19 4.98E-19
La-137 1.04E-19 1.21E-19 4.34E-20 3.16E-20 2.16E-19 5.42E-20 4.69E-20 7.54E-20 1.52E-19
La-138 3.69E-17 3.75E-17 3.43E-17 3.45E-17 4.79E-17 3.23E-17 3.32E-17 3.55E-17 4.02E-17
La-140 6.96E-17 7.06E-17 6.47E-17 6.49E-17 9.17E-17 6.10E-17 6.26E-17 6.69E-17 7.85E-17
La-141 1.42E-18 1.45E-18 1.33E-18 1.33E-18 1.91E-18 1.25E-18 1.28E-18 1.37E-18 1.15E-17
La-142 8.24E-17 8.29E-17 7.70E-17 7.77E-17 1.04E-16 7.36E-17 7.48E-17 7.94E-17 9.68E-17
La-143 3.08E-18 3.13E-18 2.86E-18 2.87E-18 4.15E-18 2.70E-18 2.77E-18 2.96E-18 2.07E-17
Cerium
Ce-134 1.22E-19 1.40E-19 5.46E-20 3.92E-20 2.67E-19 6.59E-20 5.75E-20 8.99E-20 1.73E-19
Ce-135 5.30E-17 5.43E-17 4.79E-17 4.73E-17 8.03E-17 4.49E-17 4.61E-17 5.04E-17 5.83E-17
Ce-137m 1.04E-18 1.08E-18 8.94E-19 8.59E-19 1.95E-18 8.46E-19 8.58E-19 9.73E-19 1.17E-18
Ce-137 3.74E-19 4.00E-19 2.82E-19 2.62E-19 6.57E-19 2.79E-19 2.73E-19 3.29E-19 4.50E-19
Ce-139 3.48E-18 3.63E-18 3.07E-18 2.89E-18 7.98E-18 2.88E-18 2.92E-18 3.33E-18 3.86E-18
Ce-141 1.74E-18 1.81E-18 1.55E-18 1.44E-18 4.26E-18 1.45E-18 1.46E-18 1.68E-18 1.91E-18
Ce-143 7.64E-18 7.88E-18 6.86E-18 6.71E-18 1.27E-17 6.43E-18 6.59E-18 7.27E-18 9.85E-18
Ce-144 3.97E-19 4.14E-19 3.48E-19 3.17E-19 1.04E-18 3.27E-19 3.27E-19 3.80E-19 4.38E-19
Praseodymium
Pr-136 6.29E-17 6.42E-17 5.75E-17 5.72E-17 8.88E-17 5.42E-17 5.55E-17 6.01E-17 7.79E-17
Pr-137 1.45E-17 1.49E-17 1.31E-17 1.29E-17 2.15E-17 1.23E-17 1.26E-17 1.38E-17 1.74E-17
Pr-138m 7.35E-17 7.53E-17 6.76E-17 6.72E-17 1.04E-16 6.32E-17 6.52E-17 7.04E-17 8.22E-17
Pr-138 2.45E-17 2.51E-17 2.21E-17 2.18E-17 3.67E-17 2.07E-17 2.13E-17 2.33E-17 4.29E-17
Pr-139 3.03E-18 3.12E-18 2.69E-18 2.65E-18 4.56E-18 2.54E-18 2.60E-18 2.86E-18 3.48E-18
Pr-142m 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pr-142 1.86E-18 1.88E-18 1.73E-18 1.74E-18 2.42E-18 1.64E-18 1.68E-18 1.79E-18 9.73E-18
Pr-143 1.21E-20 1.27E-20 1.04E-20 9.56E-21 2.94E-20 9.86E-21 9.86E-21 1.15E-20 5.09E-19
Pr-144m 8.85E-20 9.77E-20 5.66E-20 4.72E-20 1.88E-19 5.94E-20 5.55E-20 7.33E-20 1.15E-19
Pr-144 1.17E-18 1.19E-18 1.08E-18 1.08E-18 1.64E-18 1.03E-18 1.05E-18 1.13E-18 1.63E-17
Pr-145 4.49E-19 4.60E-19 4.11E-19 4.06E-19 6.67E-19 3.85E-19 3.96E-19 4.30E-19 5.59E-18
Pr-147 2.49E-17 2.55E-17 2.27E-17 2.25E-17 3.69E-17 2.13E-17 2.19E-17 2.38E-17 3.38E-17
Neodymium
Nd-136 7.15E-18 7.38E-18 6.37E-18 6.17E-18 1.24E-17 5.98E-18 6.10E-18 6.78E-18 7.97E-18
Nd-138 5.57E-19 5.92E-19 4.41E-19 4.08E-19 1.10E-18 4.29E-19 4.23E-19 5.03E-19 6.50E-19
Nd-139m 4.59E-17 4.69E-17 4.22E-17 4.19E-17 6.45E-17 3.95E-17 4.07E-17 4.39E-17 5.08E-17
Nd-139 1.16E-17 1.19E-17 1.05E-17 1.04E-17 1.73E-17 9.86E-18 1.01E-17 1.11E-17 1.43E-17
Nd-141m 2.28E-17 2.33E-17 2.09E-17 2.08E-17 3.17E-17 1.95E-17 2.02E-17 2.18E-17 2.55E-17
Nd-141 1.56E-18 1.61E-18 1.37E-18 1.34E-18 2.37E-18 1.30E-18 1.32E-18 1.46E-18 1.76E-18
Nd-147 3.47E-18 3.58E-18 3.09E-18 2.98E-18 6.16E-18 2.90E-18 2.96E-18 3.29E-18 4.00E-18
Nd-149 1.06E-17 1.10E-17 9.55E-18 9.28E-18 1.89E-17 8.93E-18 9.14E-18 1.01E-17 1.36E-17
Nd-151 2.65E-17 2.72E-17 2.44E-17 2.42E-17 3.98E-17 2.29E-17 2.35E-17 2.55E-17 3.36E-17
Promethium
Pm-141 2.21E-17 2.26E-17 2.01E-17 1.99E-17 3.21E-17 1.88E-17 1.93E-17 2.10E-17 3.17E-17
Pm-142 2.63E-17 2.69E-17 2.37E-17 2.34E-17 3.91E-17 2.22E-17 2.28E-17 2.49E-17 4.87E-17
Pm-143 8.77E-18 8.99E-18 7.98E-18 7.90E-18 1.24E-17 7.47E-18 7.69E-18 8.35E-18 9.70E-18
-------
156
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Promethium, cont'd
Pm-144 4.63E-17 4.75E-17 4.21E-17 4.17E-17 6.68E-17 3.94E-17 4.06E-17 4.41E-17 5.09E-17
Pm-145 1.93E-19 2.17E-19 1.14E-19 8.34E-20 5.16E-19 1.23E-19 1.11E-19 1.57E-19 2.49E-19
Pm-146 2.22E-17 2.27E-17 2.01E-17 1.99E-17 3.24E-17 1.88E-17 1.94E-17 2.11E-17 2.44E-17
Pm-147 2.96E-22 3.19E-22 2.25E-22 1.90E-22 8.28E-22 2.20E-22 2.13E-22 2.67E-22 3.74E-22
Pm-148m 6.00E-17 6.14E-17 5.46E-17 5.41E-17 8.66E-17 5.11E-17 5.26E-17 5.72E-17 6.59E-17
Pm-148 1.74E-17 1.77E-17 1.61E-17 1.61E-17 2.33E-17 1.51E-17 1.56E-17 1.67E-17 2.54E-17
Pm-149 3.25E-19 3.36E-19 2.93E-19 2.86E-19 5.73E-19 2.74E-19 2.81E-19 3.11E-19 1.27E-18
Pm-150 4.28E-17 4.36E-17 3.96E-17 3.96E-17 5.89E-17 3.73E-17 3.83E-17 4.11E-17 5.37E-17
Pm-151 8.95E-18 9.23E-18 8.07E-18 7.87E-18 1.53E-17 7.55E-18 7.74E-18 8.54E-18 1.03E-17
Samarium
Sm-141m 5.85E-17 5.98E-17 5.36E-17 5.33E-17 8.44E-17 5.03E-17 5.18E-17 5.60E-17 6.84E-17
Sm-141 4.19E-17 4.28E-17 3.82E-17 3.79E-17 6.06E-17 3.59E-17 3.68E-17 4.00E-17 5.46E-17
Sm-142 2.12E-18 2.19E-18 1.86E-18 1.81E-18 3.36E-18 1.76E-18 1.79E-18 1.99E-18 2.44E-18
Sm-145 4.38E-19 4.90E-19 2.74E-19 2.00E-19 1.24E-18 2.90E-19 2.65E-19 3.65E-19 5.54E-19
Sm-146 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-147 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-151 9.38E-24 1.14E-23 8.79E-25 1.37E-24 8.76E-24 2.48E-24 2.03E-24 5.27E-24 2.46E-23
Sm-153 8.95E-19 9.44E-19 7.51E-19 6.49E-19 2.57E-18 7.15E-19 7.02E-19 8.42E-19 1.11E-18
Sm-155 2.18E-18 2.26E-18 1.94E-18 1.76E-18 5.80E-18 1.81E-18 1.81E-18 2.10E-18 5.51E-18
Sm-156 2.86E-18 2.98E-18 2.55E-18 2.41E-18 6.43E-18 2.39E-18 2.42E-18 2.75E-18 3.20E-18
Europium
Eu-145 4.30E-17 4.38E-17 3.98E-17 3.99E-17 5.75E-17 3.75E-17 3.85E-17 4.13E-17 4.72E-17
Eu-146 7.46E-17 7.62E-17 6.86E-17 6.83E-17 1.03E-16 6.43E-17 6.62E-17 7.14E-17 8.20E-17
Eu-147 1.36E-17 1.39E-17 1.24E-17 1.22E-17 2.08E-17 1.16E-17 1.19E-17 1.30E-17 1.50E-17
Eu-148 6.47E-17 6.62E-17 5.91E-17 5.86E-17 9.20E-17 5.54E-17 5.70E-17 6.18E-17 7.10E-17
Eu-149 1.10E-18 1.15E-18 9.27E-19 8.73E-19 2.11E-18 8.85E-19 8.87E-19 1.02E-18 1.24E-18
Eu-lBOb1 4.39E-17 4.50E-17 3.98E-17 3.93E-17 6.63E-17 3.73E-17 3.83E-17 4.18E-17 4.82E-17
Eu-150a2 1.32E-18 1.36E-18 1.19E-18 1.18E-18 2.07E-18 1.12E-18 1.15E-18 1.26E-18 2.12E-18
Eu-152m 8.52E-18 8.72E-18 7.85E-18 7.80E-18 1.20E-17 7.33E-18 7.57E-18 8.17E-18 1.33E-17
Eu-152 3.36E-17 3.43E-17 3.10E-17 3.09E-17 4.73E-17 2.90E-17 2.99E-17 3.22E-17 3.69E-17
Eu-154 3.66E-17 3.74E-17 3.39E-17 3.38E-17 5.08E-17 3.18E-17 3.27E-17 3.52E-17 4.10E-17
Eu-155 1.02E-18 1.06E-18 8.85E-19 7.68E-19 3.06E-18 8.31E-19 8.22E-19 9.75E-19 1.12E-18
Eu-156 3.97E-17 4.03E-17 3.70E-17 3.72E-17 5.18E-17 3.49E-17 3.58E-17 3.82E-17 4.62E-17
Eu-157 6.81E-18 7.03E-18 6.07E-18 5.89E-18 1.14E-17 5.70E-18 5.82E-18 6.45E-18 8.60E-18
Eu-158 3.15E-17 3.21E-17 2.92E-17 2.92E-17 4.24E-17 2.74E-17 2.82E-17 3.03E-17 4.43E-17
Gadolinium
Gd-145 6.75E-17 6.83E-17 6.26E-17 6.29E-17 8.85E-17 5.94E-17 6.07E-17 6.48E-17 7.95E-17
Gd-146 4.46E-18 4.67E-18 3.86E-18 3.49E-18 1.17E-17 3.64E-18 3.62E-18 4.25E-18 4.95E-18
Gd-147 3.88E-17 3.98E-17 3.55E-17 3.51E-17 5.78E-17 3.32E-17 3.42E-17 3.71E-17 4.27E-17
Gd-148 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-149 1.11E-17 1.15E-17 9.99E-18 9.72E-18 1.91E-17 9.35E-18 9.58E-18 1.06E-17 1.22E-17
Gd-151 9.72E-19 1.03E-18 8.09E-19 7.39E-19 2.22E-18 7.74E-19 7.67E-19 9.03E-19 1.11E-18
Gd-152 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-153 1.40E-18 1.48E-18 1.15E-18 9.83E-19 4.11E-18 1.10E-18 1.08E-18 1.31E-18 1.58E-18
Gd-159 1.26E-18 1.30E-18 1.11E-18 1.08E-18 2.23E-18 1.05E-18 1.07E-18 1.19E-18 1.83E-18
Terbium
Tb-147 4.71E-17 4.82E-17 4.33E-17 4.30E-17 6.64E-17 4.05E-17 4.18E-17 4.51E-17 5.87E-17
Tb-149 4.76E-17 4.85E-17 4.39E-17 4.38E-17 6.64E-17 4.14E-17 4.24E-17 4.57E-17 5.35E-17
Tb-150 5.01E-17 5.11E-17 4.59E-17 4.57E-17 7.01E-17 4.32E-17 4.43E-17 4.79E-17 6.16E-17
Tb-151 2.50E-17 2.57E-17 2.26E-17 2.22E-17 3.99E-17 2.12E-17 2.17E-17 2.38E-17 2.75E-17
Tb-153 5.23E-18 5.44E-18 4.66E-18 4.45E-18 1.03E-17 4.37E-18 4.44E-18 4.99E-18 5.80E-18
Tb-154 6.92E-17 6.99E-17 6.45E-17 6.50E-17 8.95E-17 6.14E-17 6.26E-17 6.66E-17 7.48E-17
Tb-155 2.56E-18 2.69E-18 2.22E-18 2.03E-18 6.23E-18 2.09E-18 2.09E-18 2.43E-18 2.85E-18
Tb-156m3 2.16E-19 2.39E-19 1.59E-19 1.17E-19 7.08E-19 1.59E-19 1.48E-19 1.93E-19 2.58E-19
Tb-156n4 3.77E-20 4.07E-20 2.94E-20 2.35E-20 1.17E-19 2.87E-20 2.75E-20 3.45E-20 4.38E-20
Tb-156 5.32E-17 5.43E-17 4.90E-17 4.87E-17 7.52E-17 4.60E-17 4.73E-17 5.10E-17 5.82E-17
Tb-157 1.82E-20 2.03E-20 1.19E-20 8.57E-21 5.45E-20 1.24E-20 1.13E-20 1.55E-20 2.26E-20
Tb-158 2.28E-17 2.33E-17 2.10E-17 2.09E-17 3.21E-17 1.97E-17 2.03E-17 2.19E-17 2.52E-17
1 TK = 34.2 y
2 TK = 12.62 h
3 TK = 24.4 y
4 TK = 5.0 h
-------
157
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Terbium, cont'd
Tb-160 3.32E-17 3.40E-17 3.07E-17 3.06E-17 4.64E-17 2.87E-17 2.97E-17 3.19E-17 3.67E-17
Tb-161 3.22E-19 3.49E-19 2.46E-19 1.97E-19 9.88E-19 2.42E-19 2.31E-19 2.92E-19 3.85E-19
Dysprosium
Dy-155 1.61E-17 1.65E-17 1.47E-17 1.45E-17 2.53E-17 1.38E-17 1.41E-17 1.54E-17 1.77E-17
Dy-157 9.56E-18 9.89E-18 8.52E-18 8.28E-18 1.70E-17 7.99E-18 8.17E-18 9.09E-18 1.05E-17
Dy-159 3.41E-19 3.79E-19 2.33E-19 1.69E-19 1.05E-18 2.40E-19 2.20E-19 2.95E-19 4.17E-19
Dy-165 6.65E-19 6.86E-19 5.95E-19 5.73E-19 1.18E-18 5.59E-19 5.69E-19 6.32E-19 2.49E-18
Dy-166 5.12E-19 5.46E-19 4.21E-19 3.56E-19 1.45E-18 4.05E-19 3.94E-19 4.77E-19 5.82E-19
Holmium
Ho-155 1.06E-17 1.09E-17 9.55E-18 9.33E-18 1.72E-17 8.95E-18 9.17E-18 1.01E-17 1.36E-17
Ho-157 1.28E-17 1.32E-17 1.15E-17 1.12E-17 2.17E-17 1.08E-17 1.10E-17 1.22E-17 1.42E-17
Ho-159 8.42E-18 8.74E-18 7.50E-18 7.13E-18 1.71E-17 7.04E-18 7.14E-18 8.04E-18 9.30E-18
Ho-161 5.35E-19 5.84E-19 3.97E-19 3.13E-19 1.61E-18 3.95E-19 3.74E-19 4.79E-19 6.43E-19
Ho-162m 1.58E-17 1.62E-17 1.45E-17 1.44E-17 2.36E-17 1.36E-17 1.40E-17 1.52E-17 1.74E-17
Ho-162 3.99E-18 4.10E-18 3.59E-18 3.51E-18 6.30E-18 3.39E-18 3.46E-18 3.79E-18 4.48E-18
Ho-164m 3.70E-19 4.09E-19 2.67E-19 1.97E-19 1.18E-18 2.69E-19 2.49E-19 3.28E-19 4.45E-19
Ho-164 2.70E-19 2.95E-19 2.02E-19 1.55E-19 8.51E-19 2.01E-19 1.89E-19 2.43E-19 5.24E-19
Ho-166m 5.13E-17 5.26E-17 4.68E-17 4.63E-17 7.68E-17 4.38E-17 4.51E-17 4.90E-17 5.64E-17
Ho-166 7.49E-19 7.68E-19 6.83E-19 6.64E-19 1.26E-18 6.45E-19 6.56E-19 7.18E-19 5.94E-18
Ho-167 1.04E-17 1.07E-17 9.31E-18 9.08E-18 1.80E-17 8.72E-18 8.93E-18 9.89E-18 1.16E-17
Erbium
Er-161 2.63E-17 2.69E-17 2.42E-17 2.41E-17 3.73E-17 2.27E-17 2.34E-17 2.52E-17 2.90E-17
Er-165 3.10E-19 3.43E-19 2.24E-19 1.65E-19 l.OOE-18 2.26E-19 2.10E-19 2.75E-19 3.72E-19
Er-169 8.09E-22 8.67E-22 6.38E-22 5.44E-22 2.29E-21 6.18E-22 6.02E-22 7.42E-22 9.87E-22
Er-171 1.03E-17 1.07E-17 9.24E-18 8.94E-18 1.93E-17 8.65E-18 8.84E-18 9.85E-18 1.22E-17
Er-172 1.51E-17 1.55E-17 1.37E-17 1.34E-17 2.34E-17 1.28E-17 1.31E-17 1.44E-17 1.66E-17
Thulium
Tm-162 5.23E-17 5.30E-17 4.85E-17 4.86E-17 7.01E-17 4.60E-17 4.70E-17 5.02E-17 6.06E-17
Tm-166 5.48E-17 5.57E-17 5.08E-17 5.08E-17 7.39E-17 4.80E-17 4.92E-17 5.27E-17 5.99E-17
Tm-167 3.02E-18 3.17E-18 2.65E-18 2.48E-18 6.66E-18 2.50E-18 2.52E-18 2.88E-18 3.36E-18
Tm-170 8.39E-20 8.89E-20 7.13E-20 5.98E-20 2.61E-19 6.76E-20 6.62E-20 7.98E-20 6.37E-19
Tm-171 6.47E-21 7.03E-21 5.12E-21 3.91E-21 2.18E-20 4.99E-21 4.74E-21 5.98E-21 7.47E-21
Tm-172 1.42E-17 1.44E-17 1.32E-17 1.33E-17 1.86E-17 1.24E-17 1.28E-17 1.36E-17 1.89E-17
Tm-173 1.14E-17 1.17E-17 1.02E-17 l.OOE-17 1.85E-17 9.60E-18 9.84E-18 1.08E-17 1.30E-17
Tm-175 3.13E-17 3.21E-17 2.87E-17 2.84E-17 4.48E-17 2.68E-17 2.76E-17 2.99E-17 3.67E-17
Ytterbium
Yb-162 2.57E-18 2.70E-18 2.25E-18 2.04E-18 6.65E-18 2.12E-18 2.12E-18 2.46E-18 2.85E-18
Yb-166 8.77E-19 9.51E-19 6.93E-19 5.37E-19 2.89E-18 6.75E-19 6.42E-19 8.09E-19 1.01E-18
Yb-167 4.83E-18 5.05E-18 4.23E-18 3.81E-18 1.24E-17 3.98E-18 3.97E-18 4.61E-18 5.35E-18
Yb-169 6.03E-18 6.33E-18 5.28E-18 4.84E-18 1.46E-17 4.97E-18 4.98E-18 5.75E-18 6.69E-18
Yb-175 1.10E-18 1.14E-18 9.90E-19 9.61E-19 1.95E-18 9.27E-19 9.48E-19 1.05E-18 1.21E-18
Yb-177 5.35E-18 5.47E-18 4.94E-18 4.89E-18 8.18E-18 4.62E-18 4.76E-18 5.15E-18 7.74E-18
Yb-178 1.02E-18 1.05E-18 9.17E-19 8.97E-19 1.70E-18 8.59E-19 8.80E-19 9.72E-19 1.15E-18
Lutetium
Lu-169 2.96E-17 3.02E-17 2.73E-17 2.72E-17 4.18E-17 2.57E-17 2.64E-17 2.84E-17 3.24E-17
Lu-170 7.31E-17 7.38E-17 6.84E-17 6.89E-17 9.38E-17 6.51E-17 6.64E-17 7.05E-17 7.94E-17
Lu-171 1.92E-17 1.97E-17 1.75E-17 1.72E-17 2.85E-17 1.64E-17 1.69E-17 1.83E-17 2.12E-17
Lu-172 5.50E-17 5.62E-17 5.09E-17 5.06E-17 7.68E-17 4.76E-17 4.91E-17 5.28E-17 6.05E-17
Lu-173 2.27E-18 2.39E-18 1.96E-18 1.78E-18 5.37E-18 1.86E-18 1.85E-18 2.15E-18 2.54E-18
Lu-174m 7.98E-19 8.50E-19 6.67E-19 5.70E-19 2.15E-18 6.40E-19 6.24E-19 7.46E-19 9.07E-19
Lu-174 2.77E-18 2.85E-18 2.51E-18 2.43E-18 4.61E-18 2.37E-18 2.41E-18 2.65E-18 3.06E-18
Lu-176m 2.28E-19 2.40E-19 1.96E-19 1.67E-19 7.06E-19 1.85E-19 1.82E-19 2.18E-19 1.94E-18
Lu-176 1.34E-17 1.39E-17 1.20E-17 1.16E-17 2.59E-17 1.12E-17 1.15E-17 1.28E-17 1.47E-17
Lu-177m 2.65E-17 2.75E-17 2.38E-17 2.29E-17 5.16E-17 2.22E-17 2.27E-17 2.54E-17 2.92E-17
Lu-177 8.56E-19 8.91E-19 7.66E-19 7.23E-19 1.93E-18 7.16E-19 7.27E-19 8.24E-19 9.42E-19
Lu-178m 3.07E-17 3.17E-17 2.75E-17 2.67E-17 5.57E-17 2.58E-17 2.63E-17 2.93E-17 3.54E-17
Lu-178 4.12E-18 4.19E-18 3.83E-18 3.83E-18 5.68E-18 3.61E-18 3.70E-18 3.97E-18 1.11E-17
Lu-179 8.65E-19 8.98E-19 7.79E-19 7.50E-19 1.74E-18 7.27E-19 7.43E-19 8.31E-19 2.94E-18
-------
158
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Hafnium
Hf-170 1.44E-17 1.48E-17 1.29E-17 1.25E-17 2.51E-17 1.21E-17 1.24E-17 1.37E-17 1.58E-17
Hf-172 1.41E-18 1.51E-18 1.17E-18 9.64E-19 4.41E-18 1.12E-18 1.09E-18 1.33E-18 1.60E-18
Hf-173 9.87E-18 1.02E-17 8.83E-18 8.38E-18 2.06E-17 8.27E-18 8.40E-18 9.45E-18 1.08E-17
Hf-175 9.81E-18 1.01E-17 8.75E-18 8.47E-18 1.76E-17 8.21E-18 8.38E-18 9.33E-18 1.08E-17
Hf-177m 6.19E-17 6.40E-17 5.55E-17 5.38E-17 1.14E-16 5.20E-17 5.31E-17 5.91E-17 6.80E-17
Hf-178m 6.74E-17 6.94E-17 6.07E-17 5.93E-17 1.13E-16 5.68E-17 5.82E-17 6.42E-17 7.40E-17
Hf-179m 2.46E-17 2.54E-17 2.20E-17 2.13E-17 4.44E-17 2.06E-17 2.11E-17 2.34E-17 2.70E-17
Hf-180m 2.81E-17 2.90E-17 2.52E-17 2.45E-17 4.92E-17 2.36E-17 2.42E-17 2.68E-17 3.09E-17
Hf-181 1.58E-17 1.62E-17 1.42E-17 1.38E-17 2.64E-17 1.33E-17 1.36E-17 1.50E-17 1.73E-17
Hf-182m 2.63E-17 2.70E-17 2.38E-17 2.33E-17 4.30E-17 2.23E-17 2.29E-17 2.51E-17 2.89E-17
Hf-182 6.63E-18 6.87E-18 5.95E-18 5.76E-18 1.27E-17 5.56E-18 5.69E-18 6.35E-18 7.29E-18
Hf-183 2.18E-17 2.24E-17 2.00E-17 1.97E-17 3.21E-17 1.87E-17 1.92E-17 2.09E-17 2.58E-17
Hf-184 6.36E-18 6.58E-18 5.69E-18 5.44E-18 1.28E-17 5.32E-18 5.42E-18 6.08E-18 7.52E-18
Tantalum
Ta-172 4.50E-17 4.60E-17 4.14E-17 4.11E-17 6.51E-17 3.89E-17 4.00E-17 4.32E-17 5.39E-17
Ta-173 1.59E-17 1.64E-17 1.45E-17 1.42E-17 2.53E-17 1.36E-17 1.39E-17 1.52E-17 2.06E-17
Ta-174 1.73E-17 1.78E-17 1.57E-17 1.53E-17 2.85E-17 1.47E-17 1.51E-17 1.65E-17 2.20E-17
Ta-175 2.61E-17 2.67E-17 2.41E-17 2.39E-17 3.84E-17 2.27E-17 2.32E-17 2.51E-17 2.85E-17
Ta-176 6.32E-17 6.40E-17 5.89E-17 5.91E-17 8.28E-17 5.57E-17 5.70E-17 6.08E-17 6.88E-17
Ta-177 9.68E-19 1.02E-18 8.26E-19 7.12E-19 2.66E-18 7.85E-19 7.71E-19 9.15E-19 1.09E-18
Ta-178b1 2.74E-17 2.83E-17 2.45E-17 2.36E-17 5.06E-17 2.29E-17 2.34E-17 2.61E-17 3.00E-17
Ta-178a2 2.19E-18 2.27E-18 1.97E-18 1.87E-18 4.14E-18 1.87E-18 1.88E-18 2.10E-18 2.43E-18
Ta-179 3.32E-19 3.60E-19 2.66E-19 2.04E-19 1.13E-18 2.58E-19 2.46E-19 3.09E-19 3.80E-19
Ta-180m 5.47E-19 5.89E-19 4.48E-19 3.53E-19 1.82E-18 4.31E-19 4.14E-19 5.13E-19 6.30E-19
Ta-180 1.48E-17 1.54E-17 1.33E-17 1.28E-17 2.84E-17 1.24E-17 1.27E-17 1.42E-17 1.63E-17
Ta-182m 5.62E-18 5.86E-18 5.00E-18 4.67E-18 1.32E-17 4.68E-18 4.73E-18 5.40E-18 6.19E-18
Ta-182 3.75E-17 3.83E-17 3.49E-17 3.47E-17 5.23E-17 3.27E-17 3.37E-17 3.61E-17 4.13E-17
Ta-183 6.99E-18 7.28E-18 6.23E-18 5.91E-18 1.48E-17 5.84E-18 5.93E-18 6.69E-18 7.73E-18
Ta-184 4.71E-17 4.83E-17 4.29E-17 4.23E-17 7.26E-17 4.01E-17 4.13E-17 4.50E-17 5.30E-17
Ta-185 4.56E-18 4.74E-18 4.08E-18 3.86E-18 9.68E-18 3.82E-18 3.88E-18 4.37E-18 9.51E-18
Ta-186 4.55E-17 4.68E-17 4.14E-17 4.07E-17 7.19E-17 3.87E-17 3.98E-17 4.35E-17 5.90E-17
Tungsten
W-176 2.66E-18 2.81E-18 2.30E-18 1.94E-18 8.34E-18 2.17E-18 2.13E-18 2.55E-18 2.94E-18
W-177 2.44E-17 2.51E-17 2.22E-17 2.17E-17 3.98E-17 2.08E-17 2.13E-17 2.34E-17 2.69E-17
W-178 1.43E-19 1.55E-19 1.17E-19 9.03E-20 4.88E-19 1.12E-19 1.08E-19 1.34E-19 1.63E-19
W-179 5.61E-19 6.10E-19 4.38E-19 3.40E-19 1.84E-18 4.27E-19 4.08E-19 5.15E-19 6.56E-19
W-181 4.37E-19 4.72E-19 3.56E-19 2.77E-19 1.48E-18 3.43E-19 3.29E-19 4.09E-19 4.98E-19
W-185 2.45E-21 2.59E-21 2.05E-21 1.78E-21 6.92E-21 1.95E-21 1.92E-21 2.30E-21 2.83E-21
W-187 1.39E-17 1.42E-17 1.26E-17 1.24E-17 2.10E-17 1.18E-17 1.21E-17 1.32E-17 1.57E-17
W-188 5.15E-20 5.35E-20 4.60E-20 4.43E-20 1.01E-19 4.31E-20 4.40E-20 4.92E-20 5.67E-20
Rhenium
Re-177 1.70E-17 1.73E-17 1.55E-17 1.52E-17 2.62E-17 1.46E-17 1.49E-17 1.62E-17 2.13E-17
Re-178 3.51E-17 3.56E-17 3.23E-17 3.21E-17 5.10E-17 3.06E-17 3.12E-17 3.36E-17 4.44E-17
Re-180 3.42E-17 3.50E-17 3.15E-17 3.12E-17 4.90E-17 2.94E-17 3.04E-17 3.28E-17 3.83E-17
Re-181 2.15E-17 2.21E-17 1.95E-17 1.91E-17 3.40E-17 1.83E-17 1.88E-17 2.05E-17 2.36E-17
Re-182b3 5.28E-17 5.41E-17 4.87E-17 4.81E-17 8.12E-17 4.56E-17 4.69E-17 5.08E-17 5.81E-17
Re-182a4 3.34E-17 3.41E-17 3.10E-17 3.08E-17 4.71E-17 2.91E-17 2.99E-17 3.21E-17 3.67E-17
Re-184m 1.03E-17 1.06E-17 9.36E-18 9.11E-18 1.75E-17 8.75E-18 8.97E-18 9.85E-18 1.13E-17
Re-184 2.55E-17 2.61E-17 2.35E-17 2.33E-17 3.69E-17 2.19E-17 2.26E-17 2.45E-17 2.82E-17
Re-186m 1.59E-19 1.71E-19 1.28E-19 1.01E-19 5.23E-19 1.24E-19 1.19E-19 1.48E-19 1.84E-19
Re-186 4.27E-19 4.46E-19 3.80E-19 3.44E-19 1.13E-18 3.55E-19 3.56E-19 4.12E-19 1.23E-18
Re-187 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Re-188m 1.08E-18 1.15E-18 9.26E-19 7.68E-19 3.50E-18 8.77E-19 8.58E-19 1.04E-18 1.21E-18
Re-188 1.64E-18 1.69E-18 1.49E-18 1.44E-18 2.98E-18 1.39E-18 1.42E-18 1.57E-18 8.48E-18
Re-189 1.78E-18 1.85E-18 1.60E-18 1.53E-18 3.69E-18 1.49E-18 1.52E-18 1.71E-18 2.50E-18
Osmium
Os-180 8.77E-19 9.27E-19 7.46E-19 6.40E-19 2.44E-18 7.09E-19 6.97E-19 8.28E-19 9.93E-19
1 TK = 2 .2 h
2 TK = 9.31 m
3 TK = 64.0 h
4 TV, = 12.7 h
-------
159
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose
Nuclide
Gonad
Breast
Lung
Coefficient hT (Sv per Bq s nr3)
R
Marrow BSurface Thyroid Remainder
Effective
Skin
Osmium, cont ' d
Os-181
Os-182
Os-185
Os-189m
Os-190m
Os-191m
Os-191
Os-193
Os-194
Iridium
Ir-182
Ir-184
Ir-185
Ir-18631
Ir-186b2
Ir-187
Ir-188
Ir-189
Ir-190n3
Ir-190m4
Ir-190
Ir-191m
Ir-192m
Ir-192
Ir-194m
Ir-194
Ir-195m
Ir-195
Platinum
Pt-186
Pt-188
Pt-189
Pt-191
Pt-193m
Pt-193
Pt-195m
Pt-197m
Pt-197
Pt-199
Pt-200
Gold
Au-193
Au-194
Au-195m
Au-195
Au-198m
Au-198
Au-199
Au-200m
Au-200
Au-201
Mercury
Hg-193m
Hg-193
Hg-194
Hg-195m
Hg-195
1 TK = 15
2 TK = 1.
3 TK = 3 .
4 TK = 1.
3
1
2
1
4
9
1
1
7
3
5
1
4
2
9
4
1
4
1
4
1
4
2
6
2
1
9
2
4
8
7
1
4
1
1
4
5
1
3
3
5
1
1
1
2
6
8
1
2
4
9
5
4
.8
75
1
2
.48E
.16E
.08E
.05E
.68E
.07E
.33E
.92E
.38E
.91E
.55E
.64E
. 74E
-17
-17
-17
-23
-17
-20
-18
-18
-21
-17
-17
-17
-17
.77E-17
.61E
.62E
.35E
.50E
.34E
.14E
.27E
.07E
.39E
.95E
.75E
.HE
.09E
.14E
.52E
.06E
.HE
.43E
.65E
.05E
.78E
.43E
.96E
.21E
.26E
.09E
.39E
.16E
.42E
.20E
.HE
.15E
.21E
.57E
.98E
.21E
.47E
.45E
.97E
h
h
h
h
-18
-17
-18
-17
-23
-17
-18
-18
-17
-17
-18
-17
-19
-17
-18
-18
-18
-19
-23
-18
-18
-19
-18
-18
-18
-17
-18
-18
-17
-17
-18
-17
-18
-18
-17
-18
-23
-18
-18
3
1
2
2
4
9
1
1
8
4
5
1
4.
2.
9
4
1
4.
2.
4
1
4
2
7
2
1
9
2
4
8
7
1
9
1
1
4
6
1
3
3
5
1
1
1
2
6
8
1
3
4
1
5
5
.56E
.20E
.13E
.38E
.81E
.70E
.40E
.99E
.27E
.DIE
.67E
.67E
. 84E
-17
-17
-17
-23
-17
-20
-18
-18
-21
-17
-17
-17
-17
.83E-17
.88E
.69E
.42E
. 62E
,97E
.25E
.33E
.23E
.47E
.13E
.83E
.15E
.57E
.19E
.70E
.31E
.36E
. 52E
.70E
.HE
.85E
. 64E
. 12E
.26E
.40E
.15E
.59E
.23E
.47E
.24E
.20E
.32E
.38E
.61E
.05E
.39E
. 82E
. 64E
. 12E
-18
-17
-18
-17
-23
-17
-18
-18
-17
-17
-18
-17
-19
-17
-18
-18
-18
-19
-23
-18
-18
-19
-18
-18
-18
-17
-18
-18
-17
-17
-18
-17
-18
-18
-17
-18
-22
-18
-18
3
1
1
1
4
7
1
1
4
3
5
1
4.
2.
8
4
1
4.
5.
3
1
3
2
6
2
1
7
1
4
7
6
1
1
9
1
3
5
1
2
2
4
9
1
1
1
5
7
1
2
3
4
4
4
.20E
. 04E
.89E
.58E
.23E
.61E
.17E
. 72E
.76E
.56E
.IDE
. 52E
,36E
-17
-17
-17
-25
-17
-20
-18
-18
-21
-17
-17
-17
-17
.53E-17
.73E
.29E
.17E
,06E
. 64E
. 74E
.HE
.67E
.15E
.28E
.50E
.OOE
.90E
.95E
.DIE
.27E
.33E
.22E
. 62E
.09E
.57E
.91E
.39E
.07E
.89E
.85E
. 84E
.97E
.27E
.08E
.90E
.58E
.58E
.42E
. 72E
.73E
.09E
.91E
. 52E
-18
-17
-18
-17
-26
-17
-18
-18
-17
-17
-18
-17
-19
-17
-18
-18
-18
-19
-25
-19
-18
-19
-18
-18
-18
-17
-18
-19
-17
-17
-18
-17
-18
-18
-17
-18
-25
-18
-18
3
1
1
8
4
6
1
1
3
3
5
1
4.
2.
8
4
1
3.
9.
3
9
3
2
6
2
9
6
1
3
7
6
9
3
7
1
3
5
9
2
2
4
8
1
1
1
5
7
1
2
3
7
4
4
.17E-17 5.18E-17 3.00E-17 3
.01E-17 2.04E-17 9.77E-18 9
.87E-17 3.06E-17 1.77E-17 1
.20E-25 4.96E-24 1.02E-24 2
.15E-17 7.36E-17 3.96E-17 4
.08E-20 3.08E-19 7.25E-20 7
.02E-18 3.89E-18 1.10E-18 1
.66E-18 3.55E-18 1.61E-18 1
.43E-21 2.17E-20 5.00E-21 4
.51E-17 6.01E-17 3.33E-17 3
.06E-17 8.13E-17 4.79E-17 4
.51E-17 2.41E-17 1.44E-17 1
.32E-17 7.02E-17 4.10E-17 4.
.50E-17 4.14E-17 2.37E-17 2.
.52E-18 1.56E-17 8.17E-18 8
.30E-17 6.28E-17 4.07E-17 4
.03E-18 3.62E-18 1.10E-18 1
.98E-17 7.17E-17 3.80E-17 3.
.87E-25 5.83E-24 1.09E-24 3.
.66E-17 6.63E-17 3.50E-17 3
.78E-19 3.68E-18 1.04E-18 1
.46E-18 9.48E-18 3.41E-18 3
.11E-17 3.97E-17 2.02E-17 2
.19E-17 1.07E-16 5.88E-17 6
.47E-18 4.38E-18 2.34E-18 2
.70E-18 1.98E-17 9.38E-18 9
.79E-19 2.76E-18 7.44E-19 7
.92E-17 3.15E-17 1.82E-17 1
.76E-18 9.95E-18 3.76E-18 3
.01E-18 1.44E-17 6.82E-18 6
.OOE-18 1.40E-17 5.94E-18 6
.99E-20 4.81E-19 1.16E-19 1
.52E-24 2.06E-23 3.60E-24 1
.63E-19 3.38E-18 8.57E-19 8
.47E-18 3.81E-18 1.48E-18 1
.49E-19 1.22E-18 3.66E-19 3
.30E-18 9.32E-18 5.05E-18 5
.82E-19 2.98E-18 1. OOE-18 1
.66E-18 7.75E-18 2.71E-18 2
.84E-17 4.47E-17 2.69E-17 2
.67E-18 1.05E-17 4.52E-18 4
.27E-19 3.80E-18 9.41E-19 9
.20E-17 3.16E-17 1.18E-17 1
.06E-17 1.92E-17 1.01E-17 1
.78E-18 5. OOE-18 1.77E-18 1
.50E-17 9.52E-17 5.22E-17 5
.56E-18 1.15E-17 7.11E-18 7
.39E-18 2.45E-18 1.33E-18 1
.69E-17 4.58E-17 2.55E-17 2
.45E-18 l.OOE-17 3.50E-18 3
.60E-24 4.40E-23 7.13E-24 1
.74E-18 l.OOE-17 4.59E-18 4
.36E-18 8.72E-18 4.23E-18 4
.08E
.99E
. 82E
. 64E
.06E
.05E
.09E
.65E
.55E
.43E
. 92E
.46E
,20E
-17
-18
-17
-24
-17
-20
-18
-18
-21
-17
-17
-17
-17
.44E-17
.38E
.16E
.IDE
,90E
,13E
.59E
. 04E
.47E
.07E
. 04E
.41E
.59E
.36E
.87E
.81E
.96E
.03E
.13E
.OOE
.44E
.49E
.67E
.19E
.DIE
.73E
.75E
. 62E
.24E
.20E
. 04E
.79E
.37E
.32E
.36E
. 62E
.53E
.83E
.69E
.32E
-18
-17
-18
-17
-24
-17
-18
-18
-17
-17
-18
-18
-19
-17
-18
-18
-18
-19
-23
-19
-18
-19
-18
-18
-18
-17
-18
-19
-17
-17
-18
-17
-18
-18
-17
-18
-23
-18
-18
3
1
1
7
4
8
1
1
6
3
5
1
4.
2.
9
4
1
4.
9.
3
1
3
2
6
2
1
8
2
4
7
6
1
3
1
1
4
5
1
3
2
5
1
1
1
2
5
7
1
2
4
5
5
4
.34E
.HE
.98E
.28E
.45E
. 62E
.28E
.83E
.23E
.73E
.32E
.58E
,55E
-17
-17
-17
-24
-17
-20
-18
-18
-21
-17
-17
-17
-17
.65E-17
.18E
.45E
.28E
,28E
,07E
. 94E
.22E
.93E
.28E
.61E
.63E
.06E
.73E
. 04E
.32E
.70E
.77E
.37E
.03E
.DIE
.69E
.27E
.68E
.16E
. 12E
.97E
.16E
.HE
.36E
. 14E
. 04E
.87E
.88E
.49E
.85E
. 04E
.89E
.21E
.76E
-18
-17
-18
-17
-24
-17
-18
-18
-17
-17
-18
-17
-19
-17
-18
-18
-18
-19
-23
-18
-18
-19
-18
-18
-18
-17
-18
-18
-17
-17
-18
-17
-18
-18
-17
-18
-23
-18
-18
3
1
2
5
5
1
1
2
9
5
6
1
5.
3 .
1
5
1
4.
5.
4
1
4
2
7
1
1
1
2
4
8
7
1
1
1
1
5
9
1
3
3
5
1
1
1
2
6
1
3
3
4
2
6
5
.83E-17
.28E-17
.29E-17
.34E-22
.13E-17
.03E-19
.47E-18
.98E-18
.77E-21
.51E-17
.27E-17
.78E-17
.19E-17
.18E-17
.06E-17
.01E-17
.50E-18
.93E-17
.86E-22
.54E-17
.39E-18
.46E-18
.63E-17
.63E-17
.06E-17
.25E-17
.67E-18
.35E-17
.98E-18
.89E-18
.82E-18
.61E-19
.66E-21
.17E-18
.96E-18
.25E-19
.42E-18
.36E-18
.60E-18
.37E-17
.93E-18
.29E-18
.56E-17
.37E-17
.32E-18
.76E-17
.57E-17
.23E-18
.26E-17
.69E-18
.32E-21
.01E-18
.49E-18
-------
160
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Mercury, cont'd
Hg-197m 1.92E-18 2.00E-18 1.72E-18 1.57E-18 4.95E-18 1.60E-18 1.61E-18 1.86E-18 2.11E-18
Hg-197 9.56E-19 1.01E-18 8.24E-19 6.84E-19 3.16E-18 7.77E-19 7.65E-19 9.19E-19 1.06E-18
Hg-199m 4.33E-18 4.50E-18 3.87E-18 3.63E-18 9.74E-18 3.62E-18 3.66E-18 4.16E-18 4.75E-18
Hg-203 6.68E-18 6.93E-18 6.00E-18 5.83E-18 1.25E-17 5.61E-18 5.75E-18 6.40E-18 7.35E-18
Thallium
Tl-194m 6.82E-17 7.00E-17 6.19E-17 6.10E-17 1.03E-16 5.79E-17 5.96E-17 6.50E-17 7.75E-17
Tl-194 2.23E-17 2.29E-17 2.02E-17 1.98E-17 3.51E-17 1.89E-17 1.94E-17 2.13E-17 2.45E-17
Tl-195 3.70E-17 3.76E-17 3.43E-17 3.42E-17 5.10E-17 3.23E-17 3.31E-17 3.55E-17 4.05E-17
Tl-197 1.10E-17 1.13E-17 9.99E-18 9.76E-18 1.81E-17 9.37E-18 9.59E-18 1.05E-17 1.21E-17
Tl-198m 3.47E-17 3.56E-17 3.13E-17 3.08E-17 5.42E-17 2.93E-17 3.01E-17 3.30E-17 3.81E-17
Tl-198 5.92E-17 6.01E-17 5.48E-17 5.48E-17 8.09E-17 5.18E-17 5.30E-17 5.68E-17 6.43E-17
Tl-199 6.13E-18 6.35E-18 5.51E-18 5.26E-18 1.19E-17 5.16E-18 5.25E-18 5.87E-18 6.75E-18
Tl-200 3.82E-17 3.91E-17 3.51E-17 3.49E-17 5.56E-17 3.29E-17 3.39E-17 3.66E-17 4.19E-17
Tl-201 1.52E-18 1.60E-18 1.33E-18 1.16E-18 4.54E-18 1.25E-18 1.24E-18 1.47E-18 1.68E-18
Tl-202 1.30E-17 1.34E-17 1.16E-17 1.13E-17 2.18E-17 1.09E-17 1.12E-17 1.23E-17 1.42E-17
Tl-204 2.25E-20 2.38E-20 1.94E-20 1.65E-20 6.92E-20 1.83E-20 1.80E-20 2.15E-20 1.96E-19
Tl-206 4.13E-20 4.30E-20 3.64E-20 3.41E-20 9.04E-20 3.42E-20 3.45E-20 3.93E-20 3.04E-18
Tl-207 9.91E-20 1.02E-19 9.01E-20 8.80E-20 1.63E-19 8.43E-20 8.65E-20 9.48E-20 2.52E-18
Tl-208 1.01E-16 1.01E-16 9.38E-17 9.48E-17 1.28E-16 9.01E-17 9.13E-17 9.68E-17 1.11E-16
Tl-209 6.02E-17 6.11E-17 5.58E-17 5.58E-17 8.27E-17 5.27E-17 5.40E-17 5.79E-17 7.02E-17
Lead
Pb-195m 4.65E-17 4.77E-17 4.23E-17 4.17E-17 7.11E-17 3.96E-17 4.07E-17 4.44E-17 5.21E-17
Pb-198 1.16E-17 1.20E-17 1.04E-17 1.01E-17 2.14E-17 9.76E-18 9.98E-18 1.11E-17 1.28E-17
Pb-199 4.31E-17 4.40E-17 3.98E-17 3.96E-17 6.14E-17 3.75E-17 3.85E-17 4.14E-17 4.72E-17
Pb-200 4.53E-18 4.71E-18 4.03E-18 3.73E-18 1.08E-17 3.77E-18 3.81E-18 4.35E-18 4.97E-18
Pb-201 2.15E-17 2.20E-17 1.95E-17 1.92E-17 3.43E-17 1.83E-17 1.88E-17 2.05E-17 2.36E-17
Pb-202m 6.10E-17 6.25E-17 5.60E-17 5.56E-17 8.68E-17 5.23E-17 5.40E-17 5.84E-17 6.72E-17
Pb-202 4.97E-23 1.06E-22 1.71E-25 3.72E-24 2.18E-23 3.97E-24 1.11E-23 3.30E-23 2.07E-21
Pb-203 7.97E-18 8.27E-18 7.13E-18 6.83E-18 1.60E-17 6.67E-18 6.81E-18 7.63E-18 8.77E-18
Pb-205 5.76E-23 1.21E-22 2.14E-25 4.38E-24 2.57E-23 4.58E-24 1.26E-23 3.78E-23 2.24E-21
Pb-209 4.34E-21 4.58E-21 3.66E-21 3.27E-21 1.13E-20 3.47E-21 3.44E-21 4.08E-21 3.90E-20
Pb-210 1.51E-20 1.70E-20 1.03E-20 7.48E-21 4.68E-20 1.06E-20 9.70E-21 1.31E-20 2.26E-20
Pb-211 1.53E-18 1.57E-18 1.40E-18 1.38E-18 2.27E-18 1.30E-18 1.34E-18 1.46E-18 3.69E-18
Pb-212 3.77E-18 3.92E-18 3.38E-18 3.22E-18 7.95E-18 3.16E-18 3.22E-18 3.62E-18 4.15E-18
Pb-214 7.02E-18 7.25E-18 6.31E-18 6.14E-18 1.24E-17 5.90E-18 6.04E-18 6.70E-18 7.82E-18
Bismuth
Bi-200 7.02E-17 7.19E-17 6.41E-17 6.34E-17 1.05E-16 6.00E-17 6.17E-17 6.71E-17 7.84E-17
Bi-201 3.89E-17 3.98E-17 3.59E-17 3.56E-17 5.56E-17 3.35E-17 3.46E-17 3.73E-17 4.35E-17
Bi-202 8.01E-17 8.19E-17 7.37E-17 7.32E-17 1.14E-16 6.90E-17 7.11E-17 7.67E-17 8.83E-17
Bi-203 7.05E-17 7.17E-17 6.56E-17 6.57E-17 9.45E-17 6.18E-17 6.35E-17 6.79E-17 7.71E-17
Bi-205 4.99E-17 5.07E-17 4.63E-17 4.64E-17 6.71E-17 4.37E-17 4.48E-17 4.80E-17 5.44E-17
Bi-206 9.70E-17 9.90E-17 8.93E-17 8.89E-17 1.36E-16 8.38E-17 8.62E-17 9.30E-17 1.06E-16
Bi-207 4.54E-17 4.63E-17 4.17E-17 4.15E-17 6.39E-17 3.91E-17 4.03E-17 4.34E-17 5.07E-17
Bi-210m 7.25E-18 7.50E-18 6.52E-18 6.34E-18 1.33E-17 6.09E-18 6.24E-18 6.93E-18 7.97E-18
Bi-210 1.96E-20 2.05E-20 1.71E-20 1.58E-20 4.57E-20 1.61E-20 1.62E-20 1.86E-20 1.20E-18
Bi-211 1.34E-18 1.39E-18 1.20E-18 1.17E-18 2.31E-18 1.13E-18 1.16E-18 1.28E-18 1.47E-18
Bi-212 5.59E-18 5.70E-18 5.16E-18 5.15E-18 7.60E-18 4.84E-18 4.99E-18 5.36E-18 1.02E-17
Bi-213 3.94E-18 4.05E-18 3.55E-18 3.48E-18 6.25E-18 3.32E-18 3.41E-18 3.75E-18 6.05E-18
Bi-214 4.54E-17 4.61E-17 4.22E-17 4.23E-17 5.96E-17 3.98E-17 4.09E-17 4.36E-17 5.46E-17
Polonium
Po-203 4.81E-17 4.91E-17 4.45E-17 4.44E-17 6.74E-17 4.17E-17 4.30E-17 4.62E-17 5.36E-17
Po-205 4.63E-17 4.73E-17 4.29E-17 4.27E-17 6.46E-17 4.02E-17 4.14E-17 4.45E-17 5.10E-17
Po-207 3.89E-17 3.97E-17 3.59E-17 3.57E-17 5.51E-17 3.36E-17 3.46E-17 3.73E-17 4.29E-17
Po-210 2.56E-22 2.62E-22 2.35E-22 2.34E-22 3.53E-22 2.20E-22 2.27E-22 2.45E-22 2.82E-22
Po-211 2.34E-19 2.40E-19 2.15E-19 2.14E-19 3.29E-19 2.01E-19 2.07E-19 2.24E-19 2.59E-19
Po-212 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Po-213 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Po-214 2.51E-21 2.56E-21 2.31E-21 2.29E-21 3.46E-21 2.15E-21 2.23E-21 2.40E-21 2.77E-21
Po-215 5.25E-21 5.39E-21 4.71E-21 4.63E-21 8.24E-21 4.42E-21 4.53E-21 4.98E-21 5.74E-21
Po-216 5.09E-22 5.21E-22 4.69E-22 4.66E-22 7.02E-22 4.37E-22 4.52E-22 4.87E-22 5.62E-22
Po-218 2.74E-22 2.80E-22 2.53E-22 2.52E-22 3.76E-22 2.36E-22 2.44E-22 2.63E-22 3.03E-22
-------
161
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Astatine
At-207 3.87E-17 3.94E-17 3.56E-17 3.54E-17 5.50E-17 3.35E-17 3.44E-17 3.71E-17 4.23E-17
At-211 6.36E-19 6.66E-19 5.61E-19 4.84E-19 1.95E-18 5.25E-19 5.21E-19 6.15E-19 7.00E-19
At-215 5.71E-21 5.88E-21 5.13E-21 5.03E-21 9.22E-21 4.80E-21 4.93E-21 5.43E-21 6.26E-21
At-216 2.50E-20 2.61E-20 2.20E-20 1.90E-20 7.79E-20 2.06E-20 2.04E-20 2.42E-20 2.74E-20
At-217 9.03E-21 9.28E-21 8.17E-21 8.03E-21 1.42E-20 7.65E-21 7.86E-21 8.61E-21 9.92E-21
At-218 3.43E-20 3.77E-20 2.63E-20 1.97E-20 1.14E-19 2.59E-20 2.44E-20 3.13E-20 4.45E-20
Radon
Rn-218 2.28E-20 2.34E-20 2.07E-20 2.05E-20 3.30E-20 1.94E-20 2.00E-20 2.17E-20 2.51E-20
Rn-219 1.61E-18 1.67E-18 1.45E-18 1.41E-18 2.83E-18 1.36E-18 1.39E-18 1.54E-18 1.77E-18
Rn-220 1.16E-20 1.19E-20 1.05E-20 1.04E-20 1.71E-20 9.83E-21 1.01E-20 1.10E-20 1.27E-20
Rn-222 1.20E-20 1.23E-20 1.08E-20 1.06E-20 1.80E-20 1.01E-20 1.04E-20 1.14E-20 1.31E-20
Francium
Fr-219 1.01E-19 1.04E-19 9.09E-20 8.88E-20 1.68E-19 8.51E-20 8.72E-20 9.62E-20 1.11E-19
Fr-220 2.48E-19 2.58E-19 2.22E-19 2.06E-19 6.12E-19 2.07E-19 2.10E-19 2.40E-19 2.74E-19
Fr-221 8.21E-19 8.54E-19 7.39E-19 7.09E-19 1.71E-18 6.89E-19 7.04E-19 7.90E-19 9.04E-19
Fr-222 7.56E-20 7.85E-20 6.70E-20 6.35E-20 1.56E-19 6.29E-20 6.38E-20 7.20E-20 6.19E-18
Fr-223 1.06E-18 1.11E-18 9.31E-19 8.56E-19 2.46E-18 8.77E-19 8.80E-19 1.01E-18 1.99E-18
Radium
Ra-222 2.66E-19 2.75E-19 2.39E-19 2.34E-19 4.65E-19 2.24E-19 2.29E-19 2.54E-19 2.92E-19
Ra-223 3.22E-18 3.34E-18 2.89E-18 2.72E-18 7.05E-18 2.70E-18 2.74E-18 3.10E-18 3.54E-18
Ra-224 2.73E-19 2.83E-19 2.45E-19 2.37E-19 5.39E-19 2.29E-19 2.34E-19 2.62E-19 3.00E-19
Ra-225 7.32E-20 8.30E-20 4.20E-20 2.98E-20 1.96E-19 4.59E-20 4.11E-20 5.90E-20 9.87E-20
Ra-226 1.71E-19 1.78E-19 1.54E-19 1.46E-19 3.81E-19 1.43E-19 1.46E-19 1.65E-19 1.88E-19
Ra-227 4.41E-18 4.55E-18 3.96E-18 3.86E-18 7.64E-18 3.71E-18 3.80E-18 4.21E-18 5.98E-18
Ra-228 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Actinium
Ac-223 1.14E-19 1.18E-19 1.02E-19 9.74E-20 2.30E-19 9.54E-20 9.72E-20 1.09E-19 1.28E-19
Ac-224 4.59E-18 4.77E-18 4.11E-18 3.84E-18 1.10E-17 3.84E-18 3.89E-18 4.43E-18 5.04E-18
Ac-225 3.46E-19 3.60E-19 3.09E-19 2.83E-19 8.89E-19 2.89E-19 2.91E-19 3.34E-19 3.82E-19
Ac-226 3.32E-18 3.45E-18 2.98E-18 2.84E-18 7.17E-18 2.78E-18 2.83E-18 3.19E-18 4.11E-18
Ac-227 2.72E-21 2.85E-21 2.40E-21 2.19E-21 7.10E-21 2.24E-21 2.26E-21 2.62E-21 3.18E-21
Ac-228 2.88E-17 2.94E-17 2.66E-17 2.65E-17 4.01E-17 2.49E-17 2.56E-17 2.76E-17 3.34E-17
Thorium
Th-226 1.80E-19 1.87E-19 1.62E-19 1.50E-19 4.46E-19 1.51E-19 1.52E-19 1.74E-19 1.99E-19
Th-227 2.77E-18 2.88E-18 2.48E-18 2.39E-18 5.47E-18 2.32E-18 2.37E-18 2.65E-18 3.06E-18
Th-228 4.33E-20 4.53E-20 3.84E-20 3.51E-20 1.11E-19 3.58E-20 3.61E-20 4.17E-20 4.99E-20
Th-229 1.76E-18 1.83E-18 1.57E-18 1.41E-18 4.79E-18 1.46E-18 1.47E-18 1.70E-18 1.94E-18
Th-230 6.80E-21 7.30E-21 5.65E-21 4.97E-21 1.89E-20 5.35E-21 5.32E-21 6.39E-21 9.70E-21
Th-231 2.06E-19 2.18E-19 1.72E-19 1.50E-19 6.02E-19 1.63E-19 1.61E-19 1.94E-19 2.56E-19
Th-232 3.06E-21 3.36E-21 2.35E-21 2.03E-21 8.47E-21 2.25E-21 2.23E-21 2.78E-21 5.54E-21
Th-234 1.34E-19 1.41E-19 1.17E-19 1.01E-19 4.18E-19 1.10E-19 1.09E-19 1.29E-19 1.50E-19
Protactinium
Pa-227 3.53E-19 3.68E-19 3.11E-19 2.70E-19 1.07E-18 2.91E-19 2.88E-19 3.41E-19 3.90E-19
Pa-228 3.28E-17 3.35E-17 3.02E-17 3.00E-17 4.82E-17 2.83E-17 2.91E-17 3.15E-17 3.61E-17
Pa-230 1.86E-17 1.91E-17 1.71E-17 1.69E-17 2.77E-17 1.60E-17 1.65E-17 1.79E-17 2.05E-17
Pa-231 1.01E-18 1.05E-18 8.99E-19 8.74E-19 1.83E-18 8.43E-19 8.62E-19 9.62E-19 1.13E-18
Pa-232 2.77E-17 2.84E-17 2.55E-17 2.54E-17 3.92E-17 2.38E-17 2.46E-17 2.66E-17 3.06E-17
Pa-233 5.40E-18 5.58E-18 4.84E-18 4.67E-18 1.03E-17 4.53E-18 4.62E-18 5.16E-18 5.93E-18
Pa-234m 4.38E-19 4.48E-19 4.02E-19 3.96E-19 6.70E-19 3.76E-19 3.87E-19 4.20E-19 8.19E-18
Pa-234 5.61E-17 5.74E-17 5.17E-17 5.13E-17 8.07E-17 4.83E-17 4.98E-17 5.38E-17 6.22E-17
Uranium
U-230 2.41E-20 2.55E-20 2.08E-20 1.92E-20 5.92E-20 1.95E-20 1.97E-20 2.29E-20 3.03E-20
U-231 1.28E-18 1.33E-18 1.13E-18 l.OOE-18 3.75E-18 1.06E-18 1.05E-18 1.24E-18 1.43E-18
U-232 5.32E-21 5.85E-21 3.99E-21 3.59E-21 1.31E-20 3.84E-21 3.82E-21 4.77E-21 9.71E-21
U-233 7.74E-21 8.20E-21 6.51E-21 6.11E-21 1.70E-20 6.15E-21 6.21E-21 7.24E-21 1.05E-20
U-234 2.52E-21 2.88E-21 1.63E-21 1.46E-21 5.94E-21 1.62E-21 1.60E-21 2.14E-21 5.98E-21
U-235 3.89E-18 4.05E-18 3.50E-18 3.32E-18 8.77E-18 3.26E-18 3.32E-18 3.75E-18 4.28E-18
U-236 1.46E-21 1.76E-21 7.44E-22 6.80E-22 2.99E-21 7.75E-22 7.69E-22 1.14E-21 4.61E-21
U-237 2.89E-18 3.02E-18 2.57E-18 2.37E-18 7.21E-18 2.40E-18 2.42E-18 2.78E-18 3.20E-18
U-238 8.19E-22 1.06E-21 2.34E-22 2.18E-22 1.32E-21 2.91E-22 2.86E-22 5.52E-22 3.55E-21
U-239 9.22E-19 9.64E-19 8.12E-19 7.24E-19 2.43E-18 7.63E-19 7.63E-19 8.84E-19 2.32E-18
U-240 1.04E-20 1.24E-20 4.38E-21 3.59E-21 2.16E-20 5.07E-21 4.68E-21 7.62E-21 2.67E-20
-------
162
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Neptunium
Np-232 3.47E-17 3.56E-17 3.18E-17 3.14E-17 5.26E-17 2.97E-17 3.06E-17 3.33E-17 3.83E-17
Np-233 1.78E-18 1.85E-18 1.59E-18 1.44E-18 4.89E-18 1.48E-18 1.49E-18 1.72E-18 1.95E-18
Np-234 4.25E-17 4.32E-17 3.96E-17 3.98E-17 5.65E-17 3.74E-17 3.84E-17 4.10E-17 4.65E-17
Np-235 1.93E-20 2.11E-20 1.43E-20 1.29E-20 4.95E-20 1.38E-20 1.37E-20 1.73E-20 3.39E-20
Np-23631 2.53E-18 2.63E-18 2.26E-18 2.06E-18 6.82E-18 2.11E-18 2.12E-18 2.45E-18 2.80E-18
Np-236b2 1.02E-18 1.05E-18 9.12E-19 8.33E-19 2.61E-18 8.51E-19 8.56E-19 9.83E-19 1.12E-18
Np-237 4.35E-19 4.57E-19 3.76E-19 3.33E-19 1.24E-18 3.53E-19 3.51E-19 4.16E-19 5.00E-19
Np-238 1.64E-17 1.68E-17 1.52E-17 1.52E-17 2.20E-17 1.42E-17 1.47E-17 1.58E-17 1.88E-17
Np-239 4.05E-18 4.20E-18 3.63E-18 3.42E-18 9.22E-18 3.39E-18 3.44E-18 3.90E-18 4.46E-18
Np-240m 9.96E-18 1.02E-17 9.08E-18 9.01E-18 1.43E-17 8.51E-18 8.76E-18 9.50E-18 1.57E-17
Np-240 3.82E-17 3.91E-17 3.50E-17 3.46E-17 5.61E-17 3.27E-17 3.37E-17 3.65E-17 4.23E-17
Plutonium
Pu-234 1.28E-18 1.32E-18 1.14E-18 1.02E-18 3.70E-18 1.06E-18 1.06E-18 1.24E-18 1.40E-18
Pu-235 1.82E-18 1.89E-18 1.63E-18 1.48E-18 4.87E-18 1.52E-18 1.53E-18 1.76E-18 2.00E-18
Pu-236 1.74E-21 2.15E-21 5.91E-22 5.94E-22 2.60E-21 7.00E-22 6.89E-22 1.20E-21 6.16E-21
Pu-237 8.94E-19 9.29E-19 7.94E-19 7.06E-19 2.59E-18 7.41E-19 7.39E-19 8.65E-19 9.88E-19
Pu-238 1.25E-21 1.60E-21 2.97E-22 3.29E-22 1.57E-21 4.02E-22 3.98E-22 8.07E-22 5.09E-21
Pu-239 1.75E-21 1.92E-21 1.25E-21 1.20E-21 3.27E-21 1.22E-21 1.22E-21 1.52E-21 3.31E-21
Pu-240 1.21E-21 1.55E-21 2.92E-22 3.17E-22 1.58E-21 3.94E-22 3.88E-22 7.84E-22 4.87E-21
Pu-241 3.27E-23 3.41E-23 2.88E-23 2.59E-23 9.12E-23 2.69E-23 2.69E-23 3.15E-23 3.76E-23
Pu-242 1.04E-21 1.32E-21 2.75E-22 2.92E-22 1.41E-21 3.56E-22 3.51E-22 6.85E-22 4.08E-21
Pu-243 4.37E-19 4.56E-19 3.85E-19 3.39E-19 1.25E-18 3.60E-19 3.59E-19 4.20E-19 4.89E-19
Pu-244 7.00E-22 9.29E-22 7.05E-23 1.06E-22 6.55E-22 1.50E-22 1.49E-22 4.04E-22 3.27E-21
Pu-245 1.20E-17 1.23E-17 1.09E-17 1.07E-17 1.89E-17 1.02E-17 1.05E-17 1.15E-17 1.36E-17
Pu-246 3.08E-18 3.20E-18 2.74E-18 2.57E-18 7.21E-18 2.56E-18 2.59E-18 2.96E-18 3.40E-18
Americium
Am-237 9.69E-18 l.OOE-17 8.73E-18 8.41E-18 1.86E-17 8.16E-18 8.33E-18 9.28E-18 1.06E-17
Am-238 2.57E-17 2.63E-17 2.37E-17 2.35E-17 3.73E-17 2.22E-17 2.29E-17 2.47E-17 2.84E-17
Am-239 5.26E-18 5.46E-18 4.71E-18 4.38E-18 1.27E-17 4.39E-18 4.44E-18 5.07E-18 5.78E-18
Am-240 2.99E-17 3.05E-17 2.76E-17 2.75E-17 4.21E-17 2.58E-17 2.67E-17 2.87E-17 3.30E-17
Am-241 2.53E-19 2.74E-19 2.01E-19 1.57E-19 8.43E-19 1.94E-19 1.86E-19 2.34E-19 3.10E-19
Am-242m 1.09E-20 1.23E-20 6.63E-21 6.13E-21 2.36E-20 6.75E-21 6.61E-21 9.00E-21 2.22E-20
Am-242 2.77E-19 2.88E-19 2.44E-19 2.19E-19 7.83E-19 2.28E-19 2.28E-19 2.67E-19 3.36E-19
Am-243 7.91E-19 8.36E-19 6.82E-19 5.68E-19 2.60E-18 6.43E-19 6.33E-19 7.60E-19 8.80E-19
Am-244m 3.59E-20 3.77E-20 3.04E-20 2.85E-20 7.76E-20 2.88E-20 2.90E-20 3.36E-20 2.62E-18
Am-244 2.34E-17 2.40E-17 2.15E-17 2.14E-17 3.35E-17 2.01E-17 2.07E-17 2.24E-17 2.60E-17
Am-245 7.80E-19 8.09E-19 6.99E-19 6.60E-19 1.76E-18 6.53E-19 6.63E-19 7.51E-19 1.13E-18
Am-246m 3.03E-17 3.10E-17 2.81E-17 2.81E-17 4.09E-17 2.63E-17 2.72E-17 2.92E-17 3.55E-17
Am-246 1.98E-17 2.03E-17 1.80E-17 1.77E-17 3.08E-17 1.68E-17 1.73E-17 1.89E-17 2.28E-17
Curium
Cm-238 1.49E-18 1.55E-18 1.34E-18 1.20E-18 4.22E-18 1.24E-18 1.25E-18 1.45E-18 1.63E-18
Cm-240 1.46E-21 1.88E-21 1.56E-22 2.26E-22 1.41E-21 3.39E-22 3.19E-22 8.41E-22 5.87E-21
Cm-241 1.37E-17 1.41E-17 1.23E-17 1.20E-17 2.36E-17 1.15E-17 1.18E-17 1.30E-17 1.50E-17
Cm-242 1.47E-21 1.86E-21 2.80E-22 3.38E-22 1.60E-21 4.36E-22 4.18E-22 9.07E-22 5.48E-21
Cm-243 3.14E-18 3.26E-18 2.81E-18 2.66E-18 7.02E-18 2.63E-18 2.67E-18 3.02E-18 3.45E-18
Cm-244 1.19E-21 1.54E-21 1.05E-22 1.71E-22 1.06E-21 2.59E-22 2.44E-22 6.74E-22 4.89E-21
Cm-245 1.86E-18 1.94E-18 1.67E-18 1.51E-18 5.08E-18 1.55E-18 1.56E-18 1.80E-18 2.05E-18
Cm-246 1.08E-21 1.40E-21 1.11E-22 1.65E-22 1.03E-21 2.48E-22 2.33E-22 6.22E-22 4.38E-21
Cm-247 9.25E-18 9.52E-18 8.31E-18 8.14E-18 1.51E-17 7.78E-18 7.98E-18 8.80E-18 1.01E-17
Cm-248 8.22E-22 1.06E-21 8.01E-23 1.23E-22 7.65E-22 1.85E-22 1.74E-22 4.70E-22 3.35E-21
Cm-249 5.79E-19 5.93E-19 5.24E-19 5.17E-19 8.74E-19 4.91E-19 5.05E-19 5.51E-19 9.60E-19
Cm-250 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Berkelium
Bk-245 5.35E-18 5.55E-18 4.80E-18 4.48E-18 1.26E-17 4.47E-18 4.53E-18 5.16E-18 5.87E-18
Bk-246 2.75E-17 2.82E-17 2.54E-17 2.51E-17 3.98E-17 2.37E-17 2.44E-17 2.64E-17 3.04E-17
Bk-247 2.35E-18 2.44E-18 2.10E-18 1.94E-18 5.69E-18 1.96E-18 1.98E-18 2.26E-18 2.57E-18
Bk-249 3.08E-23 3.48E-23 1.76E-23 1.41E-23 7.54E-23 1.89E-23 1.75E-23 2.48E-23 4.98E-23
Bk-250 2.65E-17 2.70E-17 2.46E-17 2.46E-17 3.54E-17 2.29E-17 2.37E-17 2.54E-17 2.97E-17
1 TK = 1.15E5 y
2 TK = 22.5 h
-------
163
Table III.6. Dose Coefficients for Exposure to Soil Contaminated to a Depth of 15 cm
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Californium
Cf-244 1.72E-21 2.17E-21 1.55E-22 2.47E-22 1.56E-21 4.06E-22 3.60E-22 9.70E-22 6.02E-21
Cf-246 1.53E-21 1.85E-21 4.30E-22 4.59E-22 2.07E-21 5.78E-22 5.43E-22 1.01E-21 4.49E-21
Cf-248 1.18E-21 1.49E-21 1.11E-22 1.72E-22 1.09E-21 2.83E-22 2.50E-22 6.67E-22 4.11E-21
Cf-249 9.66E-18 9.96E-18 8.67E-18 8.48E-18 1.62E-17 8.12E-18 8.33E-18 9.19E-18 1.06E-17
Cf-250 1.12E-21 1.41E-21 1.05E-22 1.63E-22 1.03E-21 2.68E-22 2.38E-22 6.34E-22 3.91E-21
Cf-251 2.86E-18 2.98E-18 2.56E-18 2.39E-18 6.89E-18 2.39E-18 2.42E-18 2.76E-18 3.16E-18
Cf-252 1.42E-21 1.71E-21 4.08E-22 4.32E-22 1.95E-21 5.43E-22 5.10E-22 9.40E-22 4.12E-21
Cf-253 4.62E-22 5.03E-22 3.37E-22 2.83E-22 1.28E-21 3.33E-22 3.21E-22 4.10E-22 6.27E-22
Cf-254 3.65E-24 4.60E-24 3.45E-25 5.33E-25 3.37E-24 8.76E-25 7.77E-25 2.07E-24 1.27E-23
Einsteinium
Es-250 1.10E-17 1.12E-17 1.01E-17 9.97E-18 1.73E-17 9.45E-18 9.73E-18 1.06E-17 1.21E-17
Es-251 1.98E-18 2.06E-18 1.77E-18 1.62E-18 5.30E-18 1.65E-18 1.66E-18 1.92E-18 2.18E-18
Es-253 9.59E-21 1.01E-20 7.93E-21 7.72E-21 1.65E-20 7.56E-21 7.67E-21 8.81E-21 1.22E-20
Es-254m 1.40E-17 1.43E-17 1.27E-17 1.26E-17 2.00E-17 1.19E-17 1.23E-17 1.33E-17 1.57E-17
Es-254 7.63E-20 8.30E-20 5.49E-20 5.10E-20 1.58E-19 5.41E-20 5.34E-20 6.66E-20 1.18E-19
Fermium
Fm-252 1.27E-21 1.57E-21 1.34E-22 1.92E-22 1.23E-21 3.29E-22 2.83E-22 7.24E-22 3.93E-21
Fm-253 1.74E-18 1.80E-18 1.55E-18 1.43E-18 4.46E-18 1.45E-18 1.46E-18 1.68E-18 1.90E-18
Fm-254 1.89E-21 2.23E-21 6.27E-22 6.31E-22 2.93E-21 8.01E-22 7.45E-22 1.29E-21 4.76E-21
Fm-255 3.77E-20 4.18E-20 2.55E-20 2.26E-20 9.37E-20 2.53E-20 2.48E-20 3.25E-20 6.69E-20
Fm-257 2.34E-18 2.43E-18 2.10E-18 1.94E-18 5.81E-18 1.95E-18 1.97E-18 2.26E-18 2.58E-18
Mendelevium
Md-257 2.69E-18 2.78E-18 2.41E-18 2.27E-18 5.92E-18 2.25E-18 2.28E-18 2.58E-18 2.95E-18
Md-258 1.55E-20 1.76E-20 8.15E-21 7.22E-21 3.51E-20 8.84E-21 8.40E-21 1.22E-20 2.96E-20
-------
TABLE III.7
Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Explanation of Entries
For each radionuclide, values for the organ dose equivalent coefficients hT, and the effective
dose equivalent coefficient hE, based upon the weighting factors of Table II. 1, are given in
SI units. The coefficients are for soil at a density of 1.6 x 103 kg m"3.
hT: The tissue dose equivalent coefficient for organ or tissue T (Sv per Bq s m"3), i.e., the dose
equivalent per unit time-integrated exposure to a radionuclide.
hE: The effective dose equivalent coefficient (Sv per Bq s m"3), i.e., the effective dose equivalent
per unit time-integrated exposure to a radionuclide:
Note that skin is not included in the summation.
To convert to a source per unit mass basis (Sv per Bq s kg"1), multiply table entries by
1.6 x 103(kgm-3).
To convert to conventional units (mrem per \i.Ci y cm"3), multiply table entries by
1.168 x 1023.
To convert to conventional units for a source per unit mass basis (mrem per \iCi y g"1),
multiply table entries by 1.868 x 1023.
To convert 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 kg m"3.
165
-------
166
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Hydrogen
H-3 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Beryllium
Be-7 1.63E-18 1.67E-18 1.46E-18 1.43E-18 2.52E-18 1.36E-18 1.40E-18 1.54E-18 1.78E-18
Be-10 6.12E-21 6.45E-21 5.17E-21 4.63E-21 1.60E-20 4.90E-21 4.87E-21 5.76E-21 3.17E-20
Carbon
C-ll 3.40E-17 3.48E-17 3.04E-17 3.00E-17 5.15E-17 2.83E-17 2.93E-17 3.21E-17 3.80E-17
C-14 8.60E-23 9.61E-23 5.41E-23 4.28E-23 2.34E-22 5.64E-23 5.26E-23 7.20E-23 1.27E-22
Nitrogen
N-13 3.41E-17 3.49E-17 3.04E-17 3.00E-17 5.16E-17 2.84E-17 2.93E-17 3.22E-17 3.91E-17
Oxygen
0-15 3.41E-17 3.49E-17 3.05E-17 3.00E-17 5.17E-17 2.84E-17 2.94E-17 3.22E-17 4.29E-17
Fluorine
F-18 3.41E-17 3.49E-17 3.04E-17 3.00E-17 5.16E-17 2.84E-17 2.93E-17 3.22E-17 3.73E-17
Neon
Ne-19 3.42E-17 3.50E-17 3.05E-17 3.01E-17 5.19E-17 2.85E-17 2.94E-17 3.23E-17 4.72E-17
Sodium
Na-22 7.69E-17 7.84E-17 7.00E-17 6.98E-17 1.07E-16 6.54E-17 6.76E-17 7.32E-17 8.41E-17
Na-24 1.59E-16 1.59E-16 1.47E-16 1.49E-16 1.97E-16 1.40E-16 1.43E-16 1.52E-16 1.73E-16
Magnesium
Mg-28 4.84E-17 4.92E-17 4.43E-17 4.43E-17 6.49E-17 4.14E-17 4.29E-17 4.62E-17 5.30E-17
Aluminum
Al-26 9.81E-17 9.88E-17 8.93E-17 8.97E-17 1.30E-16 8.44E-17 8.64E-17 9.32E-17 1.08E-16
Al-28 6.80E-17 6.81E-17 6.24E-17 6.31E-17 8.49E-17 5.93E-17 6.05E-17 6.47E-17 8.83E-17
Silicon
Si-31 7.96E-20 8.20E-20 7.12E-20 6.88E-20 1.45E-19 6.67E-20 6.82E-20 7.58E-20 3.63E-18
Si-32 2.16E-22 2.37E-22 1.53E-22 1.25E-22 6.16E-22 1.54E-22 1.46E-22 1.90E-22 2.89E-22
Phosphorus
P-30 3.44E-17 3.52E-17 3.07E-17 3.03E-17 5.22E-17 2.87E-17 2.96E-17 3.25E-17 5.69E-17
P-32 6.64E-20 6.90E-20 5.85E-20 5.53E-20 1.40E-19 5.48E-20 5.56E-20 6.31E-20 5.20E-18
P-33 3.54E-22 3.84E-22 2.62E-22 2.17E-22 1.01E-21 2.59E-22 2.49E-22 3.16E-22 4.55E-22
Sulphur
S-35 9.42E-23 1.05E-22 6.08E-23 4.84E-23 2.59E-22 6.29E-23 5.89E-23 7.97E-23 1.36E-22
Chlorine
Cl-36 1.36E-20 1.42E-20 1.18E-20 1.11E-20 2.91E-20 1.11E-20 1.12E-20 1.28E-20 1.80E-19
Cl-38 5.78E-17 5.77E-17 5.30E-17 5.37E-17 7.16E-17 5.05E-17 5.15E-17 5.50E-17 8.34E-17
Cl-39 5.21E-17 5.28E-17 4.78E-17 4.79E-17 6.95E-17 4.49E-17 4.63E-17 4.97E-17 6.43E-17
Argon
Ar-37
Ar-39
Ar-41
0
4
4
.0
. 92E
.68E
-21
-17
0
5
4
.0
.19E
. 74E
-21
-17
0
4
4
.0
. 14E
.30E
-21
-17
0
3
4
.0
.70E
.32E
-21
-17
0
1
6
.0
.29E
.08E
-20
-17
0
3
4
.0
.93E
.03E
-21
-17
0
3
4
.0
.90E
.17E
-21
-17
0
4
4
.0
. 62E
.47E
-21
-17
0
2
5
.0
.41E
.29E
-20
-17
Potassium
K-38
K-40
K-42
K-43
K-44
K-45
Calcium
Ca-41
Ca-45
Ca-47
Ca-49
Scandium
Sc-43
Sc-44m
Sc-44
Sc-46
Sc-47
Sc-48
Sc-49
1
5
1
3
8
6
0
3
3
1
3
8
7
7
2
1
1
.18E
. 84E
.06E
.22E
.61E
.97E
.0
. 74E
.85E
.26E
. 62E
.71E
.42E
.09E
.79E
.20E
.35E
-16
-18
-17
-17
-17
-17
-22
-17
-16
-17
-18
-17
-17
-18
-16
-19
1
5
1
3
8
6
0
4
3
1
3
9
7
7
2
1
1
.19E
.89E
.07E
.30E
.66E
.99E
.0
.06E
.91E
.25E
.71E
.OOE
.58E
.25E
.90E
.22E
.39E
-16
-18
-17
-17
-17
-17
-22
-17
-16
-17
-18
-17
-17
-18
-16
-19
1
5
9
2
7
6
0
2
3
1
3
7
6
6
2
1
1
.08E
.36E
.76E
.89E
.95E
.39E
.0
.79E
. 54E
.17E
.23E
. 84E
.75E
. 52E
.51E
.IDE
.21E
-16
-18
-18
-17
-17
-17
-22
-17
-16
-17
-18
-17
-17
-18
-16
-19
1
5
9
2
8
6
0
2
3
1
3
7
6
6
2
1
1
.09E
.40E
.83E
.85E
. 04E
.44E
.0
.31E
.55E
.19E
.18E
.66E
. 72E
. 52E
.37E
.IDE
.17E
-16
-18
-18
-17
-17
-17
-22
-17
-16
-17
-18
-17
-17
-18
-16
-19
1
7
1
4
1
9
0
1
5
1
5
1
1
9
6
1
2
.55E
.48E
.37E
. 94E
.09E
.06E
.0
.07E
.05E
. 52E
.61E
. 54E
. 04E
.57E
.56E
.59E
.44E
-16
-18
-17
-17
-16
-17
-21
-17
-16
-17
-17
-16
-17
-18
-16
-19
1
5
9
2
7
6
0
2
3
1
3
7
6
6
2
1
1
. 02E
.05E
.21E
.69E
. 54E
.06E
.0
.75E
.31E
. 12E
.DIE
.31E
.29E
.06E
.34E
.03E
. 14E
-16
-18
-18
-17
-17
-17
-22
-17
-16
-17
-18
-17
-17
-18
-16
-19
1
5
9
2
7
6
0
2
3
1
3
7
6
6
2
1
1
.05E
.19E
.46E
.78E
.73E
.19E
.0
. 64E
.43E
. 14E
.HE
. 52E
. 52E
.31E
.38E
.06E
.16E
-16
-18
-18
-17
-17
-17
-22
-17
-16
-17
-18
-17
-17
-18
-16
-19
1
5
1
3
8
6
0
3
3
1
3
8
7
6
2
1
1
.13E
.57E
.DIE
.05E
.24E
. 64E
.0
.35E
.68E
.21E
.42E
.32E
.07E
.79E
.70E
. 14E
.29E
-16
-18
-17
-17
-17
-17
-22
-17
-16
-17
-18
-17
-17
-18
-16
-19
1
9
3
3
1
8
0
4
4
1
4
9
8
7
3
1
7
.42E
.33E
.IDE
.58E
.13E
. 52E
.0
.79E
.35E
.41E
. 02E
.57E
.51E
.83E
.07E
.32E
. 54E
-16
-18
-17
-17
-16
-17
-22
-17
-16
-17
-18
-17
-17
-18
-16
-18
-------
167
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose Coefficient hT (Sv per
itr3)
Nuclide
Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Titanium
Ti-44 2
Ti-45 2
Vanadium
V-47
V-48
V-49
Chromium
Cr-48
Cr-49
Cr-51
Manganese
OOE-18 2.11E-18 1.73E-18 1.43E-18 6.62E-18 1.63E-18 1.60E-18 1.92E-18 2.20E-18
91E-17 2.98E-17 2.59E-17 2.56E-17 4.40E-17 2.42E-17 2.50E-17 2.75E-17 3.28E-17
33E-17 3.41E-17 2.98E-17 2.93E-17 5.04E-17 2.78E-17 2.87E-17 3.15E-17 4.34E-17
03E-16 1.05E-16 9.46E-17 9.46E-17 1.40E-16 8.84E-17 9.16E-17 9.87E-17 1.13E-16
0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
25E-17 1.29E-17 1.12E-17 1.07E-17 2.45E-17 1.04E-17 1.06E-17 1.19E-17 1.37E-17
39E-17 3.48E-17 3.03E-17 2.97E-17 5.41E-17 2.82E-17 2.91E-17 3.21E-17 4.07E-17
82E-19 1.01E-18 8.77E-19 8.57E-19 1.72E-18 8.18E-19 8.42E-19 9.34E-19 1.08E-18
3.42E-17 2.98E-17 2.94E-17 5.06E-17 2.78E-17 2.88E-17 3.16E-17 4.60E-17
8.70E-17 7.79E-17 7.78E-17 1.18E-16 7.30E-17 7.53E-17 8.14E-17 1.07E-16
1.25E-16 1.13E-16 1.13E-16 1.66E-16 1.05E-16 1.09E-16 1.17E-16 1.35E-16
0.0 0.0 0.0 0.0 0.0 0.0 0.0
2.96E-17 2.64E-17 2.63E-17 4.01E-17 2.45E-17 2.56E-17 2.76E-17 3.20E-17
6.27E-17 5.69E-17 5.71E-17 8.11E-17 5.35E-17 5.51E-17 5.92E-17 7.60E-17
2.41E-17 2.10E-17 2.06E-17 3.90E-17 1.96E-17 2.02E-17 2.23E-17 2.59E-17
0.0 0.0 0.0 0.0 0.0 0.0 0.0
4.35E-17 3.93E-17 3.94E-17 5.64E-17 3.67E-17 3.81E-17 4.09E-17 4.69E-17
8.20E-23 4.37E-23 3.43E-23 1.93E-22 4.64E-23 4.29E-23 6.00E-23 1.11E-22
Mn-51
Mn-52m
Mn-52
Mn-53
Mn-54
Mn-56
Iron
Fe-52
Fe-55
Fe-59
Fe-60
Cobalt
Co-55
Co-56
Co-57
Co-58m
Co-58
Co-60m
Co-60
Co-61
Co-62m
Nickel
Ni-56
Ni-57
Ni-59
Ni-63
Ni-65
Ni-66
Copper
Cu-60
Cu-61
Cu-62
Cu-64
Cu-66
Cu-67
Zinc
Zn-62
Zn-63
Zn-65
Zn-69m
Zn-69
Zn-71m
Zn-72
Gallium
Ga-65
Ga-66
Ga-67
Ga-68
Ga-70
Ga-72
Ga-73
3
8
1
0
2
6
2
0
4
7
6
1
2
2
3
1
9
1
9
5
6
0
0
2
2
1
2
3
6
3
2
1
3
2
1
1
5
3
3
9
4
3
3
9
9
.34E
.57E
.23E
.0
.89E
.20E
.35E
.0
.27E
.29E
.90E
.32E
.77E
.26E
.35E
.38E
.08E
.93E
.89E
.79E
.96E
.0
.0
.DIE
.60E
.42E
.77E
.38E
.34E
.17E
.96E
.43E
.71E
.07E
.36E
.28E
.20E
. 62E
.85E
.23E
. 14E
.19E
.21E
.99E
.59E
-17
-17
-16
-17
-17
-17
-17
-23
-17
-16
-18
-23
-17
-19
-17
-18
-17
-17
-17
-17
-22
-16
-17
-17
-18
-18
-18
-17
-17
-17
-17
-20
-17
-18
-17
-17
-18
-17
-19
-17
-18
3
8
1
0
2
6
2
0
4
8
7
1
2
2
3
1
9
2
1
5
7
0
0
2
2
1
2
3
6
3
3
1
3
2
1
1
5
3
3
9
4
3
3
1
9
.42E
.70E
.25E
.0
.96E
.27E
.41E
.0
.35E
.20E
. 04E
.33E
.87E
.69E
.43E
.41E
.22E
.DIE
.OOE
.93E
. 04E
.0
.0
. 04E
.83E
.44E
.83E
.47E
.49E
.24E
.08E
.46E
.80E
.HE
.40E
.34E
.32E
.76E
. 94E
.29E
.29E
.26E
.29E
.DIE
.91E
•17 6.26E-
•16 1.21E-
•18 2.49E-
•23 4.07E-
•17 3.05E-
•19 1.26E-
•17 8.36E-
•18 1.72E-
•16 9.10E-
17 6.23E
16 1.22E
18 2.28E
24 4.23E
17 3.03E
19 1.24E
17 8.39E
18 1.59E
17 9.15E
-17 9.
76E-
71E-
32E-
85E-
73E-
08E-
18E-
26E-
28E-
17 5.84E-
16 1.14E-
18 2.32E-
23 7.90E-
17 2.83E-
19 1.18E-
16 7.82E-
18 1.61E-
16 8.54E-
17 6.05E-
16 1.17E-
18 2.33E-
24 6.46E-
17 2.95E-
19 1.21E-
17 8.09E-
18 1.63E-
17 8.82E-
17 6.56E
16 1.26E
18 2.68E
24 1.37E
17 3.19E
19 1.32E
17 8.68E
18 1.85E
17 9.45E
17 7.79E-17
16 1.43E-16
18 3.01E-18
23 4.57E-23
17 3.70E-17
19 1.61E-19
17 9.94E-17
18 3.95E-18
17 1.20E-16
5.93E-17 5.26E-17 5.22E-17 8.59E-17 4.90E-17 5.08E-17 5.52E-17 6.36E-17
7.04E-17 6.36E-17 6.38E-17 9.25E-17 5.99E-17 6.16E-17 6.63E-17 7.57E-17
0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0
2.04E-17 1.85E-17 1.86E-17 2.62E-17 1.73E-17 1.79E-17 1.92E-17 2.71E-17
2.83E-22 1.88E-22 1.55E-22 7.42E-22 1.87E-22 1.79E-22 2.30E-22 3.40E-22
1.44E-16 1.30E-16 1.30E-16 1.88E-16 1.22E-16 1.26E-16 1.35E-16 1.63E-16
2.83E-17 2.48E-17 2.45E-17 4.17E-17 2.31E-17 2.39E-17 2.62E-17 3.15E-17
3.47E-17 3.02E-17 2.98E-17 5.13E-17 2.82E-17 2.91E-17 3.20E-17 5.34E-17
6.49E-18 5.67E-18 5.59E-18 9.54E-18 5.29E-18 5.46E-18 5.99E-18 6.95E-18
3.24E-18 2.91E-18 2.90E-18 4.36E-18 2.70E-18 2.81E-18 3.03E-18 1.56E-17
3.08E-18 2.65E-18 2.50E-18 6.79E-18 2.47E-18 2.51E-18 2.85E-18 3.25E-18
1.46E-17 1.28E-17 1.26E-17 2.16E-17 1.19E-17 1.23E-17 1.35E-17 1.57E-17
3.80E-17 3.32E-17 3.28E-17 5.54E-17 3.10E-17 3.20E-17 3.51E-17 5.01E-17
2.11E-17 1.90E-17 1.91E-17 2.76E-17 1.77E-17 1.84E-17 1.98E-17 2.28E-17
1.40E-17 1.21E-17 1.19E-17 2.15E-17 1.13E-17 1.17E-17 1.29E-17 1.49E-17
1.34E-20 1.10E-20 1.01E-20 3.08E-20 1.04E-20 1.04E-20 1.21E-20 4.94E-19
5.32E-17 4.66E-17 4.61E-17 7.84E-17 4.35E-17 4.50E-17 4.92E-17 6.00E-17
3.76E-18 3.26E-18 3.04E-18 8.85E-18 3.03E-18 3.07E-18 3.50E-18 3.96E-18
3.94E-17 3.45E-17 3.40E-17 5.98E-17 3.22E-17 3.32E-17 3.65E-17 4.98E-17
3.49E-17 8.57E-17 1.20E-16 8.05E-17 8.25E-17 8.83E-17 1.13E-16
4.29E-18 3.71E-18 3.53E-18 8.69E-18 3.46E-18 3.53E-18 3.97E-18 4.54E-18
3.26E-17 2.85E-17 2.81E-17 4.80E-17 2.66E-17 2.75E-17 3.01E-17 4.13E-17
3.29E-19 2.93E-19 2.89E-19 4.89E-19 2.73E-19 2.82E-19 3.07E-19 4.80E-18
1.01E-16 9.16E-17 9.22E-17 1.30E-16 8.64E-17 8.88E-17 9.53E-17 1.12E-16
9.91E-18 8.58E-18 8.38E-18 1.69E-17 8.OOE-18 8.23E-18 9.14E-18 1.22E-17
-------
168
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Germanium
Ge-66 2.18E-17 2.24E-17 1.95E-17 1.92E-17 3.48E-17 1.82E-17 1.88E-17 2.07E-17 2.40E-17
Ge-67 4.72E-17 4.83E-17 4.25E-17 4.19E-17 7.19E-17 3.97E-17 4.09E-17 4.48E-17 6.85E-17
Ge-68 5.68E-24 1.48E-23 1.35E-26 3.75E-25 2.28E-24 5.32E-25 1.65E-24 4.26E-24 4.59E-22
Ge-69 3.01E-17 3.07E-17 2.73E-17 2.71E-17 4.26E-17 2.54E-17 2.64E-17 2.86E-17 3.37E-17
Ge-71 5.75E-24 1.49E-23 1.36E-26 3.80E-25 2.31E-24 5.39E-25 1.67E-24 4.31E-24 4.65E-22
Ge-75 1.05E-18 1.09E-18 9.43E-19 9.16E-19 1.98E-18 8.80E-19 9.03E-19 1.01E-18 2.54E-18
Ge-77 3.63E-17 3.71E-17 3.28E-17 3.25E-17 5.59E-17 3.07E-17 3.16E-17 3.46E-17 4.49E-17
Ge-78 8.46E-18 8.76E-18 7.57E-18 7.37E-18 1.57E-17 7.06E-18 7.25E-18 8.08E-18 9.38E-18
Arsenic
As-69 3.39E-17 3.47E-17 3.02E-17 2.98E-17 5.17E-17 2.82E-17 2.91E-17 3.20E-17 5.32E-17
As-70 1.46E-16 1.48E-16 1.33E-16 1.33E-16 1.98E-16 1.24E-16 1.28E-16 1.39E-16 1.68E-16
As-71 1.81E-17 1.86E-17 1.62E-17 1.59E-17 3.01E-17 1.51E-17 1.56E-17 1.72E-17 1.99E-17
As-72 6.18E-17 6.31E-17 5.58E-17 5.55E-17 8.87E-17 5.21E-17 5.39E-17 5.87E-17 7.97E-17
As-73 5.50E-20 6.02E-20 4.26E-20 3.19E-20 1.85E-19 4.19E-20 3.94E-20 5.04E-20 6.56E-20
As-74 2.55E-17 2.61E-17 2.29E-17 2.26E-17 3.78E-17 2.13E-17 2.21E-17 2.42E-17 2.89E-17
As-76 1.51E-17 1.54E-17 1.36E-17 1.36E-17 2.15E-17 1.27E-17 1.32E-17 1.43E-17 2.89E-17
As-77 2.75E-19 2.84E-19 2.46E-19 2.39E-19 4.98E-19 2.29E-19 2.35E-19 2.62E-19 3.78E-19
As-78 4.52E-17 4.59E-17 4.13E-17 4.13E-17 6.10E-17 3.87E-17 3.99E-17 4.31E-17 6.75E-17
Selenium
Se-70 3.23E-17 3.31E-17 2.88E-17 2.83E-17 5.04E-17 2.69E-17 2.77E-17 3.05E-17 3.80E-17
Se-73m 8.09E-18 8.28E-18 7.23E-18 7.13E-18 1.23E-17 6.74E-18 6.96E-18 7.65E-18 1.01E-17
Se-73 3.46E-17 3.56E-17 3.09E-17 3.03E-17 5.55E-17 2.88E-17 2.97E-17 3.28E-17 3.97E-17
Se-75 1.11E-17 1.15E-17 9.94E-18 9.56E-18 2.23E-17 9.27E-18 9.48E-18 1.06E-17 1.22E-17
Se-77m 2.20E-18 2.29E-18 1.98E-18 1.87E-18 5.12E-18 1.84E-18 1.87E-18 2.13E-18 2.41E-18
Se-79 1.18E-22 1.31E-22 7.62E-23 6.05E-23 3.25E-22 7.87E-23 7.37E-23 9.96E-23 1.69E-22
Se-81m 2.81E-19 2.91E-19 2.51E-19 2.25E-19 8.05E-19 2.34E-19 2.34E-19 2.72E-19 3.11E-19
Se-81 3.51E-19 3.62E-19 3.15E-19 3.08E-19 5.94E-19 2.94E-19 3.03E-19 3.35E-19 4.30E-18
Se-83 8.58E-17 8.72E-17 7.81E-17 7.80E-17 1.19E-16 7.33E-17 7.56E-17 8.17E-17 9.66E-17
Bromine
Br-74m 1.48E-16 1.50E-16 1.35E-16 1.36E-16 2.00E-16 1.28E-16 1.31E-16 1.41E-16 1.80E-16
Br-74 1.70E-16 1.71E-16 1.57E-16 1.58E-16 2.22E-16 1.49E-16 1.52E-16 1.63E-16 1.96E-16
Br-75 3.98E-17 4.08E-17 3.56E-17 3.50E-17 6.29E-17 3.32E-17 3.43E-17 3.77E-17 4.73E-17
Br-76 9.56E-17 9.66E-17 8.72E-17 8.75E-17 1.28E-16 8.23E-17 8.44E-17 9.10E-17 1.12E-16
Br-77 1.02E-17 1.05E-17 9.16E-18 9.00E-18 1.64E-17 8.54E-18 8.81E-18 9.70E-18 1.12E-17
Br-80m 8.04E-20 9.21E-20 4.11E-20 2.91E-20 1.95E-19 4.70E-20 4.16E-20 6.21E-20 1.20E-19
Br-80 2.70E-18 2.76E-18 2.42E-18 2.40E-18 3.97E-18 2.26E-18 2.34E-18 2.55E-18 3.83E-18
Br-82 9.22E-17 9.42E-17 8.40E-17 8.37E-17 1.28E-16 7.83E-17 8.12E-17 8.78E-17 1.01E-16
Br-83 2.64E-19 2.71E-19 2.36E-19 2.32E-19 4.08E-19 2.20E-19 2.27E-19 2.50E-19 7.98E-19
Br-84 6.79E-17 6.82E-17 6.27E-17 6.34E-17 8.62E-17 5.95E-17 6.09E-17 6.50E-17 8.91E-17
Krypton
Kr-74 3.76E-17 3.85E-17 3.36E-17 3.29E-17 6.05E-17 3.13E-17 3.23E-17 3.56E-17 4.84E-17
Kr-76 1.32E-17 1.36E-17 1.18E-17 1.16E-17 2.28E-17 1.10E-17 1.13E-17 1.26E-17 1.45E-17
Kr-77 3.23E-17 3.31E-17 2.89E-17 2.82E-17 5.31E-17 2.69E-17 2.77E-17 3.06E-17 4.04E-17
Kr-79 8.22E-18 8.44E-18 7.37E-18 7.26E-18 1.30E-17 6.88E-18 7.10E-18 7.80E-18 9.02E-18
Kr-81m 3.53E-18 3.68E-18 3.17E-18 3.03E-18 7.64E-18 2.96E-18 3.02E-18 3.40E-18 3.89E-18
Kr-81 1.68E-19 1.74E-19 1.50E-19 1.46E-19 3.12E-19 1.40E-19 1.44E-19 1.60E-19 1.93E-19
Kr-83m 2.57E-22 4.21E-22 2.74E-23 3.51E-23 2.24E-22 4.79E-23 6.28E-23 1.62E-22 3.47E-21
Kr-85m 4.22E-18 4.37E-18 3.79E-18 3.59E-18 9.34E-18 3.53E-18 3.59E-18 4.06E-18 4.86E-18
Kr-85 8.10E-20 8.31E-20 7.20E-20 7.05E-20 1.30E-19 6.73E-20 6.93E-20 7.65E-20 2.03E-19
Kr-87 2.95E-17 2.97E-17 2.70E-17 2.71E-17 3.94E-17 2.56E-17 2.61E-17 2.81E-17 4.94E-17
Kr-88 7.42E-17 7.43E-17 6.82E-17 6.89E-17 9.39E-17 6.49E-17 6.62E-17 7.08E-17 8.20E-17
Rubidium
Rb-79 4.46E-17 4.58E-17 4.00E-17 3.94E-17 6.92E-17 3.73E-17 3.85E-17 4.23E-17 5.65E-17
Rb-80 4.24E-17 4.34E-17 3.79E-17 3.74E-17 6.38E-17 3.54E-17 3.65E-17 4.01E-17 7.72E-17
Rb-81m 7.41E-20 7.79E-20 6.47E-20 5.57E-20 2.32E-19 6.06E-20 6.01E-20 7.15E-20 9.07E-20
Rb-81 1.98E-17 2.03E-17 1.77E-17 1.74E-17 3.23E-17 1.65E-17 1.70E-17 1.88E-17 2.21E-17
Rb-82m 1.01E-16 1.03E-16 9.22E-17 9.18E-17 1.41E-16 8.59E-17 8.91E-17 9.64E-17 1.11E-16
Rb-82 3.69E-17 3.78E-17 3.31E-17 3.26E-17 5.55E-17 3.08E-17 3.19E-17 3.49E-17 5.95E-17
Rb-83 1.66E-17 1.70E-17 1.49E-17 1.47E-17 2.49E-17 1.39E-17 1.43E-17 1.57E-17 1.82E-17
Rb-84 3.15E-17 3.22E-17 2.86E-17 2.84E-17 4.45E-17 2.66E-17 2.76E-17 3.00E-17 3.49E-17
Rb-86 3.42E-18 3.50E-18 3.15E-18 3.15E-18 4.62E-18 2.93E-18 3.05E-18 3.28E-18 9.00E-18
Rb-87 8.27E-22 8.90E-22 6.42E-22 5.42E-22 2.37E-21 6.25E-22 6.06E-22 7.54E-22 1.02E-21
-------
169
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Rubidium, cont'd
Rb-88 2.45E-17 2.46E-17 2.25E-17 2.27E-17 3.13E-17 2.13E-17 2.18E-17 2.34E-17 5.78E-17
Rb-89 7.66E-17 7.74E-17 7.05E-17 7.09E-17 9.90E-17 6.63E-17 6.83E-17 7.32E-17 9.48E-17
Strontium
Sr-80 1.13E-21 1.90E-21 6.86E-24 9.87E-23 5.68E-22 8.60E-23 1.86E-22 6.55E-22 1.48E-20
Sr-81 4.55E-17 4.66E-17 4.08E-17 4.01E-17 7.14E-17 3.80E-17 3.92E-17 4.31E-17 6.12E-17
Sr-82 1.11E-21 1.87E-21 6.74E-24 9.71E-23 5.58E-22 8.46E-23 1.83E-22 6.44E-22 1.45E-20
Sr-83 2.70E-17 2.76E-17 2.44E-17 2.43E-17 3.91E-17 2.28E-17 2.36E-17 2.57E-17 3.01E-17
Sr-85m 6.29E-18 6.54E-18 5.65E-18 5.45E-18 1.27E-17 5.26E-18 5.39E-18 6.04E-18 6.92E-18
Sr-85 1.68E-17 1.72E-17 1.50E-17 1.48E-17 2.54E-17 1.40E-17 1.45E-17 1.59E-17 1.84E-17
Sr-87m 1.03E-17 1.05E-17 9.13E-18 8.96E-18 1.68E-17 8.53E-18 8.78E-18 9.71E-18 1.12E-17
Sr-89 5.12E-20 5.32E-20 4.50E-20 4.25E-20 1.08E-19 4.22E-20 4.29E-20 4.86E-20 3.70E-18
Sr-90 4.02E-21 4.25E-21 3.37E-21 3.00E-21 1.06E-20 3.21E-21 3.17E-21 3.77E-21 1.50E-20
Sr-91 2.44E-17 2.50E-17 2.24E-17 2.23E-17 3.37E-17 2.08E-17 2.16E-17 2.33E-17 3.24E-17
Sr-92 4.90E-17 4.96E-17 4.51E-17 4.53E-17 6.35E-17 4.23E-17 4.36E-17 4.68E-17 5.37E-17
Yttrium
Y-86m 6.38E-18 6.62E-18 5.74E-18 5.54E-18 1.27E-17 5.35E-18 5.48E-18 6.13E-18 7.04E-18
Y-86 1.28E-16 1.30E-16 1.17E-16 1.17E-16 1.73E-16 1.10E-16 1.13E-16 1.22E-16 1.41E-16
Y-87 1.49E-17 1.52E-17 1.33E-17 1.31E-17 2.28E-17 1.24E-17 1.28E-17 1.40E-17 1.63E-17
Y-88 9.98E-17 l.OOE-16 9.15E-17 9.22E-17 1.28E-16 8.64E-17 8.87E-17 9.51E-17 1.08E-16
Y-90m 1.98E-17 2.04E-17 1.77E-17 1.73E-17 3.35E-17 1.65E-17 1.70E-17 1.88E-17 2.17E-17
Y-90 1.34E-19 1.39E-19 1.19E-19 1.14E-19 2.63E-19 1.12E-19 1.14E-19 1.28E-19 9.91E-18
Y-91m 1.78E-17 1.83E-17 1.60E-17 1.58E-17 2.65E-17 1.49E-17 1.54E-17 1.69E-17 1.96E-17
Y-91 1.82E-19 1.86E-19 1.66E-19 1.63E-19 2.82E-19 1.55E-19 1.59E-19 1.74E-19 4.16E-18
Y-92 9.27E-18 9.46E-18 8.48E-18 8.47E-18 1.27E-17 7.91E-18 8.20E-18 8.85E-18 3.01E-17
Y-93 3.39E-18 3.44E-18 3.09E-18 3.09E-18 4.82E-18 2.91E-18 2.99E-18 3.24E-18 1.81E-17
Y-94 4.01E-17 4.09E-17 3.68E-17 3.68E-17 5.39E-17 3.44E-17 3.56E-17 3.83E-17 6.82E-17
Y-95 3.47E-17 3.48E-17 3.21E-17 3.25E-17 4.36E-17 3.05E-17 3.12E-17 3.32E-17 5.91E-17
Zirconium
Zr-86 7.98E-18 8.27E-18 7.14E-18 6.94E-18 1.50E-17 6.66E-18 6.84E-18 7.63E-18 8.81E-18
Zr-88 1.27E-17 1.30E-17 1.13E-17 1.11E-17 2.07E-17 1.05E-17 1.08E-17 1.20E-17 1.39E-17
Zr-89 4.01E-17 4.10E-17 3.66E-17 3.64E-17 5.60E-17 3.40E-17 3.54E-17 3.82E-17 4.44E-17
Zr-93 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Zr-95 2.54E-17 2.60E-17 2.31E-17 2.29E-17 3.59E-17 2.14E-17 2.23E-17 2.42E-17 2.80E-17
Zr-97 6.40E-18 6.51E-18 5.83E-18 5.82E-18 8.88E-18 5.46E-18 5.63E-18 6.09E-18 1.26E-17
Niobium
Nb-88 1.42E-16 1.45E-16 1.29E-16 1.28E-16 2.02E-16 1.20E-16 1.24E-16 1.35E-16 1.71E-16
Nb-89bx 4.96E-17 5.02E-17 4.49E-17 4.49E-17 6.89E-17 4.23E-17 4.35E-17 4.71E-17 6.88E-17
Nb-89a2 6.46E-17 6.62E-17 5.79E-17 5.71E-17 9.66E-17 5.40E-17 5.58E-17 6.11E-17 7.91E-17
Nb-90 1.56E-16 1.57E-16 1.43E-16 1.44E-16 2.04E-16 1.35E-16 1.39E-16 1.49E-16 1.70E-16
Nb-93m 1.03E-21 1.41E-21 2.51E-23 1.12E-22 6.70E-22 1.37E-22 1.58E-22 5.57E-22 5.26E-21
Nb-94 5.43E-17 5.57E-17 4.95E-17 4.93E-17 7.60E-17 4.60E-17 4.79E-17 5.18E-17 6.00E-17
Nb-95m 1.78E-18 1.85E-18 1.59E-18 1.54E-18 3.52E-18 1.49E-18 1.52E-18 1.71E-18 1.97E-18
Nb-95 2.64E-17 2.70E-17 2.40E-17 2.39E-17 3.71E-17 2.23E-17 2.32E-17 2.51E-17 2.91E-17
Nb-96 8.57E-17 8.77E-17 7.81E-17 7.78E-17 1.20E-16 7.27E-17 7.55E-17 8.17E-17 9.46E-17
Nb-97m 2.50E-17 2.57E-17 2.27E-17 2.26E-17 3.53E-17 2.11E-17 2.20E-17 2.38E-17 2.77E-17
Nb-97 2.24E-17 2.29E-17 2.02E-17 2.01E-17 3.22E-17 1.88E-17 1.95E-17 2.13E-17 2.66E-17
Nb-98 8.58E-17 8.74E-17 7.83E-17 7.82E-17 1.17E-16 7.31E-17 7.57E-17 8.18E-17 1.03E-16
Molybdenum
Mo-90 2.59E-17 2.66E-17 2.33E-17 2.29E-17 4.30E-17 2.18E-17 2.24E-17 2.47E-17 2.88E-17
Mo-93m 8.06E-17 8.17E-17 7.36E-17 7.38E-17 1.09E-16 6.91E-17 7.12E-17 7.68E-17 8.78E-17
Mo-93 5.84E-21 8.00E-21 1.42E-22 6.37E-22 3.80E-21 7.78E-22 8.98E-22 3.16E-21 2.99E-20
Mo-99 4.99E-18 5.12E-18 4.52E-18 4.47E-18 7.51E-18 4.20E-18 4.36E-18 4.75E-18 6.85E-18
Mo-101 4.89E-17 4.97E-17 4.47E-17 4.48E-17 6.63E-17 4.20E-17 4.33E-17 4.67E-17 5.75E-17
Technetium
Tc-93m 2.66E-17 2.67E-17 2.43E-17 2.45E-17 3.56E-17 2.32E-17 2.36E-17 2.54E-17 2.85E-17
Tc-93 5.35E-17 5.40E-17 4.91E-17 4.95E-17 6.85E-17 4.62E-17 4.76E-17 5.10E-17 5.81E-17
Tc-94m 6.49E-17 6.62E-17 5.90E-17 5.88E-17 9.08E-17 5.52E-17 5.70E-17 6.18E-17 7.93E-17
Tc-94 9.20E-17 9.42E-17 8.38E-17 8.35E-17 1.28E-16 7.79E-17 8.10E-17 8.77E-17 1.02E-16
Tc-95m 2.20E-17 2.26E-17 1.99E-17 1.97E-17 3.36E-17 1.85E-17 1.92E-17 2.10E-17 2.43E-17
1 TK = 122 m
2 TK = 66 m
-------
170
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Technetium, cont'd
Tc-95 2.71E-17 2.78E-17 2.47E-17 2.45E-17 3.79E-17 2.29E-17 2.38E-17 2.58E-17 2.99E-17
Tc-96m 1.58E-18 1.61E-18 1.44E-18 1.43E-18 2.16E-18 1.34E-18 1.39E-18 1.50E-18 1.75E-18
Tc-96 8.64E-17 8.86E-17 7.89E-17 7.86E-17 1.20E-16 7.33E-17 7.63E-17 8.25E-17 9.55E-17
Tc-97m 1.41E-20 1.66E-20 5.67E-21 5.65E-21 2.39E-20 6.47E-21 6.27E-21 1.02E-20 3.64E-20
Tc-97 8.02E-21 1.06E-20 2.78E-22 9.22E-22 5.59E-21 1.28E-21 1.30E-21 4.33E-21 3.44E-20
Tc-98 4.84E-17 4.96E-17 4.38E-17 4.35E-17 6.89E-17 4.08E-17 4.23E-17 4.60E-17 5.33E-17
Tc-99m 3.05E-18 3.17E-18 2.75E-18 2.55E-18 7.62E-18 2.55E-18 2.58E-18 2.95E-18 3.33E-18
Tc-99 7.37E-22 7.93E-22 5.74E-22 4.85E-22 2.11E-21 5.58E-22 5.41E-22 6.72E-22 9.09E-22
Tc-101 1.05E-17 1.08E-17 9.37E-18 9.16E-18 1.83E-17 8.74E-18 8.99E-18 9.97E-18 1.35E-17
Tc-104 7.20E-17 7.28E-17 6.57E-17 6.59E-17 9.78E-17 6.20E-17 6.36E-17 6.86E-17 l.OOE-16
Ruthenium
Ru-94 1.74E-17 1.79E-17 1.57E-17 1.56E-17 2.64E-17 1.46E-17 1.52E-17 1.66E-17 1.92E-17
Ru-97 6.62E-18 6.88E-18 5.93E-18 5.73E-18 1.31E-17 5.53E-18 5.67E-18 6.35E-18 7.31E-18
Ru-103 1.56E-17 1.60E-17 1.39E-17 1.37E-17 2.37E-17 1.30E-17 1.34E-17 1.47E-17 1.70E-17
Ru-105 2.65E-17 2.72E-17 2.40E-17 2.37E-17 3.90E-17 2.23E-17 2.31E-17 2.52E-17 3.04E-17
Ru-106 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Rhodium
Rh-99m 2.27E-17 2.33E-17 2.06E-17 2.04E-17 3.39E-17 1.92E-17 1.98E-17 2.16E-17 2.50E-17
Rh-99 1.90E-17 1.95E-17 1.71E-17 1.68E-17 3.03E-17 1.59E-17 1.64E-17 1.81E-17 2.09E-17
Rh-100 1.02E-16 1.02E-16 9.29E-17 9.35E-17 1.33E-16 8.78E-17 9.00E-17 9.67E-17 1.10E-16
Rh-lOlm 9.15E-18 9.44E-18 8.16E-18 7.97E-18 1.61E-17 7.61E-18 7.83E-18 8.70E-18 1.01E-17
Rh-101 6.83E-18 7.09E-18 6.11E-18 5.81E-18 1.49E-17 5.70E-18 5.81E-18 6.56E-18 7.52E-18
Rh-102m 1.61E-17 1.64E-17 1.44E-17 1.42E-17 2.40E-17 1.34E-17 1.39E-17 1.52E-17 1.83E-17
Rh-102 7.29E-17 7.47E-17 6.61E-17 6.56E-17 1.04E-16 6.15E-17 6.38E-17 6.94E-17 8.02E-17
Rh-103m 2.27E-21 2.77E-21 2.69E-22 3.61E-22 2.31E-21 6.23E-22 5.25E-22 1.30E-21 6.22E-21
Rh-105 2.42E-18 2.50E-18 2.16E-18 2.11E-18 4.27E-18 2.02E-18 2.07E-18 2.30E-18 2.66E-18
Rh-106m 1.02E-16 1.04E-16 9.27E-17 9.24E-17 1.42E-16 8.66E-17 8.96E-17 9.70E-17 1.12E-16
Rh-106 7.29E-18 7.46E-18 6.56E-18 6.49E-18 1.08E-17 6.12E-18 6.32E-18 6.91E-18 2.71E-17
Rh-107 9.81E-18 1.01E-17 8.77E-18 8.57E-18 1.70E-17 8.18E-18 8.42E-18 9.33E-18 1.25E-17
Palladium
Pd-100 1.83E-18 1.92E-18 1.58E-18 1.36E-18 5.65E-18 1.49E-18 1.47E-18 1.75E-18 2.05E-18
Pd-101 1.05E-17 1.07E-17 9.42E-18 9.32E-18 1.58E-17 8.79E-18 9.08E-18 9.94E-18 1.16E-17
Pd-103 2.19E-20 2.62E-20 4.59E-21 5.59E-21 2.21E-20 7.41E-21 6.67E-21 1.35E-20 5.65E-20
Pd-107 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pd-109 1.09E-19 1.16E-19 8.62E-20 7.85E-20 2.65E-19 8.30E-20 8.22E-20 9.94E-20 9.65E-19
Silver
Ag-102 1.19E-16 1.21E-16 1.08E-16 1.08E-16 1.64E-16 1.02E-16 1.05E-16 1.13E-16 1.39E-16
Ag-103 2.52E-17 2.57E-17 2.27E-17 2.24E-17 3.82E-17 2.12E-17 2.19E-17 2.39E-17 2.92E-17
Ag-104m 4.12E-17 4.18E-17 3.73E-17 3.71E-17 5.80E-17 3.50E-17 3.60E-17 3.91E-17 5.06E-17
Ag-104 9.34E-17 9.53E-17 8.50E-17 8.47E-17 1.30E-16 7.93E-17 8.21E-17 8.89E-17 1.03E-16
Ag-105 1.64E-17 1.69E-17 1.47E-17 1.44E-17 2.65E-17 1.37E-17 1.41E-17 1.56E-17 1.80E-17
Ag-106m 9.77E-17 9.97E-17 8.88E-17 8.85E-17 1.37E-16 8.29E-17 8.59E-17 9.30E-17 1.07E-16
Ag-106 2.36E-17 2.41E-17 2.11E-17 2.08E-17 3.57E-17 1.96E-17 2.03E-17 2.23E-17 3.02E-17
Ag-108m 5.44E-17 5.58E-17 4.90E-17 4.85E-17 8.01E-17 4.56E-17 4.73E-17 5.16E-17 5.98E-17
Ag-108 6.46E-19 6.63E-19 5.79E-19 5.71E-19 9.86E-19 5.40E-19 5.58E-19 6.12E-19 4.79E-18
Ag-109m 7.10E-20 7.62E-20 5.25E-20 4.62E-20 1.93E-19 5.15E-20 5.02E-20 6.34E-20 9.48E-20
Ag-llOm 9.64E-17 9.84E-17 8.80E-17 8.78E-17 1.32E-16 8.20E-17 8.51E-17 9.19E-17 1.06E-16
Ag-110 1.26E-18 1.30E-18 1.14E-18 1.12E-18 1.91E-18 1.06E-18 1.10E-18 1.20E-18 1.58E-17
Ag-111 8.40E-19 8.67E-19 7.49E-19 7.32E-19 1.47E-18 7.00E-19 7.19E-19 7.99E-19 1.72E-18
Ag-112 2.39E-17 2.43E-17 2.18E-17 2.18E-17 3.24E-17 2.05E-17 2.11E-17 2.28E-17 4.48E-17
Ag-115 2.55E-17 2.57E-17 2.33E-17 2.33E-17 3.54E-17 2.20E-17 2.25E-17 2.43E-17 3.96E-17
Cadmium
Cd-104 7.40E-18 7.60E-18 6.64E-18 6.50E-18 1.18E-17 6.18E-18 6.39E-18 7.02E-18 8.18E-18
Cd-107 2.97E-19 3.13E-19 2.34E-19 2.25E-19 5.46E-19 2.25E-19 2.27E-19 2.67E-19 3.79E-19
Cd-109 9.74E-20 1.08E-19 5.58E-20 5.04E-20 2.21E-19 5.94E-20 5.65E-20 7.87E-20 1.57E-19
Cd-113m 3.70E-21 3.91E-21 3.10E-21 2.76E-21 9.76E-21 2.95E-21 2.92E-21 3.47E-21 1.81E-20
Cd-113 6.66E-22 7.15E-22 5.19E-22 4.39E-22 1.89E-21 5.04E-22 4.90E-22 6.07E-22 8.20E-22
Cd-115m 8.31E-19 8.49E-19 7.60E-19 7.58E-19 1.16E-18 7.09E-19 7.35E-19 7.94E-19 4.87E-18
Cd-115 7.73E-18 7.92E-18 6.90E-18 6.81E-18 1.18E-17 6.44E-18 6.65E-18 7.31E-18 9.09E-18
Cd-117m 7.56E-17 7.62E-17 6.93E-17 6.98E-17 9.76E-17 6.54E-17 6.72E-17 7.21E-17 8.22E-17
Cd-117 3.86E-17 3.92E-17 3.53E-17 3.53E-17 5.30E-17 3.31E-17 3.42E-17 3.69E-17 4.50E-17
-------
171
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Indium
In-109 2.17E-17 2.23E-17 1.97E-17 1.95E-17 3.35E-17 1.84E-17 1.90E-17 2.07E-17 2.39E-17
In-llOb1 1.05E-16 1.08E-16 9.58E-17 9.54E-17 1.47E-16 8.91E-17 9.26E-17 l.OOE-16 1.16E-16
In-110a2 5.38E-17 5.48E-17 4.85E-17 4.82E-17 7.68E-17 4.54E-17 4.69E-17 5.10E-17 6.51E-17
In-Ill 1.10E-17 1.14E-17 9.81E-18 9.43E-18 2.26E-17 9.15E-18 9.35E-18 1.05E-17 1.21E-17
In-112 8.79E-18 9.00E-18 7.85E-18 7.75E-18 1.32E-17 7.33E-18 7.57E-18 8.31E-18 1.06E-17
In-113m 8.11E-18 8.34E-18 7.22E-18 7.08E-18 1.33E-17 6.74E-18 6.94E-18 7.68E-18 8.88E-18
In-114m 2.73E-18 2.81E-18 2.44E-18 2.40E-18 4.52E-18 2.28E-18 2.35E-18 2.59E-18 3.02E-18
In-114 9.95E-20 1.01E-19 9.12E-20 9.15E-20 1.31E-19 8.55E-20 8.83E-20 9.49E-20 1.09E-19
In-115m 4.83E-18 4.98E-18 4.29E-18 4.20E-18 8.32E-18 4.01E-18 4.12E-18 4.58E-18 5.32E-18
In-115 2.30E-21 2.44E-21 1.90E-21 1.67E-21 6.23E-21 1.81E-21 1.79E-21 2.15E-21 3.59E-21
In-116m 8.97E-17 9.10E-17 8.24E-17 8.27E-17 1.18E-16 7.73E-17 7.98E-17 8.57E-17 9.84E-17
In-117m 2.58E-18 2.67E-18 2.30E-18 2.22E-18 4.94E-18 2.15E-18 2.20E-18 2.46E-18 5.32E-18
In-117 2.21E-17 2.27E-17 1.98E-17 1.94E-17 3.59E-17 1.85E-17 1.90E-17 2.10E-17 2.43E-17
In-119m 4.15E-19 4.29E-19 3.68E-19 3.60E-19 6.92E-19 3.45E-19 3.54E-19 3.93E-19 1.23E-17
In-119 2.64E-17 2.71E-17 2.40E-17 2.39E-17 3.71E-17 2.23E-17 2.32E-17 2.52E-17 3.32E-17
Tin
Sn-110 8.68E-18 8.99E-18 7.73E-18 7.53E-18 1.59E-17 7.22E-18 7.41E-18 8.27E-18 9.56E-18
Sn-111 1.72E-17 1.76E-17 1.55E-17 1.54E-17 2.47E-17 1.46E-17 1.50E-17 1.63E-17 2.02E-17
Sn-113 1.81E-19 1.94E-19 1.34E-19 1.30E-19 3.21E-19 1.32E-19 1.31E-19 1.59E-19 2.37E-19
Sn-117m 3.65E-18 3.80E-18 3.25E-18 3.06E-18 8.55E-18 3.04E-18 3.08E-18 3.51E-18 4.03E-18
Sn-119m 2.61E-20 3.10E-20 5.21E-21 5.15E-21 3.46E-20 9.47E-21 7.81E-21 1.61E-20 5.17E-20
Sn-121m 1.56E-20 1.82E-20 5.02E-21 4.07E-21 2.72E-20 7.04E-21 5.99E-21 1.05E-20 2.62E-20
Sn-121 1.14E-21 1.22E-21 9.13E-22 7.86E-22 3.19E-21 8.80E-22 8.60E-22 1.05E-21 1.37E-21
Sn-123m 3.57E-18 3.71E-18 3.20E-18 3.02E-18 8.33E-18 2.98E-18 3.03E-18 3.44E-18 5.73E-18
Sn-123 2.83E-19 2.90E-19 2.59E-19 2.57E-19 4.11E-19 2.41E-19 2.50E-19 2.71E-19 3.14E-18
Sn-125 1.13E-17 1.15E-17 1.04E-17 1.04E-17 1.52E-17 9.68E-18 l.OOE-17 1.08E-17 2.07E-17
Sn-126 8.24E-19 8.66E-19 7.10E-19 6.09E-19 2.56E-18 6.69E-19 6.60E-19 7.89E-19 9.21E-19
Sn-127 6.82E-17 6.93E-17 6.25E-17 6.26E-17 9.21E-17 5.85E-17 6.05E-17 6.51E-17 7.90E-17
Sn-128 2.01E-17 2.06E-17 1.79E-17 1.76E-17 3.14E-17 1.67E-17 1.72E-17 1.90E-17 2.21E-17
Antimony
Sb-115 3.00E-17 3.07E-17 2.68E-17 2.65E-17 4.53E-17 2.50E-17 2.58E-17 2.84E-17 3.43E-17
Sb-116m 1.09E-16 1.11E-16 9.97E-17 9.94E-17 1.51E-16 9.30E-17 9.64E-17 1.04E-16 1.20E-16
Sb-116 7.74E-17 7.85E-17 7.07E-17 7.09E-17 1.03E-16 6.64E-17 6.85E-17 7.37E-17 8.83E-17
Sb-117 4.48E-18 4.64E-18 3.99E-18 3.80E-18 9.65E-18 3.73E-18 3.79E-18 4.29E-18 4.94E-18
Sb-118m 8.96E-17 9.15E-17 8.23E-17 8.22E-17 1.23E-16 7.67E-17 7.96E-17 8.57E-17 9.87E-17
Sb-119 5.55E-20 6.59E-20 1.14E-20 1.10E-20 7.47E-20 2.04E-20 1.68E-20 3.43E-20 1.08E-19
Sb-120b3 8.45E-17 8.64E-17 7.76E-17 7.74E-17 1.19E-16 7.23E-17 7.50E-17 8.09E-17 9.32E-17
Sb-120a4 1.48E-17 1.52E-17 1.32E-17 1.31E-17 2.23E-17 1.23E-17 1.27E-17 1.40E-17 1.85E-17
Sb-122 1.50E-17 1.53E-17 1.34E-17 1.33E-17 2.20E-17 1.25E-17 1.30E-17 1.42E-17 2.00E-17
Sb-124n5 1.74E-22 2.07E-22 3.19E-23 3.28E-23 2.21E-22 6.12E-23 5.01E-23 1.06E-22 3.50E-22
Sb-124m6 1.19E-17 1.22E-17 1.07E-17 1.06E-17 1.75E-17 9.95E-18 1.03E-17 1.13E-17 1.33E-17
Sb-124 6.58E-17 6.66E-17 6.00E-17 6.01E-17 8.77E-17 5.65E-17 5.80E-17 6.26E-17 7.38E-17
Sb-125 1.38E-17 1.42E-17 1.24E-17 1.22E-17 2.12E-17 1.15E-17 1.19E-17 1.31E-17 1.52E-17
Sb-126m 5.24E-17 5.37E-17 4.73E-17 4.68E-17 7.69E-17 4.40E-17 4.56E-17 4.98E-17 6.20E-17
Sb-126 9.64E-17 9.88E-17 8.72E-17 8.65E-17 1.40E-16 8.11E-17 8.42E-17 9.16E-17 1.07E-16
Sb-127 2.32E-17 2.38E-17 2.09E-17 2.07E-17 3.42E-17 1.95E-17 2.02E-17 2.20E-17 2.61E-17
Sb-128b7 1.06E-16 1.08E-16 9.57E-17 9.50E-17 1.52E-16 8.90E-17 9.24E-17 l.OOE-16 1.18E-16
Sb-128a8 6.76E-17 6.94E-17 6.14E-17 6.09E-17 9.83E-17 5.70E-17 5.92E-17 6.44E-17 8.40E-17
Sb-129 5.08E-17 5.17E-17 4.64E-17 4.63E-17 6.93E-17 4.33E-17 4.49E-17 4.84E-17 5.79E-17
Sb-130 1.12E-16 1.15E-16 1.02E-16 1.02E-16 1.61E-16 9.51E-17 9.86E-17 1.07E-16 1.29E-16
Sb-131 6.70E-17 6.80E-17 6.14E-17 6.15E-17 8.96E-17 5.75E-17 5.94E-17 6.39E-17 7.71E-17
Tellurium
Te-116 1.10E-18 1.14E-18 9.27E-19 8.57E-19 2.51E-18 8.78E-19 8.80E-19 1.03E-18 1.25E-18
Te-121m 5.99E-18 6.22E-18 5.38E-18 5.21E-18 1.16E-17 5.02E-18 5.15E-18 5.74E-18 6.62E-18
TK = 4.9 h
TK = 69.1 m
TK = 5.76 d
TK = 15.89 m
TK = 20.2 m
TK = 93 s
TK = 9.01 h
T* = 10.4 m
-------
172
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose
Nuclide
Gonad
Tellurium,
Te-121
Te-123m
Te-123
Te-125m
Te-127m
Te-127
Te-129m
Te-129
Te-131m
Te-131
Te-132
Te-133m
Te-133
Te-134
Iodine
I-120m
1-120
1-121
1-122
1-123
1-124
1-125
1-126
1-128
1-129
1-130
1-131
I-132m
1-132
1-133
1-134
1-135
Xenon
Xe-120
Xe-121
Xe-122
Xe-123
Xe-125
Xe-127
Xe-129m
Xe-131m
Xe-133m
Xe-133
Xe-135m
Xe-135
Xe-138
Cesium
Cs-125
Cs-126
Cs-127
Cs-128
Cs-129
Cs-130
Cs-131
Cs-132
Cs-134m
Cs-134
Cs-135m
Cs-135
Cs-136
1
3
5
1
4
1
1
1
4
1
6
8
3
2
1
9
1
3
3
3
1
1
2
9
7
1
1
7
2
9
5
1
6
1
2
7
7
4
1
7
5
1
7
4
2
3
1
3
8
1
8
2
4
5
5
2
7
Breast
Lung
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
nr
J)
Remainder
Effective
Skin
cont ' d
.88E
.49E
.49E
.19E
.09E
. 62E
.05E
.87E
.91E
.34E
.07E
.07E
.20E
.87E
.89E
.85E
.25E
.18E
.98E
. 82E
.33E
.49E
.85E
. 74E
.29E
.22E
.05E
. 92E
.06E
.21E
.75E
.29E
.47E
.46E
.05E
.22E
.37E
. 12E
.43E
.44E
.71E
.42E
.44E
. 14E
.23E
.63E
.29E
.OOE
. 12E
.70E
.37E
.34E
. 12E
.33E
.48E
.33E
.45E
-17
-18
-20
-19
-20
-19
-18
-18
-17
-17
-18
-17
-17
-17
-16
-17
-17
-17
-18
-17
-19
-17
-18
-20
-17
-17
-17
-17
-17
-17
-17
-17
-17
-18
-17
-18
-18
-19
-19
-19
-19
-17
-18
-17
-17
-17
-17
-17
-18
-17
-20
-17
-19
-17
-17
-22
-17
1
3
6
1
4
1
1
1
5
1
6
8
3
2
1
9
1
3
4
3
1
1
2
1
7
1
1
8
2
9
5
1
6
1
2
7
7
4
1
7
6
1
7
4
2
3
1
3
8
1
9
2
4
5
5
2
7
.93E
.63E
.49E
.39E
.71E
.66E
.08E
. 92E
. 02E
.38E
.32E
.24E
.27E
. 94E
. 92E
.96E
.29E
.26E
. 14E
.88E
.57E
.53E
.93E
.13E
.46E
.26E
.08E
.09E
.HE
.41E
. 82E
.33E
.53E
.51E
.09E
.49E
.65E
.49E
.57E
.81E
.05E
.46E
.71E
.16E
.28E
. 72E
.33E
.07E
.36E
. 74E
.78E
.40E
.32E
.46E
. 62E
.55E
.63E
-17
-18
-20
-19
-20
-19
-18
-18
-17
-17
-18
-17
-17
-17
-16
-17
-17
-17
-18
-17
-19
-17
-18
-19
-17
-17
-17
-17
-17
-17
-17
-17
-17
-18
-17
-18
-18
-19
-19
-19
-19
-17
-18
-17
-17
-17
-17
-17
-18
-17
-20
-17
-19
-17
-17
-22
-17
1
3
1
3
1
1
9
1
4
1
5
7
2
2
1
8
1
2
3
3
3
1
2
3
6
1
9
7
1
8
5
1
5
1
1
6
6
2
9
6
4
1
6
3
1
3
1
2
7
1
2
2
3
4
5
1
6
.68E
.HE
.36E
.97E
. 64E
.44E
.36E
.67E
.49E
.22E
.39E
.37E
.91E
.58E
. 72E
.96E
. 12E
.85E
.53E
.46E
.99E
.34E
. 54E
.81E
.58E
.09E
. 52E
.20E
.85E
.42E
.28E
.16E
.89E
.25E
.85E
.43E
.55E
.86E
.47E
.33E
.71E
.27E
.66E
.78E
.99E
.24E
.15E
.68E
.17E
. 52E
. 94E
.HE
.50E
.83E
.OOE
.66E
.81E
-17
-18
-20
-20
-20
-19
-19
-18
-17
-17
-18
-17
-17
-17
-16
-17
-17
-17
-18
-17
-20
-17
-18
-20
-17
-17
-18
-17
-17
-17
-17
-17
-17
-18
-17
-18
-18
-19
-20
-19
-19
-17
-18
-17
-17
-17
-17
-17
-18
-17
-20
-17
-19
-17
-17
-22
-17
1.66E-17 2.79E-17 1.57E-17
2.93E-18 8.17E-18 2.90E-18
1.19E-20 8.20E-20 2.20E-20
3.26E-20 2.07E-19 5.47E-20
1.39E-20 7.35E-20 2.06E-20
1.41E-19 2.69E-19 1.34E-19
9.27E-19 1.52E-18 8.74E-19
1.65E-18 2.89E-18 1.56E-18
4.47E-17 6.92E-17 4.18E-17
1.19E-17 2.19E-17 1.13E-17
5.19E-18 1.23E-17 5.04E-18
7.35E-17 1.12E-16 6.88E-17
2.89E-17 4.67E-17 2.72E-17
2.55E-17 4.48E-17 2.40E-17
1.72E-16 2.58E-16 1.62E-16
8.97E-17 1.34E-16 8.45E-17
1.10E-17 2.16E-17 1.05E-17
2.81E-17 4.77E-17 2.66E-17
3.34E-18 8.87E-18 3.30E-18
3.45E-17 5.30E-17 3.25E-17
3.23E-20 2.23E-19 5.82E-20
1.32E-17 2.23E-17 1.25E-17
2.50E-18 4.47E-18 2.37E-18
2.84E-20 1.94E-19 4.88E-20
6.53E-17 1.05E-16 6.13E-17
1.07E-17 2.01E-17 1.02E-17
9.42E-18 1.56E-17 8.86E-18
7.16E-17 1.11E-16 6.70E-17
1.83E-17 3.02E-17 1.73E-17
8.40E-17 1.26E-16 7.85E-17
5.30E-17 7.51E-17 4.95E-17
1.14E-17 2.00E-17 1.08E-17
5.90E-17 8.88E-17 5.56E-17
1.22E-18 2.61E-18 1.18E-18
1.83E-17 3.14E-17 1.74E-17
6.23E-18 1.37E-17 6.01E-18
6.30E-18 1.48E-17 6.12E-18
2.61E-19 8.47E-19 2.89E-19
8.54E-20 3.02E-19 9.72E-20
6.07E-19 1.47E-18 5.99E-19
3.98E-19 1.76E-18 4.50E-19
1.25E-17 2.14E-17 1.19E-17
6.47E-18 1.41E-17 6.21E-18
3.80E-17 5.51E-17 3.58E-17
1.97E-17 3.36E-17 1.86E-17
3.19E-17 5.57E-17 3.02E-17
1.13E-17 2.07E-17 1.08E-17
2.64E-17 4.55E-17 2.50E-17
7.03E-18 1.33E-17 6.71E-18
1.50E-17 2.55E-17 1.42E-17
2.23E-20 1.54E-19 3.96E-20
2.09E-17 3.36E-17 1.97E-17
3.19E-19 1.05E-18 3.31E-19
4.80E-17 7.59E-17 4.50E-17
4.98E-17 7.64E-17 4.64E-17
1.35E-22 6.65E-22 1.66E-22
6.78E-17 1.05E-16 6.34E-17
1
2
1
4
1
1
9
1
4
1
5
7
2
2
1
8
1
2
3
3
4
1
2
4
6
1
9
6
1
8
5
1
5
1
1
6
6
2
9
6
4
1
6
3
1
3
1
2
6
1
3
2
3
4
4
1
6
. 62E
. 94E
.83E
.69E
.83E
.38E
.05E
.61E
.33E
.17E
.15E
.13E
.81E
.49E
.66E
.67E
.08E
. 74E
.35E
.34E
.91E
.29E
.45E
.21E
.35E
.05E
.18E
.96E
.79E
. 14E
.HE
. 12E
.70E
.21E
.78E
.16E
.26E
.80E
.34E
.07E
.41E
.23E
.38E
.66E
. 92E
. 12E
.HE
.58E
.90E
.46E
.37E
. 04E
.30E
.67E
.83E
.58E
.58E
-17
-18
-20
-20
-20
-19
-19
-18
-17
-17
-18
-17
-17
-17
-16
-17
-17
-17
-18
-17
-20
-17
-18
-20
-17
-17
-18
-17
-17
-17
-17
-17
-17
-18
-17
-18
-18
-19
-20
-19
-19
-17
-18
-17
-17
-17
-17
-17
-18
-17
-20
-17
-19
-17
-17
-22
-17
1
3
3
8
2
1
9
1
4
1
5
7
3
2
1
9
1
3
3
3
8
1
2
6
6
1
1
7
1
8
5
1
6
1
1
6
7
3
1
6
5
1
7
3
2
3
1
2
7
1
5
2
3
5
5
2
7
.78E
.36E
.51E
.HE
. 92E
.53E
.91E
.77E
.69E
.28E
.80E
.70E
.05E
.73E
.80E
.37E
.19E
.DIE
.81E
.63E
.86E
.41E
.70E
.93E
. 92E
.16E
.OOE
. 54E
.95E
.79E
.48E
.23E
.16E
.36E
.95E
.89E
. 04E
. 54E
.21E
.96E
.36E
.34E
.HE
. 94E
.HE
.43E
.22E
.83E
.66E
.60E
.77E
.22E
.89E
.07E
.23E
.05E
. 12E
-17
-18
-20
-20
-20
-19
-19
-18
-17
-17
-18
-17
-17
-17
-16
-17
-17
-17
-18
-17
-20
-17
-18
-20
-17
-17
-17
-17
-17
-17
-17
-17
-17
-18
-17
-18
-18
-19
-19
-19
-19
-17
-18
-17
-17
-17
-17
-17
-18
-17
-20
-17
-19
-17
-17
-22
-17
2
3
9
1
6
2
2
4
5
2
6
9
4
3
2
1
1
4
4
4
2
1
9
1
8
1
1
8
2
1
6
1
7
1
2
7
8
5
1
8
6
1
8
5
2
6
1
4
8
2
1
2
4
5
6
3
8
.06E-17
.84E-18
.87E-20
.95E-19
.86E-20
.51E-19
.46E-18
.81E-18
.45E-17
.04E-17
.72E-18
.42E-17
.26E-17
.17E-17
.22E-16
.27E-16
.40E-17
.85E-17
.40E-18
.32E-17
.24E-19
.67E-17
.79E-18
.48E-19
.06E-17
.34E-17
.20E-17
.98E-17
.40E-17
.06E-16
.39E-17
.43E-17
.63E-17
.64E-18
.33E-17
.99E-18
.14E-18
.24E-19
.85E-19
.48E-19
.50E-19
.57E-17
.60E-18
.05E-17
.73E-17
.09E-17
.42E-17
.31E-17
.94E-18
.23E-17
.31E-19
.58E-17
.65E-19
.87E-17
.08E-17
.11E-22
.22E-17
-------
173
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Cesium, cont'd
Cs-137 4.27E-21 4.50E-21 3.61E-21 3.25E-21 1.09E-20 3.43E-21 3.41E-21 4.02E-21 9.34E-20
Cs-138 8.72E-17 8.80E-17 7.99E-17 8.04E-17 1.13E-16 7.54E-17 7.75E-17 8.31E-17 1.09E-16
Barium
Ba-126 4.51E-18 4.66E-18 3.98E-18 3.89E-18 7.58E-18 3.73E-18 3.83E-18 4.26E-18 4.99E-18
Ba-128 1.66E-18 1.73E-18 1.44E-18 1.39E-18 3.11E-18 1.35E-18 1.38E-18 1.56E-18 1.87E-18
Ba-131m 1.35E-18 1.40E-18 1.18E-18 1.05E-18 3.78E-18 1.10E-18 1.10E-18 1.29E-18 1.49E-18
Ba-131 1.37E-17 1.40E-17 1.22E-17 1.19E-17 2.28E-17 1.14E-17 1.17E-17 1.29E-17 1.50E-17
Ba-133m 1.54E-18 1.61E-18 1.35E-18 1.30E-18 2.89E-18 1.26E-18 1.29E-18 1.46E-18 1.72E-18
Ba-133 1.11E-17 1.15E-17 9.86E-18 9.57E-18 1.99E-17 9.22E-18 9.46E-18 1.06E-17 1.23E-17
Ba-135m 1.34E-18 1.40E-18 1.17E-18 1.13E-18 2.54E-18 1.10E-18 1.12E-18 1.27E-18 1.50E-18
Ba-137m 2.03E-17 2.08E-17 1.83E-17 1.82E-17 2.91E-17 1.70E-17 1.77E-17 1.93E-17 2.26E-17
Ba-139 1.25E-18 1.30E-18 1.13E-18 1.07E-18 2.67E-18 1.05E-18 1.07E-18 1.21E-18 1.02E-17
Ba-140 5.83E-18 5.98E-18 5.20E-18 5.12E-18 9.15E-18 4.86E-18 5.01E-18 5.52E-18 6.87E-18
Ba-141 2.84E-17 2.91E-17 2.58E-17 2.55E-17 4.33E-17 2.41E-17 2.48E-17 2.71E-17 4.00E-17
Ba-142 3.59E-17 3.67E-17 3.29E-17 3.27E-17 5.09E-17 3.06E-17 3.17E-17 3.43E-17 4.13E-17
Lanthanum
La-131 2.11E-17 2.16E-17 1.88E-17 1.85E-17 3.37E-17 1.76E-17 1.81E-17 2.00E-17 2.44E-17
La-132 7.10E-17 7.20E-17 6.44E-17 6.43E-17 9.83E-17 6.06E-17 6.23E-17 6.75E-17 8.35E-17
La-134 2.33E-17 2.38E-17 2.08E-17 2.05E-17 3.49E-17 1.94E-17 2.00E-17 2.20E-17 3.43E-17
La-135 4.53E-19 4.79E-19 3.53E-19 3.37E-19 7.46E-19 3.44E-19 3.43E-19 4.03E-19 5.36E-19
La-137 1.04E-19 1.21E-19 4.34E-20 3.16E-20 2.16E-19 5.42E-20 4.69E-20 7.54E-20 1.52E-19
La-138 4.46E-17 4.52E-17 4.09E-17 4.11E-17 5.82E-17 3.84E-17 3.96E-17 4.26E-17 4.87E-17
La-140 8.46E-17 8.54E-17 7.73E-17 7.77E-17 1.11E-16 7.29E-17 7.49E-17 8.06E-17 9.45E-17
La-141 1.73E-18 1.75E-18 1.58E-18 1.59E-18 2.31E-18 1.49E-18 1.53E-18 1.65E-18 1.18E-17
La-142 1.05E-16 1.05E-16 9.63E-17 9.73E-17 1.32E-16 9.15E-17 9.35E-17 9.99E-17 1.21E-16
La-143 3.75E-18 3.79E-18 3.42E-18 3.43E-18 5.02E-18 3.23E-18 3.32E-18 3.57E-18 2.14E-17
Cerium
Ce-134 1.22E-19 1.40E-19 5.46E-20 3.92E-20 2.67E-19 6.59E-20 5.75E-20 8.99E-20 1.73E-19
Ce-135 5.89E-17 6.04E-17 5.29E-17 5.22E-17 9.00E-17 4.93E-17 5.09E-17 5.59E-17 6.47E-17
Ce-137m 1.10E-18 1.15E-18 9.48E-19 9.11E-19 2.07E-18 8.94E-19 9.09E-19 1.03E-18 1.24E-18
Ce-137 4.00E-19 4.26E-19 3.03E-19 2.83E-19 7.00E-19 2.98E-19 2.94E-19 3.53E-19 4.78E-19
Ce-139 3.56E-18 3.72E-18 3.14E-18 2.96E-18 8.19E-18 2.94E-18 2.98E-18 3.41E-18 3.95E-18
Ce-141 1.77E-18 1.84E-18 1.58E-18 1.47E-18 4.34E-18 1.47E-18 1.49E-18 1.70E-18 1.94E-18
Ce-143 8.36E-18 8.62E-18 7.46E-18 7.30E-18 1.39E-17 6.96E-18 7.17E-18 7.93E-18 1.06E-17
Ce-144 4.01E-19 4.19E-19 3.52E-19 3.20E-19 1.05E-18 3.30E-19 3.30E-19 3.84E-19 4.43E-19
Praseodymium
Pr-136 7.31E-17 7.44E-17 6.61E-17 6.58E-17 1.03E-16 6.20E-17 6.39E-17 6.94E-17 8.88E-17
Pr-137 1.63E-17 1.67E-17 1.46E-17 1.44E-17 2.43E-17 1.36E-17 1.41E-17 1.54E-17 1.93E-17
Pr-138m 8.46E-17 8.66E-17 7.71E-17 7.67E-17 1.20E-16 7.17E-17 7.45E-17 8.07E-17 9.45E-17
Pr-138 2.73E-17 2.79E-17 2.44E-17 2.41E-17 4.12E-17 2.28E-17 2.35E-17 2.58E-17 4.59E-17
Pr-139 3.41E-18 3.50E-18 3.00E-18 2.96E-18 5.13E-18 2.82E-18 2.90E-18 3.20E-18 3.89E-18
Pr-142m 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Pr-142 2.29E-18 2.31E-18 2.10E-18 2.12E-18 2.97E-18 1.99E-18 2.04E-18 2.19E-18 1.02E-17
Pr-143 1.24E-20 1.30E-20 1.07E-20 9.83E-21 3.01E-20 1.01E-20 1.01E-20 1.18E-20 5.10E-19
Pr-144m 9.24E-20 1.02E-19 5.99E-20 5.06E-20 1.94E-19 6.23E-20 5.88E-20 7.69E-20 1.19E-19
Pr-144 1.42E-18 1.43E-18 1.29E-18 1.29E-18 1.96E-18 1.22E-18 1.25E-18 1.35E-18 1.65E-17
Pr-145 5.13E-19 5.27E-19 4.66E-19 4.61E-19 7.62E-19 4.34E-19 4.50E-19 4.89E-19 5.66E-18
Pr-147 2.84E-17 2.91E-17 2.57E-17 2.55E-17 4.22E-17 2.40E-17 2.48E-17 2.70E-17 3.77E-17
Neodymium
Nd-136 7.83E-18 8.07E-18 6.94E-18 6.73E-18 1.35E-17 6.49E-18 6.65E-18 7.40E-18 8.71E-18
Nd-138 5.83E-19 6.19E-19 4.62E-19 4.29E-19 1.16E-18 4.48E-19 4.44E-19 5.27E-19 6.79E-19
Nd-139m 5.31E-17 5.43E-17 4.84E-17 4.82E-17 7.51E-17 4.51E-17 4.68E-17 5.07E-17 5.89E-17
Nd-139 1.31E-17 1.34E-17 1.17E-17 1.15E-17 1.95E-17 1.09E-17 1.13E-17 1.24E-17 1.59E-17
Nd-141m 2.61E-17 2.67E-17 2.37E-17 2.36E-17 3.67E-17 2.20E-17 2.29E-17 2.48E-17 2.91E-17
Nd-141 1.77E-18 1.83E-18 1.55E-18 1.52E-18 2.68E-18 1.46E-18 1.49E-18 1.66E-18 1.99E-18
Nd-147 3.78E-18 3.90E-18 3.35E-18 3.23E-18 6.67E-18 3.13E-18 3.21E-18 3.58E-18 4.34E-18
Nd-149 1.15E-17 1.18E-17 1.03E-17 9.98E-18 2.04E-17 9.57E-18 9.83E-18 1.09E-17 1.46E-17
Nd-151 3.06E-17 3.12E-17 2.78E-17 2.76E-17 4.56E-17 2.60E-17 2.69E-17 2.92E-17 3.80E-17
Promethium
Pm-141 2.52E-17 2.57E-17 2.26E-17 2.24E-17 3.67E-17 2.12E-17 2.18E-17 2.38E-17 3.51E-17
Pm-142 2.94E-17 3.01E-17 2.63E-17 2.60E-17 4.40E-17 2.46E-17 2.54E-17 2.78E-17 5.21E-17
Pm-143 9.99E-18 1.03E-17 9.02E-18 8.93E-18 1.43E-17 8.39E-18 8.71E-18 9.48E-18 1.11E-17
-------
174
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Promethium, cont'd
Pm-144 5.22E-17 5.35E-17 4.70E-17 4.66E-17 7.60E-17 4.38E-17 4.54E-17 4.95E-17 5.74E-17
Pm-145 1.93E-19 2.17E-19 1.14E-19 8.34E-20 5.16E-19 1.23E-19 1.11E-19 1.57E-19 2.49E-19
Pm-146 2.49E-17 2.55E-17 2.24E-17 2.22E-17 3.67E-17 2.09E-17 2.16E-17 2.36E-17 2.75E-17
Pm-147 2.96E-22 3.20E-22 2.25E-22 1.91E-22 8.31E-22 2.21E-22 2.14E-22 2.68E-22 3.75E-22
Pm-148m 6.77E-17 6.94E-17 6.12E-17 6.06E-17 9.87E-17 5.69E-17 5.90E-17 6.43E-17 7.45E-17
Pm-148 2.07E-17 2.10E-17 1.89E-17 1.89E-17 2.78E-17 1.77E-17 1.83E-17 1.97E-17 2.90E-17
Pm-149 3.51E-19 3.62E-19 3.14E-19 3.07E-19 6.19E-19 2.93E-19 3.01E-19 3.34E-19 1.30E-18
Pm-150 5.08E-17 5.16E-17 4.64E-17 4.64E-17 6.99E-17 4.35E-17 4.49E-17 4.85E-17 6.24E-17
Pm-151 9.75E-18 1.01E-17 8.73E-18 8.53E-18 1.66E-17 8.15E-18 8.39E-18 9.28E-18 1.12E-17
Samarium
Sm-141m 6.76E-17 6.90E-17 6.13E-17 6.09E-17 9.76E-17 5.73E-17 5.92E-17 6.43E-17 7.83E-17
Sm-141 4.81E-17 4.90E-17 4.34E-17 4.31E-17 6.97E-17 4.06E-17 4.19E-17 4.56E-17 6.13E-17
Sm-142 2.35E-18 2.42E-18 2.05E-18 1.99E-18 3.72E-18 1.93E-18 1.97E-18 2.20E-18 2.69E-18
Sm-145 4.38E-19 4.90E-19 2.74E-19 2.00E-19 1.24E-18 2.90E-19 2.65E-19 3.65E-19 5.54E-19
Sm-146 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-147 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Sm-151 9.38E-24 1.14E-23 8.79E-25 1.37E-24 8.76E-24 2.48E-24 2.03E-24 5.27E-24 2.46E-23
Sm-153 9.00E-19 9.49E-19 7.55E-19 6.53E-19 2.58E-18 7.18E-19 7.05E-19 8.47E-19 1.11E-18
Sm-155 2.22E-18 2.30E-18 1.97E-18 1.79E-18 5.87E-18 1.84E-18 1.85E-18 2.13E-18 5.55E-18
Sm-156 2.95E-18 3.08E-18 2.63E-18 2.49E-18 6.64E-18 2.46E-18 2.50E-18 2.84E-18 3.30E-18
Europium
Eu-145 5.14E-17 5.22E-17 4.69E-17 4.70E-17 6.89E-17 4.40E-17 4.54E-17 4.90E-17 5.62E-17
Eu-146 8.67E-17 8.85E-17 7.88E-17 7.86E-17 1.20E-16 7.36E-17 7.62E-17 8.25E-17 9.53E-17
Eu-147 1.54E-17 1.58E-17 1.39E-17 1.37E-17 2.36E-17 1.30E-17 1.34E-17 1.47E-17 1.70E-17
Eu-148 7.41E-17 7.57E-17 6.69E-17 6.65E-17 1.06E-16 6.25E-17 6.46E-17 7.03E-17 8.12E-17
Eu-149 1.17E-18 1.22E-18 9.82E-19 9.27E-19 2.24E-18 9.34E-19 9.41E-19 1.08E-18 1.32E-18
Eu-lBOb1 4.92E-17 5.04E-17 4.42E-17 4.37E-17 7.46E-17 4.13E-17 4.26E-17 4.67E-17 5.40E-17
Eu-150a2 1.48E-18 1.52E-18 1.33E-18 1.31E-18 2.32E-18 1.24E-18 1.28E-18 1.40E-18 2.29E-18
Eu-152m 9.85E-18 1.01E-17 8.99E-18 8.94E-18 1.40E-17 8.36E-18 8.69E-18 9.40E-18 1.48E-17
Eu-152 3.93E-17 4.01E-17 3.59E-17 3.58E-17 5.54E-17 3.35E-17 3.47E-17 3.75E-17 4.33E-17
Eu-154 4.30E-17 4.39E-17 3.94E-17 3.93E-17 5.98E-17 3.68E-17 3.81E-17 4.11E-17 4.81E-17
Eu-155 1.02E-18 1.06E-18 8.85E-19 7.68E-19 3.06E-18 8.31E-19 8.22E-19 9.75E-19 1.12E-18
Eu-156 4.85E-17 4.91E-17 4.45E-17 4.48E-17 6.34E-17 4.19E-17 4.31E-17 4.63E-17 5.58E-17
Eu-157 7.44E-18 7.67E-18 6.58E-18 6.40E-18 1.25E-17 6.16E-18 6.32E-18 7.02E-18 9.28E-18
Eu-158 3.73E-17 3.80E-17 3.42E-17 3.42E-17 5.05E-17 3.19E-17 3.31E-17 3.56E-17 5.07E-17
Gadolinium
Gd-145 8.30E-17 8.35E-17 7.57E-17 7.62E-17 1.08E-16 7.17E-17 7.34E-17 7.89E-17 9.59E-17
Gd-146 4.51E-18 4.72E-18 3.90E-18 3.52E-18 1.18E-17 3.68E-18 3.66E-18 4.29E-18 5.00E-18
Gd-147 4.41E-17 4.52E-17 4.00E-17 3.96E-17 6.58E-17 3.73E-17 3.86E-17 4.20E-17 4.85E-17
Gd-148 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-149 1.21E-17 1.25E-17 1.08E-17 1.06E-17 2.09E-17 1.01E-17 1.04E-17 1.15E-17 1.34E-17
Gd-151 l.OOE-18 1.06E-18 8.34E-19 7.63E-19 2.28E-18 7.96E-19 7.91E-19 9.31E-19 1.14E-18
Gd-152 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
Gd-153 1.40E-18 1.48E-18 1.15E-18 9.83E-19 4.11E-18 1.10E-18 1.08E-18 1.31E-18 1.58E-18
Gd-159 1.35E-18 1.40E-18 1.19E-18 1.15E-18 2.40E-18 1.12E-18 1.14E-18 1.28E-18 1.93E-18
Terbium
Tb-147 5.45E-17 5.57E-17 4.95E-17 4.93E-17 7.71E-17 4.62E-17 4.79E-17 5.19E-17 6.68E-17
Tb-149 5.65E-17 5.73E-17 5.14E-17 5.13E-17 7.85E-17 4.83E-17 4.97E-17 5.38E-17 6.31E-17
Tb-150 5.84E-17 5.94E-17 5.29E-17 5.26E-17 8.19E-17 4.95E-17 5.11E-17 5.54E-17 7.05E-17
Tb-151 2.78E-17 2.86E-17 2.50E-17 2.45E-17 4.44E-17 2.33E-17 2.40E-17 2.64E-17 3.06E-17
Tb-153 5.61E-18 5.83E-18 4.98E-18 4.77E-18 1.09E-17 4.66E-18 4.76E-18 5.34E-18 6.23E-18
Tb-154 8.66E-17 8.71E-17 7.95E-17 8.01E-17 1.12E-16 7.53E-17 7.71E-17 8.26E-17 9.34E-17
Tb-155 2.63E-18 2.76E-18 2.28E-18 2.08E-18 6.38E-18 2.15E-18 2.15E-18 2.50E-18 2.93E-18
Tb-156m3 2.16E-19 2.39E-19 1.59E-19 1.17E-19 7.08E-19 1.59E-19 1.48E-19 1.93E-19 2.58E-19
Tb-156n4 3.77E-20 4.07E-20 2.94E-20 2.35E-20 1.17E-19 2.87E-20 2.74E-20 3.45E-20 4.38E-20
Tb-156 6.23E-17 6.35E-17 5.67E-17 5.65E-17 8.80E-17 5.31E-17 5.48E-17 5.93E-17 6.82E-17
Tb-157 1.82E-20 2.03E-20 1.19E-20 8.57E-21 5.45E-20 1.24E-20 1.13E-20 1.55E-20 2.26E-20
Tb-158 2.65E-17 2.71E-17 2.42E-17 2.41E-17 3.74E-17 2.25E-17 2.34E-17 2.53E-17 2.93E-17
1 TK = 34.2 y
2 TK = 12.62 h
3 TK = 24.4 y
4 TK = 5.0 h
-------
175
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose
Nuclide
Terbium,
Tb-160
Tb-161
Gonad
cont '
3.
3 .
87E
24E
d
-17
-19
Breast
3
3
.96E
.51E
-17
-19
Lung
3
2
.55E
.48E
-17
-19
Coefficient hT (Sv per Bq s nr
J)
R Marrow BSurface Thyroid Remainder
3.53E-17 5.43E-17 3.30E-17 3
1.98E-19 9.91E-19 2.44E-19 2
.43E
.32E
-17
-19
Effective
3
2
.70E
. 94E
-17
-19
4
3
Skin
.28E-17
.87E-19
Dysprosium
Dy-155
Dy-157
Dy-159
Dy-165
Dy-166
Holmium
Ho-155
Ho-157
Ho-159
Ho -161
Ho-162m
Ho-162
Ho-164m
Ho-164
Ho-166m
Ho-166
Ho-167
Erbium
Er-161
Er-165
Er-169
Er-171
Er-172
Thulium
Tm-162
Tm-166
Tm-167
Tm-170
Tm-171
Tm-172
Tm-173
Tm-175
1.
1.
3.
7.
5.
1.
1.
8.
5.
1.
4.
3.
2.
5.
8.
1.
3.
3.
8.
1.
1.
6.
6.
3 .
8.
6.
1.
1.
3.
83E
02E
41E
30E
23E
17E
41E
98E
36E
84E
59E
70E
70E
78E
80E
12E
05E
IDE
13E
IDE
68E
39E
63E
14E
42E
47E
72E
24E
58E
-17
-17
-19
-19
-19
-17
-17
-18
-19
-17
-18
-19
-19
-17
-19
-17
-17
-19
-22
-17
-17
-17
-17
-18
-20
-21
-17
-17
-17
1
1
3
7
5
1
1
9
5
1
4
4
2
5
8
1
3
3
8
1
1
6
6
3
8
7
1
1
3
.88E
.06E
.79E
.53E
.57E
.20E
.46E
.32E
.85E
.88E
.71E
.09E
.95E
. 94E
.97E
.15E
. 12E
.43E
.71E
. 14E
. 72E
.46E
.71E
.29E
. 92E
.03E
. 74E
.28E
.67E
-17
-17
-19
-19
-19
-17
-17
-18
-19
-17
-18
-19
-19
-17
-19
-17
-17
-19
-22
-17
-17
-17
-17
-18
-20
-21
-17
-17
-17
1
9
2
6
4
1
1
7
3
1
4
2
2
5
7
9
2
2
6
9
1
5
6
2
7
5
1
1
3
.66E
.07E
.33E
.50E
.30E
. 04E
.26E
.98E
.98E
.67E
.HE
.67E
. 02E
.24E
.95E
. 94E
.78E
.24E
.41E
.80E
.50E
.85E
.05E
.75E
.15E
. 12E
.58E
.HE
.25E
-17
-18
-19
-19
-19
-17
-17
-18
-19
-17
-18
-19
-19
-17
-19
-18
-17
-19
-22
-18
-17
-17
-17
-18
-20
-21
-17
-17
-17
1.64E-17 2.86E-17 1.55E-17 1
8.81E-18 1.83E-17 8.48E-18 8
1.69E-19 1.05E-18 2.40E-19 2
6.27E-19 1.29E-18 6.07E-19 6
3.65E-19 1.47E-18 4.13E-19 4
1.02E-17 1.90E-17 9.75E-18 1
1.23E-17 2.38E-17 1.18E-17 1
7.60E-18 1.81E-17 7.47E-18 7
3.14E-19 1.62E-18 3.96E-19 3
1.66E-17 2.72E-17 1.56E-17 1
4.02E-18 7.15E-18 3.86E-18 3
1.97E-19 1.18E-18 2.69E-19 2
1.55E-19 8.51E-19 2.01E-19 1
5.18E-17 8.70E-17 4.88E-17 5
7.76E-19 1.43E-18 7.49E-19 7
9.70E-18 1.95E-17 9.28E-18 9
2.76E-17 4.34E-17 2.59E-17 2
1.65E-19 l.OOE-18 2.26E-19 2
5.47E-22 2.30E-21 6.21E-22 6
9.48E-18 2.05E-17 9.15E-18 9
1.48E-17 2.60E-17 1.40E-17 1
5.87E-17 8.53E-17 5.53E-17 5
6.07E-17 8.91E-17 5.70E-17 5
2.58E-18 6.92E-18 2.59E-18 2
6.00E-20 2.62E-19 6.78E-20 6
3.91E-21 2.18E-20 4.99E-21 4
1.59E-17 2.27E-17 1.49E-17 1
1.09E-17 2.03E-17 1.03E-17 1
3.22E-17 5.15E-17 3.03E-17 3
.60E
.70E
.20E
.23E
. 02E
.OOE
.21E
.61E
. 74E
.61E
.95E
.49E
.89E
.06E
. 64E
. 54E
.68E
.IDE
.05E
.38E
.44E
.67E
.86E
.61E
. 64E
. 74E
.53E
.06E
. 14E
-17
-18
-19
-19
-19
-17
-17
-18
-19
-17
-18
-19
-19
-17
-19
-18
-17
-19
-22
-18
-17
-17
-17
-18
-20
-21
-17
-17
-17
1
9
2
6
4
1
1
8
4
1
4
3
2
5
8
1
2
2
7
1
1
6
6
2
8
5
1
1
3
.75E
.70E
.95E
. 92E
.87E
.HE
.34E
.56E
.80E
.75E
.35E
.28E
.43E
.51E
.38E
.06E
.91E
.75E
.45E
.05E
.59E
.IDE
.31E
.99E
.OOE
.98E
.65E
.18E
.41E
-17
-18
-19
-19
-19
-17
-17
-18
-19
-17
-18
-19
-19
-17
-19
-17
-17
-19
-22
-17
-17
-17
-17
-18
-20
-21
-17
-17
-17
2
1
4
2
5
1
1
9
6
2
5
4
5
6
6
1
3
3
9
1
1
7
7
3
6
7
2
1
4
.01E-17
.12E-17
.17E-19
.57E-18
.94E-19
.47E-17
.57E-17
.92E-18
.44E-19
.02E-17
.13E-18
.45E-19
.24E-19
.38E-17
.08E-18
.24E-17
.36E-17
.72E-19
.91E-22
.30E-17
.84E-17
.32E-17
.22E-17
.49E-18
.38E-19
.47E-21
.22E-17
.40E-17
.16E-17
Ytterbium
Yb-162
Yb-166
Yb-167
Yb-169
Yb-175
Yb-177
Yb-178
Lutetium
Lu-169
Lu-170
Lu-171
Lu-172
Lu-173
Lu-174m
Lu-174
Lu-176m
Lu-176
Lu-177m
Lu-177
Lu-178m
Lu-178
Lu-179
2.
8.
4.
6.
1.
6.
1.
3.
9.
2.
6.
2.
8.
3 .
2.
1.
2.
8.
3 .
4.
9.
61E
77E
99E
20E
19E
19E
HE
51E
19E
18E
44E
37E
37E
23E
29E
41E
81E
83E
29E
97E
09E
-18
-19
-18
-18
-18
-18
-18
-17
-17
-17
-17
-18
-19
-18
-19
-17
-17
-19
-17
-18
-19
2
9
5
6
1
6
1
3
9
2
6
2
8
3
2
1
2
9
3
5
9
. 74E
.51E
.22E
.50E
.22E
.33E
. 14E
.57E
.24E
.24E
.58E
.49E
.90E
.32E
.41E
.47E
.91E
.19E
.39E
. 04E
.44E
-18
-19
-18
-18
-18
-18
-18
-17
-17
-17
-17
-18
-19
-18
-19
-17
-17
-19
-17
-18
-19
2
6
4
5
1
5
9
3
8
1
5
2
7
2
1
1
2
7
2
4
8
.29E
. 92E
.36E
.42E
.06E
.67E
.85E
.20E
.46E
.97E
.89E
. 04E
.DIE
.91E
.97E
.26E
.50E
.89E
.93E
.55E
.16E
-18
-19
-18
-18
-18
-18
-19
-17
-17
-17
-17
-18
-19
-18
-19
-17
-17
-19
-17
-18
-19
2.07E-18 6.75E-18 2.15E-18 2
5.36E-19 2.89E-18 6.75E-19 6
3.95E-18 1.26E-17 4.11E-18 4
4.98E-18 1.50E-17 5.10E-18 5
1.03E-18 2.10E-18 9.87E-19 1
5.61E-18 9.38E-18 5.28E-18 5
9.65E-19 1.85E-18 9.20E-19 9
3.19E-17 4.93E-17 3.00E-17 3
8.53E-17 1.18E-16 8.01E-17 8
1.95E-17 3.25E-17 1.84E-17 1
5.87E-17 9.01E-17 5.49E-17 5
1.86E-18 5.55E-18 1.93E-18 1
6.04E-19 2.21E-18 6.70E-19 6
2.83E-18 5.24E-18 2.74E-18 2
1.67E-19 7.07E-19 1.86E-19 1
1.22E-17 2.74E-17 1.18E-17 1
2.41E-17 5.46E-17 2.34E-17 2
7.45E-19 1.99E-18 7.37E-19 7
2.84E-17 5.97E-17 2.73E-17 2
4.55E-18 6.80E-18 4.27E-18 4
7.86E-19 1.83E-18 7.61E-19 7
.15E
.42E
.IDE
. 12E
.DIE
.46E
.47E
.09E
.21E
.90E
.69E
.93E
.57E
.80E
.83E
.21E
.39E
.49E
.81E
.40E
.79E
-18
-19
-18
-18
-18
-18
-19
-17
-17
-17
-17
-18
-19
-18
-19
-17
-17
-19
-17
-18
-19
2
8
4
5
1
5
1
3
8
2
6
2
7
3
2
1
2
8
3
4
8
.50E
.09E
.76E
.91E
.13E
.93E
.05E
.35E
.78E
.08E
.15E
.23E
.83E
.07E
.19E
.35E
.68E
.49E
.13E
. 74E
.73E
-18
-19
-18
-18
-18
-18
-18
-17
-17
-17
-17
-18
-19
-18
-19
-17
-17
-19
-17
-18
-19
2
1
5
6
1
8
1
3
9
2
7
2
9
3
1
1
3
9
3
1
2
.89E-18
.01E-18
.52E-18
.88E-18
.30E-18
.68E-18
.24E-18
.84E-17
.95E-17
.41E-17
.10E-17
.64E-18
.51E-19
.57E-18
.94E-18
.55E-17
.08E-17
.72E-19
.77E-17
.20E-17
.99E-18
-------
176
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose
Nuclide
Hafnium
Hf-170
Hf-172
Hf-173
Hf-175
Hf-177m
Hf-178m
Hf-179m
Hf-180m
Hf-181
Hf-182m
Hf-182
Hf-183
Hf-184
Tantalum
Ta-172
Ta-173
Ta-174
Ta-175
Ta-176
Ta-177
Ta-178b1
Ta-178a2
Ta-179
Ta-180m
Ta-180
Ta-182m
Ta-182
Ta-183
Ta-184
Ta-185
Ta-186
Tungsten
W-176
W-177
W-178
W-179
W-181
W-185
W-187
W-188
Rhenium
Re-177
Re-178
Re-180
Re-181
Re-182b3
Re-182a4
Re-184m
Re-184
Re-186m
Re-186
Re-187
Re-188m
Re-188
Re-189
Osmium
Os-180
1 TK = 2.
2 TK = 9.
3 TK = 64
4 TK = 12
Gonad
1
1
1
1
6
7
2
3
1
2
6
2
6
5
1
1
3
7
1
2
2
3
5
1
5
4
7
5
4
5
2
2
1
5
4
2
1
5
1
4
3
2
6
3
1
2
1
4
0
1
1
1
9
2
31
.0
.7
.57E
.42E
.04E
.05E
.60E
.35E
.64E
.03E
.72E
.91E
.99E
.49E
.70E
.24E
.80E
.93E
.09E
.78E
.DIE
.93E
.53E
.32E
.47E
.57E
.77E
.44E
.32E
.28E
.83E
.07E
.66E
.74E
.43E
.61E
.37E
.47E
.55E
.42E
.97E
.19E
.93E
.41E
. 12E
.97E
.15E
.93E
.59E
.34E
.0
.09E
.80E
.87E
.07E
h
m
h
h
-17
-18
-17
-17
-17
-17
-17
-17
-17
-17
-18
-17
-18
-17
-17
-17
-17
-17
-18
-17
-18
-19
-19
-17
-18
-17
-18
-17
-18
-17
-18
-17
-19
-19
-19
-21
-17
-20
-17
-17
-17
-17
-17
-17
-17
-17
-19
-19
-18
-18
-18
-19
Breast
1
1
1
1
6
7
2
3
1
2
7
2
6
5
1
1
3
7
1
3.
2.
3
5
1
6
4
7
5
5
5
2
2
1
6
4
2
1
5
2
4
4
2
6.
4.
1
3
1
4
0
1
1
1
9
. 62E
.51E
.08E
.09E
. 82E
.56E
. 72E
. 12E
.77E
.99E
.25E
.55E
.93E
.35E
.85E
.98E
. 14E
.85E
.06E
. 02E
,60E
.60E
.88E
.63E
. 02E
.53E
.61E
.42E
.DIE
.20E
.80E
. 82E
.55E
.IDE
. 72E
.61E
.59E
.63E
.DIE
.25E
. 04E
.47E
,26E
. 04E
.18E
.DIE
.71E
. 52E
.0
.15E
.85E
. 94E
.59E
-17
-18
-17
-17
-17
-17
-17
-17
-17
-17
-18
-17
-18
-17
-17
-17
-17
-17
-18
-17
-18
-19
-19
-17
-18
-17
-18
-17
-18
-17
-18
-17
-19
-19
-19
-21
-17
-20
-17
-17
-17
-17
-17
-17
-17
-17
-19
-19
-18
-18
-18
-19
Lung
1
1
9
9
5
6
2
2
1
2
6
2
5
4
1
1
2
7
8
2.
2.
2
4
1
5
4
6
4
4
4
2
2
1
4
3
2
1
4
1
3
3
2
5.
3.
1
2
1
3
0
9
1
1
7
.40E
.17E
.30E
.33E
.90E
.56E
.35E
.70E
. 54E
. 62E
.25E
.25E
.96E
.77E
. 62E
. 74E
. 82E
. 14E
.57E
,60E
,26E
.66E
.48E
.40E
.13E
.08E
.50E
.78E
.31E
.57E
.30E
.48E
.17E
.38E
.56E
.06E
.40E
.83E
.78E
. 82E
.59E
.17E
,58E
. 64E
. 04E
.68E
.28E
.85E
.0
.27E
.63E
.67E
.71E
-17
-18
-18
-18
-17
-17
-17
-17
-17
-17
-18
-17
-18
-17
-17
-17
-17
-17
-19
-17
-18
-19
-19
-17
-18
-17
-18
-17
-18
-17
-18
-17
-19
-19
-19
-21
-17
-20
-17
-17
-17
-17
-17
-17
-17
-17
-19
-19
-19
-18
-18
-19
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
1.36E-17 2.73E-17 1.31E-17
9.67E-19 4.42E-18 1.12E-18
8.83E-18 2.17E-17 8.68E-18
9.04E-18 1.89E-17 8.72E-18
5.72E-17 1.22E-16 5.50E-17
6.41E-17 1.23E-16 6.12E-17
2.28E-17 4.76E-17 2.19E-17
2.63E-17 5.32E-17 2.52E-17
1.50E-17 2.88E-17 1.43E-17
2.56E-17 4.75E-17 2.44E-17
6.05E-18 1.34E-17 5.83E-18
2.23E-17 3.66E-17 2.10E-17
5.71E-18 1.34E-17 5.57E-18
4.74E-17 7.56E-17 4.46E-17
1.59E-17 2.84E-17 1.51E-17
1.70E-17 3.16E-17 1.62E-17
2.80E-17 4.49E-17 2.65E-17
7.18E-17 1.02E-16 6.74E-17
7.43E-19 2.72E-18 8.14E-19
2.52E-17 5.41E-17 2.43E-17
2.16E-18 4.58E-18 2.13E-18
2.04E-19 1.13E-18 2.58E-19
3.53E-19 1.82E-18 4.31E-19
1.35E-17 3.02E-17 1.31E-17
4.79E-18 1.36E-17 4.80E-18
4.07E-17 6.19E-17 3.81E-17
6.17E-18 1.55E-17 6.08E-18
4.72E-17 8.16E-17 4.45E-17
4.08E-18 1.02E-17 4.02E-18
4.50E-17 8.01E-17 4.25E-17
1.94E-18 8.34E-18 2.17E-18
2.43E-17 4.45E-17 2.31E-17
9.03E-20 4.88E-19 1.12E-19
3.40E-19 1.84E-18 4.27E-19
2.77E-19 1.48E-18 3.43E-19
1.80E-21 6.97E-21 1.96E-21
1.37E-17 2.36E-17 1.30E-17
4.65E-20 1.06E-19 4.51E-20
1.76E-17 3.00E-17 1.67E-17
3.81E-17 6.03E-17 3.60E-17
3.56E-17 5.66E-17 3.34E-17
2.13E-17 3.81E-17 2.03E-17
5.52E-17 9.30E-17 5.22E-17
3.62E-17 5.56E-17 3.40E-17
1.01E-17 1.93E-17 9.65E-18
2.65E-17 4.25E-17 2.49E-17
1.01E-19 5.23E-19 1.24E-19
3.49E-19 1.15E-18 3.60E-19
0.0 0.0 0.0
7.69E-19 3.50E-18 8.78E-19
1.58E-18 3.23E-18 1.52E-18
1.59E-18 3.86E-18 1.56E-18
6.65E-19 2.49E-18 7.31E-19
m"
3)
Remainder
1
1
8
8
5
6
2
2
1
2
5
2
5
4
1
1
2
6
8
2.
2.
2
4
1
4
3
6
4
4
4
2
2
1
4
3
1
1
4
1
3
3
2
5.
3.
9
2
1
3
0
8
1
1
7
.34E
.09E
.85E
. 94E
.65E
.30E
.25E
.59E
.47E
. 52E
.98E
.17E
.69E
.61E
.56E
.67E
. 72E
. 92E
.DIE
,49E
,16E
.46E
. 14E
.34E
.86E
. 94E
.19E
.61E
.IDE
.40E
.13E
.39E
.08E
.08E
.29E
.93E
.34E
. 62E
.71E
.69E
.47E
.09E
,38E
. 52E
.95E
.58E
.19E
.61E
.0
.59E
.56E
.59E
.21E
-17
-18
-18
-18
-17
-17
-17
-17
-17
-17
-18
-17
-18
-17
-17
-17
-17
-17
-19
-17
-18
-19
-19
-17
-18
-17
-18
-17
-18
-17
-18
-17
-19
-19
-19
-21
-17
-20
-17
-17
-17
-17
-17
-17
-18
-17
-19
-19
-19
-18
-18
-19
Effective
1
1
9
9
6
6
2
2
1
2
6
2
6
5
1
1
2
7
9
2.
2.
3
5
1
5
4
6
5
4
4
2
2
1
5
4
2
1
5
1
4
3
2
5.
3.
1
2
1
4
0
1
1
1
8
.49E
.33E
.97E
.97E
.29E
.97E
.51E
.88E
.63E
.77E
.68E
.37E
.39E
.OOE
.71E
. 84E
.95E
.42E
.49E
,78E
,40E
.09E
.13E
.50E
.55E
.25E
.99E
.03E
. 62E
. 82E
.55E
. 62E
.34E
.15E
.09E
.32E
.47E
.18E
.87E
.OOE
.76E
.29E
,85E
,79E
.09E
.80E
.48E
.18E
.0
. 04E
. 72E
.79E
.56E
-17
-18
-18
-18
-17
-17
-17
-17
-17
-17
-18
-17
-18
-17
-17
-17
-17
-17
-19
-17
-18
-19
-19
-17
-18
-17
-18
-17
-18
-17
-18
-17
-19
-19
-19
-21
-17
-20
-17
-17
-17
-17
-17
-17
-17
-17
-19
-19
-18
-18
-18
-19
1
1
1
1
7
8
2
3
1
3
7
2
7
6
2
2
3
8
1
3.
2.
3
6
1
6
4
8
5
9
6
2
3
1
6
4
2
1
5
2
5
4
2
6.
4.
1
3
1
1
0
1
8
2
1
Skin
.73E-17
.61E-18
.15E-17
.15E-17
.25E-17
.05E-17
.89E-17
.32E-17
.88E-17
.20E-17
.68E-18
.91E-17
.88E-18
.20E-17
.28E-17
.42E-17
.37E-17
.46E-17
.13E-18
.21E-17
.79E-18
.80E-19
.30E-19
.73E-17
.36E-18
.90E-17
.08E-18
.94E-17
.80E-18
.47E-17
.94E-18
.03E-17
.63E-19
.56E-19
.98E-19
.85E-21
.76E-17
.97E-20
.43E-17
.18E-17
.41E-17
.65E-17
.73E-17
.37E-17
.26E-17
.25E-17
.84E-19
.24E-18
.0
.21E-18
.66E-18
.59E-18
.03E-18
-------
177
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Osmium, cont' d
Os-181 4.03E-17 4.12E-17 3.67E-17 3.64E-17 5.97E-17 3.43E-17 3.54E-17 3.85E-17 4.44E-17
Os-182 1.26E-17 1.30E-17 1.13E-17 1.09E-17 2.21E-17 1.05E-17 1.08E-17 1.20E-17 1.39E-17
Os-185 2.35E-17 2.41E-17 2.12E-17 2.09E-17 3.48E-17 1.97E-17 2.04E-17 2.23E-17 2.59E-17
Os-189m 1.05E-23 2.38E-23 1.58E-25 8.20E-25 4.96E-24 1.02E-24 2.64E-24 7.28E-24 5.34E-22
Os-190m 5.16E-17 5.30E-17 4.62E-17 4.55E-17 8.16E-17 4.31E-17 4.45E-17 4.89E-17 5.66E-17
Os-191m 9.07E-20 9.70E-20 7.61E-20 6.08E-20 3.08E-19 7.25E-20 7.05E-20 8.62E-20 1.03E-19
Os-191 1.34E-18 1.40E-18 1.18E-18 1.03E-18 3.92E-18 1.10E-18 1.09E-18 1.29E-18 1.48E-18
Os-193 2.07E-18 2.14E-18 1.85E-18 1.78E-18 3.82E-18 1.72E-18 1.77E-18 1.97E-18 3.14E-18
Os-194 7.38E-21 8.27E-21 4.76E-21 3.43E-21 2.17E-20 5.00E-21 4.55E-21 6.23E-21 9.77E-21
Iridium
Ir-182 4.41E-17 4.52E-17 3.98E-17 3.93E-17 6.77E-17 3.71E-17 3.84E-17 4.19E-17 6.06E-17
Ir-184 6.46E-17 6.58E-17 5.88E-17 5.84E-17 9.42E-17 5.50E-17 5.67E-17 6.16E-17 7.27E-17
Ir-185 1.99E-17 2.01E-17 1.81E-17 1.81E-17 2.86E-17 1.72E-17 1.75E-17 1.90E-17 2.16E-17
Ir-18631 5.53E-17 5.63E-17 5.02E-17 4.99E-17 8.13E-17 4.71E-17 4.85E-17 5.27E-17 6.04E-17
Ir-186b2 3.17E-17 3.24E-17 2.87E-17 2.84E-17 4.73E-17 2.68E-17 2.77E-17 3.01E-17 3.62E-17
Ir-187 1.08E-17 1.11E-17 9.73E-18 9.52E-18 1.74E-17 9.07E-18 9.36E-18 1.03E-17 1.19E-17
Ir-188 5.67E-17 5.71E-17 5.18E-17 5.19E-17 7.63E-17 4.89E-17 5.01E-17 5.40E-17 6.12E-17
Ir-189 1.38E-18 1.45E-18 1.20E-18 1.06E-18 3.69E-18 1.13E-18 1.12E-18 1.31E-18 1.53E-18
Ir-190n3 4.95E-17 5.09E-17 4.43E-17 4.35E-17 7.93E-17 4.13E-17 4.26E-17 4.70E-17 5.43E-17
Ir-190m4 1.34E-23 2.97E-23 5.64E-26 9.87E-25 5.83E-24 1.09E-24 3.13E-24 9.07E-24 5.86E-22
Ir-190 4.57E-17 4.69E-17 4.10E-17 4.02E-17 7.34E-17 3.82E-17 3.94E-17 4.34E-17 5.01E-17
Ir-191m 1.28E-18 1.34E-18 1.12E-18 9.84E-19 3.70E-18 1.05E-18 1.04E-18 1.23E-18 1.40E-18
Ir-192m 4.16E-18 4.33E-18 3.74E-18 3.53E-18 9.72E-18 3.49E-18 3.54E-18 4.02E-18 4.56E-18
Ir-192 2.60E-17 2.68E-17 2.32E-17 2.28E-17 4.34E-17 2.17E-17 2.23E-17 2.47E-17 2.85E-17
Ir-194m 7.70E-17 7.90E-17 6.90E-17 6.81E-17 1.19E-16 6.44E-17 6.65E-17 7.30E-17 8.44E-17
Ir-194 3.07E-18 3.16E-18 2.77E-18 2.73E-18 4.88E-18 2.59E-18 2.67E-18 2.93E-18 1.09E-17
Ir-195m 1.21E-17 1.25E-17 1.08E-17 1.05E-17 2.14E-17 1.01E-17 1.04E-17 1.15E-17 1.35E-17
Ir-195 9.16E-19 9.64E-19 7.96E-19 6.84E-19 2.78E-18 7.49E-19 7.41E-19 8.79E-19 1.67E-18
Platinum
Pt-186 2.42E-17 2.48E-17 2.18E-17 2.16E-17 3.58E-17 2.03E-17 2.11E-17 2.30E-17 2.66E-17
Pt-188 4.73E-18 4.92E-18 4.19E-18 3.93E-18 1.04E-17 3.92E-18 3.98E-18 4.51E-18 5.20E-18
Pt-189 8.93E-18 9.20E-18 8.00E-18 7.73E-18 1.57E-17 7.48E-18 7.67E-18 8.50E-18 9.84E-18
Pt-191 7.65E-18 7.91E-18 6.77E-18 6.43E-18 1.49E-17 6.33E-18 6.46E-18 7.26E-18 8.40E-18
Pt-193m 1.44E-19 1.52E-19 1.22E-19 l.OOE-19 4.81E-19 1.16E-19 1.13E-19 1.37E-19 1.61E-19
Pt-193 4.65E-23 9.70E-23 1.62E-25 3.52E-24 2.06E-23 3.60E-24 l.OOE-23 3.03E-23 1.66E-21
Pt-195m 1.05E-18 1.11E-18 9.10E-19 7.64E-19 3.38E-18 8.58E-19 8.44E-19 1.01E-18 1.17E-18
Pt-197m 1.87E-18 1.95E-18 1.65E-18 1.55E-18 3.99E-18 1.55E-18 1.57E-18 1.78E-18 2.07E-18
Pt-197 4.50E-19 4.71E-19 3.97E-19 3.55E-19 1.24E-18 3.72E-19 3.72E-19 4.33E-19 5.33E-19
Pt-199 6.61E-18 6.78E-18 5.93E-18 5.84E-18 1.04E-17 5.53E-18 5.71E-18 6.27E-18 1.01E-17
Pt-200 1.25E-18 1.30E-18 1.10E-18 1.01E-18 3.06E-18 1.03E-18 1.04E-18 1.20E-18 1.40E-18
Gold
Au-193 3.39E-18 3.54E-18 3.00E-18 2.76E-18 8.01E-18 2.81E-18 2.83E-18 3.24E-18 3.74E-18
Au-194 3.66E-17 3.72E-17 3.34E-17 3.32E-17 5.24E-17 3.14E-17 3.22E-17 3.49E-17 3.99E-17
Au-195m 5.67E-18 5.89E-18 5.07E-18 4.90E-18 1.11E-17 4.73E-18 4.85E-18 5.43E-18 6.24E-18
Au-195 1.16E-18 1.23E-18 9.97E-19 8.27E-19 3.80E-18 9.41E-19 9.24E-19 1.11E-18 1.29E-18
Au-198m 1.46E-17 1.52E-17 1.31E-17 1.24E-17 3.27E-17 1.22E-17 1.24E-17 1.41E-17 1.61E-17
Au-198 1.31E-17 1.35E-17 1.17E-17 1.15E-17 2.11E-17 1.09E-17 1.13E-17 1.24E-17 1.49E-17
Au-199 2.16E-18 2.25E-18 1.94E-18 1.82E-18 5.13E-18 1.81E-18 1.83E-18 2.09E-18 2.37E-18
Au-200m 6.84E-17 7.03E-17 6.16E-17 6.08E-17 1.06E-16 5.74E-17 5.94E-17 6.51E-17 7.52E-17
Au-200 9.63E-18 9.81E-18 8.79E-18 8.77E-18 1.35E-17 8.22E-18 8.49E-18 9.18E-18 1.72E-17
Au-201 1.74E-18 1.79E-18 1.56E-18 1.53E-18 2.73E-18 1.45E-18 1.50E-18 1.65E-18 3.42E-18
Mercury
Hg-193m 3.40E-17 3.48E-17 3.09E-17 3.05E-17 5.21E-17 2.88E-17 2.97E-17 3.24E-17 3.73E-17
Hg-193 4.37E-18 4.55E-18 3.87E-18 3.58E-18 1.03E-17 3.62E-18 3.66E-18 4.18E-18 4.86E-18
Hg-194 9.47E-23 1.82E-22 4.09E-25 7.60E-24 4.40E-23 7.13E-24 1.83E-23 5.89E-23 2.32E-21
Hg-195m 5.90E-18 6.09E-18 5.28E-18 5.11E-18 1.08E-17 4.93E-18 5.05E-18 5.62E-18 6.49E-18
Hg-195 5.58E-18 5.74E-18 5.03E-18 4.88E-18 9.63E-18 4.69E-18 4.83E-18 5.32E-18 6.17E-18
1 TK = 15.8 h
2 TK = 1.75 h
3 TK = 3 . 1 h
4 TV, = 1.2 h
-------
178
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose
Nuclide
Mercury,
Hg-197m
Hg-197
Hg-199m
Hg-203
Thallium
Tl-194m
Tl-194
Tl-195
Tl-197
Tl-198m
Tl-198
Tl-199
Tl-200
Tl-201
Tl-202
Tl-204
Tl-206
Tl-207
Tl-208
Tl-209
Lead
Pb-195m
Pb-198
Pb-199
Pb-200
Pb-201
Pb-202m
Pb-202
Pb-203
Pb-205
Pb-209
Pb-210
Pb-211
Pb-212
Pb-214
Bismuth
Bi-200
Bi-201
Bi-202
Bi-203
Bi-205
Bi-206
Bi-207
Bi-210m
Bi-210
Bi-211
Bi-212
Bi-213
Bi-214
Polonium
Po-203
Po-205
Po-207
Po-210
Po-211
Po-212
Po-213
Po-214
Po-215
Po-216
Po-218
Gonad
cont '
1
9
4
7
7
2
4
1
3
7
6
4
1
1
2
4
1
1
7
5
1
5
4
2
6
4
8
5
4
1
1
3
7
7
4
9
8
6
1
5
7
2
1
6
4
5
5
5
4
2
2
0
0
2
5
5
3
.96E
.57E
.50E
.08E
.63E
.48E
.45E
.24E
. 84E
.15E
.61E
.43E
.53E
.42E
.27E
.34E
.HE
.28E
.27E
.22E
.25E
.IDE
.68E
.40E
.97E
.97E
.41E
.76E
.41E
.51E
.73E
.93E
. 54E
.95E
.50E
.27E
. 54E
. 04E
.13E
.27E
. 72E
.03E
.45E
.58E
.33E
. 52E
.66E
.44E
.51E
. 94E
.68E
.0
.0
.88E
.75E
.85E
.16E
d
-18
-19
-18
-18
-17
-17
-17
-17
-17
-17
-18
-17
-18
-17
-20
-20
-19
-16
-17
-17
-17
-17
-18
-17
-17
-23
-18
-23
-21
-20
-18
-18
-18
-17
-17
-17
-17
-17
-16
-17
-18
-20
-18
-18
-18
-17
-17
-17
-17
-22
-19
-21
-21
-22
-22
Breast
2
1
4
7
7
2
4
1
3
7
6
4
1
1
2
4
1
1
7
5
1
5
4
2
7
1
8
1
4
1
1
4
7
8
4
9
8
6
1
5
7
2
1
6
4
5
5
5
4
3
2
0
0
2
5
6
3
. 04E
.DIE
.67E
.33E
.83E
. 54E
.51E
.27E
. 94E
.22E
.83E
. 52E
.61E
.46E
.39E
.51E
. 14E
.29E
.34E
.35E
.29E
.18E
.87E
.47E
. 14E
.06E
. 72E
.21E
.65E
.70E
.77E
.09E
.78E
.15E
.61E
.47E
. 64E
.HE
.15E
.38E
.99E
. 12E
.49E
.70E
.45E
.57E
.77E
.55E
. 62E
.DIE
.75E
.0
.0
.95E
.90E
.OOE
.24E
-18
-18
-18
-18
-17
-17
-17
-17
-17
-17
-18
-17
-18
-17
-20
-20
-19
-16
-17
-17
-17
-17
-18
-17
-17
-22
-18
-22
-21
-20
-18
-18
-18
-17
-17
-17
-17
-17
-16
-17
-18
-20
-18
-18
-18
-17
-17
-17
-17
-22
-19
-21
-21
-22
-22
Lung
1
8
4
6
6
2
4
1
3
6
5
4
1
1
1
3
1
1
6
4
1
4
4
2
6
1
7
2
3
1
1
3
6
7
4
8
7
5
1
4
6
1
1
6
3
5
5
4
4
2
2
0
0
2
5
5
2
.75E
.25E
.DIE
.33E
.87E
.22E
.07E
. 12E
.45E
. 52E
.90E
.03E
.34E
.26E
.95E
.81E
.OOE
.18E
.63E
.71E
. 12E
. 64E
.17E
.17E
.34E
.71E
.50E
. 14E
. 72E
.03E
.56E
. 52E
. 74E
.20E
.HE
.44E
.81E
. 52E
.03E
.80E
.91E
.77E
.29E
.OOE
.87E
.05E
.18E
.98E
.13E
.68E
.44E
.0
.0
.63E
. 12E
.34E
.89E
-18
-19
-18
-18
-17
-17
-17
-17
-17
-17
-18
-17
-18
-17
-20
-20
-19
-16
-17
-17
-17
-17
-18
-17
-17
-25
-18
-25
-21
-20
-18
-18
-18
-17
-17
-17
-17
-17
-16
-17
-18
-20
-18
-18
-18
-17
-17
-17
-17
-22
-19
-21
-21
-22
-22
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
1.60E-18 5.04E-18 1.63E-18
6.84E-19 3.16E-18 7.78E-19
3.77E-18 1.01E-17 3.74E-18
6.14E-18 1.33E-17 5.90E-18
6.78E-17 1.16E-16 6.40E-17
2.18E-17 3.91E-17 2.07E-17
4.07E-17 6.11E-17 3.83E-17
1.10E-17 2.02E-17 1.05E-17
3.39E-17 6.03E-17 3.21E-17
6.53E-17 9.71E-17 6.15E-17
5.65E-18 1.28E-17 5.51E-18
4.00E-17 6.43E-17 3.77E-17
1.17E-18 4.57E-18 1.26E-18
1.23E-17 2.38E-17 1.18E-17
1.66E-20 6.95E-20 1.84E-20
3.57E-20 9.41E-20 3.57E-20
9.83E-20 1.82E-19 9.35E-20
1.19E-16 1.63E-16 1.13E-16
6.64E-17 9.91E-17 6.25E-17
4.65E-17 8.00E-17 4.39E-17
1.08E-17 2.30E-17 1.04E-17
4.63E-17 7.21E-17 4.36E-17
3.86E-18 1.11E-17 3.89E-18
2.13E-17 3.83E-17 2.02E-17
6.29E-17 9.99E-17 5.89E-17
3.72E-24 2.18E-23 3.97E-24
7.18E-18 1.68E-17 7.00E-18
4.38E-24 2.57E-23 4.58E-24
3.33E-21 1.15E-20 3.53E-21
7.48E-21 4.68E-20 1.06E-20
1.54E-18 2.57E-18 1.45E-18
3.35E-18 8.30E-18 3.28E-18
6.56E-18 1.34E-17 6.29E-18
7.13E-17 1.19E-16 6.71E-17
4.08E-17 6.45E-17 3.82E-17
8.39E-17 1.32E-16 7.87E-17
7.83E-17 1.14E-16 7.35E-17
5.54E-17 8.09E-17 5.20E-17
1.03E-16 1.59E-16 9.63E-17
4.77E-17 7.44E-17 4.47E-17
6.72E-18 1.42E-17 6.45E-18
1.64E-20 4.71E-20 1.66E-20
1.26E-18 2.50E-18 1.20E-18
5.99E-18 8.99E-18 5.61E-18
3.80E-18 6.90E-18 3.61E-18
5.07E-17 7.24E-17 4.75E-17
5.17E-17 7.93E-17 4.84E-17
4.97E-17 7.60E-17 4.65E-17
4.11E-17 6.42E-17 3.84E-17
2.67E-22 4.10E-22 2.49E-22
2.42E-19 3.80E-19 2.27E-19
0.0 0.0 0.0
0.0 0.0 0.0
2.61E-21 4.02E-21 2.44E-21
5.04E-21 9.10E-21 4.78E-21
5.32E-22 8.16E-22 4.96E-22
2.88E-22 4.39E-22 2.68E-22
nr
J)
Remainder
1
7
3
6
6
2
3
1
3
6
5
3
1
1
1
3
9
1
6
4
1
4
3
2
6
1
7
1
3
9
1
3
6
6
3
8
7
5
9
4
6
1
1
5
3
4
5
4
3
2
2
0
0
2
4
5
2
. 64E
.65E
.80E
.06E
. 62E
. 14E
. 94E
.08E
.32E
.31E
. 64E
.89E
.25E
.21E
. 82E
. 62E
.66E
.15E
.41E
. 54E
.07E
.49E
. 94E
.09E
. 12E
.HE
.16E
.26E
.50E
.70E
.51E
.35E
.46E
.95E
.96E
.15E
.56E
.35E
.96E
. 64E
. 62E
.67E
.24E
.80E
. 72E
.89E
.DIE
. 82E
.99E
.59E
.35E
.0
.0
. 54E
.93E
.16E
.79E
-18
-19
-18
-18
-17
-17
-17
-17
-17
-17
-18
-17
-18
-17
-20
-20
-20
-16
-17
-17
-17
-17
-18
-17
-17
-23
-18
-23
-21
-21
-18
-18
-18
-17
-17
-17
-17
-17
-17
-17
-18
-20
-18
-18
-18
-17
-17
-17
-17
-22
-19
-21
-21
-22
-22
Effective
1
9
4
6
7
2
4
1
3
6
6
4
1
1
2
4
1
1
6
4
1
4
4
2
6
3
8
3
4
1
1
3
7
7
4
8
8
5
1
5
7
1
1
6
4
5
5
5
4
2
2
0
0
2
5
5
3
.89E
.20E
.31E
.76E
.24E
.35E
.25E
.18E
.65E
.81E
.30E
.22E
.48E
.34E
.17E
. 12E
.06E
.23E
. 92E
.96E
.19E
.86E
.50E
.29E
. 64E
.30E
.03E
.78E
. 14E
.31E
. 64E
.77E
.18E
.57E
.30E
. 84E
. 14E
.76E
.08E
. 02E
.37E
.93E
.37E
.27E
.IDE
.25E
.41E
.20E
.31E
.80E
.55E
.0
.0
.75E
.44E
.58E
. 02E
-18
-19
-18
-18
-17
-17
-17
-17
-17
-17
-18
-17
-18
-17
-20
-20
-19
-16
-17
-17
-17
-17
-18
-17
-17
-23
-18
-23
-21
-20
-18
-18
-18
-17
-17
-17
-17
-17
-16
-17
-18
-20
-18
-18
-18
-17
-17
-17
-17
-22
-19
-21
-21
-22
-22
2
1
4
7
8
2
4
1
4
7
7
4
1
1
1
3
2
1
8
5
1
5
5
2
7
2
9
2
3
2
3
4
8
8
5
1
9
6
1
5
8
1
1
1
6
6
6
6
4
3
2
0
0
3
6
6
3
Skin
.15E-18
.06E-18
.94E-18
.77E-18
.64E-17
.72E-17
.87E-17
.37E-17
.22E-17
.75E-17
.27E-18
.86E-17
.69E-18
.55E-17
.96E-19
.05E-18
.53E-18
.41E-16
.35E-17
.83E-17
.38E-17
.56E-17
.14E-18
.64E-17
.69E-17
.07E-21
.24E-18
.24E-21
.91E-20
.26E-20
.91E-18
.32E-18
.38E-18
.87E-17
.02E-17
.02E-16
.31E-17
.57E-17
.24E-16
.87E-17
.48E-18
.20E-18
.58E-18
.13E-17
.47E-18
.51E-17
.30E-17
.OOE-17
.99E-17
.25E-22
.96E-19
.0
.0
.18E-21
.28E-21
.48E-22
.50E-22
-------
179
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose
Nuclide
Astatine
At-207
At-211
At-215
At-216
At-217
At-218
Radon
Rn-218
Rn-219
Rn-220
Rn-222
Franc ium
Fr-219
Fr-220
Fr-221
Fr-222
Fr-223
Radium
Ra-222
Ra-223
Ra-224
Ra-225
Ra-226
Ra-227
Ra-228
Actinium
Ac-223
Ac-224
Ac-225
Ac-226
Ac-227
Ac-228
Thorium
Th-226
Th-227
Th-228
Th-229
Th-230
Th-231
Th-232
Th-234
Gonad
4
6
6
2
1
3
2
1
1
1
1
2
8
8
1
2
3
2
7
1
4
0
1
4
3
3
2
3
1
2
4
1
6
2
3
1
. 54E
.43E
.22E
.50E
.OOE
.43E
.57E
.73E
.30E
.33E
.IDE
.53E
.55E
.DIE
. 12E
.85E
.37E
.86E
.32E
.76E
.78E
.0
.21E
.71E
. 54E
.44E
.76E
.36E
. 84E
. 92E
.42E
.78E
.88E
.07E
.07E
.34E
-17
-19
-21
-20
-20
-20
-20
-18
-20
-20
-19
-19
-19
-20
-18
-19
-18
-19
-20
-19
-18
-19
-18
-19
-18
-21
-17
-19
-18
-20
-18
-21
-19
-21
-19
Breast
4
6
6
2
1
3
2
1
1
1
1
2
8
8
1
2
3
2
8
1
4
0
1
4
3
3
2
3
1
3
4
1
7
2
3
1
. 62E
.73E
.39E
. 62E
.03E
.77E
.63E
.79E
.33E
.36E
.13E
.63E
.89E
.32E
.17E
.95E
.49E
.97E
.30E
.83E
. 92E
.0
.25E
.90E
.67E
.57E
.88E
.43E
.91E
.03E
. 62E
.85E
.38E
.19E
.38E
.41E
-17
-19
-21
-20
-20
-20
-20
-18
-20
-20
-19
-19
-19
-20
-18
-19
-18
-19
-20
-19
-18
-19
-18
-19
-18
-21
-17
-19
-18
-20
-18
-21
-19
-21
-19
Lung
4
5
5
2
8
2
2
1
1
1
9
2
7
7
9
2
3
2
4
1
4
0
1
4
3
3
2
3
1
2
3
1
5
1
2
1
.13E
.66E
. 54E
.20E
.98E
.63E
.31E
.55E
.16E
.19E
.81E
.26E
.67E
.08E
.76E
.55E
.DIE
.56E
.20E
.58E
.26E
.0
.08E
.21E
.15E
.08E
.43E
.07E
.65E
.60E
.91E
.58E
. 72E
. 72E
.36E
.17E
-17
-19
-21
-20
-21
-20
-20
-18
-20
-20
-20
-19
-19
-20
-19
-19
-18
-19
-20
-19
-18
-19
-18
-19
-18
-21
-17
-19
-18
-20
-18
-21
-19
-21
-19
Coefficient hT (Sv per Bq s
R Marrow BSurface Thyroid
4.12E-17 6.44E-17 3.87E-17
4.89E-19 1.96E-18 5.30E-19
5.44E-21 1.01E-20 5.17E-21
1.90E-20 7.79E-20 2.06E-20
8.83E-21 1.57E-20 8.37E-21
1.97E-20 1.14E-19 2.59E-20
2.28E-20 3.74E-20 2.15E-20
1.51E-18 3.05E-18 1.44E-18
1.15E-20 1.93E-20 1.08E-20
1.17E-20 2.02E-20 1.11E-20
9.60E-20 1.84E-19 9.16E-20
2.10E-19 6.24E-19 2.11E-19
7.36E-19 1.79E-18 7.15E-19
6.72E-20 1.64E-19 6.63E-20
9.00E-19 2.56E-18 9.18E-19
2.49E-19 5.02E-19 2.38E-19
2.84E-18 7.33E-18 2.81E-18
2.48E-19 5.67E-19 2.39E-19
2.98E-20 1.96E-19 4.59E-20
1.50E-19 3.93E-19 1.47E-19
4.16E-18 8.28E-18 3.98E-18
0.0 0.0 0.0
1.03E-19 2.42E-19 l.OOE-19
3.93E-18 1.13E-17 3.93E-18
2.89E-19 9.05E-19 2.94E-19
2.94E-18 7.44E-18 2.87E-18
2.22E-21 7.20E-21 2.27E-21
3.06E-17 4.70E-17 2.86E-17
1.53E-19 4.55E-19 1.54E-19
2.50E-18 5.77E-18 2.43E-18
3.58E-20 1.13E-19 3.65E-20
1.43E-18 4.84E-18 1.48E-18
5.03E-21 1.91E-20 5.41E-21
1.51E-19 6.02E-19 1.63E-19
2.04E-21 8.51E-21 2.26E-21
1.01E-19 4.17E-19 1.10E-19
nr
J)
Remainder
3
5
5
2
8
2
2
1
1
1
9
2
7
6
9
2
2
2
4
1
4
0
1
3
2
2
2
2
1
2
3
1
5
1
2
1
.99E
.26E
.33E
. 04E
. 64E
.44E
.23E
.48E
. 12E
. 14E
.43E
.13E
.31E
. 74E
.24E
.44E
.86E
.45E
.HE
.50E
.09E
.0
.03E
.98E
.96E
.93E
.29E
.96E
.55E
.48E
.68E
.48E
.39E
. 62E
.24E
.09E
-17
-19
-21
-20
-21
-20
-20
-18
-20
-20
-20
-19
-19
-20
-19
-19
-18
-19
-20
-19
-18
-19
-18
-19
-18
-21
-17
-19
-18
-20
-18
-21
-19
-21
-19
Effective
4
6
5
2
9
3
2
1
1
1
1
2
8
7
1
2
3
2
5
1
4
0
1
4
3
3
2
3
1
2
4
1
6
1
2
1
.33E
.21E
.89E
.42E
.49E
.13E
.43E
.65E
.23E
.26E
. 04E
.44E
.22E
. 62E
.06E
.71E
.23E
. 74E
.90E
.70E
. 54E
.0
.15E
. 54E
.41E
.31E
.65E
.20E
.78E
.79E
.25E
. 72E
.47E
.95E
.79E
.29E
-17
-19
-21
-20
-21
-20
-20
-18
-20
-20
-19
-19
-19
-20
-18
-19
-18
-19
-20
-19
-18
-19
-18
-19
-18
-21
-17
-19
-18
-20
-18
-21
-19
-21
-19
4
7
6
2
1
4
2
1
1
1
1
2
9
6
2
3
3
3
9
1
6
0
1
5
3
4
3
3
2
3
5
1
9
2
5
1
Skin
.96E-17
.07E-19
.80E-21
.74E-20
.10E-20
.45E-20
.82E-20
.90E-18
.42E-20
.45E-20
.20E-19
.79E-19
.41E-19
.19E-18
.05E-18
.13E-19
.70E-18
.14E-19
.88E-20
.94E-19
.38E-18
.0
.35E-19
.17E-18
.90E-19
.24E-18
.22E-21
.87E-17
.03E-19
.22E-18
.08E-20
.97E-18
.79E-21
.56E-19
.55E-21
.50E-19
Protactinium
Pa-227
Pa-228
Pa-230
Pa-231
Pa-232
Pa-233
Pa-234m
Pa-234
Uranium
U-230
U-231
U-232
U-233
U-234
U-235
U-236
U-237
U-238
U-239
U-240
3
3
2
1
3
5
5
6
2
1
5
8
2
4
1
2
8
9
1
.53E
.80E
.13E
.08E
.19E
.73E
. 02E
.48E
.47E
.28E
.38E
.OOE
.53E
.OOE
.46E
.96E
.19E
.68E
. 04E
-19
-17
-17
-18
-17
-18
-19
-17
-20
-18
-21
-21
-21
-18
-21
-18
-22
-19
-20
3
3
2
1
3
5
5
6
2
1
5
8
2
4
1
3
1
1
1
.68E
.88E
.19E
.HE
.27E
.91E
.15E
.63E
.60E
.34E
. 92E
.47E
.89E
.16E
.76E
.08E
.06E
.DIE
.24E
-19
-17
-17
-18
-17
-18
-19
-17
-20
-18
-21
-21
-21
-18
-21
-18
-21
-18
-20
3
3
1
9
2
5
4
5
2
1
4
6
1
3
7
2
2
8
4
.HE
.47E
. 94E
. 52E
.91E
.HE
.57E
.91E
.13E
.13E
.05E
.73E
. 64E
.59E
.46E
.63E
.34E
.51E
.38E
-19
-17
-17
-19
-17
-18
-19
-17
-20
-18
-21
-21
-21
-18
-22
-18
-22
-19
-21
2.70E-19 1.07E-18 2.91E-19
3.44E-17 5.56E-17 3.23E-17
1.92E-17 3.17E-17 1.81E-17
9.26E-19 1.96E-18 8.90E-19
2.89E-17 4.54E-17 2.70E-17
4.93E-18 1.10E-17 4.77E-18
4.52E-19 7.64E-19 4.26E-19
5.87E-17 9.34E-17 5.50E-17
1.96E-20 6.05E-20 2.00E-20
1.01E-18 3.75E-18 1.06E-18
3.64E-21 1.32E-20 3.89E-21
6.32E-21 1.75E-20 6.34E-21
1.47E-21 5.96E-21 1.62E-21
3.40E-18 9.04E-18 3.35E-18
6.81E-22 2.99E-21 7.77E-22
2.42E-18 7.36E-18 2.45E-18
2.18E-22 1.32E-21 2.91E-22
7.63E-19 2.50E-18 7.98E-19
3.59E-21 2.16E-20 5.07E-21
2
3
1
9
2
4
4
5
2
1
3
6
1
3
7
2
2
8
4
.88E
.34E
.88E
.13E
.81E
.88E
.41E
.71E
. 02E
.06E
.87E
.42E
.61E
.41E
.71E
.47E
.86E
.DIE
.68E
-19
-17
-17
-19
-17
-18
-19
-17
-20
-18
-21
-21
-21
-18
-22
-18
-22
-19
-21
3
3
2
1
3
5
4
6
2
1
4
7
2
3
1
2
5
9
7
.41E
.63E
. 04E
. 02E
. 04E
.46E
.80E
.18E
.34E
.24E
.83E
.48E
.15E
.86E
.15E
. 84E
. 52E
.27E
. 62E
-19
-17
-17
-18
-17
-18
-19
-17
-20
-18
-21
-21
-21
-18
-21
-18
-22
-19
-21
3
4
2
1
3
6
8
7
3
1
9
1
5
4
4
3
3
2
2
.90E-19
.18E-17
.35E-17
.20E-18
.52E-17
.28E-18
.27E-18
.18E-17
.09E-20
.43E-18
.78E-21
.08E-20
.99E-21
.40E-18
.61E-21
.27E-18
.55E-21
.37E-18
.67E-20
-------
180
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Dose Coefficient hT (Sv per Bq s nr3)
Nuclide Gonad Breast Lung R Marrow BSurface Thyroid Remainder Effective Skin
Neptunium
Np-232 3.93E-17 4.04E-17 3.58E-17 3.54E-17 5.97E-17 3.33E-17 3.45E-17 3.76E-17 4.35E-17
Np-233 1.81E-18 1.87E-18 1.61E-18 1.45E-18 4.93E-18 1.50E-18 1.51E-18 1.74E-18 1.98E-18
Np-234 5.19E-17 5.24E-17 4.76E-17 4.78E-17 6.87E-17 4.48E-17 4.61E-17 4.95E-17 5.66E-17
Np-235 1.93E-20 2.11E-20 1.43E-20 1.29E-20 4.95E-20 1.38E-20 1.37E-20 1.73E-20 3.39E-20
Np-23631 2.55E-18 2.65E-18 2.28E-18 2.07E-18 6.88E-18 2.12E-18 2.13E-18 2.47E-18 2.82E-18
Np-236b2 1.05E-18 1.09E-18 9.40E-19 8.61E-19 2.66E-18 8.75E-19 8.82E-19 1.01E-18 1.16E-18
Np-237 4.37E-19 4.59E-19 3.78E-19 3.34E-19 1.25E-18 3.55E-19 3.53E-19 4.17E-19 5.03E-19
Np-238 1.92E-17 1.97E-17 1.77E-17 1.77E-17 2.61E-17 1.64E-17 1.71E-17 1.84E-17 2.20E-17
Np-239 4.19E-18 4.35E-18 3.75E-18 3.53E-18 9.52E-18 3.50E-18 3.55E-18 4.03E-18 4.61E-18
Np-240m 1.14E-17 1.16E-17 1.03E-17 1.02E-17 1.64E-17 9.58E-18 9.91E-18 1.08E-17 1.72E-17
Np-240 4.34E-17 4.45E-17 3.95E-17 3.91E-17 6.41E-17 3.67E-17 3.81E-17 4.14E-17 4.82E-17
Plutonium
Pu-234 1.28E-18 1.33E-18 1.14E-18 1.02E-18 3.70E-18 1.06E-18 1.06E-18 1.24E-18 1.40E-18
Pu-235 1.86E-18 1.93E-18 1.67E-18 1.52E-18 4.94E-18 1.55E-18 1.56E-18 1.80E-18 2.05E-18
Pu-236 1.75E-21 2.16E-21 6.01E-22 6.04E-22 2.62E-21 7.09E-22 6.99E-22 1.22E-21 6.18E-21
Pu-237 8.95E-19 9.30E-19 7.95E-19 7.07E-19 2.60E-18 7.42E-19 7.40E-19 8.66E-19 9.89E-19
Pu-238 1.26E-21 1.60E-21 2.99E-22 3.32E-22 1.57E-21 4.04E-22 4.00E-22 8.10E-22 5.09E-21
Pu-239 1.82E-21 1.99E-21 1.31E-21 1.25E-21 3.40E-21 1.27E-21 1.28E-21 1.58E-21 3.38E-21
Pu-240 1.21E-21 1.55E-21 2.93E-22 3.18E-22 1.58E-21 3.95E-22 3.89E-22 7.85E-22 4.87E-21
Pu-241 3.28E-23 3.42E-23 2.89E-23 2.60E-23 9.16E-23 2.70E-23 2.70E-23 3.16E-23 3.78E-23
Pu-242 1.04E-21 1.32E-21 2.75E-22 2.93E-22 1.41E-21 3.57E-22 3.52E-22 6.85E-22 4.08E-21
Pu-243 4.43E-19 4.62E-19 3.90E-19 3.44E-19 1.27E-18 3.65E-19 3.64E-19 4.26E-19 4.96E-19
Pu-244 7.00E-22 9.29E-22 7.05E-23 1.06E-22 6.55E-22 1.50E-22 1.49E-22 4.04E-22 3.27E-21
Pu-245 1.34E-17 1.38E-17 1.21E-17 1.19E-17 2.11E-17 1.13E-17 1.17E-17 1.28E-17 1.52E-17
Pu-246 3.16E-18 3.29E-18 2.81E-18 2.63E-18 7.40E-18 2.62E-18 2.66E-18 3.03E-18 3.49E-18
Americium
Am-237
Am-238
Am-239
Am-240
Am-241
Am-242m
Am-242
Am-243
Am-244m
Am-244
Am-245
Am-246m
Am-246
Curium
Cm-238
Cm-240
Cm-241
Cm-242
Cm-243
Cm-244
Cm-245
Cm-246
Cm-247
Cm-248
Cm-249
Cm-250
1.
2.
5.
3 .
2.
1.
2.
7.
3.
2.
8.
3 .
2.
1.
1.
1.
1.
3.
1.
1.
1.
1.
8.
6.
0.
04E-
98E-
39E-
47E-
53E-
10E-
77E-
91E-
75E-
68E-
07E-
56E-
21E-
50E-
46E-
49E-
48E-
25E-
19E-
88E-
08E-
01E-
22E-
46E-
0
17
17
18
17
19
20
19
19
20
17
19
17
17
18
21
17
21
18
21
18
21
17
22
19
1
3
5
3
2
1
2
8
3
2
8
3
2
1
1
1
1
3
1
1
1
1
1
6
0
.07E
.05E
.59E
.55E
. 74E
.23E
.89E
.36E
.93E
.75E
.37E
. 64E
.27E
.55E
.88E
.53E
.87E
.37E
. 54E
.95E
.40E
.03E
.06E
.63E
.0
-17
-17
-18
-17
-19
-20
-19
-19
-20
-17
-19
-17
-17
-18
-21
-17
-21
-18
-21
-18
-21
-17
-21
-19
9
2
4
3
2
6
2
6
3
2
7
3
2
1
1
1
2
2
1
1
1
8
8
5
0
.29E
.73E
. 82E
.18E
.DIE
.67E
.45E
. 82E
.17E
.44E
.22E
.27E
.OOE
.34E
.56E
.33E
.87E
.91E
.05E
.68E
.HE
.96E
.DIE
.80E
.0
-18
-17
-18
-17
-19
-21
-19
-19
-20
-17
-19
-17
-17
-18
-22
-17
-22
-18
-22
-18
-22
-18
-23
-19
8.97E-18 1.98E-17 8.66E-18
2.71E-17 4.32E-17 2.54E-17
4.49E-18 1.30E-17 4.49E-18
3.17E-17 4.91E-17 2.95E-17
1.57E-19 8.43E-19 1.94E-19
6.16E-21 2.38E-20 6.79E-21
2.19E-19 7.86E-19 2.29E-19
5.68E-19 2.60E-18 6.43E-19
2.98E-20 8.05E-20 3.00E-20
2.42E-17 3.85E-17 2.27E-17
6.81E-19 1.82E-18 6.73E-19
3.27E-17 4.85E-17 3.04E-17
1.97E-17 3.45E-17 1.86E-17
1.20E-18 4.24E-18 1.25E-18
2.26E-22 1.41E-21 3.39E-22
1.29E-17 2.56E-17 1.24E-17
3.45E-22 1.61E-21 4.42E-22
2.75E-18 7.26E-18 2.71E-18
1.71E-22 1.06E-21 2.59E-22
1.52E-18 5.12E-18 1.56E-18
1.65E-22 1.03E-21 2.48E-22
8.78E-18 1.65E-17 8.36E-18
1.23E-22 7.65E-22 1.85E-22
5.72E-19 9.81E-19 5.41E-19
0.0 0.0 0.0
8
2
4
3
1
6
2
6
3
2
6
3
1
1
3
1
4
2
2
1
2
8
1
5
0
.88E
.63E
.55E
.07E
.86E
.65E
.28E
.33E
.03E
.36E
. 84E
.16E
. 92E
.25E
.19E
.27E
.24E
.75E
.44E
.57E
.33E
.61E
. 74E
.59E
.0
-18
-17
-18
-17
-19
-21
-19
-19
-20
-17
-19
-17
-17
-18
-22
-17
-22
-18
-22
-18
-22
-18
-22
-19
9
2
5
3
2
9
2
7
3
2
7
3
2
1
8
1
9
3
6
1
6
9
4
6
0
.91E
.85E
.19E
.32E
.34E
. 04E
.67E
.60E
.50E
.55E
.75E
.41E
.IDE
.45E
.41E
.41E
.15E
. 12E
. 74E
. 82E
.22E
.53E
.70E
.13E
.0
-18
-17
-18
-17
-19
-21
-19
-19
-20
-17
-19
-17
-17
-18
-22
-17
-22
-18
-22
-18
-22
-18
-22
-19
1
3
5
3
3
2
3
8
2
2
1
4
2
1
5
1
5
3
4
2
4
1
3
1
0
.14E-17
.30E-17
.92E-18
.84E-17
.10E-19
.22E-20
.37E-19
.80E-19
.62E-18
.98E-17
.15E-18
.14E-17
.53E-17
.64E-18
.87E-21
.63E-17
.49E-21
.58E-18
.89E-21
.06E-18
.38E-21
.10E-17
.35E-21
.03E-18
.0
Berkelium
Bk-245
Bk-246
Bk-247
Bk-249
Bk-250
1 TK = 1.
2 TK = 22
5.
3 .
2.
3 .
3.
51E-
16E-
42E-
09E-
10E-
18
17
18
23
17
5
3
2
3
3
.71E
.24E
.51E
.49E
.18E
-18
-17
-18
-23
-17
4
2
2
1
2
.93E
.89E
.16E
.77E
.86E
-18
-17
-18
-23
-17
4.61E-18 1.30E-17 4.59E-18
2.87E-17 4.59E-17 2.68E-17
2.00E-18 5.84E-18 2.01E-18
1.42E-23 7.56E-23 1.90E-23
2.85E-17 4.20E-17 2.65E-17
4
2
2
1
2
.65E
.79E
.03E
.76E
.76E
-18
-17
-18
-23
-17
5
3
2
2
2
.30E
. 02E
.33E
.49E
.97E
-18
-17
-18
-23
-17
6
3
2
5
3
.04E-18
.50E-17
.65E-18
.OOE-23
.49E-17
15E5 y
.5
h
-------
181
Table III.7. Dose Coefficients for Exposure to Soil Contaminated to an Infinite Depth
Nuclide
Gonad
Breast
Dose
Lung
Coefficient
hT (Sv
R Marrow BSurface
per Bq s
Thyroid
nr
3)
Remainder
Effective
Skin
Californium
Cf-244
Cf-246
Cf-248
Cf-249
Cf-250
Cf-251
Cf-252
Cf-253
Cf-254
1
1
1
1
1
2
1
4
3
.72E-21
.53E-21
.18E-21
.05E-17
.12E-21
.93E-18
.42E-21
.63E-22
.65E-24
2
1
1
1
1
3
1
5
4
.17E-21
.85E-21
.49E-21
.08E-17
.41E-21
.04E-18
.71E-21
.04E-22
.60E-24
1
4
1
9
1
2
4
3
3
.55E-22
.31E-22
.11E-22
.32E-18
.05E-22
.62E-18
.09E-22
.38E-22
.45E-25
2.47E
4.61E
1.72E
9.12E
1.63E
2.44E
4.34E
2.84E
5.33E
-22 1
-22 2
-22 1
-18 1
-22 1
-18 7
-22 1
-22 1
-25 3
.56E-21
.08E-21
.09E-21
.76E-17
.03E-21
.05E-18
.96E-21
.28E-21
.37E-24
4
5
2
8
2
2
5
3
8
.06E-22
.80E-22
.83E-22
.70E-18
.68E-22
.44E-18
.45E-22
.34E-22
.76E-25
3
5
2
8
2
2
5
3
7
.60E-22
.45E-22
.50E-22
.95E-18
.38E-22
.47E-18
.12E-22
.22E-22
.77E-25
9.70E
1.01E
6.67E
9.91E
6.34E
2.82E
9.41E
4. HE
2.07E
-22 6
-21 4
-22 4
-18 1
-22 3
-18 3
-22 4
-22 6
-24 1
.02E-21
.49E-21
.11E-21
.14E-17
.91E-21
.23E-18
.12E-21
.28E-22
.27E-23
Einsteinium
Es-250
Es-251
Es-253
Es-254m
Es-254
Fermium
Fm-252
Fm-253
Fm-254
Fm-255
Fm-257
1
2
1
1
7
1
1
1
3
2
.26E-17
.OOE-18
.03E-20
.58E-17
.89E-20
.27E-21
.76E-18
.89E-21
.79E-20
.39E-18
1
2
1
1
8
1
1
2
4
2
.29E-17
.07E-18
.07E-20
.62E-17
.58E-20
.57E-21
.82E-18
.23E-21
.20E-20
.48E-18
1
1
8
1
5
1
1
6
2
2
.15E-17
.79E-18
.48E-21
.43E-17
.71E-20
.34E-22
.57E-18
.27E-22
.57E-20
.13E-18
1.13E
1.63E
8.25E
1.41E
5.31E
1.92E
1.45E
6.31E
2.27E
1.98E
-17 1
-18 5
-21 1
-17 2
-20 1
-22 1
-18 4
-22 2
-20 9
-18 5
.96E-17
.35E-18
.77E-20
.28E-17
.63E-19
.23E-21
.52E-18
.93E-21
.42E-20
.92E-18
1
1
8
1
5
3
1
8
2
1
.07E-17
.67E-18
.05E-21
.33E-17
.60E-20
.29E-22
.47E-18
.01E-22
.55E-20
.99E-18
1
1
8
1
5
2
1
7
2
2
.11E-17
.67E-18
.21E-21
.38E-17
.56E-20
.83E-22
.48E-18
.45E-22
.50E-20
.01E-18
1.20E
1.93E
9.42E
1.50E
6.91E
7.24E
1.70E
1.29E
3 .27E
2.30E
-17 1
-18 2
-21 1
-17 1
-20 1
-22 3
-18 1
-21 4
-20 6
-18 2
.39E-17
.20E-18
.30E-20
.77E-17
.21E-19
.93E-21
.93E-18
.76E-21
.72E-20
.63E-18
Mendelevium
Md-257
Md-258
2
1
.81E-18
.55E-20
2
1
.90E-18
.76E-20
2
8
.51E-18
.15E-21
2.37E
7.22E
-18 6
-21 3
.14E-18
.51E-20
2
8
.34E-18
.84E-21
2
8
.38E-18
.40E-21
2.69E
1.22E
-18 3
-20 2
.08E-18
.96E-20
-------
IV. APPLICATION CONSIDERATIONS
In this chapter we discuss some potentially important considerations in applying the
dose coefficients to obtain realistic estimates of doses to members of the public. Applicability
of the coefficients to a particular situation is influenced by those exposure conditions that differ
from the assumptions in the derivation of the coefficients and other factors which might 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. Furthermore, radionuelides may not be
distributed in the environment in the manner assumed in deriving the dose coefficients; e.g.,
the actual distribution in the environment may be nonuniform. Modifying factors have
historically been used with dose coefficients to estimate the dose for radiation fields which
depart from idealized fields. Finally, the exposed individual may not conform sufficiently to
the model of the human body assumed in determining the dose coefficients.
Environmental factors can influence the time-integrated activity that characterizes
exposure, and an individual's life style 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. While these aspects are beyond the
scope of this report, it is important to note that in prospective assessments the joint influence
of these various factors is frequently expressed as a single modifying factor.
Radionuclide decay chains
In applying the dose coefficients of Tables III. 1 through III.7 it is important to note that
the values for each radionuclide do not include any contribution to dose from radioactive decay
products formed in the spontaneous nuclear transformation of the nuclide. Rather, the
tabulations contain separate entries for all such progeny.
In general, dose coefficients for a radionuclide and its progeny can be combined only
after proper consideration of the equations describing production and decay of daughter
radionuclides overtime, and 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.
183
-------
184
Various simplifying assumptions have often been made when considering radioactive
progeny following an "instantaneous" deposition of the parent nuclide, i.e., a deposition that
occurs in a time period which is short compared to the half-life of the radionuclide and to the
integration time of interest (DOE, 1988; Jacob et al., 1988a). However, such assumptions
should no longer be necessary, since widespread access to personal computers and workstations
makes solution of the appropriate equations almost a trivial 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 readily be applied to the dose coefficients tabulated in this
report to estimate dose equivalents.
Spontaneous fission
Spontaneous fission is an important decay mode for a few radionuclides in Tables III. 1
to III.7, e.g., 248Cm, 250Cm, 252Cf, and 254Cf. The frequency of spontaneous fission forthese and
other radionuclides is given in Appendix A. Empirical relationships describing the continuous
energy spectra of photons, electrons, and neutrons from spontaneous fission, as needed in
dosimetric evaluations, have been reported by Dillman and Jones (1975). However, detailed
information has not been assembled on the radiation field (both neutron and gamma) resulting
from distributed sources of neutrons in the environment. Radionuclides with a significant
spontaneous fission yield are generally not released to the environment, or, if present in the
environment, are at extremely low concentrations. The coefficients reported here for 248Cm,
250Cm, 252Cf, and 254Cf do not include any contribution to dose from spontaneous fission and
might considerably underestimate external dose from these radionuclides.
Models of the human body
All organ doses in this report are calculated for an anthropomorphic model of the body
derived by Cristy (Cristy and Eckerman, 1987) from ICRP Reference Man data (ICRP, 1975).
The model represents an adult of stature 179 cm and mass of 73 kg. For all calculations, except
water immersion, the phantom is upright at the air-ground interface. The phantom is a
hermaphrodite of design similar to that used in the dosimetric evaluation of ICRP
Publication 30 (ICRP, 1979) and is currently being used in the preparation of the various parts
of ICRP Publication 56 (ICRP, 1990). Gender-specific models of adults have also been used
in deriving external dose coefficients; e.g., ICRP Publication 51 (ICRP, 1987). However, most
calculations of organ dose from the intake of radionuclides are based on the hermaphrodite
phantom (ICRP, 1979, 1990).
-------
185
Organ doses for individuals of specific size and gender may be somewhat different from
the values tabulated here. Gender- and age-specific aspects of external dose have been
investigated by Drexler et al. (1989) and Petoussi et al. (1991); see also the discussion of organ
dose coefficients for monoenergetic environmental photon sources in Section II. The dose to
organs of the body from external radiation increases with decreasing body size. This effect is
more pronounced at low photon energy, and for organs located near the middle of the body,
which are shielded by overlying tissues. Petoussi et al. (1991) indicate that organ doses for an
infant may be about 40% higher than those in the adult male for both the ground plane source
and submersion exposure at photon energies greater that 100 keV. Below 100 keV the
difference may approach a factor of 3 for deeper organs such as the ovaries and colon.
Pathway-specific modifying factors and exposures
This section discusses modifying factors that can be used with the dose 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 coefficients for particular exposure modes to
obtain more realistic estimates of dose equivalents to members of the public. Much of the
discussion below is taken from that of Kocher (DOE, 1988).
Consider the problem of reconstructing the dose to an individual exposed in a number
of different situations to a radionuclide present in the environment; e.g., while outdoors or
within a residence. The dose equivalent HT in tissue T due to exposures during the period t1 to
t2 composed of n different exposure conditions can be expressed as
t2
HT = hTj^ 5. /X(0 C(t} dt (22)
where St denotes the strength of the radiation field (e.g., kerma in air) for exposure condition
/ relative to the idealized exposure conditions assumed in deriving the dose coefficient hT; the
function Rt(t) defines whether exposure condition /' is in effect at time t (it is a Heavyside
function, having a value of 1 at times when condition /' is applicable, or else it is zero); 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
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186
prospective assessments, information is usually not available to characterize Rt(t). Then,
exposure condition / is assumed, on average, to represent a fraction, Rt, of the exposure period,
and Eq. (22) reduces to
HT-hT
dt
£ S, R, • (23)
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; e.g., shielding by a building; and (2) the fraction of the exposure period associated
with the particular exposure situation. Note that the product of Sf and Rt or, in many cases, the
summation of their products, are often 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
use with extreme caution when the strength of the radiation field is highly time-dependent; e.g.,
following an acute release of short-lived radionuclides to the environment.
Ground roughness
The dose coefficients of Table III.3 for exposure to a contaminated ground surface
assume that the source region is a smooth plane. A more realistic dose assessment for this
exposure mode would take into account the effects of ground roughness in reducing external
dose equivalents; i.e., the shielding provided by terrain irregularities and surface vegetation for
sources on the ground surface. A dose-reduction factor for ground roughness can be applied
in addition to the dose-reduction factor for indoor residence discussed above. In that case, no
additional consideration of exposure times is needed in estimating the effects of ground
roughness on external dose equivalents.
Dose-reduction factors for a photon spectrum representative of deposited radionuclides
following releases from nuclear reactors are given by Burson and Profio (1977). The
recommended values range from essentially unity for paved areas to about 0.5 for a deeply
plowed field; a representative average value is about 0.7. This average dose-reduction factor
would overestimate external dose equivalents from ground-surface exposure if the radionuclides
emit mostly low-energy photons (Kocher, 1980). Jacob et al. (1986) used an effective depth
of 3 mm into the soil to account for surface roughness. In subsequent work, Saito et al. (1990)
and Petoussi et al. (1991), expressed the depth in terms of a density thickness of 0.5 g cm"2
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187
(equivalent to 3 mm for a soil density of 1.6 x 103 kg m"3). Interpolation in the monoenergetic
source data of Tables II.6 to II. 11 indicates that the shielding factor for a source plane at a depth
of 3 mm is about 0.7 for photons of energy greater than 100 keV. If an appropriate depth can
be determined for a particular ground surface source, interpolation in the monoenergetic photon
source dose coefficients of Tables II.6 to II. 11 can be used to determine dose coefficients which
can then be folded over the radionuclide decay data as specified by Eq. (21).
Electron dose-reduction factors for ground-surface exposure that take into account
surface roughness have not been treated in the literature. However, some reduction in dose due
to terrain irregularities and surface vegetation undoubtedly occurs. The electron dose is likely
to be reduced more than the photon dose due to ground roughness. Furthermore, the electron
dose will be strongly influenced by the moisture content of the soil and the amount of snow
cover. Therefore, in estimating electron dose coefficients for ground-surface exposure, it would
be conservative to use the appropriate photon dose-reduction factors for ground roughness,
since the resulting electron dose probably would not be underestimated.
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 (see 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.
The dose coefficients for a known distribution of monoenergetic photon emitters can easily be
derived by integrating the coefficients of Tables II. 6 through II. 11 over the distribution. Then,
Eq. (21) can be used to determine the coefficients for the radionuclides of interest.
External exposure to electrons from radionuclides distributed with depth in 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, 1964). Therefore, calculations of electron dose equivalents 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 coefficients for volume sources in this report are
based on the conservative assumption of an infinitely thick source.
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188
Contaminated shorelines
The dose coefficients for exposure to contaminated soil in Tables III.3 through III.7
assume that the source region is infinite in extent and, thus, are appropriate for large areas that
are contaminated by deposition of radionuclides from the atmosphere or by irrigation with
contaminated water. Exposure to contaminated soil may also occur during fishing or hiking
along shorelines of finite width that are contaminated by deposition of radionuclides from
water.
For photon exposure, the 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 values would be applied in addition to the dose-reduction factor for ground roughness
discussed earlier. They do not include consideration of exposure times.
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
coefficient from exposure to shorelines of finite width should be about the same as the dose
coefficient for exposure to an infinite ground surface; i.e., the dose-reduction factor should be
nearly unity. However, the high moisture content of the shoreline would also 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 coefficients for exposure to contaminated shorelines.
Although site-specific data for exposure times to contaminated shorelines can be used
when available, the 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.
Exposure during boating activities
The dose coefficients for immersion in contaminated water in Table III.2 assume
immersion in an infinite pool and, thus, are appropriate for exposure while swimming. External
exposure to contaminated water can also occur during boating activities.
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189
For photon exposure, a dose-reduction factor of 0.5 during boating activities is a
reasonable value that is unlikely to underestimate external dose equivalents. 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 boat is negligible. The latter
assumption will result in overestimates of external dose equivalents 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; i.e., that the electron dose equivalent 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% or more
would be reasonable. For individuals who engage only in recreational boating activities, an
exposure time as high as 5% (44 hours per year) would be reasonable.
Effects of indoor residence
The dose coefficients for air submersion and exposure to contaminated soil tabulated
in Section III 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 dose 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 homes. In some cases, it may be more
appropriate to assume that exposed individuals are residing in basements of homes or in
schools, apartment houses, or office buildings. These structures generally provide significantly
greater shielding than living areas in single-family homes. 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
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190
shielding factors range from 0.1 for the basement of a home 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. At a photon energy of
0.68 MeV, 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-floor structures.
Neighboring structures can also have a large influence (factor of two) on the shielding inside
of a structure (LeGrand et al., 1991).
For photon exposures following routine releases from nuclear reactors, the U. S.
Nuclear Regulatory Commission has recommended (NRC, 1977) 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 above a few hundred keV. For photons of lower
energy, use of these factors may considerably overestimate the dose equivalent (Kocher, 1980).
Note that the difference in the two modifying factors implies a different fraction of time spent
indoors; i.e., about 60% for maximally exposed individuals and effectively 100% for average
individuals in population groups. In both cases, the individuals are presumed to spend 100%
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 equivalents 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
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191
concentrations of radionuclides will vary with time during and after a release, and will also
depend on the timing and extent of building ventilation. For such releases, it may be prudent
to assume no reduction in external dose equivalents 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 equivalents 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 2.6m (NAS, 1964), which is
a representative radius of rooms in single-family homes. 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 equivalent 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.
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 equivalents during indoor residence, but by unknown
amounts.
As stated earlier, indoor residence times recommended by the NRC (1977) for
maximally exposed and average individuals are 60% and nearly 100%, 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 how people spend their time, see
Chapter 5 of the EPA Exposure Factors Handbook (1989). That handbook suggests that an
average young person may spend about 15% of his or her time at school while for an adult it
may be reasonable to assume a residence time of 25% in office-type buildings. In both cases,
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192
the indoor residence is probably at a location different from the home. Currently the EPA
Office of Radiation and Indoor Air estimates that on average 75% of the time is spent in the
home (EPA, 1993).
Conclusions
Application of the dose 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 preceeding 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. We note
that it is extremely 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. (22)
and (23). When both these aspects are combined, it is extremely difficult to judge the
reasonableness of the resulting single factor. We also note that the modifying factors developed
for prospective assessments of chronic low-level exposures will generally 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 coefficients tabulated in this report must be determined by the user at the time of the dose
assessment.
-------
APPENDIX A
NUCLEAR DECAY DATA
The dose coefficients of Tables III.l through III.7 are listed by radionuclide. In some
instances a radionuclide is not uniquely identified by its atomic number (or chemical symbol)
and mass number. Nuclei of the same atomic and mass numbers, but with distinguishable
nuclear properties, are referred to as isomers. Identification of an isomer requires reference to
its physical half-life. The nuclide designations of Tables III.l through III.7 involve some
nonstandard notation to reference isomers to data in Table A.I of this appendix.
To differentiate isomers, when neither isomer has been designated as a metastable state,
an "a" and "b" have been added to the chemical symbol-mass number notation; e.g.,theNb-89a
entry in Table A. 1 is the 66 m half-life isomer of 89Nb. In Tables III. 1 to III.7 the half-life of
the isomer is given in a footnote. The "a" and "b" notations were assigned to the 89Nb isomers
in an arbitrary manner. To identify multiple metastable states, the "m" notation of one isomer
is shown as "n"; e.g., Sb-124m in Table A.I refers to the metastable state with a half-life of
93 s while Sb-124n refers to the 20.2 m half-life state. Additional examples can be seen in
entries of Tables III.l to III.7 and Table A.I for indium (In), europium (Eu), terbium (Tb),
rhenium (Re), iridium (Ir), and neptunium (Np).
Table A.I summarizes information on the nuclear decay characteristics of each
radionuclide considered in this report. All data were obtained from the ICRP/ORNL dosimetric
data base (ICRP, 1983; Eckerman et al., 1993). Information on the methods used to derive
these data from the basic nuclear structure information can be found in the report of Dillman
(1980).
Table A. 1 contains the following information, intended to aid in the proper use of the
dose coefficients contained in Tables III.l through III.7. The physical half-life of the
radionuclides is given in the second column of the table. The time units are abbreviated as:
y for year, d for day, h for hour, m for minutes, s for second, ms for millisecond, and (is 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 nuclear transformations of a radionuclide (the parent) may
193
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194
form a nucleus which is also radioactive (radioactive decay product). The entries in the
columns headed by "Radioactive Decay Products and Fractional Yield" identify radioactive
nuclei formed by nuclear transformations of the parent radionuclide and give the fraction
(referred to as the branching fraction) of the parent's transformations forming each decay
product. No attempt is made to identify the radioactive nuclei formed by spontaneous fission.
The notation "SF" simply indicates that the accompanying branching fraction refers to
spontaneous fission. The three columns on the extreme right give the total kinetic energy per
nuclear transformation of emitted alpha particles, electrons, and photons1. The entry for alpha
particles represents only the kinetic energy of the alpha particles and does not include the recoil
energy of the newly formed nucleus. 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 1 keV, then the symbol "<" appears in the column.
The dose coefficients of Tables III. 1 to III. 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.I. Consider the radionuclide 144Ce. The 144Ce entry in Table A.I indicates that 144Ce
has a half-life of 284.3 days and forms 144Pr in 98.22% of its transformations and 144mPr in
1.78% of its transformations. The entry for 144mpr, half-life of 7.2 m, indicates it decays (in
99.99% of the transformations) by internal transition to 144Pr; the remaining transformations
form the stable nucleus 144Nd. Nuclear transformations of 144Pr, half-life of 17.28 minutes, do
!The total kinetic energy of radiation type R, ET!R, is computed as
n
E = Y y E
1, rv * -J * I:, J\ 1:, J\ '
where yiiR is the mean number of radiations of type R emitted per nuclear transformation with
unique or mean energy EiiR. The quantity should not be confused with the mean energy of
radiation type R, which is
F = T,R
n
E y,,R
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195
not form a radioactive decay product. Thus, by repeated entry into Table A.I one can follow
the serial transformations (decay chain) associated with a radionuclide. For nuclides with
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 one, since only branches leading to radioactive decay products are
tabulated, and because of 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 zero the concentration of the parent nuclide on the surface of the ground
is A (Bq m"2) and that the effective dose equivalent HE for an exposure period of one year is
to be estimated. The contribution to effective dose from nuclear transformation of the parent
nuclide would be given by
A O
v i ss i Ti -
H* - hv — i1 - e
where ^E,\ denotes the effective dose equivalent coefficient from ground surface exposure for
nuclide 1 (Sv per Bq s m"2), ^ is the decay constant, in inverse seconds, for nuclide 1
(A = 0.6931.../ri/2)5 and ^equals 3.15 x 107 s or one year. Using the Bateman equations, the
activity at time t of chain members /', /' = 1, 2, ..., can be expressed as
At(t) =A° H/ A.
n(VV
4=1
where
/
al *a2 * ... an, if n > 1
n
n a,=
\,ifn = 0
and fj,j+\ denotes the denotes the fraction of the nuclear transformations of chain member j
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196
forming member j+1. The effective dose equivalent 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
n i- 1 ; , -)., T
TT A O V^ 1 %S TT r 1 V^ A ^
A://
where ^E,I denotes the effective dose equivalent coefficient for ground surface exposure to
nuclide 7 , 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 A.71 > 5, / = 2 to n, HE can be
estimated as
n^.+ 1 . (A.4)
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
1 _ ~^&-137 *
HE = Acs-m [^lc.s-137 + 0.946 hj"Ba_l31m] ,
ACs-137
would yield where 0.946 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 of following release to the atmosphere, includes an
evaluation of the ingrowth of each radioactive decay product. The information in Table A.I
should be useful to those implementing such models.
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197
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
Hydrogen
H-3
Beryllium
Be-7
Be-10
Carbon
C-ll
C-14
Nitrogen
N-13
Oxygen
0-15
Fluorine
F-18
Neon
Ne-19
Sodium
Na-22
Na-24
Magnesium
Mg-28
Aluminum
Al-26
Al-28
Silicon
Si-31
Si-32
Phosphorus
P-30
P-32
P-33
Sulphur
S-35
Chlorine
Cl-36
Cl-38
Cl-39
Argon
Ar-37
Ar-39
Ar-41
Potassium
K-38
K-40
K-42
K-43
K-44
K-45
Calcium
Ca-41
Ca-45
Ca-47
Ca-49
Scandium
Sc-43
Sc-44m
Sc-44
Sc-46
Sc-47
Sc-48
Sc-49
T
12.35y
53.3d
1.6E6y
20.38m
5730y
9.965m
122.24s
109.77m
17.22s
2.602y
IS.OOh
20.91h
7.16E5y
2.240m
157.3m
450y
2.499m
14.29d
25. 4d
87.44d
3 .OlESy
37.21m
55.6m
35.02d
269y
1.827h
7.636m
1.28E9y
12.36h
22. 6h
22.13m
20m
1.4E5y
163d
4.53d
8.716m
3 .891h
58. 6h
3 .927h
83 .83d
3.351d
43. 7h
57.4m
Decay
Mode Nuclide Fraction Nuclide Fraction
B-
EC
B-
ECB+
B-
ECB+
ECB+
ECB+
ECB+
ECB+
B-
B- Al-28 l.OOOE+00
ECB+
B-
B-
B- P-32 l.OOOE+00
ECB+
B-
B-
B-
ECB+B-
B-
B- Ar-39 l.OOOE+00
EC
B-
B-
ECB+
B-EC
B-
B-
B-
B- Ca-45 l.OOOE+00
EC
B-
B- Sc-47 l.OOOE+00
B- Sc-49 l.OOOE+00
ECB+
ECIT Sc-44 9.863E-01
ECB+
B-
B-
B-
B-
Energy (MeV nt"1)
Nuclide Fraction Alpha Elect Photon
0
-
0
0
0
0
0
0
0
0
0
0
0
1
0
0
1
0
0
0
0
1
0
0
0
0
1
0
1
0
1
0
0
0
0
0
0
0
0
0
0
0
0
.006
<
.252
.385
.049
.491
.734
.250
.963
.194
.554
.163
.445
.242
.595
.065
.436
.695
.077
.049
.274
.529
.823
.002
.219
.464
.209
.523
.430
.309
.491
.984
.002
.077
.345
.870
.313
.033
.597
.112
.163
.229
.822
0
1
1
1
1
1
2
4
1
2
1
1
1
1
1
3
0
0
0
2
1
1
3
1
0
2
2
0
3
0
-
.049
-
.020
-
.020
.021
.022
.022
.193
.121
.371
.676
.779
<
-
.022
-
-
-
<
.488
.438
<
-
.284
.187
.156
.276
.970
.267
.866
<
<
.063
.165
.096
.280
.137
.009
.108
.349
.001
-------
198
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
Titanium
Ti-44
Ti-45
Vanadium
V-47
V-48
V-49
Chromium
Cr-48
Cr-49
Cr-51
Manganese
Mn-51
Mn-52m
Mn-52
Mn-53
Mn-54
Mn-56
Iron
Fe-52
Fe-55
Fe-59
Fe-60
Cobalt
Co-55
Co-56
Co-57
Co-58m
Co-58
Co-60m
Co-60
Co-61
Co-62m
Nickel
Ni-56
Ni-57
Ni-59
Ni-63
Ni-65
Ni-66
Copper
Cu-60
Cu-61
Cu-62
Cu-64
Cu-66
Cu-67
Zino
Zn-62
Zn-63
Zn-65
Zn-69m
Zn-69
Zn-71m
Zn-72
Gallium
Ga-65
Ga-66
Ga-67
Ga-68
Ga-70
Ga-72
Ga-73
T
47. 3y
3 .08h
32.6m
16.238d
330d
22.96h
42.09m
27.704d
46.2m
21.1m
5.591d
3.7E6y
312. 5d
2.5785h
8.275h
2.7y
44.529d
lE5y
17.54h
78.76d
270. 9d
9.15h
70.80d
10.47m
5.271y
1.65h
13 .91m
6.10d
36.08h
7.5E4y
96y
2.520h
54. 6h
23.2m
3.408h
9.74m
12.701h
5.10m
61.86h
9.26h
38.1m
243 .9d
13 .76h
57m
3.92h
46. 5h
15.2m
9.40h
78.26h
68 . Om
21.15m
14. Ih
4.91h
Decay
Mode Nuclide Fraction Nuclide Fraction
EC Sc-44 l.OOOE+00
ECB+
ECB+
ECB+
EC
ECB+ V-48 l.OOOE+00
ECB+ V-49 l.OOOE+00
EC
ECB+ Cr-51 l.OOOE+00
ECB+IT Mn-52 1.750E-02
ECB+
EC
EC
B-
ECB+ Mn-52m l.OOOE+00
EC
B-
B- Co-60m l.OOOE+00
ECB+ Fe-55 l.OOOE+00
ECB+
EC
IT Co-58 l.OOOE+00
ECB+
ITB- Co-60 9.975E-01
B-
B-
B-
EC Co-56 l.OOOE+00
ECB+ Co-57 l.OOOE+00
EC
B-
B-
B- Cu-66 l.OOOE+00
ECB+
ECB+
ECB+
B-ECB+
B-
B-
ECB+ Cu-62 l.OOOE+00
ECB+
ECB+
ITB- Zn-69 9.997E-01
B-
B-
B- Ga-72 l.OOOE+00
ECB+ Zn-65 l.OOOE+00
ECB+
EC
ECB+
B-EC
B-
B-
Energy (MeV nt"1)
Nuclide Fraction Alpha Elect Photon
0
0
0
0
0
0
0.
0.
0.
1.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
1.
0.
0.
0.
0.
0.
0.
0.
0.
1.
0.
1.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
.013
.373
.803
.149
.004
.008
.602
.004
.934
.132
.075
.004
.004
.830
.194
.004
.118
.049
.429
.124
.019
.023
.034
.058
.097
.463
.051
.007
.143
.005
.017
.632
.067
.895
.311
.285
.123
.068
.155
.033
.918
.007
.022
.321
.548
.102
.831
.970
.036
.739
.644
497
494
0
0
0
2
0
1.
0.
0.
2.
3 .
0.
0.
1.
0.
0.
1.
1.
3 .
0.
0.
0.
0.
2.
0.
2.
1.
1.
0.
0.
3 .
0.
1.
0.
0.
0.
0.
1.
0.
0.
1.
0.
1.
2.
0.
0.
0.
2.
0.
.135
.870
.995
.914
<
.436
.055
.033
.998
.409
.458
.001
.836
.692
.740
.002
.189
-
.994
.580
.125
.002
.976
.007
.504
.091
.698
.721
.922
.002
-
.549
-
.898
.829
.007
.191
.085
.115
.439
.100
.584
.417
<
.552
.152
.176
.473
.158
.951
.008
711
316
-------
199
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
Germanium
Ge-66
Ge-67
Ge-68
Ge-69
Ge-71
Ge-75
Ge-77
Ge-78
Arsenic
As-69
As-70
As-71
As-72
As-73
As-74
As-76
As-77
As-78
Selenium
Se-70
Se-73m
Se-73
Se-75
Se-77m
Se-79
Se-81m
Se-81
Se-83
Bromine
Br-74m
Br-74
Br-75
Br-76
Br-77
Br-80m
Br-80
Br-82
Br-83
Br-84
Krypton
Kr-74
Kr-76
Kr-77
Kr-79
Kr-81m
Kr-81
Kr-83m
Kr-85m
Kr-85
Kr-87
Kr-88
Rubidium
Rb-79
Rb-80
Rb-81m
Rb-81
Rb-82m
Rb-82
Rb-83
Rb-84
Rb-86
Rb-87
T
2.
18
27h
.7m
288d
39.
11
82.
11.
15
52
64
26
80.
17.
26.
38
90
41
7.
119
17.
05h
.8d
78m
30h
87m
.2m
. 6m
.8h
.Oh
30d
76d
32h
.8h
.7m
. Om
39m
15h
.8d
45s
65000y
57.
18
22
41
25
16
4.
17
35.
2.
31.
11.
14
74
35.
25m
.5m
.5m
.5m
.3m
98m
.2h
56h
42h
.4m
30h
39h
80m
50m
.8h
.7m
04h
13s
2.1E5y
1.
4.
10.
76
2.
22
4.
6
1
86
32.
18.
83h
48h
72y
.3m
84h
.9m
34s
32m
58h
.2h
.3m
.2d
77d
66d
4.7E10y
Decay
Mode
ECB+
ECB+
EC
ECB+
EC
B-
B-
B-
ECB+
ECB+
ECB+
ECB+
EC
B-ECB+
B-
B-
B-
ECB+
ECB+IT
ECB+
EC
IT
B-
ITB-
B-
B-
ECB+
ECB+
ECB+
ECB+
ECB+
IT
B-ECB+
B-
B-
B-
ECB+
EC
ECB+
ECB+
IT
EC
IT
ITB-
B-
B-
B-
ECB+
ECB+
IT
ECB+
ECB+
ECB+
EC
ECB+B-
B-
B-
Nuclide Fraction Nuclide Fraction Nuclide
Ga-66 1.000E+
Ga-67 1.000E+
Ga-68 1.000E+
As-77 1.000E+
As-78 1.000E+
Ge-69 1.000E+
Ge-71 1.000E+
As-70 1.000E+
As-73 2.700E-
As-73 1.000E+
Se-81 1.000E+
Br-83 1.000E+
Se-75 1.000E+
Br-80 1.000E+
Kr-83m 1.000E+
Br-74 1.000E+
Br-76 1.000E+
Br-77 1.000E+
Kr-81 1.000E+
Kr-85 2.110E-
Rb-87 1.000E+
Rb-88 1.000E+
Kr-79 1.000E+
Rb-81 1.000E+
Kr-81 1.000E+
Kr-83m 7.620E-
00
00
00
00
00
00
00
00
01 Se-73 7.300E-01
00
00
00
00
00
00
00
00
00
00
01
00
00
00
00
00
01
Energy (MeV nt"1)
Fraction Alpha Elect Photon
0
1
0
0
0
0
0
0
1
0
0
1
0
0
1
0
1
0
0
0
0
0
0
0
0
0
1
1
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
1
0
0
2
0
0
0
1
0
0
0
0
.102
.297
.005
.179
.005
.420
.648
.238
.274
.865
.119
.026
.060
.268
.064
.229
.356
.489
.178
.386
.015
.072
.056
.085
.611
.508
.412
.115
.524
.691
.009
.060
.724
.139
.321
.229
.792
.015
.642
.024
.059
.005
.039
.255
.251
.324
.364
.820
.011
.074
.197
.095
.407
.015
.155
.668
.111
0
1
0
0
0
0
1
0
1
4
0
1
0
0
0
0
1
0
0
1
0
0
0
0
2
4
4
1
2
0
0
0
2
0
1
1
0
1
0
0
0
0
0
0
0
1
1
1
0
0
2
1
0
0
0
.687
.406
.004
.873
.004
.034
.086
.278
.013
.095
.574
.794
.016
.759
.430
.009
.252
.999
.244
.087
.394
.088
-
.018
.009
.429
.082
.549
.216
.633
.321
.024
.080
.642
.008
.788
.169
.435
.016
.257
.131
.012
.003
.158
.002
.793
.955
.358
.246
.010
.623
.910
.093
.504
.919
.095
-
-------
200
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
T
Decay
Mode
Nuclide
Fraction Nuclide Fraction Nuclide
Energy (MeV nt"1)
Fraction Alpha Elect Photon
Rubidium, cont ' d
Rb-88
Rb-89
Strontium
Sr-80
Sr-81
Sr-82
Sr-83
Sr-85m
Sr-85
Sr-87m
Sr-89
Sr-90
Sr-91
Sr-92
Yttrium
Y-86m
Y-86
Y-87
17.8m
15.2m
100m
25.5m
25d
32. 4h
69.5m
64.84d
2.805h
50. 5d
29.12y
9.5h
2.71h
48m
14.74h
80. 3h
Y-88 106. 64d
Y-90m
Y-90
Y-91m
Y-91
Y-92
Y-93
Y-94
Y-95
Zirconium
Zr-86
Zr-88
Zr-89
Zr-93 1
Zr-95
Zr-97
Niobium
Nb-88
Nb-89b
Nb-89a
Nb-90
Nb-93m
Nb-94 2
Nb-95m
Nb-95
Nb-96
Nb-97m
Nb-97
Nb-98
Molybdenum
Mo-90
Mo-93m
Mo-93
Mo-99
Mo-101
Technetium
Tc-93m
Tc-93
Tc-94m
Tc-94
Tc-95m
Tc-95
Tc-96m
Tc-96
3 .19h
64. Oh
49.71m
58.51d
3.54h
10. Ih
19.1m
10.7m
16. 5h
83. 4d
78.43h
.53E6y
63 .98d
16.90h
14.3m
122m
66m
14.60h
13 .6y
.03E4y
86. 6h
35.15d
23.35h
60s
72.1m
51.5m
5.67h
6.85h
3 .5E3y
66. Oh
14.62m
43 .5m
2.75h
52m
293m
61d
20h
51.5m
4.28d
B-
B-
EC
ECB+
EC
ECB+
ITEC
EC
ECIT
B-
B-
B-
B-
ECB+IT
ECB+
ECB+
ECB+
IT
B-
IT
B-
B-
B-
B-
B-
EC
EC
ECB+
B-
B-
B-
ECB+
ECB+
ECB+
ECB+
IT
B-
IT
B-
B-
IT
B-
B-
ECB+
IT
EC
B-
B-
ITEC
EC
ECB+
ECB+
ECB+IT
EC
ITEC
EC
Sr-89
Rb-80
Rb-81
Rb-82
Rb-83
Sr-85
Rb-87
Y-90
Y-91m
Y-92
Y-86
Sr-87m
Y-90
Y-91
Zr-93
Zr-95
Y-86
Y-88
Nb-93m
Nb-95m
Nb-97m
Zr-88
Zr-89
Zr-89
Nb-95
Nb-97
Nb-90
Mo-93
Nb-93m
Tc-99m
Tc-101
Mo-93
Mo-93
Tc-95
Tc-96
1
1
1
1
1
8
3
1
5
1
9
9
9
1
1
1
1
1
1
7
9
1
1
1
1
1
1
1
1
8
1
1
1
4
9
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.790E-
.OOOE-
.OOOE+
.780E-
.OOOE+
.931E-
.990E-
.920E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE-
.470E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.760E-
.OOOE+
.820E-
.OOOE+
.OOOE-
.800E-
00
00
00
00
00
01
03
00
01 Y-91 4.220E-01
00
01
01
01
00
00
00
00
00
00
03 Nb-95 9.930E-01
01 Nb-97 5.300E-02
00
00
00
00
00
00
00
00
01 Tc-99 1.240E-01
00
01 Tc-93 8.180E-01
00
02
01
2
1
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
0
0
0
0
0
0
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.066
.013
.005
.000
.005
.149
.012
.009
.067
.583
.196
.656
.196
.025
.226
.007
.007
.047
.935
.027
.602
.446
.174
.675
.528
.030
.016
.101
.020
.116
.700
.237
.115
.834
.403
.028
.168
.166
.044
.253
.015
.468
.887
.204
.097
.006
.392
.589
.079
.006
.756
.049
.016
.007
.027
.009
0
2
0
1
0
0
0
0
0
0
1
0
3
0
2
0
0
0
0
0
1
0
0
0
1
0
0
4
1
1
4
0
1
0
0
2
0
0
2
0
2
0
0
1
0
1
1
2
0
0
0
2
.629
.071
.008
.386
.008
.801
.220
.512
.320
<
-
.697
.339
.221
.589
.457
.692
.629
<
.530
.004
.252
.089
.110
.894
.288
.403
.165
-
.739
.179
.126
.391
.925
.224
.002
.574
.068
.766
.472
.728
.655
.426
.827
.250
.011
.150
.368
.724
.459
.859
.671
.675
.796
.052
.506
-------
201
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
T
Decay
Mode Nuclide Fraction Nuclide Fraction Nuclide
Energy (MeV nt"1)
Fraction Alpha Elect Photon
Technetium, cont ' d
Tc-97m
Tc-97
Tc-98
Tc-99m
Tc-99
Tc-101
Tc-104
Ruthenium
Ru-94
Ru-97
Ru-103
Ru-105
Ru-106
Rhodium
Rh-99m
Rh-99
Rh-100
Rh-lOlm
Rh-101
Rh-102m
Rh-102
Rh-103m
Rh-105
Rh-106m
Rh-106
Rh-107
Palladium
Pd-100
Pd-101
Pd-103
Pd-107
Pd-109
Silver
Ag-102
Ag-103
Ag-104m
Ag-104
Ag-105
Ag-106m
Ag-106
Ag-108m
Ag-108
Ag-109m
Ag-llOm
Ag-110
Ag-111
Ag-112
Ag-115
Cadmium
Cd-104
Cd-107
Cd-109
Cd-113m
Cd-113
Cd-115m
Cd-115
Cd-117m
Cd-117
Indium
In-109
In-llOb
In-llOa
87d
2.6E6y
4.2E6y
6.02h
2.13E5y
14.2m
18.2m
51.8m
2.9d
39.28d
4.44h
368. 2d
4.7h
16d
20. 8h
4.34d
3.2y
207d
2.9y
56.12m
35.36h
132m
29.9s
21.7m
3.63d
8.27h
16.96d
6.5E6y
13 .427h
12.9m
65.7m
33.5m
69.2m
41. Od
8.41d
23 .96m
127y
2.37m
39.6s
249. 9d
24.6s
7.45d
3 .12h
20.0m
57.7m
6.49h
464d
13 .6y
9.3E15y
44. 6d
53.46h
3.36h
2.49h
4.2h
4.9h
69.1m
IT
EC
B-
IT
B-
B-
B-
EC
EC
B-
B-
B-
ECB+
ECB+
ECB+
ECIT
EC
ECB+ITB-
ECB+
IT
B-
B-
B-
B-
EC
ECB+
EC
B-
B-
ECB+
ECB+
ECB+IT
ECB+
ECB+
EC
ECB+
ECIT
ECB+B-
IT
ITB-
B-EC
B-
B-
B-
ECB+
ECB+
EC
B-
B-
B-
B-
B-
B-
ECB+
ECB+
ECB+
Tc-97 l.OOOE+00
Tc-99 l.OOOE+00
Tc-94m l.OOOE+00
Tc-97m 7.550E-04 Tc-97 9.992E-01
Rh-103m 9.970E-01
Rh-105 l.OOOE+00
Rh-106 l.OOOE+00
Rh-101 7.200E-02
Rh-102 5.000E-02
Pd-107 l.OOOE+00
Rh-100 l.OOOE+00
Rh-lOlm 9.970E-01 Rh-101 3.000E-03
Rh-103m l.OOOE+00
Pd-103 l.OOOE+00
Ag-104 3.300E-01
Ag-108 8.900E-02
Ag-110 1.330E-02
Cd-115m 6.600E-02 Cd-115 9.340E-01
Ag-104 l.OOOE+00
In-115 l.OOOE+00
In-115m l.OOOE+00
In-117m l.OOOE-02 In-117 9.900E-01
In-117m 9.200E-01 In-117 8.000E-02
Cd-109 l.OOOE+00
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
1
1
0
0
0
0
0
0
0
0
0
0
0
0
.087
.006
.159
.016
.101
.478
.601
.008
.013
.075
.400
.010
.032
.042
.070
.020
.032
.168
.012
.038
.154
.313
.413
.445
.044
.039
.006
.009
.437
.819
.259
.509
.091
.019
.013
.508
.016
.610
.077
.072
.182
.354
.384
.042
.032
.087
.083
.185
.093
.607
.303
.229
.439
.047
.012
.626
0
0
1
0
0
1
0
0
0
0
0
0
2
0
0
0
2
0
0
2
0
0
0
0
0
0
3
0
1
2
0
2
0
1
0
0
2
0
0
0
0
0
0
0
0
0
2
1
0
3
1
.010
.011
.413
.126
-
.334
.981
.535
.240
.469
.784
-
.685
.608
.767
.307
.269
.486
.140
.002
.078
.915
.205
.312
.129
.337
.014
-
.012
.353
.765
.174
.683
.525
.822
.711
.627
.018
.011
.751
.031
.026
.657
.707
.259
.034
.026
-
-
.022
.233
.044
.087
.672
.049
.557
-------
202
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
TK
Indium, cont ' d
In-Ill 2.83d
In-112 14.4m
In-113m
In-114m
In-114
In-115m
In-115
In-116m
In-117m
In-117
In-119m
In-119
Tin
Sn-110
Sn-111
Sn-113
Sn-117m
Sn-119m
Sn-121m
Sn-121
Sn-123m
Sn-123
Sn-125
Sn-126
Sn-127
Sn-128
Antimony
Sb-115
Sb-116m
Sb-116
Sb-117
Sb-118m
Sb-119
Sb-120b
Sb-120a
Sb-122
Sb-124n
Sb-124m
Sb-124
Sb-125
Sb-126m
Sb-126
Sb-127
Sb-128b
Sb-128a
Sb-129
Sb-130
Sb-131
Tellurium
Te-116
Te-121m
Te-121
Te-123m
Te-123
Te-125m
Te-127m
Te-127
Te-129m
Te-129
Te-131m
Te-131
Te-132
1.658h
49. Bid
71.9s
4.486h
5.1E15y
54.15m
116.5m
43 .8m
18.0m
2.4m
4. Oh
35.3m
115. Id
13 .61d
293 .Od
55y
27.06h
40.08m
129. 2d
9.64d
l.OESy
2.10h
59.1m
31.8m
60.3m
15.8m
2.80h
S.OOh
38. Ih
5.76d
15.89m
2.70d
20.2m
93s
60.20d
2.77y
19.0m
12. 4d
3.85d
9.01h
10.4m
4.32h
40m
23m
2.49h
154d
17d
119. 7d
lE13y
58d
109d
9.35h
33 .6d
69.6m
30h
25.0m
78. 2h
Decay
Mode
EC
B-ECB+
IT
ECIT
B-ECB+
ITB-
B-
B-
B-IT
B-
B-IT
B-
EC
ECB+
EC
IT
IT
B-IT
B-
B-
B-
B-
B-
B-
B-
ECB+
ECB+
ECB+
ECB+
ECB+
EC
EC
ECB+
ECB-
IT
ITB-
B-
B-
ITB-
B-
B-
B-
B-
B-
B-
B-
EC
ECIT
EC
IT
EC
IT
ITB-
B-
ITB-
B-
ITB-
B-
B-
Nuclide
In-114
In-115
In-117
Sn-117m
In-119
Sn-119m
In-llOa
In-Ill
In-113m
Sn-121
Sb-125
Sb-126m
Sb-127
Sb-128a
Sb-124m
Sb-124
Te-125m
Sb-126
Te-127m
Te-129m
Te-131m
Sb-116
Te-121
Te-123
Te-127
1-129
1-129
1-131
1-131
1-132
Fraction Nuclide Fraction Nuclide
9
9
4
3
2
1
1
1
1
7
1
1
1
1
1
8
2
1
1
2
9
1
8
1
9
3
1
7
1
1
.570E-
.500E-
.710E-
.200E-
.500E-
.090E-
.OOOE+
.OOOE+
.OOOE+
.760E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE-
.280E-
.400E-
.760E-
.250E-
.930E-
.OOOE+
.860E-
.OOOE+
.760E-
.500E-
.OOOE+
.780E-
.OOOE+
.OOOE+
01
01
01
03
02
01
00
00
00
01
00
00
00
00
00
01
01
01
01 Te-127 8.240E-01
01 Te-129 7.750E-01
02 Te-131 9.007E-01
00
01
00
01
01 Te-129 6.500E-01
00
01 Te-131 2.220E-01
00
00
Energy (MeV nt"1)
Fraction Alpha Elect Photon
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.034
.243
.134
.143
.771
.172
.152
.312
.434
.267
.065
.634
.014
.221
.006
.161
.078
.035
.114
.475
.520
.811
.172
.534
.255
.238
.153
.424
.029
.040
.026
.045
.308
.565
.025
.092
.387
.100
.591
.283
.316
.438
.935
.408
.722
.553
.053
.080
.010
.099
.006
.109
.082
.223
.260
.544
.202
.719
.102
0
0
0
0
0
0
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
3
2
0
2
0
2
0
0
0
1
0
1
2
0
3
1
1
3
1
0
0
0
0
0
0
0
0
0
0
1
0
0
.405
.268
.258
.094
.003
.161
-
.473
.091
.692
.011
.769
.301
.510
.023
.158
.011
.005
-
.140
.007
.313
.057
.910
.666
.909
.143
.158
.185
.585
.023
.469
.452
.441
<
.352
.817
.431
.548
.834
.688
.093
.986
.437
.264
.864
.073
.217
.577
.148
.020
.036
.011
.005
.038
.059
.425
.420
.234
-------
203
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
T
Decay
Mode
Nuclide
Fraction Nuclide Fraction Nuclide
Energy (MeV nt"1)
Fraction Alpha Elect Photon
Tellurium, cont ' d
Te-133m
Te-133
Te-134
Iodine
I-120m
1-120
1-121
1-122
1-123
1-124
1-125
1-126
1-128
1-129
1-130
1-131
I-132m
1-132
1-133
1-134
1-135
Xenon
Xe-120
Xe-121
Xe-122
Xe-123
Xe-125
Xe-127
Xe-129m
Xe-131m
Xe-133m
Xe-133
Xe-135m
Xe-135
Xe-138
Cesium
Cs-125
Cs-126
Cs-127
Cs-128
Cs-129
Cs-130
Cs-131
Cs-132
Cs-134m
Cs-134
Cs-135m
Cs-135
Cs-136
Cs-137
Cs-138
Barium
Ba-126
Ba-128
Ba-131m
Ba-131
Ba-133m
Ba-133
Ba-135m
Ba-137m
Ba-139
Ba-140
55.4m
12.45m
41.8m
53m
81.0m
2.12h
3 .62m
13 .2h
4.18d
60.14d
13.02d
24.99m
1.57E7y
12.36h
8.04d
83 .6m
2.30h
20. 8h
52.6m
6.61h
40m
40.1m
20. Ih
2.08h
17. Oh
36.41d
8.0d
11. 9d
2.188d
5.245d
15.29m
9.09h
14.17m
45m
1.64m
6.25h
3 .9m
32.06h
29.9m
9.69d
6.475d
2.90h
2.062y
53m
2.3E6y
13 .Id
30.0y
32.2m
96.5m
2.43d
14.6m
11. 8d
38. 9h
10.74y
28. 7h
2.552m
82.7m
12.74d
ITB-
B-
B-
ECB+
ECB+
ECB+
ECB+
EC
ECB+
EC
ECB+B-
ECB+B-
B-
B-
B-
ITB-
B-
B-
B-
B-
ECB+
ECB+
EC
ECB+
ECB+
EC
IT
IT
IT
B-
ITB-
B-
B-
ECB+
ECB+
ECB+
ECB+
ECB+
ECB+
EC
ECB+B-
IT
ECB-
IT
B-
B-
B-
B-
ECB+
EC
IT
ECB+
IT
EC
IT
IT
B-
B-
I-
I-
I-
Te
Te
Xe
I-
Xe
Xe
I-
I-
I-
I-
I-
Xe
Cs
Cs
Cs
Xe
Xe
Cs
Cs
Ba
Cs
Cs
Ba
Cs
Ba
La
133
133
134
-121
-123m
-131m
132
-133m
-135m
120
121
122
123
125
-133
-135
-135
-138
-125
-127
-134
-135
-137m
-126
-128
-131
-131
-133
-140
8
1
1
1
5
1
8
2
1
1
1
1
1
1
1
4
1
1
1
1
1
1
9
1
1
1
1
1
1
.700E-
.OOOE+
.OOOE+
.OOOE+
.OOOE-
.110E-
.600E-
.900E-
.540E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.500E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.460E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
01 Te-133 1.300E-01
00
00
00
05 Te-123 9.999E-01
02
01
02 Xe-133 9.710E-01
01 Xe-135 8.460E-01
00
00
00
00
00
00
05 Xe-135 9.999E-01
00
00
00
00
00
00
01
00
00
00
00
00
00
0
0
0
1
1
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
.705
.819
.300
.244
.423
.083
.055
.028
.194
.019
.157
.748
.064
.297
.192
.159
.495
.411
.622
.367
.055
.569
.010
.184
.034
.033
.185
.144
.192
.136
.098
.317
.673
.347
.464
.029
.846
.018
.401
.007
.014
.112
.164
.036
.067
.139
.187
.207
.020
.009
.109
.046
.221
.054
.208
.065
.898
.313
2
0
0
5
2
0
0
0
1
0
0
0
0
2
0
0
2
0
2
1
0
1
0
0
0
0
0
0
0
0
0
0
1
0
1
0
0
0
0
0
0
0
1
1
2
2
0
0
0
0
0
0
0
0
0
0
.313
.929
.886
.297
.729
.419
.946
.172
.098
.042
.455
.085
.025
.139
.382
.322
.280
.607
.625
.576
.432
.815
.068
.634
.271
.280
.051
.020
.041
.046
.429
.249
.125
.678
.086
.420
.900
.282
.517
.023
.705
.027
.555
.586
-
.166
-
.361
.163
.076
.077
.459
.067
.402
.060
.597
.043
.183
-------
204
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
T
Decay
Mode
Nuclide
Fraction Nuclide Fraction Nuclide
Energy (MeV nt"1)
Fraction Alpha Elect Photon
Barium, cont ' d
Ba-141
Ba-142
Lanthanum
La -131
La-132
La-134
La-135
La-137
La-138 1
La-140
La-141
La-142
La-143
Cerium
Ce-134
Ce-135
Ce-137m
Ce-137
Ce-139
Ce-141
Ce-143
Ce-144
18.27m
10.6m
59m
4.8h
6.67m
19. 5h
6E4y
.35Elly
40.272h
3.93h
92.5m
14.23m
72. Oh
17. 6h
34. 4h
9. Oh
137. 66d
32. 501d
33 .Oh
284.3d
B-
B-
ECB+
ECB+
ECB+
ECB+
EC
B-EC
B-
B-
B-
B-
EC
ECB+
ECIT
EC
EC
B-
B-
B-
La-141
La-142
Ba-131
Ce-141
Ce-143
La-134
La-135
La-137
La-137
Pr-143
Pr-144m
1
1
1
1
1
1
1
5
1
1
1
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.900E-
.OOOE+
.OOOE+
.780E-
00
00
00
00
00
00
00
03 Ce-137 9.941E-01
00
00
02 Pr-144 9.822E-01
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
.901
.440
.208
.522
.739
.007
.007
.037
.537
.948
.846
.324
.007
.244
.203
.017
.036
.171
.433
.092
0
1
0
2
0
0
0
1
2
0
2
0
0
1
0
0
0
0
0
0
.845
.047
.671
.011
.698
.036
.024
.236
.315
.043
.753
.094
.026
.776
.053
.036
.160
.076
.282
.021
Praseodymium
Pr-136
Pr-137
Pr-138m
Pr-138
Pr-139
Pr-142m
Pr-142
Pr-143
Pr-144m
Pr-144
Pr-145
Pr-147
Neodymium
Nd-136
Nd-138
Nd-139m
Nd-139
Nd-141m
Nd-141
Nd-147
Nd-149
Nd-151
13 .1m
76.6m
2.1h
1.45m
4.51h
14.6m
19.13h
13.56d
7.2m
17.28m
5.98h
13 .6m
50.65m
5.04h
5.5h
29.7m
62.4s
2.49h
10.98d
1.73h
12.44m
ECB+
ECB+
ECB+
ECB+
ECB+
IT
B-EC
B-
ITB-
B-
B-
B-
ECB+
EC
ECB+IT
ECB+
ECIT
ECB+
B-
B-
B-
Ce-137
Ce-139
Pr-142
Pr-144
Nd-147
Pr-136
Pr-138
Pr-139
Pr-139
Nd-141
Pm-147
Pm-149
Pm-151
1
1
1
9
1
1
1
8
1
9
1
1
1
.OOOE+
.OOOE+
.OOOE+
.990E-
.OOOE+
.OOOE+
.OOOE+
.800E-
.OOOE+
.996E-
.OOOE+
.OOOE+
.OOOE+
00
00
00
01
00
00
00
01 Nd-139 1.200E-01
00
01
00
00
00
0
0
0
1
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
.743
.198
.224
.159
.046
.004
.808
.314
.047
.208
.677
.807
.093
.008
.111
.201
.068
.016
.270
.506
.649
2
0
2
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
.101
.501
.478
.813
.122
<
.058
<
.013
.032
.013
.863
.293
.043
.572
.406
.759
.075
.140
.384
.916
Promethium
Pm-141
Pm-142
Pm-143
Pm-144
Pm-145
Pm-146
Pm-147
Pm-148m
Pm-148
Pm-149
Pm-150
Pm-151
Samarium
Sm-141m
Sm-141
Sm-142
20.90m
40.5s
265d
363d
17. 7y
2020d
2.6234y
41.3d
5.37d
53.08h
2.68h
28.40h
22.6m
10.2m
72.49m
ECB+
ECB+
EC
EC
EC
B-EC
B-
B-IT
B-
B-
B-
B-
ITECB+
ECB+
ECB+
Nd-141m
Sm-146
Sm-147
Pm-148
Sm-151
Pm-141
Pm-141
Pm-142
9
3
1
4
1
9
1
1
.680E-
.590E-
.OOOE+
.600E-
.OOOE+
.969E-
.OOOE+
.OOOE+
04 Nd-141 9.990E-01
01
00
02
00
01 Sm-141 3.100E-03
00
00
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
.632
.365
.008
.017
.014
.097
.062
.170
.724
.366
.807
.306
.435
.706
.034
0
0
0
1
0
0
2
0
0
1
0
1
1
0
.744
.868
.315
.563
.031
.753
<
.000
.575
.011
.431
.321
.984
.405
.094
-------
205
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
T
Decay
Mode
Nuclide
Fraction Nuclide Fraction Nuclide
Energy (MeV nt"1)
Fraction Alpha Elect Photon
Samarium, cont ' d
Sm-145
Sm-146 1
Sm-147 1.
Sm-151
Sm-153
Sm-155
Sm-156
Europium
Eu-145
Eu-146
Eu-147
Eu-148
Eu-149
Eu-150b
Eu-150a
Eu-152m
Eu-152
Eu-154
Eu-155
Eu-156
Eu-157
Eu-158
Gadolinium
Gd-145
Gd-146
Gd-147
Gd-148
Gd-149
Gd-151
Gd-152 1.
Gd-153
Gd-159
Terbium
Tb-147
Tb-149
Tb-150
Tb-151
Tb-153
Tb-154
Tb-155
Tb-156m
Tb-156n
Tb-156
Tb-157
Tb-158
Tb-160
Tb-161
Dysprosium
Dy-155
Dy-157
Dy-159
Dy-165
Dy-166
Holmium
Ho-155
Ho-157
Ho-159
Ho-161
Ho-162m
Ho-162
Ho-164m
Ho-164
340d
.03E8y
06Elly
90y
46. 7h
22.1m
9.4h
5.94d
4.61d
24d
54. 5d
93. Id
34. 2y
12.62h
9.32h
13 .33y
8.8y
4.96y
15.19d
15.15h
45.9m
22.9m
48.3d
38. Ih
93y
9.4d
120d
08E14y
242d
18.56h
1.65h
4.15h
3.27h
17. 6h
2.34d
21. 4h
5.32d
24. 4h
5. Oh
5.34d
150y
150y
72.3d
6.91d
10. Oh
8.1h
144. 4d
2.334h
81. 6h
48m
12.6m
33m
2.5h
68m
15m
37.5m
29m
EC
A
A
B-
B-
B-
B-
ECB+
ECB+
A ECB+
A ECB+
EC
EC
B-ECB+
ECB+B-
B-ECB+
ECB-
B-
B-
B-
B-
ECB+
EC
ECB+
A
EC
A EC
A
EC
B-
ECB+
ECB+A
ECB+
ECB+A
ECB+
ECB+
EC
IT
IT
EC
EC
B-EC
B-
B-
ECB+
EC
EC
B-
B-
ECB+
ECB+
ECB+
EC
ITEC
ECB+
IT
ECB-
Pm-145
Eu-155
Eu-156
Sm-145
Sm-146
Pm-143
Pm-144
Gd-152
Gd-152
Eu-145
Eu-146
Eu-147
Eu-149
Sm-147
Gd-147
Eu-145
Eu-147
Gd-153
Tb-156
Tb-156
Tb-155
Tb-157
Ho-166
Dy-155
Dy-157
Dy-159
Ho-162
Ho-164
1
1
1
1
1
2
9
7
2
1
1
1
1
8
1
2
9
1
1
1
1
1
1
1
1
1
6
1
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.200E-
.400E-
.200E-
.792E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE-
.OOOE+
.OOOE-
.500E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.100E-
.OOOE+
00
00
00
00
00
05 Sm-147 l.OOOE+00
09
01
01
00
00
00
00
09
00
01 Gd-149 8.000E-01
05 Gd-151 l.OOOE+00
00
00
00
00
00
00
00
00
00
01
00
0
2.474
2.248
0
0
0
0
0
0
< 0
< 0
0
0
0
0
0
0
0
0
0
0
0
0
0
3 .183
0
< 0
2.148
0
0
0
0.793 0
0
< 0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.032
-
-
.020
.273
.566
.206
.029
.048
.042
.023
.011
.044
.312
.507
.139
.292
.063
.423
.395
.963
.549
.130
.060
-
.059
.034
-
.044
.304
.564
.186
.546
.080
.049
.081
.034
.024
.084
.103
.005
.116
.257
.197
.028
.013
.013
.449
.159
.241
.081
.052
.033
.078
.062
.092
.148
0
0
0
0
1
2
0
2
0
1
0
0
1
1
0
1
0
1
2
0
1
0
0
0
0
1
1
1
0
0
2
0
0
0
1
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.065
-
-
<
.062
.103
.121
.458
.504
.497
.177
.063
.496
.047
.293
.155
.242
.061
.329
.262
.057
.257
.250
.337
-
.420
.064
-
.106
.050
.590
.614
.679
.892
.229
.352
.140
.025
.004
.826
.003
.798
.124
.035
.582
.357
.045
.026
.040
.387
.493
.366
.062
.576
.168
.047
.030
-------
206
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
T
Holmium, cont '
d
Ho-166m 1.20E3y
Ho-166
Ho-167
Erbium
Er-161
Er-165
Er-169
Er-171
Er-172
Thulium
Tm-162
Tm-166
Tm-167
Tm-170
Tm-171
Tm-172
Tm-173
Tm-175
Ytterbium
Yb-162
Yb-166
Yb-167
Yb-169
Yb-175
Yb-177
Yb-178
Lutetium
Lu-169
Lu-170
Lu-171
Lu-172
Lu-173
Lu-174m
Lu-174
Lu-176m
Lu-176 3
Lu-177m
Lu-177
Lu-178m
Lu-178
Lu-179
Hafnium
Hf-170
Hf-172
Hf-173
Hf-175
Hf-177m
Hf-178m
Hf-179m
Hf-180m
Hf-181
Hf-182m
Hf-182
Hf-183
Hf-184
Tantalum
Ta-172
Ta-173
Ta-174
Ta-175
Ta-176
Ta-177
26.
3
3.
10.
9
7.
49
21
7.
9.
128
1.
63
8.
15
18
56
17
32.
4.
1
34.
2.
8.
6.
1.
80h
.In
24h
36h
.3d
52h
.3h
.7m
70h
24d
.6d
92y
.6h
24h
.2m
.9m
.7h
.5m
Old
19d
.9h
74m
06h
OOd
22d
70d
37y
142d
3.
3.
31y
68h
. 60E10y
160
6.
22
28
4.
16.
1.
24
51
25
5
42
61
.9d
71d
.7m
.4m
59h
Olh
87y
.Oh
70d
.4m
31y
.Id
.5h
.4d
.5m
9E6y
4.
36
3 .
1
10
8.
56
64m
12h
. 8m
65h
.2h
.5h
08h
.6h
Decay
Mode
B-
B-
B-
ECB+
EC
B-
B-
B-
ECB+
ECB+
EC
ECB-
B-
B-
B-
B-
EC
EC
ECB+
EC
B-
B-
B-
ECB+
ECB+
EC
ECB+
EC
ECIT
ECB+
B-
B-
B-IT
B-
B-
B-
B-
EC
EC
ECB+
EC
IT
IT
IT
IT
B-
ITB-
B-
B-
B-
ECB+
ECB+
ECB+
ECB+
ECB+
EC
Nuclide
Ho-161
Tm-171
Tm-172
Yb-175
Tm-162
Tm-166
Tm-167
Lu-177
Lu-178
Yb-169
Lu-174
Lu-177
Lu-170
Lu-172
Lu-173
Ta-182
Ta-182
Ta-183
Ta-184
Hf-172
Hf-173
Hf-175
Fraction Nuclide Fraction Nuclide
1
1
1
1
1
1
1
1
1
1
9
2
1
1
1
5
1
1
1
1
1
1
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.930E-
.100E-
.OOOE+
.OOOE+
.OOOE+
.400E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
00
00
00
00
00
00
00
00
00
00
01
01
00
00
00
01 Hf-182 4.600E-01
00
00
00
00
00
00
Energy (MeV nt"1)
Fraction Alpha Elect Photon
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.132
.695
.219
.051
.008
.104
.422
.129
.370
.103
.128
.331
.026
.530
.319
.555
.031
.042
.092
.125
.130
.430
.191
.054
.094
.084
.119
.036
.116
.042
.477
.296
.272
.148
.591
.773
.464
.091
.118
.053
.046
.500
.297
.188
.139
.203
.235
.083
.451
.477
.505
.358
.367
.064
.104
.024
1
0
0
0
0
0
0
1
1
0
0
0
0
1
0
0
0
0
0
0
0
1
2
0
1
0
0
0
0
0
1
0
1
0
0
0
0
0
0
2
2
0
1
0
0
0
0
0
1
0
0
0
2
0
.747
.029
.365
.914
.038
<
.381
.522
.781
.870
.146
.005
<
.477
.388
.053
.137
.086
.267
.310
.040
.187
.035
.041
.484
.697
.888
.130
.063
.126
.014
.491
.003
.035
.109
.140
.031
.549
.118
.408
.369
.252
.358
.901
.008
.555
.933
.239
.752
.251
.550
.585
.627
.933
.145
.067
-------
207
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
Tantalum,
Ta-178b
Ta-178a
Ta-179
Ta-180m
Ta-180
Ta-182m
Ta-182
Ta-183
Ta-184
Ta-185
Ta-186
Tungsten
W-176
W-177
W-178
W-179
W-181
W-185
W-187
W-188
Rhenium
Re-177
Re-178
Re-180
Re-181
Re-182b
Re-182a
Re-184m
Re-184
Re-186m
Re-186
Re-187
Re-188m
Re-188
Re-189
Osmium
Os-180
Os-181
Os-182
Os-185
Os-189m
Os-190m
Os-191m
Os-191
Os-193
Os-194
Iridium
Ir-182
Ir-184
Ir-185
Ir-186a
Ir-186b
Ir-187
Ir-188
Ir-189
Ir-190n
Ir-190m
Ir-190
Ir-191m
Ir-192m
Ir-192
Ir-194m
T
cont ' d
2.2h
9.31m
664. 9d
8.1h
1.0E13y
15.84m
115. Od
5. Id
8.7h
49m
10.5m
2.3h
135m
21. 7d
37.5m
121. 2d
75. Id
23. 9h
69. 4d
14.0m
13.2m
2.43m
20h
64. Oh
12. 7h
165d
38. Od
2.0E5y
90.64h
SElOy
18.6m
16.98h
24. 3h
22m
105m
22h
94d
6. Oh
9.9m
13 .03h
15. 4d
30. Oh
6.0y
15m
3.02h
14. Oh
15. 8h
1.75h
10. 5h
41. 5h
13 .3d
3.1h
1.2h
12. Id
4.94s
241y
74.02d
171d
Decay
Mode
EC
EC
EC
ECB-
EC
IT
B-
B-
B-
B-
B-
EC
ECB+
EC
EC
EC
B-
B-
B-
ECB+
ECB+
ECB+
ECB+
EC
ECB+
ITEC
EC
IT
B-EC
B-
IT
B-
B-
ECB+
ECB+
EC
EC
IT
IT
IT
B-
B-
B-
ECB+
ECB+
ECB+
ECB+
ECB+
EC
ECB+
EC
ITEC
IT
EC
IT
IT
B-EC
B-
Nuclide
Ta
-182
W-185
Ta
Ta
Ta
Ta
Re
Re
-176
-177
-178a
-179
-187
-188
W-177
W-
W-
Re
Re
Re
Os
Re
Re
Re
Os
Ir
Os
Os
Os
178
181
-184
-186
-188
-189m
-180
-181
-182a
-191
-194
-182
-185
-189m
Ir-190m
Ir
Ir
-190
-192
Fraction Nuclide Fraction
1
1
1
1
1
1
1
1
1
1
1
7
1
1
2
1
1
1
1
1
1
1
8
5
1
1
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.470E-
.OOOE+
.OOOE+
.410E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.300E-
.OOOE-
.OOOE+
.OOOE+
00
00
00
00
00
00
00
00
00
00
00
01
00
00
01
00
00
00
00
00
00
00
02
02
00
00
Energy (MeV nt"1)
Nuclide Fraction Alpha Elect Photon
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
-
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
-
0
0
.155
.034
.008
.055
.123
.251
.217
.345
.547
.725
.992
.073
.104
.007
.027
.011
.127
.312
.100
.361
.578
.156
.137
.213
.088
.141
.056
.124
.345
<
.098
.780
.340
.028
.108
.056
.019
.029
.116
.065
.135
.373
.034
.935
.279
.115
.113
.203
.060
.058
.049
.126
.024
.129
.096
-
.217
.156
1
0
0
0
0
0
1
0
1
0
1
0
0
0
0
0
0
0
0
1
1
0
1
1
0
0
0
0
0
0
0
0
1
0
0
0
1
0
0
0
0
1
1
0
1
0
0
1
0
1
0
1
0
0
0
2
.023
.109
.032
.049
.560
.252
.294
.293
.612
.193
.560
.177
.903
.014
.060
.040
<
.481
.002
.620
.218
.183
.771
.886
.179
.390
.891
.019
.021
-
.080
.058
.069
.065
.222
.435
.719
.002
.588
.009
.080
.073
.002
.340
.908
.601
.641
.964
.363
.584
.081
.555
.002
.443
.075
.161
.818
.335
-------
208
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
Iridium,
Ir-194
Ir-195m
Ir-195
Platinum
Pt-186
Pt-188
Pt-189
Pt-191
Pt-193m
Pt-193
Pt-195m
Pt-197m
Pt-197
Pt-199
Pt-200
Gold
Au-193
Au-194
Au-195m
Au-195
Au-198m
Au-198
Au-199
Au-200m
Au-200
Au-201
Mercury
Hg-193m
Hg-193
Hg-194
Hg-195m
Hg-195
Hg-197m
Hg-197
Hg-199m
Hg-203
Thallium
Tl-194m
Tl-194
Tl-195
Tl-197
Tl-198m
Tl-198
Tl-199
Tl-200
Tl-201
Tl-202
Tl-204
Tl-206
Tl-207
Tl-208
Tl-209
Lead
Pb-195m
Pb-198
Pb-199
Pb-200
Pb-201
Pb-202m
Pb-202
Pb-203
Pb-205
T
cont ' d
19.15h
3 .8h
2.5h
2. Oh
10. 2d
10.87h
2.8d
4.33d
50y
4.02d
94.4m
18. 3h
30.8m
12. 5h
17.65h
39. 5h
30.5s
183d
2.30d
2.696d
3.139d
18. 7h
48.4m
26.4m
11. Ih
3.5h
260y
41. 6h
9.9h
23 .8h
64. Ih
42.6m
46.60d
32.8m
33m
1.16h
2.84h
1.87h
5.3h
7.42h
26. Ih
3 .044d
12.23d
3 .779y
4.20m
4.77m
3.07m
2.20m
15.8m
2.4h
90m
21. 5h
9.4h
3 .62h
3E5y
52.05h
1.43E7y
Decay
Mode
B-
ITB-
B-
A EC
EC
ECB+
EC
IT
EC
IT
B-IT
B-
B-
B-
EC
ECB+
IT
EC
IT
B-
B-
B-IT
B-
B-
ECB+IT
ECB+
EC
ITEC
EC
ECIT
EC
IT
B-
ECB+
EC
ECB+
ECB+
ECB+IT
ECB+
ECB+
ECB+
EC
ECB+
ECB-
B-
B-
B-
B-
ECB+
EC
ECB+
EC
ECB+
ITEC
EC
EC
EC
Nuclide
Ir-195
Os-182
Ir-188
Ir-189
Pt-193
Pt-197
Au-199
Au-200
Pt-193
Au-195
Au-198
Au-200
Au-193
Au-193
Au-194
Au-195
Au-195
Hg-197
Hg-194
Hg-194
Hg-195
Hg-197
Tl-198
Pb-209
Tl-195
Tl-198
Tl-199
Tl-200
Tl-201
Tl-202
Tl-202
Fraction Nuclide Fraction Nuclide
4
1
1
1
1
9
1
1
1
1
1
1
9
1
1
4
1
9
1
1
1
1
4
1
1
1
1
1
1
9
1
.OOOE-
.400E-
.OOOE+
.OOOE+
.OOOE+
.670E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.800E-
.200E-
.OOOE+
.OOOE+
.580E-
.OOOE+
.300E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.700E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.500E-
.OOOE+
02
06 Ir-186b l.OOOE+00
00
00
00
01
00
00
00
00
00
01
01 Hg-193 8.000E-02
00
00
01 Hg-195 5.420E-01
00
01
00
00
00
00
01
00
00
00
00
00
00
02 Pb-202 9.050E-01
00
Energy (MeV nt"1)
Fraction Alpha Elect Photon
0
0
0
< 0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.812
.480
.380
.012
.080
.055
.064
.137
.007
.183
.324
.254
.535
.243
.064
.043
.117
.051
.289
.327
.143
.276
.740
.422
.139
.125
.007
.150
.065
.215
.066
.352
.099
.342
.030
.096
.061
.201
.041
.056
.040
.043
.023
.238
.537
.493
.598
.688
.302
.079
.054
.099
.058
.076
.006
.052
.007
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
2
0
0
1
0
0
0
0
0
0
0
0
2
0
1
0
1
2
0
1
0
0
0
0
3
2
1
0
1
0
0
2
0
0
0
.090
.432
.059
.740
.202
.325
.304
.013
.002
.076
.083
.025
.202
.061
.160
.067
.201
.085
.577
.405
.089
.087
.272
.053
.046
.203
.003
.214
.204
.094
.070
.186
.238
.319
.779
.271
.409
.195
.006
.249
.311
.093
.468
.001
<
.002
.375
.032
.599
.439
.476
.209
.758
.043
.002
.312
.002
-------
209
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional Yield
Nuclide
Decay
TK Mode
Nuclide
Fraction Nuclide
Energy (MeV nt"1)
Fraction Nuclide Fraction Alpha Elect Photon
Lead, cont ' d
Pb-209
Pb-210
Pb-211
Pb-212
Pb-214
Bismuth
Bi-200
Bi-201
Bi-202
Bi-203
Bi-205
Bi-206
Bi-207
Bi-210m
Bi-210
Bi-211
Bi-212
Bi-213
Bi-214
Polonium
Po-203
Po-205
Po-207
Po-210
Po-211
Po-212
Po-213
Po-214
Po-215
Po-216
Po-218
Astatine
At-207
At-211
At-215
At-216
At-217
At-218
Radon
Rn-218
Rn-219
Rn-220
Rn-222
Franc ium
Fr-219
Fr-220
Fr-221
Fr-222
Fr-223
Radium
Ra-222
Ra-223
Ra-224
Ra-225
Ra-226
Ra-227
Ra-228
Actinium
Ac-223
Ac-224
Ac-225
Ac-226
3 .253h B-
22. 3y B-
36.1m B-
10.64h B-
26.8m B-
36.4m ECB+
108m EC
1.67h ECB+
11.76h ECB+
15.31d ECB+
6.243d EC
38y ECB+
3 .OE6y A
5.012d B-
2.14m A B-
60.55m B-A
45.65m B-A
19.9m B-
36.7m ECB+
l.SOh A ECB+
350m ECB+
138. 38d A
0.516s A
0.305usA
4.2usA
164.3usA
0.00178s A
0.15s A
3.05m A B-
l.SOh EGA
7.214h EGA
O.lOmsA
0 .30msA
0.0323s A
2s A
35msA
3.96s A
55.6s A
3.8235d A
21msA
27.4s A
4.8m A
14.4m B-
21.8m B-
38.0s A
11.434d A
3.66d A
14. 8d B-
1600y A
42.2m B-
5.75y B-
2.2m A
2.9h A EC
10. Od A
29h A B-EC
Bi-210
Bi-211
Bi-212
Bi-214
Pb-200
Pb-201
Pb-202m
Pb-203
Pb-205
Tl-206
Po-210
Tl-207
Tl-208
Tl-209
Po-214
Bi-203
Pb-201
Bi-207
Pb-209
Pb-210
Pb-211
Pb-212
Pb-214
Bi-203
Bi-207
Bi-211
Bi-212
Bi-213
Bi-214
Po-214
Po-215
Po-216
Po-218
At-215
At-216
At-217
Ra-222
Ra-223
Rn-218
Rn-219
Rn-220
Ac-225
Rn-222
Ac-227
Ac-228
Fr-219
Fr-220
Fr-221
Th-226
1
1
1
1
1
1
2
1
1
1
1
9
3
2
9
9
1
1
1
1
1
1
9
1
4
1
1
1
9
1
1
1
1
1
1
1
1
9
1
1
1
1
1
1
1
1
1
1
8
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.500E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.972E-
.593E-
.160E-
.998E-
.989E-
.400E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.998E-
.OOOE-
.170E-
.OOOE+
.OOOE+
.OOOE+
.990E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.999E-
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE+
.OOOE-
.OOOE+
.280E-
00
00
00
00
00
00
03 Pb-202
00
00
00
00
01 Po-211
01 Po-212
02 Po-213
01
01
03 Bi-205
00
00
00
00
00
01 At-218
01 Po-207
01 Po-211
00
00
00
01
00
00
00
00
00
00
00
00
01
00
00
00
00
00
00
00
00
01 Ra-224
00
01 Ra-226
9.975E-01
4
2.800E-03 6
6.407E-01 2
9.784E-01 0
9.986E-01 0
5
7
8
8
7
7
6
2.000E-04 6
9.000E-01 0
5.830E-01 2
8
7
7
6
7
6
6
5
7
6
6
6
5
5
4
6
9.000E-01 0
5
1.720E-01 Fr-222 6.000E-05
-
-
-
-
-
-
-
-
-
-
-
-
.913
-
.550
.174
.126
-
-
.007
-
.297
.442
.785
.376
.687
.386
.779
.001
.576
.446
.026
.799
.067
.697
.132
.757
.288
.489
.313
.637
.304
-
-
.546
.667
.674
-
.774
-
-
.553
.611
.787
<
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.198
.038
.456
.176
.293
.190
.258
.109
.080
.034
.136
.117
.047
.389
.010
.472
.442
.659
.164
.060
.052
<
<
-
-
<
<
<
<
.080
.006
<
<
<
.040
<
.006
<
<
<
.028
.010
.731
.400
<
.076
.002
.107
.004
.439
.017
.015
.040
.022
.289
0
0
0
0
2
1
2
2
1
3
1
0
0
0
0
1
1
1
1
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
-
.005
.051
.148
.250
.393
.339
.713
.384
.690
.278
.540
.257
-
.047
.186
.133
.508
.644
.581
.331
<
.008
-
-
<
<
<
<
.325
.039
<
.002
<
.007
<
.056
<
<
.003
.012
.031
-
.059
.009
.134
.010
.014
.007
.167
<
.006
.200
.018
.130
-------
210
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and Fractional
Nuclide
Actinium,
Ac-227
Ac-228
Thorium
Th-226
Th-227
Th-228
Th-229
Th-230
Th-231
Th-232 1.
Th-234
T
cont ' d
21.773y
6.13h
30.9m
18.718d
1.9131y
7340y
7.7E4y
25.52h
405E10y
24.10d
Decay
Mode
B-A
B-
A
A
A
A
A
B-
A
B-
Nuclide
Fr-223
Th-228
Ra-222
Ra-223
Ra-224
Ra-225
Ra-226
Pa-231
Ra-228
Pa-234m
Fraction
1
1
1
1
1
1
1
1.
1.
9.
.380E-02
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.980E-01
Nuclide
Th-227
Pa-234
Yield
Energy (MeV nt"1)
Fraction Nuclide Fraction Alpha Elect Photon
9.862E-01
2.000E-03
0
6
5
5
4
4
3 .
.068
-
.308
.884
.400
.873
.671
-
.996
-
0.016
0.475
0.021
0.053
0.021
0.116
0.015
0.165
0.012
0.060
<
0.971
0.009
0.110
0.003
0.096
0.002
0.026
0.001
0.009
Protactinium
Pa-227
Pa-228
Pa-230
Pa-231 3
Pa-232
Pa-233
Pa-234m
Pa-234
Uranium
U-230
U-231
U-232
U-233 1
U-234 2
38.3m
22h
17. 4d
.276E4y
1.31d
27. Od
1.17m
6.70h
20. 8d
4.2d
72y
.585E5y
.445E5y
U-235 703.8E6y
U-236 2.
U-237
U-238 4
U-239
U-240
Neptunium
Np-232
Np-233
Np-234
Np-235
Np-236a
Np-236b
Np-237
Np-238
Np-239
Np-240m
Np-240
Plutonium
Pu-234
Pu-235
Pu-236
Pu-237
Pu-238
Pu-239
Pu-240
Pu-241
Pu-242 3
Pu-243
Pu-244
Pu-245
Pu-246
Americium
Am-237
Am-238
Am-239
3415E7y
6.75d
.468E9y
23.54m
14. Ih
14.7m
36.2m
4.4d
396. Id
115E3y
22. 5h
2.14E6y
2.117d
2.355d
7.4m
65m
8.8h
25.3m
2.851y
45.3d
87.74y
24065y
6537y
14. 4y
.763E5y
4.956h
8.26E7y
10. 5h
10.85d
73.0m
98m
11. 9h
ECA
A ECB+
A ECB-
A
B-
B-
B-IT
B-
A
EGA
A
A
A
A
A
B-
SFA
B-
B-
ECB+
EC
ECB+
EGA
ECB-
B-EC
A
B-
B-
B-
B-
A EC
EGA
SFA
A EC
SFA
A
SFA
A B-
SFA
B-
SFA
B-
B-
A EC
EGA
A EC
Ac-223
Ac-224
U-230
Ac-227
U-232
U-233
U-234
U-234
Th-226
Th-227
Th-228
Th-229
Th-230
Th-231
Th-232
Np-237
Th-234
Np-239
Np-240m
U-232
U-233
U-234
Pa-231
Pu-236
Pu-236
Pa-233
Pu-238
Pu-239
Pu-240
Pu-240
U-230
U-231
U-232
U-233
U-234
U-235
U-236
U-237
U-238
Am-243
U-240
Am-245
Am-246
Np-233
Np-234
Np-235
8.
2.
9.
1.
1.
1.
9.
1.
1.
5.
1.
1.
1.
1.
1.
1.
1.
1.
1.
1.
1.
1.
1.
8.
4.
1.
1.
1.
9.
1.
6.
2.
1.
5.
1.
1.
1.
2.
1.
1.
1.
1.
1.
2.
1.
1.
.500E-01
.OOOE-02
.500E-02
.OOOE+00
.OOOE+00
.OOOE+00
.987E-01
.OOOE+00
.OOOE+00
.500E-05
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.400E-05
.900E-02
.800E-01
.OOOE+00
.OOOE+00
.OOOE+00
.989E-01
.OOOE+00
.OOOE-02
.700E-05
.OOOE+00
.OOOE-05
.OOOE+00
.OOOE+00
.OOOE+00
.450E-05
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.500E-04
OOOE-06
OOOE-04
Th-227
Th-228
Th-230
Pa-234
Pa-231
SF
U-235
U-236
U-236
Np-234
Np-235
SF
Np-237
SF
SF
Am-241
SF
SF
Pu-237
Pu-238
Pu-239
1.500E-01
9.800E-01
9.050E-01 Ac-226
1.300E-03
1. OOOE+00
5.400E-05
9.999E-01
9.110E-01
5.200E-01
9.400E-01
1. OOOE+00
8.100E-10
1. OOOE+00
1.840E-09
4.950E-08
1. OOOE+00
5.500E-06
1.250E-03
9.997E-01
1. OOOE+00
9.999E-01
5.
0.
3 .200E-05
4.
5.
5.
4.
4.
4.
4.
4.
4.
0.
5.
5.
5.
5.
4.
4.
0.
.468
.120
<
.969
-
-
-
-
.864
<
.302
.817
.758
.396
.505
-
.187
-
-
-
-
-
<
-
-
.769
-
-
-
-
.371
<
.753
<
.487
.148
.156
<
.891
-
.575
-
-
.002
<
<
0.016
0.165
0.068
0.065
0.175
0.196
0.822
0.494
0.022
0.071
0.017
0.006
0.013
0.049
0.011
0.196
0.010
0.412
0.138
0.106
0.014
0.069
0.010
0.208
0.087
0.070
0.264
0.260
0.683
0.528
0.011
0.021
0.013
0.016
0.011
0.007
0.011
0.005
0.009
0.173
0.007
0.350
0.125
0.077
0.052
0.168
0.022
1.141
0.652
0.048
0.939
0.204
0.012
1.919
0.003
0.082
0.002
0.001
0.002
0.156
0.002
0.143
0.001
0.053
0.008
1.203
0.091
1.442
0.007
0.136
0.051
0.035
0.553
0.173
0.337
1.313
0.069
0.095
0.002
0.052
0.002
<
0.002
<
0.001
0.026
0.001
0.417
0.140
0.370
0.891
0.239
-------
211
Table A.I. Summary Information on the Nuclear Transformation of the Radionuclides
Radioactive Decay Products and
Nuclide
Americium,
Am-240
Am-241
Am-242m
Am-242
Am-243
Am-244m
Am-244
Am-245
Am-246m
Am-246
Curium
Cm-238
Cm-240
Cm-241
Cm-242
Cm-243
Cm-244
Cm-245
Cm-246
Cm-247
Cm-248
Cm-249
Cm-250
Berkelium
Bk-245
Bk-246
Bk-247
Bk-249
Bk-250
T
cont ' d
50. 8h
432. 2y
152y
16.02h
7380y
26m
10. Ih
2.05h
25.0m
39m
2.4h
27d
32. 8d
162. 8d
28. 5y
IS.lly
8500y
4730y
1.56E7y
3.39E5y
64.15m
6900y
4.94d
1.83d
1380y
320d
3 .222h
Decay
Mode
A EC
A
A IT
ECB-
A
B-
B-
B-
B-
B-
ECA
A
A EC
SFA
A EC
SFA
A
SFA
A
SFA
B-
SFA B-
A EC
EC
A
SFB-A
B-
Nuclide
Np-236b
Np-237
Np-238
Cm-242
Np-239
Cm-244
Cm-244
Cm-245
Cm-246
Cm-246
Pu-234
Pu-236
Pu-237
Pu-238
Pu-239
Pu-240
Pu-241
Pu-242
Pu-243
Pu-244
Bk-249
Pu-246
Am-241
Cm-246
Am-243
Am-245
Cf-250
Fraction
1
1
4
8
1
1
1
1
1
1
1
1
1
1
9
1
1
9
1
9
1
2
1
1
1
1
1
.900E-06
.OOOE+00
.800E-03
.270E-01
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE+00
.OOOE-01
.OOOE+00
.OOOE-02
.OOOE+00
.980E-01
.OOOE+00
.OOOE+00
.997E-01
.OOOE+00
.174E-01
.OOOE+00
.500E-01
.200E-03
.OOOE+00
.OOOE+00
.450E-05
.OOOE+00
Nuclide
Pu-240
Am-242
Pu-242
Am-238
Am-241
SF
Am-243
SF
SF
SF
Bk-250
Cm-245
Cf-249
Fractional Yield
Energy (MeV nt"1)
Fraction Nuclide Fraction Alpha Elect Photon
l.OOOE
9.952E
1.730E
9.000E
9.900E
6.800E
2.400E
1.350E
2.610E
8.260E
1.400E
9.988E
l.OOOE
+ 00
-01
-01
-01
-01
-08
-03
-06
-04
-02
-01 SF
-01
+ 00 SF
5
0
5
0
6
0
6
5
5
5
5
4
4
6.100E-01 1
0
5
4.700E-10
<
.479
.025
-
.270
-
-
-
-
-
.652
.247
.059
.102
.797
.795
.363
.376
.949
.651
-
.296
.007
-
.610
<
-
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.075
.052
.044
.179
.022
.509
.342
.288
.498
.655
.010
.011
.133
.010
.138
.009
.065
.008
.021
.006
.284
.002
.133
.054
.061
.033
.293
1.029
0.033
0.005
0.018
0.056
0.002
0.807
0.032
1.018
0.699
0.077
0.002
0.502
0.002
0.134
0.002
0.096
0.002
0.316
0.001
0.019
-
0.234
0.951
0.105
<
0.887
Californium
Cf-244
Cf-246
Cf-248
Cf-249
Cf-250
Cf-251
Cf-252
Cf-253
Cf-254
19.4m
35. 7h
333 .5d
350. 6y
13 .08y
898y
2.638y
17.81d
60. 5d
A
SFA
SFA
A SF
SFA
A
SFA
B-A
SFA
Cm-240
Cm-242
Cm-244
Cm-245
Cm-246
Cm-247
Cm-248
Cm-249
Cm-250
1
9
1
1
9
1
9
3
3
.OOOE+00
.997E-01
.OOOE+00
.OOOE+00
.992E-01
.OOOE+00
.691E-01
.100E-03
.100E-03
SF
SF
SF
SF
SF
Es-253
SF
2.000E
2.900E
5.200E
7.700E
3.092E
9.969E
9.969E
-06
-05
-09
-04
-02
-01
-01
7
6
6
5
6
5
5
0
0
.200
.747
.253
.831
.019
.784
.922
.019
.018
0
0
0
0
0
0
0
0
.009
.006
.006
.044
.006
.198
.006
.079
<
0.002
0.001
0.001
0.335
0.001
0.132
0.001
<
<
Einsteinium
Es-250
Es-251
Es-253
Es-254m
Es-254
Fermium
Fm-252
Fm-253
Fm-254
Fm-255
Fm-257
2. In
33h
20.47d
39. 3h
275. 7d
22. 7h
3.00d
3.240h
20.07h
100. 5d
EC
EGA
SFA
A B-
A
A
EGA
A
A
A
Cf-250
Bk-247
Bk-249
Bk-250
Bk-250
Cf-248
Cf-249
Cf-250
Cf-251
Cf-253
1
5
1
3
1
1
1
1
1
9
.OOOE+00
.OOOE-03
.OOOE+00
.200E-03
.OOOE+00
.OOOE+00
.200E-01
.OOOE+00
.OOOE+00
.979E-01
Cf-251
SF
Fm-254
Es-253
9.950E
8.700E
9.800E
8.800E
-01
-08
-01
-01
0
6
0
6
7
0
7
7
6
-
.032
.628
.020
.423
.034
.822
.182
.019
.511
0
0
0
0
0
0
0
0
0
0
.022
.052
.004
.256
.071
.005
.022
.006
.098
.121
0.397
0.098
0.001
0.470
0.019
0.001
0.083
0.001
0.014
0.111
Mendelevium
Md-257
Md-258
5.2h
55d
A EC
A
Es-253
Es-254
1
1
.OOOE-01
.OOOE+00
Fm-257
9.000E
-01
0
7
.707
.232
0
0
.015
.047
0.114
0.006
-------
APPENDIX B
MODIFICATIONS TO THE HUMAN PHANTOM
Organ doses were computed for 25 organs in the Cristy adult hermaphrodite phantom
(Cristy and Eckerman, 1987). Two modifications were made to the phantom before the
calculations were performed. In the first, the head region was modified to include a neck 8.4
cm high and 10.8 cm in diameter, and the right elliptical cylinder comprising the lower portion
of the head was shortened from 16.85 cm to 13.05 cm. The y-coordinate1 of the center of the
concentric cylinders bounding the lobes of the thyroid was changed from -4.00 cm to -2.30 cm
to place the thyroid in an appropriate position for external dosimetry studies. The upper portion
of the spine was also relocated to a more appropriate position by changing the y-coordinate of
the center of the bounding elliptical cylinder from 5.50 cm to 1.45 cm.
The second modification was the addition of an esophagus model, which is divided into
two parts. The thoracic portion lies within the upper trunk and contains a small amount of air
(represented by a void in the model). It is described as the region between two right elliptical
cylinders:
< 1
a - d \ b - d,
< z < z, ,
(B.I)
where a = 1.17 cm, b = 0.42 cm, d = 0.3 cm, y0 = 2.575 cm, z2 = 43.0 cm, and z3 = 70.0 cm.
The abdominal portion lies within the upper abdomen (middle trunk of the phantom) and is
closed. It is described by a right circular cylinder:
v'2 + z'2 < r2,
x[ < x' <
(B.2)
lThe origin of the coordinate system is at the center of the base of the trunk section of the
phantom. The z-axis is directed upward toward the head, the x-axis is directed toward the left
side of the phantom, and the y-axis is directed toward the posterior of the phantom.
213
-------
214
where a point in the (x , y , z ) coordinate system is related to the fo y, z) coordinate system
of the phantom by the following rotation-translation equations:
(B.3)
x'
y'
z(
=
«i Pi Yi
«2 P2 Y2
«3 P3 Y3
X
y - y0
z - Zl_
and where r = 0.7 cm, */ = 0.1 cm, X2' = 7.8 cm, ^ = 42.3 cm, a1 = 0.7360836,
ft, = -0.6049687, y1 = -0.3036345, a2 = 0.6349453, ft2 = 0.7725571, y2 = 0, a3 = 0.2345750,
ft3 = -0.1927913, and y3 = 0.9527886.
-------
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 zero 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 quite tedious because of the complexity
of the bremsstrahlung cross-section formulas. However, 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. This tabulation is based on an extensive set of numerical
calculations of the bremsstrahlung cross-sections carried out by Tseng and Pratt (1971) and by Lee
et al. (1976). The cross-section values are believed to be accurate within at least 10%.
Dillman and Eckerman (1993) have tabulated 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 92. Their tables provide values of bremsstrahlung spectra, multiplied by a scaling
factor of 100 kIT, as a function of kIT 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 Pratt et al. (1977) with
an extension of their data to electron kinetics energies up to 10 MeV.
Tables C.I 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 zero 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
215
-------
216
Y, is given by
Y = fT - S(k, T} dk
0 T (C.I)
/.
dk
100
The radiation yield 7 must, of course, be less than 1. The values of $ (k,T) for the slowing-down
medium are folded with the beta spectrum to obtain the bremsstrahlung spectrum associated with
beta decay. Defining S^(k, To) as the bremsstrahlung spectrum (photons MeV"1 per Bq s) at energy
k for a beta spectrum with endpoint kinetic energy T0, we have
I,. T \ - \ ° V (T\ <\(k T\ dT
V, _/ ) — I J nl -/ / O I A., ± I (A±
' n ' I n^ -^ ^ ~ '
(C.2)
^'(k T}
b (k, 1 ) dj,
where 7/7) is the probability per unit energy of beta emission with kinetic energy T.
The beta spectrum 7^ may be calculated using the Fermi theory of beta decay. In this work
we have used spectral data computed using the EDISTR code of Dillman (1980). Fig. C.I 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 in soil. We applied the information of Dillman and Eckerman (1993) to positrons 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 overestimates the bremsstrahlung contribution for beta emitters
on the soil surface.
-------
217
Table C.I. Scaled External Bremsstrahlung Spectra from Electrons for Air
k/T
T
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
6.71
4.04
3.34
3.14
3.08
3.02
2.96
2.90
2.72
2.60
2.51
2.44
2.38
2.30
2.24
2.20
2.15
2.12
2.09
2.07
2.02
1.99
1.94
1.90
1.88
1.84
1.80
0.05
5.19
3.45
3.06
2.89
2.72
2.53
2.42
2.32
2.08
1.93
1.83
1.76
1.71
1.63
1.58
1.55
1.52
1.49
1.48
1.46
1.44
1.43
1.42
1.40
1.39
1.38
1.36
0.10
4.29
3.07
2.82
2.64
2.38
2.14
2.00
1.90
1.64
1.50
1.41
1.34
1.29
1.22
1.18
1.16
1.14
1.13
1.12
1.11
1.09
1.09
1.09
1.09
1.09
1.08
1.07
0.20
3.31
2.58
2.37
2.15
1.82
1.57
1.43
1.33
1.10
0.983
0.909
0.858
0.821
0.775
0.747
0.730
0.718
0.712
0.707
0.705
0.705
0.708
0.716
0.725
0.733
0.741
0.744
0.30
2.69
2.16
1.96
1.72
1.40
1.17
1.05
0.960
0.772
0.675
0.616
0.577
0.550
0.515
0.497
0.485
0.478
0.477
0.476
0.475
0.479
0.484
0.498
0.510
0.520
0.533
0.539
0.40
2.20
1.79
1.60
1.36
1.08
0.871
0.766
0.697
0.543
0.466
0.420
0.391
0.370
0.346
0.332
0.327
0.323
0.323
0.323
0.325
0.330
0.337
0.350
0.362
0.372
0.385
0.394
0.50
1.76
1.43
1.26
1.06
0.809
0.638
0.553
0.497
0.375
0.317
0.282
0.260
0.245
0.228
0.220
0.217
0.216
0.216
0.217
0.218
0.224
0.231
0.243
0.253
0.261
0.274
0.283
0.60
1.37
1.11
0.965
0.794
0.590
0.453
0.386
0.342
0.250
0.207
0.182
0.166
0.156
0.145
0.140
0.138
0.138
0.139
0.140
0.142
0.147
0.152
0.161
0.170
0.177
0.188
0.196
0.70
0.997
0.809
0.693
0.563
0.405
0.303
0.253
0.220
0.155
0.126
0.109
0.0992
0.0925
0.0855
0.0825
0.0814
0.0815
0.0823
0.0834
0.0845
0.0882
0.0919
0.0987
0.105
0.110
0.118
0.124
0.80
0.649
0.525
0.444
0.356
0.249
0.180
0.147
0.126
0.0844
0.0668
0.0570
0.0512
0.0475
0.0435
0.0418
0.0413
0.0414
0.0417
0.0423
0.0430
0.0452
0.0471
0.0508
0.0541
0.0571
0.0620
0.0659
0.90
0.318
0.256
0.215
0.170
0.116
0.0802
0.0635
0.0531
0.0334
0.0254
0.0212
0.0187
0.0171
0.0154
0.0146
0.0144
0.0143
0.0144
0.0145
0.0148
0.0154
0.0161
0.0172
0.0185
0.0195
0.0213
0.0229
0.95
0.157
0.126
0.105
0.0834
0.0557
0.0380
0.0295
0.0243
0.0146
0.0108
0.0088
0.0075
0.0068
0.0060
0.0056
0.0054
0.0054
0.0053
0.0054
0.0054
0.0057
0.0060
0.0064
0.0068
0.0072
0.0079
0.0086
-------
218
Table C.2. Scaled External Bremsstrahlung Spectra from Electrons for Water
k/T
T
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
5.8851
3.5500
2.9481
2.7706
2.7092
2.6501
2.5847
2.5295
2.3740
2.2649
2.1655
2.1287
2.0741
2.0103
1.9671
1.9194
1.8827
1.8553
1.8279
1.8095
1.7711
1.7395
1.6886
1.6586
1.6392
1.6019
1.5742
0.05
4.5348
3.0241
2.6837
2.5242
2.3644
2.1986
2.0978
2.0069
1.7977
1.6708
1.5802
1.5256
1.4803
1.4168
1.3717
1.3443
1.3174
1.2993
1.2902
1.2722
1.2538
1.2441
1.2343
1.2249
1.2159
1.2068
1.1889
0.10
3.7312
2.6859
2.4542
2.2868
2.0567
1.8472
1.7289
1.6381
1.4117
1.2939
1.2124
1.1580
1.1128
1.0585
1.0223
1.0042
0.9862
0.9771
0.9682
0.9592
0.9505
0.9506
0.9513
0.9517
0.9522
0.9437
0.9441
0.20
2.8741
2.2375
2.0525
1.8513
1.5611
1.3263
1.2265
1.1362
0.9463
0.8450
0.7817
0.7382
0.7074
0.6684
0.6450
0.6315
0.6215
0.6161
0.6126
0.6108
0.6119
0.6148
0.6234
0.6319
0.6395
0.6481
0.6521
0.30
2.3237
1.8684
1.6849
1.4761
1.1961
0.9978
0.8905
0.8201
0.6602
0.5788
0.5290
0.4954
0.4728
0.4439
0.4285
0.4186
0.4132
0.4124
0.4115
0.4116
0.4153
0.4201
0.4330
0.4443
0.4536
0.4658
0.4725
0.40
1.8935
1.5386
1.3652
1.1574
0.9141
0.7386
0.6503
0.5926
0.4626
0.3984
0.3595
0.3350
0.3178
0.2970
0.2862
0.1868
0.2790
0.2791
0.2791
0.2810
0.2857
0.2921
0.3042
0.3153
0.3245
0.3366
0.3451
0.50
1.5196
1.2289
1.0741
0.8957
0.6825
0.5387
0.4676
0.4207
0.3188
0.2700
0.2410
0.2220
0.2103
0.1958
0.1895
0.1184
0.1859
0.1860
0.1869
0.1888
0.1943
0.1999
0.2109
0.2202
0.2274
0.2396
0.2480
0.60
1.1743
0.9472
0.8191
0.6699
0.4947
0.3807
0.3250
0.2881
0.2114
0.1753
0.1545
0.1419
0.1337
0.1247
0.1202
0.0698
0.1185
0.1194
0.1203
0.1222
0.1268
0.1314
0.1397
0.1480
0.1544
0.1637
0.1711
0.70
0.8543
0.6899
0.5867
0.4726
0.3380
0.2529
0.2116
0.1846
0.1305
0.1062
0.0926
0.0842
0.0788
0.0730
0.0706
0.0353
0.0700
0.0708
0.0718
0.0728
0.0761
0.0794
0.0855
0.0909
0.0959
0.1033
0.1089
0.80
0.5551
0.4460
0.3746
0.2974
0.2060
0.1487
0.1218
0.1048
0.0706
0.0561
0.0481
0.0433
0.0402
0.0307
0.0356
0.0122
0.0354
0.0358
0.0363
0.0370
0.0389
0.0407
0.0440
0.0469
0.0496
0.0540
0.0576
0.90
0.2718
0.2164
0.1802
0.1417
0.0951
0.0658
0.0521
0.0436
0.0276
0.0211
0.0176
0.0156
0.0143
0.0130
0.0123
0.0045
0.0122
0.0123
0.0124
0.0126
0.0132
0.0138
0.0149
0.0160
0.0169
0.0185
0.0200
0.95
0.1340
0.1067
0.0884
0.0693
0.0457
0.0310
0.0240
0.0198
0.0119
0.0088
0.0072
0.0062
0.0056
0.0050
0.0047
0.0045
0.0045
0.0044
0.0045
0.0045
0.0048
0.0051
0.0055
0.0058
0.0062
0.0069
0.0075
-------
219
Table C.3. Scaled External Bremsstrahlung Spectra from Electrons for Soil
k/T
T
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
7.60
4.58
3.80
3.58
3.54
3.50
3.46
3.40
3.21
3.09
3.00
2.91
2.85
2.76
2.69
2.63
2.59
2.54
2.51
2.48
2.42
2.39
2.31
2.25
2 22
2.15
2.10
0.05
5.92
3.91
3.48
3.33
3.17
3.00
2.88
2.77
2.50
2.33
2 22
2.13
2.07
1.97
1.91
1.87
1.84
1.81
1.79
1.78
1.74
1.72
1.70
1.68
1.66
1.63
1.60
0.10
4.91
3.48
3.21
3.06
2.82
2.58
2.42
2.30
2.00
1.83
1.72
1.64
1.58
1.50
1.45
1.41
1.38
1.37
1.36
1.34
1.33
1.32
1.31
1.31
1.30
1.29
1.28
0.20
3.80
2.94
2.73
2.53
2.21
1.93
1.76
1.65
1.37
1.22
1.13
1.06
1.01
0.955
0.919
0.896
0.881
0.871
0.864
0.860
0.859
0.861
0.868
0.876
0.883
0.889
0.883
0.30
3.09
2.48
2.29
2.06
1.74
1.47
1.32
1.21
0.973
0.849
0.772
0.720
0.685
0.639
0.613
0.598
0.589
0.586
0.584
0.582
0.586
0.592
0.605
0.618
0.627
0.640
0.645
0.40
2.54
2.06
1.88
1.66
1.36
1.11
0.982
0.893
0.694
0.592
0.532
0.492
0.465
0.432
0.414
0.405
0.401
0.399
0.398
0.400
0.404
0.412
0.427
0.440
0.450
0.464
0.472
0.50
2.04
1.67
1.51
1.30
1.04
0.831
0.723
0.649
0.487
0.407
0.361
0.331
0.311
0.287
0.276
0.270
0.268
0.268
0.269
0.270
0.276
0.283
0.297
0.308
0.317
0.331
0.340
0.60
1.59
1.31
1.16
0.990
0.771
0.601
0.514
0.455
0.329
0.270
0.236
0.214
0.200
0.184
0.177
0.173
0.173
0.173
0.174
0.176
0.181
0.187
0.198
0.207
0.215
0.227
0.236
0.70
1.17
0.957
0.842
0.709
0.537
0.410
0.344
0.300
0.209
0.167
0.144
0.130
0.120
0.110
0.105
0.104
0.103
0.104
0.105
0.106
0.110
0.114
0.122
0.128
0.134
0.143
0.150
0.80
0.764
0.626
0.544
0.453
0.335
0.249
0.205
0.176
0.117
0.0913
0.0772
0.0686
0.0632
0.0571
0.0545
0.0534
0.0532
0.0534
0.0539
0.0547
0.0571
0.0590
0.0631
0.0668
0.0701
0.0756
0.0799
0.90
0.375
0.307
0.264
0.218
0.157
0.114
0.0914
0.0770
0.0485
0.0365
0.0300
0.0262
0.0238
0.0211
0.0198
0.0193
0.0190
0.0191
0.0191
0.0194
0.0199
0.0205
0.0218
0.0231
0.0242
0.0263
0.0280
0.95
0.186
0.152
0.130
0.107
0.0764
0.0545
0.0433
0.0360
0.0219
0.0160
0.0130
0.0111
0.0099
0.0087
0.0080
0.0076
0.0075
0.0074
0.0074
0.0073
0.0075
0.0078
0.0082
0.0087
0.0091
0.0099
0.0106
-------
220
w
D"
00
0
Q.
0
^
w
o
-I—»
o
CL
-e-
10°
10-1
io-2
10-3
10-4
10-5
10'6
1C'7
10'8
0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7
Photon Energy (MeV)
Fig. C.I. External bremsstrahlung spectrum of Kr in air
-------
APPENDIX D
EXAMPLE CALCULATIONS
This appendix provides a series of example calculations intended to illustrate certain aspects
of the data presented in Tables III. 1 to III.7 and in Table A.I. 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 a pedagogical nature.
Example 1. The concentration of 85Kr, C&_85, in the atmosphere at a location in the
environs of a fuel reprocessing plant is estimated to be 1000 Bq m"3. Compute the annual effective
dose and the dose to skin. Assume the exposure is continuous and without benefit of any shielding
by structures.
From Table III. 1 the coefficients for air submersion for 85Kr are 1.19 x 10"16 for the effective
dose and 1.32 x io~14 Sv per Bq s m"3 for the skin dose. The annual effective dose, HE, can be
estimated as the product of the dose rate and the exposure duration of 3.15 x IO7 s (1 year) as
ff I S~1 ,
2J. 7-1 / / T-l \^ -If I
LL a, Kr
= 1.19 x 1(T16 ^ m x IO3 -^1 x 3.15 x IO7 5
Bq 5 m?>
= 3.75 x 1(T6 Sv (or 0.375 mrem) .
The skin dose would be
H,. = h
i "»<-» in- 14 ^V m -. r.~i DO ~i i - i r\7
= 1.32 x 10 14 - x 10J —L x 3.15 x 10' s
Bq s mi
= 4.16 x 1(T4 Sv (or 41.6 mrem) .
Example 2 . Consider that at time zero the ground surface was uniformly contaminated with
pure 137Cs at a level of 2 Bq m"2. Calculate the effective dose equivalent rate, HE, at time zero and
at ten 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.
221
-------
222
The radiological properties of the radionuclides are summarized in Table A.I of Appendix
A. From that table it is seen that 137Cs has a physical half-life of 30 years, undergoes beta decay, and
emits, as electrons, atotal energy of 0.187 MeV per nuclear transformation (nt). No alpha or photon
radiations are emitted. In 94.6% of the 137Cs transformations the radioactive decay product, 137mBa,
is formed. Table A. 1 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 0.065 and 0.597 MeV nt"1,
respectively. The energies listed in Table A. 1, and quoted above, are the energy of all radiations of
that type emitted per nuclear transformation. A nuclide emitting a single photon of energy 1 MeV
in 1% of its transformations releases the same energy in photon radiation as another nuclide emitting
photons of 0.01 MeV in 100% of its transformations. The dosimetric significance of these photons,
however, can be quite different. Barium-137m emits a gamma ray of 0.6616 MeV in 89.8% of its
nuclear transformations; the total energy emitted is 0.6616 x 0.898 or 0.594 MeV nt"1. The tabulated
value of 0.597 MeV includes the contribution from K x rays emitted following the internal
conversion ofthe 0.6616 photon. Note that the sum ofthe emitted energies (0.065 + 0.597) is about
0.6616 MeV — the energy ofthe metastable state.
At time t = 0, the ground surface is uniformly contaminated with pure 137Cs; the decay
product, 137mBa is not present. From Table III.3, the effective dose coefficient, hCs_ni, for 137Cs
distributed on the ground surface is 2.85 x 10"19 Sv s"1 per Bq m"2. Note that the dose coefficient is
stated here as an instantaneous dose rate per activity concentration. The dose rate at time zero is
- 2.85
Bq s
m
= 5.70 x 1Q-19 £l .
S
This dose is due to bremsstrahlung arising as the beta particles emitted by 137Cs slow down in the
ground. Recall that Table A.I did not indicate the emission of photons by 137Cs.
To compute the effective dose rate after ten years, we first compute the activities of 137Cs
and 137mBa on the ground surface at that time. Equation (A.2) of Appendix A provides the necessary
formulation which yields
-------
223
ACs_l31(t) = ACs_l31(0) e c^137 , and
*-137 -Ba- 137m
A&-137
where fCs-m^Ba-mm *s ^e fraction of the Cs transformations forming Ba and ACs_ni(Q) is
Ci-137'
_ ln(2)
the activity of 137Cs on the ground surface at t = 0. The decay constant for 137Cs, Ar .,_, is
0.693
30 j x 3.15 x IQ7 -
y
= 7.33 x 1Q-10 5"1 ,
and for 137mBa, with Tm of 2.552 minutes, the decay constant is 4.53 x 10"3 s"1. The activity of 137Cs
on the ground surface at ten years (3.15 x 10s s) is
= 1.59
m2
andthatof137mBais
0.946 x 4.53 x ip-3 r _Q231
r
4.53 x 1Q-3 - 7.33 x 1Q-10
1.50 ^ .
m2
The 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 137mBathis ratio is simply the fraction of 137Cs transformations forming 137mBa (0.946). Using
the dose coefficient from Table III.3, we obtain
-------
224
HMO y) = Vl37 ^,-137(10 y> + hBa-Wm ^-137(10 ^)
= 2.85 x 10-19 *L2! x 1.59 %L + 5.86 x W^ ^LJUl x 1.50 %L
Bq s m2 Bq s m2
= 4.53 x IQ-19 + 8.79 x IQ-16 —
S
= 8.79 x 1Q-16 — .
S
The annual effective dose after one year of exposure is just the integral of the dose rate, or
i y
HE(l y} = fHE(t) dt
o
^cs-13?(0 dt + hBa_njm j ABa_njm(t)
o 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
C,- 137
(0 dt = ^_137(0)
A&-137
= 6.23 x 107
Bq-s
andthatof137mBais
T T
/
0
a.l31m
(f} dt = f Cs~137 Cs~137 "Ba~137m Ba-137m I AJJa_137mi _ A&_137i i ,
^ A ^ -
0
= 5.89
?(°)^-137 -^Ba- 137m Ag«-137»
ABa-137m ~ A&-137
1Q7 £^r ^
m2
(I - e~ c"137 ) (1 - e'
Ba-137m
-------
225
The annual effective dose, HE, is
rr ^ or- i/\-1Q <3V tn , ^.- , ,.7 5(7 5 r- o^ i/\-16 <3V /W - On i /\7
i = 2.85 x 10 iy - x 6.23 x 10' — 2 — + 5.86 x 10 1& - x 5.89 x 10'
E
Bq s m2 Bq s
m
2
= 3.45 x 1Q-8 Sv (or 0.00345 mrem) .
Example 3. Consider that the 137Cs contamination of Example 2 was uniformly distributed
within the top 5 cm of the soil at ten years. What is the effective dose rate for the volume-distributed
137Cs and 137mBa activities?
The activities at ten years calculated above are valid. However, the activity is now
considered to be distributed in the top 5 cm of the ground. The volume activity of137 Cs is
^-137 (0 =
5 cm x 10"2 mlcm
= 1.59 Bq_
0.05 ™3
and the volume activity of 137mBa is 30.0 Bq m"3. From Table III.5, the effective dose coefficients
for 137Cs and 137m Ba uniformly distributed in the top 5 cm of the ground are 3.07 x 1Q"21 and 1.09
x 10"17 Sv per Bq s m"3, respectively. Thus, the effective dose rate is
HE = 3.07 x 1Q-21 Sv m x 31.8 -^ + 1.09 x IQ'17 Sv m x 30.0 -^
Bq s m3 Bq s m3
= 3.27 x IQ-16 ^ .
Note that the dose rate from the volume-distributed activities is about a factor of three lower than
the corresponding value had the activity remained on the ground surface.
Example 4. Soil concentrations of naturally occurring 40K are typically about 370 Bq kg"1
with a range oflOOto700Bq kg"1. Assuming that the potassium is uniformly distributed in the soil
to an infinite depth and the density for the soil of interest is 1.9 x 103 kg m"3, calculate the effective
dose rate.
-------
226
Tables III.4 - III.7 provide dose coefficients for radionuclides uniformly distributed to
various depths in a soil having a density of 1.6 x 103 kg m"3. Table III.7 gives dose coefficients for
radionuclides distributed to an infinite depth. A radionuclide is said to be distributed to an infinite
depth when a further increase in the thickness of the contaminated region does not result in an
increase in the dose rate at the surface. For an infinitely thick source (Table III.7) the effective dose
coefficient for 40K is 5.57 x 10~18. The introduction to Table III.7 notes that one can scale the dose
coefficients in this table for a soil having density different from the value used in deriving the
coefficients. Scaling is accomplished by multiplying the tabulated values by the ratio 1.6 x 103/p,
where p is the soil density in kg m"3. Therefore, the effective dose coefficient forthe soil of interest
is
,r ,n !«-is Sv m3 1.6 x 103 m-i8 Sv m3
5.57 x 10 1S x = 4.69 x 10 1S .
Bq s 1.9 x IQ3 Bq s
The 40K activity of 370 Bq kg"1 in a soil having a density 1.9 x 1Q3 kg m"3 corresponds to a
volumetric source strength of 7.0 x 105 Bq m"3. Thus, the effective dose rate for this soil density and
40K concentration is
HE = 4.69 x 1Q-18 2LZL x 7.0 x 105 -°i
Bq s m3
= 3.28 x 10-12 Sv (or 1Q mrem}
-------
ACKNOWLEDGMENTS
The authors wish to acknowledge the valuable technical discussions throughout the course
of this work with G. D. Kerr, D. C. Kocher, J. S. Tang, and J. V. Pace, III of Oak Ridge National
Laboratory and R. E. Faw of Kansas State University. The authors are indebted to L. T. Dillman
of Ohio Wesleyan University for providing an updated version of the PHOFLUX code used to
compute the scatter spectra for photon sources uniformly distributed in an infinite medium.
This work was performed at Oak Ridge National Laboratory, managed by Martin Marietta
Energy Systems, Inc. for the United States Department of Energy under Contract No.
DE-AC05-84-OR-21400. The authors were supported in this effort by a number of different
organizations, including the Environmental Protection Agency, through Interagency Agreement
1824-B071-A1 entitled "Dose Factors for External Radiation Fields," A. C. B. Richardson, project
officer; the Department of Energy, through ERKP137 entitled "Medical Physics and Internal
Dosimetry," C. Welty and M. N. Varma, project officers; and the Nuclear Regulatory Commission,
under FIN BO475 entitled "Internal Dose for Specific Occupational Exposure Conditions," S. S.
Yaniv, project officer; and FIN L1850 entitled "External Dose Factors for Decommissioning," R.
A. Meek project officer. The authors appreciate the support of these organizations as well as the
contributions of the various project managers to the successful completion of this work. Particular
thanks is extended to R. A. Meek who provided support during the critical stage of finalizing the
numerical values and preparation of this document, and to A. C. B. Richardson, whose thorough
review and suggestions have improved the readability of the more technical portions of the
manuscript.
The authors gratefully acknowledge the thoughtful comments of the technical reviewers
H. Beck, S. Y. Chen, C. M. Eisenhauer, G. D. Kerr, D. C. Kocher, P. Jacob, and C. B. Nelson. The
research efforts of these individuals and their co-workers have contributed greatly to the field of
external dosimetry and this report, in its final form, has been greatly strengthened by their reviews.
Finally, the authors appreciate the fine editorial review performed by N. B. Munro.
227
-------
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OBTAINING COMPUTER FILES OF DOSE COEFFICIENTS
The dose coefficients for radionuclides from Federal Guidance Report No. 11 and Federal
Guidance Report No. 12 are available on diskette from the Radiation Shielding Information
Center (RSIC) at Oak Ridge National Laboratory. Data from Tables 2.1 and 2.2 of Federal
Guidance Report No. 11 and data from Tables III. 1 through III.7 of Federal Guidance Report
No. 12 are included in the package as ASCII files, as well as computer routines for retrieving
the data. The name and title of the data library package are DLC-167/FGR-DOSE, Dose
Coefficients from Federal Guidance Reports 11 and 12.
Requests must include the name of the package and should be addressed to:
Radiation Shielding Information Center
Oak Ridge National Laboratory
P. O. Box 2008
Oak Ridge, TN 37831-6362
Phone Numbers: Voice: 615-574-6176
FAX: 615-574-6182
Electronic Mail: EasyLink Mailbox: 62813374
BitNet: PDC@ORNLSTC
Internet: PDC@ORNL.GOV
Requestors should note that RSIC may assess a charge to cover the cost of packaging and
transmitting computer codes and data libraries.
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