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Internal conversion coefficients for atomic numbers Z ≤ 30
ATOMIC
DATA AND NUCLEAR
INTERNAL
DATA TABLES
CONVERSION
18, 433-457 (1976)
COEFFICIENTS
I. M. BAND
FOR
ATOMIC
NUMBERS
Z < 30
and M. B. TRZHASKOVSKAYA
Leningrad
Nuclear Physics Institute and
M. A. LISTENGARTEN Leningrad
State University, Institute Leningrad, USSR
for Physics
Presented here are internal conversion coefficients (ICC) of gamma rays for 20 values of atomic number 2 in the range 3 < Z < 30, including all Z > 14. The tables provide the previously missing data for light elements. Coefficients are given for 19 values of gamma-ray transition energies up to 6 MeV for the K-electron shell and 18 values up to 2 MeV for three L-subshells. The minimum energy is 15 keV. The first five electric and magnetic nuclear transition multipolarities are covered. The calculations are relativistic, with screening and finite nuclear size effect taken into account.
Copyright 0 1976 by Academic Press, Inc. All rights of reproduction in any form reserved.
433
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
Internal
Conversion,
2 < 30
CONTENTS
INTRODUCTION METHOD
OF CALCULATION
COMPARISON
WITH
EARLIER
CALCULATIONS
INTERNAL CONVERSION COEFFICIENTS IN VARIOUS SELF-CONSISTENT ATOMIC FIELDS Electron Densities for Is, 2s, and 2p Electrons in the Vicinity of Nuclei EXPLANATION
OF TABLE
TABLE.
Conversion Coefficients
Internal
energy. However, it is convenient to have ICC tables for fast data analysis, experiment planning, and reference. The following tables are calculated by means of a complex of computer programs.rl The tables include, in the main, nearly all multipolarities and energies which are essential in practice for Z < 30 taking into account that there exist tables14 for K-shell, Z > 16 and transition energies above 1 MeV.
INTRODUCTION The excited atomic nucleus can make a transition to the ground or any other state of lower energy by the internal conversion process, that is, by giving its excitation energy to the electrons of the atom. The ratio of the number of electrons ejected from an atomic shell in this process to that of gamma quanta leaving the atom during the same time is called the internal conversion coefficient (ICC) of gamma rays for the nuclear transition in question. In nuclear spectroscopy a comparison of measured with calculated ICC values (see, for example, Refs. l-3) allows one to deduce the multipolarity of nuclear gamma radiation and also the relative intensities of gamma rays, mixing ratios, nuclear penetration parameters, and other properties of nuclear transitions (see, for example, the review article4). Although experimental investigations of the internal conversion process have been performed for nearly all the radioactive nuclei including many lighter than zinc, tables of precise ICC for atomic numbers Z < 30 do not exist. Widely circulated tables by Sliv and Band1 and Hager and Seltzer2 do not contain ICC for Z < 30. In Rose’s tables3 there are no values for Z < 25. For light nuclei there exist nonrelativistic calculations,5r6 simple approximate ultrarelativistic ICC formulas7 and relativistic calculations,spg without screening, for Z = 10, 15, 20 in the energy range Ey > 150 keV. In addition interpolation and extrapolation of the data3>5-g were performedlO for every Z in the region 6 5 Z 5 24 with approximate corrections for screening based on the expression below [Eq. (6)]. The errors in the theoretical ICC connected with all approximations, introduced in Refs. 5-10, remained uncertain. At present, having at one’s disposal computer programs 11-13 it is possible to calculate precisely the ICC for any Z, multipolarity, and transition
METHOD
OF CALCULATION
The relativistic expression for ICC ~-rp~)in the ith atomic shell may be found elsewhere3p4t15p16
(1) where rL is the nuclear-transition multipolarity (EL the electric, ML the magnetic), Mj7:) is the conversion matrix element, K denoting the relativistic quantum number characterizing the state of a free electron ejected from the atom in the conversion process. The value M$) includes the sum of radial integrals RI-R, of the following kind:
where F, is one of the relativistic radial electron wavefunctions f(r) or g(r) of the electron in a final (free) state, Fi is one of the functions of the electron in an initial (bound) state, X, is the radial part of the transition potential (see below), v = L or L - 1. All the necessary wavefunctions of bound and free electrons were obtained by numerical integration of the Dirac equation with potential V(r). The relativistic Hartree-Fock-Slater (HFS) method was used to obtain the self-consistent potential Y(r). The exchange in the HFS field is taken
434
Atomic Data and Nuclear
Dato Tables, Vol. 18, No. 5, November
1976
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
bation theory, the one-electron approximation, and a free atom with a spherical potential. Possible departures from these conditions are neglected.
into account by using the local exchange potential v ex = 42
[ 1 2p(r)
2 ll
1’3
Internal Conversion, Z < 30
(3)
Accuracy of Calculations with coefficient C = 1 (Ref. 17). Here p(r) is the total spherically averaged electron density
m
257
The numerical methods used by us in ICC calculations and all the details of the numerical calculations are expounded by us in the description of the computer program complex “The Relativistic Atom, the Interaction of Electromagnetic Radiation and Nucleus with Atomic Electrons”.ll The accuracy of the ICC calculation is better than 0. l%, which does not include possible deviations connected with the above listed approximations of physical character. It means that in the following tables, given with three significant figures, errors can be equal to half of the unit of the last figure. The total number of ICC in the present tables is ~15000.
?I
p(r)r2dr sin Od+d6 = Z - J. 0 s0 The summation is carried out over all the occupied atomic electron states, OL= e2/fic ; $ is the degree of atom ionization. The self-consistent field calculation is included in the ICC computer program.li The bound electron wavefunctions are calculated in the neutral atomic field. The free electron wavefunctions are calculated in the self-consistent field of the ion with a hole in the shell or subshell where the conversion process occurred. Note that this mode of the free-electron wavefunction calculation is essential when computing the ICC for inner atomic shells at low energies. In calculations of all the functions F, and Fi the potential V(r) at large distances was taken to be equal to -a/r. The finite nuclear size was considered by the model of a spherical nucleus of radius R, = 1.2A113 fm (A is the mass number). We used the assumption of uniform charge distribution throughout the nucleus for the calculations of electron wavefunctions (the static effect of the finite nuclear size). The dynamic or penetration effect was treated in terms of Sliv’s surface current model, that is, the radial part of transition potential X, = h,(kr) was replaced by j,(kr) h, (kR,)/j,(kR,) at r < R,, where j,(kr) and h,(kr) are the Bessel and Hankel spherical functions, respectively, and k = Ey/moc2 is the gamma transition energy in relativistic units. The total energy of the free electron in conversion from the ith shell is is
Ei =k
-ci
+ 1.
COMPARISON WITH EARLIER CALCULATIONS
The comparison of Ref. 10 with the present precise calculations shows that the approximate K- and &shell ICCiO agree with our values within 5%-6% if the oscillations connected with the rounding off in Ref. 10 are not treated; the Lr,,- and &,-shell ICCrO are lower by 30%. By comparing Ref. 14, where the ICC for high energies Z > 16 are given, it is seen that the K-shell ICC14 agree with the present calculations to 1.5%. There are no L-shell ICC for Z ( 30 in Ref. 14. When dealing with Coulomb relativistic calculations of aK8yg for Z = 10, 15,20 the deviations for each element are practically the same for all energies and multipolarities; the ICC of Refs. 8 and 9 are 4%-7% higher than the ICC presented here. This is the consequence of the neglect of screening. Comparison of the nonrelativistic calculations5 shows that even for relatively low energies (15-25 keV) the ICC of Ref. 5 differ from the present calculations by up to 10% for Z = 10 (maximum difference is in El) and up to 25% for Z = 20 (maximum difference is in E5). Apparently apart from the neglect of screening in Ref. 5, the difference is associated with relativistic effects. The ratio QI&(Y~,~ according to the precise calculations is not equal to 2 as the nonrelativistic theory for EL ICC requires. It is possible to make a comparison of the ICC presented in our tables with the ICC of Ref. 2 for Z = 30. Ours are z 0.5% higher in the K-shell. All deviations from the quantity of 0.5% may be attributed to the rounding off to three figures in all tables. For the &-shell our ICC are 1.9% higher than aI? (Ref. 2), except for the lowest energy transitions of electric multi-
(5)
In all cases, experimental binding energiesi were used for ei in Eq. (5) excluding Lrr- and Lrrr-subshells for Z = 10 for which the calculated values of ci were taken. In our tables the ICC for filled K- and L-shells are given except ICC for Z = 3, h-shell. The lithium atom has only a single 2s,,, electron, so (yLI calculated according to Eq. (1) is divided by 2. For Z = 6, cu, and (Ye,are given. The theoretical expressions for ICC are obtained by using3T4915T16the first nonvanishing order of pertur-
435
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
polarity for which ar, in the nonrelativistic approximation vanish. A very small absolute difference in radial integrals (< 1%) or small shifts in binding energy (<5 eV) may give relative errors up to 3% in this region. The deviation for &r- and ,?&-shells is 3.6%-3.7% (ICC2 are lower than the ICC calculated here). The causes of these discrepancies were thoroughly investigated. It was found that the difference is connected mainly with the change of the coefficient C in the above mentioned Eq. (3) for the exchange term in HFS potential. We have taken C = 1, while Hager and Seltzer2 assumed C = 2/3. The ICC specially calculated by us in the HFS field with C = 2/3 proved to be in good agreement (better than 0.5%) with their ICC values. Note the following. It is known that variations of the ICC are connected with variations of the electron density in the vicinity of the nucleus.7y10T1g-21 These variations may be taken into account with the aid of the equation af’ = @ ’ hi [py(r)/pg’)(r)],
Internal
Conversion,
Z Q 30
TABLE
a
Differences between ICC (Z = 30) calculated by Hager and Seltzer2 and those computed here. Also the difference between the electron density p(r) in the zero region calculated with C = 2/3 and that calculated with C = 1, where C is the coefficient in the exchange term of the HFS potential, Eq. (3). (BTL) and (HS) denote ICC computed here and by Hager-Seltzer,2 respectively K%m,IqIs) - 11 x lag% Z = 30; &-shell E(keV) 15 150 300 1000
El
E2
E3
E4
Ml
M2
M3
M4
3.2 3.5 3.6 3.8
3.6 3.8 3.9 3.9
3.2 3.7 3.9 3.4
3.2 4.1 3.9 3.9
3.8 3.9 3.6 3.7
3.7 3.8 3.7 3.8
3.2 3.8 3.8 3.5
2.8 3.5 3.1 3.8
(6)
where i refers to the atomic shell, op) and CXPI)are the ICC of the same multipolarities, computed in two atomic fields, (I) and (II), respectively, and p?)(r) and p:‘)(r) are electron densities in these fields. Table a illustrates the deviations of the ICC of Ref. 2 from ours for the &,-shell, Z = 30. For comparison the ratio of the 2p1,2 electron densities near zero in different HFS atomic fields with C = 2/3 and C = 1 in Eq. (3) is given. The table shows the ICC2 changes, according to Eq. (6), coincide with the accuracy of 0.5% with our ICC. Small oscillations are caused by rounding off the ICC to three figures in all tables and the fact that Eq. (6) is approximate.
TABLE
b
The values of Ni proportional to the electron densities near zero [see Eq. (7)] in the relativistic HartreeFock-Slater field with coefficient C = 1 in the exchange term of potential [see Eq. (3)]. The numbers in parentheses indicate the power of 10 by which the preceding figures should be multiplied Z
3 6 10 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
ICC IN VARIOUS SELF-CONSISTENT ATOMIC FIELDS Electron Densities for Is, 2s, and 2p Electrons in the Vicinity of Nuclei Although the eigenvalues of energies in the HFS field agree a little better with experimental binding energies with C = 1 in Eq. (3) than with C = 2/3 (Ref. 22), the wavefunctions are considered to be better if calculated with C = 2/3 because they are in better agreement with Hartree-Fock (HF) wavefunctions. Some authors23 consider the value of C between 2/3 and 1 as the best. One should keep in mind that HF wavefunctions are, in their turn, approximations. The HF method does not take into account the inadequacy of the one-electron approach, the deviation of an actual atomic field from the spherical field, which is essential for light atoms with open shells, etc. Table b is given to avoid 436
Electron Shells K
4
9.275( 1) 8.018(2) 3.909(3) 1.125(4) 1.402(4) 1.724(4) 2.094(4) 2.5 19(4) 3.006(4) 3.558(4) 4.179(4) 4.879(4) 5.662(4) 6.540(4) 7.5 15(4) 8.601(4) 9.800(4) 1.114(5) 1.259(5) 1.421(5)
2.7 19(O) 4.277( 1) 2.295(2) 8.213(2) 1.061(2) 1.348(3) 1.685(3) 2.078(3) 2.538(3) 3.068(3) 3.675(3) 4.369(3) 5.155(3) 6.047(3) 7.046(3) 8.173(3) 9.429(3) 1.084(4) 1.240(4) 1.414(4)
41
1.194(-l) 1.074(O) 1.646(O) 2.443(O) 3.530(O) 4.982(O) 6.903(O) 9.402(O) 1.262(l) 1.670( 1) 2.183(l) 2.824( 1) 3.610(l) 4.578( 1) 5.754( 1) 7.182(l) 8.894( 1) 1.094(2)
411
9.685(2) 8.530(3) 1.299(4) 1.915(4) 2.747(4) 3.849(4) 5.290(4) 7. M(4) 9.509(4) 1.248(5) 1.616(5) 2.070(5) 2.620(5) 3.289(5) 4.090(5) 5.048(5) 6.183(5) 7.5 19(3)
BAND, TRZHASKOVSKAYA,
TABLE
and LISTENGARTEN
c
Z and shells. Table c also illustrates how the ICC change when passing from the HFS field with C = 1 to that with C = 2/3. Equation (6) is approximately correct even for valence shells of heavy elements.lgp21 The error of Eq. (6) for self-consistent fields in the case of the ranges of energy and Z treated in our tables is 51%.
The ratio of the value Ni [see Eq. (7)] calculated in the relativistic Hartree-Fock-Slater field with C = 2/3 in exchange term of potential [see Eq. (3)] to Ni calculated with C = 1: Ni (C = 2/3)/N, (C = 1). To obtain the ICC in the relativistic HFS field with the coefficient C = 2/3 in the exchange term of the potential, one should multiply the values of ICC from the main table by this ratio Z
3 6 10 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
Acknowledgment The authors are indebted to Professor L. A. Sliv and Dr. I. A. Kondurov for their permanent interest in and helpful comments on the manuscript.
Ni (C = 2/3)/N, (C = 1) K 0.898 0.953 0.973 0.98 1 0.983 0.984 0.985 0.986 0.986 0.987 0.988 0.988 0.989 0.989 0.989 0.990 0.990 0.990 0.991 0.991
r, 0.969 0.896 0.946 0.953 0.956 0.959 0.962 0.964 0.965 0.967 0.969 0.971 0.972 0.976 0.975 0.976 0.978 0.979 0.980 0.981
41
411 References
0.847 0.909 0.916 0.923 0.928 0.933 0.936 0.940 0.943 0.946 0.949 0.954 0.954 0.956 0.958 0.959 0.961 0.963
1. L. A. Sliv and I. M. Band, Internal Conversion Coejicient Tables, (USSR AC. Sci. Press, Moscow-Leningrad) Part 1, “K-Shell”, 1956, Part II, “L-Shell”, 1958; and in Gamma-Luchi, (USSR AC. Sci. Press, Moscow-Leningrad, 1961) and Alpha-, Beta-, and Gamma-Ray Spectroscopy (North-Holland, Amsterdam, 1965)
0.847 0.909 0.916 0.923 0.928 0.933 0.936 0.940 0.943 0.946 0.949 0.954 0.954 0.956 0.958 0.959 0.961 0.963
2. R. S. Hager and E. C. Seltzer, NUCLEAR DATA TABLES A 4, 1 (1968) 3. M. E. Rose, (North-Holland,
Coejicients,
5. M. Hebb and E. Nelson, Phys. Rev. 58,486 (1940) 6. V. B. Berestetsky, Zh. Eksp. Teor. Fix. 18, 1057 (1948) 7. S. Dankoff (1939)
and P. Morrison,
Phys. Rev. 55, 122
8. M. E. Rose, G. H. Goertzel, and C. L. Perry, ORNL-1023 Report, 1951, Oak Ridge National Laboratory, Oak Ridge, Tenn.
(7)
9. M. E. Rose, in Beta- and Gamma-Ray (North-Holland, Amsterdam, 1955)
Equation (7) agrees with the fact that for every charge distribution over the nuclei of finite size p(r) - Ni r2j-1 p
Internal Conversion Amsterdam, 1958)
4. M. A. Listengarten, in Gamma-Luchi, (USSR AC. Sci. Press, Moscow-Leningrad, 1961); E. L. Church and J. Weneser, Ann. Rev. Nucl. Sci. 10, 193 (1960)
recalculations of the ICC when a spherical field other than HFS with C = 1 is taken. Table b contains the values Ni proportional to p(r) near the origin Ni = 1;~ 47rr1-2jp(r).
Internal Conversion, Z < 30
Spectroscopy
10. G. F. Dranitsyina and M. A. Listengarten, in Gamma-Luchi, (USSR AC. Sci. Press, Moscow-Leningrad, 196 1)
(8)
where Ni is a constant. The values of Ni are given in atomic units in Table b; to change to relativistic units one should multiply them by (a)2j+2, where a = e2/fic. Table c presents the ratio of values Ni calculated in the relativistic HFS field with C = 2/3 to Ni calculated with C = 1. To get the ICC in the HFS field with C = 2/3 one has to multiply the ICC from the main table by the numbers from Table c for the corresponding
11. I. M. Band, M. A. Listengarten, and M. B. Trzhaskovskaya, Bulleten Tsentra Dannyh LIYAF No. 2, p. 24, 1975 12. H. C. Pauli, “Computer version Coefficients,” N. hagen, Denmark, 1968; Comp. Phys. Commun.,
437
Atomic Data and Nuchw
Program for Internal ConBohr Inst. Report, CopenH. C. Pauli and U. Raff, 9, 392 (1975)
Data Tables, Vol. 18, No. 5, November
1976
BAND, TRZHASKOVSKAYA,
13. J. Adam, 0. Dragoun, and M. Honusek, program “pro zprucovani dat v jademe scopii,” CAV, Rei u Prahy, 1973
Internal Conversion. 2 < 30
and LISTENGARTEN
20. R. Learner and G. Hinman, Phys. Rev. 96, 1607 (1954); G. Hinman, Phys. Rev. 104, 1332 (1956); 0. Dragoun et al., Phys. Lett. 28B, 251 (1968)
“Soubor spectroA 10, 477
2 1. M. A. Listengarten and I. M. Band, Izv. Akad. Nauk SSSR, Ser. Fiz. 38, 1588 (1974)
15. A. I. Akhiezer and V. B. Berestetsky, Quantum Electrodynamics (Interscience, New York, 1965)
22. I. M. Band and M. B. Trzhaskovskaya, “Eigenvalues Tables,” LIYAF Report Nos. 90, 91, 92, Leningrad,
14. V. F. Trusov, NUCLEAR (1973)
16. M. E. Rose, Multipole York, 1955)
DATA
TABLES
Fields, (John Wiley,
1974
New
23. I. Lindgren and A. Rosen, Phys. Rev. 176, 114 (1968); J. C. Slater et al., Phys. Rev. 179, 28 (1969); ibid, 184, 672 (1969)
17. J. C. Slater, Phys. Rev. 81, 395 (1951) 18. J. A. Bearden and A. F. Burr, Rev. Mod. Phys. 39, 125 (1965)
ORNL Oak Ridge National Laboratory. LIYAF Leningradski Institut Yadernoi Fiziki (Leningrad Physics Institute)
19. I. M. Band, L. A. Sliv, and M. B. Trzhaskovskaya, Nucl. Phys. A 156, 170 (1970)
EXPLANATION
Nuclear
OF TABLE
The following table presents the ICC of gamma rays for 20 values of the atomic number 2 in the range 3 < Z < 30, including all Z > 14. Coefficients are given for 19 values of y-ray transition energies up to 6 MeV for the K-electron shell and 18 values up to 2 MeV for the three L-subshells. The minimum energy is 15 keV. The first five electric El -E5 and magnetic Ml-M5 multipoles are covered Errors can be equal to half of the unit of the last figure. See Method of Calculation Z
Atomic number
EB
Electron binding
EG
Gamma-ray
El, Ml,.
. . Multipolarities
energy
energy, in keV of nuclear transitions Example
In the tables of ICC for Z = 3, K-shell, the first two lines on the top begin as follows: EG 15
El 6.55E-02
E2 5.65E 00
This means that for a nuclear transition with y-ray energy of 15 keV, the internal conversion coefficient of El multipolarity is equal to 6.55 x 10e2, the ICC of E2 multipolarity is equal to 5.65 438
Atomic
Data
and
Nuclear
Data
Tables,
Vol.
18,
No.
5,
November
1976
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. z= EC 15 17 20 25 32 40 50 65 80 100 120 150 200 300 450 650 1000 2000 6000
El
3
5.65E 3.29E 1.63E O.ZOf-01 Z.lZE-07 8.07~.02 5.07E-02 9.86E-03
2.26f-04 1 .ObE-04 5,77E-05 2.74F-05 1 .07E-05 2.97~-06 9,07E-07 3.50E-07
4.03E-03 1.55E.03 7.12E-04 2.78~.04 8.41 E-05 1 .66E-05 3.65E-06 1 .ObE-06
b.oSE-02 1. POE-02 7.421-01 Z.JSE-03 5.65E-04 a.OlE-05 1 .30E-05 2.931106
1 .38E-07 ‘.‘lE-OF 1 .15E-08
3.llE-07 6.99f.08 1.36F-08
6.6(8-07 1 .08E-07 1 .61E-OR
oo 00 00
4.10E 2.lZE 8.99E 2.771 7.5OE 2.318 7.12E-01 1 .79E-01
z= El
15 17
9*5&E-04 6.29E-04
20 25 32 ‘0 50 65 80 100 120 150 200 300 450 650 1000 2000
3.64E-n‘ 1.7TE-04 7.41E-05 3.48E-05 1.63E-05 6.69E-06 3.?lE-06 1.56E-06 “,‘5E107 4.02E-07 1.,576-O? 4.35E-08 1 .33E-08 5.13f-09 Z.oZE-09 6,46E-10
E2
El
15 17
4,38E-01 Z.PIE-01 1 .7lE-01 8.19E-02 3,62~-02 1 .73E-02
5.95E 3.ORE
2.36E-02 9.05E-03 3.10E-03 1.18f-03 4.498-04 1.44E-04 5.9OE-05 2.27E.05 1 .04E-05 4.07f.06 1.23E.06 2.43E-07 I.JSE-08 1.56E-08 4.57E-09 1 .O~E-09
20 25 32 40 50 65 80 100 120 150 200 300 450 650 1000 2000 6000
8.21E-03 3.42E-03 1 .71E-03 8.168-04 4.468-04 2.,‘E-04 2..43E-05 Z.J?E-05 7,33E-06 2..55E-06 1 ,12E-06 3.541-07 9.29E-08
2,85E-03 Z.O7E-03 1.37E-03 7.82E.04 4,22E-04 2.42E-04 1 .39E-04 7,33E-05
8.64E-01 2.2lE-01 7.35E-02 1 .94E-02 3.6lE-03 3.691-04 4.42;-05 7.8OE-06
1.21E 2.52E 7.12E-01
01 00
1.55E-01 2.258-02 1 .66E-03 1 .48E-04 2.05E-05
4.43E-05 2,59E-05 1.6RE-05 9,95E-II6 5.138-06 2.08E.06 8,79E-07 4,21E-07
1 .37E-06 1.668107 1 .?OE-08
Z.dlE-06 2.531-07 2.24E-01
1 ,SPE-07 b.OlE-08 1 .34E-08
K1
1.38E-01 5.48E.02 1.78E-02 4.3OE-03 6.23E-04 l.O3E-04 2.36E-05 5.4OE-06 8.94E-07 1.32E-07
=5,4957E-03 E5
02 02 01 01 00
2.761 l.lJE 3.51E 7.081 1.2OE 2.43E 4.94E 7,64E-01 1.76E-01 3.69E-02 1 .04E-02 2.26E-03 3.3OE-04 2.448-05 2.17E.06 3.OOE-07 l.lSE-08 3.70E-09
Ii2
04 04 03 02 02 01 00
1 .87E-01 1 .ZlE-01
1.25E 7.12E
6,(14E-02 3.15E-02 1 ,34E-02 6.221-03 2.9lE-03 1 .20E-03 5.98E-04 2.861.04 1.58E-04 7.69E-05 3.11E.05
3.45E 1.28E 4.3OE-01 1 .6lE..O, b.lOE-02 (.96E-02 l),,oE-03 3.1bE.03 1 .4.5E-03 5.948-04 l.S9E-04 4.018.05 9.42E.06 P.(llE-06 7.84E.07 1.40Er07 1,86E-08
9.151-06 2.89E-06 l.O9E-06 3.1bF-07 PatOE-08 1,58E-08
l.SOE 00 3..5(1E-01 1 .37E-01 3.5bE-02 6,93E-03 7.69E-04 1 .ooE-04 ,.85E”O5 3.21 E-06 3.228.07 2.58E-08
1.22E 6.198
01 00
8.24E 3.69E
02 02
1 .OOE-03 4.6lE.O‘ 1 .96E-04 9.12E-05 4.26E-05 1.75E-05 8.768106 4.391-06 2.3lE..06 1.?3E-06 4,56E-07 1 .34E-07 4.231-01) 1 .bOE-08 5.66E.09 1 .35Er09
5.05E-02 1 .87E.O2 6.29i-03 2,3bE-03 .5,95E-04 2.8BE-04 l.l9E-04 4.63E”05 2.17E-05 8;7lE.06 2,76E-06 5,88E-07
2.568 7.658101 2.03E-01 b.q5E-02 1 .88E-02 4.74E-03 1 .blE-03 5.13E.04
00
3.30E 3.146 b.SSE 1.60E 3,97E-01 7.8lE-02 2.19E.02 5.69Ec03
02 01
114
It5
2.04E-04 6.73E-05 1.676-05 2.571-06
1 .3(lE.07 4.12E.08
1.921-03 5.216.04 1 .OZE-04 1.13E.05 1 .47E-06 2.72E-07 4.71E-08 4.73E-09
4.5OE-07 1 .ObP-07 2.331-08 3.12E.09
l.l5E-08 2.05E-09
w2 1.80E 1.15E
2.691 6.97E 1.56E 4.01E 1.038 2.lOE 5.991 1.57E 5.29E.01 1 .42E-01
04 03 03 02 02 01 00 00
1.31E 2.76E 4.90E 1.03E 2.15E 3.44E 8.13E 1.74E S.O(E T.ltE l.b5E-01 T.t6E-02 1 .(SE-03 1 .bZE-04 2.28E-05 2.10E-ob 1.851-07
06 OS 04 04 03 02 01 01 00 00
1 e32E.02 7.42E-03 3.94E.03 2,23E-03 1 s27E.03 6.631-04 3,97F-04
6.43~~01 2.9lE.01 1 .22E-01 5.62E.02 2.60~~02 1 sObE5.28%-03 2,51E-03 1.38E.03 6.7lE-04 2.718-04 7.92E.05 2,49E-05 9.3.5E.06 3.30E.06 7.74E-07 q .30E-07
2.311-04 1,49E-04 8.76E-05 4.49E.05 1.80E-05 7.56E.06 3.59E-06 1 .60E-06 4.99E-07 1.09E.07
il.7553E.02
H3 00 00
1.16E 6.56E 3.15E 1,lSE 3.83E 1.43E 5.36~~01 1 .72E-01 7,04E-02 2.741-02 1.28E.02 5.13E-03 1.63E.03 3.45E-04 8.llE-05 2,42E-05 6,73E-06 1.19E-06 1 .54E-07
PI5
c4 02 01 01 01 00 00
7.57E 3.8OE 1.5bE 4.62E 1.2lE 3.65E l.llE 2.798 9.45E-01 3.00E-01 1 .19E-03 3.94E-02 9.78E-0; 1.50E-03 2.641-04 6.20E-05 1 .36E-05 1 .8lE-06 1 .83E-07
03 03 03 02 02 01 01 00
N2
02 02 01 01 00 00
IS
q.82E
00
1.22E
02
7.748
03
4.85E
05
1.50E-03
9.70E-02
6,32E
00
4.17E
02
17 20 25 32
,.53E-02 9,OOEr03 4.33E-03 1.92Ec03
1.08E 5.5lE-01 2.16E”01 7.63E.02
00
6.451 2.83E 9.05E 2.551
01 “1 00 00
05 04 04 03 02 02 01 00
1.97E 5.971-01 1 .49E-09 5.06E-02 1.6tE-02 6.301-03 2.(oE-03 5.23E-04 (1,04E-05 1 .4lE-05 3.3qE-06 7.278-07 9.67E-0.5
00
2,37E-05 1 .,4E-05 4.491-06 1 .27E-06 3.91E-07 1.52E-07 b.OOF-08 1.91E-08
3.57E 1.70E b.22E.01 2.06E.01 7,66E-02 2.87E-02 ‘).lQE-03 3.77E-03 1.47E-03 6..55E”04 2.741-04 8.69E-05 1,84E-05 4.33E-06 1.291-06 3,59E-07 6.34E.v08
02 01 01 00
120 150 200 300 450
1.08E-03 7.07E.04 3.968-04 2,10E-04 l.l9E-04 6.BOE.05 3.541-05 2.12E..05 ?.23E-05 7.95E-06 4.686-06 2,4OE-06 9.62E-07 4.038.07 1,92f-07 8.5lE-OR 2.661-08
2.0.5E 8.50E 2.50E 6.541
2.971-02 l.l5E-02 3.e.OF”03 1 .58E-03 6.15E-04 2.86E-04 1.13E-04 1.48E-05 6.971106 1.56F-06 4.59E-07 1.36E-07 3.06E-08
2.05E 6.66E 1.42E 2.54E 5.35E 1.13E 1.81E 4.29E 9.21E-01
00 00
P.l5E-04 ‘.36E-04 1,82E-04 9,11E-05 4.341-05
03 03 02 01 01 00 00
6rlOE.02 3.45E.02 1.561-02 6.558-03
40 50 65 a0 100
3.671 1.38E 3,blE 0.12E P.lOE 5.43E l.llE 3.171-01 8.30E-02 Z.L)lf-02 7.55E.03 1 .43E-03 ?.50E-04 1.84F-05 3.32E.06 5.95E-07 7.33E-OR
See page 438 for Explanation
9.3BE 2.3lE 4.54E ?.27E 3.30E 1.11E 3.02E-01 5.89Ew02 6.568-03 (1.55c-04
&I4
PI3
2.30E-02
650 3000 2000
05 05 04 04 03
KE” n1
2.65E-01 5..58E-02 .5.7LIE-03 6.69E-04 6.10E-05 8.648-06 1.22E-06 1 .12E-07
4.96E 2.21f 7.76E 7.86E 3.05E
1 .59E-04 2.75E.05 2.76E-06 2,16E-07
15
G.loE-01 2,57E-01 6.65E-02 2,29E-02 7,33E-03 2.9,E-03 9,47E-04 2.291-04 3,32E-05 5.47E-06 1.26Er06 2.88E-07 4,77E-“8
00 00
KE” Ml
E5
04 03 03 02 02 01 00
?I3
2.8lE.02 2.02E-02
68
04
5.646 2.52E 8.9lF 2.14f 4.48E l.lOE 2.71f 5.34E
1.82Em01 1 .04E-01
06 06
EC
02 02 02 01 01 00 00
w2
9.63E 4.04E
SHELL
(1.37E 4.23E 1.75E 5.23~ 1.38E 4.20E 1.28E 3.23~.01 1 .lOE-01 3.SOE-02 ?.39E-02 4.59E-03 1 ,14E.03 1.76E-04 3.07E-05 ?.22E-06 1 .59E-06 2.13E-07 2.19E-08
2.74E.03 1 ,77E-Of
05 04
L1
01 00 00 00
n5
n,
1.52E 7.17E
E3
M4
4.17E-05 3.03E.05 2.01~“05 1.15F.05 b.l8E-06 3.55E-06 2,04E-06 l.O7E-06 6.491-07 3.8OE.07 2.461.07 1;46E-07 7.52~-08 3,05E-08 1 .29E-08 6.(7E-09 2.77E-OP 8.8lErlO
E5
w3
KE”
EB n 2.8400E-01
SHELL
2.70E-02 2.83E-03 3.46E-04 6.2Si-05 1 .lZE-05 1.37E-06 1 .57E-07
6
E2
ES
E‘ 03 03 02 02 01 01 00 00
YE”
06 05 05 04 03 05 02 01
SHELL
Coefficients
MY
7.9ZE 7.82E 2.43E 4.69E 8.29E 1.67E 3.39E 5.248
4.09E 1.8.9E 6.85E 1.7lE 3.67~ 9.16E-01 2.29!-01 4.531.02 ?.26E-02 3.241.03 I.O(IE-03 2.848-04 5.28E-05 5.408-06 6.471-07 l.l‘E-07 2.01E-08 2.43E-09
00
=5,5oooE-02 ES
E4
6
2.36E 1.25E 5.45E 1.74E 4.878 1.54E 4.87E 1.26E 4.33E-03
ER
04 04 03 03 02 0, 0, 00
E3 0, 01 01 00 00
2.97E-02 1 .?6E-02 5.381-03 2.12E-03 6.53E-04 1 .JlE-04 2.92E-05 L).blE-06 2,55E-06 5.75E-07 l.llE-07
El
Ll
1,90E-07 4.29Ew08 9.69E-09 I, 59E-09
2a EG
2.83E 1.3Of 4.72E 1.17E 2.5ZE 6.28E 1.578 3.lOE
00 00
1.3IE 4.038-01 1 .oYE-01 3.37E-02 1,04E-02 2,62E-03 8.86E-04 2.78E-04 l.O9E-04 3.49E-05 8.2IE-06 (.17E-06
f2 3.5!E 2.08E 1.05E 4.12E 1.45E 5.638-01 2.18E.01 7,16E-02
02 02 01 01 00 00
E3
R.23E-02 4.80E-02
Conversion
E4
3
2. EG
SHLLL
E3
E2
6.55E-02 4.3OE-02 2.4Rf-02 l.l?E-02 5.06E-03 2.37E-03 l.llE.03 ‘.56E-0‘
EG
Kl
Internal
Internal Conversion, Z < 30
3.01E-03 1.39E.03 5.68E.04 2.82E.04 1 .34E-04 7.371105 3.58E.05 % .45E-05 4.251-06 1.33E-06 S.OOE.07 1.768-07 4.15E.08
2.77E 1.222 4.27E l.OlE 2.09E 5.07E 1.25E 2.44E 6..52E-01 1.77E-01 5.96E.02 1.62E-02 3.15E-03 3.50E.04 4.57E-05 6.47E-06 ,.47E-06 q ,47E-07
04 04 03 03 02 01 01 00
of Table
439
Atomic
Dv+a
and
Nuclear
Dofa
bblar,
Vol.
10,
No.
5, November
1976
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 i F1
EG (5 17
02 01 01
1.42E 5.l7E
01 00 00
3,39E-03 1 .87E-03 Q,09E-04 3.63E-04 1 .04E-04 3.251.05 1 .28E-05 5.06E-06 1 .6oE-06 4.?1E-07
2.06E 8.21E.01 ?.77E-oq 1.77F-01 4.64E-02 2.191-02 1.77E-03 2.74E-03 5.621-04 1 .28E-04 3.83E-05 7 .?5f-05 2,6lE-06 4.972-07
EG
E,
f2
15 17 20 25 32 40 50 65 80 100 120 150
8.7lE-02 5.8QE-02 3,54E-02 1,75E-02 7.94E-03 3.88E-03 1 .88E-03 8.03~~04 4.08E-04 1 .97E-04
:: 40 50 65 80 100 120 150 200
300 450
650 1000 2000 6000
00 00
6,73E-02 3.26E-02 ,.38E-02 7.02.Z~03
2
200 300 450 650 ,000 2000
6.12E 3.74E 1.96E 7.998-01 2.938-01 I.18E-01 4.715-02 1*60E-02 6,76E-03 2.698-03 1.27E-03 5.llE.04 1.60E-04 3,2QE-05 7.4QE-06 2.24E-06 6.74E-07 ,.53f-07
l.O9E-04 5.3lE-05 Z.lZE-05 6.08E-06 1.9lE.06 7.48f-07 2.96E-07 9,40E-06
k:I
03 03 01 OP 02
5.291 I.731 4.62E 1.63E 5;33E-0~ 2.15E-01 7.136-02 1.76E.02 2.621-03 4.43E-0‘ 1.04E-04 2.43E-05 4.098-06 5.971,07
0, 0, 00 00
.
IO
00 00 00
3.60E 1.98E Q.05E 3.05E Q.06E 3.00E 9,85E-0, 2.658-01 9.39E-02 3.08E-02 l.ZCE-02 4.146-03 1 .03E-03 1.53E-04 2,5QE-05 6,08E-06 1,43f-06
02 02 01 0, 00 00
2.40E-07
El
E2
E3
2.63E.01 1.37E.01 5.8.5E.02 1.84E-02 5.098-03 l .bOE-03 5.04E.04 , .3OE-04 4,5OE-05 l.LSE-05 5,80E-06 l.QlE-06 4.7lE-07 6.97E-08 l.,4E-08 2.48E-09
,000
l.lOE-10
L.Izf-10
2000
1,84E-,(
5.llE-31
4.83E 2,PtE 8.06E 2,OlE 4,34E.O1 1 .OQE-01 2.741-02 5.48E.03 1,55E-03 4,OlE-04 I .f5E-04 3.6-E-05 6.811.06 7,05E-07 8,23E-08 1,33E-08 l.OOE.OQ 1,31E-10 2
40 50 65 80 100 120
150 200
b,YlE-04 L.LOE-04 9.371-05 3;72E-05 1,48E-05 5,00E-06
2.138-06 8,60E-07 4,13E-07 1.70E.07 S.SQE-08 1,25E-U8
450
3,16f-09
650
1,03E-09 3.27f-10 7;46E-1)
2000
SHELL
10
1 .08E-03 6,5?E-04 3,34f-06 1,34E-04 4,83E-05 1,92E-05 7,63E-06 2.59E-06 l,lOE-06 L,43E.07 2.12E.07 8.66E.08 2.8OE.08 5;QPE.09 1,3QE-09 4,07E-10
2.121-03 1.27E.03
04 03 03 02 0, 01 00 00
2.02E l.OOE 4.00E l.lZf 2.67E 7.27E 1.96E 4.2OE 1.24E 3.35E-01 l.l6E-01 3,2OE-02 6,25E-03 6.8Of-04 8,60E-05 1.59E-05 Z.QSf-06 3.7Of-07
15 17 20 25 32 40 50 65 80 100 120 150 200 300 450 650
15 (7 20 25 32
2.03E 4.8lE 1.50E 3.47E 7.56E 2.li.E 5.82E 2.OlE 5,51E-01 ?.07E-01 1 .17E-02 1.47E-03 2.72E-04 5.OlE-05 6.3lf-06 7.14f-07
.
L2
3.29E 7.441 1.41E 3.12E 6.86E 9.15E 2.111E 6.24E I.841 4.48E 6.42E-01 5.OIE-02 C.llOE-03 7,00E-04 1 .02E-04 9,65f-06 8.50E-07
06 05 05 04 03 03 02 01 01 00
EB
04 03 03 02 01 01 00 00
2,45E-03 1.27E-03 7,OQE-04 3.92.E-04 2.03E.04 '1 .ZlE-04 6.928-05 4.43E.05 2.58E.05 1.3lE-05 5;181.06 2,14E-06 '1.01E-06 4.41E.07 1.35E.07
SHELL
EB
SHELL
01
1.2OE 4.83E 1,lQf 2.QSE 4.911 9.7qE l.QPE 2.88E-01 6.438-02 l.ZQE-02 3.511-03 7,2OE-04 9.18$-05 5,9(1E-06 4,24E-07 4.S8E-08 4,5'lf-09 2,44E-10
02 02 02 01 01
7.36E 2.73E 8.64E-01 3,52E-01 1 .36E-01 6.325-02 2.52E-02 7.951-03 ,.68E-03 3,94E-04 t.t7E-04 3.24E.05 5.631-06 7,07E-07
00 00
4.13E 2.29E 1.07E 3.79E 1.22E 6.45E-PI ,.64E-01 5,16E-02 2,09E-02 8.06E.03 3.74E-03 7 .lQE-03 4.69E-04 Q.89E-05 2.3lE-05 6.87E.06 (.QoE-06 3,3,f-07
01 01 01 00 "0
3.Q6E l.QOE 8.07~ 2.37E 6.15E 1.84E 5.54E 1.38E 4.64E
04 04 03 03 02 02 01 01 00
l.47E 5.8(~-01 1 .91E-01 4.74E-02 7.27E-03 1 .27E.03 2.991-04 6.57E-05 8.65E-06 8.45E-07
00
2.45E t.loE 3.851 9.19E 1.90E 4.6oE ,.13E 2.2oE 6.15E 1.59E 5.36E 1.45E 2.83E-01 3.15E-02 4.(lE-03 7.64E-04 1 .33E-04 1 .32E-05 1 .OlE.06
06 06 05 04 04 03 03 02 01 01 00 00
w4
6,43E-01 4.02E.Ol Z.(PE-01 9.66~~02 3.94E.02 1.7?E-02 8.05E-03 3,23E-03 1 .5QE-03 7.46~~04 4.07E-04 1.97E.04 7.87E-05 2;28~.05 7,llE.06 2.66E-06 9.26E.07 Z.qSE-07
2.68E 1.32E 5.25E 1.5lE 3.83E 1.13E 3.37E 8.296-O* 2.78E-01 8.74~-02 3.45E-02 l.l3E-02
n5 03 03 02 02 0, 01 00
2.8OE-03 4.28E-04 7.496-05 1.761105 3.86E-06 5.08E-07
1.75E 7.63E 2.6Of 6.02E 3.2lE 2.88E 6.QLE 1.34E
05 04 01 03 03 02 01 01
3.7qE 9.53E.01 3.2OE'01 0.641-02
00
1 .68E-02 1.86E-03 2.42E-04 4.49E-05 7,8OE-06 7.751107
KEV III
7.03E 2.54E 6.75E l.qOE
05 05 04 04
1,47E 2.42E 3,PQE b..55E 9,29E-01 1,60E-01 3,85E-02 6.928-03 7,92E-04 4.18E.05 2,60E-06 2,SlE-07 2.07E-08 6,QOE-10
03 02 01 00
EE
=l.Q963E-02 f5
04 03 03 02 01 00 00
6.42E 3.60E 1.7Of 6.14E Z.OOE
*2
=2,0080E-02 ES
03 03 02 02 01 00 00
n5 01 00 00 00
UEV n1
E4
00
Z.OOE-04 5.06f-05 2..86E.O6 8,OQE-07 8.34E-08 9.25E.08 , .76E-09 1.54!z-t0
IOE-02
4.03E 7.78E l.74E 3.85E 6.53~ l.6lE 3.581 1.06E 2.411-01 3.73E-02 2;96E-i; 2.8OE-04 4.10E-05 5.96E-06
3,lZE-10
l.Wf
3.3J.E.03 1 .34E.O3 3.88E.04 1 .21E.04 4.53E-05 I. 581-05 3,63E-06 5.QOE-07
9.81E"03 6.96E-03 4.47E-03
b.l4E-08 6.6lE-09
3.68E 7.791-01 1 .QZE-01 4,71E-02 Q.lOE-03 2.48E-03
4.406-04 2.23E.04 8,83E-05 3.66E.05 1 .72E-05 7.52~~06
06 05 05
2.47E-03 5,4OE-04 7,91E-05 5,82E-06 4.941-07
01 01
1.05E 6.50E 3.62~ 1.60E 6.59E.01 2.98E.01 1.36~~01 5.46E.02 2.68~~02 1.27E-02 6.QlE.03
1.13E 5.04E 1.75E
8,67E-03
E3
6;191-04
x4.501
5.66E-07
6.4OE 2.60f 8*08E 1.62E 2.76E 5.591 1,14E 1,77E-01 L,llE-02
L3
Q.09E 6.l4E
04 04 03 03 02 01 01 00 00
M2
1,66E-01 1.18E.ol 7.601.02 4.17E.02 2.17E.02 l.ZlE-02 6.77f.05 3.46E.03 2.058-03 1 .lllE-03 7.548.04
ES
2 < 30
KFY
2,30E-06 4.88~~07
E4 01 0, 00 00
10
E2 S.OOE-01 2.6OE-01 l.tlE-09 3.431-02 9.391103 Z.VlE-03 9,02E-04 2.281-04 7,72E-05 2.438-05 P.b8E-06 3.041-06 7.17E-07 l.OlE-07 1 .SQE-08 3.47E-09 7.3OE-,O 1.0&E-t0
07 Oh
Conversion,
Coefficients
111
2.18E Q.62E
E4
EG
El
05 05 04
L1
2 .
EG
S,83E q.R8E 7.4OE
El
1OE-01
E5
F4
6.67E 3.64E 1.65E 5.4QE l.b(E
Conversion
ER n8.67,
SHELL
E3
l.llE 6.75E 3.51F
20
1.55E 1.04E 6.24f-01 3.06E-01 1 .38E-01
10
E7
Internal
Internal
06
9.bLE-05
4.70E
05
6,42E-05
'1.24E
05
3.78E-OS
1.98E 2.6lE 4.17E
OP 03 02
l.83E.05 8,lTE.06 3.94E-06 1.9lE.06 8,12E-07 4.151-07 P.OZE-07 t.llE.07 S.bOG-oa 2,30E-08 6.83E.00 2.171-09 8,23E-10 2.958-90 7.291-11
01 00 00
2.7lE 1.418 6.00.9-0'1 ?.86E-01 5.091.02 l,SOE-02 4,QlE-03 1 .LSE-03 4,26E-04 1,35E-04 5.30f.05 1.7qE-05 4;07E-06 5.66E-07 8.54E-08 1 .bTE-08 2,8(E-09 2,17E-50
?.4bE-02 ?.27E-03 2,78E-03 9,63E.O4 3,69E-04 1,42E.O4 4.61E.05 1 .QOE-05 7;37E-06
3,42E-06 l,SbE-06 S.OQE.07 7.92E-08 1;62E-08 4.08E.09 8.67E.10 9.62E.71
00 00
2.621 l.2lE 4.49E l.llE 2.4OE 6.03E.01 l .SZE.Ol I.ObE-02 8,54E-03 P.ZlE-03 7,38E-04 1 ,PbE-04 3.6SE.05
02 02 01 a1 00
2.358 9.6lE 3.01f 6.12E 3.05E
2.1&f 4.3QE 6,lJ7E-01 1 ,bOE-01 3.371-02 9.591-03 2,OQE-03 3 .OSE-04 2.211.05 1 .83E-06 2,20E-07 2.24E-08 Q.lIE-IO
3,66f-06 4.09E.07 6,26E-08 8,16E-09 4.561-10
04 OJ 03 02 02 01 00
CEV
1,3lE
6.68E
2.SOE.02
1,39E-06 6,97E-07 3,33E-07 1,82E-07 6,7bE-08 3,43E-08 9,3lE-09 2,6lE-09 0.54E.10 2.45.5.50 3.86E-ll
Yl
7.8OE 1,43E 2,34E-Ol 5,38E-02 8,QQE-03 Q,23E-04 4.04E.OS 2,04E-06 1.65E-07 l.lQE-08 4,13E-IO
n5
1.82E.04 l,ZOE-04 7,02f-Of 3.35E-05 1,47E-05 7,00E-06 3.331.06
1(2
WL
*3
t.lqE-02 t .34E..OP 6.2QE.03
4,IJE 2.34E P,lCE-01
2.23E.03 7.17E.04 2. S8E-04 Q.38Er05 2;.58E.05 l.q4E-OS 4;25E.06
2.56E.Ol 6,2QE-02 l.')QE-02 5.131-03 q .2OE-03 3.82E-Ok l.l3E-04 4,23E-05 l.ZPE-05 2,84E-06 3.568-07 4.85E-08 f..79E-09 1.41E-09 l.fZf-10
?.PlE-06 7,26E-07 L.lIE-07 3 .Q?E-08 8,,6E-09 2.15E.09 5,14E-10 Q.OSE-11
00 00
6.60E 2.afE 9.45E 2,llE 4.08E Q.34E-Ol 2.lbE-01 3 .QPE-02 1 .OSE-02 2.48E.03 7,84E-04 l.95E.04 3.34E-OS 2.978-06 2.93E-07 3.97E-08 b.SOE-09 2,33E-10
02 02 01 01 00
7.47E 2.84E 8.lOE (.46f 2.23E 4.12E 7.7lE 1.09E 2.37E-01 L.bSE-02 q.251.02 2.556-03 3.421-04 2;2OE-05
04 04 03 03 02 01 00 00
(.bOE-06 1.696-07 1.45E-08 4.68E-l0
See page 438 for Explanation of Table
440
Atomic
Doto
and
Nuder
Data
T&lm,
Vol.
18,
No.
5,
Nwnnb~r
1976
BAND,
EG
F,
IS 77 20 25 32 40 50 65 80 100 120 15n
3.3OE 2.25E 1.36E .5.112E-07 3,15E-Ol ,.56E-01 ?.65E-02 3.311-02 l.?OE-02 8;3OE-03 4.63E-03 2;2?E-03 9,19E-04 2.6kE-04 11,498.05 3.3hE-05 1;34E-05 L.ZLE-06 l;O?E-06
200 300 450 650 1000 2000 6000
E2 00 "0 00
?.OOE 1.29E 6.??E 2.89E l.OFE 4.478 1.82E 6,2QE-01 Z.?lE-01
02 02 01 01 01 00 on
l.*?E-01 5.238-02 2.131-02 6.77E-03 ,.42E-03 3,2?E-04 l.OOE-04 3;05E-05 6.Q?E-06 1,31E-06
El 2,22E-01 1,52E-OT ?.33E-02 4.72E.02 2,2Ot-02 l.OqE-02 5,42E-03 2.361-03
(.I‘.E 8.5lE 4.6OE 1.95E ?.4?E-01 3.0QE-01 1.2?E-01 4.44E-02
80 100 120 150 200 300 450 650 1000 2000
1,2lE-03 5.968-04 3,33E-04 1.648-04 6,64E-05 l,QLE-05 6,l?E-06 2,44E-06
1.921-02 ?,8OE-03 3.?LE-03 1.53E-03 4,88E-04 q.O3E-04 2,3QE-05 ,.27E-06 2.221-06 5.071-07
P.?(E-07
El
15 T7 20 25 32 40 50 65 80 100 120 150 200 300 450 650 1000 zoou
6 ,P?E.O3 4 .tSE-03 2 .23E-03 9 ,lZE-04 3 .3CEr04 9 ,3?E-04 I ,5?E-05 1 .?3E-05 a .33E-06 3 ,40E-06 1 .bSE-06 6 ;azE-07 2 .23E-07 4 .BLE-08 1 .15E-08 3 .40E-09 9 .22E-10 1,54E-10
EG
El
See page
438
3.6lE i.aqE a.lZE-0, 2.551-01 7,06E-02 2.2lE"02 6.93E-03
65 80 100 120 150 200 300 450 65F ,000 2000
3.668-05 l.SbE-05 6,4?E-06 3,13E-06 1.3lE-06 4.35E-07 Q;aSG-08 2,52E-08 8,2JE-09 Z.bZE-09 5.?1E-10
1.?7E-03 b.OSE-04 1.921-04 7.SLE-05 2.43E-05 5.?I)E-06 0;17E-o? 1,30E-07 2.84G-08 5.961-09 k.42E-10
for
Explanation
ES
5.498 2.82E 1.17t 3.44E R.64E 2.44E 6.8lE 1.5lE 4.5hE 1.26E 4.45F 1.25E 2,5lF-01 2.821-02 3.6?E-03 6.966-04 1.326-04 T.?lE-05 '1,?2E-06
Ll
*
on 00
.
14
12
6.768 3,lOE 1.13E 2.8OE 6,OOE 1.4QE 3.70E. 7.216-02 1 .QaG-02 4.971-03 l.t,ZE-03 4.13E-04 ?.25E-05 6;6bE-06 b.QOE-07 l.OYE-07 9.45E-Ok 1 .25E-OP
=1,4900E-01 ES
2,QlE q.?QE 9,54E-01 4,08E-01 t.bZE-01 ?,lZE-02 3,17E-02 1.25E.02
3.lkE O.(IBE-07 3.14E-01 k.QOE-02 1.79E.02 2,03E-03 2.658-04 5,05E-05 Q.S?E-06 1.241-06
00
3.93E 9.09E 2,76E b.SlE-01 l.O4E-01 8,bLE-03 a.slE-04 1.298-04 l.Q4E-05 I.~oE-06
01 00 00
4.5kE.04 2.606.04 1,65E-04 ?.52E-05 4.771-05 1.46E.05 7.601-06 3,53E-06 1.52E-06 4.53E-07
6.03E.03 I.(lOE-03 l.SlE.03
EO
~1.0000E.01 ES
04 04 03 03 02 01 00 00
SHELL
1. 3.
00
2;ao1-06 1.541-06 7,45E-0, 2,94E-07 k,O?E-08 2.28E.08 7,5OE-09 2,15E-09 3,56E-IO
6.191-05 z.aQG-05 1,74E-05 3.5lE..06 b,aQE-07 3.43E.07 3,62E-Ok 7.9lE.09 8,57E-10
EB
=Q,QOOOE-02 E5
l.abE t.OlE 4.62E ).5QE 4.QQE l.??E 6,40E-01 l.Q,E-01
4.2?E 1.6dE 5.5lE-01 1.36E-01 2.08E-02 3.63E-OS
00 00
6.67E 3.05E l.OkE 2.65E 5.48E t.33E 3.2tE 6.36E ,.,,E 4;sbe
06 06 06 05 04 04 03 02 02 0;
l.51E 4.14E 1I,OIE-01
01 00
k.VLE-02 ?.17E-02 2.17E-03 3.?6E-04 3.?tE-05 2.766-06
8,52E-04 l,87E-04 2.43E-05 2.3OE.06
HZ
n4 02 02 09 01 00 00
7.89E.02 3,00E-02 1,38E-02 5.44E-03 1.70E.03 3,55E-04 8.26E.05 2.44E.05 6,70E-06 l.lSE-06
n2 l.QSE-01 l.lSE.01 S.?OE-02 2.2lE.02 7.72E.03 Z.QQE-03 l.lbE-03 3,IlE.04 1.5aE.04
2.
05 04 04 03 03 02 02 01 01
l.TQE 5.74E 2.24E 6.26E 1.5SE 4.46E 1.3OE 3,(5E
04 03 03 02 02 01 01 00
7.64E 3.2SE l.lOE 2.4UE 4.85E 1.13E 2.6kE 5.05E
05 05 05 04 03 03 02 01
1.04E 3.23E-01 (.2?E-01 c..llE-02 l,OlE-02 1,53E-03 2.671.04 6.24E.05 1.368-05 l.?fE-06
00
1.36E 3.50E 1.17E 3.12E-01 6,OlE-02 6,62E-03 a.5QE.04 1.59E.04 2.75E-05 2,?2E-06
01 00 00
KEV Ml 1.42E.03 ?.l$E-04 5.531.04 2.6bE.04 1 .laE.04 5.68E.05 2.73E.05 l.l5E-05 s.aiE-06
3OE 17E.01 4. 75E-02 6. 661-03 3. 5?E-04 2. 268-05 ZUE-06 1. BLE-07 6,l?E-09
I45
1.37E 5.9lE 2.428 7.12E 1.84E 5.48E 1.64E 4.05E 1.36E
m3
?,23E-04 2.a71.04 O.ZZE-05 2,54E.05 ?,43E-06 3.258-06 ?.3lE-07
06 06 05 04 04 03 02 01 00
I. 3.
03 03 02 02 01 01 00 00 00
4;02E-01 1.86E.01 ?,3bE-02 2.3lE-02 4,04E-03 1.13E.03 3.34E-04 Q.laE-05 1.578.05 l.?lE-06
00 00
5. OSE 7. 84E 4. ??E 2lE I. 12E 17E 12E 3. 86E 7. LIE
a.
Ilk
2.07E 1.15E 5.43E 1,94E 6.24G 2.27E 8.3lE 2.60E 1.05E
n2
4,24E-02 2.97E.02 f.8kE.02 l.OlE-02 5.lSE-03 2.82E-03 1.568.03 ?.83E-04
E4 02 02 or 01 00 00 .Ol
Ill 06 05 05 0‘ 04 03 02 02
SHELL
I3 01 01 01 00 00
KE"
1.56E 7.5lE 2.84E ?,T9E 1.52E 3.63E 8.53E 1,53E
.?4E .QCE .lOf .24E .lCE .3?E '.05E .43E .35E-01
L3
3.626 2.25E l.tZE 5.286 2.13E 9,44E-01 4,24E-01 1.6aE-01 8.15E-02 3;kOE-02 2,06E-02 9.(17E.O3 3.921-03 1.13E.03 3,48E-04 1 .ZPE-04 4,4bE-05 l.OOE-05 1,5?8-06
04 04 03 03 02 02 01 01
.13E-02 *04E-02 .SlE.03 .?OE-04 ,OOE-05 ,3OE-06 .4OE-07 ,86E-08 2,7ac-09
t4
I42
S.??E-01 4,06F-01 2,5kE-01 1,3QE-01 7.04r-02 3,a,E-02 2.146-02 I .OkE-02 6*3r)E-03 3;57E-03 2.27E-03 1i31E-03 6.56E-04 2.56E-04 l.O4E-04 4.k4E-05 Z;OQE-05 6.238-06 l.ZLE-Oa
EB
F4 02 02 01 01 00
Ill 07 07 06 06 05 04 04 03 02 02 01 00 00
3,29E 1.73E 7.35E 2,21E 5.691 1.64E 4.648 1.046
E3 60 00
2.75E l.PQE 4.70E 1.15E 2.36E 5.51E 1.27E 2.25E 5.68E T;3OE 3.93E 9.19E 1.46E l.IOE-Oq (.18E-02 1.771.03 2;66E-04 2.6lE-05 2.30E-06
El 02 02 02 0) Or 00 00
3.641 2.6aE 6.11E 1.56E 3,40E 8,62E-01 2,20E-07 4.44E-02 9.268-02 3,31E-03 l.lZE-03 I.OLE-04 5,?7E-05 6.051-06 ?.14E-07 l.l7E-07 1,6&E-Ok 1,16E-09
05 05 05 04 03 03 02 02 01 01 00 00
SHELL
E3
2
1.35E.02 a,19E-03 S.ZllE-03 l.?SE-03 6.418-04 2,62E-04 (.06E-04
E4 04 "3 17 "3 02 02 01 00 00 00
2.53E-01 $.53E-02 3,52E-02 1,20E-02 3,03E-03 4.6?E-04 8,13E-05 1.951-05 4.60E-06 a.OlE-07
EP
15 17 20 25 32 40 50
is
b,k4E 3.92E l,a6E b,?tE 2,t')E 7.28E 2.4QE 6,96E-01
t2 l.QZE 1.01E 4.37E-01 1.398-01 3.rnQE.02 1,24E-02 3.95E-03 l.O3E-03 3.bTE-04 l.l?E-04 4,73E-05 l.SLIE-05 3.92E-06 5;aQE-OT Q.,7E-Oa 2,13E-Oa 4.17E-09 4.42E-IO
Conversion Coefficients
E3 01 00 00 On
2 EG
Internal
14
E2
15 17 20 25 32 SC 50 65
3,O?E-07
.
Internal Conversion, 2 < 30
TABLE.
l.O?E 6,lbE 2.91E l."ZE 3.(3E 1.07E 3.bOF Q.?,E 3.66E 1;2lE 4.94E-01 1;67E-01 4,22E-02 b.C?E-03 q.lZE-03 2.698-04 6;43E-05 1.lOE-05 l.SQE-06
2 EC
and LISTENGARTEN
TRZHASKOVSKAYA,
I53 2.04E 1.07E 4.59E 1.44E C.OOE-09 l.IbE.O( 3.?SE-02 l.OZE-02 3,50E-03 1.12E.03 4.44.5-04 l.L4E-04 3.471-05 4,90E-06 7.4QE.07 1;48E-07 2,5lE-0.5 l.QSE-09
I45
114 01 O? 00 00
l.?OE a.afE 3,2?E 8.35E 1.84E 4.7OE l.ZOE 2,43E-01 6.93E-02 l.alE-02 b,lqE-03 1,64E-03 J.OQE-04 3,156-05 3.5bE-06
03 02 02 01 01 00 00
1.64E 6.8lE 2.17E 4.50E 7.88E 1.64E 3.40E 5.42E l.ZkE 2,73E-01 7.aLE.02
05 04 04 03 02 02 01 00 00
1.731-02 2,5bE-03 1,89E*04 q.IQE-05
5.53E-07 7.2aE-0.3 4,llE-09
1.931-06 l.QQE-07 8.25E-09
KE" I(1
a,?4E 3.5bE 1,llE 2,ZZE 3.74F 7.49E 1.5OE
04 04 04 03 02 01 01
9.29E 3.361 8.97E 1.46E
66 06 05 05
6,QQE-04 4,69E-04 2.786-04 1.361-04
l.QSE 3.1bE 5.13E
04 03 02'
6,15E-05 3,00E-05 1,46E-05
2.27E 5.llE.01 l.O4E-01 Z.a3E-02 5*84E-03 7.83+04 4;93E-05 3.52E-06 3.11lE-07 3.?6E-Ok Z.OOF-0.;
00
6.07E 1,13E l.k6E 4,2QE-01 1.24E.02 7,50E-03 3;32E-04 l.bQE-05 1.3?E-06 Q.Q3E-08 3,43E-09
01 01 00
6.30E.06 3.248-06 l.SQE.06 1).95E-07 4.45E-U? l.k4E-07 5;4?1-08 1,74E-Ok 6.631-09 2.37E.09 5.a2E.lo
Iv2
N3
2.49E-01 1.37E.01 6.33E.02 2.20E.02 6.93E.03 2,461.03 a.79E.04 2,65E-04 q,04E-04 3.82E.OS l.?OE-05 6,4lE-06 1.861-06 3;44E-07 6.Q~E.08 1,79E-Ok 4.3QE.09 ?.Z?E-10
5.531 2.64E l.OlE 2.75E 6.6OE.01 1.84E.01 S.l?E-02 l.lrnG-02 3.726-03 1 .OPE-03 4.02E-04 l.LlE-04 2.63E-05 i;ZLE-06 4.34E-07 7.721-08 1.2lE-0.5 1.08E.09
w 01 01 01 00
7.5PE 3.2OE 1.05E 2.29E 4.32E 9.6QE 2.2OE 3.921-01 l.OZE-Ot 2.4lE-02 ?.56E-03 1.86E-03 3.15E.04 2;76;-05 2.68Ec06 J.SQE-07 3,99E-08 1.96E.09
II5 03 03 03 02 01 00 00
8.458 3.17E 8.QOE 1,57E 2.35E 4.268 7.aLE 1.00E 2.34E 4.54E.01 l.ZlE-01 2.44E-02 3.24E-03 2;iSE.04 l.4kE-05 l.SSE-06 1.3lE-07 C.O6E-09
05 05 04 04 03 02 01 04 00
of Table
441
Atomic
D&a
and
Nuclwr
Dota
1obhr.W.
1%
No.
5,
Novwnkr
1976
BAND,
and LISTENGARTEN
TRZHASKOVSKAYA,
TABLE. 2 i EG
t,
15 I7 2* 25 32 40 50 65 80 100
3.82E 2.61k 1.59t 7,96E-01 3.7OE.01 1.84E.01 P.OhE.02 3,93E-02 2.03E.02 9.938-03
120 150 200 300 450 650 ,000 2006 6000
5.bbE
05
02 01 01 0, 00 00
6.bRE 3.1.3E l.TSE 3.53E l.ZlE 4.13E 1.15E 4.19E 1.4lE S.RIE.0, I.POE.01
03 03 03 02 02 01 01 00 0"
5.55E.03 2,73F-03
1.45E 7.82E 3.3rlF 1,2$E S.lXE 2.12E 7.381-01 3,19E-01 1,3OE-01 6.21E.02 2,53E-02
2.95E 1.25E 3.72% P.516 2.72E 7.68f I.72E 5.246 1,46E 5.18E 1.47E
05 05 04 03 03 02 02 01 01 00 00
l.t~E.03 3.241-04 1.03E.04 4.09E.05 1.63E-05 5.14E.06 1.3OE.06
8.lOE.03 1.71E-03 3.9GE-04 (,22E-04 3.72E.05 R.51E.06 ,.59E-04
5.028.02 7.75E.03 1.351-03 3.266.04 7.846.05 1.35E.05 l.P‘E-06
2.64E.01 1.82E.01 l;lZE-01 S.bRE.02
32
2.666-02 1,33E-02 6.63E.03 2.9OE.03 l.SOE-03
100
7;37E-04 4.13E-04 2;04E-04 a,3OE-05 2.43E.05 7.77E-06 3.08E-06 1;23E-06 3.671.07
1000 2000
1.55E 9.798 5;34E 2.29E .3.84E-01 3,7OE-01 1.53E.01 5,3aE-02 2.34E-02 9.55E.03 4.59E-03 I.a8E-03 b,05E-04 l,ZaE-04 2,99E-05 9.168-06 P.aOE-06 6,42E-07
15 17 20 25 32 40 50 65
80 100 120 150 200 300 450 bS0 1000 2000
El 9.648103 b;OZE-03 3.17E.03 1;31E-03 4.87E.04 l.PPE-04 a.OPE.05 P.alE-05 1.22E.05 5,OlE.Ob 2.43Er06 1,01E.06 3.32E-07 7;ZRE.08 1.73E.03 5;1$E-09 ,,396.09 2.32E.10
01 00 00 00
El
.
Lq
7.48E 4.33E 2;llE 7.658 2.43E a.51E 2.93E 8.30E-01 3.041..01 l.OJE-01 4.278-02 1.468.02 3.731.03 5.79E.04 l;OEE-DC 2.45E.05 5;9lE-06 l.OZE.06
SHELL
I
02 02 02 01 01 00 00
15
3.43E 1.83E 7.94E 2.446 6.4lE l.aTE 5,3SE I,PZE 3.77E l.ObE 3.788-01 l.OaE-01 2.?9E-02 2.5OE.03 3.30E.04 6.33E.05 l.ZlE-05 1 .SI)E-06 L2
00 00
5.35E 2;47E 9.OC.E 2.30E 5.03E t.Z(IE 3.27E.Ot b.bZE-02 1,69E-02 4.9bE.03 l.baE-03 4;55E-04 a.70E.05 9;15E-06 1 ,OaE-06 1.70E-07 2,55E-00 1.771-09
.
15
SHELL
6.92E 2.a4E 8.94E 1,SJE 3,lbE b,SOE 1.34E 2.13E 5.00E.01 1.07E"01 3.07E.02 6.798-03 l.OlE-03 7.571-05 6.536-06 8,2'1E-07 a.942.011 4,25E-09
L3
04 04 03 03 02 01 01 00
E4
5.25E
00
9.1)8E
02
1.27E
05
17 20 25 32 40 50
Y.lbE-02 6.07E.03 2.49E.03 9,271.04 3.77E.04 1,53E-04
00 00
4;SLE 1.45E 4.72E a.14E 2.2OE 5.47E-01
02 02 01 00 00
b5 80
5,322.05 2.3lE.05 9;46E.06 4.60E.06 1.92E.06 6;4IE-07 3.4*t-07 3,73E-08 t.22F.08 3.9OE-09 8.8SE.10
2;75E 1.14E 3.73E.01 l.O4E-01 3.25E.02 l.OZE-02 2,62E-03 a.95E-04 2.84E.04 1.12E.04 3.6lE-05 8.blE.06 ,.22E-06 1.94E-07 4,24E-08 6.89E-09 1.258-09
5.1aE 1.blE 3.251 5.50E 1.108 2.2lE 3;3bF 7.586-01 1,54E-01 4.21t.02 a.71E.03 1.17E.03 7.38E-05 5.281-06 5.726-07 5.641-06 2.99E-09
04 04 03 02 02 01 00
120
150 206 300 450 650 1000 2000
See page 438 for Explanation
ER
=1,3600E-01
06 06 05 05 04 03 02 01 01 00
3.99E 2.44E 1.3OE 5.51E.OI 2.17E.01 9.49E.02 4.2lE.02 1,64Er02 7.921-03 3.67E.03 l.P.SE.03 9.43E.04 3.73E.04 1.07E.04 3,29E-05 l,ZPE-05 4.17E.06 9.35E.07
w2
2.OPE.03 1.398-03 8,20E-0‘ 3.961-04 1.7bE.04 0.49E.05 4,08E-05 1.738.05 8.741-06 4.2lF.06 2.326-06
2.851.01 l.bGE-01 a.44E.02 3.28E.02 %.lSE.OZ 4.4bE.03 1.73E-03 5;7lE-04 2.3aE.04 9.32E.05 4.361-05 1,73E-05 5.32E.06 1 .05E-06 2;17E-07 5,52E-01 1.21E.08 1.31E.09
3.271-09 5,,,E.10
442
MS
1.45E 7.33E 3.02E Ct.POE 2.3$E b.aTE 2,ObE 5.07E q.IOE 5.33E
05 04 04 05 03 02 02 01 01 00
8,OlE 3.67E 1.32E 3.23E 6.?7F 1.65E 4.06E 7,PlE 2.2OE 5.67E
06 06 06 05 04 04 03 02 02 01
2.1OE b.B'IE-01 1.69E.01 2,59E-02 4.51E.03 l.ObE-03 Z.JlE-04 3,OlE.05 2.82E-06
00
1.91E 5,ISE 9.99E.01 l.llE-01 1.4SE.02 2.69E.03 4.67E.04 4.611.05 3.391-06
01 00
N3 00 00 00
2.54E 1.38E 6,27E 2,lSE 6.68E 2.3bE a.4aE.01 2.bOE.01 1.04E.01 3.92E-02 l;aOE-02 7,09E-03 2.21E-03 4.bOE-04 1.07E.04 3.15E.05 (1.621-06 1.471-06
n4
115
02 02 04 01 00 00
1.62E 7.79E 3.03E 8.4lE 2.07E 5.93E 1.73E 4.14E 1.3bE 4.22E-01 1.651-01 5.35E.02 1.3lE.02 1.98E.03 3,44E-04 .3,05E-05 1.75E.05 2.2aE.06
04 03 03 02 02 01 01 00 00
1.04E 4.438 1.4aE 3.32E b.4bE 1.50E 3.53E 6.64E 1.81E 4.57E 1.52E 4.05E.Ol 7,7aE-02 8.55E.03 l.llE-03 2.05E.04 3.541-05 3.49E.06
06 05 05 04 03 03 02 07 01 00 00
01 01 00 00
2.75E l.ZaE 4.77E l.ZZE 2.7TE 6.941 1.78E 3.62E.01 l.OSE-01 2.7lE.02 9.161-03 Z.LbE-03 4.65E.04 4,76E-05 5.42E.06 i3,42E-07 l.llE-07 6.3OE-09
03 03 02 02 07 00 00
2.3bE 9,aIE 3.14E 6.54E 1.15E 2.4OE 5.02E 8.02E 1.90E 4.07E.01 1.178-01 2.59E.02 3.858-03 2,85E-04 2,4+E-05 2.948-06 3.046-07 , ,266.06
01 01 01 00 00
1.23E 5,17E 1.69E 3.671
04 03 03 02
1.54E 3.481 6.17E.01 t.59E.01 3,77E-02 l.lPE-02 2.89E.03 4.87E-04 4;26E.O5 4.12E.06 S.SOE-07 b.OIE-08 P.PLE-09
01 00
1.37E 5.10E '1.438 2.51E 3.73E 6;74E 1.24E 1.72E 3.666 7,OaE.01
w5
n3 2.96E t.56E 6.758 2.13E 5,92E-01 l.OIE.O( 5.88E-02 1;52E-02 5.241.03 1;681-03 6,67E-04 2.181-04 5.251-05 7.44E.06 1;14E-06 Z.ZbE-07
3;83E-oa 2.988-09
05 04 04 03 03 02 01 00 00
KFV Nl
of Table
k4 03 03 02 02 01 01 01 00 00
UEV Ml
,,14E-08
07 06 06 05 04 03 02 01 01 00
2.62E 1.47E 6.90E 2.46E 7.92F 2.87E 1.05t 3.271 1.32E 5.04E.01 2.338-01 P.ZOE-02 2.8.3E.02 6.036-03 1.40E-03 4.158.04 1.14E.04 1.958-05 2.34E.06
WP
5.738-02 4.01t.02 r;snE.oz 1.3t.E.02 6.1176-03 3.751-03 2.0bE.03 1.03E.03 b.OPE-04 3.4lE.04 2,15E-04 'I.ZIE-04 b.ZOE-05 2.411-05 9;8OE-06 4.53E.06 1.94E.06 5,7bE-07
~~.3500E.01
1.34E 4;1)6E <.3OE 2.72E 2.851 4.63E 7.54E 8;95E 1.6bE 2.751 6,37E-01 q.OaE-01 l.lZE-02 4.978-04 2.54E-05 2*0bE-06 1.49E-07 5.14E-09
)13 01 01 01 00 00 00
KEV
1,13E-06 4.458-07 1.228-07 3.47E.08
E5
'1.89E.02
100
06 05 05 04 04 03 02 02 01 01 00
EG
15
1;07E-01 2.94E.02 7.40E.03 2.41E.01 6.1bE.04 1;08E-04 9,96E-06 ,.O,E-06 l.SSE-07 2,18E-06 1.67E."9
?.54E 7.blE 2.95E 7,70E 1.672 4.07E 9.721 1.77E 4.5QE 1.07E 3.29E 7,.3lE-01 l.ZbE-01 ?.06E-02 1;05E-03 1.616-04 2.44E-05 2.421-06
7.3lE 2.67E 7.23E 1,201 1.65E 2.75E 4.62E 5.74E l.llE 1,94E 4,74E-0') a;bPE-02 l,OOE-02 S.bOE-04 3.431-05 3.35E-06 2;8lE-07 P.LbE-09
n2 4.70E 2,PPE 1.57E 6.10E 2,72E 1.2OE 5.39E.Ol 2.12E.01 l.O3E-01 4,791.02 2.59E.02 1,24E-02 L.POE-03 1,40E-03 4.34E.04 1 .blE.04 5,52E-05 l.ZLE-05 1 .921.06
Ml
15
SHELL
E3
EZ
04 04 03 03 02 02 01 01 00 00
KEY
7.54E.01 5.286.01 3.34E.01 1.79E.01 P.O?E-02 4,958.02 2.721-02 1 .3bE-02 7.97E.03 4,5lE.03 2.851-03 1.64E.03 8.21E.04 3.T9E.04 1.308-04 6, DOE-05 2.586.05 7,646.06 1.561.06
rl,a9OOE.O1 ES
E4 02 02 01 01 00 00
07 07 06 06 05 04 04 03 02 02 01 01 00
EG
"0
Coefficients
nr
2.746 1.30E ‘.BbE 1.22E 2.548 6.03E 1.4IE 2,53E 6.461 1.49E 4.53E 1.07E 1.7lE 1,42E-01 1.4lE-02 2.14E.03 3,24E-04 3.20E.05 2,aqE.06
E4
E3
7. EG
15
E2 2.8OE 1.47E b.LOE-01 2,04E-01 5.73E.02 1.83E-02 5.148-03 1.54E-03 5.381-04 1.75E-04 7.081-05 2.361-05 5.191-06 a;iWE-07 1,4RE-07 3,23E-08 6.331-09 6,70E-10
2,961-O? 3.35E.02 4.40E-03 8.41E.04 1.60E.04 Z.OPE-05 2.348-06
E3
2 EG
=
c2
12.149OE ES
04
40 50 65 (IO I20 150 200 300 450 650
FH
1.17E
El
Conversion
FO
@2
2
17 20 25
SHELL
EJ
F2 "0 00 00
K,
2.33E
E‘
15
15
Internal
Internal Conversion, 2 < 30
l.O2E-03 6;82E-04 4.068-04 1.991.04 9.02E.05 4.411.05 2.155-05 P.LPE-06 4.79E.06 2.3bE.06 1.33E.06 6.61 E-07 2.73E-07 6.lbE.Oa 2.6OE-08 9,66E-09 3.528-09 6,64E-10
I42 3.95E.01 2.77E-01 9.971-02 3.46E.02 l,Oe.E.02 3.826.03 1.368.03 4;IOE.04 1 .bOE.04 5.a6E.05 2.blE.05 9.79E.06 z.a3E-06 5;21E-07 1.04E.07 Z.,OE-08 bi57E.09 1.011E.09
I43 a.97E 4.261 1.63E 4.41E l.OSE Z.PlE-01 (1.15E.02 l.aSE.02 5.82E.03 1.698.03 6.25E.04 l.(17E-04 4.061.05 4;91E.06 6.648-07 1 .lLE-07 1,.63E.08 l.bZE-09
n5
n4
6.aPE 01
06 05 05 04 03 02 02 Oq 00
i .aaE-01 3.80E-02 5.02E-03 3,1aE-04 2.26E-05 2.3aE.06 2,OlE.O7 b.lbE-09
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 E6
FI
15
4.371 2.99E 1.03t 9.22E-01 4*29E-01 2;14E-01 1 .OCE-01 4.61E-02 2,3hE-02 1.17E-02 6,SbE-03 3,24E-03 1.32E.03 3.87E-04 1.246.04 4,91E-05 1.968-0s
17 20 25 32 40 so 65 80 100 120 150 200 300 450 650 1000 2000
6000
6;17E-06 ,.SSE-06
00 00 00
2.56E 1.6IE 8.73E 3.721 1.42E 5.92E 2,44E R,sSE-01 3*7lE-01 l.SlE-01 7,27E-02 2.981-02 9.57E.03 2.031-03 4.7sE-04 I.461104 4.471-05 1;03E-05 I,9+E-06
El
*5 17 20 25 32
3,OIE-01 2,13E-01 1,32E-01 6.738-02 3,17E-02 I 59E.02
:::
7:96E-03
65
3.SOE-03 1;82E-03 8.968-04 5.04E.04 2,49E-04 l.OZE-04 3,00E-05 9.601106
8* 100 120 150 200 300
450
650 1000 2000
3;821.06 1.521.06 h,8OE-07
I.5
02 02 01 01 01 00 00
1.24E 7.I3E 3;44E 1.24E 3.92E 1;36E 4.67E 1,32E 4,81E 1.63E 6.74E-01 2,3jE-01 s.IIPE-02 P,qSE-03 I.b1E-03 3.891-04 P.CZE-OS 1;63E-05
04 03 03 "3 02 02 01 01 00 00
.
15 17 20
Ll
3.4OE
6.398-02
25 32 40 50 65 80 100 120 150 200 300 450 650 ,000 2000
1.25E-03 4.36E.03 1.8lE.03 6.788-04 2,78E.04 1,14E-04 3,9RE.O5 1,74E-OS 7,14E-06 3.47E-06 1.4sE-06 4,78E-07 l.OSE-07 Z.SIE-08 7;43E-09 P.OZE-09 3,38E-10
E3 00 00
7,6(E 3,StE 1.30E 3,291 7.22E 1,84E 4.71E-01 9,57E-02 2,73E-02 7,2OE-03 2,44E-03 6.62E-04 1;27E-04 1.341-05 1.596-06 2;62E-07 3.77E-08 2.61%-09
2.80E-01 8,18E-02 2.611-02 8.381103 2.21E.03 7,75E-04 2,53E-04 1.03E.04 3,43E-05 8.581-06 1.30E-06 2.161-07 4,74E-08 9,30E-09 9.83E-10 7.
EG
El
15 17
2.58E.02 l,SOE-02 8,33E-03 3.44E.03 1,29E-03 S.POE-04 Z.lSE-04 7;A~E.OS 3.26E-OS I;34E-05
7.39E 3.871 1.67E 5.28E.01 I.47E.01 4,62E-02 1,46E-02 3,74E-03
b.SJE-06 2,74E-06 P.IOE-07
1;61E-04 5.201-05 l.PLE-OS
2;1OE-07 5.37E-08
l;?b;-06
20
25 32 40 SO 65 00 100 120
150 200 300 450 6sP 1000 2000
+ .lbE-08 5.61E-09 I .2?E-09
=
9.79E 4,03E l,Z?E 2.6lE 4.52E 9.33E 1.93E 3.07E 7,23E-O( 1.55E.01 4,4SE-02 9.88E-03 1,47E-03 l.llE-04
1,32E-07 6.291-09 SHELL
L3
I, 28E-03 4.O(IE-04
2,8lE-07 fl,lJE-08 1.29E-08 1.81E-09
04
6;25E-02
1.5sE 2.8IE 7.248 1.69E 5,lbE 1,22E 1.98E l.bbE-ul
04 03 02 02 01 01 00
3.43E-02 1 .?I 9.968-03 5.621-03
03
6:44E
02
2;3SE 5.86E
02 01
i.ZbE
0,
3.15E 7,84E-01 1,54E-01 4.24E-02 l.O7E-02 3;48E-03 8,9OE-04 1,57E-04 1.456-05 l.sOE-06 2:23E-07 3;16E-08 2.?OE-09
0"
1.79E 7,32E 2.28E 4,blE 7,82E 1,57E 3,I7E 4.82E 1.09E
2,22E-Ol b.O7E-02 l.PbE-02 1,69E-03 l.O7E-04 7.671-06 8.321-07 8,19E-08 4,34E-09
2,28E-OI T.lSE-O(
03
3.73E 2;OlE 0,bJE 3.45E 1;52E
01 01 00 00 00
?.84E 8.6SE 3.08E 9.9gE 3;58E 1.31E 4.07E
03 02 02 01 01 01 00
?.64E
00
2,66E.O? l.LIE-01 5,95E-02 3,2lE-02 1,53E-02
3.556-03 2.04E-03
1.661-02 2.541.03 3.88E.04
1.591-04 7.33E.05 3.14E.05
5.33E.04 1.97E.04 6.7SE.05
3,88E-OS
9.242.06 1,88E-06
1,5lE-OS 2.52E.06
1.731.03
=2,29OOE-01
06
7,59E-02
7.49E 2.99E
05 OS
5.3lE.02 3.346.02
It2
8.06E
04
1 .TPE-02
1,79E 4.46E 1.0&E
04 03 03
9,OOE.03 4.698-03
5,STE 3,28E 1.73E 7.31E.01 2,86E-01 1,24E*01
2.661-03
5.49b02
Z.OIE
02
5.27E 1.24.5 3.84E 9,2OE-01
01 01 00
1,34E-03 7.778.04 4.382-04 2.77E.04 1,598.04
2,13E-02 l.OZE-02 4.73E.03 2.54E.OS l.ZlE-03 4,76E-04 l.JbE.04 4.+7E-05 1;54E-OS
1,50E-01
7.91s.05
1.27E-02 t.L8E-03 r;wa-or 3.03E-OS 3.028-06
3.061-05 1.24E.05 5;72E-06 2,446.06 7.20%-07
=1,6SOOE-01
"5 04
3,706
04 04 03
l.lOE
2.8SE 8;49E 2,SSE
02 02
6,27E
01
2,1OE
01
6,24E-01 Z.BIE-01 l.llE.01 3,55E-02 ?.42E-03
b.57E
00
2.59E 8,4SE-01 2.08E'O( 3.37Er02
00
1,72E-03 3.08E-04 (,39E-04 2,37E-OS 2,83E-06
5.53E.03 1,30E-03 2.83E-04 3;68ErOS 3.42~~06
9.45E 4.37E 1.59E 3.92E 8.26E 2;iZE 4.98E 9.7lE 2.7OE 6.96E 2.34E 6.31E 1.22E 1.36E-01 1,77E-02 3,29E-03 5.7OE-04
06 06 06 05 04 04 03 02 02 01 01 00 00
5i636-05 4.128-06
3,42E 1.8SE 8,361 2.8SE 8.8OE 3,09E f.llE 3.37E.01 1.34E..01 S.OSE-02 2.3lE-02
02 02 01 01 00 00 00
5.271.06
1.098.05 1,8SE-06
2.16E 1,OLE 4.03E l.llE 2.72E 7,75E 2.24E 5.36~
04 04 03 03 02 03 01 00
1,lbE
00
s.LZE-01 2,llE.01
9.07E-03 2.81E.03 5.85E-04 1.3SE.04 3;w.os
l;lTE-06
n5
WI
M3 00 00 00
6,831*02 1.67Er02 2,SPE.03 4.36E.04
l;OZi.04 2.221.05 2.87E.06
1.38E 5.88E 1.96E 4.37E 8.47E 1.95E 4.59E 8.58E 2;33E 5.86E 1.94E 5,17E-01 9.968-02 l.OPE-02 1.4OE-03 2;6OE-04 4.4aB-05 4.4qE.06
06 05 05 04 03 03 02 01 01 00 00
KEV Wl
07 06 06 05 04 03 02 01 01 00
m
7.76E 8.951
KEV WI
1.48E
EB
112
3,OOE-03 2,00E*03
4.23E 2.22E 9.62E 3.04E 8,SOE-01 2.68E.01 8,49E-02 2,2OE-02 7.6lE.03 P.L4E-03 0,72E-04 3.18E-04 7,68E-OS 1.09E.05 ,.68E-06 3;342.07
4,71E-02
5,708.04 I.SSE-04 1.23E-04 5.925.0s 2,51E-05 1,27E-05 6.146-06
1,66E-02 6,4SE-03 2.SlE.03 8.29E.04
3,4bE-04 1.3bE.04 6,JIE.OS 2.531-05
3.396-06 1.651-06 6.32E-07 ;A;',-;; . 1;68E-08 4.83Ew09 7.52E.10
M3
‘.08E-0, 2.4lE.01 1 .ZIE-Ol
1,18E-03
7;8OE-06 l.SLE-06 3.ZOE-07 s;i6E.o8 1.79E.08 1.94E.09
-
-1,640OE.Ol
n4 01 01 00 00
3,87E l,b(E 6.7SE 1.74E 3.86E 9,931 2.56E 5.221-01 1.49E.01 3.928.02 1,33E-02 3.58E.03 6.798-04 6.98E.03 7.971-06
*5 03 03 02 02 01 00 00
05 OS 04 03 03 02 01 01 00
I .69E-01 3.7bE-02 5;61E-03 4.17E-04 3;54E-OS 4;34E-06 4,49E-07 1 .&BE-00
1;24;-06
5.676-08
1,6SE-07 9.34E.09
4.42E-09
3.28E 1;37E 4.40E Q.22E 1.63E 3.42E 7.17E l.lsE 2.73E 5,88E-01
KEV
ES OS 04 04 03 02 02 01 00 00
3.28E
6,76E-01 E-02
w4
0,
6.06E.03
9,03E 3.7bE l.OZE 1.70E 2.35E 3.931 6,621 8.2SE 1,blE Z,.SlE 6.87E-01 1,25E-01 1.46E.02 7.901104 S.O4E-05 4;94E-06 4.15E-07 1,40E-08
113
6,OSE
l ,OEE-03 3.93E-04
E4
1.4OE
P,60E-01 6,77E-01
ES 04 04 04 03 02 01 01 00
9.59E-06 l;ZlE-06
E3 00 00 00
6;52E
El 02 02 02 0, 00 00
16
E2
4,2bE-01
EB
SHELL
L2
07 07 Ob 06 OS
ES 04 04 03 03 02 02 0, 01 00 00
2 < 30
YEV
2.67E 1.30E 4,94E 1.27E 2.7OE
EB
SHELL
L2
00 I41
3.401-06
3.49E 1.89E 8).38E 2.64E 7.08E Z,lOE 6.1lE 1.4IE 4.38E 1.24E 4,46E-01 l*ZIE-01 2.628-02 3,03E-03 4.03E-04 7;79E-05 l.SOE-05 1.97E.06
9.72E-01 3,59E-01 l.ZZE-01 S;lOE.02 1.75E-02 4.SlE.03 I.OSE-04 l.ZSE-04 3;OYE-o5 7,34E-06 l.PIE-06
E2 3.96E 2.09E 9.08E-01
05 OS 05 04 04 03 02 02 07 Ot 00 00
E4 02 02 02 01 01 00 00
=2.4?EoF ES
1.931-04 2,53E-05 2.83E.06
lb
8,OOE 4.69E 2.3lE 8.54E 2.761 0,7SE
2,8OE-02 1.15E.02 S.S4E-03 2,28E-03 7,36E-04 1.576-04 3.698-05 1.13E.05 3.481-06 7.991-07
El
q .34E-02
5,?5E 3.04E I.31E 3.97E 1.03E Z.PPR 1.55E 1.94E 5.94E 1.67E 5.95E 1,IOE 3.44E.01 3,948.02 5.21E-03
E3 01 01 00 00 00
EB
1 .OOE-03
7. = 16 EG
SHELL
Conversion,
Conversion Coefficients
E4
2,33E-06
E2 1.74E l.lIE 6.09E 2.64~ I.03E 4,33E-01 1 .dlE-01
YI E3
2 EG
ii
E2
Internal
hternal
Ml
1.87E 6;alE
07 01
1.43E-03 9.628-04
1.83E 2.998 4,03E 6,58E 1.07E 1.28E 2.38E 3.951 9,16E-01
06 OS 04 03 03 02 01 00
5.746-04
112
2.82E-04 1.28E.04 6.27E-05 3.07E.05 1,33E-OS
3;32E-01 1.52E.01 5,26E=02 1.64E.02 5,76E-03 2.04E.03 6,12E-04
6,85E-06
2.38E.04
3.381-06 1.901-06
8.711-05 3,87E-OS 1,45E-05 4,17E-06
I .55E-01
9.491-07
1.61E.02 7;19E-04 3.68E-OS 2,9PE-ob 2.171-07 7,4bE-09
3.938-07 l.l8E-07 3.741-011
I .42E-08 5,06E-09 1.24E-09
n3
b.ObE-01
n4
1.4rE 6.681 2.54E 6.83E 1;62E 4.46E.01 1,24E-01 2,82E-02 8,8OE-03 2.561-03 P.CIE-04 Z.O(E.04 6,0bE-05 7.41E-06 9,83E-07 1,73E-07 2.671-08 2,34E-09
7,64E-07 I.sZE-07 3,92E-08 9,SlE.09 1,56E-09
02 01 01 00 00
w5
1.93E 8;OQE 2.63E 5.7OE
04 03 03 02
1;06E 2.36E
02 01
5.32E 9.391-01 2.4lEc01 5.70E-02 1,78E.02 4.351-03 7.3lE.04 6.371-05 b.I4E-06 8,lbE.07 8.991.08 4.32E-09
00
2.14E 7;96E 2.22E 3.8vE 5;74E ‘(.03E 1.89E 2.6lE 5.55E q.O?E 2,84E-01 5.72E-02 7.54E-03 4.758-04 3,40E-05 3.54%-06 2.9RE-07 9.051-09
06 OS OS 04 03 03 02 01 00 00
See page 438 for Explanation of Table
443
Atomic
Da+.
and
Nuclsor
Dato
Table.,
Vol.
18,
No.
4, Novsmber
,976
BAND,
El
EG 15 17 tc\ 25 32
40
so 65
80 (00 12" 150 20" 3"" 450 65"
1000 200" 6000
TRZHASKOVSKAYA,
I: 2
4.945
*o
3;411. 2,OIE 1,OSE k.93E-"1 2,46f-“1 l.ZZE-01 5,35E-02
00 00 "0
2,77f-02 1,378."2 7.67E-03
3;a”E-“3 1.556-03 k.S7E-"4 1;46E*Ob 5,83E-"5 2,33E-05 7.32~-06 l.(lbf-06
2.79E 1.76E 9.63E b.l‘F 1.6OE 6.69E 2.7aE 9.788-01 k.27E-01
02 "2 01 01 01 00 00
l;?SE-"? a.bZE-"2 3,47E-02 1,12E-02 2.38f.03 5,60E-Ok 1.73E-0‘ 5.32E-OS 1,22E-05 2,27E-06
El
15 17 2" 25 32 40 SC 65 8" 100 120 150 20" 30"
3.541.01
450 63" 1000 2000
2.46E-01 1,53E-"1 7.aSE-02 3.728-02 l.aaE-02 9,k2E-03 ‘,16E-"3 2,17E-"3 l."'?E-03 6;0bE-01 3,0"E-"4 1,23E-0‘ 3,6bE-05 ?.17E-OS 4,6bE-"6 l,R6E.06 5.86E."7
El
E2
15 17 20 2s 32 40 50 65 80 10" 12" 150 20" 30"
450 650 1000 200"
1.798-02 l.l"E.02 5,OSE.03 2.441-03 9,21E-"4 3,a"E-0‘ l.S6E-OL S.baE-OS 2,k"E.05 P.POE-06 4,(13E-06 2,02E-06
b,TOE-07 1,48E-07 3.541-08 l.OSE-01 2,87E-09 ‘.7OE-(0
S.‘SE 2;aaE l.PSE b,OlE-01 l.lbE-01 3.6bE-"2 ?.17E-02 3,l"E-03 1.091-03 3.571-01
00
00 00 00
a
El
E2 l.OlE 5.32E 2.3"E 7.281-01 2,03E-Vl 6.41E-02 2.02E-02 5.21E-03 1,79E-03 5,7"E-"4 2,25E-"4 7.29E-05 ,.Tbf-"s O;kaE-06 3,9sE-07 1).63E-08 1 .alE-08 2.53E.09
17
.
Ll
a
3,451 1.92E 8.67f 2,8@E 7.68E 2.3lE 6.83E 1,6OE 5.01E 7,‘bE 5,18E-0, l.SOE-07 3,09E-"2 3,6OE-03 4,151-04
17
l.SOE-02 b.aaE-05 1.25f.V3 2,2lE-Ok 2,ObE.Os 2.12E-"6 3,18E-"7 b.k6E-"a 3.aOE-09
4.78f-0‘ 1,93E-0‘ 0,86E-05 3,7(16-05 1,11f.05 2,23f-06
L3
SHELL
00
2.46E l.OlE 3.158 6.371 1.08E 2.19E b,‘lE 6.72E 1;32f 3.1Of-01 a.sZE-"2 1,77E-02 2.388-03 l.S?f-04 I .OOE-05 l.l8E-06 *.16E-07 6.1lE-"9
Z ( 30
5.55E.04
3,SOE.Ok I.OOE-Ok 9.958-05 3.ME-05 I.5511"5 7.11E.06 3,OJE.06 a.a6E-07
7.12E 4.33E 2.28E 9,56E-01 3,72E-01 1,6lE-01 7,OSE-"2 2.72E-02 T.302.02 5.99E-03 3,22E-03 1.52E.03 5.99E.06 1.70ErOb 5.21E.05 l.PZE-OS 6.SSE-06 l;bsE-"6
ES
“4 03 03 02 01 00 00
k,23E-06 3,07E-07
1 .OSf-“8
See page 438 for E.xplanatioi n of Table
444
” 4 03 03 "3 02 02 01 01 0" 00
7.63f-01 3,52f-01 1.39E.01 b;32E-02 Q."ZE-"3 2,"9E-03 6.16E-Ok 1.69E-Ok 2.866.OS 3,3aE-06
2,tOE 4.47E 1.331 3.40E l.O‘E 3,llE 7.6Sf 2.56~
05 05 04 "4 03 03 02 01 01
8.Olf
00
3,lSE l.03E 2.53E-"1 3.858-02 6,7"E-03 9,57E-03 3.‘3E-Ok b.bbE-05 b.lOE-06
00 00
l.“?f
1.09E 5.10E 1.87E 4.67E 9.92E 2.bbf 6.02E 1.18E 3.27E 8.bbE 2.abE 7.6SE 1;48E (,6SE-01 E,lkE-02
07 06 06 OS Ok 04 03 03 02 01 01 00 00
3.9&f-03 .5,90f-04 6,alE-05 4,9bf-"6
4.531 2,b‘E l.lOE 3.72E 1.1bE 3.99E (.42E ‘.3OE-01 1.7"E-01 b.J?E-02 2.92E.02 l.lkE-02 3.5bE-03 7,33E-Ok 1;69E-Ok ‘.97E-OS
nr
I44
HJ 00 00 00
02 "2 02 01 01 00 0"
2.85f 1.361 5;27E 1.451 3.52E 9.97E 2.a7E 6.a2E 2.23E 6.a6E.01 2.67E-"1 0,60E-"2 2,09E-02 3,lsE-03 5.45E.O‘ 1;27E-0‘ 2.761-05 3;571-06
Ok 04 03 "3 02 01 01 00 00
01 01 01 00 0"
5.29E 2,‘aE 9,28E 2,bOE 5.36E 1.38E 3.57f 7.3lE-01 2.lOE-Or 5.531-02 l,aOE-02 5,07E-03 9.6SE-04 9.961-05 l.lbE-OS 1,7aE-06 2,37E-07 l.SSE-00
03 03 02 02
1,36E-05 2.3Of-06
1.8"E
06
7.b8E
OS
2;55E 5.67E 1.09E 2,SlE 5.17E 1.09E 2.95E 7,LlE 2.45E 6.SOE.01 t.ZbE-01 1;36E-02 1.751-03 3,2bE-Ok S.SaE-05 5;4aE-06
05 04 0‘ 03 02 02 0, 00 00
4.45E $.d6E 6.O"E 1.26E 2.2SE C.73E 9.96E 1,4lE 3.a2E 8.2sE-01 2;39E-01 5.32E-02 7;9kE-03
05 05 04 Ok "3 02 01 01 00
r(3
b,lPE-03 2.796-03 1,6SE-03 8,OOE.Ok 3.SaE-0‘ ,.73E-0‘ a.3sE-05 3,SSE.05 1 .OOE-05 a;72E-"6 i;a3E-06 2.351-06 9;3lE-07 L.SaE-07 7,32E-"8 2,62E-08 6,92E-09 l,OaE-09
5.69E.01 3,36E-01 1.69E.01 6,6OE-"2 2,33E-02 9,07E-03 3,5&E-"3 1,?7E-03 4.9OE.O‘ 1.93E.O‘ 9,0‘E-05 3,6OE-"5 l.l?E-05 2.208.06 ‘,59E.O7 l.llE-07 P,SaE-06 2.796-09
5.85E 3,OaE q.33f b.23E l.lPE 3.76E.01 l.lPE-01 3.lOE-02 l.O7E-"2 3.56E-03 ?.3aE-03 ‘.SIE-0‘ l."9E-0‘ 3,56E-"5 2.4lE-06 4.t.OE-07 I.lOE-08 6,3aE-09
01 01 "0
5.9bf.O‘ S.O6E-05 6,22E-06 6,‘7E-07 2.7lE-08
KEU Hl
07 06 06 05
b.ObE 2.27E l."?E 3.8lE 1,ZZE b.42E 1.6lE s.OOE 2.01E
KEV HI
"7 06 06 OS 04 "3 "2 02 01 "0
01 01 01 01 00 "0
ML
P.VOE-02 6,9lE-02 4,3‘E-02 2,3lF-02 1,16E-02 6.2aE.03 5.43E-03 1.7OE.03 P.L18f-Ok
=2.0000E-01
2.551 9;28E 2.5OE c.rre f.SSE 9.09E 1.49E 1.7aE 3;32E 5.52E 1,28E 2.178-01 2,27E-02 l.OlE-03 s.Z"E-05
0,
7.648 4.7lE 2.53E 1,OPE 4.3lE l.aPE 8,39E-01 3,2aE-0, 1.58E.01 7;326-02 3,VbE.02 l.aaE-02 7,bOE-03 t.llE-03 6,57E-Ok 2.3aE-Ok 8,16E-05 1,8lE-OS 2,76E-06
KEV
=2,0200E-01
1,bOE 5,lSE 1.401 2.35E 3.251 5.46f 9,238 1,15E 2.2SE 3.96~ 9;69E-"l ?.77E-01 2;07E-02 l.l3E-03 7,2OE-OS 7,OaE-"6 5,97E-07 2,OZE.08 Ea
"5 OS "4 03 03 02 01 00 00
Conversion,
Y 3
M2 0"
Ill 06 05 05 Ok Ok 03 03 "2 "'I 01 00 00
ES
Eb 03 "2 "2 01 VI "0
=2,7000E-O(
1.378 7.17E 2,96E 8,2SE 1.89E 4.8lE 1,lPE 2.2SE 5.9‘E 1.42E ‘.‘?E 1.07E 1.7SE.01 l.SlE-02 1,53E-"3 2.3aE-Ok 3,69E-OS 3.721-06 EE
"5 Ok Ok 03 02 02 01 00 00
1.23E 9.5661"1 5,38E-01 2.86f 1 .bbE-01 7.808-02 4.261-02 2,?2E-02 1,23E-02 6.92.5-03 4,36f-03 2.sOE-03 1.2‘E-03
1;93E-02 2.98E-05 b,60E-04 ‘.63f-05 b.O7E-06
ES 04 04 03 03 02 02 01 "1 0" 00
SHELL
1.35E 5.56E 1.76E 3.62E 6.3"E 1.3"E 2.71f 4.3lE 1.02E 2,laE.01 6.3OE-02 Y.hOE-02 2,09E-03 l.sUE-Ok 1,37E-05 1,74E-06 1,90E-07 9,05E-09
117 17 06 06 OS "4 04 "3 02 02 01 01 00
1 .PZf-OT
El 03 02 02 01 01 00
hl
2.56f 1.2OE 4.93E 1.3"E 2.83E 6.95E 1.67E 3.08E 8,"lE 1,88E S.aOE 1.39E 2;26E
EB
2,bPE-06 L2
1.93E a.9OE 3.2SE a;l3E 1.7SE 4.38E 1.09E P.lSE-07 5.931-02
SHELL
9.43f.05 ,.83f-"5
E3 01 00 00
F5 05 05 05 Ok 04 03 02 02 01 "i 00 0"
Internal
Conversion Coefficients
fb 02 02 02 01 01 01 00 00
(7
l.OSE k;aVE r.soe 4.588 i.oie 2.57E 6.61E-"1 1,35E-01 3,aSE.02 l.OZE-02 3,b6E-03 9.391-00 1,8lE-0‘ 1.91E.05 2,2aE-06 J.ISE-07 S,‘qE.OI 3,7bE-09
1,33f-08 l.‘lE-09
3,‘2E-"2 B.l"E.02 ,,,,E-"2 4,63E-"3 ,.7&f-03 7.?bE-Ok 2.93E-"4 l.OlE-"1 C.baE-05 1,3SE-"5 9.031-06 3.a"E-06 q.271106 2,93E-07 7,s"E-"a
5.73E 3.oe.i 1,SsE 4,18S 1,llF 3.255 9.39E 2.lSf 6.668 1;89E 6.7SE 1.9‘E 3,96E-"1 ‘.57E-02 6.108-03 l.l8f-03 2,2VE-Ok 3,02E-05 3,37E-"6
EJ
2
Z.bbE-08 7.8sE-09 1,7aE-09
li86E 7.731-01 2.661-01 b.OLE-02 l."TE-02
(L,cBc 4.991 2.49E 9.361 3.OaE 1,lOE 3.a7E 1.12E 4,16E-"1 1.S3E.07 s.PPE-02 2."7E-02 5.36E.03 a,bSE-Ok l.SOE-Ok 3.678.05 8.968-06 l.S6E-06
6.761-08
15 17 2" 25 32 40 50 65 80 ?OO 12" IS0 20" 30" 450 650 1000 2000
Eb Ok 03 03 03 "2 02 01 01 "0
E3 "1 01 00 00 00
l.k‘E-Ok ‘.akE-05 1.2lE-"5 1.8kE-"6 3.OaE.07
EG
F3
k.t."E-Ok l.lZE-04 1.9bE."5 2,7aE-06
2 EG
Internal
1.29f 7.5"f 3.67E 1.3kE 4.29E 1.5lE 5.22E 1.48E 5.468
E2 1.92E 1.23E 6.82E 2.99E q.laE S.OOE-01 2,lOE-01 7,49E-02 3,29E-02 1.36E-02 6,SaE-03 2.728-03 I.aZE-Ok 1.89E-Ok 4.471105 *.3aE-05 4.261-06 9.78f-07
TABLE.
l.UVf-03
2 EG
and LISTENGARTEN
',.97E-03 1;32E-03 T.P"E-Ok 3,a9E-Ok l.TIE-V‘ 0,6tlf-05 ‘.26E-05 l.aSE-OS 9;sbE-06 4.7lE-06 2.668-06 1.33E-06 5,sOE-07 1,65E-07 S.tSE-08 1,99E-VC 7."PE-VP l.T‘E-09
I(2
13
P.OSF-01 4.9.E..01 2,26E-01 7,78E-02 Z.k?E-02 8,b6E-"3 2,99E-03 a.PlE-04 3;kSE-04 1.26E.O‘ S.S(IE-05 2,"8E-05 5.99E.06 r;OPE-06 2,17E-07 9,SSE-08 1.3kE.Oa 2.19E.09
2.16E 1.02E 3.861 *.03E 2.43E 0,66E-"1 l.aSE-01 k.(7E-02 ?.IOE-02 3.75E-03 +.38E-03 ‘.lOE-Ok a.a3E-OS 1.07E.OS ,.42E-"6 2.49fr"T 3.a,E-"a 3.30Ec09
I(4 02 02 01 Ot 0"
2.9SE 1.23E 3.991 1.60E 1.59E 3.53E 7.9lE
1.39f 3;57E-01 a,40f-02 2.61E-"2
6.371-03 1.078-03 9,26E-"5 I.POE-"6 l.l.sE-06 ,.ZPE-07 6.13E-09
115 Ok 0‘ 03 02 02 09 00 00
3.2SE l.Zlf 5.361 s.asE S.60E 1.54E 2.8YE 3.a7E 8.19E l.saE b.l7E-01 a;37E-02 l.lOE-02 6,92E-0‘ 4.9‘E-OS 5.12E-"6 4;29E-07
l.ZPf-oa
06 "6 05 OL 03 03 02 01 00 0"
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 EC 15 17 2 P 25 32 40 50 65 80 ion 120 150 200 300 450
650 1000 2000 6000
5.536 3;alE 2.34E 1.19E 5,6OE-01 2,81E-01 ,.40E-01 6.?5E-02 3;19E.n2 1,5aE-02 8,8aE-03 4,4fE-03 l.aOE.03 5,34E-04 1.721-04
6.851-05 2;?3E-05 4.60E-06 2.158-06
17 20 25 32 40 50 65 an 100 12n 150 200 300 450
650 1000 2000
00 no 00 "0
2.99E 1;91a 1.05E 4.558 1.78E 7.4aE 3.17E l.llE 4.851-01 2,00E-01 9,66E-02 3.99E-02 ?.29E-02 2.7bE.03 6.54E-04 2,03E-04 6,26E-05 1.44E-05 2,67E-06
El 4,03E-01 Z.L)lE-ol 1,75E-03 9.036-02 4.3oE.02 2.1aE.02 *.'1OE-02 4.878-03 2,55E-03 1,27E-03 7,15E-04 3,5bE-04 l.IbE-04 4,35E-05 1,40E-05
5.blE.06 2.24E-06 7,05E-07
2.09E 1.35E 7.53E 3.34E 1,33E 5,69E-01 2,4lE-01
2,33E-02 t.446.02 7.601-03 3.221103 1,22E-03
02 02 02 01 01 00 00 00
5,0bE-04 2,OPE-04 ?.37E-05 3.241-05 1,34E-05
6.56Er06
650 Inod 2000
6.631-10
01 01 00 00 00
8.64E-02
2.25E-84 5,34E-05 1,6bE-05 5.141-06
* .le.E-06
15 17 20 25 32 40 50 65 80
ion 120 150 200 300 450 65n ,000 2000
El 4.43E-02 2;738.02 1.46E-n2 6.0”8-03 2,30E-03 9,4aE-04 3,9oE-04 1.37E-n4 6.01E-05 2;49E-05 l.ZZE-05 5.14E.06 1.73E.06 3.998-07 l.O2E-07 3.3bE.Oa 1.07E.08 2,43E-09
02 01
1.bbE
ni
6.13E 2.lOE .5,77E-01 3.03E-01 7.028-02 1.236102 2.201-03 5,38E-04 1.321.04 2.30E-05 3,27E-06
"0 00
.
18
00 00 00
6,68E-05
5.2lE 2.64E l.OlE 3.37E 1.22E 4,35E 1.27E 4.7bE-01 l;(rSE-Ol 6.93E-02 2,4lE-02 6,28E-03 9.991-04 1.791-04 4,40E-05 l.nIE-05 1,19E-06
02 02 02 01 01 00 00
3.34E l.aPE a.78E 2.9lE a,lIIE 2.51E 7.5lE I.7111 5.64s 1;bJE 5.93E-01 1,73E-01
L2
03
6.621
02
2.45E 6.23E 1.37E 3.52E 9,05E-01 1.85E.01 5.3lE.02 1.40G.n2 4,78E-03 1.30E.03 2,5lE-04 2,6bE-05
02 01 01 00
1,72E-03 3.04E-04 2,8,E-05 2.921-06 4.38E-07 6,14E-08 5.2lE-09
04 04 03 03 02 02 01 01 00 on
SHELL
1.8lE 7,498 2.37E 4.9OE a.56E 1.78E 3.7OE 5.91E 1.4OE 3.01E-01 a,bPE-02 1,94E-02 2.91E-03 2.20E-04 1.928-05
I.3
6;bLE 2,85E 8.25E 1.9bE 5.08E 1,ZaE 2,46E 6.60E
SHELL
3.29E 1.35E 4.23E a.58E 1.47E 2.96E 5,PPE 9.16E 2;OaE 4,25E-01 ,.17E-01 2.42E-02 3.27E.03 E.OaE-04 1.50E-05 1.621-06 1,60E-07 8,41E-09
05 04 04 03 03 02 01 01
5.5bE.02
07 06 06 05 04
7,41E 1.2bE 1.5RE 3.09E 5.448 1.33E 2.451-01 2,87E-02 1.57E.03 l.OlE.04 9.92%.06 ll.38E-07 Z.USE-08
03 03 02 01 00 00
ER
=2.45OOE-01
2.161-05 3,25E-06
4.91E 2.7bE i.3nE 4.6SE l.LPE 5.39E 1.9bE 6.07E 2.43E 9.25C-01 4.256-01 1.67E-01 5.2lE.02 l.OVE-02 2,5lE-03 7.398-04 2.02E-04 3;42E-05 4,00E-06
HZ 9.32E 5;64E 2.9bE 1,ZSE 4,7bE-01 2.05E.Ol a,94E-02 3.441-02 1.64E.02 7,5lE-03 4.02E.03 l.POE-03 7.43E-04 2;(OE-04 6.43E.05 2,3bE-05 0,04E-06 1.778-06
2.95Er02 1.471-02 7.95E.03 4.331-03 2.14E-03 I.241103 6.956-04
4.3bE-04 2.498-04 l.ZSE-04 4,74E-05 l.PlE-05
8,72E-06 3.701-06 l.OL)E-06
03 03 07 02
02 01 01 00 00
n5
2.46E 1.27E 5.3YE 1.59E 4.10E 1.25E 3.75E 9.23E S.OIE
05 05 04 04 03 OS 02 01 01
9.651
00
3,79E 1.24E 3,04E-Oq 4,62E-02 8,04E-03 l.OllE-03 4.lOE-04 5,31E-05 4.866-06
00 00
7.238 5.82E 2.?7E 5.48E 1.17E 2.9OE 7.2OE 1.4lE 3.93E Y.01E 3.40E 9.j8E 1.7aE l.P?E-01 2.57E-02 4,77E-03 8.271-04 8.14E-05 5.aPE-06
07 06 06 05 05 04 03 03 02 02 01 00 00
“3 00 00 00 00
5.91E 3.17E 1.42E 4;73E 1.46E 5;08E 1.8OE 5.42E-01 2,13E-01 S.OOE-02 3.64E.02 1,42E-02 4,39E-03 9,07E-04 2.09E.04 6.12E-05 (.b'IE.OS 2,8lE-06
114
n5
02 02 02 01 01 00 00
3.70E 1.77E 6.80~ 1.8bE 4.49E 1;27E 3.64E 8.59E 2.8OE 8.57E-Of 3;32E-01 l.OTE-01 2,59E-02 3,89E-03 6.72E-04 1;57E-04 3.40E-05 4;37E-01
04 04 03 03 02 02 01 00 00
01 ol 01 00 00
?.ObE
03
3,321 1.25E 3.23E 7.26E 1.08E 4.87E l.OOE 2,88E-O( 7.62~.02 2,59E-02 7.02E.03 1,34E-03 1.39E-04
03 03 02 01 01 00 00
2.33E
06
9.89E 3.27E 7.25E 1.39E 3.18E 7.4qE 1.37E 3.69E 9.25E 3.05E -3.07E-01 1,54E-01 ?.67E-02 2.16E-03 3.9&E-04 6.86E-05 6,72E-06
05 05 04 04 03 02 02 01 00 00
KEV n2
5,7lE-03 3,82E-03 2.265-03 l.lOE-03 4,92E-04 2.38E-04 1.15E.04 4.918-05 2.50E.05 1.2lE.05 6.708.06
II3
7.i'CE.ol 4,51)E-01 2,JlE.01 9.03E.02 3.19E..02
?.IBE 4,lbE l.(IlE 5.751 1.62E 5,14E-01 1.63E-01 4,26E-02 1.48E-02 4;77E-03 l.PqE-03 6.261-04 1;52E-04 E.laE-05
1;25E-02 C.B7E-03 1 ,bPE.03 6,78E.04 2,47E-04 1,25E-04 5.0lE-05 1;55E-05 3.0.5E-06
3.261-06 1,3OE-06 3.601-07 l.OZE-07 3.391-08 9.711-09 1;5lEr09
6.44E.07
ll4
3.378-06 6,74E-07 l.l5E-07 8.991-09
1.658-07 3.62E-08 3;93E.09
Ft5 5.118E 2.47E 7.99E
05 05 04
1.69E
04
3.03E 6.39E 1.35E 2.19E 5.22E 1.13E 3.2aE-01 7.338-02 l.lOE-02
03 02 02 01 00 00
8.2bE-04 ‘I.ObE-05 a,7lE-06 P.OaE-07 3.1128.08
1;59E-05
2,50E-06 3,33E-07 l.POE-Oa
KE" Ml
07 07 06 05 04 04 03 02 01 00 00
?sL
n3 01 0, 01 01 00 00 00
9,761-O)
n1
1.87E 6.88f 1.88E 3.16E 4.39E
3.38E 1.23E 3.33E 5;50E 7.47E 1.23E 2,01E 2.4lE 4;52E 7).S2E 1.75E 2.978-01 S.llE-02 l,39E-03 7,16E-05 5.85E-06 4,25E-G7 1,45E-OR
00 no
8;a6E.O2
=2,4700E-01
ES 05 05 04 03 03 02 01 00 00
a2 9,5bE 5,498 3.15E 1.35E 5.33E 2.33E 1.03E 4,02E-Ol 1,93E-Ol a.PlE-02 4,79E-02 2,27E-02 I.PLE-03 2.541-03 7,78E.04 2.861-04
KE"
1.27E-01
E5 05 04 04 03 02 02 01 00 00
1.54E 1.07E 6,7lE-01 3,5bE-01 1.701-01 9,63E-02 5,24E-02 2,6OE-02 1.50E.02 8.448103 5.3OE.03 3,03E-03 1.50E-03 5;77E.O4 2.32E-04 1;06E-04 4.50E.05 1.31E-05 2.611-06
06 05
1.59E 00 4.991 1.22E 00 2,02E-01 1 .7bE-02 l.L)lE-03 2.04E-04 4,44E-05
Z < 30
KEV
tll
1.22E
ER
EC 03 03 02 02 01 00 00
00
=3,2000E-01
4,5lE-06
2.67E.07 ,.27E-01
E3
4.691-03
02 02 01 01 00
E5
2;43E-06
7.5
2.6lE 1,ZOE 4.79E 1,lOE 2.3.3E 5.9bE 1.49E 2.93E-01 8).llE-02 2,05E-02
8.761 2,08E 6.451 1.55E 2.551 2;IPE.01 2.23E-02 3,47E-03 5,40E-04 5,4OE-05 4,8lE-06
E4
S.laE-06 5,25E-07 7,59E-Oa 5.25E.09
01 00 00
01 07 06 66 05 04 04 03
Conversion,
Coefficients
Ill
2.39E l.ZlE 4.83E 1.3lE 2.92E ?.3lE 1.78E 3.33E
Ea
4,23E-03 5,74E-04 1,13E-04 2,2lE-05 2.941-06
1.43E
I
05 05 05 06 0‘ 03 03 02 01 01 00 00
3,bOE-02
111
E2
=3,2030E t5
E4 02
*
ER
SHELL
E3
1,6aE-05 2.5bE-06 4,29E-07 9.43E-08 1.85E-08 1,96E-09
1.36E 7.15E 3.lOE 9.8lE-01 2.75E.01 0.6aE-02 2.74E-02 7,09E-03 2.441-03 7.778-04 3,07E-04 9.97E-05 2.39E-05 3,4nE-06 5.431-07 l,lOE-07 2.481-08 3,47E-09
2.36E 7.7BE 2.11E 7.5I)E 2.19E 4,5OE-01 5,24E-02 7,06E-03 1.3.5E-03 2,69E-0‘ 3.571-05 3,9RE-06 Ll
0.64E
E2
2 EG
1.65E 5,77E
5.6nE 3;07F. 1.37E 4;34c 1.17E 3.49E 1,OZE
E3
3.82E-02 1.58E-02 7.7TE-03 3,2OE-03 1.04E.v03
7.34E 3.88E 1.49E 5.43E.Oq (.54E-O( 4.951-02 1.60E.02 4.248-03 l.CPE-03 4.9nE-04 l,PVE-04
SHELL
Conversion
F4 0‘ 03 03 03 02
E2
El
2.758-06 9,16E-07 2.041.07 4.84E-0.5 1,46E-08 3,97E-09
450
Kl
1.32E 7:78E 3..56E 1;43E 4.65E
2 EG 15 17 20 25 32 40 50 65 an 100 120 150 200 300
I* E3
2 EC 15
I
FZ
Internal
Internal
2.64E.03 (.llE-03 1 .06E-03 5;24E-04 2.39E-04 1;17E-04 5,77E-05 2.51E-o5 1;30E-05 6,42E-06 3.63E-06 l.IlE-06 7,52E-07 2.26E-07 7,18E-08 2.735-08 9.70E-09 2,37E-09
Hi? 1.32E 7.(aE-01 3.28E.01 l.l2E-01 3.47E.02 l.ZlE-02 4,27E-03 1.271-03 4,90E-04 1,78E-04 7.871105 2,93E-05
M3 00
3.2lE 1.5lE 5.7lE 1.52E 3.55E 9.70E-01
n4 02 02 01 01 00
2.688-01 6;OlE.02 1,87E-02 5,3RE-03 1.97E-03 5.85E-04 1.258-04 1,52E-05 2,00E-06 3,49E-07 5,3lE-08 4.54E-09
8,4OE-06 1,521.06 3,OlE.07 7.68E.08 1,65E-08 3.001-09
4.39E 1.83E 5.9lE 1.27E 2.34E 5.14E 1,lSE 2,OlE 5,lLE.01 l,ZlE.O( 3.748-02 O.lqE-03 1.521-03 1,32E-04 1.26E-05 1.661-06 1.818-07 11,5lE-09
0‘ 04 03 03 02 01 01 00
4.alE 1.7aE 4.94E 8.5aE T.PbE 2.24E 4.07E 5.5aE 1.18E 2.27E 5.9aE-01 l.ZoE-01 1;57E.O2 9,(14E.04 7.0lE.05 7.256-06 6.05E-07 l.GOE-00
06 06 05 04 04 03 02 01 01 00
See page 438 for Explanation of Table
445
Atomic
Data
.md
Nuclsor
Dota
TabIs,,
Vol.
la,
No.
5. November
1976
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2
=
15 17 20 25 32 40 50 65 a0 100 120 150 200 300 450 650 1000 2000 6000
6.15E 4.25E 2.62E 1.34E 6.3lE.01 3.178-01 ,.59E-01 7,OOE.02 3.65E.02 I;alE.nZ I.02E.02 5.07E.03 Z;oaE.Ol 6,laE-04 1.99E.04 7.97E.05 3.196.05 l.OOE-05 2,49E-06
EG
El
00 00 00 00
3,18E 2.O‘E 1;13E 4,97E 1.95E a.29E 3.481 1;24E 5.47E-01 2.26E-01 7 .lOE-01 4.54E-02 1.4aE.02 3.18E-03 7;57E-04 2.35E-04 7,30E-05 1,6aE-05 3.lOE-06
4.531-01 3,16E-01 l.PaE-01 I,031101 4,93E-02 2.5IE.02 I,ZTE-02 5.651-03 2.97E-03 ,.41E-03 a;3?E-04 4.laE.04 1;73E-04 5.15E.05 1.676-05 6.6aE-01 2.678-06 II,IPE-07
"2 02 02 01 01 00 00 00
1.33E 7.988 4:OTE '1.5lE 4.99E 1.79E 6.32E r;a3E 6.alE 2;35E 9.852-01 3,42E-01 a.aeE-02 1.4lE.02 2;53E-03 6.231-04 1;53E.04 2.69E.05 3.82E-06
15 17 20 25 32 40 50 65 a0 100 120 150 200 300 450 650 '1000 2000
El
9.7OE 5.13E 2.241 7,2lE-01 Z.OSE-01 6.62E.02 2.lbE.02
9,73E-05 4,29E-05 1.7dE.05 8.746-06 3,68E-06 1,23E-06 2,74E-07 6.6lE.00 1.97E.oa 5.39E.09 9,OOE-I0
5;6IE-03 P.OIE-03 6,61E-04 2.69E.04 9,04E-05 2,20E-05 3,4aE-06 5.115E.07 1.29E.07 Z.SLE-oa 2,69E-09
01 01 00 00 00
I5 17 20 25 32 40 50 65 a0 100 ,2O 150 200 300 450 650 1000 2000
El 5,64E-02 3,49E-02 I,a6E-02 7.azE.03 2;97E-03 1,23E-03 5,09E-04 I.anE-04 7,911.05 3.29E.05 l;blE-05
6.62E-66 2;3OE-06 5,32E-07 1.37c.07 4.5IE.OI 1.44E-oa 3.25E.09
=
02 02 02 02 01 01 on 0"
3.15E I.a4E 6.75E 2.99E 8.6OE 2;69~ a.I6E 1.96E 6.2aE l.a3E 6,7IE-01 1.97E.01 4.131-02 4.92E.03 6.73E.04 1.33E.04 2,63E-05 3.522-06
LZ
I,90E 8,OZE 3.2t.E a.32E 1,841 4.721 1,22E
1.15E.01 3.65E.02 9.45P-03 3.25E.03 l.O4E-03 4,IZE.04 I.JLE-0‘ 3.2lE.05 4,5aE-06 7.328-07 1.60E-07 3,34E-08 4.66E.09
"3 02 02 0, 01 00 00
I9
2.40E 9.9lE 3.ISE 6.521 1.14E 2.3a.5 4.97E 7.96E i.a9e 4;07E-01 I.IIIE.01 2,63E-02 3.96E.03 3,OlE.04 2.63E.05 3,34E-06 3,67E-07 1,76E-08 L3
07
1.1J.E 4,bSE 1.30E 2.99E 7.6lE l.aPE 3.57E 9.49E 2;276 7,lOE 1.72E 2,BSE 2.47E-01 2;541-02 4.00E.03 6.2BE.04 6,43E-05 5,6bE-06
07 06 06 05 04 04 03 02 02 01 01 00
l.PlE 1.33E 8.3OE.01 4.391.01 2.19E.01 ? ,18E.01 6,bOE.OP 3,16E-02 1.82E.02 l;OZE.OZ 6.bOE.03 3.651-03 l,GOE-03 6.89E.04
KF"
04 04 03 03 02 02 01 01 00 00
.3,7700E.O,
06 05 05 04 34 03 03 02 01 01 00 00
SHELL
2.45E 9,03E 2.478 4.17E 5,a3E 9.87E 1.6aE 2.12E 4.15E 7.33E l.OOE 3,3lE-01 3.90E.02 2.14E.03 1,31E-04 1,36E-05 l.l5E-06 3.93E.Od EB
El 03 03 02 02 01
4.33E 1.7aE 5,59E 1.14E 1.95E
05 05 04 04 03
7,95E 1.99E 3.93E.01
00 00
3.9bE 7.996 I.221 2.7aE 5,7OE-01 1.57E-01 3.2t.E.02 b.ClE-03 Z.(IIE-04 2.021-05 Z.POE-06 2.161.07 1,13E-08
02 01 01 00
4.40E 1.6IE 4.37E 7.23E 9.a6E 1,62E 2.67E 3.2lE 6.03E 1,OlE 2.34E 3,99E-01 4,laE-oz l.aaE-03 9,61E-05 7.918-06 5.761-07 1.97E.08
l.ZOE 7.26~ 3.791 1.57E 6.0kE.OI 2.5aE.01 l.I2E-01 4,29E.O2 P.OLE-02 9.30E.03 4,97E-03 2.34E.03 9.13E.04 2.58E.04 7,05E.O5 2,aa2.05 9,75E-06 2,14E-06
2.84E ?.48E 6.248 1.89E 4;PaE 1.49E 4.4aE I.IOE 3.69E 1.15E 4.53E 1;4aE 3.62E.01 5,5lE-02
R5 05 05 04 04 03 03 02 02 01 01 00 00
1.36E 6.56E 2.486 6.35E 1;3aE 3.42E a.52G 1.67E 4.67E l.ZOE 4.042 1;OPE L.llE 2.34E-01 3.056-02 5.67E.03 9.alE.04 9.658-05 6.911-06
04 04 03 03 02 02 01 01 00 00
2.97E 1.26E 4.16E 9.17E 1.75E 3.991 9.25E 1;70E 4.57E 1;lbE 3.75E P,PlE-01 1,082.01 2.058-02 2.63E.03 4.051.04 a;341-05 a.l6E-06
7.64E 3.22E 1.05E 2.22E 4,OOE a,4aE I.aOE 2.93E 7.00E 1.52E 4.43E.01 9.92E.02 l.LPE-02 I.I3E-03 9.661-05 l.ZOE-05 1,25E-06 5,2aE-oa
9.57E.03 2.24E-03 4.LllE.04 6.29E-05 5,71E-06
tI3 01 00 00 00
7.62E 4.00E l.aZE 6.09E ?.(15E 6.40E 2.25E 6.75E.01 2.651-01 9.90E.02 4.50E-02 1.75E.02 5.3aE.03 l.lIE.03 2.556.04 7,46E.05 2.03E.05 3.40E.06
00
1.04E 5.52E 2.40E 7.67E 2;16E 6.a9E.01 2.2OE.01 5,75E.O2 2.00E.02 6.47E.05 2.59E.03 a;52t.04 Z.OaE-04 2.9aE.05 4.63E.06 9.2aE.07 1.59E.07 l.ZAE-08
HZ
7,65E-03 5.1IE.03 3.03E.03 1,47E-03 6.63E.04 3,22E-04 1.56E.04 6,651.05 3.39E.05 I.658105 9,13E-06 b.b5E-06 1.778-06 4.931-07 l.bIE-07 4.65E.01 1.34E.oa 2.07E.09
07 06 06 05 05 04 03 03 02 02 01 01 00
M4
R5
02 02 02 01 01 00 00
4.75E 2.26E a,AaE 2.361 5.67E 1.59E b.55E 1;07E 3.47E li06E 4,lOE-01 1.3lE.01 3,11E-02 4.761.03 a;I9E-04 I.PIE-04 4.13E.05 5.3OE.06
02 01 01 00 00
9.268
03
4.37E 1.6bE 4.2ae 9.65E 2,llE 6.522 1.34E 3,aaE-01 I.O3E-01 3,5lE-02 9.52E.03 l.azE-03 1,90E-04 2.19E.05 3.441-06 4,59E-07 2.63E-01
03 OS 02 01 01 00 00
02 02
6.42E 2.67E cl.511E 1.1)3E 3,361 7.36E I.6bE Z.OSE 7,27E-01 1,70E-01 5,27E-02 1 ,ZbE-02 2,13E-03 1.03E.04 1,75E-05 2,3OE-06 2.5OE.07 1.16E"Oa
06 06 05 04 04 03 02 02 01 01 00
1,03E 6,12E-01 3,lOE.OI 1.2IE.01 b.30E.02 1,68E-02 6.58~-03 2.19E.03 9,LOE.04 3.63E.04 l.TlE-04 6,(13E.O5 2.12E.05 4,ZPE.06 0.852-07 2.27%-07 4.996.01 5.42E.09
"3
14
M5 05 05 05 04 03 02 02 01 00 00
KE" w,
07 07 06 05 04 04 03 02 OI 01 00
03 03 03 02 02 01 01 00 00 00
YE"
=2.9400E.01 E5
n4
5.89E 3.32E 1.57E 5.62E l.IJiE 6.5lE 2;37E 7.32E 2.93E 1;llE 5.lOE-01 2,OlE.01 6.23E.02 I.3OE.02 2.99E.03 a.aoE-04 2;4OE.O4 4.Ot.E.05 b.68E.06
HZ
1.61E.01 l.lZE-01 7.031-02 3.72E.02 1.a56.02 9;96E-03 5.408-03 2,66E-03 1,54E-03 a.595.04 5.3aG-04 3.071.04 1;5lE-04 5,aOE-05 2,32E.05 I.O6E-05 4.471-06 1.29E.06
VI 07 06 06 05 04 03 03 02 01 00 00
n3 02 01 01 01 00 00 00
KEY
~2.9700E.01 ES
05 04 04 03 03 02 01 00 00
1,lIE 7.29E 3.89E l,b6E 6.53~ 2.a5E 1,26E b.aaE-01 2.3bE.OI 1.0aE.01 5.77E.02 2.?3E-02 1.07E.02 3,04E-03 9.28E.04 3.41E.04 7.16~.04 2.5bE.05 3.80~.06
*11
1.06E 5,99E 2,6LIE I.llE 1.99E 5;3OE 1.36E 2.67E 7.24E 1,77E 5,5dE I.371 2;3OE-01 2.031-02 Z.llE-03 3.34E.04 5,28E-05 5,ClE.06
EB
o* 00
2;76E-04 1.268.04 5.3lE.05 1.548-05 3.041-06
E5
3.458 I.59E 5,(13E 1.46E 3.17E
l.OPE-01 2.751-02 P.OOE-03 2.3lE.03 4.091104 3,aoE.oS 3.951-06 5,931.07 8,29E-oa I.OZE-09
2.2OE
EB
SHELL
e3 01 00 00 00
00
E4
2.49E.01 7,17E.O2 l,POE-02 6.48E.03 1.77E.03 3,4lE.04 3.641-05 4.366-06 7.208-07 1.041.07 7,23E-09 .
=5,6080F
** 05 05 05 04 04 03 03 02 01 01 00 00
SHELL
ES 00 00 00
EB
E4
I9
E2 1.79E 9.421 4,OPE 1.30E 3,641.01
5,LOE 3.01E 1.37E 4.456 1.23E 3.?OE l.lOE 2.576 8.09E 2.33E (1.43E 2,451 5.0aE.01 5.96E.02 a.loE-03 1.59E.03 3.13E.04 4.196-05 4.668-06 Ll
8.76E 5.36E 2.76E I.OIE 3.66E 1;3bE b.a3E 1,43E 5.3aE-07 1.801.01 7.93E-02 2.7a1.02 7;2aE.03 1.171103 2;llE.04 5.218-05 l.EOE-05 2.268-06
2 EG
04 “3 03 03 02 02 01 01 00 00
2 ( 30
Conversion Coefficients
E4
19
EL
2.97E-02 I,a4E.02 9.87E.03 4.16E.03 1,59E-03 6.61E.04 2.74E.04
SHELL
E3
2 EG
I
E2 2.24E 1.4t.E 11.23E 3.6aE 1.48E 6;39E-01 2,72E-01 9,a7E-02 4.3RE-02 l,B3E-02 O.PZE-03 3.721-03 I;221103 2.64E-04 6.32E-05 1.971-05 6.13E.06 1.4IE-06
Kl El
2
15 17 20 25 32 CO 50 65 a0 100 I20 150 200 300 450 650 1000 2000
19
L:2
EC
Internal
Internal Conversion.
3.47f.03 2.34E.03 I.LOE.OS 6.921.04 3,17E-04 1.56E.01, 7,68E-05 3.34E.05 1.73E.05 a.5aE.06 b.bSE-06 Z.bJE-06 l.OlE-06 3,03E-07 9.6bE.00 3.666-01) 1.301.oa 3,17E-09
M2
n3
i.aaE 00 l.OEE 4.66E.01 1.59Er01 4.9OE.02 1.7OE.02 5.91E.03 1.77E.03 6.82E.04 2.471.04 1.09E.04 4.04E.05 l,lSE.05 2,OaE.06 b.lOE-07 I.ObE-07 2.491.08 4.02E.09
00
114
4.70E 2;ZOE 8.3OE 2.19E 5;IlE 1.39E 3.aZE.01 1.52E.02 2.6LE-02 7,57E-03 2.77E-03 a.laE-04 1.75E.04 Z.llE-05 2,76E-06 4,79E-07 7.258-0" 6.ISE-09
01 01 OO 00
II5 04 04 03 03 02 01 01 00
6.99E 2,591 7.15E 1.2bE ,,LIOE 3.20s 5.791 7.92E 1.67E 3.19E (l.ClE-01 1.682.01 t.ZOE-02 1.37E-03 9.75E.05 l,OlE.05 L).37E-07 z.baE-oa
06 06 05 05 04 03 02 01 01 00
See page 438 for E xplanation L of Table
446
Atomic
Ddn
md
Nuclear
Datm
Bblsr,
Vol.
18,
No.
5, Nambw
1976
BAND,
and LISTENGARTEN
TRZHASKOVSKAYA,
TABLE. 2 I EL 15 17 20 25 32
40 5c
65 80 100 120 150 200 300 450 650 1000 2000
6000
20
EZ 6.78E 4.69E 2.90E 1.49E 7.05E-01 3,56E-01 1,79E-01 7,VOE-02 4.131-02 2.05E.02 1;16E-02 5.78E-03 2;30E-03 T.OPE-04 2,30E-04 9.21E-05 3.681-05 l;lbE-05 2.87E-06
00 00 00 00
3.35E 2.16E 1.2lE 5.37E 2.13E 9,llE 3.85E 1.38E b.llE-01 2.54E-01 i;23E-01 5.1‘8-02 l.b(IE-02
Kl
02 02 02 01 01 00 00 00
1.3SE I.ORE 4.13E 1.59E 5.31E 1.92E 6.85E 2;OOE 7.S?E 2.61E 1;lOE 3,83E-01 1 .OOE-01 l.bOE-02 2,8VE-03 7,16E-0‘ 1.778-04 3.121-05 ‘.42E-06
8.69E-04 2.711-04 8.451-05 1,95E-05
T.5PE-06
"4 03 03 03 02 02 01 01 00 00 00
32 40 50
65 80 100 f20 150 200 300 ‘50
650 1000 2000
5,04E-01 3,54E-01 2.22E.01
l,lbE-01 5.58E.02 2.86E-02 1;45E-02 6.491-03 3;‘2E-OS 1,7lE-03 9.708-04 4.86E-04 2.OlE-04 6;03E-05 l.PbE.05 7,87E-06 3,15E-06 9,091*07
2.38E 1.56E 8.88E 4.021 1.63E 7.12E-01 3,05E-01
01 01 00 00 00
l,llE-01 4.91E-02 2,08E-02 l.OLE-02 ‘.28E-03 l.LlE.03 3.071-0‘ 7.‘OE-05 2,32E-05 7.23E-06 1,67E-06 2
EG 15 17 20 25 32 40 50 65
80 100 120 150 200 300 450 650 1000 2000
El
1.26E 6.68E 2.93E '+.42E-01 2.691-01
8.491-04 3,54E-04 1.26E.04
8.691-02 2,8lE-02 7,50E-03 2.658-03 8.751-0‘ 3.571-04 1.20E-0‘ 3.04E-a5
5,58E-05 2.331-05 1,14E-05 4.84E.06 l.bPE-06 3,63E-07 8.78E.Otl 2.63E-08 7.2OE.09 l.ZOE-09
40 50 65 80 100 120 150 200 300 ‘50
65 G 1000 2000
7,05E-02 ‘,38E-02 2.35E.02 9.908103 3,78E-03 1,58E-03 6.5‘1-04 2,321-O‘ 1.02E.O‘ ‘.26E-05 Z.I"E-05 8,89E-06 3,01E-06 6*99E-a7 l.IOE-07 5;94E-08 1,89E-08 4.2111-09
2.PLE
05
1.366 4.53E l.27E 3.9OE 1.17E 2.77E .5,8OE 2.55E 9;29E 2.7lE 5.67E.01 6.738-02 V.ZlE-a3 1,82E-03 3,61E-04 4,87E-05 5.‘lE-06
05 04 04 03 03 02 01 01 00 00
01 00 00
00
2.14E 6,928 2.04E 7.51E-01 2,22E-O? 4.70E.02 5,bSE-03 7..3lE-0‘ ?.56E-0‘ 3,lOE-05 ‘,lSE-06
01 00 00
L2
6.23E
00
3.13E
02
1.61E 3.30E.01 9,52E-02 2,53E-02
00
6.55E 1.05E 2.5OE 5.41E.01 1.57E.01 3,5?E-02 5,29E-03 ‘,O‘E-04 3.54E-05 4,51p-06 4.971-67 2,38E-08
01 01 00
5,87E-06
-
20
L3 23
01 01 00
l.bPE
00
4,7‘E-01 ?.5OE-01 4,77E-02 ?,L‘E-02 4.272-03 ?.37F-03 5.42E-04 (.76E-04 4;24E-05 6,06E-06 9.691-07 2,12E-07 4.438-08 b.lSE-09
4.5OE 2.081 7,blE 1.9lE 4.15E 1.0f.E 2.62E 5,17E-01 1.43E.01 3.63E.02 l.lPE-02 3.061-03 5;‘3E-04 5.04E-05 5.258-00 7,8RE-07 I.lOE-07 P.Z"E-09
03 03 02 02 01 01 00
05
l.OlE-02 6.7‘1-03 4.001-03 l.VSE-03 8,78E-0‘ 4,27E-04 2.07E.04 8.86E.05
5,491 9.7lE 2.39E ‘.4lE-01 5.211-02 2.861-03 l.BSE-04 1.84E-05
01 a0 00
4,53E-05 2,2OE-05 1.221-05 5.97E-06 2.388-06
2.3OE 7.25E 1.48E 2.54E 5,lbE 1.OSE 1.67E 3.66E 7,5lE-01 2,07E-01 4.31E-02 5,84E-03 3.73%-04 2.69E-05 2.92E-Oh 2.88E-07 ,.50E-08
05 0‘ a4 a3 02 02 01 00
5,6‘E 2.07E 5.62E 9.35E 1,28E 2.11t 3.491 4.2OE 7.9IE 1.32E 3.09E 5,27E-01 5,53E-02 2,49E-03 1.291-04 1,05E-05 7.671-07 2.62E.08
1.32E 6,07E-OI 2.38E-01 7;3VE-02 1,53E-02 3.54E.03 l.O‘E-03 2;83E-04 4,7‘E-05
00
nt
n5
3.22E 1.69E 7.23E 2,2lE 5.86E 1.76E
05 05 04 04 03 03
5.3lE 1.31E 4.37E 1.37E 3.37E 1.75E 4,28E-01
02 02 01 01 00 00
6.5OE-02 l;lIE-02 2.641-03 5,74E-04 7.39E-05 6,661"06
*3 01 00 00 00
b,OIE-03 2,868.03 l.llE.03 3.128.04 9.49E.05 3,‘7E-05 l.l7E-05
1.48E 7.25E 2;79E 7.261 f.5VE 3.99E P.VBE li97E
07 06 06 05 05 04 03 03
5.49E q.b2E 4.77E 1.29E PiME 2,7OE-01 3,59E-02 6.68E-03 l.l6E-03 l.l‘E-04
02 02 01 01 00
(I.OfE-06
114
9.731 5.19E 2.3?E 7.69E 2.328 7.99E 2.2.OE 8.34E-01 3.26E-01 l.ZlE-01 5.5OE.02 2,13E-02 6,5‘E-03
02 02 02 OI 01 00 00
II5
b.OSE 2,868
04 04
l.lOE 2.961 7.OVE 1.98s 5.6‘E 1.32E 4.27E
04 03 02 02 01 01 00
7.3OE
00
5,0lE-01 l.bOE-01 3,8bE-02 5,7bE-03 P.IPE-04 2.30E.04 ‘.97E-05 6.37E.06
1.348-03 3.08E.OL 9;00E-05 2,44E-05 (I.OIE-06
2.56E.06
p12
3.74E 1.58E 5.22E l.I5E
06 06 05 05
2.lnE 4.95E 1.?4E 2.TOE 5.62E I.40E 4.58E l.Z?E L.ZI)E-01 2.47E-02 3.lLIE-03 5.8‘E-04 l.OOE-0‘ P.IOE-06
04 03 03 02 01 01 00 00
1,90E-07 6.28E-08 1.811-08 2.79E.09
=3,4700E-0,
ll‘
m3
1.36E 00 8.05E.01 C.OOE-01 1 ,bOE-01 5,68E-02 2.23E.02 l.74E.03 2,421.03 1.23E.03 4.8bE.04 2,29E-04 Q.15E.05 2;85E.O5 5.69E.06 1 .POE-06 3,07E-07 6,78E-08 7.35E.09
6.6‘1-07
1.3t.E 7.2OE 3;14E l.OlE 2.85E 9.09E-01 2,9?E-01 7,63E-02
02 01 01 ai 00
2,bbE-02
8.628-03 3,45E-03 1.14E-03 2.78E.04 4.OtE-05
6;25E.06 1.261.06 2;15a-a7 1,69E-011
M5
l.lVE
04
5.65E
03
2.13E 5.58E 1.26E 3.2PE 1.58E 1.78.3 5.13Er01 1;37E-01 4.661-02 1,27E-02 2.441-03 2.55E-04 2;V5E-05
03 02 02 01 00 00
9.76E 4.13E 1.3‘E 2.87E 5.lVE l.lOE 2.35E 3;85E
05 OS 05 04 03 a3 02 01
9.23E 2,01E 5,87E-a1 1,32E-01 l.VVE-02 1.5lE-03 1.30E-04
00 00
4.65E-06
l.blE-05
6;23E-07 3.58E-OS
l.'IOE-06 T.ldE-08
KEY Ml
07 07 06 a5 05 00 03 02 01 01 00
03 03 03 02 02 01 01 00 00
5.451-06
1.54E 9.26E 4.8lE l.VBE 7.58E.01 3.23E.01 1.39E.01 5.3lE.02 2,5lE-02 l.l‘E-02
Ml
ES
5,bOE
1.3bE.04 2.98E.05 4,‘lE.06
6.98E 3.95E 1.88E 6.73E 2.16E 7.8OE 2.8‘E 8.74E 3.49E
KE"
07 07 06 05 04 04 03 02
Ee
3.bOE.03
1.531-06
5.348-08
02 01 01 01 00 00 00
l.lOE-03 4.021.0‘
2.03E.01 1,4lE-01 8,79E-02 4,64E-02 2.30E.02 1,24E-02 6.68R.03 3,2&E-03 1,89E-03 ?,OSE-a3 6.58E.04 3.7‘1-04 1,84E-04 7,01E-05 2.8OE-05 1,27E-05 5.3‘1-06
3.15E 1.17E 3.2OE 5.42E 7.6lE 1.29E 2.2lE 2.79E
E4
1,45E 8.93E ‘;76E 2,OEE 7.94E 3i45E 1.52E 5.87E.01 2,80E-01 l.ZPE-01 6.89E-02 3.261-02 1,27E-02
R‘
KEV
.3,5000E-01
1,56E-06
SHELL
00 00 00
2,l‘E-03 R.l7E-04 3.26E.04 1.48E-0‘ 6.238.05 1,79E-05 3,5lE-06
65 05 05 04 03 03
9.721-07 1,4lE-07 9.72.E-09
2.321 1.22E 5.31E
Etl
3.11E 1.2VE 4.11E 8.53E 1.50E
7.85E-07 1,73E-07 3.421-08 3.62E-09
E2
4.431-06
SHELL
03 03 02 02 01
2.368-03 4,57E-0‘ 4.891-05
?,dlE
112
Ml 05 05 05 0‘ 0‘ 03 03 02 09 01 00 00
1.94E 6.17E 1.53E 2,6OE-01 2,32E-02 2.44E-03 3,VOE-a4 6.2lE.05
KE"
4.3bE.03
=‘.3800E-01
8.72E 5,22E 2.46E 7.82E 1.99E 5.45E 1,43E 2.86E
E4
8.642-03
2.34E 1.63E 1,OZE 5,36E-OI 2.6?E-01 1;43E-01 7.7‘E-02 3;8lE-02 2.196-02 l.IPE-02 7,65E-03
ES
1.5SE 6.O,E-01 Z.llE-01 I.PIE-02 3.lbE-02 8,34E-03 1.351-03 2.451.04 6.12E.05 1,52E-05 2,68E-06 20
07 07 06 06 05 04 04 03 03 02 01 01 00
EB
04 04 03 03 02 02 01
2.48E 1.15E 4.271 1.09E 2.42E
1.98E t.a6E ‘.k6E 1.2l)E 3.02E 7.14E 1.97E 3.80E 1.02E 2.46E 7.7‘E 1.89E 3.16E 2,77E-01 2,88E-02 4.571-03 7.246-04 7,48E-05
E4 2.9lE 1.74E 2.,56E 3,OZE 8.92E 2.84E 8.76E
=
00 11
6,5bE-06
SHELL
E3
2
15 17 20 25 32
05
02 02 02 02 01 a1 00
4.66E-06
El
EG
11
=4.038aE ES
8.74E 5.43E 2.851 I.131 3.9lE ,.46E 5,SOE
E2
3,73E-02 2.328-02 1,25E-02 5.29E.03 2,03E-03
EB
5.12t
El
EP
Conversion Coefficients
E4
2 = 20
15 37 20 25
SHELL
F3
3.63E-03
61
EG
Internal
Internal Conversion, Z < 30
‘.5OE-03 3,O‘E.03 l.IPE.03 9,OOE-04 4.12E.04 2.032-a‘ 1.008-04 4,37E-05 2.27E.05 l.l3E-05 6,37E-06 3,1PE-06 1,33E-06 3.991-07 1,27E-07 4,83E-08 1,71E-o* ‘.18E-09
HZ 2.63E 1,43E 6.50E.01 Z.PlE-01 6.79E.02 2,35E-02 8.24E.03 2,43E-03 9,32E-04 3.37E.04 1,48E-04 5.49E-05 1;56E-05 P.OOE-06 5.491.07 1,39E-07 3.3lE.08 5.31E.09
H3 00 00
n4
6.75E 3,lbE 1.18E 3.llE 7.2OE 1.95E 5.341-01 l,lPE-01
02 02 02 01 00 00
9.2lE 3.82E 1.22E 2.59E 4.74E 1.03E 2.29E 3.98E l.OlE 2.3bE-01 7,28E-02
3.66E-02 1;05E-02 3,8,E-03 1.128-03 2.39E.04 2.87E-05 3;74E-06
n5 04 0‘ 04 03 02 02 01 00 a0
1.761-02 2.931-03 2.512-04 2 39E-05 3.13E.06 3.31E.07 1.55E-08
4.481-07 9.74E-0.5 8,13E-09
9.98E 3.68E l.OlE 1.75E 2.53E 4.49E 8.09E l.lOE 2.32E 4.42E t.(bE 2.32E.01 3.02E-02 l.I)LE-03 1.331-0‘ 1.37E-05 l.l‘E-01 3.33E-08
06 06 06 05 04 03 02 02 01 00 00
See page 438 for E .xplanatio bn of Table
447
Atomic
Data
md
Nuclear
Dalc~
Tabler,
Vol.
18,
No.
5. November
1976
BAND, TRZHASKOVSKAYA,
TABLE. 2 = 21 EG 15 17 20 25 32 40 50 65
80 100 120 150 200 300 450
650 1000 2000 6000
El 7.421 5;15E 3,lVE 1.65E 7,82E-01 3,96E-01 Z,OOE-01 8.86E.02 4;64E-02 2.3lE.02 1.3lE.02 6,54E-03 2.70E.03 8.09E.O‘ 2,63E-04
F2 00 00 00 00
l,ObE-0‘ 4.2SE.05 1,32E-05 3,28E-06
3.48E 2;Li'E 1.29E 5.75E 2.3lE 9.93E 4.22E 1.53E 6;78E-O'( 2.82E..Ol 1.38E.01 5.761-02 1.89E.02 4.llE-03 9,89E-04 3,lOE.04 9.7OE.05 2*25E-05 4.llE-06
1.3lE 8;07E 4.2OE 1.64E 5.51E 2,05E 7,37E Z.lIE 6;2lE 2,87E 1,ZlE 4.251-01 1,12E.01
15 (7 20 25 32 CO 50 65 80 100 120 150 200 300 45@ 650 1000 2000
El 5.57E.01 3,92E.O1 2.47E.01 1.30E.01 6,27E.O2 3.231-02 1,65E-02 7.391-03 3,9OP-03 1.961-03 q.llE-03 5;60E.i4 2.33E-04 7.00E.05 2.26E-05 9;lPE.06 3.68E.06 l.lIE-06
2.49E ?.65E 9,‘9E ‘,35E 1.79E 7.84E-01 3.39E.01 l.ZSE-01 S.bOE-02 2,36E-02 t.lbE-02 4;88E-03 l.blE-03 3.55E-04 I.SLIE-05 2.7OE-05 8.461-06 1.96E-06
01 01 00 00 00
El
15 17 20 25 32 40 50 65
4.621.02 2.88E-02 l,SbE.O2 6.63E.03 2.56E-03 l.O7E-03 4,50E-04
80 100
7,15E-05 3,OOE.05 1,‘8E-05 6.26E.06 Z.l(E-06 4,7‘E.07
120 150 200 300 450 650 1000 2000
1 .blE-04
1,15E-07 3,45E-08 9.48E.09 ?.5SE-09
15 17 20 25 32 60 50 65 80 100 120 150 200 300 450
650 1000 2000
El 8.69E-02 5.4lE.02 Z.PlE-02 ?.24E-02 4.741-03 l.QOE-03 8;27E-04 2.95E-0‘ 1;30E-04 5,45E-05 2.691-05 1.14E.05 3,80E-06 9.031-07 2.342-07 7,70E-08 2,46E-08 5.54E-09
01 00 00 00
See page 438 for Explanation
Ll
02 02 02 02 01 01 00 00
3.46E-03 1,14E-03
LE
03 03 02 02 01 00 00
=
21
EL
L3
5.77E
07 06 06 06 05 0‘ 04 03 03 02 01 01 00
EL!
n 5,OOOOE.01 E5
04 04 03 03 02 02 01 01 00 00
SHELL
1.65E
05
5.27E l.lOE 1.94E 4105E .5,5?E 1.37E
04 04 03 02 01 01
3.27E 7,06E-07 2,06E-01 4,6?E-02 b.PI)E-03 5.341-04 4,70E-05 6,00E-06 6.631-07 3,19E-08
00
2.67E
03
9,PPE 2.47E 5.361 1.35E 3;39E 6.70E-01 1;86E.O1 4.731-02 1.551-02 3,99E-03 7.09E.04 6.591-05 6.871.06 l.O3E-06 1.441-07 l.ZlE-08
02 02 01 01 00
7,14E 2,948 9.278 ?.POE 3.26E 6.64E 1.35E 2.08E 4.751 9.751-01 2,69E-01 5.622-02 7.62E-03 4.87E-04 3.521-05 3,83E-06 3.771107 1,96E-08
3.99E 1.48E 4,OIE 6.94E 9,77E 1.67E 2.85E 3.621 7.14E 1.27E 3.t3E 5,79E-01 6.86E.02 3,78E-03 2.468-04 2.448-05 2,08E-06 7,14E-08
07 07 06 05 04 04 03 02 01 01 00
of Table
448
02 02 01 01 00 00 00
8.?6E 4;64E 2.2lE 7.97E 2.57E 9.2hE 3;36E 1.04E 4;lLE 1.56E 7,17E-01 2,8lE-01
03 03 03 02 02 01 01 01 00 00
8,70E-02 1,80E-02 4,15E-03 1,22E-03 3,3OE-0‘ 5.53E-05 6,29E-06
?,59E-04 3.46E.05 5.07E.06
ML
2.52E.09 1.75E.Ol 1.09E.01 5.73E.02 2.8‘8-02 1.521.02 8,lPE.03 S.OlE.03 2,30E.03 l.Z.¶E-03 7,98E.04 4.531.04 2.22E.04 8,42E-05 3,35E-05 1.51E.05 6.3‘1-06 ?.lllE-06
3.59E 1,9lE 8,26E 2.55E 6.83E 2.06E 6;23E 1.5‘E 5;14E 1,6lE 6.31E 2.05E 5,03E-01 7,62E-02 1,32E-02 3.09E-03 b.TlE-04 8.62E..05 7.70E-06
05 05 04 04 03 03 02 02 01 01 00 00
1.58E 7.866 3.08E 8,lIIE l.e.ZF: 4.60E 1.16E 2.29E 6.4lE
07 06 06 05 05 04 04 03 02
1.64E
02
5.57E 1.50E 2.9lE 3;23E-01 ‘,20E-02 7.8lE-03 1.35E-03 1.33E-04 9.351-06
01 01 00
1.95E 1.17E 6,06E 2,‘bE 9.431.01 ri.OOE-01 1,72E-01 6.5lE.02 3.07E.02
w
H3 01 01 00 00
l,IPE.OP 7.38E.03 3;46E-03 1,3‘E-03 3i75E.04 l.l‘E-0‘ 4,14E.O5 1,401.05 3.03E.06
1,23E 6.541 2.9OE 9,blE 2.88E 9.88E 3.45E ?.OZE 3.98E.01 1.48E-01 6.60E.02 2;58E-02 7.89E-03 1.61.5-03 3,69E-04 l.OTE-04 2,9lE-05 4.851-06
03 02 02 01 01 00 00 00
7,57E 3.591 1.37E 3.69E S;79E 2.451 6,93E 1.6lE 5.2OE 1,58E 6,07E-01 1.9SE.01 4.65E-02
R5 01 OC 04 03 02 02 01 01 00 00
6;92E-03 l.lPE-03 2.742104 5.941-05 7.58~-06
4.678 1,97E 6,498 1,421 2.7OE 6.09E 1,bOE 2.56E 6.84E
06 06 05 05 06 03 03 02 01
1.69E 5.55E 1.46E 2.75E-01 2,97E-02 3,llOE..03 6,97E-04 1,ZOE.0‘ l.t'IE-05
01 00 00
UEV H2
1.3lE.02 8.768.03 5.208103 2.54E.03 l.l5E-03 5,59E-0‘ 2.728-0‘ l.l6E-04 5.96E.05 2.901.05 l.blE-05 T.POE-06 3.168.06 8,82E-07 2,52E-07 8.378-08 2,40E-08 3.72E.09
1.76E l.OCE 5.29E.01 2,08E*Ol 7.4lE.02 2.9lE..02 l.l4E-02 3.83E.03 1.6lE.03 6.39E.04 3,02E-04 l.tlE-0‘ 3.77E.05 7,56E-06 1.591-06 4,lOE.07 9,05E-08 9,84E-09
M3 00 00
1.74E 9;tSE A.051 1;3OE 3.69E 1.18E 3.79E..01 9.91E.02
M4 02 01 01 01 00 00
3;481.02 l.l3E-02 ‘;54E-03 ?.SOE-03 3,68E-04 5.32E.05 8,3lE-06 1.67E.06 2,86E-07 2,26E-08
M5
1.5lE 7.18~ 2.72E
0‘ 03 03
7.14E
02
1.62E 4.24E l.llE 2.3lE
02 01 01 00
6;70E-01 1.78E.01 b.llE-02 l.bTE.02 3.2lE.03 3,37E-04 3,9lE-05 b.lPE-06 8.32E.07 4,.8OE-08
1.22E 5;19E 1.7OE 3;65E 6.64E 1.42E 3.03E 4.98E
06 05 05 04 03 03 02 01
l.POE 2.62E 7.661-01 1.73E.01 2,62E-02 1.99E.03 (,72E-04 2,15E-05 2.26E.06 9.63E.08
01 00
KEV PI,
07 07 06 06 05 04 03 02 02 01 00
1.77E 1.09E 5.771 2.451 9,57E ‘.lSE 1;82~ 7.01E.01 3;34E.01 1,53E*O? 8,17E-02 3,861.02 l,SlE*O2 4,24E.03 t,29E.O3 4,7lE-04
KEV
.4,0200E.O,
7.12E 2.62E 7,13E 1.19E 1,63E 2.7lE 4.48E 5.428 1.02E q.TlE 4,OOE 6,8‘E-01 7.2OE.02 3.251-03 1,68E-04 1,38E-05 l.OlE-06 3;43E-08
?13
M2 00 00 00
Ml
ES 05 05 04 04 03 02 02 01 00
2.86E 1.988 1.24E 6.50E.01 3.22E.01 1,72E-01 9,29E-02 4.961-02 2.621-02 1.461-02 P.OPE-03 5.168-03 2.53E.03 9,6lE-0‘ 3,82E:04 1.731-04 7.251.05 2.076-05 4.021-06
94.0700E.01
ES
SHELL El
03
05 05 05 04 04 03 03 02 01 01 00 00
ES 05
KEV
Ml
6.79E ‘,36E 2.19E 7,37E 1,96E 5.52E l,lr(lE 3,OZE 8,‘OE 2,lOE 6,76E 1.69E 2,9OE-01 2.628-02 2.791-03 4.5lE.0‘ 7,25E-05 7.58E.06 EB
3,981
El 01 01 00 00
00 Ml
1.74E 9,56E 4.18E 1,Z‘E 3,OlE 7.98E 2,042 4,OOE 1.08E 2,65E 8.381 2,06E 3.48E 3,08E-01 3.24E.02 5,18E-03 8,29E-0‘ 8.641-05 7,57E-06
E4
l.ZSE-01 3.311-02 1,13E-02 3,lOE-03 6.036-04 6.46E-05 7,78E-06 1.29E.06 1,88E-07 1,30E-OS
1.56E-0‘ C.OOE-05 6.141-06 l.O4E-06 2,29E-07 4,53E-08 ‘.8OE-09
05 05 05 04 04 03 03 02 01 01 01 00
SHELL
2.60~ 1.6lE 8.2OE 3,OOE 9,lPE 2,96E 9.29E 2.31E 7,532 2.24E E.32E-01 2;‘8E-01 5.291-02 6.431-03 6.98E.04 1,SOE.0‘ 3.621-05 4.928-06
14.49306 E5
E4
21
3.20E 1.49E 5.52E 1.4lE 3.14E S.lOE 2,lOE 4.3lE..01
4.671.0‘
2.97E 1.56E 6,SOE 2.17E 6.lOE-01 1 .P‘E-01 6;16E-02 1.6OE-02 5.531-03 1.778-03 7.048-04 2.29E-04 5,52E-05 7,9OE-06 1.26E-06 2.761-07 5,77E-08 8.00E"09
4.76E 2,77E 1.32E 4.52E 1.3OE 4,ObE 1,23E 2.96E 9,492 2.771 1.02E 2.99E 6,29E-01 7.531-02 l.O4E-02 2,07E-03 4,l‘E-04 5.621-05 6.238-06
23
2 EG
.
E2 1.62E 8.58E 3.76E 1.2lE 3.48E-03 l.lLE-01 3.65E.02 9.76E.03
0'. 03 03 03 02 02 01 O? 00 00 00
21
8.57E 5.42E 2.9OE 1.18E 4.l‘E 1,56E 5.751 1.74E 6.65E.01 2.36E.01 l.OlE.01 3157E.02 9,‘8E-03 1.551.03 2.83E.04 I.l?E-05 1.78E-05 3,15E-06
EB
SHELL
E3
2 EC
=
El
Conversion Coefficients
E4
l,SOE-02 3,28E-03 8.17E.04 2.04E.04 3.60E.05 5,09E-06 2
EC
Kl
Internal
E3 02 02 02 01 01 00 00 00
Internal Conversion, Z < 30
and LISTENGARTEN
5.758-03 3,88E-03 2.331-03 l.l5E-03 5,30E-04 2.621-04 1.292.04 5.656-05 2.9‘8-05 1,46E-05 8.268-06 ‘.14E-06 1,72E-06 5.191-07 ,.65E-07 6.27E.08 2.231-08 5;411.09
n2
M3
3.63E
00
1.97E 8.94E.01 3.04E.01 9.28E.02 3.211.02 1.12E.02 3,28E-03 1,26E-03 4.531104 1.991.04 7,33E-05 2.08E.05 3.72E.06 7,24E-07 1,83E-07 4,33E-08 6,908"09
00
9.54E 4;45E ?.66E 4.34E 1,OOE 2.691 7,35E-01 q.bSE-01 5;00E-02 1,43E-02 5.18E-03 1,52E-03 3.23E-0‘ 3.868-05 5,0lE-06 6,63E-07 1,29E-07 1;06E-O8
M4 02 02 02 01 01 00
n5
1.3OE S;37E 1.72E 3;62E 6,58E 1.43E 3;16E
05 01) 04 03 02 02 01
5.461 1;38E I.PIE-01 9.9lE.02 2,39E-02 3.961-03
00 00
3.398-04 3,2lE-05 L.LOE-06 4,5lE-07 2.041-08
1.4OE 5,lbE 1.42E 2.43E 3.5lE 6.2OE l.llE 1.5lE 3.17E ;;03E %.58E 3.15E.01 4.09E.02 2,54E-03 1.798-04 1,8‘E-05 1.52E-06 4,42E-08
07 06 06 05 04 03 03 02 01 00 00
BAND, TRZHASKOVSKAYA,
TABLE. 2
El
EG 15 17 20 25 32 co 50 65 80 100 120
750 200 300
8.31E 5.62E 3.5OE (.alE 8.bSE.Ot 4.39E.01 Z.LZE-01 9.07E.02 S.?GE.Ot 2;59E-02 1.47E.02 7.3bE.03 3.05E.03
9.lbE.04
430 630 1000 2000
2;99;.04 ? .20E.04 4.GZE.03
6000
3.72E.06
$.STE.OS
13 17 20 23
00 00 00 00
3.59E 2.37E 1.35E b.lZE 2.4IE l.OdE
02 02 02 01 01 01
32 40 SO 63 80 100
120 150
2’00 300 450 650 1000 2000
3.blE.02 1.83~.02 8.34~~03 4.42E.03 2.238.03 1.271.03
b.IOE.04 2.67E.04 8.ObE.03 2.64E.05 1.06E.05 4.27E.06
1.34E.06
4,bOE
00
Et
100 (20 lS0 200 300 430 630
1000 2000
3.53E.02 ‘I;PTF.OZ 8.19E.03 3.laE.03 3.34E.03
3.64E.04 2;03E.O4 9.04E.05 3.8OE.03 1 a88E.05 7.991.06 2.7OE.06 b.lOE.07 1.49E.07 4.47E.02. 1.23E.08 2.0SE.09
15 17 20 25 32 LO 30 65 80 100 (20 150 200 300 430 65C 1000 2000
El 1 .ObE.Ol 6.bOE.02 3.STE.02 1.32E.02 5.87E.03 2.4bE.03 1.03E.03 3.69E.04 1.64E.04 6.87E-05
3.39E.05 1.456-05 4.93E.06 l.YSE.06 2.99E.07 9.SSE.08 3,?4E-01 7.01E.09
‘
4.3‘E
05
2,bOE
05
1.27E 4.44E 1.32E 4,?9E 1.29E 3.15E 1.02E 2.99E l.lOE
05 04 04 03 03 02 02 01 01
Ll
2.59E l.73E l.OOE
01 01 01
4.661
00
1,93E 8.57E-01 3.7YE-01 1,38E-01
00
2.251
04
3.33E 2.9lE l.ZlE
02 02 02
1.4bE
04
7.72E 2.93E
03 03
4.34E 1.66E
03 01
6.18E
00
1.89E
00
9.211 3.03E 9.751 2,SbE 8.12E 2.44E 9;13E-01 2.74E-01 5;9lE.O2 7.23E.03 1 ,OZE-03 2.071-04 4.19E.05
02 02 01 01 00 00
2.64E.02 1;31E.i12 5.52E-03 1;83E-03 L.OSE-04 9.8’fE.05 3.12E.05 9.82E.06 2,20E-06
2.bOE.01 l;lPE.Ol 3.99E.02 1;07E.O2 (.7bE-03 3.231.04 8.19E.05 Z.ObE.05 3,67E-06
.
3,74E-06
22
e2
L2
01 01
4.77E
00
l.34E 4.43E.01 1.44E.01 4.661-02 l.PSE-02 4.441-03 1.47E.03 b.OZE-04 2.048-04 5,lRE-03
00
4,OIE 1.9OE 7.04E 1.8lE 4.02E 1.04E 2.69E 3.56E.01 1 .b?E.Ol 4.28E.02 1,47E-02 4.03E.03 7.84E.04
7.98E.06
8.438-03
5.03E 2.09E 6.686 1.40E 2.47E 3.18E 1.09E 1.7bE 4.2lE 9.14E.01 2.66E-01 5.98E.02 9.07E.03 6,97E-04
? ,35E-06 S.OOE-07 5.938-08 6.2GE.09
1 .OZE.Ol
b.?SE-05
1;69E.06
7i88E.06 8.721-07 4.20E.08
2,47E-07 1.72E.01 .
22
3.74E 1.97E 8.39E 2.74E 7.73E.01
L3
O( 01 00 00
2.461-01 7.83E.02 2.04E-02 7,ObE-03 2.27E.03 P.OlE.04 2,94E-04 7.08E.05 l.O?E-OS T.63E-06 3.35E-07 7.421-08 1 .OZE-08
7.3lE 3.38E 1.24E 3.13E
03 03 03 02
b.a2E
0’1 01 00
1.99E.02 5.13E.03 9.12E.04 8,5OE.O5 1.87E.06 1,33E-06 l.BbE.07 1.5SE.08
4.578106
3.80E.06
05 03 03 04 04 03 03
3.qbE
02
8;PlE 2.2bE 7.32E l.85E 3.2lE.01 2,9&E-02 3,?7E-0.3 5.17E.04 8,39E-05
01 01 00 00
05 05 05 04 03 02 02 01
6,07E (.25E 3.45E.01 7.2lE.02 9.8OE.03 6.28E.G4 4.558.05
00 00
4,aaE-07 2.33E.08
1 .OOE.04 3.97E.05 1179E.05 7.45E.06 2,?lE-06
8.7bE
03
3.27P.03
1.24E 2.12E
03 04
3,bLE
03
4,63E 9.17E 1.63E 4.04E 7,48E-01 8,89E-02 4,93E-03 3,tlE.04 3.201-05 2.74E.06 9.42E.08
02 01 01 00
1.48E.03 7.21E.04 3.SfE.04 l,SlE.04 7.73E.03 3.77E.05 Z.lOE-03 1 .OfE-03 4.13E.06
9.421 4.46E 1.7OE 4,35E 1,OaE 2.991 a.43E
04 04 04 03 03 02 01
1.9bE
01
6.29E 1,POE 7.29E.01 2.32E.Oq 9.53E.02 a.24E.03
00 00
5.7bE 2.43E 7,99E (,75E 3.30E 7;43E 1;tlE 3,llE 8.23E 2,OLE
9.998.05 a.asE-06
MJ 01
l.LbE
01
7.55E 3;08E 1,lbE 4,9lE-01 Z.?OE.Ol 7.921.02
00 00 00
3.5bE.06
07
06 06 05 05 04 04
2.64E
03
7.4OE 1.92E
02 02
6,452
01
1.74E 3,.3(IE 3.74E.01 4.a7E.02 9.Ot.E.03 j .37E-03 1.34E.04 1.08E.03
01 00
Y4
1,541 8.17E
03 02
3,blE
02
1.19E 3.33E 1.2lE 4.2lE 1,ZLE 4.82E.01 l,TIE.Ol 8,03E-02 3.10E.02 9.44E.03 1.921-03 4.38E.04 1,27E.O4 3,LCE.OS 5.72E.06
02 01 01 00 00
n2 2,252 ?.34E 6.78E.OI 2.67E.01 9,33E-02 3,73E-02 1.48E-02 4.95E.03 2.09E.03 8,JOE.04 3.92E.04 l(58E.04 4.938103
1.15E.06 3.32E.07 l.lOE.07
3,lbE.08 4.a8E.09 =4,5300E-01
1 .ClE.O3 3.23E.04 7.03E.05 1.95ErOb
M3 00 00
06
06 05 03 04 03 03 02 03 01
A.661
00
1.74E 3;28E-01 3.5SE-02 L;SlE.OS 8.266-04 ?.42E.04 1.38E.05
00
M4
2.2lE
02
1.17E
02
3.14E
01
T.bbE
0,
4;7lE 1.3lE 4.8bE.01 1;28E.O1 4.5OE-02 1;4bE.02 5.89E.03 1,95E-03 4.79E.04
00 00
115
1.9OE 9.02E 3,43E 9.03E
04 03 03 02
2,ObE
02
3,ClE 1.42E 2.961
01 01 00
8.blE.01
9.908.06 2.098.06
b.PbE.03
5.39E.07 1.19E.07 1.30E.oa
2.2OE.06
2;30E.01 7.89E.02 2.lbE.02 L.I7E-03 4,39E-04 5,ltE.03 8.13E.06
3.79E.07 2.991-08
1.10E.06 6.34E.08
‘1 .OPE-05
1.32E 6.4bE 2,liE 4.30E 8.37E 1.8OE
06
3.8bE 6.35E
02 01
1.33E 3.37E 9,8bE-01 2.23E-01 3.391-02 2,59E-03 2.251-04 2.82E-03 2,98E-06 l.Zi’E.07
01 00
03 05 04 03 03
KEV Ml
H2
*3
3.2bE
07
7.248.05 4.89E.03
4.94E 2,baE
00 00
8.91E 1.49E 2,ObE
06 06 05
2.94E.03
00
3.42E 5,68E 6.09E 1.30E 2;18E 5,12E 8,7bE-01 9.24E.02 4.1a)E.03 Z,TTE-04
04 03 02 02 01 00
3.32E.04 1.64E.04
1,ZlE 4.~oe.01 1;25E.O1 4.311-02 l.SOE-02 4,38E-03 1.678.03
1 .CbE-03 6.7lE.04
7.18E.05 3.74E.05 1 i86E.05 1.05E.05 5.29E.06
2.218.06 b.b4E-07 2.12E.07
4.42E.01
l.b4E 8.35E 3.33E 9.08E 2.05E 5.24E 1.33E
7,aOE-04
7.2lE.06
2.43E
HI 1.b7E.02 1.12E.02 6.68E.03
1,78E-05 1,30E.06
n5 OS 05 04 04 03 03 02 02 01 01 00 00
KEV
07 07 86
07
3.94E 2.12E 9.30E 2.9lE ?.abE 2.3aE 7.23E ?,79E 5.9aE 1.87E 7.34E Z,39E 5.a5E.01 a.a5E-02 1,53E-02 3.5aE.03
4;a28.03 I ,41 E-03 3 .aCE.OS 6.4OE.05
3.72E.02 1.b8E.02 8.89E.03 4.13E.03 1.6lE.03 4.41E.04 1.35E.04 4.9OE.05 1.65E.05
3.421.04
4.991 1.8bE f.TSE
8,85E
03 03 03 02 02 02 01 01 00 00
2.102.02
n2
3.10E.01 2.13E.01 1.34E.01 7;02E-02 3.47E.02 1.83E.02 9i951.03 4.856.03 2.7IE.03 1.54E.03 9.591.04
2.65f.04
E5
9.4lE 5.3OE 2,3(IE 9.33E 3.02E 1.09E 3.93E 1;22a 4.a5E 1;83E 8.39E.01 3.2GE.01 1.01E.01
KEV
=4,blOOE-01
E8
8.97E 3.7OE 1.17E 2.4OE 4.141 a.LIE 1.72E 2,662
4.95E.06
POE.01 HI
4,931 3,48E 1.89E 6;8lE 1.90E 3;52E 1,51E
E4
1.72E 4.33E 8.5aE.01 2.39E.01
b.0bE.02
8,baE.ob
M4
“3 02 02 01 01 0, 00 00
9.blE.02 4,32E-02
2.9bE.03
ES
SHELL
E3
E2
2.(3E 1.30E 6;93E 2,95E ?.,4E 4;94E 2,lbE 1,3OE-01 3.95E.01 1 .IOE.O,
3.848-03 9,43E-04 9.92E.03
EE
05 05 04 04 03 02 02 01 00
*2 00 00 00
1,76E-02 4.93E.03 I, 50E.03 5.CIE.04 f ,852.04 4.00E.03
E4 03 03 02 02 01 01 00
06 05 04 04 03 03 02 01 01 00
a.85E.06
SIiELL
E3
2.05E 1.09E
Ob
ES
02
7.30E.01
06
3.45E 2.398 1.49E 7.798.01 3.a5E.01 2;05E.O? l.llE.O1 5.406.02 3.09E.02 1.72E.02 1 .OTE-02 b.ObE.03 l.lZE-03 4.44E.04 2.O?E.04 8.38E.05 2.38E.03
EC
8,PbE
6.25E.02
07
Et3 =3.64~
SHELL
E3
1.49E 8.52E 3;abE 1.19E 2.98E 8;O’iE 2,lOE 4,17E 1.14E 2.8.2E 9,OOE 2.231 J.IIOE 3,4lE-01
KEV
RI
3.62%.02
6.45E.05 7,13E-06
22
00
ES
a,37E-02 (.llE-02 2.34E.03 4,7lE-04
2.32E-04 4.fZE.05 3.81E.06
=4.96506
ER
3.2bE 00 6,93E-O(
9.2bE.04
2 EG
04 03 03 03 02 02 01 01 00 00 00
4.69E.01
E2
El
3.63E.02
SHELL
Conversion Coefficients
E4
1.24E.01 2.02E.02 3.69E.03
2
?5 ?7 20 23 32 40 50 65 80
Ul
1.27E 7.98E 4.221 1.69E 3.O3E 2,17E ‘I.(I’IE 2.35E LI.PlE 3.13E 1.33E
1.61)E 00 7.47E.O? 3;13E-01 1 .53E-01 6,42E-02 2,llE.02 4.63E.03 ,,lLE.O3 3.32E-04 ?.ltE-04 2,57E-05 4,6(JE-06
El 6.10E.01 4.3OE.01 2.72E.01 1.44E.01 6.99E.02
22
Internal
E3
2 EG
-
EZ
Internal Conversion, Z ( 30
and LISTENGARTEN
8.03E.08 2.85E.Oa b.PLE-09
b;OlE-04 2,631.04 P.bGE-03 2;731.05 4.abE.06 P.LlE-07 Z.JbE-07 5.58E.08 8,GLE.09
R4
1.33E 6.17E 2.301 5.98E 1.37E 3.b8E 9,99E-01 2.2OE.01 6,74E-02 1.92E.02 6.95E.03 2,04E-03 4,3lE-04 5,llE-05 6.59E.06 1.13E.06 1 .bGE.07 1.37E.01)
03 02 02 01 01 00
w5
1.8lE 7.45E 2.37E 4.98E 9;OlE 1.9SE 4;29E
03 04 04 03 02 02 01
1.93E 7,llE 1.951 3.33E 4;792 8.44E IiSlE
7.39E l.87E 4.33E.01 1.33E.01 3.2OE.02 5.29E.03 4.50E.04 4.24E.05
00 00
2.04E 4.271 8.11E 2.12E 4,2lE-01 5,47E-02 3.38E-03 2.3aE.04 2.448-05
3.34E.06
07 06
06 05 04 03 03 02 01 00 00
2,OlE-06
3,93E-07 2,65E-08
5,78E-08
See page 438 for E xplanation L of Table
449
Atomic
Data
md
Nuclmr
Data
T&ler,
Vol.
18,
No.
5, Novetmbar
1976
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 EG
15 17 20 25 32 40 5@ 65 00 100 120 150 200 300 450
650 1000 2000 6000
E, 8,74E
00
b,lOE
00
3.00E 1,97E
00 00
9,461-O? 4.83E-01 2;45E-01 l.OPE-01 5,7bE-02 2,88E-02 1.64E-02 8,23E-03 3.421-03 1,03E-03 3,37E-04 1,3bE-04
5,4bE-05 1,7lE-05
4,19E-06
3.67E 2.44E 1.4lE b.46E 2;65E 1.16E 4.98E 1.83E 8.18E.Ol 3;44E-01 1.69E-01 7,llE-02 2.351-02 5.18E-03 1;26E-03 3.98E-04 1;25E-04 2.921.05 5,29ErO6
02 02 02 01 01 01 00 00
El 6.631-01
2,661
01
4,IOE.Ot 2,98E-01 l,IIE-03 7,74E-02 4,0lE-02 2.0bE.02 9,35E-03 4,97E-03 2.5qE.03 l,44E-03 7,25E-04 3.031-04
1.79E 1,OSE 4.911 2.08E P;nsE-ol
01 01 00 00
650 1000
I.ZlE 7,78E 4.2lE 1.72E 6;04E 2.27E (1.34E 2.5lE 9.b?E 3;40E 1.45E 5;14E-01
2000
15 77 20 25 32 40 50
65 00 100 120 150 200 450 650 1000 2000
6,98E-04 2,52E-04 1,13E-04 4,76E-05 2.3bE-05 l.OtE-05 3,4lE-06 7.75E-07 1;89E-07 5,72E-08 1,57E-08 2.621-09
15 17 20 25 32 40 50 65 80 100 120 150 200 300 450
650 1000 2000
6;lPE.06 1,45E-06 3,76E-07 1,24E-07 3.971-08 L1,93E-"9
Ll
2.942.02
2.8bE-01
1;46E-02 6.19E-03 2,07E-03 C.bOE-04 I.qJE-04 3,58E-05 1.13E.05
1;23E-01 4,42E-02 1.19E.02 l,PIE-03 3.69E-Ob 9.37E.05 2,37E-05 4,25E-06
2.63E-06
.
2.56E l,3bE 5.98E 1.94E 5,57E-01 1,6lE-01 5.89E-02 l;IIE-02 5,64E-03 1.87E-03 7,67E-04 2.608-04
6,62E-05 l.OZE-05 1.74E-06 3,ObE-07 7.661-08 S.lOE-09
=
I.891 1.28E 7.IZE 2.S3E 9.18E 3;12E l.OlE 2,bOE
00
2.64E 9;93E-o( 3,OlbOl
00
2.4bE 1.07E 3.42E
01 01 00
9,67E-01 S.OSE-01 9.831-02 2.571-02 O.POE-0, 2,86E-03 t.I4E-03 3.72E-04 8,97E-05 1.29E-05 2.071-06 4,5lE-07 P.LlE-08 l.,OE-08
6.0bE
04
2.14E 4.338
04 03
1,ZOE 2.99E 9.6OE 2.4OE 4;lZE 3,74E-01 4,OlE-02 b,54E-03 l,OTE-03 l.l3E-04
03 02 01 01 00
6,268 2,blE 8.36E 1.75E 3,llE 6.53E 1.3SE 2.24E 5,351 1.16E 3.39E"01 7,65E-02 l.lbE-02 8.97E-04 7.941.05 l.OZE-05 1.136-06 S,bbE-08
2.62E 1,57E 6,lbE 1.8lE 5.44E 1.53E 3.27E 9,36E 2.4OE 7.87E Z.OlE 3.52E-01
05 05 04 04 03 03 02 01 01 00
00
6,46E-04
5.4bE
00
1.08E 3,02E-01 7,61E-02 2,52E-02 b,5?E-03 1 .lbE-03 l.Ol!E-Ob 1.13E.05 1,70E-06 2,36E-07 ?,97E-08
00
1,llE
=5,2000E-01
2,lOE 6,3bE
07 06
I.09E 1.55E 2.66E 4.581 5.85C
06 05 04 03 02
1;16E 2.07E 5;14E
02 01 00
4,bOE 1.46E 2.99E 5.18E 1.061 2,lbE 3.356 7.661 1.56.E 4,37E-01 9.14E.02 1,24E-02 7.99E-04 5.79E.05
6,3lE-06 A.221107 3,22R-08
02
b.lPE
03
8.28E 3.49E
01 01
1,3bf 5.8bE
01 00
2,551 9.79E.01 4,64E.O? 2,llE.01 1.13E.01 5.29E.02 2.05E.02 5.75E.03 1.74E.03 6.3bE.04 2.13E.04 4,59E-OS 6.59E.06
00
2.99E 1.09E 3.S2E 1.27E 4.62E 1.42E S.67E 2.14E 9.77E.O? 3.2.2E-03 1.10E-01 2.431-02 5.591-03
03 03 02 02 01 01 06 00
8.64E
02
1.64E 2,758 6.468 l.?lE l,lTE-01 5.3lE-03 2;7bE-04 2.27E.05 1;66E-06 5.64E-08
02 01 00 00
M3 01 01 00 00 00
1,59E-04 5.77E.05 4,16E-06
l95 05 05 05 04 03 03 02 02 01 01 00 00
I,b7E .5,72E 3.59E 9.97E 2.30E 5.93E 1.5lE 3,OZE 8,5?E 2.2lE 7,44E 2,OlE 3.9OE 4,32E-01
07 06
06 05 05 04 01 03 02 02 01 01 00
5.621-02 l.O4E-02 1,8lE-03 1,77E-04 l.ZJE-05
n4
1,9lE I.018
03 03
4,4bE l.LIE
02 02
4.34E 1,LIE 5,IOE 1.5OE S.aOE-01 2,13E-01 9,6OE-02 3,69E-02 1,IZE.02 2.281.03 5,17E-04 l.IOE-04 4,05E-05 6,69E-06
01 01 00 00
M2
2.128-02 1,42E-02
Ml
1,IbE
05
5,49E 2.08E 5,57E 9.32E
04 04 63 03
3.64E
02
l.OZE 2.3bE 7.55E 2.27E 8,7OE-01 2.76!2-01
02 01 00 00
6,591.02 9.74E-03 1,6bE-03 3.83E-04
7.06E 2.98E 9,76E 2.13E b.OlE 9iOOE 2.06E 3.73E 9.89E 2.44E 7.94E 2.07E 3.89E-01 4.178-02 5,32E-03 9,72E-04
06 06 05 05 04 03 03 02 01 01 00 00
8,26E-OS
1,67E-04
1,05E-05
1.62E.05
8,4bE-03
*3 00
2.76E
02
1.69E
00
?.47E 6.45E
02 01
2.08E 5.95E 1.92E 6.17E.01
01 00 00
8,57E.01 3.39E.01 l,ZlE-01 4,778.02 l,SaE-02 61321.03
4,15E-03 1,88E-03 9.19E.04 4.49E.04 1.93E.04 9;9OE-O5 4.84E-05 2.701.05 l.ILE-05
M4
2,8LE
1.63E.01 5.731.02 l.IIE-02 7.54E-03 E.SOE.03 6.16E.04 .5.98E-05 1,4lE-05 2.8bE.06 4.93E.07 3.9OE.08
2.67E.03 1.06E.03 5.03E.04 2.03E.04 6.35E.05 l.ZllE-05 2,IlE.06 7.00E.07 1.55E.07
?.69E.O8
2.34E l.lZE 4,26E 1.13E 2.58E 6.8OE 1.79E 3.75E 1.09E 2.931-01 l.OlE-01
115 04 04 03 03 02 01 01 00 00
2.761-02 5.35E-03
5,66E-04 6,62E-05 l.OIE-05 +.42E-06 8.26E.08
l.65C 7.9ZE
06 05
2.6lE 5.67E 1.04E 2,24E 4.84E 8,OoE I.94E 4.27E 1.25E 2,84P-01 4,33E-02 3,33E-03 2,9lE-04 3.64E-05 l,STE-06
05 04 04 03 02 01 01 00 00
?.bbE-07
UEV Ml
07 07 06 05 04 03
4.25E 2.33E 1.04E 3.29E 8.99E 2.741 8.35E 2.07E 6.938 2.17E ll.5lE 2.77E 6,77E-01 l.OZE-01 1,77E-02 4,141.03 V.OOE-04 1.151-04 l.OlE-05
KEV
=5,1300E-01
oa
?.b3E.O3 4.43E-04 7,37E-05 .S.LlE-06
1.94E.05
I,498106 4.291-07 l.LIE-07 4,qOE-01 b,3lE-09
E5
05 04 03 03 02 01 00 0"
1,5bE
HZ
5.32E.06
1.09E 4.02E I.lOE 1.85E 2.5bE 4.261 7,lOE
04
Ml
EB
06 05
l.OIE
3.05E 1.82E 9.34E 3,79E 1,43E 5.98E.01 2.55E.01 9,5AE.O2 4.4aE.02 Z.OIE-02 1.06E.02 b.95E.03 1.9lE.03 5,IOE.OL
3.14E.04 l.lOE-04 4,67E-05 2.09E.05 8.7OE-06 2,45E-06
07
nr
02
HI
b.l5E
M3
2.55E
KE"
3.78E.OI 2.621.01 1.638.01 d,SJE-02 4,2OE-02 Zt24E.02 l.ZOE-02 5.83E.03 3.33E.03 1,84E-03 l.I4E-03
E4 03 03 03 02 01 01
6.38E.02 3,65E-02 P.OPE-02 1,26E-02 7.09E"03 3;46E-03 1,30E-03 5,14E-04 2.3lE.04 9.63E.05 2.7lE-05
05
9,55E-OI 1,14E-01 6.331-03 4,14E-04 b.?5E-05 3,56E-06 1,2lE-07
SHELL
M2
5,17E-06
E5
2 ( 30
KG"
00 00 00
=6.2800E.O1
ES
05 05 04 04 03 02 02 01 00 00
4.14E 2.8bE I.782 9.3lE.01 4,59E-01 2.44E.07 1.3lE.01
3.261
E4 03 03 02 02 01 01 00
36
3,57E-03 I.IOE-04 9,64E-05 l.O3E-05
SHELL
L3
9,14E 4.23E 1.56E 3.93E 8.58E 2.16s
05
3,27E-02
6.65?-06 L2
07 06 06
E5 04 04 03 03 02 02 02 01
8.69E
E3
01
1,25E 7.42E 3.508 1,13E 2,9(E
28
"0
Conversion,
Coefficients
PI
9,69E-06
6.54E-02
23
E2
4.661
05 05 OS 04 04 03 03 02 02 01 01 00
8.128-03 l.l6E-03 2.37E.04 4.821-05
5,llE 2.38E 8.8bE 2.28E 5,OPE 1.32E 3.428 7;07E-01 2,OJE.01 5,46E-02 1.8SE.02 5,lbE-03 l,OlE-03 l.OQE-04 1,32E-05 2.191-06 3,2OE-07 2,23E-08
=5.4650E ES
SHELL
E3 01 01 00 00
EB
E4 02 02 02 02 01 01 00 00
23
E2
El 1,27E-03 7,95E-02 4,3lE-02 1,65E-92 7,16E-03 J.OZE-03 1,27E-03 4.568-04 E,OIE-04 8.55E.05 L;ZSE-05 1,8lE-05
3.88E 2.40E 1.2lE 4.39E 1,33E 4.292 1.34E 3.3lE l.OIE 3;2?E l.lVE 3.54E 7,58E-01 9.241-02 ,;3OE-02 2.631-03 5.33E.04 7,35E-05 (I.llE-06
E3
2 EG
23
1.52E.03 6.911-02
El 6.791-02 L.27E.02 2,32E-02 I,OOE-02 3,90E-03 1,65E-03
04 03 03 03 02 02 01 01 00 00 00
7,84E 5.17E 2,69E 1.23E 0.50E 1;75E 6.59E 2;04E 7.941-01
2 EG
.
El
4.08E-01
3,03E-05 1.22E.05 4,92E-06 1,54E-06
SHELL
Conversion
E4
1,37E-01
15 17 20 25 32 CO 50
9,21E-05
Kl
2.24E-02 i;llE-03 I.O4E-03 2;63E-04 4,7OE-05 6.591-06
EG
100 120 150 200 300 450
23 E3
2
65 80
.
EZ
Internal
Internal
*3
HZ
9,OlE.03 6.09E.03
6.6lE 3.58E
00 00
3.661-03
1.62E
00
l.OZE-OS a.3aG.04 4,16E-04 2.061-04 9.02E.05 4,7OE-05 2.348-05 1,33E-OS 6.68E.06 2,79E.06 O.4OE-07 2;68E-07 l.OZE.07 3;60E-08 8,72E-09
5,47E-01 1.66E.01 5,70E-02 l.PIE-02 5.761-03 2.19E.03 7.8bE.04
3.438-04 1,26E-Ob 3.541105
6.27E.06 l.ZlE-06 3,OEE.07 7,lQSrOl 1.121-08
n4
03
1.83E 8.46E 3.14E 8.12E 1.85E 4.9SE 1.34E 2.9bE.01 8.96E-02 2.541-02 9.191103 2,69E-03 5.66E.04 6.69E.05 8.bOE-06 1.47E.06 P.l')E-07 1,74E-08
2.4aE l.OtE 3.23E 6.766 1.22E 2.63E
02 02 01 01 00 00
n5 05 05 04 03 03 02
5,7bE
01
9.87E 2.491
00 00
5,75E-01 ~,7Af=OI 4.23E-02 6.97E.03 5,9lE-04 5,56E-05 7.22E-06 7,69E-07 3.40E.01
2.64E 9.68E 2.65E 4.5qE 6.46E ?.13E 2,OEE 2,72E 5.68E
07
06 06 05 04 04 03 02 01
l.O(IE 2.8qE 5;57E-01 7.21E.02 4,4&E-03 3.121-04 3,lSE-05
01 00
Z.bZE-06 7.47E-08
Seepage438 for Explanation of Table
450
Atomic
Data
and
Nvclev
Dote
Tabh,Vol.
18,
No.
5, Novembw
1976
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
Internal Conversion, 2 < 30
TABLE. Internal Conversion Coefficients 2 E‘ 15 47 20 25 32 40 5" 65 .5" 100 120 150 200 300 450 650 1000 2000 6000
61
I5 17 20 25 32 40 50 65 60 100 120 150 200 300 ‘50 650 1000 2000
9,COE 6.58E 4.12E
00 00 00
2.15E 1.03E 5,28E-01 2,69E-01 1.2(rE.O1 6.3bE-02 3,IVE-02 l.GZE-02 9,15E-03 3.811-03 I;15E-03 3.79E.04 1.53E.04 6,ISE-05 1,92E-05 4.701-06
00 00
3.71E 2.5oc 1.46E 6.77E 2.8OE 1.24E 5.368 l.PCE 'I.POE-01 3.761-01 1.85E-01 7;83E-02 2.608-02 5;7bE-03 ?,4IE-03 4.47E-04 1.421-04 3.3OE-05 5.961-06
El 7,17E-O'l 5.09E-O? 3;24E.O1 1,73E-PI 8.5IE.02 4.43E.02 2.291-02 ?.04E-02 5.55E.03 2;8IE-03 l.bIE-03 8,17E-0‘ 3.431-04 I.O5E-04 3;45E-05 1.40E.05 S.bLE-06 1.761-06
02 02 02 01 01 01 00 00
El
15 I7 20 25 32 40 50 65 80 100 120 150 200 300 450 650 1000 2000
8,lIE.02 5,lIE.oZ 2,79E.02 l.ZlE-02 4.73E.03 2,02E-03 8,5SE-04 3.11E.0‘ ?.39E.O‘ 5,90E-05 2.931-05 l.ZSE-05 4.261-06 9,74E-07 2.39E.07 7,23E-OI I .99-S-08 3,32E-09
1s I7 PO 25 32 CO 5” 65 10 100 ,20 150 200 300 450 650 loon 2"O"
2.71E 1.84E I.tOE 5.21E 2.21E 9.9PE.01 4.428-01 l.b6E-01 7.608-02 3.25E-02 I.bEE-02 6,90E-03 2*32E-03 S.IVE-04 1,28E-04 4.08E-05 I .PPE-05 3.02E-06
1 .SSE.OS 5,5OE-04 2.‘9E-0‘ l.OSE.04 5,ZZE"03 2.241-05 7.661-06 l.OOE-06 4,696.07 1.551-07 4.95E.08 1;rra-as
SHELL
04 OS 03 OS 02 02 01 01 01 00 00
3.3e.E 2.?6E 1.13E 4.25E 1.32E 4.351 1.38E 3.40E 1.14E 3,‘2E ?.27E 3;82E 8,23E-01 1;01e-or 1.441-02 2.9‘1-03 b.OOE-04 8,33E-05 P.IPE-06 LI
E3 01 01 01 00 00
7.3OE 4.936 2.82E I,ZSE 4.62E l.SZE b.PbE Z.IbE 1.57E-OI 3;llE-01 l,35E-0'1 4.87E.02 1,32E-02 2,22E-03 4,lbE.04 I.ObE-04 Z.ltE-05 4,88E.06 .
24
I.SlE 1.09E b.‘OE 2.68E 9,OSE 3.14E 1,04E 2.72E P.ZOE 2.83E 1.07E 3.27E.01 7,q8E-02 9.03E.03 1,3OE-03 2.62.E.04 5.5lE.05 7.661-06 L2
b.3t.E 2.96E I.lOE 2.8‘E 6.3bE I.651 4.29E O.I)PE-01 2,58E-01 6,90E-02 2,37E-02 6.531-03 1,28E-03 1.38E-04 1.6.3E-OS Z..StE-06 ‘.lOE-07 Z..SbE-0.3
.
L3 E3
5.7‘E 3.03E 1.32E
01 01 01
4.23E l.ZOE 3.83E.01 ?.ZZE-01 3,2OE-02 l.I?E-02 3.57E-03 l.LZE-03 4,65E-04 I.lPE-04 I ,bZE-05 2,59E-06 5,67E-07 1.181-07 1;62E-08
00 00
04 03 03 02 02 01
04 04 03 03 02 02 02 01 00 00 00
6;8IE 1.35E 3;77E-01 9,bIE-02 3.161-02 1.17E.03 I.468103 l,YbE-0‘ I.SZE-05 P.l‘E-06 2.97E-07 Z;CIE-08
00 00
Sb,P!
iOOE-01
1.67E I.OZE I,24E 5.39E 1.70E 5.291 1.53E 3;35E P.?‘E 2.531 8.38E 2.1bE 3;83E-01 3.611-02 3.991103 b.b4E-04 I.lOE-04 I.llE-05
05 05 05 04 04 03 03 02 01 01 00 00
=5.a4c
7.49E 2.OOE 7.796 1.3‘E l.PlE 3.30E 5.70E 7.3IE 1.45E 2.60E 6.47E I.ZlE 1,44E-01 8,05E-03 5,26E-04 5.3IE-05 ‘,57E-06 1,58E-07
07 07 06 06 05 04 03 02 a2 01 00 00
EE
mS.TSOOE-01
?,SlE 4.88E 1.34E 2,ZbE 3.14E
08 07 07 06 05
5.25E 8;77E 1.07E 2;03E 3.42E 0.05E 1,38E 1,47E-01 6.678-03 3,4.5E-0‘ 2,87E-05 P.lOE-06 ').IlE-08
04 03 03 02 01 00 00
3.03E 1.85E 9.33E 4,lLE 1,6lE 6.9IE 3,OOE I.ISE 5,43E-01 2.47E.O? I .SIE-01 b;lSE.OL P.lOE-02 6.651.03 Z,OIE.03 7,29E-04 2,45E.O‘ S.Z‘E.05 7,45E-06
13 02 02 01 01 01 00 00 00
I.ZlE 7.03E 3.42E 1.25E 4.011E 1.4.8E 5.37E I.651 6.58E 2.48E 1.13E 4,42E-03 1,3bE-01 P.(IlE-02 b,‘LE-03 I .l)dE-03 5;09E-04 8.436-05 9,33E-06
01 01 01 00 00
2.361 1.24E 5.46E 1.79E 5.28E I.79E 6,15E 1.8OE 6.93E-01 2;54E-01 I.IkE-01 4.37E-02 1.32E-02 Z.b8E-03 6.061-04 1.761-O‘ 4.731-05 7,7.3E-06
00 00 00
3,40E l..SIE 7.99E 2.591 7.42E 2.39E 7.7‘E.m01 2,05E-01 7.22E.02 2.36E.02 9*54E-03 3.17E.03 7.fl3E.04 1.15E.04 I..SlE-05 3.67E.06 6,35E-07 5,02E-0.3
*4 04 03 03 03 02 02 01 01 00 00 00
4.498 2.51E 1.14E 3.662 I.OZE 3.13E 9,5bE 2,38E 7.92.E 2.50E 9.8YE 3;lPE t.OOE-01 I.I8E-03 2.04E-02 4.7bE-03 I.OJE-03 l,IZE-04 '1,15E-05
03 03 02 02 01 01 00 00
1.42E b.70E 2.54E 6.77E 1.59E 4.38E 1.23E 2.82E 9.0IE 2.7IE 1.03E 3.27E-01 7;77E-02 I.I4E-02 1.9‘E-03 ‘.49E-04 P,bbE-05 I.ZEE-OS
02 02 01 01 00 00
2,LbE 1.37E 5.22E 1.39E 3,19E ll.4‘E 2.23E 4.691 1.37E 3.68E-OI I.ZTE-O? 3,‘9E-02 6.78E.03 T.ZOE-04 8,46E-OS 1.35E.05 1,63E-06 I.OTE-07
05 05 05 0‘ 04 03 02 02 01 01 00 00
1.65E B.89E 3.77E I.O.eE 2.54E 6.641 1.7lE 3.44E 9.71E 2.53E 8.53E 2.31E 4.48E 4.961-01 6.468-02 I.ZOE-02 2.08E.03 2.03E.0‘ l.‘OE-05
07 06 06 06 05 04 04 03 02 02 01 01 00
05 04 0‘ 03 03 02 02 01 00 00 00
8.55E 3.61E 1.18E Z.S?E LedYE l.OI)E 2.47E 4,LbE 1.18E 2.9OE 9.4lE 2.451 4;SGE.01 ‘*POE-02 b.ZZE-03 1.141-03 I.PSE"04 t,89E-05
04 04 03 03 02 01 01 00 00
2.23E 9.57E 3.17E 6.93E I,ZOE 2.77E 5.99E 9.9bE 2,42E 5.35E 1.57E 3.58E-Oq 5,‘8E-02 ‘,23E-03 3,7IE-04 4,bbE-05 ‘,97E-06 2.141-07
KEV WI
w2
4.5'JE-01 3,17E-01 1.97E.01 I ,OSE.Ol S.ObE.02 2,69E-02 l,“E-02 b.PTE-03 I.PTE-03 2.19E.03 1,3bE-03 7.b‘E.w04 3;7lE-04 1.391-04 5.468-05 2.451.05 I.OIE-05 Z.aZE-06
3.77E 2.24E I.lSE 4.64E 1,73E 7.258-01 3.081.07 I ,ISE-01 5,361.02 2.40E.02 I.ZbE.02 5.878-03
)OE-01
Ml
2;25E-03 6.23E.04 I.ll7E.O‘ 6,7bE-OS 2.2bE.05 4,82E-06
"4
*5 06 06 06 05 04 04 03 02 02 01 00 00
KE" M2
2.658-02 1,78E-02 I,ObE-02 5,2IE.03 2,37E-03 1,IbE.03 5,67E-04 2,441*04 I.ZbE-04 6,1‘E-05 3.‘3E-05 I.bVE-05 6.79E.06 I.PIE-06 5.5OE.07 ,.83E-07 5,2bE-08 8,09E-09
3.54E 2,111 1,07E ‘,ZCE.Ol 1.52E.01 b.OOE-02 2.37E..02 7.991.03 3.38Er03 1.351-03 6.391-0‘ 2,58E-04 8.IOE.05 I.648105 3.47E"06 9.00E.07 P.OOE.07 2.17E.08
n3
M4
"5 06 05 05 04 0‘ 03 02 01 01 00 00
KEV "I
ES 06 05 05 04 03 03 02 01 00 00
M2 00 00 00 00
M,
E5
SHELL
KE”
Z.bbE-04 1, IOE-04 3.06E.05 5,01E-06
EB
05 05 05 04 03 02 02 01 00 00
1.3bE 5.64E 1.79E 3.691 6,bOE I.SIE 2;69E ‘.lbE 9.958 1.97E 5.461101 l.lSE.OI 1,56E-02 l.OIE-03 7,3OE-05 7.968-06 7.84E-07 4.04E-011
4.938 3.412 2.12E l.IIE 5.441.01 2,88E-01 1.54E.01 7,5OE-02 4,27E-02 2,3bE-02 I.L7E-02 8;2bE-03 4.018.03 1.5lE.03 5.93E.O‘
E5
E4
I.IlE 5.2‘E 1.93E 4;88E 1.07E 2.698
07 06 06 06 05 04 04 03 03 02 02 01 00
es
SHELL
7.7lE 3.22E 1,03E 2.17E 3.87E 8.15E 1.72E 2.8OE 6.72E 1.47E 4,28E-01 9.681-02 I,‘GE-02 l.l‘E-03 I.OIE-0‘ 1.3IE-05 1,‘5E-06 7,02E-08
00 Pi ,
l.OIE 6.29E 3,lIE 1.05E 2.8IE 7.9118 2,IbE 4.4‘E 1.25E 3.14E 1.02E 2.57E 4,‘PE 4,08E-01 4.431-02 7,28E-03 I.ZOE-03 1.281-0‘ l.lZE-05
E4 03 03 03 02 01 01 00
24
E2
05 05 05 04 04 03 03 02 02 01 01 00
E4 02 02 02 02 01 01 00 00
=5.9.89”F ES
SMELL
El 01 01 00 00
E8
F4
24
E2 3.17E 1.69E 7.42E 2,‘tE 6.94E.Oj 2.261.01 7,37E-02 l.PPE-02 7.081-03 2.361-03 P,bbE-04 3,29E-04 8,38E-OS 1,5OE-05 2.22E-06 4.938-07 9,78E-08 l.O3E-011
El l.SlE-07 9.49E-02 5.IbE..02 2;22E-02 8).bbE-03 3,67E-03
i
E2
2 EG
KI
1.14E 7.47E 4.13E 1.73E 6.20E 2.3bE 8,711E 2.67E 1.03E 3.67E 1.57E 5;blE-01 l.SOE-01 2;47E-02 4.598-03 1,17E-03 2.961-04 5..321-03 7.456-06
2 EG
24 El
2 t6
.
E2
HZ
I.IlE.02 7.518-03 4.52E.03 2.25E.03 l.O‘E-03 5.151.04
8).7bE 4.74E 2,I‘E 7.2OE.Ot Z.IBE-01 7.47E.02
2,55E-04 I.ILE-0‘ 5,85E-05 2.92E.05 ,.bbE-05 6.3‘E.06 3,48E-06 I.OSE-06 3,35E-07 l.ZPE-07 4.49E-08 1,09E-08
2.5tlE.02 7.50E.03 2.05E.03 I;OZE-03 4,43E-04 I.626.0‘ 4.55E.05 1,0IE-06 1.54E.06 3,83E-07 .5,93E-08 l.‘OE-08
M3 00 00 00
ns
M4
2,‘G.E <.I‘E 4.23E I;OPE 2.48E 6.581 1;77E 3.87E.01 l.IllE-01 3.338-02 l.ZOE-02 3,50E-03 7,3bE-04 (1,65E-05 l.I?E-05 l.LWE-06 2.7bE-07 2,19E-0.5
03 03 02 02 01 00 00
3.35E 1,38E 4.35E P.ObE I,bSE 3.49E 7;63E 1.30E 3,27E 7.54E.01 2,3IE-01 5.53E-02 9,OIE-03 7,68E-0‘ 7,19E-05 9.321.06 9.88E.07 4,32E-08
05 05 04 03 03 02 01 01 00
3.54E I.30E 3,SSE b.OOE 8.58E I.SOE 2;bTE 3.59E 7.4bE l.‘IE 3*b(IE 7.27E-01 9.39E-02 5.776.03 4.041-0‘ ‘.IPE-05 3,37E-06 9.548-08
07 07 06 05 04 04 03 02 01 01 00
Seepage 438 for Explanation of Table
451
Atomic
Dab
and
Nuclear
Data
T&.,sr,
Vol.
18,
No.
5, Novmbr
1976
BAND,
Internal Conversion, Z < 30
and LISTENGARTEN
TRZHASKOVSKAYA,
TABLE. Internal Conversion Coefficients 2 c 6 15 17 20 25 32 40 5c 65 80 100 120 (50
200 300 450 650
1000 2000 6000
Fl t.OlE 7,076 4.44E 2.32E 1.12E 5.751-01 2,93E-01 t.32E-01 6,9SE-02 3,52E-02 2.0lE.02 1,OlE.02 4.23Ec03 1.298-03 4,23E-04 1.7lE-04 6.90E-05 2.158-05 5,25E-06
15 17 20 25 32 LO 50 65 80 100 120 150 200 300 450
650
E3
15 17 20 25 32 40
50 65 *0
too (20 150 200 300 450 650 1000 2000
OS
2.54E 1.50E 7.06E 2.96E 1.3tE 5.748 2.13E 9,64E-Ot 4*09E-cl1 2,02E-01
02 02 01 01 01 00 00
7.12E 4,041 1.73E 6.34E 2.451 9.2OE 2.a3E l.lOE 3.94E I.708 6.0aE-01 l.b4E-01 2.721-02
03 03 03 02 02 01 01 01 00 00
t.93E l.OSE 4.09E 1.319 4.39F 1.42E
05 05 04 04 03 03
8.56E-02 P.a6E-02 6.37E-03 1.56E-03 4.991-04 1,59E-04 3,7lE-05
6,67E-06
l;ItE-01 a.29E.02 3.56E-02 1,7SE-02 7,63E-03 2,5aE-03 5.8OE.04 1.44E.04
01 01 01 00 ;;
15 17 20 25 32 40 50 65 I)@
too 120 150 200 300
450 650 1000 2000
El 1.77E.Ot t.lZE-PI b.lOE-02 2i64E.02 t;03E-02 4,392~03 l,aJbE-03 6.741-04 3.02E-04 t;2aE-04 6.361105 2,73E-05 9.3111-06 2.211-06 5,7SE-07 1,9tE-07 6,lOE-Oa t,37E-08
Ll
6.7OE 4,64E 2.74E 1.23E 4.7IE l.aPE 7.3tE 2;32E 9,19E-01 3.36E"01 1,47E-01 5.33E.02 1;466.02
1.47E-05 3.448-06
:.;$ . 2.7aE.Ot 9,tOE.02 2,4bE-02 (l.'lbE-03 2;93E-03 t,20E-03 4.1OE-04 l.OSE-04 t,63E-05 2,79E-06 6.211-07 t,23E-07 t .3lE-08
- ;;
01
4.77E 4,43E-01 4,861.02 8,0bE-03 1,34E-03 1.45E.04 1,27E-05
00
3;OZE.04 6.251.05 8,75E-06
25
L2
l
ES
7,6900E-01
SHELL
Ml 04
5,50E-01
4,63E
01
1,15E 9.448 4.62E 1.56E 5,OSE 1.52E 3.40E t,OlE 2.65E
05 04 04 04 03 03 02 02 01
3,8lE-01 2.36E.01 1.23E.01 b.OSF-02 3.20E.02 l.TlE-02 a.Z(rE-03 4.70E.03 2.58E-03 1;6OE.O3 a.9aE.04 4;35E-04 1.621.04 6.35E-05
2.75E 1.4OE 5.64E 2,lOE 8.721.01 3.691-01 1.37E.01 6,36E.02 2.a4E.02 1;498-02 6.921.03 2;65E-03
01 01 00 00
2;83E.05
7;W.05
1.17E.05 3,23E-06
2.621.05 5.55E.06
6;8bE
00
2.3lE 4;14f.01 3,96E-02 4.43E.03 7;45E.04 1,25E-04 1,35E-05
00
=b,IZOOE-O?
EB
E4
ES
7.2aE.04 2.IIE.04
w2
05 05 05
9.05E 3.391 V.LTE
07 07 06
3.201-02 2,2lE-02 1,32E-02
4.37E 2.60E 1,33E
3.5lE 7.a4E 2.04E
02 01 01 00 00
2.67E 4.74E l.OlE 2,13E 3.48E S.36E l;a3E 5,35E-01 t.ZlE-01 t.85E.02 t .44E-03 t.OaE-04 t.65E-05 t ;84E-06 a.93E.Oa
04 03 03 02 01 00 00
2.321 1.64E 4,05E 7.02E 9;03E t.8OE 3;23E 8,06E t.50E t,.SOE-01 t.OlE-02
06 05 04 03 02 02 PI 00 00
6.47E.03 2,95E-03 1.44E.03 7.071-04 3.06E.04 1.571.04 7,71E-05 4.3tE-05 Z.lZE-05 8,56E-06 2,4lE-06 6.9bE-07 2,32E-07 6.6?8-Oa 1,02E-01
5,26E-01 1.a8E.01 7.47E.02 2.96E.02 9.9S.E.03 4,23E-03 1,69E-03 8.02E.04 3.24E.04 l.OZE-04 2.071-05 4,40E-06 1,14E-06 2,54E.07 2,77E-08
=25
I.3
3.0bE-08
6,7tE-05
5 ,(IOE-06 2,OlE.07
SHELL
E3 1,3aE 6,42E 2.361 5.991 1;3tE 3.32E 8.39E 1.67E 4.67E-01 l,t9E-01 3.92E.02 t.OlE-02 1.81E-03 I.691104 1.77c.05 2.66E-06 3.701-07
6,6bE-04
EE
E4 04 03 03 02 02 01 00 00
1.66E
6.87E 2.18.5 4.5tE 7.a4E l.btE 3.30E 5;13E l.tI)E 2.448 6.7bE.01 t.42E-Ot t .94E-02 1.251-03 9,09E-05 9.92E-06 9.77E-07 5,02E-Oa
x6.41
OOE-01
E5
06 05 05 04 03 03 02 01 01 00
06 07 07 06
3;82E
05
6.4tE 1.07E t.3tE 2.5OE 4.228 9;93E t.7lE I;atE-01 a,2aE-03 4.33E-04 3,57E-05 2,62E-06 a.85E.01
04 04 03 02 01 00 00
See page438 for Explanation of Table
452
4.70E
PI5 05
2.68E
05
1.24E 4.09E 1,lSE 3.55E 1.09E 2.72E 9.14E 2,abE 1.12E 3,66E a,94E-0, 1,35E-01 2,34E-02 5.45E.03 t.laE-03 1,5OE-04 1,3OE-05
05 04 04 03 03 02 01 01 01 00
l.bOE 8.96E 3.93E l.t6E 2.79E 7.39E t.92E 3.89E l.lOE 2.a8E 9.722 2.631 5,ltE 5,66E-01 7,3aE-02
07 06 06 06 05 04 04 03 03 02 01 01 00
?.37E-02 2.37E.03 2.321-04 1.59E-05
2.89E 1.52E 6.66E 2.17E 6.37E 2.15E 7.36E 2.14E a.23E.Ot 3.01E.01 1;35E.01 5.158-02 1.5SE.02 3,12E-03 7.061-04 2;04E-04 5,49E-05 a.PIE-06
II4 03 03 02 02 01 01 00 00
t,?JE 8.14E 3.06E 8.17E 1.92E 5,26E 1.47E 3.36E 1.07E 3.2OE 1;22E 3.04E-Ot P.llE-02 1.33E.02 2.268-03 5;2tE-04 1.12E.04 l.LlE-05
N5 05 04 04 03 03 02 02 01 01 00 00
t.03E 4.35E 1.42E 3.09E 5.798 1.29E 2.94E 5,ZPE t.40E 3.42E 1;ltE 2.8aE 5.37E.01
07 06 06 05 04 04 03 02 02 01 01 00
5.7tE.02 7.248.03 t;IEE.OJ 2,26E-04 2,18E-05
w4
N3 00 00 00
4.16E 2.22E PialE 3.19E 9.llE 2.96E 9,59E-01 2.55E-01 P.OOE-02 2,95E-02 l.tPE-02 3.9aE-03 9;aLE-04 t.44Ec04 2,28E-05
02 02 01 01 00 00
4.658-06 a.O7E-07 6*4OE-08
3.461 t.66E 6.3SE I.POE 3.89E l.OLE 2.75E 5,aOE 1.7OE 4,5aE-Ot t,58E-01 4.36E.02 8,5OE-03 9,07E-04 l,OTE-04 1.7IE.05 2.33E.06 1,36t-07
115 04 04 03 03 02 02 01 00 00
2.67E 1.15E 3.82E S.39E 1.54E 3.3aE 7.35E 1.23E 2.99E 6.b3E l.PbE 4,468..01 6.651-02 5.318-03
06 06 05 04 04 03 02 02 01 00 00
4,67E-04 5,90E-05 6.3tE.06 2.738-07
KEV nr
1.5aE 5.aaE t,62E 2.74E
I44 04 03 03 03 02 02 01 91 00 00 00
YE" Ml
9.4lE 3,931 1.27E
8.6tE.02 2,97E-02 S.laE-03 1.60E-03 1.74E.04 t.lZE-05 3,55E-06 5,20E-07 3,62E-OS
1.36E 7.95E 3.90E 1.44E 4.7OE t.7lE 6.2lE t.9tE 7.60E 2,abE 1.31E 5.lOE-Ot 1,57E-01 3,22E-02 7,3aE-03 2.15E-03 5.821-04 P.bOE-05 l,OSE-05
H3
HZ
9,OaE
03 03 03
1,tOE 3.2lE.01
113 02 02 02 01 01 00 00 00
KEV
t5
01 00 00 00
3.5aE 2.?9E 1.16E L,II(IE 1,@9E a,lOE 3.522 1.34E 6,33E-01 2,87E-01 1.52E.01 7,12E.02 2,75E.O2 7.658-03 2.30E..03 8,35E-04 Z.aOE-06 5,95E-05 a,3aE-06
7,aOE 3,651 1.36E
5.3ZE
Ot Ot 01 00 00
00 00
2.738
2,46E-03 ‘.66E.O4
E2 7.00E 3;70E t.62E 5.tSE t;4?E 4,69E-0, l.SOE-01 3.93P-02 t.37E-02 4,41E-03 t,76E-03 5.75E-04 t,39E-04 Z.OOE-05 3.221-06 7,03E-07 1.468-07 Z.OOE-00
00
2.505 I.318 6,4OE-01 3,39E-01 l.(llE-01 6,7bE-02 4,9aE-02 2,75E-02 1.70E-02 9.571-03 4.641.03 1.739-03 b,79E-04 3.041-04 1.25E.04 3*48E-05 6,50E-06
00
E3 01 01 00
4.04E
4,lOF.
1.20E.04 3.OaE.05 5.57E-06
*
06
02
04 03 03 03 02 02 02
"2 00
06 05 05 04 0‘ 03 03 02 02
02 PI 01
9.15E 9.04E 5.65E 2.50E a.l)OE 3.t4E 1.06E 2.83E 9.6aE 3.0,E 1;15i 3.54E-01 7;84C-02 9.97E-03 t.45E.03
E2 3.89E 2.07E 9,ltE
02 02 02 02 01 0'1 00 00
5.2.4E
3,bOE
SHELL
KE"
5.2bE
E4
.---
‘
EG
25
06
1.2OE 3.62E 1.36E
El
4,blE-05
El
5.278-06
.
E2
00 tit 1
a,O4E 2.73E 9,baE 2.70E 7,a5E 2,17E 4.548 1.29E 3.298 1.07E
O,PtE-Ot l.llE.01 t,59E-02 3,27E-03 6,72E-04 9.391-05 l.O3E-05
5,09E-03 1.30E-03 3.32E-04 5.991-05 a,36E-06
=6,5390E ES
2.91E
1;15E-@2 6.t6E.03 3.138-03 l.aOE-03 9.14E.04 3.15F.04 I,lSE-04 3.90E.05 I .SaE-05
l.ZlE.06 2.9SE.07 9.03E.Oa 2,50E-08 4.161-09
E4 04
2.74E 1.88E 1.13E S.45E :.N; , 4.74E-01
9.5bE.02 6,04E-02 3,3lE-02 t.441-02 5;69E-03 2.43E.03 1;03E.O3 3,7aE-04 1.70E.04 7;22E.05 3,60E-05 1,54E-05
ES
1,ObE
2 ES
SHELL
02
7,7tE-01 5,49E-01 3,5lE-01 1.88E.01 9.29E.02 4,SbE.02 2.52E-02
t.PPE-06
Ul
3.72E
El
6.30E.06
1000 2000
25
FZ 01 00 00 00 00
2 ES
=
1,35E-02 9.t5E.03 5.51E.03 2.75E.03 1;27E-03 6.3OE.04 3.13E.04 1.3aE-04 7,19E-05 3.59E-05 2;04E-05 I.03E.05 4,29E-06 t,30E-06 4.141-07 1.57E.07 5.54E.08
1*34E-08
M2 l.tIE 6.I9E 2.79E 9.3aE.Ot Z.a3E-Ot 9,6aE.O2 3,34E-02 9.66E.03 3.661103 1,30E-03 5.66E.04 2.071-04 5.77E-05 t;OlE"OS t.931106 4.79E.07 l.ttE-07 t.73S.08
)I3 Ot 00 00
3.32E 1.53E 5.64E t.45E 3.27E 8.66E 2.336 5.05E.Ot t,53E-01 4.32E-02 t;55E-02 4.521-03 9,45E-04 t.tlE-04 t.4lE-05 2,39E-06 3,47E-07 2,72E-Oa
n5
w4 03 03 02 02 01 00 00
4.5OE l.aLE 5,aOE l.ZOE 2;t5E ‘.60E 1,OOE 1.7OE 4.26E 9.79E-01 2;99E-Ot T.tIE-02 t.t7E-02 9.851.04 9.2tE-05 I.IPE-05 t.PSE-06 5,4tE-011
05 05 04 04 03 02 02 01 00
4.72E t,73E 4,69E
07 07 06
7.94E
05
t.13E 1.97E 3.5OE 4.6SE 9.71E I,a3E
05 04 03 02 Ot 01
4,TbE
00
9.396-01 t.2lE-Ot 7;4tE-03 5.tTE-04 5.26E-05
4,29E-06 l.etE-07
BAND, TRZHASKOVSKAYA,
TABLE. 2 EG
hl
15 17 20 25 32 ‘0 50
1.08E 7.56E 4.76E 2.50E 1.21E 6.241-01 3.791.01 1 .“E.Ol 7.6&E-02 3.abE-02 2.2OE.02 ?;llE-02 ‘.67E-03 ‘1,‘2E-03 ‘.7?E-0‘ l.PlE-0‘ 7,70E-OS L.‘OE-05 5,83E-06
65 10 100 120 150 200 300 450 650 1000 2000 6000
El
15 17 20 25 32 ‘0 50 65 80 100 120 150
O,BCE.ol 5,89E-01 3.78E.01 2,03E-01 l,OlE-01 5,30E-02 2.768.02 1,27E-02 b,79E-03 3.461-03 2.00E-03 1 .OtE-03 4;301.04 1,32E-0‘ 1,39E-05 1,79E-05 7.216-06 2.25E.06
200 300 ‘SO 650 1000 2000
01 00 00 00 00
3.7CE 2;55E Y.53E 7.3lE IslOE 1.39E 6.llE 2.29E
02 02 02 01 01 01 00 00
15 17 20 25 32 ‘0 50
65 80 100 120 150 200 300 050
650 1000 2000
E? l.lZE-01 7,OPE.02 3,9dE..02 1,7lE-02
6,76E-03 2,90E-03 (.2&E-03 ‘,55E-0‘ 2,06E-0‘ .5.76E-05 ‘.JCIE-05 1 ,WE-05 6,‘56.06 l,b9E-06
3,68E-07 ? .lZE-07 J.lOE.OI 5,16E-09
?.ObE
00
4.43E-01 ?.2OE-01 9.35E-02 3,13E-02 7.OlE-03 1 .73E-03 S.SSE-04 1.77E.04 b.lSE-05 7,‘4E-06
15 17 20 25 32 ‘0 50 65 GO 100 ?20 150 200 300 450 656 1000 2000
ET 2,07E-ol 1.3'1E.01 7;16E.02 3.llE.02 l.ZtE-02 5,22E-03 2,22E-03 G.OGE-06
3,63E-04 7.5‘8..04 7;68E-05 3.3lE.05 l;YbE-05 2.70E-06 7.06E-07 2;3‘E-07 7.L6E-08 1.671-08
See page 438 for E xplanatior
26
01 01 01
LV
5.6bE 2.461
00 00
1.13E S.OPE-01 ? .9SE-01 .5,99E-02 S.EPE-02 1 .PSE-02 .5,6OE-03
00
6,OlE 4.30E 2.6lE l.ZlE 4.75E l.P‘E 7.6lE 2.45E 9,78E-01 3.60E-01 I, SEE-01 5,79E-02
=
L2
03 03
1.66E
03
‘,29E 9.638 2,SOE 6.5‘E 1.36E 3.97E-01 l.O6E-01 3,67E-02 1 .OPE.OZ 1,99E-03 2,17E-0‘ 2,65E-05 b.LSE-06 6. SbE-07 4.5bE-08
02 01 01 PO 00
26
01 01 01 00 00
05 05 0‘ 04 0‘ 03 03 02 02 01 01 00
6.12E 4.27E 2.35E 8.8OE 2.56E 7.65E 2,16E 0,blE 1,32E 3,‘lE 1.12E 2.84E S,OPE ‘,78E-O?
06 06 06 05 05 0‘ 0‘ 03 03 02 02 01 00
EG
0‘ ;;
03 03 03 03 02 02 02 01 01 00 00
=8,4bOOE-01
4,3SE
04
7:29E 1.6OE ‘.O‘E 1.02E 2:0&E 5.7lE-01 1.44E-01 4,.5lE-02 1.25E-02 2;23E-03 2,09E-04 2,19E-05 3.2.5E-06 L.S6E-07 3.768-0.5
02 02 01 01 00
'.,21E 2.57E ?.36E 5.721 2.2lE 9.4bE ‘.OPE 1.5bE 7.33E.01 3.32E-01 1.76E.01 Il,ZOE-02 3.16E.02 (l,l?E.03
02 02 02 01 01 00 00 00
2, b3E-03 9.53E.06 3,lBE.0‘ 6.7‘1.05 9.39E.06
Mb
l.SOE .¶.87E 4.396 9.63E 5.31E 1.96E 7.1&E 2,ZOE 8,T‘E 3.29t l.SOE S.dSE-01 1 .tlOE.Ol 3,69E-02 8,‘2E-03 I.LSE-03
0‘ 03 03 03 02 02 0, 01 00 00 00
4.791 2,I)lE 1.33E 0.491 1.28E 3.99E 1.23E 3.09E ?,ObE 3.21E 1.21E b.17E l.OPE 1 .SIE-01
tls 05 05 05 0‘ 0‘ 03 03 02 02 01 01 00 00
L,bbE-02 6,20E-03
6.63E.04
07 06 06 06 05 0‘ 04 03 03 02 02 01 00
l,SbE-02
1.35Er03 1,7lE-0‘ l.‘7E-05
1 .OPE-0‘ 1.18E.05
1,SOE 8.79E ‘.OlE 1.23E 3.03E 1.15E 2.14E 4.37E 1.2&E 3.26E 1.1oe 2.998 5.8lE 6.4‘8-01 0,39E-02 2.701-03 2,63E-0‘ 1.8OE.05
KEV H3
M2
m5
M‘
6.35E
04
6,5?E-03 ‘.54E-01
5.65E 3.3&E
01 01
3.521 l..SSE
03 03
2.09E 9.8lE
05 01
q.23E 5.20E
07 06
04 04 0‘ 03
2.OZE.01 '1,‘7E-OI 7.19E.02 3.G.OE-02
1,IOE b,,G(E 2.SLE l.OCE
01 00
G.ObE 2.61E
02 02
03 02 02 01 00 00
2.026-02 9,75E-03 5.53E.03 3.03E.03 1,07E-03 1 .OSE-03 S.OTE-04 l.ME-0‘ 7.348-05 3.261-05 1.311-05 3,68E-06
4.39E.01
01 01 00
1.7OE 3.688 6.89E 1.5‘E
1.48E J.‘EE 1,03E 2.7bE 9.30E 2,458 k,‘SE-O? b.328102 L,90E-03 8,32E-0‘ 1 .‘lE-0‘ 1.54E.05
7,651 2,SbE 8.768
04 03 03 02
06
00
3.7OE 9.8OE 2.29E 6.261
2.5&E 9.72E.01 3.5‘8-01 l.S8E-01
00
1.7‘E 3.97E l.LbE 3.7bE 1.431 ‘,‘PE-01 l.O6E-01 l.SSE-02 2.62E.03
02 01 01 00 00
3.40E 6.2SE 1.6‘E ‘.OlE 1.3OE 3.36E 6.251-01 6.62E-02 8,38E-03 l.S3E-03
03 02 02 01 01 00
=7,2300E-01
00
1,62E-01 7,52E-02 3.35E.02 1,76E-02 8.llE.03 3.091-03 8,47E-0‘ 2.52E.0‘ 9.08E.05 3,02E-05 6.361.06
nr 4.03E.02 2.7qE-02 1.62E-02 7.97E.03
5,3SE 3.19E 1.63E 6.66E.0,
2.84E 4.92E 8.5bE 1,llE 2.2lE 3.9IE
05 0‘ 03 03 02 01
3.63E-03 7 ,TdE.Ol 8,76E-0‘ 3.79E.06 1.95E.06 9,59E-05
9,948 1,tlbE Z.Z‘E-01 1,26E-02 0,33E-0‘ 0.42E.05
00 00
5.378.05 2,bSE-05 l.O'IE-05 3.02E.06 73E.07 L.PlE-07 4.391-01 1 .Z(IE-0.5
2.32E.01 P,IlE-02 3.bSE.02 1,2‘E-02 5.2SE.03 2.10E.03 9.91E.0‘ ‘,OIE-04 (.27E-0‘ 2,SPE.05 5.52E.06 l.‘SE-06 5.20E.07 3,‘9E-01
a.
=7.1000E.01 ES
b.O3E-0‘
Z,blE-04
(,ZPE-OL T.bZE-05
l.O3E-05
Z.SlE-OS
H3 00 00 00
H‘
n5
5.04E 2,69E 7.19E 3.88E
02 02 02 01
1.13E 1.99E 7.6‘E 2,OSE
04 0‘ 03 03
1.12E 3,63E l.lI)E 3.lSE-01 l.llE-01 3,65E-02 t.42.E.02 ‘.94E-03 l.ZJE-03 1,8lE-0‘ 2.86E.05 5.85E-06 l.OEE-06 8,09E-08
01 00 00
L.75E T.ZbE 3.36E 7,+2E 2.09E 5.65E.01 1.9bE.01 S.‘OE-02
02 02 01 00 00
3.15E 1.36E
06 06
4.56E
05
l.OOE
05 06 03 02 02 01 00 00
1.06~-02 l.l3E-03 1.34E..04 Z.lSE-05
l.a7E L.09E 6.93E l.SOE 3.661 a.l‘E 2.4lE S.SOE-01 8.491-02 6,blE.03 5.8bE-04 7,39E-05
2.93E.06
7.93E-06
1.72Em07
l.lbE-07
UEV Ml
n2
l.E(IE 6.991 1.93E 3.29E ‘,59E 7.73E I.301
08 07 07 06 05 0‘ 0‘
T .63E-02 l.llE-02 6,67E-03 3.33E-03 1,56E-03 7,65E-04 3.8lE.04
t.UE I.OOE 3,bOE 1.2lE 3,64E-01 1.2‘E.01 ‘.27E-02
1.59E 3,0&E 5.1bE 1.21E
03 02 01 01
1.b.S.E.Ob ll.l'lE-05 4,3L)E-05 Z.CPE-05
1.651-03 7,17E.O‘
2.OPE 2.22%-Oq
00
1.26E.OS 5.251-06 ,,59E-06 5,07E-O? 1 .PPE.OI 6,7GE-Oa 1,6‘E-OR
2.6lE.O‘ ?.26E-05 1.278-05 2.4lE.06 5.93E.07 1,37E-07 2,?2E-0.3
l.OIE-02 5,33E-OL 4.4lE.05 3,24E-06 l,OPE-07
2.3bE-06 6,33E-OS
*2
08 07 07 06
EG
b.OIE-02 1,8lE-02 3.63E-03 8.1.5E-0‘
OS 0‘ 0‘
KEV
l,OEE 1.06E ?.1‘E q.97E
7.29E.06 2,5&E-07
06 05 OS 04 03 03 02 01 01 00
M3
HZ 00 00 00 00
Ml
ES Ob 05 05 0‘ 03 03 02 01 01 00
KE"
6.66E 3,82E l.‘lE ‘,8lE
EB
SHELL
1.99s 8.25E 2.63E S.‘CE 9.49E 1.95E 4.02E 6.26E 1.44E 2.98E 8,28E-01 1 .?‘E-01 2.3116-02 1 .S‘E-03 1 .lZE-04 1,231-05 1,21E-06 6,18E-08
6.89E 1.762 2.95E 1.53E 7.50E.01 3.968-O? Z.l?E-O? 1 .OZE-01 5.79E-02 3,18E-02 1.97E.02 l,lOE-02 5,33E-03 1,99E-03 7.7SE.04 3.45E.O‘ l.‘ZE-0‘ 3.9lE.OS T.Z‘E-06
ES
E‘
1.66E ;,;;E
00 Ml
5,30E-02 8,bPE.03 1,‘9E-03 1.638-0‘ 1 .GPE-OS
SHELL
1,l‘E 4.76E 1.53E 3.24E 5.81E 1.23E 2.62E 6.22.E 1.03E 2.26E 6,blE-01 1 .SOE-01 2.30E.02 1.79E-03 1.601-0‘ 2,07E-05 2.326-06 (.13E-07 LJ
EJ
E2
-7.1140E ES
E4
9,SOE b.‘SE
=
EB
SHELL
6.21E 7.13E 4.8&E 2.29E 8.45E 3,llE 1.08E 2.92E l.OlE 3.18E 1.22E 3,80E-01 I.SOE-02 1.09E.02 1 .6lE-03 3,38E-04 7.06E.05 9.95%-06
E3 01 01 O* 00 00
2.03E.OS 3;‘7E-06 7.768-07 1 .S‘E-07 ?,63E-08
6.47E 4.48E 1.96E 6.26E 1.78E 5.70E"01 1.83E"O? L,8OE-02 1.67E.02 5.391-03 2.,SE-03 7,05E-06 1.7lE-0‘ Z.‘bE-05 3.961-06 8.65E.07 1 ,IOE-07 2,65E-0.9
02 02 02 02 01 01 00 00
26
EZ 4.72E 2.51E 1,llE 3.6qE 1.0&E 3.‘lE-01 l.lZE-01 I,OPE-02 l.OIE-02 3.6lE.03 1.49E.03 5.07E.04 ?;30E.OL
Conversion Coefficients
E‘
1 .bOE-02 2.72E-03 5,20E-Ob 1,35E-Ob 3,&9E-05 6.33E..06
2,85E-03 6*‘6E-04 1,6lE-04 5,19E-05 1,66E-05 3,90E-04
SHELL
2.42E 1;bBE 9.54E 3,8aE 1.2SE ‘.‘OE l.‘SE 3.72E 1.25E 3,I)lE l.44E 4.3e.E 9.511E.01 l.tOE-01 1.7‘E-02 3,6?E-03 T.SOE-0‘ 1 .OSE-04 l.l6E-05
El
E2 2.75E 1.9lE ?.16E
03 03 03 03 02 02 0, 01 01 00 00
9,35E-06
=
Internal E‘
6.72E-05
2 EG
Kl
9.65E 6;60E 3.89E 1.7lE 6.42E 2,52E 9.57E 2.9aE 1.16E 4.20E l.a2E 6,55E-03 1.78E..07 2,98E-02 5.616-03 l.k‘E-03 3.716-0‘
2 Et
26 E3
2 EG
s
22
Internal Conversion, Z < 30
and LISTENGARTEN
H3 01 00 00 00
1,23E-02
‘.‘OE 2.02E 7,432 1.9OE 4.2t.E 1.13E 3.02E
4‘ 03 03 02 02 01 01 00
6.53E-01 l.PTE-01 5.551-02 l.PPE-02 5.771-03 ? .20E-03 1 .‘OE-0‘ 1,78E-OS 3.00E-06 ‘.34E-07 3.36E-08
4.651.03
w
5.95E 2.43E 7.63~ 1.58E P.IOE 5,98E 1.3OE
05 05 04 0‘ 03 02 02
6.,9E
07
2.26E 6.14E 1.0&E 1.47E 2.568 4,52E
07 06 06 05 04 03
2.2OE 5,49E 1.261 3.84E.01 9.151-02 1.49E.02 (.25E.O3 1 ,lTE.Ob 1.5OF"OS I, 58E.06
0, 00 00
6.035 1.25E 2.35E 6.lOE t,ZOE l.S‘E-01 9.‘3E-03 6.578.0‘
02 02 0, 00 00
6.668-05 5.42E-06 T.SlE-07
6.73E-06
I of Table
453
Atomic
Data
and
Nuclew
DetD
hblsr,
Vol.
18.
No.
5,
November
1976
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 = 27 EG 15 17 20 25 32
‘0 50
65 60 100 120 (50 200 SOC ‘50
650 1000 2000
6000
El 1.14E 5.05E 5.09E 2.bSE l.SOE
EE 01 00 00 00 00
6;7‘E.O( 3.4bE-01 1,57E-01 8,SEE.02 4,2lE-02 2.4lE.02 l.ZZE-02 5,14E-OS 1.57E.03 5.2lEr04 2,12E-0‘ 8,55E.05
2.661-05 6,441-06
S.bSE 2.55E 1.55E 7.5SE 3.2SE T.‘bE b.‘OE 2.4&E l.llE C.77E-01 2.38E.01 l.OlE-01 3.42E-02 l.bPE-03 l.PlE-OS b.l5E-0‘ 1,97E-04 4.62E-05 2.,26E-06
El
IS
8,77E-01
17 20 25 32 ‘0 50
6.2bE.01
02 02 02 01 01 01 00 00 00
65 80
100 12c 150 200
300 ‘50 650 1000 2000
2.73E 1;92E (.lbE 5,b‘E 2.5bE 1.19E 5.4lE"01 Z,OPE-01 P.lOE-02 4.221-02 2,lSE.02 9,19E-03 S.lSE-03 7.(bE-04 1,79E-04 5.8lE-05 1 ib7E.05
2.528-06
4,39E-06
El
15
1 ,SOE-01 8.256-02 4,5bE-02 Z.OOE-02 7.97E.03 3;‘46-03 1.48E.03 5,4&E-04 2,hOE.06 l.O5E-04 5;28E-05 2.28E-05
17 20 25 32
‘0 50 65 b0 100 120 (50 200 300 450
7;83E-06
650 1000
1,8lE-06 4.501.07 l.S'IE-07 3,115~08
2000
6.351-09
EG
50 65 80 100 120 150 200 300 45c 650 1000 2000
03 02
2.58E 9.9lE S,lZE 1.2SE
02 01 01 01
‘;4bE
00
1.9‘E 7.04E-01 1.92E-01 S.Z‘E-02
00
=
01 01 01 00 00 00
27
02 02
02
1,18E
02
4.7bE
01
1;97E 7.87E 2.57E 1.03E 3.84E.01 1.70E.01
01 00 00 00
6.268-02 5.761-04
00 00
9.blE-07 (,PPE-07 Z.OSE-08
27
LB
.
00
b.aaE-01
Z.blE-03 L).5bE-04 2.0bE-04 3,00E-05 4.8SE-06 1,05E-06 2.19E-07 2,98E-08
2.02E 9.38E S.‘bE 8,bOE 1,9SE 4.89E 1,24E 2.488
6,9bE.01 1,77E-01 5.85E.02 (,52E-02 2.721-03 2.551-04 L.b7E-05
‘.01E-06 5.571-07 ‘.5bE-08
9.8IE 4.92E 1.85E
OS 03 03
01 01 00 00
b,lZE
02
2,45E-01 1.188-01
2.57E l.lOE ‘,75E 1.80E
OS
b.b9E-02
8.4bE-OT
2.24E 8.17E 2.52E 1,OOE
02 01 01 01
02 02 01
3.678-02 2,2bE-02 1.278-02
3.7bE 1.72E
00
b;llE-OS
3,82E-01 2.02E.01 9.4lE.02 S;bZE-02 l.OOE-02 S.OOE-03 1.02.E.OS
00 00 00
‘.62E-01
2.276-03 b.8lE-0‘ 3.911.04
1 .bOE-0‘
?.bOE-01 5;39E-01 3.3&E-01 1;?4E.O1 8,‘PE.02 4.CbE.02 2.SbE-02 l.l4E-02 b.‘TE-03 3,55E-03 2.196-03 1.22E.OS 5.88E.04 2,18E-04 a,4SE-05 3.7‘E-05 1.538-05
=7,9400E-01
03 03 02 02 01 00 00
5.7lE 1.85E S.PlE 7.02E 1.49E 3.18E 5.211
05 05 04 03 OS 02 01
1.2bE 2,768
01 00
b.llE-Ol q.blE-01 2;asE-o2 2,22E-OS l.P9E-0‘ 2,58E-05 2,89E-06 1 .‘lE-07
SHELL
6.532
01
1,14E 2.35E L.b5E 7.57E 1.74E
04 OS 02 01 01
S.bZE
00
1.01E 2*42E-01 Z.POE-02 (.lllE-03 $.37E-04 1,50E-05 l.&bE-06 7,54E-08
00
6.11bE i;O‘E 2.05E b,lbE S.OlE 1.2‘E 5,2'(E-01 1,PPE.01
01 01 01 00 00 00
8.861-02 3.93E.02 2,05E-02 P.LbE-03 3,59E-OS 9.821-04 2,9lE-04 l.O‘E-04
3.468.05 7.261106
kl
4.2bE
03
2.2SE 9.70E 3,lSE 9,lSE 3.05E l.O‘E S.OOE 1,lLE 4,qIE.Ol 1.85E.01 7,02E-02 t.lOE-02 4.211-03 9,‘2E-04 2.71E.04
OS 02 02 O'I 01 01 00 00
1.18E.05
n2
07
1,SbE 2.3bE
07 06
3,24E 1,“E
02 02
05 0‘
1.69E I.366 ‘.blE l.“E
01 01 00 00
03
‘.bbE-04
2.69E
02
4..55E 1;ZlE 2.2bE 2;75E-01 1.556-02 l.OJE-03 l.OSE-0‘ 9,08E-06 S.l7E-07
01 "1 00
2,41E-04 q.lLlE-0‘
S.b7E I.981 7,87E.O1 2.8SE.01 q,lSE-01 ‘.‘bE-02 l,52E-02 b,45E-OS 2,59E-03 l.ZSE-03 4,99E-04 1.58E.04 3.221.05
00 00
3,4lE 5.9SE l.O‘E l.S‘E
S.SOE-02 I.PbE-02 9,74E-OS 4.458-03 2,19E-03 1.07E.OS
6.646-05 3.281-05 1,3SE-05 3,75E-06 1,09E-Ob
3,bSE..07 l.O5E-07 l,bOE-Ob
=7,7900E-01
b,ZZE 1.47E 2.5‘1 P.?OE-01 1.241-02 6,5lE-04 5.401-05 S;PbE-06 1,34E-07
01 01 00
02
1.24E 3.38E
02 01
6.5bE
00
05 05 0‘ 04 03 02 02
4.68E
01
q.‘bE ‘.‘OE 1.67E 5,23E-01 1.2SE.O( 1.798-02 S.OZE-OS
01 00 00
1.47E
07
b.18E
06 06
2.02E 4;37E b.lSE 1.8lE ‘.lOE 7.3‘E 1.92E 4.69E t.5lE 3.91E 7.25E-01 7.67E.02
05 04 0‘ OS 02 02 01 O( 00
9.641-03 1.7bE-03 S.OOE-04 2.8bE-05
4.906 2.3bE 9.12E 2,LSE 5.7lE 1.53E 4.07E b.65E 2.55E
w5 0‘ 0‘ OS OS 02 02 01 00 00
3.69E
06 Ob 05 05 04 03 OS 02 01 00 00
3,85E-01 1 .JbE-01 4.4bf.02 l..52E-02
2.39E.01
b.O9E-OS
6.631-02
b.TSE-01
1,5lE-03 2.2‘2-04
l.SOE-02 1.40E.03 1,6bE-0‘ 2.67E.05 3,66E-06 P.lIE-07
(.04E.O1 8.15E-03 7.231-04 9.19E.05 9.2.91-06 4.318-07
3,5bE-05
1.79E.06 ‘.OOE-07 b,SbE-08
7.291-06 1.278-06 l.OlE-07
M2 1.90E 1;03E ‘.blE 1.54E ‘;bSE-01 1,58E-01 5,LPE.02 1,5bE-02 5,b7E-03 2,ObE.03 8,99E-04 3.27E.04
6.371-06
9;068.05
1.936-06
1*57E-05 2.97E.06 7.291-O') (.67E-07 2,57E-08
2.338-07 b;22E-08 ,.9&E-Ol
454
3.67E
1,bOE 5.38E 1.19E 2.24E ‘,9,E 1,ObE 1.8lE 4.44E 9.9lE 2.94E
6.88E.06
1.9bE-02 1;33E-02 b.OOE-03 3.992-03 l;b5E-03 9.211-O‘ ‘.59E-0‘ 2.021-04 l.ObE-04 5,SOE-05 3.021-05 l.SPE-05
6,15E..O?
See page 438 for E xplanation I of Table
0‘ 0‘ OS OS
6,90E-01
UEV Ml
02
8.922 2.37E 4;89E 1.4OE
W‘
4,82E
3,bbE
2.5lE l.lbE 4.43E 1.17E 2.726 7.42E 2.061
w
02
08 0, 07 06 OS 0‘ 04 OS
05
M5
l.‘OE-0‘ 1,86E-05
6.05E
2.22E 8;28E 2,SOE 3.91E 5;491 9.2bE 1;5bE 1.92E
06
S,ZbE
7,SOE-01 9.511.02 l.?7E-02 3.068.03 2.981-0‘ 2.021-05
6.9SE.06
7.261-05
00
0‘
07 06
06
1.29E
lb‘
6.49E
E5
02 05
00 00
4,9lE*02
E4
06
4.7‘E 1,14E $.75E-01 3,02E-02 ?.O‘E-OS 1.53E.03 1;931.04 1.651-05
08
Eb
2.38E 9.87E 3.15E
01
4;osE
KEY
ES 1.28E
l.‘bE
rs
HZ
4,17E-06
ER
00
1.37E 8.44E
KEV Ml
04 04 04 OI 0‘ 03 OS 02 02 01 0" 00
00
05 05 05 04 0‘ OS 03 02 02 01
2,05E-01 4.20E.02 9.58E.03 2.79E.03 7.52E.O‘ 1.2SE.O‘ l.SZE-05
7.058-05
M5
4,80E 2.9OE Y.‘2E ‘.BPE 1.42E 4.47E 1.39E 3.50E 1.18E 3,7lE
6,681-O+
S.blE-0‘ 7.bOE.05
4.3.51-05 8.02E-Ob
5.5lE 3;24E 4.32E 3;OlE 1.25E 4.49E 1.4‘E 3.4lE 1,04E 2.84E 9.69E 2,5bE 4.751-01 4,68E-02 5.388-03 9.2‘E-0‘ 1.58E-0‘ I.746105
06
04 OS OS 02 02 01 01 00
02 01
5.57E 3.45E 1.79E 8.758-01
ES
SHELL
ES 02 01 01 00 00
04
02
1,59E 6,671
06 06 05 05 0‘ 0‘ 03
1,SbE
LS
1.6&t
S.OlE
S.SbE 1.98E 7.89E 2,‘OE 7,401 2,lSE 4.651 I.351 3,53E 1.17E 3.03E 5;‘OE 5.1&E-01 5,77E-02
EB =9,2bOOE-01
03 OS OS OS 02 02 02 01 01 00 00
Mb
02
4.92E
1.821-0‘ 1,59E-05
SHELL
MS
HP 00
9.7bE.03 1,65E-OS
Z < 30
KE"
8.07E
04
27
00 Ml
06
E4
5.68E.08
E2
2,2lE-01 5,8OE-02 Z.OZE-02 6.5SE-03
00
l.OSE l.SOE-01 1.90E.02 3,98E-03 8,SPE-04 l.llIE*0‘ l.ZPE-05
7;9SE-05 l.l3E-05
1.15E 5.38E 2,OlE 5,201 1.17E 3.05E 7.9.5E 1,bbE 4.856-01 l.SlE-01 ‘;5tE.O2 1.25E-02 2;4bE.O3 Z.bPE-0‘ 3,29E-05 5,5SE*Ob b,l4E-07
‘.lSE-01 1,3bE-01 3,bL)Er02 l.S2E-02 4.4lE-03 1;82E-OS b.ZZE-04 l;bOE.O‘ 2,50E-05
2;62E-OS
4.65E
ES
‘.SbE 1.2bE
l.OZE 5.37E 2.35E 7.55E 2.15E
02 02 01 01
1.782-03 3.768-0‘
1.5lE-04 3;92E-05 7,15E-06
01 01 07
Fl
OS
3.82E l.SOE 3.99E 1.52E
5.SSE 5;341 4.02E 2,ObE 8.02E S.OSE l.ObE 2.99E 1.05E 3.33E 1.29E 4,OSE.01 P.lbE-02 1,19E-02
1.74E.02 2,99E-03
5.691 S.OSE l.S‘E
2,39E-01 l.SlE-01 8.321-02 S.bSE-02 l.‘SE-02 6.158-03
1,4bE
Conversion,
Coefficients
4.48E
EL
2,4bE
.
=7.70908 E5
05 05 0‘ 04 04 03
Ll
5.278 3.9lE
EZ
EB
l.PSE 1.43E 8*55E 3.6‘1 1.25E 4.378
E3
4.29E.06
9.58E-04 ‘;SZE-0‘ 1*84E-0‘ 9,19E-05 3,9bE-05 1.371-05 3,21E-06 8,54E-07 2,bYE-07 9,0SE-08 Z.OZE-08
1.69E b.‘bE
1.59E.03 4,12E-04 7,51E-05 1.04E.05
2
15 17 20 25 32 ‘0
OS OS 03
b.lSE-03
2 EG
SHELL
Conversion
F‘
8,blE L.T?E S.?lE
E2
4.05E.01 2,lPE.01 (.OPE-01 5.7bE.02 3,OtE-02 1,39E-02 7,LbE-OS S.bZE-OS 2.20E.03 1.13E.03 ‘.77E-0‘ l.‘7E-04 4,92E-05 2,OlE.05 ll.lOE-06
K,
ES
2 EG
Internal
Internal
5.79E
OS
2,bbE
03
9.721 2.47E 5.548
02 02 01
1.4bE
01 00
3.8bE 8.37E.01 2.52E.01
7,ObE-02 2.538-02 7.3lE-03 7,528-03 1.7bE.O‘ 2.238-05
3,74E-06 5.S?E-07 ‘,lOE-08
I45
Ml
NY Oq 0, 00 00
7,bSE S.qLJE 9.98E 2.05E
05 05 0‘ 04
S.bSE
03
7.73E 1.672 2.82E 7.01E l.bOE ‘.bOE-01 1.16E.01 q.L)OE-02 1,58E-03 l.llE-0‘ 1,8"E-05 T.97E.06 8.296.00
02 02 01 00 00
b.OPE 2;95E 7.98E 1.34E 1.9OE 3.29E 5.80E 7.72E 1.59E 2,99E 7.75E 1.52E 1,95E-01 1.198-02
8.2bE-04 8.sbE.05 6,7(1E-06 1,87E-07
07 07 06
06 05 0‘ 03 02 02 01 00 00
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 EC 15 17 2c 25 32 40 50 65
80 100 12c 150 200 300 450 650 1000 2000 6000
Fl ?.21E 8.55E 5.4lE 2.84E 1.40E 7.25E.01 3,?3E-01 1.69E.01
01 00 00 00 00
9;03E-02 4.5GE.02 2,63E-02 1,34E-02 5.631103 1,73E-03 5.751-04 2,358.04 9.47E.05 2.941-05 T.lOE-06
15 17 20 25 32 40 50 65 GV 100 120 156 200 300 450 650 IOOV 2000
3.53E 2.52B 1.56E 7.7lE 3.35E ?.53E 6.a4E 2.59E 1;19E 5.12E.01
02 02 02 01 01 01 on 00 00
9,30E-01 6.68E.01 4.32E.01 2.341-01 1 .llE.Ol
2.lOE-03
6;78E-04 2.186-04 5.13E.05 9,‘13E-06
6.22E.VP 3.261-02 1,51E-02 8,15E-03 4.18E.03 2.42E.03 1,24E-03 5.28E.04
1.641-04 5.48E.05 2,24E-05 9,07E-06 2.821-06
5.99E 2.6LE 1.25E 5.73E.01 2.231-01 l.OCE-01 4.55E-02 2,30E-02 l,OOE-02 3,43E-03 7.69E.04 1;94E-O4 6.48E.05 2,09E-05 4,93E-06
75 17 20 25 32 40 50 65 80 100 120 q50 200 300 450 650 1000 2000
1.49E.01
01 01 01 00 00 00
,; sac-09. 5,2aE-02 2.33E.02 9.32E.03 4,04E-03 1,74k.o3 6.441-04 2;93E-04 1.26E.04 6.3lE.05 2.73E.05 9,43E-06 2.2oE.06 5.472.07 1,47E-07 4.65t.08 7,75E-09
2
El
32 40 50 65 GO 100 120 150 200 300 450 650 IVOV 2000
2.74E.01 1.74t.01 P.bOE-02 4,21E-02 1.672-02 7.192-03
s;ose.oY
l.l3E-03 5;lnE-04 P.lIE-04 l.OPE-04 4,72E-G5 1,64E-05 3,90E-06 l.OZE-06 3,40E-07 1.09E.07 2.431-01
3.12E 2.56E 1.63E 6.9LE 2.23E ?,OPE 2,OPE 4.668 1;38E
06 06 06 *5 05 04 04 03 03
3.63E
02
j.59.5
01
4.9lE 1.09E l.lOE-01
00 00
1.21E 3.17E 5.7lE 5,50E-01
02 01 on
2,07E-02
6.241.02
4.3bE.03
1.07E.02 1.83E.V3 2,031.04 1.771.05
SHELL
3,07E 3.73E 3.22E 1.02E 7.51E 2.95E 1,07E 3.041 1,OIE 3.47E 1,36E 4.30e.01 9.83E.02 1.3OE.02
02 01 01 00 00 00
6i3bE.04
1;951.03
?.67E-04 4;39E-05 8.OCE.06
4.17E-04 8,a7E-05 1,27E-05
D28
I.2
04
6.46E
03
2.41E 6.26E 1.4lE 3.68E 9;dSE 2.02E 5;89E.O1 1.59E.Ol 5.50E.02 l.§2E-02 3,0lE-03 3.30E.04 4.05E-05 6.83E-06 l.OIE.06 7.03E.08
03 02 02 01 00 00
l
28
03 03 03 03 02 02 02 01 01 00 00
0‘
SHELL
1;12E 4.13E 1;05E 2.3lE 5.87E 1.49E 2.96E 8,36E-01 2.14E-01 7,06E-02 1,.53E-02 3.29E.03 3.09E.04 3.24E-05 4,G.bE.06 6.75E-07 5.52E.08
04 03 03 02 01 01 00
2.I1VE 1;lTE 3.73E 7.76E 1.36E 2.8lE 5.EOE 9.07E 2.09E 4.35E 1.2tE 2.55E.01 3.515-02 2.281-03
1.661-04 l.OZE.05 1.79E.06 P.lZE-08
00
0.5 07 07 06 05 04 04 03 02 01
5.93E.02 4.0VE.02 2.39E.02 1,18E.02 5.4OE.03 2.66E.03 1;3lE.03 5.691.04 2.94E.04 1.45E.04
1.47E 2.77E 3.35E-O( l.POE-02 1.27E.03 1,29E-04 1,12E.05 3,93E-07
01 00
a.13E.05 4.021.05 1.63E.05 4.63E.06 1.34E.06 4.46E.07 1.29E.07 1.97E.08
EE
=8,5500E-01
06 05 04 04 03 a2 01 01 00 00
04 04 03 03 02 02 01 01
1.T4E 4,29E 1.95E 7. bOE.01 2.33E.01 4.76E.02 l.OPE-02 3.15E.03 8.49E.04 1.39E.04 1.48E.05
01 00 00
n5
4.67E
05
2.94E 7.48E 5.26E 1.55E 4.961 1.55E 3.94E 1,33E 4,19E 1.65E 5.37E 1.3lE 1.98E.01 3.42E.02 7,95E-03 1.72E.03 2.1.5E.04 1.84E.05
05 05 04 04 03 03 02 02 O? 01 00 00
1.2oE 7.17E 3.97E 1.33E 3.47E 9.68E 2.60E 5,.42E 1.5&E 4.llE 1.4oE 3.802 7.blE 6.238-01 1.07E.01 1,99E-02 3.452.03 3.368.04 2,26E-05
07 06 06 06 05 0‘ 04 03 03 02 02 01 00
I42 8.27E 4.8bE 2.461 9;77E 3.58E 1.47E 6;75E.O( 2.25E.01 l;V4E-01 4.59E.02 2.39E.02 l.lVE-02 4,lCE.Of ?,13E-03 3.34E.04 1.201.04 3.95E.05 8.24E.06
w3 01 07 07 00 00 00
I44
5.12E 2;68E 1.16E 3;73E 1.08E 3.6lE T.22E 3.52E 1.34E 4.84E.01 2.15E.01 8.lSE.02 2.43E.02 4.851.03 1.08E.03 3,llE.04 6.30E.05 1.34E.05
03 03 03 02 02 VI 0'1 00 00
2.99E 1,401 5.26~ 1,39E 3.22E 8.75E 2.42E 5.48E 1.73E 5,lJE ?.94E 6.06E.01 1.42E.01 2,07E-02 3.4bE.03 7.94E.04 1.7OE.04 2,12E-05
nr 05 05 04 04 03 02 02 01 01 00 00
1.73E 7.30E 2.36E 5.15E 9.59E 2.?3E 4,8fE G.56E 2;24E
07 06 06 05 04 04 03 02 02
5.45E
01
l,76E 4.53E a,37E-01 8.82E.VI IrllE-02 P.OlE-03 3.43E.04 3.281-05
01 00
*2 7.8lE 4,67E 2.39E 9.51E.01 3.43E.Vl ?.JTE.Vl 5.44E.02 1.8SE.02 7,.57E-03 3,16E-03 1.5lE.03 6.12E.04 1.94E.04 3.96E.05 8.5OE.06 2.221-06 4.961-07 5.42E.06
N3 00 00 00
7.2OE 3.a7E ?.72E 5.63E 1,63E 5.321 ?.74E 4.66E.01 1.65E.01 5.45E.02 2;22E.02 7.44E.03 l,ll6E.O~ 2.75E.04 4.39E.05 P.OlE-06 1.58Ec06 1.26E.07
01 VI 00 00
7.S4E 3.45E 1.26E 3.19E 7.12E l.86E 4.95E 1.06E 3.19E.01 I.PLE-02 3.191.02 9.19E.03 1.9OE.03 2.2OE.04 2,77E-05 4.62E.06 6.60E.07 4.97E.08
M4 02 02 02 01 01 00 00
5.76E 2.79E l.OdE 2.92E 6.a2E 1,43E 4.89E 1.04E 3,VlE a.37E.O? 2.9lE.01 8.07E.02 q,SPE-02 1.7lE.03 2.OLE.04 3.3OE.05 4.53E.VI 2.67E.07
03 03 03 02 01 01 00 00
1.02E 4.13E 1.29E 2.64E 4.66E 9,aIE 2.13E 3,5&E 8.89E 2.03E 6.15E.01 1.46E.01 2.37E.02 1.90E.03 1.a3E.04 2.341-05 2.44E.06 l.OlE-07
I45 04 04 04 03 02 02 01 01 00
4.2GE T.87E 6.30E 1.4lE 2.65E 5.aCE 1.28E 2.17E 5.35E 1.2OE 3.55E 6,17E-VI 1.27E.01 9.9aE.03 8.86E.04 1.13E.04 1.225-05 5.36E.VT
06 05 05 04 03 02 02 01 00 00
1.04E 3.79E 1.02E 1.72E 2,42E 4.19E 7.3dE 9.7SE 2.02E 3.77E 9.771 1.9lE 2.451-01 r;49E-V2 ?.03E-03 l.V4E-04 (1.431.06 2.30E.07
01 06 05 05 04 03 03 02 01 01 00
KEV "I
011 07 07 06 05 05 04 03 02 01 01 VP
"4
1.76E 1.07E 5.451 2.07E 6.92E 2;54E 9.29E 2.87E
KEV
1.5VE 5,6&E 1,dOE 2.8OE 4.06E 7.09E 1;24E 1.6lE 3.251 5.87E
2.58E 9.67E 2,69E 4.60E 6.491 l.lOE 1.65E 2.29E 4;38E 7,45E 1.76E 3;05E 3,261.01 1,50E-02 7.89E.04 6.551-05 4,82E-06 1.621-07
02 02 02 01 01 0, 00 00
UEV
Ml
E5 06
5,72E 3.49E 1,.55E 7.7bE 2.98E ?,27E 5.46E 2.07E 9;73E-01 4.3G.E.01 2,3lE.01 l.O(IE-01 4;?3E.OZ 1.14E.V2 3.4OE.03 1.23E.03 4.07E.04 G,536.05 l,l6E.O5
9.2OE.01 6.351.Ol 3.93E.01 2.05E.01 9.9IE.02 5.22E.02 2.79E.02 1.34E.02 7,SSE.03 4.12E.03 2.541-03 l.LIE-03 6.791.04 2.51E.04 9.661.05 4.27E.05 1.7bE.05 4.71E.06
=8.72OOE.01 E5
06 05 05 04 03 03 02 01 01 00
*3 00 00 on 00 00
Ill 05 04 04 04 04 03 03 02 02 01 01 00
EB
KE"
9.99E.04 4.428-04 1.00E.04 4.a92.05 8.86E.06
=l,OOlIOE
1.33E 2.55E 2.58E 2.321 l.OGE 4.13E I.378 3.37E 1,051 Z.PlE l.OOE 2.7lE 5.051-01 5.05E.02 5.881.03 l.VZE-03 1,77E-04 1.961-05
E4
2.41E
9.4lE 6.50E 4.02E 2.09E l.OPE 5.35E.01 2,04E-01 1.36E.01 ?;71E-02 4.22E.02 2.6OE.02 1.45E.02 6.97E.03 2.585.03
ES
SHELL
1.62E 6,6VE 2.2VE 4,68E .5,42E 1.79E 3.83E 6.30E 1,52E 3,35E 9.86E.01 2.25E.01 3.46E.02 2,72E-03 2.441-04 3,?8E.05 3.58E.06 1.74E.07 L3
E3 02 01 01 00 00
EB
E4
1.38E
E2 1.2lE 6;40E 2.8VE 9.OlE 2.561 8.23E.01 2;6kE-01 6.96E.02 Z.CIE-02 7.858-03 3.14E.03 1 .OIE-03 2,5lE-04 3.62E.05 5.641-06 1.27E.06 2,64E-07 3.51E-02.
02 02
00 Ml
05 05 04 04 04 03 05 02 02 01
E4
02
=R,3330E E5
1.52E l.lQE 7.52E 3.37E 1,ZOE 4.31E 1.4br: 3.9qe 1.34E 4.16E
E3 01 07 01 00 00
EB
9,2OE-04 1.3lE.04 1.44E.05 L 1
4.50E 3.49E 2.28E 1.14E 4.72E 2,OOE 6.08E 2.678 1.09E 4,Vl)E.01 (.dZE.01 6.73E.02 l.d(lE-02 3.27E.03
22 6.8OE 3.63E 1.6VE 5.23E 1.52E 4,97E-01 1.63E.01 S.CLE-02 ,.60E-02 5,35E-V3 2.21E.03 7.56E.04 1.958-04 3.06E.05 5.271-06 1.18E.06 2.36E.07 2,49E-08
03 03 03 03 02 02 02 01 01 00 VO
E3
2 El
SHELL
Conversion Coefficients
E4
28
l
F2 2.69E 1.9lE 1.19E
Yl
7,5lE 5.6VE 3.50E 1.64E 6.4bE 2.62E 1.02E 3.25E 1;29E 4,72E 2,07E 7.52E-01 2,06E-01 3.5lE-02 6.726-03 1,75E-03 4.56E.04 8.35E.05 1.16E.05
2,56E-01 l.lOE-01 3.7lE.02 .5;39E-03
El
EG
28 E3
* EC
3
F2
Internal
Internal Conversion, Z < 30
2.338.02 1.58E.02 9.52E.03 4.76E.03 2.2lE.03 t.lOE.03 5.491.04 2.42E.04 1.27E.04 6.356.05 3.62E.05 1;83E.OS 7.661-06 2.321.06 7.4qE.07 2.8OE.07 9.48E.00 2'.37E-08
n2 2,4lE 1.3OE 5.85E 1.96E 5,IIIE.01 1.99E.01 6.82E.02 1.96E.02 7.35E.03 2.60E.03 1.?2E.O3 4.06E.04 l.lZE.04 1.93E.05 3.641.06 8.9OE.V7 2,03E.07 3.09E.08
cl3
H4
1)5 OS 07 07 06 OS 04 03 02 02 0, 00 00
See page 438 for E xplanation L of Table
455
Ahic
Doto
and
Nuclear
Dota
Tables,
Vol.
16,
NQ.
5,
Novmber
1976
BAND,
and LISTENGARTEN
TRZHASKOVSKAYA,
Internal Conversion, Z < 30
TABLE. Internal Conversion Coefficients
EG
El
15 17 20 25 32 40 50 65 a0
l.ZIE 9.04E 5.748 3,05E 1.50E 7.781-01 4.01E.03 1.83E.01 9 .?7E-02 .9?P.O2 .a6E-02 .45E-02 .14E.03 ,89E-03 .32E-04 ,586.04 .04E.04 3 .24E.05 7 .79E-06
1.90 200 300 450 650 1000 2ool-J 6000
FE 01 "0 00 00 00
3.4OE 2.478 1.56E 7.85E 3.46E Y.60E 7.18E 2.75E 1.27E
02 02 02 01 01 01 00 00 00
6.39E 5,OOE 3.26E 1,59E 6.42E 2.65E 1.09E 3.37E 1.352 4,971 2,lPE B.OlE-01 2.2lE.01 S.OOE-02 7.31E.03 ,.PZE.OJ 5.OJE.04 9.261.05 l.ZOE.05
5.47E.01 2.74E.01 1 .lllE.01 4.01E.02 9.13E.03 2.29E.03 ?.45E-04 2,41E-04 5,6aE-05 l.OtE-05
2 EG
El
E4
ES
=
03 OS 03 03 02 02 02 01 01 00 0"
29
1.14F 9.648 6.5lE 3,lOE 1.15E 4.23E 1.46E 3.97E 1.37E 4.32E 1.66E 5.17E 1.16E 1.50E-01 2,24E-02 4,?6E-03 l.OlE-03 1.46E.04 1.60E.05
Ll
E2
ES 05 04 04 04 04 03 03 02 02 01 01 00 00
SHELL
E3
2,05E l.EmE 1,3lE 6.06E 2.05E 6.758 2.04E 4.651 .3VE .?lE .25E .SOE .01E .(I?E-01 6 ,74E.O2 1 ,lbE-02 2 ,OlE-03 2 ,25E-04 1 .9?5.05
Ea
E4
n1 06 06 06 05 05 04 04 03 03 02 02 0, 00
1.09E 7.542 4.66E 2.426 1.18E 6.1.5E.01 3,27E-01 1.57E.01 u.a4E-02 4.03E.02 2.97E.02 1;65E-02 7.93E.03 2.928-03 l,lJE-03 4.97E.04 2.02E.04 5.448-05 9.751.06
=1,0960E
00
E5
P.LIZE-OI
2.63E
01
3.73E
02
1.59E
03
2.82E
05
1.08E
17 20 25 32 LO SF 65 8E 100 120 150 200 300 450 650 1000 2000
7.07E.01 4,596-O? 2.50E.Oq 1.26E-01 6;70E.O2 3,53E-02 1,64E-02 a,8?E-OS 4.571-03 2.656-03 1.36E-03 5.alE.04 ?,81E.04 6.088-05 2,498.05 l.OlE-05 3,14E-06
1.89E 1.2OE 6,lOE 2.771 1;31E 6.03E.01 2.371-01 q.l*E-01 4.89E.02 Z.LPE-02 1.08E.02 3.741-03 8.65E.04 Z.ZOE-06 7.19E.05 2,34E-05 5.3lE.06
01 01 00 00 00
3.05E 2.09E 1.08E 4.65E 2;OlE a.25E 2.77E 1.14E 4.31E.01 ,.93E.O, 7,20E-02 2.03E.02 3,5?E-03 6.99E.04 l.(I5E.04 4,191.05 P.OlE-06
02 02 02 01 01 00 0" 00
2.39E 2.46E 1.57E 6.93E 2;63E 1.06E 3.06.E 1.11E 3.60E 'I.426 4,54E-01 l.OSE-OI 1,4OE-02 2.l3E.03 4.601-04 9.1)8E-05 l.bZE-05
03 03 03 02 02 02 01 01 00 00
4,62E 1.54E 1.671 P.lOE 3;74E 1.3OE 3.3lE 1.05E 2.96E 1.03E 2.82E 5;33E-Oq 5.428-02 6,4lE-03 1.13E-03 1.96E.04 2,2lE-05
04 04 04 03 03 03 02 02 01 01 00
7.46E.01 4.61E.01 2.40E.01 l.l?E-01 6;141.02 3,25E-02 1,56E-02 8.768-03 4.78E.03 2.931.03 7.63E.03 7,81E-04 2.87E.04 '1.,OE-04 4.85E.05 1.961-05 5.29E.06
Ea
=9,5lOOE.O,
EC
61 1,7(E-01 l.OPE-01 6,OaE-02 2.69E-02 1;08E-02 4,?2E-03 2.04E.03 7;58E-04 3.461-04 1;49E-04 7.50E.05 3.26E.05 l.lSE.05 2.648-06 6.591.07 Z.OZE-07 5.631-08
8.09E 4,3lE 1.9lE 6.231 1.8lE 5.94E.01 1.96E.01 3;SSE.02 1.921-02 6;44E-03 2.66E.03 9,14E-04 2.361-04 3,72E-05 6.4,E.06 1.441-06 2,.98E-07
2000
9,39E.09
3,05E-08
15 ,? 20 25 32 40 50 65 80 100 120 150 200 300 430 650 1000 2000
3,lZE.Ol 1.99E.01 l;lOE-01 4.841-02 1.93E.02 a;34E-03 3,58E-03 1.321-03 5,98E-04 2,56E-04 '1.291-04 3,57E-05 ,.9‘E-05 4.63E.06 ,.22E.06 4,05E-07 1.29E.07 2,a9E-06
See page 438 for Explanation
LZ
1.64E 7.70E 2,aaE 7.49E 1.69E 4.42E 1.16E 2;43E I.t,E-0, 1;92E-01 6.65E.02 1.85E.02 3.668-03 4.02E-04 4.95E.05 8.361106 1,23E-06
E4 04 03 03 02 02 01 01 00
1.91E a,046 2,bqE 5.561 l.OOE 2.14E 4.59E 7;56E 1.13E 4.04E 1.19E 2.72E.01 4.2OE.02 3,3lE-03 2.99E.04 3,90E-05 4,39E-06
8.64E.08
E2 Y.43E 7.381 3;32E 1.07E 3.04E 9;?81-01 3,14E-01 8.291-02 2.89E.02 9.30E.03 3.?5E-03 1.23E.03 J.OOE-04 4.35E-05 7.OqE.06 1.53E-06 3,17E-07 4.28E.08
SHELL
E3 01 01 07 00 00
7. El
29
F2
15 I? 20 25 32 40 50 65 a0 100 120 150 200 300 450 65" ,000
EG
=
=
2,15E-07
29
L3 E3
02 01 01 01 00
2.86E ‘1.33E 4;WE 1.23E 2.7SE 7;OOE 1.71)E 3.56E l.OOE 2.56E-01 CL.47E.02 Z.ZOE-02 3.95E.03 3.721-04 3.90E.05 5.861-06 a.lZE.07 6,62E-01
3.3OE 1.37E 4.40E 9.18E 1.61E 3.34F 6.90E i.oae 2.5OE 5.20E 1.45E 3.06E.01 4.2lE-02 2.741-03 2,OOE.04 2.191-05 2,16E-06 l.,OE-07
3,OOE 1.13E 3.14E 5,4OE 7.648 1;30E 2.19E 2.721 5.21E 8.87E 2,lOE 3.64E 3.90E.01 l.aOE-02 9.49E.04 ?,a9E-05 3,UZE.06 1.951-07
4.44E 2.92E 1,53E 5.622 1.69E 5.4aE 1.73E 4.4IE 1 .50E 4 .72E 1 .86E 6 ,.OIE 1 .48E 2 .23E-01 3 ,85E.O2 (I ,96E.O3 1 .94E.O3 2 .44E.04 2 .05E.05
rt5 05 05 05 04 04 03 03 02 02 01 01 00 00
l.OlE 7.13E 3.83E 1.35E 3.67E 1.04E 2.84E 5.99E 1. 73E 4. 59E 1. 56E 4. 26E 32E 9. 25E.01 1. 2lE.0, 2. ZlE-02 3. 88E.03 3. 7?E-04 2. 52E.05
8,
07 06 06 06 05 05 04 03 03 02 02 01 00
*3
?I4
115
01
6.13E
03
3.5I.E
05
2.03E
07
5.a3E 2,94E 1.16E 4.24E 3;?4E 7.23E.01 2.64E.01 1.2lE.01 5.34E.02 2.77E.02 1.27E.02 4.79E.03 l.SOE.03 3.82E.04 1.36E.04 4,49E.05 9,32E.06
01 01 01 00 00
3.2OE 1.3isE 4.43E 1.2aE 4;25E 1.44E 4,llE 1.56E 5.63E.01 2.491-01 9.42E.02 2;aOE.02 5,56E-03 1.242-63 3.55E.04 9.45E.05 l.SZE-05
03 03 02 02 01 Of 00 00
1.66E 6,238 1.64E 3.798 1;03E 2,63E 6.39E 2,OlE 5.95E 2.24E 7.OOE.01 1;64E-07 P.S?E-02 3.VbE.Of 9,06E-04 1.93E.04 2,4lE-05
05 04 04 03 03 02 01 01 00 00
8.56E 2.79E 6.OLE l.lZE 2;liE 5.6,E 9,PaE 2.6OE 6.3lE Z.OJE 5.22E 9.63E.0, l.OlE-01 l.t6E-02 2.29E.03 3.90E.04 3.738.05
06 06 05 05 04 03 02 02 01 01 00
00 00 00 00
6.322 4.581 2.04E 6.7OE 1;95E ;,',;: . 5;dlE.Ol 1.99E.01 ;,:W;-;; , 9.031.03 2.261-03 3.361-04 5.38E.05 Y.llE-05 1,94E-06
02 02 02 01 01 L?;
6,?3E 3.26E 1,27E 3.44E 8;OIE 2.17E 5.84E l;ZSE 3.7OE 1;OlE 3,5lE.O? 9.76E.02 1,93E-02 Z.OPE-03 2.5OE.04 4.05E.05 5,5aE-06
04 04 04 03 02 02 0, 01 00 00
4.938 2.16E 7.32E 1.64E 3,lZE 6.IPE 1.52E 2.SPE 6.39E r;43E 4.27E 9,OSE.01 1.53E.01 l,PlE-02 1.08E.03 1.39E.04 ?.50E-05 6.6(E-07
9,35E 5,59E 2,66E 1.14E 4.13E.01 1.65E.01 6.56E.02 2;23E.O2 9.54E.03 3;84E.O3 l.83E.03 7,45E-04 2.36E.04 4.83E.03 (.04E.05 2.73E.06 6.?lE-07
n3
6,6?E-Oa
I44
-
1.551.07
n5
3.3OE.07
06 06 05 05 04 03 03 02 01 07 00
CEV Ml
08 0.5 07 06 05 05 04 OS 02 01 01 00
04 04 03 03 02 02 02 01 01 00 00
9.93E
*2
7.12E.02 4.aOE.02 2.2.8E.02 1.42E.02 6;521.03 3.21E.03 1.58E.03 6.a9E.04 3.57E.04 1;76E-04 9.90E.05 4,901.05 1.99E.05 5.67E.06 1.658.06 5.3lE.07 1.59E.07
a9.3100E.01 E5
06 06 05 04 04 03 02 02 01 00 00
I2 00
2.421.08
EB
n4
1.88E 1.16E 6,OOE 2,3lE 7.79s 2.67E 1,05E 3.258 1.29E 4.87E 2.22E 8;61E.01 2.64E.01 5;3aE-02 l.ZZE.02 3.56E.03 9.561-04 1,55E-04 1.64E.05
KE"
Ml 08 07 07 06 05 04 04 Q3 02 01 01 00
4.851-07
SHELL E4
04 04 03 03 02 01 01 00 00
1.75E 6,64E 1,aaE 3.30E 4;.5OE a.42E 1.48E 1;93E 3.892 ?;06E l.??E 3,34E 4,06E-01 2.3lE.02 1.55E.03 1,5OE-04 1.30E.05
WY 02 02 02 01 01 01 00 00 00
E5 06 05 05 04 cl4 OS 02 01 01 00 00
6.62E 4,04E Z.lLE 6.94E 3.44E 1.46E 6,31E 2.3aE (.llE 5.01E.01 2.64E.07 1;23E.O1 4.69E.02 1.29E.02 3.85E.03 i ,386.03 4.58E.04 9.54E.05 1.29E.05
n1
,5
2
W2 01 00 00 00 00
2.75E.02 1.116E.02 1.T3E.02 5.63E.03 2.6lE.03 1;30E-03 6.516104 2,aae-04 ,.51E.04 7,57E-05 4.32E.05 P.lllE.05 9.15E.06 2.77E.06 8,.53E-07 3.35E.07 l.laE.07 2.83E.OR
I42 3.04E 1.64E 7;36~ 2.46E 7.37E.01 2.49E.0, 8,52E.02 2.44E.02 9.13E.03 3.22E.03 1,39E-03 S,OOE-04 1.3aE.04 2.37E.03 4.43E.06 l.O(IE.06 2.44E.07 S,?OE.Oa
n3 01 0, 00 00
n5
Ml
9.76E 4.46E 1.62E 4,09E 9.09E 2;37E 6.278 1,34E L.OZE-0% q.lZE-01 3.99E-02 l.lSE-02 2.37E.03 2.72E.04 3.41E.05 5.6aE-06 8.05E.07 5.9RE.08
03 03 03 02 01 01 00 00
1.3lE 5.32E Ti66E 3.39E 5.95E 1;ZbE E.?OE 4.52E 1.12E 2,541 7.71a.01 (,(IZE-01 2,95E-02 2.45E.03 2.26E.04 2,89E-05 2.99E.06 1.23E-07
06 05 05 04 03 03 02 01 01 00
1.34E 4.86E 1.31E 2.19E 3.O(IE 5i32E 9.32E 1.23E 2.53E 4.73E l.22E 2.39E 3.05E.01 l.a5E-02 1.281.03 1.29E.04 1.04E.05 2.82E-07
08 07 07 06 05 04 03 03 02 01 01 00
of Table
456
A+.,mic
Dota
and
Nuclear
Date
Tc,bler,
Vol.
18,
No.
5,
November
1976
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 = 30 EG 15 17 20 25 32 LO 50 65 .50 100 120 150 200 300 450 650 1000 2000 6000
El 1.34E 9.52E 6;07E 3.24E 1.59E G.31E.01 4,3OE-01 1,97E-01 l,OSE.O'l 5.361-02 3.09E.02 1.58E.02 6.6GE.03 2.07E.03 6,93E-04 2.84E.04 l.l5E-04 3.56E.05 0.521.06
E2 01 00 00 00 00
3.20E 2.39E 1.55E 7.93E 3.56E 1.66E 7,5*E 2.89E 1.34E 5;82E-01 2.93E.01 1.271-07 4.32E.02 9.9OE.03 2.501-03 L);l6E-04
5.228 4.3&E 2;98E 1.52E 6.32E 2.661 I.068 3.48E 1.40E 5;2lE 2.3lE 8.49E.01 2.36E.01 L.OGE-02 7.93E-03 2;lOE.Ol 5.53E.04 l,OZE-04 l.LlE.05
2.651-04 6.261-05 l.lOE-05
15 17
20 25 32 40 50 65 00 100 IEO 1so
200 300 450 650 1000 2000
El 1.03E 7.46E.01 4.85F.01 2.66E.01 1.35E.01 7.1111-02 3.79E.02 1.77E.02 9,6lE-03 4.96E.03 2,G9E-03 1.49E.03 6,37%.04 l.PPE.04 6.72E.05 2.76E.05 1.12E.05 3.4bE.06
2.55E 1.86E 1.19E 6,lGE 2.G4E 1.36E 6.321-01 2.50E.01 ?.1.5E-01 5,23E-02 2.67E.02 1.17E.02 4.05E.03 9,458.04 2.42E.04 7.95E.05 2,59E.05 6,13E-06
01 01 01 00 00 00
15 17 20 25 32 40 50 65 80 100 120 150 200 300 450 650 1000 2000
El 1,94E.O1 l.ZLE-01 6.95E.02 3.09E.02 1,25E-02 5.46E.03 2.37E.03 8;86E-04 4.05E.04 ?;75E-04 8.84E.05 3,85E-05 1.34E.05 3.148.06 7.19E.07 2;43E-07 6.77E.08 1.13E.0.5
9,SfE 5,lOE 2.2bE 7.38E 2.?SE 7,06E-01 2.33E.01 6;55E-02 2.29E.02 7,7OE-03 3.19E.03 l.lOE-03 2.841.04 4.42.E"05 7.75E.06 1.741.06 3.49E.07 3.70E.OG
15 17 20 25 32 40 50 65 110
100 120 150 200 300 450 650 1000 200"
El 3.531101 2.25E.01 1.25E.01 5.53E.02 2.22E.02 9.6lE.03 4.14E.03 1.538.03 6.96E.04 2.996-04 1.50E.04 6.54E.05 2.28E.05 5;46E.O6 1.441-06 4.GOE.07 1.53E.07 3.42E.OG
See page 438 for Explanation
Ll
02 02 02 02 01 01 00 00 00
SHELL
1.04.5 1.40E 1.78E (.3?E 6,29E 2.69E 1.036 3.07E l.lZE 3.7lE l.LIE 4.77E.01 1,llE.Ol 1,5lE-02 2.32E.03 5.06E.04 l.lOE-04 1,59E-05 L2
01 01 01 00 00
1.94E 9.12E 3.42E 8..59E 2,OlE 5.261 1.38E 2;POE 0.5lE.01 2;3OE.Ol 7.998.02 2.226-02 4.418.03 4.86E.04 6.00E.05 1.02E.05 1.5OE.06 1.05E.07
.
03 03 03 03 02 02 02 01 01 00 00
06 05 05 04 04 03 02 01 01
04 04 03 03 02 01
b.84E
00
1;43E 3.27E.01 5,06E-02 4,OOE.03
00
SHELL
2,llE 4.238 1,lPE 3.05E.01 1.01E.01 2.6211-02 4.7lE.03 4i44E.04 4.66E.05 7.00E.06 9.691.07 7.8781011
01 00 00
3.03E 1.6OE 5.13E 1.07E l.GPE 3;92E 8.13E li28E 2.96E 6.96E 1.72E 3.64E.01 5.01E.02 3;2LE-03 2.39E.04 2.621.05 2.58E.06 1.3lE.07
05 04 04 04 03 03 03 02 02 01 01 00
=1,0440E
2,OPE 7,691 2,lGE 3.85E 5,64E 9.9lE 1.75E 2.29E 4.638 8.4lE 2;lZE 4,OOE 4,08E.01 2.79E.02 l.G'IE.03 1;92E-04 1.68E.05 5.93E.07
3,43E 1.298 3;62E 6.25E 8.88E 1;51E 2.57E 3;lVE 6,tIE 1.051 2.416 4,31E 4.63E. 2;14E-02 1.13E.03 9.431-05 6.96E.06 2,JLE.07
00
00 I41
08 0* 07 06 05 05 "4
03 02 02 01 00 to1
3.22E.02 2.19E.02 1.32E.02 6.62E.03 3.07E.03 1.54E.03 7.6GE.04 3.40E.04 1.78E.04 8.951-05 5.llE.05 2.581.05 l.OGE-OS 3;29E.O6 1.05E.06 3.97E.07 l,LOE-07 3,34E-OG
N3 02 02 02 02 01 01 00 00 00
114
1.95E l.24E 6;52E 2.55E 8.691 3.221 1,19E 3,67E T.LbE 5,49E 2,SOE 9.728-01 2.97E.01 6,06E-02 1,3GE.02 3,99E-03 l.O7E-03 1.74E.04 l,OPE.05
04 04 03 03 02 02 02 01 01 00 00
4.04E 2.82E 1.55E 5,9lE 1.83E 5.998 1,PlE 4.90E 1.67E 5,tGE 2,OGE 6,78E 1.66E 2,50E-01 4.321-02
115 05 05 05 04 04 03 03 02 02 01 01 00 00
1.00E.02 2.17E.03 2.73E.04 2.27E.05
7.96E 6.19E 3.60E 1,35E 3.82E ?,llE 3.08E 4.56E 1.9lE 5.09E
06 06 06 06 05 05 04 03 03 02
1.74E
02
4.75E 9.29E 1.03E ?.35E.01 2.51E.02 C.JLE.03
01 00 00
4.22E.04 2,.5lE-05
KEV
I(2 00
l.+PE 6.94E 3,49E 1.3GE 5,OOE 2,04E 0.46E.01 3.OGE.01 1.41E.01 6.lGE.02 3.21E.02 1,46E.02 5.SlE.03 1.491.03 4.35E.04 1,5SE.O4 5.09E.05 1.05E.05
"3 02 O? 01 O? 00 00
nc
7.29E 3.8OE 1.64E 5.2SE T.SlE 4,981 1.6GE 4.79E l.dlE 6,5lE-01 2.8GE.01 l.OE.E.01 3,22E.O2 6,36E-03 1.4lE.03 4.041.04 1.07E.04 1.721-05
03 03 03 02 02 01 01 00 00
L.18E 1.9SE 7.32E 1.92E 4.44E 1.2OE 3.30E 7.42E 2,331 6,07E 2.591 8.05E.01 l.G.5E.01 2,7lE-02 4,5lE.03 1.03E.03 2,19E-04 2,728.05
NS 05
05 04 04 03 03 02 01 01 00 00
2.37E 9.98E 3,26E 7,04E 1,31E 2,89E 6.SlE 1.t6E 3,OlE 7.22.E 2,348 6,OOE 1,lOE 1.15E.01 1.44E.02 2,6lE-03 4.431-04 4,22E-05
07 06 06 05 05 04 03 03 02 01 01 00 00
KEV R2
8,5OE.02 5.73E.02 3.44E.02 1.7OE.02 7.8OE.03 3.G5E.03 1.9OE.03 8.30E.04 4.501.04 2.13E.04 l;ZOE.04 5.938105 Z.LlE-05 6.87E.06 2.00t.06 6.772.07 1,94E.07 2.94E.Oa
=1,0210E E5
06 06 05 05 04 03 02 02 01 00 00
1.26E 6.7lE.01 5.39E.01 2.79E.07 1.36E.01 7.13E.02 3.771.02 l.OOE.02 l.OlE.02 5,5lE-03 3.3GE.03 1.88E.03 G.95E.04 3.281-04 1.25E.04 5.491.05 2,22E-05 5.92E.06
7.60E 4.651 2;46E 1.03E 3,95E 1.6GE 7.22E 2.72E 1.27E 5.70E.Ot 3,OOE.01 1.39E.Ol 5.3lE.02 1.46E.02 4.33E.03 1,55E-03 5.?3E.04 1.06E.04 1.421.05
II 08 07 07 06 05 04 04 03 02 01 O? 00
EG
00
112 01 00 00 00 00
Ml
E5
2.241 9.42E 3.07E 6.55E 1.19E 2.54E 5.451 9,OlE 2.19E
KEV
Pl
5,OGE 9.7lE 1,34E 1.95E 7.45E 3.321 1.2lE 3.2lE 1,04E 3,OOE ?.OLE 2,93E 5,6lE-01 5.79E.02 6.94E.03 q,PJE.O3 Z,lGE-04 2.47E.05
El
3,36E 1.56E 5,79E 1.40E 3;25E G.P(IE
1.26E G.7qE 5;nsE 2.79E 1.36E 7.11E.01 3.761.01 1;80E.01 1 .OlE.Ol 5.5qE.02 3.38E.02 l.GOE-02 G.99E.03 3.3OE.03 1.27E.03 5.571.04 Z.ZSE-04 6.03E.OS 1.07E.05
*1,1940E
E8
4,745.05 5.368-06 2,62E-07
L3
06 06 06 05 05 04 04 03 03 02 02 01 00
ES
SHELL
E3 02 01 01 01 00 00
EB
3.62E-04
30
00
1.24E 1.3lE 1;OZE 5.17E 1.86E 6,35E 1.97E 4;6lE 1.40E 3;78E l.PBE 3.42E 6.29E 6.231-01 7.24E.02 I,261102 2,2OE.03 2.49E.04 2.12.E.05
E4 04 03 05 02 02 01 O? 00
=9.6590E E5
01 04 04 04 04 03 03 02 02 01 01 00 00
E4
30
F2 1.68E G.PZE 3.91E 1.26E 3.59E 1.13E 3,7lE-O? P.GlE-02 3.43E.02 l.llE-02 4,45E-03 1.47E.03 3.57E.04 5;?8E-05 8.352-06 ?.GZE.06 3.77E.07 5.0G.E.08
8.OlE 7.50E 5.491 2.79E 1.08E L.llE 1.45E 4.01E l.bOE 4.46E 1.73E 5.421 1.23E 1.6lE.01 2.42E.02
E3
2 EG
.
E2
ER
5;lPE.03 l.llE.03 1.6lE.04 1.766.05
30
2.96E 2,59E 1,68E 1.02E 4.531 2,OOE G.37E 2.G6E 1.19E 4.52E.01 2.04E.01 7.661-02 2,lGE.02 3,87E.O3 7.65E.04 2.04E.04 5.431-05 l.OlE-05
Conversion Coefficients
El 03 03 03 03 02 02 02 01 01 00 00
E3
2 EO
.
E2 00
SHELL
E3 02 02 02 01 01 01 00 00 00
2 ES
Kl
Internal
Internal Conversion, Z < 30
l,?lE 6,641 3.41E 1.36E 4.93E.01 1.97E.01 7.G6E.02 2;68E.02 1.15E.02 4.628.03 2.2?E.O3 8.991.04 2,868.04 5.GGE.05 9.27E.05 3,331.06
tl3 O? 00 00 00
9,99E 5.3GF 2.4OE 7.92E 2.3lE 7.57E 2.48E 6;TOE.ol 2.39E.01 7.9lE.02 J.PJE.02 l.OPE-02 2.72E.03 4.07E.04 6.54E.05 1.35E.05 2.371-06 1.9OE.07
01 01 00 00
1.25E 5,69E 2.06E 5.19E 1;15E 2,96E 7.G7E 1.61)E 5.01E.01 I.39E.01 4.95E.02 1,42E-02 2.92E.03 3;35E.O4 4.18E.05 6.911106 9.75E.07 7.13E.0.5
7.47E.07 8.l7E.01
14 02 02 02 01 01 00 00
7.77E 3.78E 1.48E 4,OZE 9.491 2.56E 6.91E 1;46E 4.4OE 1.2OE 4,2OE-01 1.17E.01 2.32E.02 2.52E.03 3.03E.04 4.951.05 6.GlE.06 4.04E.07
MS 04 04 04 03 02 02 01 01 00 00
5.62E 2.47E 8.42E 1.9OE 3.63E 11.07E 1.79E 3.05E 7,57E 1.70E 5.09E 1.18E 1.14E.01 T.46E.02 (.3lE.O3 1,60E.04 1.G3E.05 G.OPE-07
06 06 OS 05 04 03 03 02 01 01 00 00
KEV I2 3.81E 2.05E 9.19E 3.07E 9.17E.O? 3.rOE.01 1.06E.01 5.O?E.02 1,13E-02 3.96E.03 l.IOE-03 6.131.04 1.68E.04 2;G7E.O5 5,35E.06 1.29E.06 2.92E.07 4,38E-08
n3
n4 04 03 03 02 02 01 00 00
?.67E 6.77E 2,llE 4.29E 7;50E 1.58E 3i38E 5.658 1.39E 3.16E 9,57E-O( 2.26E.03 3.65E-02 3;02E.O3 2.7GE.04 3.54E.05 3.65E.06 1.491-07
N5 06 05 OS 04 03 03 02 01 01 00
1.69E 6.12E 1.65E 2.76E 3,G')E 6.bt.E 1.16E l.54E 3.15E 5.878 ?.52E 2.961 3.771-01 2;28E-02 !.57E-03 1.58E.04 1.27E.05 3.428-07
011 07 07 06 05 04 04 03 02 01 01 00
of Table
457
Atomic
Dota
od
Nuclear
Dota
Tables,
Vol.
18,
No.
5,
November
1976
DATA AND NUCLEAR
INTERNAL
DATA TABLES
CONVERSION
18, 433-457 (1976)
COEFFICIENTS
I. M. BAND
FOR
ATOMIC
NUMBERS
Z < 30
and M. B. TRZHASKOVSKAYA
Leningrad
Nuclear Physics Institute and
M. A. LISTENGARTEN Leningrad
State University, Institute Leningrad, USSR
for Physics
Presented here are internal conversion coefficients (ICC) of gamma rays for 20 values of atomic number 2 in the range 3 < Z < 30, including all Z > 14. The tables provide the previously missing data for light elements. Coefficients are given for 19 values of gamma-ray transition energies up to 6 MeV for the K-electron shell and 18 values up to 2 MeV for three L-subshells. The minimum energy is 15 keV. The first five electric and magnetic nuclear transition multipolarities are covered. The calculations are relativistic, with screening and finite nuclear size effect taken into account.
Copyright 0 1976 by Academic Press, Inc. All rights of reproduction in any form reserved.
433
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
Internal
Conversion,
2 < 30
CONTENTS
INTRODUCTION METHOD
OF CALCULATION
COMPARISON
WITH
EARLIER
CALCULATIONS
INTERNAL CONVERSION COEFFICIENTS IN VARIOUS SELF-CONSISTENT ATOMIC FIELDS Electron Densities for Is, 2s, and 2p Electrons in the Vicinity of Nuclei EXPLANATION
OF TABLE
TABLE.
Conversion Coefficients
Internal
energy. However, it is convenient to have ICC tables for fast data analysis, experiment planning, and reference. The following tables are calculated by means of a complex of computer programs.rl The tables include, in the main, nearly all multipolarities and energies which are essential in practice for Z < 30 taking into account that there exist tables14 for K-shell, Z > 16 and transition energies above 1 MeV.
INTRODUCTION The excited atomic nucleus can make a transition to the ground or any other state of lower energy by the internal conversion process, that is, by giving its excitation energy to the electrons of the atom. The ratio of the number of electrons ejected from an atomic shell in this process to that of gamma quanta leaving the atom during the same time is called the internal conversion coefficient (ICC) of gamma rays for the nuclear transition in question. In nuclear spectroscopy a comparison of measured with calculated ICC values (see, for example, Refs. l-3) allows one to deduce the multipolarity of nuclear gamma radiation and also the relative intensities of gamma rays, mixing ratios, nuclear penetration parameters, and other properties of nuclear transitions (see, for example, the review article4). Although experimental investigations of the internal conversion process have been performed for nearly all the radioactive nuclei including many lighter than zinc, tables of precise ICC for atomic numbers Z < 30 do not exist. Widely circulated tables by Sliv and Band1 and Hager and Seltzer2 do not contain ICC for Z < 30. In Rose’s tables3 there are no values for Z < 25. For light nuclei there exist nonrelativistic calculations,5r6 simple approximate ultrarelativistic ICC formulas7 and relativistic calculations,spg without screening, for Z = 10, 15, 20 in the energy range Ey > 150 keV. In addition interpolation and extrapolation of the data3>5-g were performedlO for every Z in the region 6 5 Z 5 24 with approximate corrections for screening based on the expression below [Eq. (6)]. The errors in the theoretical ICC connected with all approximations, introduced in Refs. 5-10, remained uncertain. At present, having at one’s disposal computer programs 11-13 it is possible to calculate precisely the ICC for any Z, multipolarity, and transition
METHOD
OF CALCULATION
The relativistic expression for ICC ~-rp~)in the ith atomic shell may be found elsewhere3p4t15p16
(1) where rL is the nuclear-transition multipolarity (EL the electric, ML the magnetic), Mj7:) is the conversion matrix element, K denoting the relativistic quantum number characterizing the state of a free electron ejected from the atom in the conversion process. The value M$) includes the sum of radial integrals RI-R, of the following kind:
where F, is one of the relativistic radial electron wavefunctions f(r) or g(r) of the electron in a final (free) state, Fi is one of the functions of the electron in an initial (bound) state, X, is the radial part of the transition potential (see below), v = L or L - 1. All the necessary wavefunctions of bound and free electrons were obtained by numerical integration of the Dirac equation with potential V(r). The relativistic Hartree-Fock-Slater (HFS) method was used to obtain the self-consistent potential Y(r). The exchange in the HFS field is taken
434
Atomic Data and Nuclear
Dato Tables, Vol. 18, No. 5, November
1976
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
bation theory, the one-electron approximation, and a free atom with a spherical potential. Possible departures from these conditions are neglected.
into account by using the local exchange potential v ex = 42
[ 1 2p(r)
2 ll
1’3
Internal Conversion, Z < 30
(3)
Accuracy of Calculations with coefficient C = 1 (Ref. 17). Here p(r) is the total spherically averaged electron density
m
257
The numerical methods used by us in ICC calculations and all the details of the numerical calculations are expounded by us in the description of the computer program complex “The Relativistic Atom, the Interaction of Electromagnetic Radiation and Nucleus with Atomic Electrons”.ll The accuracy of the ICC calculation is better than 0. l%, which does not include possible deviations connected with the above listed approximations of physical character. It means that in the following tables, given with three significant figures, errors can be equal to half of the unit of the last figure. The total number of ICC in the present tables is ~15000.
?I
p(r)r2dr sin Od+d6 = Z - J. 0 s0 The summation is carried out over all the occupied atomic electron states, OL= e2/fic ; $ is the degree of atom ionization. The self-consistent field calculation is included in the ICC computer program.li The bound electron wavefunctions are calculated in the neutral atomic field. The free electron wavefunctions are calculated in the self-consistent field of the ion with a hole in the shell or subshell where the conversion process occurred. Note that this mode of the free-electron wavefunction calculation is essential when computing the ICC for inner atomic shells at low energies. In calculations of all the functions F, and Fi the potential V(r) at large distances was taken to be equal to -a/r. The finite nuclear size was considered by the model of a spherical nucleus of radius R, = 1.2A113 fm (A is the mass number). We used the assumption of uniform charge distribution throughout the nucleus for the calculations of electron wavefunctions (the static effect of the finite nuclear size). The dynamic or penetration effect was treated in terms of Sliv’s surface current model, that is, the radial part of transition potential X, = h,(kr) was replaced by j,(kr) h, (kR,)/j,(kR,) at r < R,, where j,(kr) and h,(kr) are the Bessel and Hankel spherical functions, respectively, and k = Ey/moc2 is the gamma transition energy in relativistic units. The total energy of the free electron in conversion from the ith shell is is
Ei =k
-ci
+ 1.
COMPARISON WITH EARLIER CALCULATIONS
The comparison of Ref. 10 with the present precise calculations shows that the approximate K- and &shell ICCiO agree with our values within 5%-6% if the oscillations connected with the rounding off in Ref. 10 are not treated; the Lr,,- and &,-shell ICCrO are lower by 30%. By comparing Ref. 14, where the ICC for high energies Z > 16 are given, it is seen that the K-shell ICC14 agree with the present calculations to 1.5%. There are no L-shell ICC for Z ( 30 in Ref. 14. When dealing with Coulomb relativistic calculations of aK8yg for Z = 10, 15,20 the deviations for each element are practically the same for all energies and multipolarities; the ICC of Refs. 8 and 9 are 4%-7% higher than the ICC presented here. This is the consequence of the neglect of screening. Comparison of the nonrelativistic calculations5 shows that even for relatively low energies (15-25 keV) the ICC of Ref. 5 differ from the present calculations by up to 10% for Z = 10 (maximum difference is in El) and up to 25% for Z = 20 (maximum difference is in E5). Apparently apart from the neglect of screening in Ref. 5, the difference is associated with relativistic effects. The ratio QI&(Y~,~ according to the precise calculations is not equal to 2 as the nonrelativistic theory for EL ICC requires. It is possible to make a comparison of the ICC presented in our tables with the ICC of Ref. 2 for Z = 30. Ours are z 0.5% higher in the K-shell. All deviations from the quantity of 0.5% may be attributed to the rounding off to three figures in all tables. For the &-shell our ICC are 1.9% higher than aI? (Ref. 2), except for the lowest energy transitions of electric multi-
(5)
In all cases, experimental binding energiesi were used for ei in Eq. (5) excluding Lrr- and Lrrr-subshells for Z = 10 for which the calculated values of ci were taken. In our tables the ICC for filled K- and L-shells are given except ICC for Z = 3, h-shell. The lithium atom has only a single 2s,,, electron, so (yLI calculated according to Eq. (1) is divided by 2. For Z = 6, cu, and (Ye,are given. The theoretical expressions for ICC are obtained by using3T4915T16the first nonvanishing order of pertur-
435
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
polarity for which ar, in the nonrelativistic approximation vanish. A very small absolute difference in radial integrals (< 1%) or small shifts in binding energy (<5 eV) may give relative errors up to 3% in this region. The deviation for &r- and ,?&-shells is 3.6%-3.7% (ICC2 are lower than the ICC calculated here). The causes of these discrepancies were thoroughly investigated. It was found that the difference is connected mainly with the change of the coefficient C in the above mentioned Eq. (3) for the exchange term in HFS potential. We have taken C = 1, while Hager and Seltzer2 assumed C = 2/3. The ICC specially calculated by us in the HFS field with C = 2/3 proved to be in good agreement (better than 0.5%) with their ICC values. Note the following. It is known that variations of the ICC are connected with variations of the electron density in the vicinity of the nucleus.7y10T1g-21 These variations may be taken into account with the aid of the equation af’ = @ ’ hi [py(r)/pg’)(r)],
Internal
Conversion,
Z Q 30
TABLE
a
Differences between ICC (Z = 30) calculated by Hager and Seltzer2 and those computed here. Also the difference between the electron density p(r) in the zero region calculated with C = 2/3 and that calculated with C = 1, where C is the coefficient in the exchange term of the HFS potential, Eq. (3). (BTL) and (HS) denote ICC computed here and by Hager-Seltzer,2 respectively K%m,IqIs) - 11 x lag% Z = 30; &-shell E(keV) 15 150 300 1000
El
E2
E3
E4
Ml
M2
M3
M4
3.2 3.5 3.6 3.8
3.6 3.8 3.9 3.9
3.2 3.7 3.9 3.4
3.2 4.1 3.9 3.9
3.8 3.9 3.6 3.7
3.7 3.8 3.7 3.8
3.2 3.8 3.8 3.5
2.8 3.5 3.1 3.8
(6)
where i refers to the atomic shell, op) and CXPI)are the ICC of the same multipolarities, computed in two atomic fields, (I) and (II), respectively, and p?)(r) and p:‘)(r) are electron densities in these fields. Table a illustrates the deviations of the ICC of Ref. 2 from ours for the &,-shell, Z = 30. For comparison the ratio of the 2p1,2 electron densities near zero in different HFS atomic fields with C = 2/3 and C = 1 in Eq. (3) is given. The table shows the ICC2 changes, according to Eq. (6), coincide with the accuracy of 0.5% with our ICC. Small oscillations are caused by rounding off the ICC to three figures in all tables and the fact that Eq. (6) is approximate.
TABLE
b
The values of Ni proportional to the electron densities near zero [see Eq. (7)] in the relativistic HartreeFock-Slater field with coefficient C = 1 in the exchange term of potential [see Eq. (3)]. The numbers in parentheses indicate the power of 10 by which the preceding figures should be multiplied Z
3 6 10 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
ICC IN VARIOUS SELF-CONSISTENT ATOMIC FIELDS Electron Densities for Is, 2s, and 2p Electrons in the Vicinity of Nuclei Although the eigenvalues of energies in the HFS field agree a little better with experimental binding energies with C = 1 in Eq. (3) than with C = 2/3 (Ref. 22), the wavefunctions are considered to be better if calculated with C = 2/3 because they are in better agreement with Hartree-Fock (HF) wavefunctions. Some authors23 consider the value of C between 2/3 and 1 as the best. One should keep in mind that HF wavefunctions are, in their turn, approximations. The HF method does not take into account the inadequacy of the one-electron approach, the deviation of an actual atomic field from the spherical field, which is essential for light atoms with open shells, etc. Table b is given to avoid 436
Electron Shells K
4
9.275( 1) 8.018(2) 3.909(3) 1.125(4) 1.402(4) 1.724(4) 2.094(4) 2.5 19(4) 3.006(4) 3.558(4) 4.179(4) 4.879(4) 5.662(4) 6.540(4) 7.5 15(4) 8.601(4) 9.800(4) 1.114(5) 1.259(5) 1.421(5)
2.7 19(O) 4.277( 1) 2.295(2) 8.213(2) 1.061(2) 1.348(3) 1.685(3) 2.078(3) 2.538(3) 3.068(3) 3.675(3) 4.369(3) 5.155(3) 6.047(3) 7.046(3) 8.173(3) 9.429(3) 1.084(4) 1.240(4) 1.414(4)
41
1.194(-l) 1.074(O) 1.646(O) 2.443(O) 3.530(O) 4.982(O) 6.903(O) 9.402(O) 1.262(l) 1.670( 1) 2.183(l) 2.824( 1) 3.610(l) 4.578( 1) 5.754( 1) 7.182(l) 8.894( 1) 1.094(2)
411
9.685(2) 8.530(3) 1.299(4) 1.915(4) 2.747(4) 3.849(4) 5.290(4) 7. M(4) 9.509(4) 1.248(5) 1.616(5) 2.070(5) 2.620(5) 3.289(5) 4.090(5) 5.048(5) 6.183(5) 7.5 19(3)
BAND, TRZHASKOVSKAYA,
TABLE
and LISTENGARTEN
c
Z and shells. Table c also illustrates how the ICC change when passing from the HFS field with C = 1 to that with C = 2/3. Equation (6) is approximately correct even for valence shells of heavy elements.lgp21 The error of Eq. (6) for self-consistent fields in the case of the ranges of energy and Z treated in our tables is 51%.
The ratio of the value Ni [see Eq. (7)] calculated in the relativistic Hartree-Fock-Slater field with C = 2/3 in exchange term of potential [see Eq. (3)] to Ni calculated with C = 1: Ni (C = 2/3)/N, (C = 1). To obtain the ICC in the relativistic HFS field with the coefficient C = 2/3 in the exchange term of the potential, one should multiply the values of ICC from the main table by this ratio Z
3 6 10 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
Acknowledgment The authors are indebted to Professor L. A. Sliv and Dr. I. A. Kondurov for their permanent interest in and helpful comments on the manuscript.
Ni (C = 2/3)/N, (C = 1) K 0.898 0.953 0.973 0.98 1 0.983 0.984 0.985 0.986 0.986 0.987 0.988 0.988 0.989 0.989 0.989 0.990 0.990 0.990 0.991 0.991
r, 0.969 0.896 0.946 0.953 0.956 0.959 0.962 0.964 0.965 0.967 0.969 0.971 0.972 0.976 0.975 0.976 0.978 0.979 0.980 0.981
41
411 References
0.847 0.909 0.916 0.923 0.928 0.933 0.936 0.940 0.943 0.946 0.949 0.954 0.954 0.956 0.958 0.959 0.961 0.963
1. L. A. Sliv and I. M. Band, Internal Conversion Coejicient Tables, (USSR AC. Sci. Press, Moscow-Leningrad) Part 1, “K-Shell”, 1956, Part II, “L-Shell”, 1958; and in Gamma-Luchi, (USSR AC. Sci. Press, Moscow-Leningrad, 1961) and Alpha-, Beta-, and Gamma-Ray Spectroscopy (North-Holland, Amsterdam, 1965)
0.847 0.909 0.916 0.923 0.928 0.933 0.936 0.940 0.943 0.946 0.949 0.954 0.954 0.956 0.958 0.959 0.961 0.963
2. R. S. Hager and E. C. Seltzer, NUCLEAR DATA TABLES A 4, 1 (1968) 3. M. E. Rose, (North-Holland,
Coejicients,
5. M. Hebb and E. Nelson, Phys. Rev. 58,486 (1940) 6. V. B. Berestetsky, Zh. Eksp. Teor. Fix. 18, 1057 (1948) 7. S. Dankoff (1939)
and P. Morrison,
Phys. Rev. 55, 122
8. M. E. Rose, G. H. Goertzel, and C. L. Perry, ORNL-1023 Report, 1951, Oak Ridge National Laboratory, Oak Ridge, Tenn.
(7)
9. M. E. Rose, in Beta- and Gamma-Ray (North-Holland, Amsterdam, 1955)
Equation (7) agrees with the fact that for every charge distribution over the nuclei of finite size p(r) - Ni r2j-1 p
Internal Conversion Amsterdam, 1958)
4. M. A. Listengarten, in Gamma-Luchi, (USSR AC. Sci. Press, Moscow-Leningrad, 1961); E. L. Church and J. Weneser, Ann. Rev. Nucl. Sci. 10, 193 (1960)
recalculations of the ICC when a spherical field other than HFS with C = 1 is taken. Table b contains the values Ni proportional to p(r) near the origin Ni = 1;~ 47rr1-2jp(r).
Internal Conversion, Z < 30
Spectroscopy
10. G. F. Dranitsyina and M. A. Listengarten, in Gamma-Luchi, (USSR AC. Sci. Press, Moscow-Leningrad, 196 1)
(8)
where Ni is a constant. The values of Ni are given in atomic units in Table b; to change to relativistic units one should multiply them by (a)2j+2, where a = e2/fic. Table c presents the ratio of values Ni calculated in the relativistic HFS field with C = 2/3 to Ni calculated with C = 1. To get the ICC in the HFS field with C = 2/3 one has to multiply the ICC from the main table by the numbers from Table c for the corresponding
11. I. M. Band, M. A. Listengarten, and M. B. Trzhaskovskaya, Bulleten Tsentra Dannyh LIYAF No. 2, p. 24, 1975 12. H. C. Pauli, “Computer version Coefficients,” N. hagen, Denmark, 1968; Comp. Phys. Commun.,
437
Atomic Data and Nuchw
Program for Internal ConBohr Inst. Report, CopenH. C. Pauli and U. Raff, 9, 392 (1975)
Data Tables, Vol. 18, No. 5, November
1976
BAND, TRZHASKOVSKAYA,
13. J. Adam, 0. Dragoun, and M. Honusek, program “pro zprucovani dat v jademe scopii,” CAV, Rei u Prahy, 1973
Internal Conversion. 2 < 30
and LISTENGARTEN
20. R. Learner and G. Hinman, Phys. Rev. 96, 1607 (1954); G. Hinman, Phys. Rev. 104, 1332 (1956); 0. Dragoun et al., Phys. Lett. 28B, 251 (1968)
“Soubor spectroA 10, 477
2 1. M. A. Listengarten and I. M. Band, Izv. Akad. Nauk SSSR, Ser. Fiz. 38, 1588 (1974)
15. A. I. Akhiezer and V. B. Berestetsky, Quantum Electrodynamics (Interscience, New York, 1965)
22. I. M. Band and M. B. Trzhaskovskaya, “Eigenvalues Tables,” LIYAF Report Nos. 90, 91, 92, Leningrad,
14. V. F. Trusov, NUCLEAR (1973)
16. M. E. Rose, Multipole York, 1955)
DATA
TABLES
Fields, (John Wiley,
1974
New
23. I. Lindgren and A. Rosen, Phys. Rev. 176, 114 (1968); J. C. Slater et al., Phys. Rev. 179, 28 (1969); ibid, 184, 672 (1969)
17. J. C. Slater, Phys. Rev. 81, 395 (1951) 18. J. A. Bearden and A. F. Burr, Rev. Mod. Phys. 39, 125 (1965)
ORNL Oak Ridge National Laboratory. LIYAF Leningradski Institut Yadernoi Fiziki (Leningrad Physics Institute)
19. I. M. Band, L. A. Sliv, and M. B. Trzhaskovskaya, Nucl. Phys. A 156, 170 (1970)
EXPLANATION
Nuclear
OF TABLE
The following table presents the ICC of gamma rays for 20 values of the atomic number 2 in the range 3 < Z < 30, including all Z > 14. Coefficients are given for 19 values of y-ray transition energies up to 6 MeV for the K-electron shell and 18 values up to 2 MeV for the three L-subshells. The minimum energy is 15 keV. The first five electric El -E5 and magnetic Ml-M5 multipoles are covered Errors can be equal to half of the unit of the last figure. See Method of Calculation Z
Atomic number
EB
Electron binding
EG
Gamma-ray
El, Ml,.
. . Multipolarities
energy
energy, in keV of nuclear transitions Example
In the tables of ICC for Z = 3, K-shell, the first two lines on the top begin as follows: EG 15
El 6.55E-02
E2 5.65E 00
This means that for a nuclear transition with y-ray energy of 15 keV, the internal conversion coefficient of El multipolarity is equal to 6.55 x 10e2, the ICC of E2 multipolarity is equal to 5.65 438
Atomic
Data
and
Nuclear
Data
Tables,
Vol.
18,
No.
5,
November
1976
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. z= EC 15 17 20 25 32 40 50 65 80 100 120 150 200 300 450 650 1000 2000 6000
El
3
5.65E 3.29E 1.63E O.ZOf-01 Z.lZE-07 8.07~.02 5.07E-02 9.86E-03
2.26f-04 1 .ObE-04 5,77E-05 2.74F-05 1 .07E-05 2.97~-06 9,07E-07 3.50E-07
4.03E-03 1.55E.03 7.12E-04 2.78~.04 8.41 E-05 1 .66E-05 3.65E-06 1 .ObE-06
b.oSE-02 1. POE-02 7.421-01 Z.JSE-03 5.65E-04 a.OlE-05 1 .30E-05 2.931106
1 .38E-07 ‘.‘lE-OF 1 .15E-08
3.llE-07 6.99f.08 1.36F-08
6.6(8-07 1 .08E-07 1 .61E-OR
oo 00 00
4.10E 2.lZE 8.99E 2.771 7.5OE 2.318 7.12E-01 1 .79E-01
z= El
15 17
9*5&E-04 6.29E-04
20 25 32 ‘0 50 65 80 100 120 150 200 300 450 650 1000 2000
3.64E-n‘ 1.7TE-04 7.41E-05 3.48E-05 1.63E-05 6.69E-06 3.?lE-06 1.56E-06 “,‘5E107 4.02E-07 1.,576-O? 4.35E-08 1 .33E-08 5.13f-09 Z.oZE-09 6,46E-10
E2
El
15 17
4,38E-01 Z.PIE-01 1 .7lE-01 8.19E-02 3,62~-02 1 .73E-02
5.95E 3.ORE
2.36E-02 9.05E-03 3.10E-03 1.18f-03 4.498-04 1.44E-04 5.9OE-05 2.27E.05 1 .04E-05 4.07f.06 1.23E.06 2.43E-07 I.JSE-08 1.56E-08 4.57E-09 1 .O~E-09
20 25 32 40 50 65 80 100 120 150 200 300 450 650 1000 2000 6000
8.21E-03 3.42E-03 1 .71E-03 8.168-04 4.468-04 2.,‘E-04 2..43E-05 Z.J?E-05 7,33E-06 2..55E-06 1 ,12E-06 3.541-07 9.29E-08
2,85E-03 Z.O7E-03 1.37E-03 7.82E.04 4,22E-04 2.42E-04 1 .39E-04 7,33E-05
8.64E-01 2.2lE-01 7.35E-02 1 .94E-02 3.6lE-03 3.691-04 4.42;-05 7.8OE-06
1.21E 2.52E 7.12E-01
01 00
1.55E-01 2.258-02 1 .66E-03 1 .48E-04 2.05E-05
4.43E-05 2,59E-05 1.6RE-05 9,95E-II6 5.138-06 2.08E.06 8,79E-07 4,21E-07
1 .37E-06 1.668107 1 .?OE-08
Z.dlE-06 2.531-07 2.24E-01
1 ,SPE-07 b.OlE-08 1 .34E-08
K1
1.38E-01 5.48E.02 1.78E-02 4.3OE-03 6.23E-04 l.O3E-04 2.36E-05 5.4OE-06 8.94E-07 1.32E-07
=5,4957E-03 E5
02 02 01 01 00
2.761 l.lJE 3.51E 7.081 1.2OE 2.43E 4.94E 7,64E-01 1.76E-01 3.69E-02 1 .04E-02 2.26E-03 3.3OE-04 2.448-05 2.17E.06 3.OOE-07 l.lSE-08 3.70E-09
Ii2
04 04 03 02 02 01 00
1 .87E-01 1 .ZlE-01
1.25E 7.12E
6,(14E-02 3.15E-02 1 ,34E-02 6.221-03 2.9lE-03 1 .20E-03 5.98E-04 2.861.04 1.58E-04 7.69E-05 3.11E.05
3.45E 1.28E 4.3OE-01 1 .6lE..O, b.lOE-02 (.96E-02 l),,oE-03 3.1bE.03 1 .4.5E-03 5.948-04 l.S9E-04 4.018.05 9.42E.06 P.(llE-06 7.84E.07 1.40Er07 1,86E-08
9.151-06 2.89E-06 l.O9E-06 3.1bF-07 PatOE-08 1,58E-08
l.SOE 00 3..5(1E-01 1 .37E-01 3.5bE-02 6,93E-03 7.69E-04 1 .ooE-04 ,.85E”O5 3.21 E-06 3.228.07 2.58E-08
1.22E 6.198
01 00
8.24E 3.69E
02 02
1 .OOE-03 4.6lE.O‘ 1 .96E-04 9.12E-05 4.26E-05 1.75E-05 8.768106 4.391-06 2.3lE..06 1.?3E-06 4,56E-07 1 .34E-07 4.231-01) 1 .bOE-08 5.66E.09 1 .35Er09
5.05E-02 1 .87E.O2 6.29i-03 2,3bE-03 .5,95E-04 2.8BE-04 l.l9E-04 4.63E”05 2.17E-05 8;7lE.06 2,76E-06 5,88E-07
2.568 7.658101 2.03E-01 b.q5E-02 1 .88E-02 4.74E-03 1 .blE-03 5.13E.04
00
3.30E 3.146 b.SSE 1.60E 3,97E-01 7.8lE-02 2.19E.02 5.69Ec03
02 01
114
It5
2.04E-04 6.73E-05 1.676-05 2.571-06
1 .3(lE.07 4.12E.08
1.921-03 5.216.04 1 .OZE-04 1.13E.05 1 .47E-06 2.72E-07 4.71E-08 4.73E-09
4.5OE-07 1 .ObP-07 2.331-08 3.12E.09
l.l5E-08 2.05E-09
w2 1.80E 1.15E
2.691 6.97E 1.56E 4.01E 1.038 2.lOE 5.991 1.57E 5.29E.01 1 .42E-01
04 03 03 02 02 01 00 00
1.31E 2.76E 4.90E 1.03E 2.15E 3.44E 8.13E 1.74E S.O(E T.ltE l.b5E-01 T.t6E-02 1 .(SE-03 1 .bZE-04 2.28E-05 2.10E-ob 1.851-07
06 OS 04 04 03 02 01 01 00 00
1 e32E.02 7.42E-03 3.94E.03 2,23E-03 1 s27E.03 6.631-04 3,97F-04
6.43~~01 2.9lE.01 1 .22E-01 5.62E.02 2.60~~02 1 sObE5.28%-03 2,51E-03 1.38E.03 6.7lE-04 2.718-04 7.92E.05 2,49E-05 9.3.5E.06 3.30E.06 7.74E-07 q .30E-07
2.311-04 1,49E-04 8.76E-05 4.49E.05 1.80E-05 7.56E.06 3.59E-06 1 .60E-06 4.99E-07 1.09E.07
il.7553E.02
H3 00 00
1.16E 6.56E 3.15E 1,lSE 3.83E 1.43E 5.36~~01 1 .72E-01 7,04E-02 2.741-02 1.28E.02 5.13E-03 1.63E.03 3.45E-04 8.llE-05 2,42E-05 6,73E-06 1.19E-06 1 .54E-07
PI5
c4 02 01 01 01 00 00
7.57E 3.8OE 1.5bE 4.62E 1.2lE 3.65E l.llE 2.798 9.45E-01 3.00E-01 1 .19E-03 3.94E-02 9.78E-0; 1.50E-03 2.641-04 6.20E-05 1 .36E-05 1 .8lE-06 1 .83E-07
03 03 03 02 02 01 01 00
N2
02 02 01 01 00 00
IS
q.82E
00
1.22E
02
7.748
03
4.85E
05
1.50E-03
9.70E-02
6,32E
00
4.17E
02
17 20 25 32
,.53E-02 9,OOEr03 4.33E-03 1.92Ec03
1.08E 5.5lE-01 2.16E”01 7.63E.02
00
6.451 2.83E 9.05E 2.551
01 “1 00 00
05 04 04 03 02 02 01 00
1.97E 5.971-01 1 .49E-09 5.06E-02 1.6tE-02 6.301-03 2.(oE-03 5.23E-04 (1,04E-05 1 .4lE-05 3.3qE-06 7.278-07 9.67E-0.5
00
2,37E-05 1 .,4E-05 4.491-06 1 .27E-06 3.91E-07 1.52E-07 b.OOF-08 1.91E-08
3.57E 1.70E b.22E.01 2.06E.01 7,66E-02 2.87E-02 ‘).lQE-03 3.77E-03 1.47E-03 6..55E”04 2.741-04 8.69E-05 1,84E-05 4.33E-06 1.291-06 3,59E-07 6.34E.v08
02 01 01 00
120 150 200 300 450
1.08E-03 7.07E.04 3.968-04 2,10E-04 l.l9E-04 6.BOE.05 3.541-05 2.12E..05 ?.23E-05 7.95E-06 4.686-06 2,4OE-06 9.62E-07 4.038.07 1,92f-07 8.5lE-OR 2.661-08
2.0.5E 8.50E 2.50E 6.541
2.971-02 l.l5E-02 3.e.OF”03 1 .58E-03 6.15E-04 2.86E-04 1.13E-04 1.48E-05 6.971106 1.56F-06 4.59E-07 1.36E-07 3.06E-08
2.05E 6.66E 1.42E 2.54E 5.35E 1.13E 1.81E 4.29E 9.21E-01
00 00
P.l5E-04 ‘.36E-04 1,82E-04 9,11E-05 4.341-05
03 03 02 01 01 00 00
6rlOE.02 3.45E.02 1.561-02 6.558-03
40 50 65 a0 100
3.671 1.38E 3,blE 0.12E P.lOE 5.43E l.llE 3.171-01 8.30E-02 Z.L)lf-02 7.55E.03 1 .43E-03 ?.50E-04 1.84F-05 3.32E.06 5.95E-07 7.33E-OR
See page 438 for Explanation
9.3BE 2.3lE 4.54E ?.27E 3.30E 1.11E 3.02E-01 5.89Ew02 6.568-03 (1.55c-04
&I4
PI3
2.30E-02
650 3000 2000
05 05 04 04 03
KE” n1
2.65E-01 5..58E-02 .5.7LIE-03 6.69E-04 6.10E-05 8.648-06 1.22E-06 1 .12E-07
4.96E 2.21f 7.76E 7.86E 3.05E
1 .59E-04 2.75E.05 2.76E-06 2,16E-07
15
G.loE-01 2,57E-01 6.65E-02 2,29E-02 7,33E-03 2.9,E-03 9,47E-04 2.291-04 3,32E-05 5.47E-06 1.26Er06 2.88E-07 4,77E-“8
00 00
KE” Ml
E5
04 03 03 02 02 01 00
?I3
2.8lE.02 2.02E-02
68
04
5.646 2.52E 8.9lF 2.14f 4.48E l.lOE 2.71f 5.34E
1.82Em01 1 .04E-01
06 06
EC
02 02 02 01 01 00 00
w2
9.63E 4.04E
SHELL
(1.37E 4.23E 1.75E 5.23~ 1.38E 4.20E 1.28E 3.23~.01 1 .lOE-01 3.SOE-02 ?.39E-02 4.59E-03 1 ,14E.03 1.76E-04 3.07E-05 ?.22E-06 1 .59E-06 2.13E-07 2.19E-08
2.74E.03 1 ,77E-Of
05 04
L1
01 00 00 00
n5
n,
1.52E 7.17E
E3
M4
4.17E-05 3.03E.05 2.01~“05 1.15F.05 b.l8E-06 3.55E-06 2,04E-06 l.O7E-06 6.491-07 3.8OE.07 2.461.07 1;46E-07 7.52~-08 3,05E-08 1 .29E-08 6.(7E-09 2.77E-OP 8.8lErlO
E5
w3
KE”
EB n 2.8400E-01
SHELL
2.70E-02 2.83E-03 3.46E-04 6.2Si-05 1 .lZE-05 1.37E-06 1 .57E-07
6
E2
ES
E‘ 03 03 02 02 01 01 00 00
YE”
06 05 05 04 03 05 02 01
SHELL
Coefficients
MY
7.9ZE 7.82E 2.43E 4.69E 8.29E 1.67E 3.39E 5.248
4.09E 1.8.9E 6.85E 1.7lE 3.67~ 9.16E-01 2.29!-01 4.531.02 ?.26E-02 3.241.03 I.O(IE-03 2.848-04 5.28E-05 5.408-06 6.471-07 l.l‘E-07 2.01E-08 2.43E-09
00
=5,5oooE-02 ES
E4
6
2.36E 1.25E 5.45E 1.74E 4.878 1.54E 4.87E 1.26E 4.33E-03
ER
04 04 03 03 02 0, 0, 00
E3 0, 01 01 00 00
2.97E-02 1 .?6E-02 5.381-03 2.12E-03 6.53E-04 1 .JlE-04 2.92E-05 L).blE-06 2,55E-06 5.75E-07 l.llE-07
El
Ll
1,90E-07 4.29Ew08 9.69E-09 I, 59E-09
2a EG
2.83E 1.3Of 4.72E 1.17E 2.5ZE 6.28E 1.578 3.lOE
00 00
1.3IE 4.038-01 1 .oYE-01 3.37E-02 1,04E-02 2,62E-03 8.86E-04 2.78E-04 l.O9E-04 3.49E-05 8.2IE-06 (.17E-06
f2 3.5!E 2.08E 1.05E 4.12E 1.45E 5.638-01 2.18E.01 7,16E-02
02 02 01 01 00 00
E3
R.23E-02 4.80E-02
Conversion
E4
3
2. EG
SHLLL
E3
E2
6.55E-02 4.3OE-02 2.4Rf-02 l.l?E-02 5.06E-03 2.37E-03 l.llE.03 ‘.56E-0‘
EG
Kl
Internal
Internal Conversion, Z < 30
3.01E-03 1.39E.03 5.68E.04 2.82E.04 1 .34E-04 7.371105 3.58E.05 % .45E-05 4.251-06 1.33E-06 S.OOE.07 1.768-07 4.15E.08
2.77E 1.222 4.27E l.OlE 2.09E 5.07E 1.25E 2.44E 6..52E-01 1.77E-01 5.96E.02 1.62E-02 3.15E-03 3.50E.04 4.57E-05 6.47E-06 ,.47E-06 q ,47E-07
04 04 03 03 02 01 01 00
of Table
439
Atomic
Dv+a
and
Nuclear
Dofa
bblar,
Vol.
10,
No.
5, November
1976
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 i F1
EG (5 17
02 01 01
1.42E 5.l7E
01 00 00
3,39E-03 1 .87E-03 Q,09E-04 3.63E-04 1 .04E-04 3.251.05 1 .28E-05 5.06E-06 1 .6oE-06 4.?1E-07
2.06E 8.21E.01 ?.77E-oq 1.77F-01 4.64E-02 2.191-02 1.77E-03 2.74E-03 5.621-04 1 .28E-04 3.83E-05 7 .?5f-05 2,6lE-06 4.972-07
EG
E,
f2
15 17 20 25 32 40 50 65 80 100 120 150
8.7lE-02 5.8QE-02 3,54E-02 1,75E-02 7.94E-03 3.88E-03 1 .88E-03 8.03~~04 4.08E-04 1 .97E-04
:: 40 50 65 80 100 120 150 200
300 450
650 1000 2000 6000
00 00
6,73E-02 3.26E-02 ,.38E-02 7.02.Z~03
2
200 300 450 650 ,000 2000
6.12E 3.74E 1.96E 7.998-01 2.938-01 I.18E-01 4.715-02 1*60E-02 6,76E-03 2.698-03 1.27E-03 5.llE.04 1.60E-04 3,2QE-05 7.4QE-06 2.24E-06 6.74E-07 ,.53f-07
l.O9E-04 5.3lE-05 Z.lZE-05 6.08E-06 1.9lE.06 7.48f-07 2.96E-07 9,40E-06
k:I
03 03 01 OP 02
5.291 I.731 4.62E 1.63E 5;33E-0~ 2.15E-01 7.136-02 1.76E.02 2.621-03 4.43E-0‘ 1.04E-04 2.43E-05 4.098-06 5.971,07
0, 0, 00 00
.
IO
00 00 00
3.60E 1.98E Q.05E 3.05E Q.06E 3.00E 9,85E-0, 2.658-01 9.39E-02 3.08E-02 l.ZCE-02 4.146-03 1 .03E-03 1.53E-04 2,5QE-05 6,08E-06 1,43f-06
02 02 01 0, 00 00
2.40E-07
El
E2
E3
2.63E.01 1.37E.01 5.8.5E.02 1.84E-02 5.098-03 l .bOE-03 5.04E.04 , .3OE-04 4,5OE-05 l.LSE-05 5,80E-06 l.QlE-06 4.7lE-07 6.97E-08 l.,4E-08 2.48E-09
,000
l.lOE-10
L.Izf-10
2000
1,84E-,(
5.llE-31
4.83E 2,PtE 8.06E 2,OlE 4,34E.O1 1 .OQE-01 2.741-02 5.48E.03 1,55E-03 4,OlE-04 I .f5E-04 3.6-E-05 6.811.06 7,05E-07 8,23E-08 1,33E-08 l.OOE.OQ 1,31E-10 2
40 50 65 80 100 120
150 200
b,YlE-04 L.LOE-04 9.371-05 3;72E-05 1,48E-05 5,00E-06
2.138-06 8,60E-07 4,13E-07 1.70E.07 S.SQE-08 1,25E-U8
450
3,16f-09
650
1,03E-09 3.27f-10 7;46E-1)
2000
SHELL
10
1 .08E-03 6,5?E-04 3,34f-06 1,34E-04 4,83E-05 1,92E-05 7,63E-06 2.59E-06 l,lOE-06 L,43E.07 2.12E.07 8.66E.08 2.8OE.08 5;QPE.09 1,3QE-09 4,07E-10
2.121-03 1.27E.03
04 03 03 02 0, 01 00 00
2.02E l.OOE 4.00E l.lZf 2.67E 7.27E 1.96E 4.2OE 1.24E 3.35E-01 l.l6E-01 3,2OE-02 6,25E-03 6.8Of-04 8,60E-05 1.59E-05 Z.QSf-06 3.7Of-07
15 17 20 25 32 40 50 65 80 100 120 150 200 300 450 650
15 (7 20 25 32
2.03E 4.8lE 1.50E 3.47E 7.56E 2.li.E 5.82E 2.OlE 5,51E-01 ?.07E-01 1 .17E-02 1.47E-03 2.72E-04 5.OlE-05 6.3lf-06 7.14f-07
.
L2
3.29E 7.441 1.41E 3.12E 6.86E 9.15E 2.111E 6.24E I.841 4.48E 6.42E-01 5.OIE-02 C.llOE-03 7,00E-04 1 .02E-04 9,65f-06 8.50E-07
06 05 05 04 03 03 02 01 01 00
EB
04 03 03 02 01 01 00 00
2,45E-03 1.27E-03 7,OQE-04 3.92.E-04 2.03E.04 '1 .ZlE-04 6.928-05 4.43E.05 2.58E.05 1.3lE-05 5;181.06 2,14E-06 '1.01E-06 4.41E.07 1.35E.07
SHELL
EB
SHELL
01
1.2OE 4.83E 1,lQf 2.QSE 4.911 9.7qE l.QPE 2.88E-01 6.438-02 l.ZQE-02 3.511-03 7,2OE-04 9.18$-05 5,9(1E-06 4,24E-07 4.S8E-08 4,5'lf-09 2,44E-10
02 02 02 01 01
7.36E 2.73E 8.64E-01 3,52E-01 1 .36E-01 6.325-02 2.52E-02 7.951-03 ,.68E-03 3,94E-04 t.t7E-04 3.24E.05 5.631-06 7,07E-07
00 00
4.13E 2.29E 1.07E 3.79E 1.22E 6.45E-PI ,.64E-01 5,16E-02 2,09E-02 8.06E.03 3.74E-03 7 .lQE-03 4.69E-04 Q.89E-05 2.3lE-05 6.87E.06 (.QoE-06 3,3,f-07
01 01 01 00 "0
3.Q6E l.QOE 8.07~ 2.37E 6.15E 1.84E 5.54E 1.38E 4.64E
04 04 03 03 02 02 01 01 00
l.47E 5.8(~-01 1 .91E-01 4.74E-02 7.27E-03 1 .27E.03 2.991-04 6.57E-05 8.65E-06 8.45E-07
00
2.45E t.loE 3.851 9.19E 1.90E 4.6oE ,.13E 2.2oE 6.15E 1.59E 5.36E 1.45E 2.83E-01 3.15E-02 4.(lE-03 7.64E-04 1 .33E-04 1 .32E-05 1 .OlE.06
06 06 05 04 04 03 03 02 01 01 00 00
w4
6,43E-01 4.02E.Ol Z.(PE-01 9.66~~02 3.94E.02 1.7?E-02 8.05E-03 3,23E-03 1 .5QE-03 7.46~~04 4.07E-04 1.97E.04 7.87E-05 2;28~.05 7,llE.06 2.66E-06 9.26E.07 Z.qSE-07
2.68E 1.32E 5.25E 1.5lE 3.83E 1.13E 3.37E 8.296-O* 2.78E-01 8.74~-02 3.45E-02 l.l3E-02
n5 03 03 02 02 0, 01 00
2.8OE-03 4.28E-04 7.496-05 1.761105 3.86E-06 5.08E-07
1.75E 7.63E 2.6Of 6.02E 3.2lE 2.88E 6.QLE 1.34E
05 04 01 03 03 02 01 01
3.7qE 9.53E.01 3.2OE'01 0.641-02
00
1 .68E-02 1.86E-03 2.42E-04 4.49E-05 7,8OE-06 7.751107
KEV III
7.03E 2.54E 6.75E l.qOE
05 05 04 04
1,47E 2.42E 3,PQE b..55E 9,29E-01 1,60E-01 3,85E-02 6.928-03 7,92E-04 4.18E.05 2,60E-06 2,SlE-07 2.07E-08 6,QOE-10
03 02 01 00
EE
=l.Q963E-02 f5
04 03 03 02 01 00 00
6.42E 3.60E 1.7Of 6.14E Z.OOE
*2
=2,0080E-02 ES
03 03 02 02 01 00 00
n5 01 00 00 00
UEV n1
E4
00
Z.OOE-04 5.06f-05 2..86E.O6 8,OQE-07 8.34E-08 9.25E.08 , .76E-09 1.54!z-t0
IOE-02
4.03E 7.78E l.74E 3.85E 6.53~ l.6lE 3.581 1.06E 2.411-01 3.73E-02 2;96E-i; 2.8OE-04 4.10E-05 5.96E-06
3,lZE-10
l.Wf
3.3J.E.03 1 .34E.O3 3.88E.04 1 .21E.04 4.53E-05 I. 581-05 3,63E-06 5.QOE-07
9.81E"03 6.96E-03 4.47E-03
b.l4E-08 6.6lE-09
3.68E 7.791-01 1 .QZE-01 4,71E-02 Q.lOE-03 2.48E-03
4.406-04 2.23E.04 8,83E-05 3.66E.05 1 .72E-05 7.52~~06
06 05 05
2.47E-03 5,4OE-04 7,91E-05 5,82E-06 4.941-07
01 01
1.05E 6.50E 3.62~ 1.60E 6.59E.01 2.98E.01 1.36~~01 5.46E.02 2.68~~02 1.27E-02 6.QlE.03
1.13E 5.04E 1.75E
8,67E-03
E3
6;191-04
x4.501
5.66E-07
6.4OE 2.60f 8*08E 1.62E 2.76E 5.591 1,14E 1,77E-01 L,llE-02
L3
Q.09E 6.l4E
04 04 03 03 02 01 01 00 00
M2
1,66E-01 1.18E.ol 7.601.02 4.17E.02 2.17E.02 l.ZlE-02 6.77f.05 3.46E.03 2.058-03 1 .lllE-03 7.548.04
ES
2 < 30
KFY
2,30E-06 4.88~~07
E4 01 0, 00 00
10
E2 S.OOE-01 2.6OE-01 l.tlE-09 3.431-02 9.391103 Z.VlE-03 9,02E-04 2.281-04 7,72E-05 2.438-05 P.b8E-06 3.041-06 7.17E-07 l.OlE-07 1 .SQE-08 3.47E-09 7.3OE-,O 1.0&E-t0
07 Oh
Conversion,
Coefficients
111
2.18E Q.62E
E4
EG
El
05 05 04
L1
2 .
EG
S,83E q.R8E 7.4OE
El
1OE-01
E5
F4
6.67E 3.64E 1.65E 5.4QE l.b(E
Conversion
ER n8.67,
SHELL
E3
l.llE 6.75E 3.51F
20
1.55E 1.04E 6.24f-01 3.06E-01 1 .38E-01
10
E7
Internal
Internal
06
9.bLE-05
4.70E
05
6,42E-05
'1.24E
05
3.78E-OS
1.98E 2.6lE 4.17E
OP 03 02
l.83E.05 8,lTE.06 3.94E-06 1.9lE.06 8,12E-07 4.151-07 P.OZE-07 t.llE.07 S.bOG-oa 2,30E-08 6.83E.00 2.171-09 8,23E-10 2.958-90 7.291-11
01 00 00
2.7lE 1.418 6.00.9-0'1 ?.86E-01 5.091.02 l,SOE-02 4,QlE-03 1 .LSE-03 4,26E-04 1,35E-04 5.30f.05 1.7qE-05 4;07E-06 5.66E-07 8.54E-08 1 .bTE-08 2,8(E-09 2,17E-50
?.4bE-02 ?.27E-03 2,78E-03 9,63E.O4 3,69E-04 1,42E.O4 4.61E.05 1 .QOE-05 7;37E-06
3,42E-06 l,SbE-06 S.OQE.07 7.92E-08 1;62E-08 4.08E.09 8.67E.10 9.62E.71
00 00
2.621 l.2lE 4.49E l.llE 2.4OE 6.03E.01 l .SZE.Ol I.ObE-02 8,54E-03 P.ZlE-03 7,38E-04 1 ,PbE-04 3.6SE.05
02 02 01 a1 00
2.358 9.6lE 3.01f 6.12E 3.05E
2.1&f 4.3QE 6,lJ7E-01 1 ,bOE-01 3.371-02 9.591-03 2,OQE-03 3 .OSE-04 2.211.05 1 .83E-06 2,20E-07 2.24E-08 Q.lIE-IO
3,66f-06 4.09E.07 6,26E-08 8,16E-09 4.561-10
04 OJ 03 02 02 01 00
CEV
1,3lE
6.68E
2.SOE.02
1,39E-06 6,97E-07 3,33E-07 1,82E-07 6,7bE-08 3,43E-08 9,3lE-09 2,6lE-09 0.54E.10 2.45.5.50 3.86E-ll
Yl
7.8OE 1,43E 2,34E-Ol 5,38E-02 8,QQE-03 Q,23E-04 4.04E.OS 2,04E-06 1.65E-07 l.lQE-08 4,13E-IO
n5
1.82E.04 l,ZOE-04 7,02f-Of 3.35E-05 1,47E-05 7,00E-06 3.331.06
1(2
WL
*3
t.lqE-02 t .34E..OP 6.2QE.03
4,IJE 2.34E P,lCE-01
2.23E.03 7.17E.04 2. S8E-04 Q.38Er05 2;.58E.05 l.q4E-OS 4;25E.06
2.56E.Ol 6,2QE-02 l.')QE-02 5.131-03 q .2OE-03 3.82E-Ok l.l3E-04 4,23E-05 l.ZPE-05 2,84E-06 3.568-07 4.85E-08 f..79E-09 1.41E-09 l.fZf-10
?.PlE-06 7,26E-07 L.lIE-07 3 .Q?E-08 8,,6E-09 2.15E.09 5,14E-10 Q.OSE-11
00 00
6.60E 2.afE 9.45E 2,llE 4.08E Q.34E-Ol 2.lbE-01 3 .QPE-02 1 .OSE-02 2.48E.03 7,84E-04 l.95E.04 3.34E-OS 2.978-06 2.93E-07 3.97E-08 b.SOE-09 2,33E-10
02 02 01 01 00
7.47E 2.84E 8.lOE (.46f 2.23E 4.12E 7.7lE 1.09E 2.37E-01 L.bSE-02 q.251.02 2.556-03 3.421-04 2;2OE-05
04 04 03 03 02 01 00 00
(.bOE-06 1.696-07 1.45E-08 4.68E-l0
See page 438 for Explanation of Table
440
Atomic
Doto
and
Nuder
Data
T&lm,
Vol.
18,
No.
5,
Nwnnb~r
1976
BAND,
EG
F,
IS 77 20 25 32 40 50 65 80 100 120 15n
3.3OE 2.25E 1.36E .5.112E-07 3,15E-Ol ,.56E-01 ?.65E-02 3.311-02 l.?OE-02 8;3OE-03 4.63E-03 2;2?E-03 9,19E-04 2.6kE-04 11,498.05 3.3hE-05 1;34E-05 L.ZLE-06 l;O?E-06
200 300 450 650 1000 2000 6000
E2 00 "0 00
?.OOE 1.29E 6.??E 2.89E l.OFE 4.478 1.82E 6,2QE-01 Z.?lE-01
02 02 01 01 01 00 on
l.*?E-01 5.238-02 2.131-02 6.77E-03 ,.42E-03 3,2?E-04 l.OOE-04 3;05E-05 6.Q?E-06 1,31E-06
El 2,22E-01 1,52E-OT ?.33E-02 4.72E.02 2,2Ot-02 l.OqE-02 5,42E-03 2.361-03
(.I‘.E 8.5lE 4.6OE 1.95E ?.4?E-01 3.0QE-01 1.2?E-01 4.44E-02
80 100 120 150 200 300 450 650 1000 2000
1,2lE-03 5.968-04 3,33E-04 1.648-04 6,64E-05 l,QLE-05 6,l?E-06 2,44E-06
1.921-02 ?,8OE-03 3.?LE-03 1.53E-03 4,88E-04 q.O3E-04 2,3QE-05 ,.27E-06 2.221-06 5.071-07
P.?(E-07
El
15 T7 20 25 32 40 50 65 80 100 120 150 200 300 450 650 1000 zoou
6 ,P?E.O3 4 .tSE-03 2 .23E-03 9 ,lZE-04 3 .3CEr04 9 ,3?E-04 I ,5?E-05 1 .?3E-05 a .33E-06 3 ,40E-06 1 .bSE-06 6 ;azE-07 2 .23E-07 4 .BLE-08 1 .15E-08 3 .40E-09 9 .22E-10 1,54E-10
EG
El
See page
438
3.6lE i.aqE a.lZE-0, 2.551-01 7,06E-02 2.2lE"02 6.93E-03
65 80 100 120 150 200 300 450 65F ,000 2000
3.668-05 l.SbE-05 6,4?E-06 3,13E-06 1.3lE-06 4.35E-07 Q;aSG-08 2,52E-08 8,2JE-09 Z.bZE-09 5.?1E-10
1.?7E-03 b.OSE-04 1.921-04 7.SLE-05 2.43E-05 5.?I)E-06 0;17E-o? 1,30E-07 2.84G-08 5.961-09 k.42E-10
for
Explanation
ES
5.498 2.82E 1.17t 3.44E R.64E 2.44E 6.8lE 1.5lE 4.5hE 1.26E 4.45F 1.25E 2,5lF-01 2.821-02 3.6?E-03 6.966-04 1.326-04 T.?lE-05 '1,?2E-06
Ll
*
on 00
.
14
12
6.768 3,lOE 1.13E 2.8OE 6,OOE 1.4QE 3.70E. 7.216-02 1 .QaG-02 4.971-03 l.t,ZE-03 4.13E-04 ?.25E-05 6;6bE-06 b.QOE-07 l.OYE-07 9.45E-Ok 1 .25E-OP
=1,4900E-01 ES
2,QlE q.?QE 9,54E-01 4,08E-01 t.bZE-01 ?,lZE-02 3,17E-02 1.25E.02
3.lkE O.(IBE-07 3.14E-01 k.QOE-02 1.79E.02 2,03E-03 2.658-04 5,05E-05 Q.S?E-06 1.241-06
00
3.93E 9.09E 2,76E b.SlE-01 l.O4E-01 8,bLE-03 a.slE-04 1.298-04 l.Q4E-05 I.~oE-06
01 00 00
4.5kE.04 2.606.04 1,65E-04 ?.52E-05 4.771-05 1.46E.05 7.601-06 3,53E-06 1.52E-06 4.53E-07
6.03E.03 I.(lOE-03 l.SlE.03
EO
~1.0000E.01 ES
04 04 03 03 02 01 00 00
SHELL
1. 3.
00
2;ao1-06 1.541-06 7,45E-0, 2,94E-07 k,O?E-08 2.28E.08 7,5OE-09 2,15E-09 3,56E-IO
6.191-05 z.aQG-05 1,74E-05 3.5lE..06 b,aQE-07 3.43E.07 3,62E-Ok 7.9lE.09 8,57E-10
EB
=Q,QOOOE-02 E5
l.abE t.OlE 4.62E ).5QE 4.QQE l.??E 6,40E-01 l.Q,E-01
4.2?E 1.6dE 5.5lE-01 1.36E-01 2.08E-02 3.63E-OS
00 00
6.67E 3.05E l.OkE 2.65E 5.48E t.33E 3.2tE 6.36E ,.,,E 4;sbe
06 06 06 05 04 04 03 02 02 0;
l.51E 4.14E 1I,OIE-01
01 00
k.VLE-02 ?.17E-02 2.17E-03 3.?6E-04 3.?tE-05 2.766-06
8,52E-04 l,87E-04 2.43E-05 2.3OE.06
HZ
n4 02 02 09 01 00 00
7.89E.02 3,00E-02 1,38E-02 5.44E-03 1.70E.03 3,55E-04 8.26E.05 2.44E.05 6,70E-06 l.lSE-06
n2 l.QSE-01 l.lSE.01 S.?OE-02 2.2lE.02 7.72E.03 Z.QQE-03 l.lbE-03 3,IlE.04 1.5aE.04
2.
05 04 04 03 03 02 02 01 01
l.TQE 5.74E 2.24E 6.26E 1.5SE 4.46E 1.3OE 3,(5E
04 03 03 02 02 01 01 00
7.64E 3.2SE l.lOE 2.4UE 4.85E 1.13E 2.6kE 5.05E
05 05 05 04 03 03 02 01
1.04E 3.23E-01 (.2?E-01 c..llE-02 l,OlE-02 1,53E-03 2.671.04 6.24E.05 1.368-05 l.?fE-06
00
1.36E 3.50E 1.17E 3.12E-01 6,OlE-02 6,62E-03 a.5QE.04 1.59E.04 2.75E-05 2,?2E-06
01 00 00
KEV Ml 1.42E.03 ?.l$E-04 5.531.04 2.6bE.04 1 .laE.04 5.68E.05 2.73E.05 l.l5E-05 s.aiE-06
3OE 17E.01 4. 75E-02 6. 661-03 3. 5?E-04 2. 268-05 ZUE-06 1. BLE-07 6,l?E-09
I45
1.37E 5.9lE 2.428 7.12E 1.84E 5.48E 1.64E 4.05E 1.36E
m3
?,23E-04 2.a71.04 O.ZZE-05 2,54E.05 ?,43E-06 3.258-06 ?.3lE-07
06 06 05 04 04 03 02 01 00
I. 3.
03 03 02 02 01 01 00 00 00
4;02E-01 1.86E.01 ?,3bE-02 2.3lE-02 4,04E-03 1.13E.03 3.34E-04 Q.laE-05 1.578.05 l.?lE-06
00 00
5. OSE 7. 84E 4. ??E 2lE I. 12E 17E 12E 3. 86E 7. LIE
a.
Ilk
2.07E 1.15E 5.43E 1,94E 6.24G 2.27E 8.3lE 2.60E 1.05E
n2
4,24E-02 2.97E.02 f.8kE.02 l.OlE-02 5.lSE-03 2.82E-03 1.568.03 ?.83E-04
E4 02 02 or 01 00 00 .Ol
Ill 06 05 05 0‘ 04 03 02 02
SHELL
I3 01 01 01 00 00
KE"
1.56E 7.5lE 2.84E ?,T9E 1.52E 3.63E 8.53E 1,53E
.?4E .QCE .lOf .24E .lCE .3?E '.05E .43E .35E-01
L3
3.626 2.25E l.tZE 5.286 2.13E 9,44E-01 4,24E-01 1.6aE-01 8.15E-02 3;kOE-02 2,06E-02 9.(17E.O3 3.921-03 1.13E.03 3,48E-04 1 .ZPE-04 4,4bE-05 l.OOE-05 1,5?8-06
04 04 03 03 02 02 01 01
.13E-02 *04E-02 .SlE.03 .?OE-04 ,OOE-05 ,3OE-06 .4OE-07 ,86E-08 2,7ac-09
t4
I42
S.??E-01 4,06F-01 2,5kE-01 1,3QE-01 7.04r-02 3,a,E-02 2.146-02 I .OkE-02 6*3r)E-03 3;57E-03 2.27E-03 1i31E-03 6.56E-04 2.56E-04 l.O4E-04 4.k4E-05 Z;OQE-05 6.238-06 l.ZLE-Oa
EB
F4 02 02 01 01 00
Ill 07 07 06 06 05 04 04 03 02 02 01 00 00
3,29E 1.73E 7.35E 2,21E 5.691 1.64E 4.648 1.046
E3 60 00
2.75E l.PQE 4.70E 1.15E 2.36E 5.51E 1.27E 2.25E 5.68E T;3OE 3.93E 9.19E 1.46E l.IOE-Oq (.18E-02 1.771.03 2;66E-04 2.6lE-05 2.30E-06
El 02 02 02 0) Or 00 00
3.641 2.6aE 6.11E 1.56E 3,40E 8,62E-01 2,20E-07 4.44E-02 9.268-02 3,31E-03 l.lZE-03 I.OLE-04 5,?7E-05 6.051-06 ?.14E-07 l.l7E-07 1,6&E-Ok 1,16E-09
05 05 05 04 03 03 02 02 01 01 00 00
SHELL
E3
2
1.35E.02 a,19E-03 S.ZllE-03 l.?SE-03 6.418-04 2,62E-04 (.06E-04
E4 04 "3 17 "3 02 02 01 00 00 00
2.53E-01 $.53E-02 3,52E-02 1,20E-02 3,03E-03 4.6?E-04 8,13E-05 1.951-05 4.60E-06 a.OlE-07
EP
15 17 20 25 32 40 50
is
b,k4E 3.92E l,a6E b,?tE 2,t')E 7.28E 2.4QE 6,96E-01
t2 l.QZE 1.01E 4.37E-01 1.398-01 3.rnQE.02 1,24E-02 3.95E-03 l.O3E-03 3.bTE-04 l.l?E-04 4,73E-05 l.SLIE-05 3.92E-06 5;aQE-OT Q.,7E-Oa 2,13E-Oa 4.17E-09 4.42E-IO
Conversion Coefficients
E3 01 00 00 On
2 EG
Internal
14
E2
15 17 20 25 32 SC 50 65
3,O?E-07
.
Internal Conversion, 2 < 30
TABLE.
l.O?E 6,lbE 2.91E l."ZE 3.(3E 1.07E 3.bOF Q.?,E 3.66E 1;2lE 4.94E-01 1;67E-01 4,22E-02 b.C?E-03 q.lZE-03 2.698-04 6;43E-05 1.lOE-05 l.SQE-06
2 EC
and LISTENGARTEN
TRZHASKOVSKAYA,
I53 2.04E 1.07E 4.59E 1.44E C.OOE-09 l.IbE.O( 3.?SE-02 l.OZE-02 3,50E-03 1.12E.03 4.44.5-04 l.L4E-04 3.471-05 4,90E-06 7.4QE.07 1;48E-07 2,5lE-0.5 l.QSE-09
I45
114 01 O? 00 00
l.?OE a.afE 3,2?E 8.35E 1.84E 4.7OE l.ZOE 2,43E-01 6.93E-02 l.alE-02 b,lqE-03 1,64E-03 J.OQE-04 3,156-05 3.5bE-06
03 02 02 01 01 00 00
1.64E 6.8lE 2.17E 4.50E 7.88E 1.64E 3.40E 5.42E l.ZkE 2,73E-01 7.aLE.02
05 04 04 03 02 02 01 00 00
1.731-02 2,5bE-03 1,89E*04 q.IQE-05
5.53E-07 7.2aE-0.3 4,llE-09
1.931-06 l.QQE-07 8.25E-09
KE" I(1
a,?4E 3.5bE 1,llE 2,ZZE 3.74F 7.49E 1.5OE
04 04 04 03 02 01 01
9.29E 3.361 8.97E 1.46E
66 06 05 05
6,QQE-04 4,69E-04 2.786-04 1.361-04
l.QSE 3.1bE 5.13E
04 03 02'
6,15E-05 3,00E-05 1,46E-05
2.27E 5.llE.01 l.O4E-01 Z.a3E-02 5*84E-03 7.83+04 4;93E-05 3.52E-06 3.11lE-07 3.?6E-Ok Z.OOF-0.;
00
6.07E 1,13E l.k6E 4,2QE-01 1.24E.02 7,50E-03 3;32E-04 l.bQE-05 1.3?E-06 Q.Q3E-08 3,43E-09
01 01 00
6.30E.06 3.248-06 l.SQE.06 1).95E-07 4.45E-U? l.k4E-07 5;4?1-08 1,74E-Ok 6.631-09 2.37E.09 5.a2E.lo
Iv2
N3
2.49E-01 1.37E.01 6.33E.02 2.20E.02 6.93E.03 2,461.03 a.79E.04 2,65E-04 q,04E-04 3.82E.OS l.?OE-05 6,4lE-06 1.861-06 3;44E-07 6.Q~E.08 1,79E-Ok 4.3QE.09 ?.Z?E-10
5.531 2.64E l.OlE 2.75E 6.6OE.01 1.84E.01 S.l?E-02 l.lrnG-02 3.726-03 1 .OPE-03 4.02E-04 l.LlE-04 2.63E-05 i;ZLE-06 4.34E-07 7.721-08 1.2lE-0.5 1.08E.09
w 01 01 01 00
7.5PE 3.2OE 1.05E 2.29E 4.32E 9.6QE 2.2OE 3.921-01 l.OZE-Ot 2.4lE-02 ?.56E-03 1.86E-03 3.15E.04 2;76;-05 2.68Ec06 J.SQE-07 3,99E-08 1.96E.09
II5 03 03 03 02 01 00 00
8.458 3.17E 8.QOE 1,57E 2.35E 4.268 7.aLE 1.00E 2.34E 4.54E.01 l.ZlE-01 2.44E-02 3.24E-03 2;iSE.04 l.4kE-05 l.SSE-06 1.3lE-07 C.O6E-09
05 05 04 04 03 02 01 04 00
of Table
441
Atomic
D&a
and
Nuclwr
Dota
1obhr.W.
1%
No.
5,
Novwnkr
1976
BAND,
and LISTENGARTEN
TRZHASKOVSKAYA,
TABLE. 2 i EG
t,
15 I7 2* 25 32 40 50 65 80 100
3.82E 2.61k 1.59t 7,96E-01 3.7OE.01 1.84E.01 P.OhE.02 3,93E-02 2.03E.02 9.938-03
120 150 200 300 450 650 ,000 2006 6000
5.bbE
05
02 01 01 0, 00 00
6.bRE 3.1.3E l.TSE 3.53E l.ZlE 4.13E 1.15E 4.19E 1.4lE S.RIE.0, I.POE.01
03 03 03 02 02 01 01 00 0"
5.55E.03 2,73F-03
1.45E 7.82E 3.3rlF 1,2$E S.lXE 2.12E 7.381-01 3,19E-01 1,3OE-01 6.21E.02 2,53E-02
2.95E 1.25E 3.72% P.516 2.72E 7.68f I.72E 5.246 1,46E 5.18E 1.47E
05 05 04 03 03 02 02 01 01 00 00
l.t~E.03 3.241-04 1.03E.04 4.09E.05 1.63E-05 5.14E.06 1.3OE.06
8.lOE.03 1.71E-03 3.9GE-04 (,22E-04 3.72E.05 R.51E.06 ,.59E-04
5.028.02 7.75E.03 1.351-03 3.266.04 7.846.05 1.35E.05 l.P‘E-06
2.64E.01 1.82E.01 l;lZE-01 S.bRE.02
32
2.666-02 1,33E-02 6.63E.03 2.9OE.03 l.SOE-03
100
7;37E-04 4.13E-04 2;04E-04 a,3OE-05 2.43E.05 7.77E-06 3.08E-06 1;23E-06 3.671.07
1000 2000
1.55E 9.798 5;34E 2.29E .3.84E-01 3,7OE-01 1.53E.01 5,3aE-02 2.34E-02 9.55E.03 4.59E-03 I.a8E-03 b,05E-04 l,ZaE-04 2,99E-05 9.168-06 P.aOE-06 6,42E-07
15 17 20 25 32 40 50 65
80 100 120 150 200 300 450 bS0 1000 2000
El 9.648103 b;OZE-03 3.17E.03 1;31E-03 4.87E.04 l.PPE-04 a.OPE.05 P.alE-05 1.22E.05 5,OlE.Ob 2.43Er06 1,01E.06 3.32E-07 7;ZRE.08 1.73E.03 5;1$E-09 ,,396.09 2.32E.10
01 00 00 00
El
.
Lq
7.48E 4.33E 2;llE 7.658 2.43E a.51E 2.93E 8.30E-01 3.041..01 l.OJE-01 4.278-02 1.468.02 3.731.03 5.79E.04 l;OEE-DC 2.45E.05 5;9lE-06 l.OZE.06
SHELL
I
02 02 02 01 01 00 00
15
3.43E 1.83E 7.94E 2.446 6.4lE l.aTE 5,3SE I,PZE 3.77E l.ObE 3.788-01 l.OaE-01 2.?9E-02 2.5OE.03 3.30E.04 6.33E.05 l.ZlE-05 1 .SI)E-06 L2
00 00
5.35E 2;47E 9.OC.E 2.30E 5.03E t.Z(IE 3.27E.Ot b.bZE-02 1,69E-02 4.9bE.03 l.baE-03 4;55E-04 a.70E.05 9;15E-06 1 ,OaE-06 1.70E-07 2,55E-00 1.771-09
.
15
SHELL
6.92E 2.a4E 8.94E 1,SJE 3,lbE b,SOE 1.34E 2.13E 5.00E.01 1.07E"01 3.07E.02 6.798-03 l.OlE-03 7.571-05 6.536-06 8,2'1E-07 a.942.011 4,25E-09
L3
04 04 03 03 02 01 01 00
E4
5.25E
00
9.1)8E
02
1.27E
05
17 20 25 32 40 50
Y.lbE-02 6.07E.03 2.49E.03 9,271.04 3.77E.04 1,53E-04
00 00
4;SLE 1.45E 4.72E a.14E 2.2OE 5.47E-01
02 02 01 00 00
b5 80
5,322.05 2.3lE.05 9;46E.06 4.60E.06 1.92E.06 6;4IE-07 3.4*t-07 3,73E-08 t.22F.08 3.9OE-09 8.8SE.10
2;75E 1.14E 3.73E.01 l.O4E-01 3.25E.02 l.OZE-02 2,62E-03 a.95E-04 2.84E.04 1.12E.04 3.6lE-05 8.blE.06 ,.22E-06 1.94E-07 4,24E-08 6.89E-09 1.258-09
5.1aE 1.blE 3.251 5.50E 1.108 2.2lE 3;3bF 7.586-01 1,54E-01 4.21t.02 a.71E.03 1.17E.03 7.38E-05 5.281-06 5.726-07 5.641-06 2.99E-09
04 04 03 02 02 01 00
120
150 206 300 450 650 1000 2000
See page 438 for Explanation
ER
=1,3600E-01
06 06 05 05 04 03 02 01 01 00
3.99E 2.44E 1.3OE 5.51E.OI 2.17E.01 9.49E.02 4.2lE.02 1,64Er02 7.921-03 3.67E.03 l.P.SE.03 9.43E.04 3.73E.04 1.07E.04 3,29E-05 l,ZPE-05 4.17E.06 9.35E.07
w2
2.OPE.03 1.398-03 8,20E-0‘ 3.961-04 1.7bE.04 0.49E.05 4,08E-05 1.738.05 8.741-06 4.2lF.06 2.326-06
2.851.01 l.bGE-01 a.44E.02 3.28E.02 %.lSE.OZ 4.4bE.03 1.73E-03 5;7lE-04 2.3aE.04 9.32E.05 4.361-05 1,73E-05 5.32E.06 1 .05E-06 2;17E-07 5,52E-01 1.21E.08 1.31E.09
3.271-09 5,,,E.10
442
MS
1.45E 7.33E 3.02E Ct.POE 2.3$E b.aTE 2,ObE 5.07E q.IOE 5.33E
05 04 04 05 03 02 02 01 01 00
8,OlE 3.67E 1.32E 3.23E 6.?7F 1.65E 4.06E 7,PlE 2.2OE 5.67E
06 06 06 05 04 04 03 02 02 01
2.1OE b.B'IE-01 1.69E.01 2,59E-02 4.51E.03 l.ObE-03 Z.JlE-04 3,OlE.05 2.82E-06
00
1.91E 5,ISE 9.99E.01 l.llE-01 1.4SE.02 2.69E.03 4.67E.04 4.611.05 3.391-06
01 00
N3 00 00 00
2.54E 1.38E 6,27E 2,lSE 6.68E 2.3bE a.4aE.01 2.bOE.01 1.04E.01 3.92E-02 l;aOE-02 7,09E-03 2.21E-03 4.bOE-04 1.07E.04 3.15E.05 (1.621-06 1.471-06
n4
115
02 02 04 01 00 00
1.62E 7.79E 3.03E 8.4lE 2.07E 5.93E 1.73E 4.14E 1.3bE 4.22E-01 1.651-01 5.35E.02 1.3lE.02 1.98E.03 3,44E-04 .3,05E-05 1.75E.05 2.2aE.06
04 03 03 02 02 01 01 00 00
1.04E 4.438 1.4aE 3.32E b.4bE 1.50E 3.53E 6.64E 1.81E 4.57E 1.52E 4.05E.Ol 7,7aE-02 8.55E.03 l.llE-03 2.05E.04 3.541-05 3.49E.06
06 05 05 04 03 03 02 07 01 00 00
01 01 00 00
2.75E l.ZaE 4.77E l.ZZE 2.7TE 6.941 1.78E 3.62E.01 l.OSE-01 2.7lE.02 9.161-03 Z.LbE-03 4.65E.04 4,76E-05 5.42E.06 i3,42E-07 l.llE-07 6.3OE-09
03 03 02 02 07 00 00
2.3bE 9,aIE 3.14E 6.54E 1.15E 2.4OE 5.02E 8.02E 1.90E 4.07E.01 1.178-01 2.59E.02 3.858-03 2,85E-04 2,4+E-05 2.948-06 3.046-07 , ,266.06
01 01 01 00 00
1.23E 5,17E 1.69E 3.671
04 03 03 02
1.54E 3.481 6.17E.01 t.59E.01 3,77E-02 l.lPE-02 2.89E.03 4.87E-04 4;26E.O5 4.12E.06 S.SOE-07 b.OIE-08 P.PLE-09
01 00
1.37E 5.10E '1.438 2.51E 3.73E 6;74E 1.24E 1.72E 3.666 7,OaE.01
w5
n3 2.96E t.56E 6.758 2.13E 5,92E-01 l.OIE.O( 5.88E-02 1;52E-02 5.241.03 1;681-03 6,67E-04 2.181-04 5.251-05 7.44E.06 1;14E-06 Z.ZbE-07
3;83E-oa 2.988-09
05 04 04 03 03 02 01 00 00
KFV Nl
of Table
k4 03 03 02 02 01 01 01 00 00
UEV Ml
,,14E-08
07 06 06 05 04 03 02 01 01 00
2.62E 1.47E 6.90E 2.46E 7.92F 2.87E 1.05t 3.271 1.32E 5.04E.01 2.338-01 P.ZOE-02 2.8.3E.02 6.036-03 1.40E-03 4.158.04 1.14E.04 1.958-05 2.34E.06
WP
5.738-02 4.01t.02 r;snE.oz 1.3t.E.02 6.1176-03 3.751-03 2.0bE.03 1.03E.03 b.OPE-04 3.4lE.04 2,15E-04 'I.ZIE-04 b.ZOE-05 2.411-05 9;8OE-06 4.53E.06 1.94E.06 5,7bE-07
~~.3500E.01
1.34E 4;1)6E <.3OE 2.72E 2.851 4.63E 7.54E 8;95E 1.6bE 2.751 6,37E-01 q.OaE-01 l.lZE-02 4.978-04 2.54E-05 2*0bE-06 1.49E-07 5.14E-09
)13 01 01 01 00 00 00
KEV
1,13E-06 4.458-07 1.228-07 3.47E.08
E5
'1.89E.02
100
06 05 05 04 04 03 02 02 01 01 00
EG
15
1;07E-01 2.94E.02 7.40E.03 2.41E.01 6.1bE.04 1;08E-04 9,96E-06 ,.O,E-06 l.SSE-07 2,18E-06 1.67E."9
?.54E 7.blE 2.95E 7,70E 1.672 4.07E 9.721 1.77E 4.5QE 1.07E 3.29E 7,.3lE-01 l.ZbE-01 ?.06E-02 1;05E-03 1.616-04 2.44E-05 2.421-06
7.3lE 2.67E 7.23E 1,201 1.65E 2.75E 4.62E 5.74E l.llE 1,94E 4,74E-0') a;bPE-02 l,OOE-02 S.bOE-04 3.431-05 3.35E-06 2;8lE-07 P.LbE-09
n2 4.70E 2,PPE 1.57E 6.10E 2,72E 1.2OE 5.39E.Ol 2.12E.01 l.O3E-01 4,791.02 2.59E.02 1,24E-02 L.POE-03 1,40E-03 4.34E.04 1 .blE.04 5,52E-05 l.ZLE-05 1 .921.06
Ml
15
SHELL
E3
EZ
04 04 03 03 02 02 01 01 00 00
KEY
7.54E.01 5.286.01 3.34E.01 1.79E.01 P.O?E-02 4,958.02 2.721-02 1 .3bE-02 7.97E.03 4,5lE.03 2.851-03 1.64E.03 8.21E.04 3.T9E.04 1.308-04 6, DOE-05 2.586.05 7,646.06 1.561.06
rl,a9OOE.O1 ES
E4 02 02 01 01 00 00
07 07 06 06 05 04 04 03 02 02 01 01 00
EG
"0
Coefficients
nr
2.746 1.30E ‘.BbE 1.22E 2.548 6.03E 1.4IE 2,53E 6.461 1.49E 4.53E 1.07E 1.7lE 1,42E-01 1.4lE-02 2.14E.03 3,24E-04 3.20E.05 2,aqE.06
E4
E3
7. EG
15
E2 2.8OE 1.47E b.LOE-01 2,04E-01 5.73E.02 1.83E-02 5.148-03 1.54E-03 5.381-04 1.75E-04 7.081-05 2.361-05 5.191-06 a;iWE-07 1,4RE-07 3,23E-08 6.331-09 6,70E-10
2,961-O? 3.35E.02 4.40E-03 8.41E.04 1.60E.04 Z.OPE-05 2.348-06
E3
2 EG
=
c2
12.149OE ES
04
40 50 65 (IO I20 150 200 300 450 650
FH
1.17E
El
Conversion
FO
@2
2
17 20 25
SHELL
EJ
F2 "0 00 00
K,
2.33E
E‘
15
15
Internal
Internal Conversion, 2 < 30
l.O2E-03 6;82E-04 4.068-04 1.991.04 9.02E.05 4.411.05 2.155-05 P.LPE-06 4.79E.06 2.3bE.06 1.33E.06 6.61 E-07 2.73E-07 6.lbE.Oa 2.6OE-08 9,66E-09 3.528-09 6,64E-10
I42 3.95E.01 2.77E-01 9.971-02 3.46E.02 l,Oe.E.02 3.826.03 1.368.03 4;IOE.04 1 .bOE.04 5.a6E.05 2.blE.05 9.79E.06 z.a3E-06 5;21E-07 1.04E.07 Z.,OE-08 bi57E.09 1.011E.09
I43 a.97E 4.261 1.63E 4.41E l.OSE Z.PlE-01 (1.15E.02 l.aSE.02 5.82E.03 1.698.03 6.25E.04 l.(17E-04 4.061.05 4;91E.06 6.648-07 1 .lLE-07 1,.63E.08 l.bZE-09
n5
n4
6.aPE 01
06 05 05 04 03 02 02 Oq 00
i .aaE-01 3.80E-02 5.02E-03 3,1aE-04 2.26E-05 2.3aE.06 2,OlE.O7 b.lbE-09
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 E6
FI
15
4.371 2.99E 1.03t 9.22E-01 4*29E-01 2;14E-01 1 .OCE-01 4.61E-02 2,3hE-02 1.17E-02 6,SbE-03 3,24E-03 1.32E.03 3.87E-04 1.246.04 4,91E-05 1.968-0s
17 20 25 32 40 so 65 80 100 120 150 200 300 450 650 1000 2000
6000
6;17E-06 ,.SSE-06
00 00 00
2.56E 1.6IE 8.73E 3.721 1.42E 5.92E 2,44E R,sSE-01 3*7lE-01 l.SlE-01 7,27E-02 2.981-02 9.57E.03 2.031-03 4.7sE-04 I.461104 4.471-05 1;03E-05 I,9+E-06
El
*5 17 20 25 32
3,OIE-01 2,13E-01 1,32E-01 6.738-02 3,17E-02 I 59E.02
:::
7:96E-03
65
3.SOE-03 1;82E-03 8.968-04 5.04E.04 2,49E-04 l.OZE-04 3,00E-05 9.601106
8* 100 120 150 200 300
450
650 1000 2000
3;821.06 1.521.06 h,8OE-07
I.5
02 02 01 01 01 00 00
1.24E 7.I3E 3;44E 1.24E 3.92E 1;36E 4.67E 1,32E 4,81E 1.63E 6.74E-01 2,3jE-01 s.IIPE-02 P,qSE-03 I.b1E-03 3.891-04 P.CZE-OS 1;63E-05
04 03 03 "3 02 02 01 01 00 00
.
15 17 20
Ll
3.4OE
6.398-02
25 32 40 50 65 80 100 120 150 200 300 450 650 ,000 2000
1.25E-03 4.36E.03 1.8lE.03 6.788-04 2,78E.04 1,14E-04 3,9RE.O5 1,74E-OS 7,14E-06 3.47E-06 1.4sE-06 4,78E-07 l.OSE-07 Z.SIE-08 7;43E-09 P.OZE-09 3,38E-10
E3 00 00
7,6(E 3,StE 1.30E 3,291 7.22E 1,84E 4.71E-01 9,57E-02 2,73E-02 7,2OE-03 2,44E-03 6.62E-04 1;27E-04 1.341-05 1.596-06 2;62E-07 3.77E-08 2.61%-09
2.80E-01 8,18E-02 2.611-02 8.381103 2.21E.03 7,75E-04 2,53E-04 1.03E.04 3,43E-05 8.581-06 1.30E-06 2.161-07 4,74E-08 9,30E-09 9.83E-10 7.
EG
El
15 17
2.58E.02 l,SOE-02 8,33E-03 3.44E.03 1,29E-03 S.POE-04 Z.lSE-04 7;A~E.OS 3.26E-OS I;34E-05
7.39E 3.871 1.67E 5.28E.01 I.47E.01 4,62E-02 1,46E-02 3,74E-03
b.SJE-06 2,74E-06 P.IOE-07
1;61E-04 5.201-05 l.PLE-OS
2;1OE-07 5.37E-08
l;?b;-06
20
25 32 40 SO 65 00 100 120
150 200 300 450 6sP 1000 2000
+ .lbE-08 5.61E-09 I .2?E-09
=
9.79E 4,03E l,Z?E 2.6lE 4.52E 9.33E 1.93E 3.07E 7,23E-O( 1.55E.01 4,4SE-02 9.88E-03 1,47E-03 l.llE-04
1,32E-07 6.291-09 SHELL
L3
I, 28E-03 4.O(IE-04
2,8lE-07 fl,lJE-08 1.29E-08 1.81E-09
04
6;25E-02
1.5sE 2.8IE 7.248 1.69E 5,lbE 1,22E 1.98E l.bbE-ul
04 03 02 02 01 01 00
3.43E-02 1 .?I 9.968-03 5.621-03
03
6:44E
02
2;3SE 5.86E
02 01
i.ZbE
0,
3.15E 7,84E-01 1,54E-01 4.24E-02 l.O7E-02 3;48E-03 8,9OE-04 1,57E-04 1.456-05 l.sOE-06 2:23E-07 3;16E-08 2.?OE-09
0"
1.79E 7,32E 2.28E 4,blE 7,82E 1,57E 3,I7E 4.82E 1.09E
2,22E-Ol b.O7E-02 l.PbE-02 1,69E-03 l.O7E-04 7.671-06 8.321-07 8,19E-08 4,34E-09
2,28E-OI T.lSE-O(
03
3.73E 2;OlE 0,bJE 3.45E 1;52E
01 01 00 00 00
?.84E 8.6SE 3.08E 9.9gE 3;58E 1.31E 4.07E
03 02 02 01 01 01 00
?.64E
00
2,66E.O? l.LIE-01 5,95E-02 3,2lE-02 1,53E-02
3.556-03 2.04E-03
1.661-02 2.541.03 3.88E.04
1.591-04 7.33E.05 3.14E.05
5.33E.04 1.97E.04 6.7SE.05
3,88E-OS
9.242.06 1,88E-06
1,5lE-OS 2.52E.06
1.731.03
=2,29OOE-01
06
7,59E-02
7.49E 2.99E
05 OS
5.3lE.02 3.346.02
It2
8.06E
04
1 .TPE-02
1,79E 4.46E 1.0&E
04 03 03
9,OOE.03 4.698-03
5,STE 3,28E 1.73E 7.31E.01 2,86E-01 1,24E*01
2.661-03
5.49b02
Z.OIE
02
5.27E 1.24.5 3.84E 9,2OE-01
01 01 00
1,34E-03 7.778.04 4.382-04 2.77E.04 1,598.04
2,13E-02 l.OZE-02 4.73E.03 2.54E.OS l.ZlE-03 4,76E-04 l.JbE.04 4.+7E-05 1;54E-OS
1,50E-01
7.91s.05
1.27E-02 t.L8E-03 r;wa-or 3.03E-OS 3.028-06
3.061-05 1.24E.05 5;72E-06 2,446.06 7.20%-07
=1,6SOOE-01
"5 04
3,706
04 04 03
l.lOE
2.8SE 8;49E 2,SSE
02 02
6,27E
01
2,1OE
01
6,24E-01 Z.BIE-01 l.llE.01 3,55E-02 ?.42E-03
b.57E
00
2.59E 8,4SE-01 2.08E'O( 3.37Er02
00
1,72E-03 3.08E-04 (,39E-04 2,37E-OS 2,83E-06
5.53E.03 1,30E-03 2.83E-04 3;68ErOS 3.42~~06
9.45E 4.37E 1.59E 3.92E 8.26E 2;iZE 4.98E 9.7lE 2.7OE 6.96E 2.34E 6.31E 1.22E 1.36E-01 1,77E-02 3,29E-03 5.7OE-04
06 06 06 05 04 04 03 02 02 01 01 00 00
5i636-05 4.128-06
3,42E 1.8SE 8,361 2.8SE 8.8OE 3,09E f.llE 3.37E.01 1.34E..01 S.OSE-02 2.3lE-02
02 02 01 01 00 00 00
5.271.06
1.098.05 1,8SE-06
2.16E 1,OLE 4.03E l.llE 2.72E 7,75E 2.24E 5.36~
04 04 03 03 02 03 01 00
1,lbE
00
s.LZE-01 2,llE.01
9.07E-03 2.81E.03 5.85E-04 1.3SE.04 3;w.os
l;lTE-06
n5
WI
M3 00 00 00
6,831*02 1.67Er02 2,SPE.03 4.36E.04
l;OZi.04 2.221.05 2.87E.06
1.38E 5.88E 1.96E 4.37E 8.47E 1.95E 4.59E 8.58E 2;33E 5.86E 1.94E 5,17E-01 9.968-02 l.OPE-02 1.4OE-03 2;6OE-04 4.4aB-05 4.4qE.06
06 05 05 04 03 03 02 01 01 00 00
KEV Wl
07 06 06 05 04 03 02 01 01 00
m
7.76E 8.951
KEV WI
1.48E
EB
112
3,OOE-03 2,00E*03
4.23E 2.22E 9.62E 3.04E 8,SOE-01 2.68E.01 8,49E-02 2,2OE-02 7.6lE.03 P.L4E-03 0,72E-04 3.18E-04 7,68E-OS 1.09E.05 ,.68E-06 3;342.07
4,71E-02
5,708.04 I.SSE-04 1.23E-04 5.925.0s 2,51E-05 1,27E-05 6.146-06
1,66E-02 6,4SE-03 2.SlE.03 8.29E.04
3,4bE-04 1.3bE.04 6,JIE.OS 2.531-05
3.396-06 1.651-06 6.32E-07 ;A;',-;; . 1;68E-08 4.83Ew09 7.52E.10
M3
‘.08E-0, 2.4lE.01 1 .ZIE-Ol
1,18E-03
7;8OE-06 l.SLE-06 3.ZOE-07 s;i6E.o8 1.79E.08 1.94E.09
-
-1,640OE.Ol
n4 01 01 00 00
3,87E l,b(E 6.7SE 1.74E 3.86E 9,931 2.56E 5.221-01 1.49E.01 3.928.02 1,33E-02 3.58E.03 6.798-04 6.98E.03 7.971-06
*5 03 03 02 02 01 00 00
05 OS 04 03 03 02 01 01 00
I .69E-01 3.7bE-02 5;61E-03 4.17E-04 3;54E-OS 4;34E-06 4,49E-07 1 .&BE-00
1;24;-06
5.676-08
1,6SE-07 9.34E.09
4.42E-09
3.28E 1;37E 4.40E Q.22E 1.63E 3.42E 7.17E l.lsE 2.73E 5,88E-01
KEV
ES OS 04 04 03 02 02 01 00 00
3.28E
6,76E-01 E-02
w4
0,
6.06E.03
9,03E 3.7bE l.OZE 1.70E 2.35E 3.931 6,621 8.2SE 1,blE Z,.SlE 6.87E-01 1,25E-01 1.46E.02 7.901104 S.O4E-05 4;94E-06 4.15E-07 1,40E-08
113
6,OSE
l ,OEE-03 3.93E-04
E4
1.4OE
P,60E-01 6,77E-01
ES 04 04 04 03 02 01 01 00
9.59E-06 l;ZlE-06
E3 00 00 00
6;52E
El 02 02 02 0, 00 00
16
E2
4,2bE-01
EB
SHELL
L2
07 07 Ob 06 OS
ES 04 04 03 03 02 02 0, 01 00 00
2 < 30
YEV
2.67E 1.30E 4,94E 1.27E 2.7OE
EB
SHELL
L2
00 I41
3.401-06
3.49E 1.89E 8).38E 2.64E 7.08E Z,lOE 6.1lE 1.4IE 4.38E 1.24E 4,46E-01 l*ZIE-01 2.628-02 3,03E-03 4.03E-04 7;79E-05 l.SOE-05 1.97E.06
9.72E-01 3,59E-01 l.ZZE-01 S;lOE.02 1.75E-02 4.SlE.03 I.OSE-04 l.ZSE-04 3;OYE-o5 7,34E-06 l.PIE-06
E2 3.96E 2.09E 9.08E-01
05 OS 05 04 04 03 02 02 07 Ot 00 00
E4 02 02 02 01 01 00 00
=2.4?EoF ES
1.931-04 2,53E-05 2.83E.06
lb
8,OOE 4.69E 2.3lE 8.54E 2.761 0,7SE
2,8OE-02 1.15E.02 S.S4E-03 2,28E-03 7,36E-04 1.576-04 3.698-05 1.13E.05 3.481-06 7.991-07
El
q .34E-02
5,?5E 3.04E I.31E 3.97E 1.03E Z.PPR 1.55E 1.94E 5.94E 1.67E 5.95E 1,IOE 3.44E.01 3,948.02 5.21E-03
E3 01 01 00 00 00
EB
1 .OOE-03
7. = 16 EG
SHELL
Conversion,
Conversion Coefficients
E4
2,33E-06
E2 1.74E l.lIE 6.09E 2.64~ I.03E 4,33E-01 1 .dlE-01
YI E3
2 EG
ii
E2
Internal
hternal
Ml
1.87E 6;alE
07 01
1.43E-03 9.628-04
1.83E 2.998 4,03E 6,58E 1.07E 1.28E 2.38E 3.951 9,16E-01
06 OS 04 03 03 02 01 00
5.746-04
112
2.82E-04 1.28E.04 6.27E-05 3.07E.05 1,33E-OS
3;32E-01 1.52E.01 5,26E=02 1.64E.02 5,76E-03 2.04E.03 6,12E-04
6,85E-06
2.38E.04
3.381-06 1.901-06
8.711-05 3,87E-OS 1,45E-05 4,17E-06
I .55E-01
9.491-07
1.61E.02 7;19E-04 3.68E-OS 2,9PE-ob 2.171-07 7,4bE-09
3.938-07 l.l8E-07 3.741-011
I .42E-08 5,06E-09 1.24E-09
n3
b.ObE-01
n4
1.4rE 6.681 2.54E 6.83E 1;62E 4.46E.01 1,24E-01 2,82E-02 8,8OE-03 2.561-03 P.CIE-04 Z.O(E.04 6,0bE-05 7.41E-06 9,83E-07 1,73E-07 2.671-08 2,34E-09
7,64E-07 I.sZE-07 3,92E-08 9,SlE.09 1,56E-09
02 01 01 00 00
w5
1.93E 8;OQE 2.63E 5.7OE
04 03 03 02
1;06E 2.36E
02 01
5.32E 9.391-01 2.4lEc01 5.70E-02 1,78E.02 4.351-03 7.3lE.04 6.371-05 b.I4E-06 8,lbE.07 8.991.08 4.32E-09
00
2.14E 7;96E 2.22E 3.8vE 5;74E ‘(.03E 1.89E 2.6lE 5.55E q.O?E 2,84E-01 5.72E-02 7.54E-03 4.758-04 3,40E-05 3.54%-06 2.9RE-07 9.051-09
06 OS OS 04 03 03 02 01 00 00
See page 438 for Explanation of Table
443
Atomic
Da+.
and
Nuclsor
Dato
Table.,
Vol.
18,
No.
4, Novsmber
,976
BAND,
El
EG 15 17 tc\ 25 32
40
so 65
80 (00 12" 150 20" 3"" 450 65"
1000 200" 6000
TRZHASKOVSKAYA,
I: 2
4.945
*o
3;411. 2,OIE 1,OSE k.93E-"1 2,46f-“1 l.ZZE-01 5,35E-02
00 00 "0
2,77f-02 1,378."2 7.67E-03
3;a”E-“3 1.556-03 k.S7E-"4 1;46E*Ob 5,83E-"5 2,33E-05 7.32~-06 l.(lbf-06
2.79E 1.76E 9.63E b.l‘F 1.6OE 6.69E 2.7aE 9.788-01 k.27E-01
02 "2 01 01 01 00 00
l;?SE-"? a.bZE-"2 3,47E-02 1,12E-02 2.38f.03 5,60E-Ok 1.73E-0‘ 5.32E-OS 1,22E-05 2,27E-06
El
15 17 2" 25 32 40 SC 65 8" 100 120 150 20" 30"
3.541.01
450 63" 1000 2000
2.46E-01 1,53E-"1 7.aSE-02 3.728-02 l.aaE-02 9,k2E-03 ‘,16E-"3 2,17E-"3 l."'?E-03 6;0bE-01 3,0"E-"4 1,23E-0‘ 3,6bE-05 ?.17E-OS 4,6bE-"6 l,R6E.06 5.86E."7
El
E2
15 17 20 2s 32 40 50 65 80 10" 12" 150 20" 30"
450 650 1000 200"
1.798-02 l.l"E.02 5,OSE.03 2.441-03 9,21E-"4 3,a"E-0‘ l.S6E-OL S.baE-OS 2,k"E.05 P.POE-06 4,(13E-06 2,02E-06
b,TOE-07 1,48E-07 3.541-08 l.OSE-01 2,87E-09 ‘.7OE-(0
S.‘SE 2;aaE l.PSE b,OlE-01 l.lbE-01 3.6bE-"2 ?.17E-02 3,l"E-03 1.091-03 3.571-01
00
00 00 00
a
El
E2 l.OlE 5.32E 2.3"E 7.281-01 2,03E-Vl 6.41E-02 2.02E-02 5.21E-03 1,79E-03 5,7"E-"4 2,25E-"4 7.29E-05 ,.Tbf-"s O;kaE-06 3,9sE-07 1).63E-08 1 .alE-08 2.53E.09
17
.
Ll
a
3,451 1.92E 8.67f 2,8@E 7.68E 2.3lE 6.83E 1,6OE 5.01E 7,‘bE 5,18E-0, l.SOE-07 3,09E-"2 3,6OE-03 4,151-04
17
l.SOE-02 b.aaE-05 1.25f.V3 2,2lE-Ok 2,ObE.Os 2.12E-"6 3,18E-"7 b.k6E-"a 3.aOE-09
4.78f-0‘ 1,93E-0‘ 0,86E-05 3,7(16-05 1,11f.05 2,23f-06
L3
SHELL
00
2.46E l.OlE 3.158 6.371 1.08E 2.19E b,‘lE 6.72E 1;32f 3.1Of-01 a.sZE-"2 1,77E-02 2.388-03 l.S?f-04 I .OOE-05 l.l8E-06 *.16E-07 6.1lE-"9
Z ( 30
5.55E.04
3,SOE.Ok I.OOE-Ok 9.958-05 3.ME-05 I.5511"5 7.11E.06 3,OJE.06 a.a6E-07
7.12E 4.33E 2.28E 9,56E-01 3,72E-01 1,6lE-01 7,OSE-"2 2.72E-02 T.302.02 5.99E-03 3,22E-03 1.52E.03 5.99E.06 1.70ErOb 5.21E.05 l.PZE-OS 6.SSE-06 l;bsE-"6
ES
“4 03 03 02 01 00 00
k,23E-06 3,07E-07
1 .OSf-“8
See page 438 for E.xplanatioi n of Table
444
” 4 03 03 "3 02 02 01 01 0" 00
7.63f-01 3,52f-01 1.39E.01 b;32E-02 Q."ZE-"3 2,"9E-03 6.16E-Ok 1.69E-Ok 2.866.OS 3,3aE-06
2,tOE 4.47E 1.331 3.40E l.O‘E 3,llE 7.6Sf 2.56~
05 05 04 "4 03 03 02 01 01
8.Olf
00
3,lSE l.03E 2.53E-"1 3.858-02 6,7"E-03 9,57E-03 3.‘3E-Ok b.bbE-05 b.lOE-06
00 00
l.“?f
1.09E 5.10E 1.87E 4.67E 9.92E 2.bbf 6.02E 1.18E 3.27E 8.bbE 2.abE 7.6SE 1;48E (,6SE-01 E,lkE-02
07 06 06 OS Ok 04 03 03 02 01 01 00 00
3.9&f-03 .5,90f-04 6,alE-05 4,9bf-"6
4.531 2,b‘E l.lOE 3.72E 1.1bE 3.99E (.42E ‘.3OE-01 1.7"E-01 b.J?E-02 2.92E.02 l.lkE-02 3.5bE-03 7,33E-Ok 1;69E-Ok ‘.97E-OS
nr
I44
HJ 00 00 00
02 "2 02 01 01 00 0"
2.85f 1.361 5;27E 1.451 3.52E 9.97E 2.a7E 6.a2E 2.23E 6.a6E.01 2.67E-"1 0,60E-"2 2,09E-02 3,lsE-03 5.45E.O‘ 1;27E-0‘ 2.761-05 3;571-06
Ok 04 03 "3 02 01 01 00 00
01 01 01 00 0"
5.29E 2,‘aE 9,28E 2,bOE 5.36E 1.38E 3.57f 7.3lE-01 2.lOE-Or 5.531-02 l,aOE-02 5,07E-03 9.6SE-04 9.961-05 l.lbE-OS 1,7aE-06 2,37E-07 l.SSE-00
03 03 02 02
1,36E-05 2.3Of-06
1.8"E
06
7.b8E
OS
2;55E 5.67E 1.09E 2,SlE 5.17E 1.09E 2.95E 7,LlE 2.45E 6.SOE.01 t.ZbE-01 1;36E-02 1.751-03 3,2bE-Ok S.SaE-05 5;4aE-06
05 04 0‘ 03 02 02 0, 00 00
4.45E $.d6E 6.O"E 1.26E 2.2SE C.73E 9.96E 1,4lE 3.a2E 8.2sE-01 2;39E-01 5.32E-02 7;9kE-03
05 05 04 Ok "3 02 01 01 00
r(3
b,lPE-03 2.796-03 1,6SE-03 8,OOE.Ok 3.SaE-0‘ ,.73E-0‘ a.3sE-05 3,SSE.05 1 .OOE-05 a;72E-"6 i;a3E-06 2.351-06 9;3lE-07 L.SaE-07 7,32E-"8 2,62E-08 6,92E-09 l,OaE-09
5.69E.01 3,36E-01 1.69E.01 6,6OE-"2 2,33E-02 9,07E-03 3,5&E-"3 1,?7E-03 4.9OE.O‘ 1.93E.O‘ 9,0‘E-05 3,6OE-"5 l.l?E-05 2.208.06 ‘,59E.O7 l.llE-07 P,SaE-06 2.796-09
5.85E 3,OaE q.33f b.23E l.lPE 3.76E.01 l.lPE-01 3.lOE-02 l.O7E-"2 3.56E-03 ?.3aE-03 ‘.SIE-0‘ l."9E-0‘ 3,56E-"5 2.4lE-06 4.t.OE-07 I.lOE-08 6,3aE-09
01 01 "0
5.9bf.O‘ S.O6E-05 6,22E-06 6,‘7E-07 2.7lE-08
KEU Hl
07 06 06 05
b.ObE 2.27E l."?E 3.8lE 1,ZZE b.42E 1.6lE s.OOE 2.01E
KEV HI
"7 06 06 OS 04 "3 "2 02 01 "0
01 01 01 01 00 "0
ML
P.VOE-02 6,9lE-02 4,3‘E-02 2,3lF-02 1,16E-02 6.2aE.03 5.43E-03 1.7OE.03 P.L18f-Ok
=2.0000E-01
2.551 9;28E 2.5OE c.rre f.SSE 9.09E 1.49E 1.7aE 3;32E 5.52E 1,28E 2.178-01 2,27E-02 l.OlE-03 s.Z"E-05
0,
7.648 4.7lE 2.53E 1,OPE 4.3lE l.aPE 8,39E-01 3,2aE-0, 1.58E.01 7;326-02 3,VbE.02 l.aaE-02 7,bOE-03 t.llE-03 6,57E-Ok 2.3aE-Ok 8,16E-05 1,8lE-OS 2,76E-06
KEV
=2,0200E-01
1,bOE 5,lSE 1.401 2.35E 3.251 5.46f 9,238 1,15E 2.2SE 3.96~ 9;69E-"l ?.77E-01 2;07E-02 l.l3E-03 7,2OE-OS 7,OaE-"6 5,97E-07 2,OZE.08 Ea
"5 OS "4 03 03 02 01 00 00
Conversion,
Y 3
M2 0"
Ill 06 05 05 Ok Ok 03 03 "2 "'I 01 00 00
ES
Eb 03 "2 "2 01 VI "0
=2,7000E-O(
1.378 7.17E 2,96E 8,2SE 1.89E 4.8lE 1,lPE 2.2SE 5.9‘E 1.42E ‘.‘?E 1.07E 1.7SE.01 l.SlE-02 1,53E-"3 2.3aE-Ok 3,69E-OS 3.721-06 EE
"5 Ok Ok 03 02 02 01 00 00
1.23E 9.5661"1 5,38E-01 2.86f 1 .bbE-01 7.808-02 4.261-02 2,?2E-02 1,23E-02 6.92.5-03 4,36f-03 2.sOE-03 1.2‘E-03
1;93E-02 2.98E-05 b,60E-04 ‘.63f-05 b.O7E-06
ES 04 04 03 03 02 02 01 "1 0" 00
SHELL
1.35E 5.56E 1.76E 3.62E 6.3"E 1.3"E 2.71f 4.3lE 1.02E 2,laE.01 6.3OE-02 Y.hOE-02 2,09E-03 l.sUE-Ok 1,37E-05 1,74E-06 1,90E-07 9,05E-09
117 17 06 06 OS "4 04 "3 02 02 01 01 00
1 .PZf-OT
El 03 02 02 01 01 00
hl
2.56f 1.2OE 4.93E 1.3"E 2.83E 6.95E 1.67E 3.08E 8,"lE 1,88E S.aOE 1.39E 2;26E
EB
2,bPE-06 L2
1.93E a.9OE 3.2SE a;l3E 1.7SE 4.38E 1.09E P.lSE-07 5.931-02
SHELL
9.43f.05 ,.83f-"5
E3 01 00 00
F5 05 05 05 Ok 04 03 02 02 01 "i 00 0"
Internal
Conversion Coefficients
fb 02 02 02 01 01 01 00 00
(7
l.OSE k;aVE r.soe 4.588 i.oie 2.57E 6.61E-"1 1,35E-01 3,aSE.02 l.OZE-02 3,b6E-03 9.391-00 1,8lE-0‘ 1.91E.05 2,2aE-06 J.ISE-07 S,‘qE.OI 3,7bE-09
1,33f-08 l.‘lE-09
3,‘2E-"2 B.l"E.02 ,,,,E-"2 4,63E-"3 ,.7&f-03 7.?bE-Ok 2.93E-"4 l.OlE-"1 C.baE-05 1,3SE-"5 9.031-06 3.a"E-06 q.271106 2,93E-07 7,s"E-"a
5.73E 3.oe.i 1,SsE 4,18S 1,llF 3.255 9.39E 2.lSf 6.668 1;89E 6.7SE 1.9‘E 3,96E-"1 ‘.57E-02 6.108-03 l.l8f-03 2,2VE-Ok 3,02E-05 3,37E-"6
EJ
2
Z.bbE-08 7.8sE-09 1,7aE-09
li86E 7.731-01 2.661-01 b.OLE-02 l."TE-02
(L,cBc 4.991 2.49E 9.361 3.OaE 1,lOE 3.a7E 1.12E 4,16E-"1 1.S3E.07 s.PPE-02 2."7E-02 5.36E.03 a,bSE-Ok l.SOE-Ok 3.678.05 8.968-06 l.S6E-06
6.761-08
15 17 2" 25 32 40 50 65 80 ?OO 12" IS0 20" 30" 450 650 1000 2000
Eb Ok 03 03 03 "2 02 01 01 "0
E3 "1 01 00 00 00
l.k‘E-Ok ‘.akE-05 1.2lE-"5 1.8kE-"6 3.OaE.07
EG
F3
k.t."E-Ok l.lZE-04 1.9bE."5 2,7aE-06
2 EG
Internal
1.29f 7.5"f 3.67E 1.3kE 4.29E 1.5lE 5.22E 1.48E 5.468
E2 1.92E 1.23E 6.82E 2.99E q.laE S.OOE-01 2,lOE-01 7,49E-02 3,29E-02 1.36E-02 6,SaE-03 2.728-03 I.aZE-Ok 1.89E-Ok 4.471105 *.3aE-05 4.261-06 9.78f-07
TABLE.
l.UVf-03
2 EG
and LISTENGARTEN
',.97E-03 1;32E-03 T.P"E-Ok 3,a9E-Ok l.TIE-V‘ 0,6tlf-05 ‘.26E-05 l.aSE-OS 9;sbE-06 4.7lE-06 2.668-06 1.33E-06 5,sOE-07 1,65E-07 S.tSE-08 1,99E-VC 7."PE-VP l.T‘E-09
I(2
13
P.OSF-01 4.9.E..01 2,26E-01 7,78E-02 Z.k?E-02 8,b6E-"3 2,99E-03 a.PlE-04 3;kSE-04 1.26E.O‘ S.S(IE-05 2,"8E-05 5.99E.06 r;OPE-06 2,17E-07 9,SSE-08 1.3kE.Oa 2.19E.09
2.16E 1.02E 3.861 *.03E 2.43E 0,66E-"1 l.aSE-01 k.(7E-02 ?.IOE-02 3.75E-03 +.38E-03 ‘.lOE-Ok a.a3E-OS 1.07E.OS ,.42E-"6 2.49fr"T 3.a,E-"a 3.30Ec09
I(4 02 02 01 Ot 0"
2.9SE 1.23E 3.991 1.60E 1.59E 3.53E 7.9lE
1.39f 3;57E-01 a,40f-02 2.61E-"2
6.371-03 1.078-03 9,26E-"5 I.POE-"6 l.l.sE-06 ,.ZPE-07 6.13E-09
115 Ok 0‘ 03 02 02 09 00 00
3.2SE l.Zlf 5.361 s.asE S.60E 1.54E 2.8YE 3.a7E 8.19E l.saE b.l7E-01 a;37E-02 l.lOE-02 6,92E-0‘ 4.9‘E-OS 5.12E-"6 4;29E-07
l.ZPf-oa
06 "6 05 OL 03 03 02 01 00 0"
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 EC 15 17 2 P 25 32 40 50 65 80 ion 120 150 200 300 450
650 1000 2000 6000
5.536 3;alE 2.34E 1.19E 5,6OE-01 2,81E-01 ,.40E-01 6.?5E-02 3;19E.n2 1,5aE-02 8,8aE-03 4,4fE-03 l.aOE.03 5,34E-04 1.721-04
6.851-05 2;?3E-05 4.60E-06 2.158-06
17 20 25 32 40 50 65 an 100 12n 150 200 300 450
650 1000 2000
00 no 00 "0
2.99E 1;91a 1.05E 4.558 1.78E 7.4aE 3.17E l.llE 4.851-01 2,00E-01 9,66E-02 3.99E-02 ?.29E-02 2.7bE.03 6.54E-04 2,03E-04 6,26E-05 1.44E-05 2,67E-06
El 4,03E-01 Z.L)lE-ol 1,75E-03 9.036-02 4.3oE.02 2.1aE.02 *.'1OE-02 4.878-03 2,55E-03 1,27E-03 7,15E-04 3,5bE-04 l.IbE-04 4,35E-05 1,40E-05
5.blE.06 2.24E-06 7,05E-07
2.09E 1.35E 7.53E 3.34E 1,33E 5,69E-01 2,4lE-01
2,33E-02 t.446.02 7.601-03 3.221103 1,22E-03
02 02 02 01 01 00 00 00
5,0bE-04 2,OPE-04 ?.37E-05 3.241-05 1,34E-05
6.56Er06
650 Inod 2000
6.631-10
01 01 00 00 00
8.64E-02
2.25E-84 5,34E-05 1,6bE-05 5.141-06
* .le.E-06
15 17 20 25 32 40 50 65 80
ion 120 150 200 300 450 65n ,000 2000
El 4.43E-02 2;738.02 1.46E-n2 6.0”8-03 2,30E-03 9,4aE-04 3,9oE-04 1.37E-n4 6.01E-05 2;49E-05 l.ZZE-05 5.14E.06 1.73E.06 3.998-07 l.O2E-07 3.3bE.Oa 1.07E.08 2,43E-09
02 01
1.bbE
ni
6.13E 2.lOE .5,77E-01 3.03E-01 7.028-02 1.236102 2.201-03 5,38E-04 1.321.04 2.30E-05 3,27E-06
"0 00
.
18
00 00 00
6,68E-05
5.2lE 2.64E l.OlE 3.37E 1.22E 4,35E 1.27E 4.7bE-01 l;(rSE-Ol 6.93E-02 2,4lE-02 6,28E-03 9.991-04 1.791-04 4,40E-05 l.nIE-05 1,19E-06
02 02 02 01 01 00 00
3.34E l.aPE a.78E 2.9lE a,lIIE 2.51E 7.5lE I.7111 5.64s 1;bJE 5.93E-01 1,73E-01
L2
03
6.621
02
2.45E 6.23E 1.37E 3.52E 9,05E-01 1.85E.01 5.3lE.02 1.40G.n2 4,78E-03 1.30E.03 2,5lE-04 2,6bE-05
02 01 01 00
1,72E-03 3.04E-04 2,8,E-05 2.921-06 4.38E-07 6,14E-08 5.2lE-09
04 04 03 03 02 02 01 01 00 on
SHELL
1.8lE 7,498 2.37E 4.9OE a.56E 1.78E 3.7OE 5.91E 1.4OE 3.01E-01 a,bPE-02 1,94E-02 2.91E-03 2.20E-04 1.928-05
I.3
6;bLE 2,85E 8.25E 1.9bE 5.08E 1,ZaE 2,46E 6.60E
SHELL
3.29E 1.35E 4.23E a.58E 1.47E 2.96E 5,PPE 9.16E 2;OaE 4,25E-01 ,.17E-01 2.42E-02 3.27E.03 E.OaE-04 1.50E-05 1.621-06 1,60E-07 8,41E-09
05 04 04 03 03 02 01 01
5.5bE.02
07 06 06 05 04
7,41E 1.2bE 1.5RE 3.09E 5.448 1.33E 2.451-01 2,87E-02 1.57E.03 l.OlE.04 9.92%.06 ll.38E-07 Z.USE-08
03 03 02 01 00 00
ER
=2.45OOE-01
2.161-05 3,25E-06
4.91E 2.7bE i.3nE 4.6SE l.LPE 5.39E 1.9bE 6.07E 2.43E 9.25C-01 4.256-01 1.67E-01 5.2lE.02 l.OVE-02 2,5lE-03 7.398-04 2.02E-04 3;42E-05 4,00E-06
HZ 9.32E 5;64E 2.9bE 1,ZSE 4,7bE-01 2.05E.Ol a,94E-02 3.441-02 1.64E.02 7,5lE-03 4.02E.03 l.POE-03 7.43E-04 2;(OE-04 6.43E.05 2,3bE-05 0,04E-06 1.778-06
2.95Er02 1.471-02 7.95E.03 4.331-03 2.14E-03 I.241103 6.956-04
4.3bE-04 2.498-04 l.ZSE-04 4,74E-05 l.PlE-05
8,72E-06 3.701-06 l.OL)E-06
03 03 07 02
02 01 01 00 00
n5
2.46E 1.27E 5.3YE 1.59E 4.10E 1.25E 3.75E 9.23E S.OIE
05 05 04 04 03 OS 02 01 01
9.651
00
3,79E 1.24E 3,04E-Oq 4,62E-02 8,04E-03 l.OllE-03 4.lOE-04 5,31E-05 4.866-06
00 00
7.238 5.82E 2.?7E 5.48E 1.17E 2.9OE 7.2OE 1.4lE 3.93E Y.01E 3.40E 9.j8E 1.7aE l.P?E-01 2.57E-02 4,77E-03 8.271-04 8.14E-05 5.aPE-06
07 06 06 05 05 04 03 03 02 02 01 00 00
“3 00 00 00 00
5.91E 3.17E 1.42E 4;73E 1.46E 5;08E 1.8OE 5.42E-01 2,13E-01 S.OOE-02 3.64E.02 1,42E-02 4,39E-03 9,07E-04 2.09E.04 6.12E-05 (.b'IE.OS 2,8lE-06
114
n5
02 02 02 01 01 00 00
3.70E 1.77E 6.80~ 1.8bE 4.49E 1;27E 3.64E 8.59E 2.8OE 8.57E-Of 3;32E-01 l.OTE-01 2,59E-02 3,89E-03 6.72E-04 1;57E-04 3.40E-05 4;37E-01
04 04 03 03 02 02 01 00 00
01 ol 01 00 00
?.ObE
03
3,321 1.25E 3.23E 7.26E 1.08E 4.87E l.OOE 2,88E-O( 7.62~.02 2,59E-02 7.02E.03 1,34E-03 1.39E-04
03 03 02 01 01 00 00
2.33E
06
9.89E 3.27E 7.25E 1.39E 3.18E 7.4qE 1.37E 3.69E 9.25E 3.05E -3.07E-01 1,54E-01 ?.67E-02 2.16E-03 3.9&E-04 6.86E-05 6,72E-06
05 05 04 04 03 02 02 01 00 00
KEV n2
5,7lE-03 3,82E-03 2.265-03 l.lOE-03 4,92E-04 2.38E-04 1.15E.04 4.918-05 2.50E.05 1.2lE.05 6.708.06
II3
7.i'CE.ol 4,51)E-01 2,JlE.01 9.03E.02 3.19E..02
?.IBE 4,lbE l.(IlE 5.751 1.62E 5,14E-01 1.63E-01 4,26E-02 1.48E-02 4;77E-03 l.PqE-03 6.261-04 1;52E-04 E.laE-05
1;25E-02 C.B7E-03 1 ,bPE.03 6,78E.04 2,47E-04 1,25E-04 5.0lE-05 1;55E-05 3.0.5E-06
3.261-06 1,3OE-06 3.601-07 l.OZE-07 3.391-08 9.711-09 1;5lEr09
6.44E.07
ll4
3.378-06 6,74E-07 l.l5E-07 8.991-09
1.658-07 3.62E-08 3;93E.09
Ft5 5.118E 2.47E 7.99E
05 05 04
1.69E
04
3.03E 6.39E 1.35E 2.19E 5.22E 1.13E 3.2aE-01 7.338-02 l.lOE-02
03 02 02 01 00 00
8.2bE-04 ‘I.ObE-05 a,7lE-06 P.OaE-07 3.1128.08
1;59E-05
2,50E-06 3,33E-07 l.POE-Oa
KE" Ml
07 07 06 05 04 04 03 02 01 00 00
?sL
n3 01 0, 01 01 00 00 00
9,761-O)
n1
1.87E 6.88f 1.88E 3.16E 4.39E
3.38E 1.23E 3.33E 5;50E 7.47E 1.23E 2,01E 2.4lE 4;52E 7).S2E 1.75E 2.978-01 S.llE-02 l,39E-03 7,16E-05 5.85E-06 4,25E-G7 1,45E-OR
00 no
8;a6E.O2
=2,4700E-01
ES 05 05 04 03 03 02 01 00 00
a2 9,5bE 5,498 3.15E 1.35E 5.33E 2.33E 1.03E 4,02E-Ol 1,93E-Ol a.PlE-02 4,79E-02 2,27E-02 I.PLE-03 2.541-03 7,78E.04 2.861-04
KE"
1.27E-01
E5 05 04 04 03 02 02 01 00 00
1.54E 1.07E 6,7lE-01 3,5bE-01 1.701-01 9,63E-02 5,24E-02 2,6OE-02 1.50E.02 8.448103 5.3OE.03 3,03E-03 1.50E-03 5;77E.O4 2.32E-04 1;06E-04 4.50E.05 1.31E-05 2.611-06
06 05
1.59E 00 4.991 1.22E 00 2,02E-01 1 .7bE-02 l.L)lE-03 2.04E-04 4,44E-05
Z < 30
KEV
tll
1.22E
ER
EC 03 03 02 02 01 00 00
00
=3,2000E-01
4,5lE-06
2.67E.07 ,.27E-01
E3
4.691-03
02 02 01 01 00
E5
2;43E-06
7.5
2.6lE 1,ZOE 4.79E 1,lOE 2.3.3E 5.9bE 1.49E 2.93E-01 8).llE-02 2,05E-02
8.761 2,08E 6.451 1.55E 2.551 2;IPE.01 2.23E-02 3,47E-03 5,40E-04 5,4OE-05 4,8lE-06
E4
S.laE-06 5,25E-07 7,59E-Oa 5.25E.09
01 00 00
01 07 06 66 05 04 04 03
Conversion,
Coefficients
Ill
2.39E l.ZlE 4.83E 1.3lE 2.92E ?.3lE 1.78E 3.33E
Ea
4,23E-03 5,74E-04 1,13E-04 2,2lE-05 2.941-06
1.43E
I
05 05 05 06 0‘ 03 03 02 01 01 00 00
3,bOE-02
111
E2
=3,2030E t5
E4 02
*
ER
SHELL
E3
1,6aE-05 2.5bE-06 4,29E-07 9.43E-08 1.85E-08 1,96E-09
1.36E 7.15E 3.lOE 9.8lE-01 2.75E.01 0.6aE-02 2.74E-02 7,09E-03 2.441-03 7.778-04 3,07E-04 9.97E-05 2.39E-05 3,4nE-06 5.431-07 l,lOE-07 2.481-08 3,47E-09
2.36E 7.7BE 2.11E 7.5I)E 2.19E 4,5OE-01 5,24E-02 7,06E-03 1.3.5E-03 2,69E-0‘ 3.571-05 3,9RE-06 Ll
0.64E
E2
2 EG
1.65E 5,77E
5.6nE 3;07F. 1.37E 4;34c 1.17E 3.49E 1,OZE
E3
3.82E-02 1.58E-02 7.7TE-03 3,2OE-03 1.04E.v03
7.34E 3.88E 1.49E 5.43E.Oq (.54E-O( 4.951-02 1.60E.02 4.248-03 l.CPE-03 4.9nE-04 l,PVE-04
SHELL
Conversion
F4 0‘ 03 03 03 02
E2
El
2.758-06 9,16E-07 2.041.07 4.84E-0.5 1,46E-08 3,97E-09
450
Kl
1.32E 7:78E 3..56E 1;43E 4.65E
2 EG 15 17 20 25 32 40 50 65 an 100 120 150 200 300
I* E3
2 EC 15
I
FZ
Internal
Internal
2.64E.03 (.llE-03 1 .06E-03 5;24E-04 2.39E-04 1;17E-04 5,77E-05 2.51E-o5 1;30E-05 6,42E-06 3.63E-06 l.IlE-06 7,52E-07 2.26E-07 7,18E-08 2.735-08 9.70E-09 2,37E-09
Hi? 1.32E 7.(aE-01 3.28E.01 l.l2E-01 3.47E.02 l.ZlE-02 4,27E-03 1.271-03 4,90E-04 1,78E-04 7.871105 2,93E-05
M3 00
3.2lE 1.5lE 5.7lE 1.52E 3.55E 9.70E-01
n4 02 02 01 01 00
2.688-01 6;OlE.02 1,87E-02 5,3RE-03 1.97E-03 5.85E-04 1.258-04 1,52E-05 2,00E-06 3,49E-07 5,3lE-08 4.54E-09
8,4OE-06 1,521.06 3,OlE.07 7.68E.08 1,65E-08 3.001-09
4.39E 1.83E 5.9lE 1.27E 2.34E 5.14E 1,lSE 2,OlE 5,lLE.01 l,ZlE.O( 3.748-02 O.lqE-03 1.521-03 1,32E-04 1.26E-05 1.661-06 1.818-07 11,5lE-09
0‘ 04 03 03 02 01 01 00
4.alE 1.7aE 4.94E 8.5aE T.PbE 2.24E 4.07E 5.5aE 1.18E 2.27E 5.9aE-01 l.ZoE-01 1;57E.O2 9,(14E.04 7.0lE.05 7.256-06 6.05E-07 l.GOE-00
06 06 05 04 04 03 02 01 01 00
See page 438 for Explanation of Table
445
Atomic
Data
.md
Nuclsor
Dota
TabIs,,
Vol.
la,
No.
5. November
1976
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2
=
15 17 20 25 32 40 50 65 a0 100 120 150 200 300 450 650 1000 2000 6000
6.15E 4.25E 2.62E 1.34E 6.3lE.01 3.178-01 ,.59E-01 7,OOE.02 3.65E.02 I;alE.nZ I.02E.02 5.07E.03 Z;oaE.Ol 6,laE-04 1.99E.04 7.97E.05 3.196.05 l.OOE-05 2,49E-06
EG
El
00 00 00 00
3,18E 2.O‘E 1;13E 4,97E 1.95E a.29E 3.481 1;24E 5.47E-01 2.26E-01 7 .lOE-01 4.54E-02 1.4aE.02 3.18E-03 7;57E-04 2.35E-04 7,30E-05 1,6aE-05 3.lOE-06
4.531-01 3,16E-01 l.PaE-01 I,031101 4,93E-02 2.5IE.02 I,ZTE-02 5.651-03 2.97E-03 ,.41E-03 a;3?E-04 4.laE.04 1;73E-04 5.15E.05 1.676-05 6.6aE-01 2.678-06 II,IPE-07
"2 02 02 01 01 00 00 00
1.33E 7.988 4:OTE '1.5lE 4.99E 1.79E 6.32E r;a3E 6.alE 2;35E 9.852-01 3,42E-01 a.aeE-02 1.4lE.02 2;53E-03 6.231-04 1;53E.04 2.69E.05 3.82E-06
15 17 20 25 32 40 50 65 a0 100 120 150 200 300 450 650 '1000 2000
El
9.7OE 5.13E 2.241 7,2lE-01 Z.OSE-01 6.62E.02 2.lbE.02
9,73E-05 4,29E-05 1.7dE.05 8.746-06 3,68E-06 1,23E-06 2,74E-07 6.6lE.00 1.97E.oa 5.39E.09 9,OOE-I0
5;6IE-03 P.OIE-03 6,61E-04 2.69E.04 9,04E-05 2,20E-05 3,4aE-06 5.115E.07 1.29E.07 Z.SLE-oa 2,69E-09
01 01 00 00 00
I5 17 20 25 32 40 50 65 a0 100 ,2O 150 200 300 450 650 1000 2000
El 5,64E-02 3,49E-02 I,a6E-02 7.azE.03 2;97E-03 1,23E-03 5,09E-04 I.anE-04 7,911.05 3.29E.05 l;blE-05
6.62E-66 2;3OE-06 5,32E-07 1.37c.07 4.5IE.OI 1.44E-oa 3.25E.09
=
02 02 02 02 01 01 on 0"
3.15E I.a4E 6.75E 2.99E 8.6OE 2;69~ a.I6E 1.96E 6.2aE l.a3E 6,7IE-01 1.97E.01 4.131-02 4.92E.03 6.73E.04 1.33E.04 2,63E-05 3.522-06
LZ
I,90E 8,OZE 3.2t.E a.32E 1,841 4.721 1,22E
1.15E.01 3.65E.02 9.45P-03 3.25E.03 l.O4E-03 4,IZE.04 I.JLE-0‘ 3.2lE.05 4,5aE-06 7.328-07 1.60E-07 3,34E-08 4.66E.09
"3 02 02 0, 01 00 00
I9
2.40E 9.9lE 3.ISE 6.521 1.14E 2.3a.5 4.97E 7.96E i.a9e 4;07E-01 I.IIIE.01 2,63E-02 3.96E.03 3,OlE.04 2.63E.05 3,34E-06 3,67E-07 1,76E-08 L3
07
1.1J.E 4,bSE 1.30E 2.99E 7.6lE l.aPE 3.57E 9.49E 2;276 7,lOE 1.72E 2,BSE 2.47E-01 2;541-02 4.00E.03 6.2BE.04 6,43E-05 5,6bE-06
07 06 06 05 04 04 03 02 02 01 01 00
l.PlE 1.33E 8.3OE.01 4.391.01 2.19E.01 ? ,18E.01 6,bOE.OP 3,16E-02 1.82E.02 l;OZE.OZ 6.bOE.03 3.651-03 l,GOE-03 6.89E.04
KF"
04 04 03 03 02 02 01 01 00 00
.3,7700E.O,
06 05 05 04 34 03 03 02 01 01 00 00
SHELL
2.45E 9,03E 2.478 4.17E 5,a3E 9.87E 1.6aE 2.12E 4.15E 7.33E l.OOE 3,3lE-01 3.90E.02 2.14E.03 1,31E-04 1,36E-05 l.l5E-06 3.93E.Od EB
El 03 03 02 02 01
4.33E 1.7aE 5,59E 1.14E 1.95E
05 05 04 04 03
7,95E 1.99E 3.93E.01
00 00
3.9bE 7.996 I.221 2.7aE 5,7OE-01 1.57E-01 3.2t.E.02 b.ClE-03 Z.(IIE-04 2.021-05 Z.POE-06 2.161.07 1,13E-08
02 01 01 00
4.40E 1.6IE 4.37E 7.23E 9.a6E 1,62E 2.67E 3.2lE 6.03E 1,OlE 2.34E 3,99E-01 4,laE-oz l.aaE-03 9,61E-05 7.918-06 5.761-07 1.97E.08
l.ZOE 7.26~ 3.791 1.57E 6.0kE.OI 2.5aE.01 l.I2E-01 4,29E.O2 P.OLE-02 9.30E.03 4,97E-03 2.34E.03 9.13E.04 2.58E.04 7,05E.O5 2,aa2.05 9,75E-06 2,14E-06
2.84E ?.48E 6.248 1.89E 4;PaE 1.49E 4.4aE I.IOE 3.69E 1.15E 4.53E 1;4aE 3.62E.01 5,5lE-02
R5 05 05 04 04 03 03 02 02 01 01 00 00
1.36E 6.56E 2.486 6.35E 1;3aE 3.42E a.52G 1.67E 4.67E l.ZOE 4.042 1;OPE L.llE 2.34E-01 3.056-02 5.67E.03 9.alE.04 9.658-05 6.911-06
04 04 03 03 02 02 01 01 00 00
2.97E 1.26E 4.16E 9.17E 1.75E 3.991 9.25E 1;70E 4.57E 1;lbE 3.75E P,PlE-01 1,082.01 2.058-02 2.63E.03 4.051.04 a;341-05 a.l6E-06
7.64E 3.22E 1.05E 2.22E 4,OOE a,4aE I.aOE 2.93E 7.00E 1.52E 4.43E.01 9.92E.02 l.LPE-02 I.I3E-03 9.661-05 l.ZOE-05 1,25E-06 5,2aE-oa
9.57E.03 2.24E-03 4.LllE.04 6.29E-05 5,71E-06
tI3 01 00 00 00
7.62E 4.00E l.aZE 6.09E ?.(15E 6.40E 2.25E 6.75E.01 2.651-01 9.90E.02 4.50E-02 1.75E.02 5.3aE.03 l.lIE.03 2.556.04 7,46E.05 2.03E.05 3.40E.06
00
1.04E 5.52E 2.40E 7.67E 2;16E 6.a9E.01 2.2OE.01 5,75E.O2 2.00E.02 6.47E.05 2.59E.03 a;52t.04 Z.OaE-04 2.9aE.05 4.63E.06 9.2aE.07 1.59E.07 l.ZAE-08
HZ
7,65E-03 5.1IE.03 3.03E.03 1,47E-03 6.63E.04 3,22E-04 1.56E.04 6,651.05 3.39E.05 I.658105 9,13E-06 b.b5E-06 1.778-06 4.931-07 l.bIE-07 4.65E.01 1.34E.oa 2.07E.09
07 06 06 05 05 04 03 03 02 02 01 01 00
M4
R5
02 02 02 01 01 00 00
4.75E 2.26E a,AaE 2.361 5.67E 1.59E b.55E 1;07E 3.47E li06E 4,lOE-01 1.3lE.01 3,11E-02 4.761.03 a;I9E-04 I.PIE-04 4.13E.05 5.3OE.06
02 01 01 00 00
9.268
03
4.37E 1.6bE 4.2ae 9.65E 2,llE 6.522 1.34E 3,aaE-01 I.O3E-01 3,5lE-02 9.52E.03 l.azE-03 1,90E-04 2.19E.05 3.441-06 4,59E-07 2.63E-01
03 OS 02 01 01 00 00
02 02
6.42E 2.67E cl.511E 1.1)3E 3,361 7.36E I.6bE Z.OSE 7,27E-01 1,70E-01 5,27E-02 1 ,ZbE-02 2,13E-03 1.03E.04 1,75E-05 2,3OE-06 2.5OE.07 1.16E"Oa
06 06 05 04 04 03 02 02 01 01 00
1,03E 6,12E-01 3,lOE.OI 1.2IE.01 b.30E.02 1,68E-02 6.58~-03 2.19E.03 9,LOE.04 3.63E.04 l.TlE-04 6,(13E.O5 2.12E.05 4,ZPE.06 0.852-07 2.27%-07 4.996.01 5.42E.09
"3
14
M5 05 05 05 04 03 02 02 01 00 00
KE" w,
07 07 06 05 04 04 03 02 OI 01 00
03 03 03 02 02 01 01 00 00 00
YE"
=2.9400E.01 E5
n4
5.89E 3.32E 1.57E 5.62E l.IJiE 6.5lE 2;37E 7.32E 2.93E 1;llE 5.lOE-01 2,OlE.01 6.23E.02 I.3OE.02 2.99E.03 a.aoE-04 2;4OE.O4 4.Ot.E.05 b.68E.06
HZ
1.61E.01 l.lZE-01 7.031-02 3.72E.02 1.a56.02 9;96E-03 5.408-03 2,66E-03 1,54E-03 a.595.04 5.3aG-04 3.071.04 1;5lE-04 5,aOE-05 2,32E.05 I.O6E-05 4.471-06 1.29E.06
VI 07 06 06 05 04 03 03 02 01 00 00
n3 02 01 01 01 00 00 00
KEY
~2.9700E.01 ES
05 04 04 03 03 02 01 00 00
1,lIE 7.29E 3.89E l,b6E 6.53~ 2.a5E 1,26E b.aaE-01 2.3bE.OI 1.0aE.01 5.77E.02 2.?3E-02 1.07E.02 3,04E-03 9.28E.04 3.41E.04 7.16~.04 2.5bE.05 3.80~.06
*11
1.06E 5,99E 2,6LIE I.llE 1.99E 5;3OE 1.36E 2.67E 7.24E 1,77E 5,5dE I.371 2;3OE-01 2.031-02 Z.llE-03 3.34E.04 5,28E-05 5,ClE.06
EB
o* 00
2;76E-04 1.268.04 5.3lE.05 1.548-05 3.041-06
E5
3.458 I.59E 5,(13E 1.46E 3.17E
l.OPE-01 2.751-02 P.OOE-03 2.3lE.03 4.091104 3,aoE.oS 3.951-06 5,931.07 8,29E-oa I.OZE-09
2.2OE
EB
SHELL
e3 01 00 00 00
00
E4
2.49E.01 7,17E.O2 l,POE-02 6.48E.03 1.77E.03 3,4lE.04 3.641-05 4.366-06 7.208-07 1.041.07 7,23E-09 .
=5,6080F
** 05 05 05 04 04 03 03 02 01 01 00 00
SHELL
ES 00 00 00
EB
E4
I9
E2 1.79E 9.421 4,OPE 1.30E 3,641.01
5,LOE 3.01E 1.37E 4.456 1.23E 3.?OE l.lOE 2.576 8.09E 2.33E (1.43E 2,451 5.0aE.01 5.96E.02 a.loE-03 1.59E.03 3.13E.04 4.196-05 4.668-06 Ll
8.76E 5.36E 2.76E I.OIE 3.66E 1;3bE b.a3E 1,43E 5.3aE-07 1.801.01 7.93E-02 2.7a1.02 7;2aE.03 1.171103 2;llE.04 5.218-05 l.EOE-05 2.268-06
2 EG
04 “3 03 03 02 02 01 01 00 00
2 ( 30
Conversion Coefficients
E4
19
EL
2.97E-02 I,a4E.02 9.87E.03 4.16E.03 1,59E-03 6.61E.04 2.74E.04
SHELL
E3
2 EG
I
E2 2.24E 1.4t.E 11.23E 3.6aE 1.48E 6;39E-01 2,72E-01 9,a7E-02 4.3RE-02 l,B3E-02 O.PZE-03 3.721-03 I;221103 2.64E-04 6.32E-05 1.971-05 6.13E.06 1.4IE-06
Kl El
2
15 17 20 25 32 CO 50 65 a0 100 I20 150 200 300 450 650 1000 2000
19
L:2
EC
Internal
Internal Conversion.
3.47f.03 2.34E.03 I.LOE.OS 6.921.04 3,17E-04 1.56E.01, 7,68E-05 3.34E.05 1.73E.05 a.5aE.06 b.bSE-06 Z.bJE-06 l.OlE-06 3,03E-07 9.6bE.00 3.666-01) 1.301.oa 3,17E-09
M2
n3
i.aaE 00 l.OEE 4.66E.01 1.59Er01 4.9OE.02 1.7OE.02 5.91E.03 1.77E.03 6.82E.04 2.471.04 1.09E.04 4.04E.05 l,lSE.05 2,OaE.06 b.lOE-07 I.ObE-07 2.491.08 4.02E.09
00
114
4.70E 2;ZOE 8.3OE 2.19E 5;IlE 1.39E 3.aZE.01 1.52E.02 2.6LE-02 7,57E-03 2.77E-03 a.laE-04 1.75E.04 Z.llE-05 2,76E-06 4,79E-07 7.258-0" 6.ISE-09
01 01 OO 00
II5 04 04 03 03 02 01 01 00
6.99E 2,591 7.15E 1.2bE ,,LIOE 3.20s 5.791 7.92E 1.67E 3.19E (l.ClE-01 1.682.01 t.ZOE-02 1.37E-03 9.75E.05 l,OlE.05 L).37E-07 z.baE-oa
06 06 05 05 04 03 02 01 01 00
See page 438 for E xplanation L of Table
446
Atomic
Ddn
md
Nuclear
Datm
Bblsr,
Vol.
18,
No.
5, Nambw
1976
BAND,
and LISTENGARTEN
TRZHASKOVSKAYA,
TABLE. 2 I EL 15 17 20 25 32
40 5c
65 80 100 120 150 200 300 450 650 1000 2000
6000
20
EZ 6.78E 4.69E 2.90E 1.49E 7.05E-01 3,56E-01 1,79E-01 7,VOE-02 4.131-02 2.05E.02 1;16E-02 5.78E-03 2;30E-03 T.OPE-04 2,30E-04 9.21E-05 3.681-05 l;lbE-05 2.87E-06
00 00 00 00
3.35E 2.16E 1.2lE 5.37E 2.13E 9,llE 3.85E 1.38E b.llE-01 2.54E-01 i;23E-01 5.1‘8-02 l.b(IE-02
Kl
02 02 02 01 01 00 00 00
1.3SE I.ORE 4.13E 1.59E 5.31E 1.92E 6.85E 2;OOE 7.S?E 2.61E 1;lOE 3,83E-01 1 .OOE-01 l.bOE-02 2,8VE-03 7,16E-0‘ 1.778-04 3.121-05 ‘.42E-06
8.69E-04 2.711-04 8.451-05 1,95E-05
T.5PE-06
"4 03 03 03 02 02 01 01 00 00 00
32 40 50
65 80 100 f20 150 200 300 ‘50
650 1000 2000
5,04E-01 3,54E-01 2.22E.01
l,lbE-01 5.58E.02 2.86E-02 1;45E-02 6.491-03 3;‘2E-OS 1,7lE-03 9.708-04 4.86E-04 2.OlE-04 6;03E-05 l.PbE.05 7,87E-06 3,15E-06 9,091*07
2.38E 1.56E 8.88E 4.021 1.63E 7.12E-01 3,05E-01
01 01 00 00 00
l,llE-01 4.91E-02 2,08E-02 l.OLE-02 ‘.28E-03 l.LlE.03 3.071-0‘ 7.‘OE-05 2,32E-05 7.23E-06 1,67E-06 2
EG 15 17 20 25 32 40 50 65
80 100 120 150 200 300 450 650 1000 2000
El
1.26E 6.68E 2.93E '+.42E-01 2.691-01
8.491-04 3,54E-04 1.26E.04
8.691-02 2,8lE-02 7,50E-03 2.658-03 8.751-0‘ 3.571-04 1.20E-0‘ 3.04E-a5
5,58E-05 2.331-05 1,14E-05 4.84E.06 l.bPE-06 3,63E-07 8.78E.Otl 2.63E-08 7.2OE.09 l.ZOE-09
40 50 65 80 100 120 150 200 300 ‘50
65 G 1000 2000
7,05E-02 ‘,38E-02 2.35E.02 9.908103 3,78E-03 1,58E-03 6.5‘1-04 2,321-O‘ 1.02E.O‘ ‘.26E-05 Z.I"E-05 8,89E-06 3,01E-06 6*99E-a7 l.IOE-07 5;94E-08 1,89E-08 4.2111-09
2.PLE
05
1.366 4.53E l.27E 3.9OE 1.17E 2.77E .5,8OE 2.55E 9;29E 2.7lE 5.67E.01 6.738-02 V.ZlE-a3 1,82E-03 3,61E-04 4,87E-05 5.‘lE-06
05 04 04 03 03 02 01 01 00 00
01 00 00
00
2.14E 6,928 2.04E 7.51E-01 2,22E-O? 4.70E.02 5,bSE-03 7..3lE-0‘ ?.56E-0‘ 3,lOE-05 ‘,lSE-06
01 00 00
L2
6.23E
00
3.13E
02
1.61E 3.30E.01 9,52E-02 2,53E-02
00
6.55E 1.05E 2.5OE 5.41E.01 1.57E.01 3,5?E-02 5,29E-03 ‘,O‘E-04 3.54E-05 4,51p-06 4.971-67 2,38E-08
01 01 00
5,87E-06
-
20
L3 23
01 01 00
l.bPE
00
4,7‘E-01 ?.5OE-01 4,77E-02 ?,L‘E-02 4.272-03 ?.37F-03 5.42E-04 (.76E-04 4;24E-05 6,06E-06 9.691-07 2,12E-07 4.438-08 b.lSE-09
4.5OE 2.081 7,blE 1.9lE 4.15E 1.0f.E 2.62E 5,17E-01 1.43E.01 3.63E.02 l.lPE-02 3.061-03 5;‘3E-04 5.04E-05 5.258-00 7,8RE-07 I.lOE-07 P.Z"E-09
03 03 02 02 01 01 00
05
l.OlE-02 6.7‘1-03 4.001-03 l.VSE-03 8,78E-0‘ 4,27E-04 2.07E.04 8.86E.05
5,491 9.7lE 2.39E ‘.4lE-01 5.211-02 2.861-03 l.BSE-04 1.84E-05
01 a0 00
4,53E-05 2,2OE-05 1.221-05 5.97E-06 2.388-06
2.3OE 7.25E 1.48E 2.54E 5,lbE 1.OSE 1.67E 3.66E 7,5lE-01 2,07E-01 4.31E-02 5,84E-03 3.73%-04 2.69E-05 2.92E-Oh 2.88E-07 ,.50E-08
05 0‘ a4 a3 02 02 01 00
5,6‘E 2.07E 5.62E 9.35E 1,28E 2.11t 3.491 4.2OE 7.9IE 1.32E 3.09E 5,27E-01 5,53E-02 2,49E-03 1.291-04 1,05E-05 7.671-07 2.62E.08
1.32E 6,07E-OI 2.38E-01 7;3VE-02 1,53E-02 3.54E.03 l.O‘E-03 2;83E-04 4,7‘E-05
00
nt
n5
3.22E 1.69E 7.23E 2,2lE 5.86E 1.76E
05 05 04 04 03 03
5.3lE 1.31E 4.37E 1.37E 3.37E 1.75E 4,28E-01
02 02 01 01 00 00
6.5OE-02 l;lIE-02 2.641-03 5,74E-04 7.39E-05 6,661"06
*3 01 00 00 00
b,OIE-03 2,868.03 l.llE.03 3.128.04 9.49E.05 3,‘7E-05 l.l7E-05
1.48E 7.25E 2;79E 7.261 f.5VE 3.99E P.VBE li97E
07 06 06 05 05 04 03 03
5.49E q.b2E 4.77E 1.29E PiME 2,7OE-01 3,59E-02 6.68E-03 l.l6E-03 l.l‘E-04
02 02 01 01 00
(I.OfE-06
114
9.731 5.19E 2.3?E 7.69E 2.328 7.99E 2.2.OE 8.34E-01 3.26E-01 l.ZlE-01 5.5OE.02 2,13E-02 6,5‘E-03
02 02 02 OI 01 00 00
II5
b.OSE 2,868
04 04
l.lOE 2.961 7.OVE 1.98s 5.6‘E 1.32E 4.27E
04 03 02 02 01 01 00
7.3OE
00
5,0lE-01 l.bOE-01 3,8bE-02 5,7bE-03 P.IPE-04 2.30E.04 ‘.97E-05 6.37E.06
1.348-03 3.08E.OL 9;00E-05 2,44E-05 (I.OIE-06
2.56E.06
p12
3.74E 1.58E 5.22E l.I5E
06 06 05 05
2.lnE 4.95E 1.?4E 2.TOE 5.62E I.40E 4.58E l.Z?E L.ZI)E-01 2.47E-02 3.lLIE-03 5.8‘E-04 l.OOE-0‘ P.IOE-06
04 03 03 02 01 01 00 00
1,90E-07 6.28E-08 1.811-08 2.79E.09
=3,4700E-0,
ll‘
m3
1.36E 00 8.05E.01 C.OOE-01 1 ,bOE-01 5,68E-02 2.23E.02 l.74E.03 2,421.03 1.23E.03 4.8bE.04 2,29E-04 Q.15E.05 2;85E.O5 5.69E.06 1 .POE-06 3,07E-07 6,78E-08 7.35E.09
6.6‘1-07
1.3t.E 7.2OE 3;14E l.OlE 2.85E 9.09E-01 2,9?E-01 7,63E-02
02 01 01 ai 00
2,bbE-02
8.628-03 3,45E-03 1.14E-03 2.78E.04 4.OtE-05
6;25E.06 1.261.06 2;15a-a7 1,69E-011
M5
l.lVE
04
5.65E
03
2.13E 5.58E 1.26E 3.2PE 1.58E 1.78.3 5.13Er01 1;37E-01 4.661-02 1,27E-02 2.441-03 2.55E-04 2;V5E-05
03 02 02 01 00 00
9.76E 4.13E 1.3‘E 2.87E 5.lVE l.lOE 2.35E 3;85E
05 OS 05 04 03 a3 02 01
9.23E 2,01E 5,87E-a1 1,32E-01 l.VVE-02 1.5lE-03 1.30E-04
00 00
4.65E-06
l.blE-05
6;23E-07 3.58E-OS
l.'IOE-06 T.ldE-08
KEY Ml
07 07 06 a5 05 00 03 02 01 01 00
03 03 03 02 02 01 01 00 00
5.451-06
1.54E 9.26E 4.8lE l.VBE 7.58E.01 3.23E.01 1.39E.01 5.3lE.02 2,5lE-02 l.l‘E-02
Ml
ES
5,bOE
1.3bE.04 2.98E.05 4,‘lE.06
6.98E 3.95E 1.88E 6.73E 2.16E 7.8OE 2.8‘E 8.74E 3.49E
KE"
07 07 06 05 04 04 03 02
Ee
3.bOE.03
1.531-06
5.348-08
02 01 01 01 00 00 00
l.lOE-03 4.021.0‘
2.03E.01 1,4lE-01 8,79E-02 4,64E-02 2.30E.02 1,24E-02 6.68R.03 3,2&E-03 1,89E-03 ?,OSE-a3 6.58E.04 3.7‘1-04 1,84E-04 7,01E-05 2.8OE-05 1,27E-05 5.3‘1-06
3.15E 1.17E 3.2OE 5.42E 7.6lE 1.29E 2.2lE 2.79E
E4
1,45E 8.93E ‘;76E 2,OEE 7.94E 3i45E 1.52E 5.87E.01 2,80E-01 l.ZPE-01 6.89E-02 3.261-02 1,27E-02
R‘
KEV
.3,5000E-01
1,56E-06
SHELL
00 00 00
2,l‘E-03 R.l7E-04 3.26E.04 1.48E-0‘ 6.238.05 1,79E-05 3,5lE-06
65 05 05 04 03 03
9.721-07 1,4lE-07 9.72.E-09
2.321 1.22E 5.31E
Etl
3.11E 1.2VE 4.11E 8.53E 1.50E
7.85E-07 1,73E-07 3.421-08 3.62E-09
E2
4.431-06
SHELL
03 03 02 02 01
2.368-03 4,57E-0‘ 4.891-05
?,dlE
112
Ml 05 05 05 0‘ 0‘ 03 03 02 09 01 00 00
1.94E 6.17E 1.53E 2,6OE-01 2,32E-02 2.44E-03 3,VOE-a4 6.2lE.05
KE"
4.3bE.03
=‘.3800E-01
8.72E 5,22E 2.46E 7.82E 1.99E 5.45E 1,43E 2.86E
E4
8.642-03
2.34E 1.63E 1,OZE 5,36E-OI 2.6?E-01 1;43E-01 7.7‘E-02 3;8lE-02 2.196-02 l.IPE-02 7,65E-03
ES
1.5SE 6.O,E-01 Z.llE-01 I.PIE-02 3.lbE-02 8,34E-03 1.351-03 2.451.04 6.12E.05 1,52E-05 2,68E-06 20
07 07 06 06 05 04 04 03 03 02 01 01 00
EB
04 04 03 03 02 02 01
2.48E 1.15E 4.271 1.09E 2.42E
1.98E t.a6E ‘.k6E 1.2l)E 3.02E 7.14E 1.97E 3.80E 1.02E 2.46E 7.7‘E 1.89E 3.16E 2,77E-01 2,88E-02 4.571-03 7.246-04 7,48E-05
E4 2.9lE 1.74E 2.,56E 3,OZE 8.92E 2.84E 8.76E
=
00 11
6,5bE-06
SHELL
E3
2
15 17 20 25 32
05
02 02 02 02 01 a1 00
4.66E-06
El
EG
11
=4.038aE ES
8.74E 5.43E 2.851 I.131 3.9lE ,.46E 5,SOE
E2
3,73E-02 2.328-02 1,25E-02 5.29E.03 2,03E-03
EB
5.12t
El
EP
Conversion Coefficients
E4
2 = 20
15 37 20 25
SHELL
F3
3.63E-03
61
EG
Internal
Internal Conversion, Z < 30
‘.5OE-03 3,O‘E.03 l.IPE.03 9,OOE-04 4.12E.04 2.032-a‘ 1.008-04 4,37E-05 2.27E.05 l.l3E-05 6,37E-06 3,1PE-06 1,33E-06 3.991-07 1,27E-07 4,83E-08 1,71E-o* ‘.18E-09
HZ 2.63E 1,43E 6.50E.01 Z.PlE-01 6.79E.02 2,35E-02 8.24E.03 2,43E-03 9,32E-04 3.37E.04 1,48E-04 5.49E-05 1;56E-05 P.OOE-06 5.491.07 1,39E-07 3.3lE.08 5.31E.09
H3 00 00
n4
6.75E 3,lbE 1.18E 3.llE 7.2OE 1.95E 5.341-01 l,lPE-01
02 02 02 01 00 00
9.2lE 3.82E 1.22E 2.59E 4.74E 1.03E 2.29E 3.98E l.OlE 2.3bE-01 7,28E-02
3.66E-02 1;05E-02 3,8,E-03 1.128-03 2.39E.04 2.87E-05 3;74E-06
n5 04 0‘ 04 03 02 02 01 00 a0
1.761-02 2.931-03 2.512-04 2 39E-05 3.13E.06 3.31E.07 1.55E-08
4.481-07 9.74E-0.5 8,13E-09
9.98E 3.68E l.OlE 1.75E 2.53E 4.49E 8.09E l.lOE 2.32E 4.42E t.(bE 2.32E.01 3.02E-02 l.I)LE-03 1.331-0‘ 1.37E-05 l.l‘E-01 3.33E-08
06 06 06 05 04 03 02 02 01 00 00
See page 438 for E .xplanatio bn of Table
447
Atomic
Data
md
Nuclear
Dalc~
Tabler,
Vol.
18,
No.
5. November
1976
BAND, TRZHASKOVSKAYA,
TABLE. 2 = 21 EG 15 17 20 25 32 40 50 65
80 100 120 150 200 300 450
650 1000 2000 6000
El 7.421 5;15E 3,lVE 1.65E 7,82E-01 3,96E-01 Z,OOE-01 8.86E.02 4;64E-02 2.3lE.02 1.3lE.02 6,54E-03 2.70E.03 8.09E.O‘ 2,63E-04
F2 00 00 00 00
l,ObE-0‘ 4.2SE.05 1,32E-05 3,28E-06
3.48E 2;Li'E 1.29E 5.75E 2.3lE 9.93E 4.22E 1.53E 6;78E-O'( 2.82E..Ol 1.38E.01 5.761-02 1.89E.02 4.llE-03 9,89E-04 3,lOE.04 9.7OE.05 2*25E-05 4.llE-06
1.3lE 8;07E 4.2OE 1.64E 5.51E 2,05E 7,37E Z.lIE 6;2lE 2,87E 1,ZlE 4.251-01 1,12E.01
15 (7 20 25 32 CO 50 65 80 100 120 150 200 300 45@ 650 1000 2000
El 5.57E.01 3,92E.O1 2.47E.01 1.30E.01 6,27E.O2 3.231-02 1,65E-02 7.391-03 3,9OP-03 1.961-03 q.llE-03 5;60E.i4 2.33E-04 7.00E.05 2.26E-05 9;lPE.06 3.68E.06 l.lIE-06
2.49E ?.65E 9,‘9E ‘,35E 1.79E 7.84E-01 3.39E.01 l.ZSE-01 S.bOE-02 2,36E-02 t.lbE-02 4;88E-03 l.blE-03 3.55E-04 I.SLIE-05 2.7OE-05 8.461-06 1.96E-06
01 01 00 00 00
El
15 17 20 25 32 40 50 65
4.621.02 2.88E-02 l,SbE.O2 6.63E.03 2.56E-03 l.O7E-03 4,50E-04
80 100
7,15E-05 3,OOE.05 1,‘8E-05 6.26E.06 Z.l(E-06 4,7‘E.07
120 150 200 300 450 650 1000 2000
1 .blE-04
1,15E-07 3,45E-08 9.48E.09 ?.5SE-09
15 17 20 25 32 60 50 65 80 100 120 150 200 300 450
650 1000 2000
El 8.69E-02 5.4lE.02 Z.PlE-02 ?.24E-02 4.741-03 l.QOE-03 8;27E-04 2.95E-0‘ 1;30E-04 5,45E-05 2.691-05 1.14E.05 3,80E-06 9.031-07 2.342-07 7,70E-08 2,46E-08 5.54E-09
01 00 00 00
See page 438 for Explanation
Ll
02 02 02 02 01 01 00 00
3.46E-03 1,14E-03
LE
03 03 02 02 01 00 00
=
21
EL
L3
5.77E
07 06 06 06 05 0‘ 04 03 03 02 01 01 00
EL!
n 5,OOOOE.01 E5
04 04 03 03 02 02 01 01 00 00
SHELL
1.65E
05
5.27E l.lOE 1.94E 4105E .5,5?E 1.37E
04 04 03 02 01 01
3.27E 7,06E-07 2,06E-01 4,6?E-02 b.PI)E-03 5.341-04 4,70E-05 6,00E-06 6.631-07 3,19E-08
00
2.67E
03
9,PPE 2.47E 5.361 1.35E 3;39E 6.70E-01 1;86E.O1 4.731-02 1.551-02 3,99E-03 7.09E.04 6.591-05 6.871.06 l.O3E-06 1.441-07 l.ZlE-08
02 02 01 01 00
7,14E 2,948 9.278 ?.POE 3.26E 6.64E 1.35E 2.08E 4.751 9.751-01 2,69E-01 5.622-02 7.62E-03 4.87E-04 3.521-05 3,83E-06 3.771107 1,96E-08
3.99E 1.48E 4,OIE 6.94E 9,77E 1.67E 2.85E 3.621 7.14E 1.27E 3.t3E 5,79E-01 6.86E.02 3,78E-03 2.468-04 2.448-05 2,08E-06 7,14E-08
07 07 06 05 04 04 03 02 01 01 00
of Table
448
02 02 01 01 00 00 00
8.?6E 4;64E 2.2lE 7.97E 2.57E 9.2hE 3;36E 1.04E 4;lLE 1.56E 7,17E-01 2,8lE-01
03 03 03 02 02 01 01 01 00 00
8,70E-02 1,80E-02 4,15E-03 1,22E-03 3,3OE-0‘ 5.53E-05 6,29E-06
?,59E-04 3.46E.05 5.07E.06
ML
2.52E.09 1.75E.Ol 1.09E.01 5.73E.02 2.8‘8-02 1.521.02 8,lPE.03 S.OlE.03 2,30E.03 l.Z.¶E-03 7,98E.04 4.531.04 2.22E.04 8,42E-05 3,35E-05 1.51E.05 6.3‘1-06 ?.lllE-06
3.59E 1,9lE 8,26E 2.55E 6.83E 2.06E 6;23E 1.5‘E 5;14E 1,6lE 6.31E 2.05E 5,03E-01 7,62E-02 1,32E-02 3.09E-03 b.TlE-04 8.62E..05 7.70E-06
05 05 04 04 03 03 02 02 01 01 00 00
1.58E 7.866 3.08E 8,lIIE l.e.ZF: 4.60E 1.16E 2.29E 6.4lE
07 06 06 05 05 04 04 03 02
1.64E
02
5.57E 1.50E 2.9lE 3;23E-01 ‘,20E-02 7.8lE-03 1.35E-03 1.33E-04 9.351-06
01 01 00
1.95E 1.17E 6,06E 2,‘bE 9.431.01 ri.OOE-01 1,72E-01 6.5lE.02 3.07E.02
w
H3 01 01 00 00
l,IPE.OP 7.38E.03 3;46E-03 1,3‘E-03 3i75E.04 l.l‘E-0‘ 4,14E.O5 1,401.05 3.03E.06
1,23E 6.541 2.9OE 9,blE 2.88E 9.88E 3.45E ?.OZE 3.98E.01 1.48E-01 6.60E.02 2;58E-02 7.89E-03 1.61.5-03 3,69E-04 l.OTE-04 2,9lE-05 4.851-06
03 02 02 01 01 00 00 00
7,57E 3.591 1.37E 3.69E S;79E 2.451 6,93E 1.6lE 5.2OE 1,58E 6,07E-01 1.9SE.01 4.65E-02
R5 01 OC 04 03 02 02 01 01 00 00
6;92E-03 l.lPE-03 2.742104 5.941-05 7.58~-06
4.678 1,97E 6,498 1,421 2.7OE 6.09E 1,bOE 2.56E 6.84E
06 06 05 05 06 03 03 02 01
1.69E 5.55E 1.46E 2.75E-01 2,97E-02 3,llOE..03 6,97E-04 1,ZOE.0‘ l.t'IE-05
01 00 00
UEV H2
1.3lE.02 8.768.03 5.208103 2.54E.03 l.l5E-03 5,59E-0‘ 2.728-0‘ l.l6E-04 5.96E.05 2.901.05 l.blE-05 T.POE-06 3.168.06 8,82E-07 2,52E-07 8.378-08 2,40E-08 3.72E.09
1.76E l.OCE 5.29E.01 2,08E*Ol 7.4lE.02 2.9lE..02 l.l4E-02 3.83E.03 1.6lE.03 6.39E.04 3,02E-04 l.tlE-0‘ 3.77E.05 7,56E-06 1.591-06 4,lOE.07 9,05E-08 9,84E-09
M3 00 00
1.74E 9;tSE A.051 1;3OE 3.69E 1.18E 3.79E..01 9.91E.02
M4 02 01 01 01 00 00
3;481.02 l.l3E-02 ‘;54E-03 ?.SOE-03 3,68E-04 5.32E.05 8,3lE-06 1.67E.06 2,86E-07 2,26E-08
M5
1.5lE 7.18~ 2.72E
0‘ 03 03
7.14E
02
1.62E 4.24E l.llE 2.3lE
02 01 01 00
6;70E-01 1.78E.01 b.llE-02 l.bTE.02 3.2lE.03 3,37E-04 3,9lE-05 b.lPE-06 8.32E.07 4,.8OE-08
1.22E 5;19E 1.7OE 3;65E 6.64E 1.42E 3.03E 4.98E
06 05 05 04 03 03 02 01
l.POE 2.62E 7.661-01 1.73E.01 2,62E-02 1.99E.03 (,72E-04 2,15E-05 2.26E.06 9.63E.08
01 00
KEV PI,
07 07 06 06 05 04 03 02 02 01 00
1.77E 1.09E 5.771 2.451 9,57E ‘.lSE 1;82~ 7.01E.01 3;34E.01 1,53E*O? 8,17E-02 3,861.02 l,SlE*O2 4,24E.03 t,29E.O3 4,7lE-04
KEV
.4,0200E.O,
7.12E 2.62E 7,13E 1.19E 1,63E 2.7lE 4.48E 5.428 1.02E q.TlE 4,OOE 6,8‘E-01 7.2OE.02 3.251-03 1,68E-04 1,38E-05 l.OlE-06 3;43E-08
?13
M2 00 00 00
Ml
ES 05 05 04 04 03 02 02 01 00
2.86E 1.988 1.24E 6.50E.01 3.22E.01 1,72E-01 9,29E-02 4.961-02 2.621-02 1.461-02 P.OPE-03 5.168-03 2.53E.03 9,6lE-0‘ 3,82E:04 1.731-04 7.251.05 2.076-05 4.021-06
94.0700E.01
ES
SHELL El
03
05 05 05 04 04 03 03 02 01 01 00 00
ES 05
KEV
Ml
6.79E ‘,36E 2.19E 7,37E 1,96E 5.52E l,lr(lE 3,OZE 8,‘OE 2,lOE 6,76E 1.69E 2,9OE-01 2.628-02 2.791-03 4.5lE.0‘ 7,25E-05 7.58E.06 EB
3,981
El 01 01 00 00
00 Ml
1.74E 9,56E 4.18E 1,Z‘E 3,OlE 7.98E 2,042 4,OOE 1.08E 2,65E 8.381 2,06E 3.48E 3,08E-01 3.24E.02 5,18E-03 8,29E-0‘ 8.641-05 7,57E-06
E4
l.ZSE-01 3.311-02 1,13E-02 3,lOE-03 6.036-04 6.46E-05 7,78E-06 1.29E.06 1,88E-07 1,30E-OS
1.56E-0‘ C.OOE-05 6.141-06 l.O4E-06 2,29E-07 4,53E-08 ‘.8OE-09
05 05 05 04 04 03 03 02 01 01 01 00
SHELL
2.60~ 1.6lE 8.2OE 3,OOE 9,lPE 2,96E 9.29E 2.31E 7,532 2.24E E.32E-01 2;‘8E-01 5.291-02 6.431-03 6.98E.04 1,SOE.0‘ 3.621-05 4.928-06
14.49306 E5
E4
21
3.20E 1.49E 5.52E 1.4lE 3.14E S.lOE 2,lOE 4.3lE..01
4.671.0‘
2.97E 1.56E 6,SOE 2.17E 6.lOE-01 1 .P‘E-01 6;16E-02 1.6OE-02 5.531-03 1.778-03 7.048-04 2.29E-04 5,52E-05 7,9OE-06 1.26E-06 2.761-07 5,77E-08 8.00E"09
4.76E 2,77E 1.32E 4.52E 1.3OE 4,ObE 1,23E 2.96E 9,492 2.771 1.02E 2.99E 6,29E-01 7.531-02 l.O4E-02 2,07E-03 4,l‘E-04 5.621-05 6.238-06
23
2 EG
.
E2 1.62E 8.58E 3.76E 1.2lE 3.48E-03 l.lLE-01 3.65E.02 9.76E.03
0'. 03 03 03 02 02 01 O? 00 00 00
21
8.57E 5.42E 2.9OE 1.18E 4.l‘E 1,56E 5.751 1.74E 6.65E.01 2.36E.01 l.OlE.01 3157E.02 9,‘8E-03 1.551.03 2.83E.04 I.l?E-05 1.78E-05 3,15E-06
EB
SHELL
E3
2 EC
=
El
Conversion Coefficients
E4
l,SOE-02 3,28E-03 8.17E.04 2.04E.04 3.60E.05 5,09E-06 2
EC
Kl
Internal
E3 02 02 02 01 01 00 00 00
Internal Conversion, Z < 30
and LISTENGARTEN
5.758-03 3,88E-03 2.331-03 l.l5E-03 5,30E-04 2.621-04 1.292.04 5.656-05 2.9‘8-05 1,46E-05 8.268-06 ‘.14E-06 1,72E-06 5.191-07 ,.65E-07 6.27E.08 2.231-08 5;411.09
n2
M3
3.63E
00
1.97E 8.94E.01 3.04E.01 9.28E.02 3.211.02 1.12E.02 3,28E-03 1,26E-03 4.531104 1.991.04 7,33E-05 2.08E.05 3.72E.06 7,24E-07 1,83E-07 4,33E-08 6,908"09
00
9.54E 4;45E ?.66E 4.34E 1,OOE 2.691 7,35E-01 q.bSE-01 5;00E-02 1,43E-02 5.18E-03 1,52E-03 3.23E-0‘ 3.868-05 5,0lE-06 6,63E-07 1,29E-07 1;06E-O8
M4 02 02 02 01 01 00
n5
1.3OE S;37E 1.72E 3;62E 6,58E 1.43E 3;16E
05 01) 04 03 02 02 01
5.461 1;38E I.PIE-01 9.9lE.02 2,39E-02 3.961-03
00 00
3.398-04 3,2lE-05 L.LOE-06 4,5lE-07 2.041-08
1.4OE 5,lbE 1.42E 2.43E 3.5lE 6.2OE l.llE 1.5lE 3.17E ;;03E %.58E 3.15E.01 4.09E.02 2,54E-03 1.798-04 1,8‘E-05 1.52E-06 4,42E-08
07 06 06 05 04 03 03 02 01 00 00
BAND, TRZHASKOVSKAYA,
TABLE. 2
El
EG 15 17 20 25 32 co 50 65 80 100 120
750 200 300
8.31E 5.62E 3.5OE (.alE 8.bSE.Ot 4.39E.01 Z.LZE-01 9.07E.02 S.?GE.Ot 2;59E-02 1.47E.02 7.3bE.03 3.05E.03
9.lbE.04
430 630 1000 2000
2;99;.04 ? .20E.04 4.GZE.03
6000
3.72E.06
$.STE.OS
13 17 20 23
00 00 00 00
3.59E 2.37E 1.35E b.lZE 2.4IE l.OdE
02 02 02 01 01 01
32 40 SO 63 80 100
120 150
2’00 300 450 650 1000 2000
3.blE.02 1.83~.02 8.34~~03 4.42E.03 2.238.03 1.271.03
b.IOE.04 2.67E.04 8.ObE.03 2.64E.05 1.06E.05 4.27E.06
1.34E.06
4,bOE
00
Et
100 (20 lS0 200 300 430 630
1000 2000
3.53E.02 ‘I;PTF.OZ 8.19E.03 3.laE.03 3.34E.03
3.64E.04 2;03E.O4 9.04E.05 3.8OE.03 1 a88E.05 7.991.06 2.7OE.06 b.lOE.07 1.49E.07 4.47E.02. 1.23E.08 2.0SE.09
15 17 20 25 32 LO 30 65 80 100 (20 150 200 300 430 65C 1000 2000
El 1 .ObE.Ol 6.bOE.02 3.STE.02 1.32E.02 5.87E.03 2.4bE.03 1.03E.03 3.69E.04 1.64E.04 6.87E-05
3.39E.05 1.456-05 4.93E.06 l.YSE.06 2.99E.07 9.SSE.08 3,?4E-01 7.01E.09
‘
4.3‘E
05
2,bOE
05
1.27E 4.44E 1.32E 4,?9E 1.29E 3.15E 1.02E 2.99E l.lOE
05 04 04 03 03 02 02 01 01
Ll
2.59E l.73E l.OOE
01 01 01
4.661
00
1,93E 8.57E-01 3.7YE-01 1,38E-01
00
2.251
04
3.33E 2.9lE l.ZlE
02 02 02
1.4bE
04
7.72E 2.93E
03 03
4.34E 1.66E
03 01
6.18E
00
1.89E
00
9.211 3.03E 9.751 2,SbE 8.12E 2.44E 9;13E-01 2.74E-01 5;9lE.O2 7.23E.03 1 ,OZE-03 2.071-04 4.19E.05
02 02 01 01 00 00
2.64E.02 1;31E.i12 5.52E-03 1;83E-03 L.OSE-04 9.8’fE.05 3.12E.05 9.82E.06 2,20E-06
2.bOE.01 l;lPE.Ol 3.99E.02 1;07E.O2 (.7bE-03 3.231.04 8.19E.05 Z.ObE.05 3,67E-06
.
3,74E-06
22
e2
L2
01 01
4.77E
00
l.34E 4.43E.01 1.44E.01 4.661-02 l.PSE-02 4.441-03 1.47E.03 b.OZE-04 2.048-04 5,lRE-03
00
4,OIE 1.9OE 7.04E 1.8lE 4.02E 1.04E 2.69E 3.56E.01 1 .b?E.Ol 4.28E.02 1,47E-02 4.03E.03 7.84E.04
7.98E.06
8.438-03
5.03E 2.09E 6.686 1.40E 2.47E 3.18E 1.09E 1.7bE 4.2lE 9.14E.01 2.66E-01 5.98E.02 9.07E.03 6,97E-04
? ,35E-06 S.OOE-07 5.938-08 6.2GE.09
1 .OZE.Ol
b.?SE-05
1;69E.06
7i88E.06 8.721-07 4.20E.08
2,47E-07 1.72E.01 .
22
3.74E 1.97E 8.39E 2.74E 7.73E.01
L3
O( 01 00 00
2.461-01 7.83E.02 2.04E-02 7,ObE-03 2.27E.03 P.OlE.04 2,94E-04 7.08E.05 l.O?E-OS T.63E-06 3.35E-07 7.421-08 1 .OZE-08
7.3lE 3.38E 1.24E 3.13E
03 03 03 02
b.a2E
0’1 01 00
1.99E.02 5.13E.03 9.12E.04 8,5OE.O5 1.87E.06 1,33E-06 l.BbE.07 1.5SE.08
4.578106
3.80E.06
05 03 03 04 04 03 03
3.qbE
02
8;PlE 2.2bE 7.32E l.85E 3.2lE.01 2,9&E-02 3,?7E-0.3 5.17E.04 8,39E-05
01 01 00 00
05 05 05 04 03 02 02 01
6,07E (.25E 3.45E.01 7.2lE.02 9.8OE.03 6.28E.G4 4.558.05
00 00
4,aaE-07 2.33E.08
1 .OOE.04 3.97E.05 1179E.05 7.45E.06 2,?lE-06
8.7bE
03
3.27P.03
1.24E 2.12E
03 04
3,bLE
03
4,63E 9.17E 1.63E 4.04E 7,48E-01 8,89E-02 4,93E-03 3,tlE.04 3.201-05 2.74E.06 9.42E.08
02 01 01 00
1.48E.03 7.21E.04 3.SfE.04 l,SlE.04 7.73E.03 3.77E.05 Z.lOE-03 1 .OfE-03 4.13E.06
9.421 4.46E 1.7OE 4,35E 1,OaE 2.991 a.43E
04 04 04 03 03 02 01
1.9bE
01
6.29E 1,POE 7.29E.01 2.32E.Oq 9.53E.02 a.24E.03
00 00
5.7bE 2.43E 7,99E (,75E 3.30E 7;43E 1;tlE 3,llE 8.23E 2,OLE
9.998.05 a.asE-06
MJ 01
l.LbE
01
7.55E 3;08E 1,lbE 4,9lE-01 Z.?OE.Ol 7.921.02
00 00 00
3.5bE.06
07
06 06 05 05 04 04
2.64E
03
7.4OE 1.92E
02 02
6,452
01
1.74E 3,.3(IE 3.74E.01 4.a7E.02 9.Ot.E.03 j .37E-03 1.34E.04 1.08E.03
01 00
Y4
1,541 8.17E
03 02
3,blE
02
1.19E 3.33E 1.2lE 4.2lE 1,ZLE 4.82E.01 l,TIE.Ol 8,03E-02 3.10E.02 9.44E.03 1.921-03 4.38E.04 1,27E.O4 3,LCE.OS 5.72E.06
02 01 01 00 00
n2 2,252 ?.34E 6.78E.OI 2.67E.01 9,33E-02 3,73E-02 1.48E-02 4.95E.03 2.09E.03 8,JOE.04 3.92E.04 l(58E.04 4.938103
1.15E.06 3.32E.07 l.lOE.07
3,lbE.08 4.a8E.09 =4,5300E-01
1 .ClE.O3 3.23E.04 7.03E.05 1.95ErOb
M3 00 00
06
06 05 03 04 03 03 02 03 01
A.661
00
1.74E 3;28E-01 3.5SE-02 L;SlE.OS 8.266-04 ?.42E.04 1.38E.05
00
M4
2.2lE
02
1.17E
02
3.14E
01
T.bbE
0,
4;7lE 1.3lE 4.8bE.01 1;28E.O1 4.5OE-02 1;4bE.02 5.89E.03 1,95E-03 4.79E.04
00 00
115
1.9OE 9.02E 3,43E 9.03E
04 03 03 02
2,ObE
02
3,ClE 1.42E 2.961
01 01 00
8.blE.01
9.908.06 2.098.06
b.PbE.03
5.39E.07 1.19E.07 1.30E.oa
2.2OE.06
2;30E.01 7.89E.02 2.lbE.02 L.I7E-03 4,39E-04 5,ltE.03 8.13E.06
3.79E.07 2.991-08
1.10E.06 6.34E.08
‘1 .OPE-05
1.32E 6.4bE 2,liE 4.30E 8.37E 1.8OE
06
3.8bE 6.35E
02 01
1.33E 3.37E 9,8bE-01 2.23E-01 3.391-02 2,59E-03 2.251-04 2.82E-03 2,98E-06 l.Zi’E.07
01 00
03 05 04 03 03
KEV Ml
H2
*3
3.2bE
07
7.248.05 4.89E.03
4.94E 2,baE
00 00
8.91E 1.49E 2,ObE
06 06 05
2.94E.03
00
3.42E 5,68E 6.09E 1.30E 2;18E 5,12E 8,7bE-01 9.24E.02 4.1a)E.03 Z,TTE-04
04 03 02 02 01 00
3.32E.04 1.64E.04
1,ZlE 4.~oe.01 1;25E.O1 4.311-02 l.SOE-02 4,38E-03 1.678.03
1 .CbE-03 6.7lE.04
7.18E.05 3.74E.05 1 i86E.05 1.05E.05 5.29E.06
2.218.06 b.b4E-07 2.12E.07
4.42E.01
l.b4E 8.35E 3.33E 9.08E 2.05E 5.24E 1.33E
7,aOE-04
7.2lE.06
2.43E
HI 1.b7E.02 1.12E.02 6.68E.03
1,78E-05 1,30E.06
n5 OS 05 04 04 03 03 02 02 01 01 00 00
KEV
07 07 86
07
3.94E 2.12E 9.30E 2.9lE ?.abE 2.3aE 7.23E ?,79E 5.9aE 1.87E 7.34E Z,39E 5.a5E.01 a.a5E-02 1,53E-02 3.5aE.03
4;a28.03 I ,41 E-03 3 .aCE.OS 6.4OE.05
3.72E.02 1.b8E.02 8.89E.03 4.13E.03 1.6lE.03 4.41E.04 1.35E.04 4.9OE.05 1.65E.05
3.421.04
4.991 1.8bE f.TSE
8,85E
03 03 03 02 02 02 01 01 00 00
2.102.02
n2
3.10E.01 2.13E.01 1.34E.01 7;02E-02 3.47E.02 1.83E.02 9i951.03 4.856.03 2.7IE.03 1.54E.03 9.591.04
2.65f.04
E5
9.4lE 5.3OE 2,3(IE 9.33E 3.02E 1.09E 3.93E 1;22a 4.a5E 1;83E 8.39E.01 3.2GE.01 1.01E.01
KEV
=4,blOOE-01
E8
8.97E 3.7OE 1.17E 2.4OE 4.141 a.LIE 1.72E 2,662
4.95E.06
POE.01 HI
4,931 3,48E 1.89E 6;8lE 1.90E 3;52E 1,51E
E4
1.72E 4.33E 8.5aE.01 2.39E.01
b.0bE.02
8,baE.ob
M4
“3 02 02 01 01 0, 00 00
9.blE.02 4,32E-02
2.9bE.03
ES
SHELL
E3
E2
2.(3E 1.30E 6;93E 2,95E ?.,4E 4;94E 2,lbE 1,3OE-01 3.95E.01 1 .IOE.O,
3.848-03 9,43E-04 9.92E.03
EE
05 05 04 04 03 02 02 01 00
*2 00 00 00
1,76E-02 4.93E.03 I, 50E.03 5.CIE.04 f ,852.04 4.00E.03
E4 03 03 02 02 01 01 00
06 05 04 04 03 03 02 01 01 00
a.85E.06
SIiELL
E3
2.05E 1.09E
Ob
ES
02
7.30E.01
06
3.45E 2.398 1.49E 7.798.01 3.a5E.01 2;05E.O? l.llE.O1 5.406.02 3.09E.02 1.72E.02 1 .OTE-02 b.ObE.03 l.lZE-03 4.44E.04 2.O?E.04 8.38E.05 2.38E.03
EC
8,PbE
6.25E.02
07
Et3 =3.64~
SHELL
E3
1.49E 8.52E 3;abE 1.19E 2.98E 8;O’iE 2,lOE 4,17E 1.14E 2.8.2E 9,OOE 2.231 J.IIOE 3,4lE-01
KEV
RI
3.62%.02
6.45E.05 7,13E-06
22
00
ES
a,37E-02 (.llE-02 2.34E.03 4,7lE-04
2.32E-04 4.fZE.05 3.81E.06
=4.96506
ER
3.2bE 00 6,93E-O(
9.2bE.04
2 EG
04 03 03 03 02 02 01 01 00 00 00
4.69E.01
E2
El
3.63E.02
SHELL
Conversion Coefficients
E4
1.24E.01 2.02E.02 3.69E.03
2
?5 ?7 20 23 32 40 50 65 80
Ul
1.27E 7.98E 4.221 1.69E 3.O3E 2,17E ‘I.(I’IE 2.35E LI.PlE 3.13E 1.33E
1.61)E 00 7.47E.O? 3;13E-01 1 .53E-01 6,42E-02 2,llE.02 4.63E.03 ,,lLE.O3 3.32E-04 ?.ltE-04 2,57E-05 4,6(JE-06
El 6.10E.01 4.3OE.01 2.72E.01 1.44E.01 6.99E.02
22
Internal
E3
2 EG
-
EZ
Internal Conversion, Z ( 30
and LISTENGARTEN
8.03E.08 2.85E.Oa b.PLE-09
b;OlE-04 2,631.04 P.bGE-03 2;731.05 4.abE.06 P.LlE-07 Z.JbE-07 5.58E.08 8,GLE.09
R4
1.33E 6.17E 2.301 5.98E 1.37E 3.b8E 9,99E-01 2.2OE.01 6,74E-02 1.92E.02 6.95E.03 2,04E-03 4,3lE-04 5,llE-05 6.59E.06 1.13E.06 1 .bGE.07 1.37E.01)
03 02 02 01 01 00
w5
1.8lE 7.45E 2.37E 4.98E 9;OlE 1.9SE 4;29E
03 04 04 03 02 02 01
1.93E 7,llE 1.951 3.33E 4;792 8.44E IiSlE
7.39E l.87E 4.33E.01 1.33E.01 3.2OE.02 5.29E.03 4.50E.04 4.24E.05
00 00
2.04E 4.271 8.11E 2.12E 4,2lE-01 5,47E-02 3.38E-03 2.3aE.04 2.448-05
3.34E.06
07 06
06 05 04 03 03 02 01 00 00
2,OlE-06
3,93E-07 2,65E-08
5,78E-08
See page 438 for E xplanation L of Table
449
Atomic
Data
md
Nuclmr
Data
T&ler,
Vol.
18,
No.
5, Novetmbar
1976
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 EG
15 17 20 25 32 40 5@ 65 00 100 120 150 200 300 450
650 1000 2000 6000
E, 8,74E
00
b,lOE
00
3.00E 1,97E
00 00
9,461-O? 4.83E-01 2;45E-01 l.OPE-01 5,7bE-02 2,88E-02 1.64E-02 8,23E-03 3.421-03 1,03E-03 3,37E-04 1,3bE-04
5,4bE-05 1,7lE-05
4,19E-06
3.67E 2.44E 1.4lE b.46E 2;65E 1.16E 4.98E 1.83E 8.18E.Ol 3;44E-01 1.69E-01 7,llE-02 2.351-02 5.18E-03 1;26E-03 3.98E-04 1;25E-04 2.921.05 5,29ErO6
02 02 02 01 01 01 00 00
El 6.631-01
2,661
01
4,IOE.Ot 2,98E-01 l,IIE-03 7,74E-02 4,0lE-02 2.0bE.02 9,35E-03 4,97E-03 2.5qE.03 l,44E-03 7,25E-04 3.031-04
1.79E 1,OSE 4.911 2.08E P;nsE-ol
01 01 00 00
650 1000
I.ZlE 7,78E 4.2lE 1.72E 6;04E 2.27E (1.34E 2.5lE 9.b?E 3;40E 1.45E 5;14E-01
2000
15 77 20 25 32 40 50
65 00 100 120 150 200 450 650 1000 2000
6,98E-04 2,52E-04 1,13E-04 4,76E-05 2.3bE-05 l.OtE-05 3,4lE-06 7.75E-07 1;89E-07 5,72E-08 1,57E-08 2.621-09
15 17 20 25 32 40 50 65 80 100 120 150 200 300 450
650 1000 2000
6;lPE.06 1,45E-06 3,76E-07 1,24E-07 3.971-08 L1,93E-"9
Ll
2.942.02
2.8bE-01
1;46E-02 6.19E-03 2,07E-03 C.bOE-04 I.qJE-04 3,58E-05 1.13E.05
1;23E-01 4,42E-02 1.19E.02 l,PIE-03 3.69E-Ob 9.37E.05 2,37E-05 4,25E-06
2.63E-06
.
2.56E l,3bE 5.98E 1.94E 5,57E-01 1,6lE-01 5.89E-02 l;IIE-02 5,64E-03 1.87E-03 7,67E-04 2.608-04
6,62E-05 l.OZE-05 1.74E-06 3,ObE-07 7.661-08 S.lOE-09
=
I.891 1.28E 7.IZE 2.S3E 9.18E 3;12E l.OlE 2,bOE
00
2.64E 9;93E-o( 3,OlbOl
00
2.4bE 1.07E 3.42E
01 01 00
9,67E-01 S.OSE-01 9.831-02 2.571-02 O.POE-0, 2,86E-03 t.I4E-03 3.72E-04 8,97E-05 1.29E-05 2.071-06 4,5lE-07 P.LlE-08 l.,OE-08
6.0bE
04
2.14E 4.338
04 03
1,ZOE 2.99E 9.6OE 2.4OE 4;lZE 3,74E-01 4,OlE-02 b,54E-03 l,OTE-03 l.l3E-04
03 02 01 01 00
6,268 2,blE 8.36E 1.75E 3,llE 6.53E 1.3SE 2.24E 5,351 1.16E 3.39E"01 7,65E-02 l.lbE-02 8.97E-04 7.941.05 l.OZE-05 1.136-06 S,bbE-08
2.62E 1,57E 6,lbE 1.8lE 5.44E 1.53E 3.27E 9,36E 2.4OE 7.87E Z.OlE 3.52E-01
05 05 04 04 03 03 02 01 01 00
00
6,46E-04
5.4bE
00
1.08E 3,02E-01 7,61E-02 2,52E-02 b,5?E-03 1 .lbE-03 l.Ol!E-Ob 1.13E.05 1,70E-06 2,36E-07 ?,97E-08
00
1,llE
=5,2000E-01
2,lOE 6,3bE
07 06
I.09E 1.55E 2.66E 4.581 5.85C
06 05 04 03 02
1;16E 2.07E 5;14E
02 01 00
4,bOE 1.46E 2.99E 5.18E 1.061 2,lbE 3.356 7.661 1.56.E 4,37E-01 9.14E.02 1,24E-02 7.99E-04 5.79E.05
6,3lE-06 A.221107 3,22R-08
02
b.lPE
03
8.28E 3.49E
01 01
1,3bf 5.8bE
01 00
2,551 9.79E.01 4,64E.O? 2,llE.01 1.13E.01 5.29E.02 2.05E.02 5.75E.03 1.74E.03 6.3bE.04 2.13E.04 4,59E-OS 6.59E.06
00
2.99E 1.09E 3.S2E 1.27E 4.62E 1.42E S.67E 2.14E 9.77E.O? 3.2.2E-03 1.10E-01 2.431-02 5.591-03
03 03 02 02 01 01 06 00
8.64E
02
1.64E 2,758 6.468 l.?lE l,lTE-01 5.3lE-03 2;7bE-04 2.27E.05 1;66E-06 5.64E-08
02 01 00 00
M3 01 01 00 00 00
1,59E-04 5.77E.05 4,16E-06
l95 05 05 05 04 03 03 02 02 01 01 00 00
I,b7E .5,72E 3.59E 9.97E 2.30E 5.93E 1.5lE 3,OZE 8,5?E 2.2lE 7,44E 2,OlE 3.9OE 4,32E-01
07 06
06 05 05 04 01 03 02 02 01 01 00
5.621-02 l.O4E-02 1,8lE-03 1,77E-04 l.ZJE-05
n4
1,9lE I.018
03 03
4,4bE l.LIE
02 02
4.34E 1,LIE 5,IOE 1.5OE S.aOE-01 2,13E-01 9,6OE-02 3,69E-02 1,IZE.02 2.281.03 5,17E-04 l.IOE-04 4,05E-05 6,69E-06
01 01 00 00
M2
2.128-02 1,42E-02
Ml
1,IbE
05
5,49E 2.08E 5,57E 9.32E
04 04 63 03
3.64E
02
l.OZE 2.3bE 7.55E 2.27E 8,7OE-01 2.76!2-01
02 01 00 00
6,591.02 9.74E-03 1,6bE-03 3.83E-04
7.06E 2.98E 9,76E 2.13E b.OlE 9iOOE 2.06E 3.73E 9.89E 2.44E 7.94E 2.07E 3.89E-01 4.178-02 5,32E-03 9,72E-04
06 06 05 05 04 03 03 02 01 01 00 00
8,26E-OS
1,67E-04
1,05E-05
1.62E.05
8,4bE-03
*3 00
2.76E
02
1.69E
00
?.47E 6.45E
02 01
2.08E 5.95E 1.92E 6.17E.01
01 00 00
8,57E.01 3.39E.01 l,ZlE-01 4,778.02 l,SaE-02 61321.03
4,15E-03 1,88E-03 9.19E.04 4.49E.04 1.93E.04 9;9OE-O5 4.84E-05 2.701.05 l.ILE-05
M4
2,8LE
1.63E.01 5.731.02 l.IIE-02 7.54E-03 E.SOE.03 6.16E.04 .5.98E-05 1,4lE-05 2.8bE.06 4.93E.07 3.9OE.08
2.67E.03 1.06E.03 5.03E.04 2.03E.04 6.35E.05 l.ZllE-05 2,IlE.06 7.00E.07 1.55E.07
?.69E.O8
2.34E l.lZE 4,26E 1.13E 2.58E 6.8OE 1.79E 3.75E 1.09E 2.931-01 l.OlE-01
115 04 04 03 03 02 01 01 00 00
2.761-02 5.35E-03
5,66E-04 6,62E-05 l.OIE-05 +.42E-06 8.26E.08
l.65C 7.9ZE
06 05
2.6lE 5.67E 1.04E 2,24E 4.84E 8,OoE I.94E 4.27E 1.25E 2,84P-01 4,33E-02 3,33E-03 2,9lE-04 3.64E-05 l,STE-06
05 04 04 03 02 01 01 00 00
?.bbE-07
UEV Ml
07 07 06 05 04 03
4.25E 2.33E 1.04E 3.29E 8.99E 2.741 8.35E 2.07E 6.938 2.17E ll.5lE 2.77E 6,77E-01 l.OZE-01 1,77E-02 4,141.03 V.OOE-04 1.151-04 l.OlE-05
KEV
=5,1300E-01
oa
?.b3E.O3 4.43E-04 7,37E-05 .S.LlE-06
1.94E.05
I,498106 4.291-07 l.LIE-07 4,qOE-01 b,3lE-09
E5
05 04 03 03 02 01 00 0"
1,5bE
HZ
5.32E.06
1.09E 4.02E I.lOE 1.85E 2.5bE 4.261 7,lOE
04
Ml
EB
06 05
l.OIE
3.05E 1.82E 9.34E 3,79E 1,43E 5.98E.01 2.55E.01 9,5AE.O2 4.4aE.02 Z.OIE-02 1.06E.02 b.95E.03 1.9lE.03 5,IOE.OL
3.14E.04 l.lOE-04 4,67E-05 2.09E.05 8.7OE-06 2,45E-06
07
nr
02
HI
b.l5E
M3
2.55E
KE"
3.78E.OI 2.621.01 1.638.01 d,SJE-02 4,2OE-02 Zt24E.02 l.ZOE-02 5.83E.03 3.33E.03 1,84E-03 l.I4E-03
E4 03 03 03 02 01 01
6.38E.02 3,65E-02 P.OPE-02 1,26E-02 7.09E"03 3;46E-03 1,30E-03 5,14E-04 2.3lE.04 9.63E.05 2.7lE-05
05
9,55E-OI 1,14E-01 6.331-03 4,14E-04 b.?5E-05 3,56E-06 1,2lE-07
SHELL
M2
5,17E-06
E5
2 ( 30
KG"
00 00 00
=6.2800E.O1
ES
05 05 04 04 03 02 02 01 00 00
4.14E 2.8bE I.782 9.3lE.01 4,59E-01 2.44E.07 1.3lE.01
3.261
E4 03 03 02 02 01 01 00
36
3,57E-03 I.IOE-04 9,64E-05 l.O3E-05
SHELL
L3
9,14E 4.23E 1.56E 3.93E 8.58E 2.16s
05
3,27E-02
6.65?-06 L2
07 06 06
E5 04 04 03 03 02 02 02 01
8.69E
E3
01
1,25E 7.42E 3.508 1,13E 2,9(E
28
"0
Conversion,
Coefficients
PI
9,69E-06
6.54E-02
23
E2
4.661
05 05 OS 04 04 03 03 02 02 01 01 00
8.128-03 l.l6E-03 2.37E.04 4.821-05
5,llE 2.38E 8.8bE 2.28E 5,OPE 1.32E 3.428 7;07E-01 2,OJE.01 5,46E-02 1.8SE.02 5,lbE-03 l,OlE-03 l.OQE-04 1,32E-05 2.191-06 3,2OE-07 2,23E-08
=5.4650E ES
SHELL
E3 01 01 00 00
EB
E4 02 02 02 02 01 01 00 00
23
E2
El 1,27E-03 7,95E-02 4,3lE-02 1,65E-92 7,16E-03 J.OZE-03 1,27E-03 4.568-04 E,OIE-04 8.55E.05 L;ZSE-05 1,8lE-05
3.88E 2.40E 1.2lE 4.39E 1,33E 4.292 1.34E 3.3lE l.OIE 3;2?E l.lVE 3.54E 7,58E-01 9.241-02 ,;3OE-02 2.631-03 5.33E.04 7,35E-05 (I.llE-06
E3
2 EG
23
1.52E.03 6.911-02
El 6.791-02 L.27E.02 2,32E-02 I,OOE-02 3,90E-03 1,65E-03
04 03 03 03 02 02 01 01 00 00 00
7,84E 5.17E 2,69E 1.23E 0.50E 1;75E 6.59E 2;04E 7.941-01
2 EG
.
El
4.08E-01
3,03E-05 1.22E.05 4,92E-06 1,54E-06
SHELL
Conversion
E4
1,37E-01
15 17 20 25 32 CO 50
9,21E-05
Kl
2.24E-02 i;llE-03 I.O4E-03 2;63E-04 4,7OE-05 6.591-06
EG
100 120 150 200 300 450
23 E3
2
65 80
.
EZ
Internal
Internal
*3
HZ
9,OlE.03 6.09E.03
6.6lE 3.58E
00 00
3.661-03
1.62E
00
l.OZE-OS a.3aG.04 4,16E-04 2.061-04 9.02E.05 4,7OE-05 2.348-05 1,33E-OS 6.68E.06 2,79E.06 O.4OE-07 2;68E-07 l.OZE.07 3;60E-08 8,72E-09
5,47E-01 1.66E.01 5,70E-02 l.PIE-02 5.761-03 2.19E.03 7.8bE.04
3.438-04 1,26E-Ob 3.541105
6.27E.06 l.ZlE-06 3,OEE.07 7,lQSrOl 1.121-08
n4
03
1.83E 8.46E 3.14E 8.12E 1.85E 4.9SE 1.34E 2.9bE.01 8.96E-02 2.541-02 9.191103 2,69E-03 5.66E.04 6.69E.05 8.bOE-06 1.47E.06 P.l')E-07 1,74E-08
2.4aE l.OtE 3.23E 6.766 1.22E 2.63E
02 02 01 01 00 00
n5 05 05 04 03 03 02
5,7bE
01
9.87E 2.491
00 00
5,75E-01 ~,7Af=OI 4.23E-02 6.97E.03 5,9lE-04 5,56E-05 7.22E-06 7,69E-07 3.40E.01
2.64E 9.68E 2.65E 4.5qE 6.46E ?.13E 2,OEE 2,72E 5.68E
07
06 06 05 04 04 03 02 01
l.O(IE 2.8qE 5;57E-01 7.21E.02 4,4&E-03 3.121-04 3,lSE-05
01 00
Z.bZE-06 7.47E-08
Seepage438 for Explanation of Table
450
Atomic
Data
and
Nvclev
Dote
Tabh,Vol.
18,
No.
5, Novembw
1976
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
Internal Conversion, 2 < 30
TABLE. Internal Conversion Coefficients 2 E‘ 15 47 20 25 32 40 5" 65 .5" 100 120 150 200 300 450 650 1000 2000 6000
61
I5 17 20 25 32 40 50 65 60 100 120 150 200 300 ‘50 650 1000 2000
9,COE 6.58E 4.12E
00 00 00
2.15E 1.03E 5,28E-01 2,69E-01 1.2(rE.O1 6.3bE-02 3,IVE-02 l.GZE-02 9,15E-03 3.811-03 I;15E-03 3.79E.04 1.53E.04 6,ISE-05 1,92E-05 4.701-06
00 00
3.71E 2.5oc 1.46E 6.77E 2.8OE 1.24E 5.368 l.PCE 'I.POE-01 3.761-01 1.85E-01 7;83E-02 2.608-02 5;7bE-03 ?,4IE-03 4.47E-04 1.421-04 3.3OE-05 5.961-06
El 7,17E-O'l 5.09E-O? 3;24E.O1 1,73E-PI 8.5IE.02 4.43E.02 2.291-02 ?.04E-02 5.55E.03 2;8IE-03 l.bIE-03 8,17E-0‘ 3.431-04 I.O5E-04 3;45E-05 1.40E.05 S.bLE-06 1.761-06
02 02 02 01 01 01 00 00
El
15 I7 20 25 32 40 50 65 80 100 120 150 200 300 450 650 1000 2000
8,lIE.02 5,lIE.oZ 2,79E.02 l.ZlE-02 4.73E.03 2,02E-03 8,5SE-04 3.11E.0‘ ?.39E.O‘ 5,90E-05 2.931-05 l.ZSE-05 4.261-06 9,74E-07 2.39E.07 7,23E-OI I .99-S-08 3,32E-09
1s I7 PO 25 32 CO 5” 65 10 100 ,20 150 200 300 450 650 loon 2"O"
2.71E 1.84E I.tOE 5.21E 2.21E 9.9PE.01 4.428-01 l.b6E-01 7.608-02 3.25E-02 I.bEE-02 6,90E-03 2*32E-03 S.IVE-04 1,28E-04 4.08E-05 I .PPE-05 3.02E-06
1 .SSE.OS 5,5OE-04 2.‘9E-0‘ l.OSE.04 5,ZZE"03 2.241-05 7.661-06 l.OOE-06 4,696.07 1.551-07 4.95E.08 1;rra-as
SHELL
04 OS 03 OS 02 02 01 01 01 00 00
3.3e.E 2.?6E 1.13E 4.25E 1.32E 4.351 1.38E 3.40E 1.14E 3,‘2E ?.27E 3;82E 8,23E-01 1;01e-or 1.441-02 2.9‘1-03 b.OOE-04 8,33E-05 P.IPE-06 LI
E3 01 01 01 00 00
7.3OE 4.936 2.82E I,ZSE 4.62E l.SZE b.PbE Z.IbE 1.57E-OI 3;llE-01 l,35E-0'1 4.87E.02 1,32E-02 2,22E-03 4,lbE.04 I.ObE-04 Z.ltE-05 4,88E.06 .
24
I.SlE 1.09E b.‘OE 2.68E 9,OSE 3.14E 1,04E 2.72E P.ZOE 2.83E 1.07E 3.27E.01 7,q8E-02 9.03E.03 1,3OE-03 2.62.E.04 5.5lE.05 7.661-06 L2
b.3t.E 2.96E I.lOE 2.8‘E 6.3bE I.651 4.29E O.I)PE-01 2,58E-01 6,90E-02 2,37E-02 6.531-03 1,28E-03 1.38E-04 1.6.3E-OS Z..StE-06 ‘.lOE-07 Z..SbE-0.3
.
L3 E3
5.7‘E 3.03E 1.32E
01 01 01
4.23E l.ZOE 3.83E.01 ?.ZZE-01 3,2OE-02 l.I?E-02 3.57E-03 l.LZE-03 4,65E-04 I.lPE-04 I ,bZE-05 2,59E-06 5,67E-07 1.181-07 1;62E-08
00 00
04 03 03 02 02 01
04 04 03 03 02 02 02 01 00 00 00
6;8IE 1.35E 3;77E-01 9,bIE-02 3.161-02 1.17E.03 I.468103 l,YbE-0‘ I.SZE-05 P.l‘E-06 2.97E-07 Z;CIE-08
00 00
Sb,P!
iOOE-01
1.67E I.OZE I,24E 5.39E 1.70E 5.291 1.53E 3;35E P.?‘E 2.531 8.38E 2.1bE 3;83E-01 3.611-02 3.991103 b.b4E-04 I.lOE-04 I.llE-05
05 05 05 04 04 03 03 02 01 01 00 00
=5.a4c
7.49E 2.OOE 7.796 1.3‘E l.PlE 3.30E 5.70E 7.3IE 1.45E 2.60E 6.47E I.ZlE 1,44E-01 8,05E-03 5,26E-04 5.3IE-05 ‘,57E-06 1,58E-07
07 07 06 06 05 04 03 02 a2 01 00 00
EE
mS.TSOOE-01
?,SlE 4.88E 1.34E 2,ZbE 3.14E
08 07 07 06 05
5.25E 8;77E 1.07E 2;03E 3.42E 0.05E 1,38E 1,47E-01 6.678-03 3,4.5E-0‘ 2,87E-05 P.lOE-06 ').IlE-08
04 03 03 02 01 00 00
3.03E 1.85E 9.33E 4,lLE 1,6lE 6.9IE 3,OOE I.ISE 5,43E-01 2.47E.O? I .SIE-01 b;lSE.OL P.lOE-02 6.651.03 Z,OIE.03 7,29E-04 2,45E.O‘ S.Z‘E.05 7,45E-06
13 02 02 01 01 01 00 00 00
I.ZlE 7.03E 3.42E 1.25E 4.011E 1.4.8E 5.37E I.651 6.58E 2.48E 1.13E 4,42E-03 1,3bE-01 P.(IlE-02 b,‘LE-03 I .l)dE-03 5;09E-04 8.436-05 9,33E-06
01 01 01 00 00
2.361 1.24E 5.46E 1.79E 5.28E I.79E 6,15E 1.8OE 6.93E-01 2;54E-01 I.IkE-01 4.37E-02 1.32E-02 Z.b8E-03 6.061-04 1.761-O‘ 4.731-05 7,7.3E-06
00 00 00
3,40E l..SIE 7.99E 2.591 7.42E 2.39E 7.7‘E.m01 2,05E-01 7.22E.02 2.36E.02 9*54E-03 3.17E.03 7.fl3E.04 1.15E.04 I..SlE-05 3.67E.06 6,35E-07 5,02E-0.3
*4 04 03 03 03 02 02 01 01 00 00 00
4.498 2.51E 1.14E 3.662 I.OZE 3.13E 9,5bE 2,38E 7.92.E 2.50E 9.8YE 3;lPE t.OOE-01 I.I8E-03 2.04E-02 4.7bE-03 I.OJE-03 l,IZE-04 '1,15E-05
03 03 02 02 01 01 00 00
1.42E b.70E 2.54E 6.77E 1.59E 4.38E 1.23E 2.82E 9.0IE 2.7IE 1.03E 3.27E-01 7;77E-02 I.I4E-02 1.9‘E-03 ‘.49E-04 P,bbE-05 I.ZEE-OS
02 02 01 01 00 00
2,LbE 1.37E 5.22E 1.39E 3,19E ll.4‘E 2.23E 4.691 1.37E 3.68E-OI I.ZTE-O? 3,‘9E-02 6.78E.03 T.ZOE-04 8,46E-OS 1.35E.05 1,63E-06 I.OTE-07
05 05 05 0‘ 04 03 02 02 01 01 00 00
1.65E B.89E 3.77E I.O.eE 2.54E 6.641 1.7lE 3.44E 9.71E 2.53E 8.53E 2.31E 4.48E 4.961-01 6.468-02 I.ZOE-02 2.08E.03 2.03E.0‘ l.‘OE-05
07 06 06 06 05 04 04 03 02 02 01 01 00
05 04 0‘ 03 03 02 02 01 00 00 00
8.55E 3.61E 1.18E Z.S?E LedYE l.OI)E 2.47E 4,LbE 1.18E 2.9OE 9.4lE 2.451 4;SGE.01 ‘*POE-02 b.ZZE-03 1.141-03 I.PSE"04 t,89E-05
04 04 03 03 02 01 01 00 00
2.23E 9.57E 3.17E 6.93E I,ZOE 2.77E 5.99E 9.9bE 2,42E 5.35E 1.57E 3.58E-Oq 5,‘8E-02 ‘,23E-03 3,7IE-04 4,bbE-05 ‘,97E-06 2.141-07
KEV WI
w2
4.5'JE-01 3,17E-01 1.97E.01 I ,OSE.Ol S.ObE.02 2,69E-02 l,“E-02 b.PTE-03 I.PTE-03 2.19E.03 1,3bE-03 7.b‘E.w04 3;7lE-04 1.391-04 5.468-05 2.451.05 I.OIE-05 Z.aZE-06
3.77E 2.24E I.lSE 4.64E 1,73E 7.258-01 3.081.07 I ,ISE-01 5,361.02 2.40E.02 I.ZbE.02 5.878-03
)OE-01
Ml
2;25E-03 6.23E.04 I.ll7E.O‘ 6,7bE-OS 2.2bE.05 4,82E-06
"4
*5 06 06 06 05 04 04 03 02 02 01 00 00
KE" M2
2.658-02 1,78E-02 I,ObE-02 5,2IE.03 2,37E-03 1,IbE.03 5,67E-04 2,441*04 I.ZbE-04 6,1‘E-05 3.‘3E-05 I.bVE-05 6.79E.06 I.PIE-06 5.5OE.07 ,.83E-07 5,2bE-08 8,09E-09
3.54E 2,111 1,07E ‘,ZCE.Ol 1.52E.01 b.OOE-02 2.37E..02 7.991.03 3.38Er03 1.351-03 6.391-0‘ 2,58E-04 8.IOE.05 I.648105 3.47E"06 9.00E.07 P.OOE.07 2.17E.08
n3
M4
"5 06 05 05 04 0‘ 03 02 01 01 00 00
KEV "I
ES 06 05 05 04 03 03 02 01 00 00
M2 00 00 00 00
M,
E5
SHELL
KE”
Z.bbE-04 1, IOE-04 3.06E.05 5,01E-06
EB
05 05 05 04 03 02 02 01 00 00
1.3bE 5.64E 1.79E 3.691 6,bOE I.SIE 2;69E ‘.lbE 9.958 1.97E 5.461101 l.lSE.OI 1,56E-02 l.OIE-03 7,3OE-05 7.968-06 7.84E-07 4.04E-011
4.938 3.412 2.12E l.IIE 5.441.01 2,88E-01 1.54E.01 7,5OE-02 4,27E-02 2,3bE-02 I.L7E-02 8;2bE-03 4.018.03 1.5lE.03 5.93E.O‘
E5
E4
I.IlE 5.2‘E 1.93E 4;88E 1.07E 2.698
07 06 06 06 05 04 04 03 03 02 02 01 00
es
SHELL
7.7lE 3.22E 1,03E 2.17E 3.87E 8.15E 1.72E 2.8OE 6.72E 1.47E 4,28E-01 9.681-02 I,‘GE-02 l.l‘E-03 I.OIE-0‘ 1.3IE-05 1,‘5E-06 7,02E-08
00 Pi ,
l.OIE 6.29E 3,lIE 1.05E 2.8IE 7.9118 2,IbE 4.4‘E 1.25E 3.14E 1.02E 2.57E 4,‘PE 4,08E-01 4.431-02 7,28E-03 I.ZOE-03 1.281-0‘ l.lZE-05
E4 03 03 03 02 01 01 00
24
E2
05 05 05 04 04 03 03 02 02 01 01 00
E4 02 02 02 02 01 01 00 00
=5.9.89”F ES
SMELL
El 01 01 00 00
E8
F4
24
E2 3.17E 1.69E 7.42E 2,‘tE 6.94E.Oj 2.261.01 7,37E-02 l.PPE-02 7.081-03 2.361-03 P,bbE-04 3,29E-04 8,38E-OS 1,5OE-05 2.22E-06 4.938-07 9,78E-08 l.O3E-011
El l.SlE-07 9.49E-02 5.IbE..02 2;22E-02 8).bbE-03 3,67E-03
i
E2
2 EG
KI
1.14E 7.47E 4.13E 1.73E 6.20E 2.3bE 8,711E 2.67E 1.03E 3.67E 1.57E 5;blE-01 l.SOE-01 2;47E-02 4.598-03 1,17E-03 2.961-04 5..321-03 7.456-06
2 EG
24 El
2 t6
.
E2
HZ
I.IlE.02 7.518-03 4.52E.03 2.25E.03 l.O‘E-03 5.151.04
8).7bE 4.74E 2,I‘E 7.2OE.Ot Z.IBE-01 7.47E.02
2,55E-04 I.ILE-0‘ 5,85E-05 2.92E.05 ,.bbE-05 6.3‘E.06 3,48E-06 I.OSE-06 3,35E-07 l.ZPE-07 4.49E-08 1,09E-08
2.5tlE.02 7.50E.03 2.05E.03 I;OZE-03 4,43E-04 I.626.0‘ 4.55E.05 1,0IE-06 1.54E.06 3,83E-07 .5,93E-08 l.‘OE-08
M3 00 00 00
ns
M4
2,‘G.E <.I‘E 4.23E I;OPE 2.48E 6.581 1;77E 3.87E.01 l.IllE-01 3.338-02 l.ZOE-02 3,50E-03 7,3bE-04 (1,65E-05 l.I?E-05 l.LWE-06 2.7bE-07 2,19E-0.5
03 03 02 02 01 00 00
3.35E 1,38E 4.35E P.ObE I,bSE 3.49E 7;63E 1.30E 3,27E 7.54E.01 2,3IE-01 5.53E-02 9,OIE-03 7,68E-0‘ 7,19E-05 9.321.06 9.88E.07 4,32E-08
05 05 04 03 03 02 01 01 00
3.54E I.30E 3,SSE b.OOE 8.58E I.SOE 2;bTE 3.59E 7.4bE l.‘IE 3*b(IE 7.27E-01 9.39E-02 5.776.03 4.041-0‘ ‘.IPE-05 3,37E-06 9.548-08
07 07 06 05 04 04 03 02 01 01 00
Seepage 438 for Explanation of Table
451
Atomic
Dab
and
Nuclear
Data
T&.,sr,
Vol.
18,
No.
5, Novmbr
1976
BAND,
Internal Conversion, Z < 30
and LISTENGARTEN
TRZHASKOVSKAYA,
TABLE. Internal Conversion Coefficients 2 c 6 15 17 20 25 32 40 5c 65 80 100 120 (50
200 300 450 650
1000 2000 6000
Fl t.OlE 7,076 4.44E 2.32E 1.12E 5.751-01 2,93E-01 t.32E-01 6,9SE-02 3,52E-02 2.0lE.02 1,OlE.02 4.23Ec03 1.298-03 4,23E-04 1.7lE-04 6.90E-05 2.158-05 5,25E-06
15 17 20 25 32 LO 50 65 80 100 120 150 200 300 450
650
E3
15 17 20 25 32 40
50 65 *0
too (20 150 200 300 450 650 1000 2000
OS
2.54E 1.50E 7.06E 2.96E 1.3tE 5.748 2.13E 9,64E-Ot 4*09E-cl1 2,02E-01
02 02 01 01 01 00 00
7.12E 4,041 1.73E 6.34E 2.451 9.2OE 2.a3E l.lOE 3.94E I.708 6.0aE-01 l.b4E-01 2.721-02
03 03 03 02 02 01 01 01 00 00
t.93E l.OSE 4.09E 1.319 4.39F 1.42E
05 05 04 04 03 03
8.56E-02 P.a6E-02 6.37E-03 1.56E-03 4.991-04 1,59E-04 3,7lE-05
6,67E-06
l;ItE-01 a.29E.02 3.56E-02 1,7SE-02 7,63E-03 2,5aE-03 5.8OE.04 1.44E.04
01 01 01 00 ;;
15 17 20 25 32 40 50 65 I)@
too 120 150 200 300
450 650 1000 2000
El 1.77E.Ot t.lZE-PI b.lOE-02 2i64E.02 t;03E-02 4,392~03 l,aJbE-03 6.741-04 3.02E-04 t;2aE-04 6.361105 2,73E-05 9.3111-06 2.211-06 5,7SE-07 1,9tE-07 6,lOE-Oa t,37E-08
Ll
6.7OE 4,64E 2.74E 1.23E 4.7IE l.aPE 7.3tE 2;32E 9,19E-01 3.36E"01 1,47E-01 5.33E.02 1;466.02
1.47E-05 3.448-06
:.;$ . 2.7aE.Ot 9,tOE.02 2,4bE-02 (l.'lbE-03 2;93E-03 t,20E-03 4.1OE-04 l.OSE-04 t,63E-05 2,79E-06 6.211-07 t,23E-07 t .3lE-08
- ;;
01
4.77E 4,43E-01 4,861.02 8,0bE-03 1,34E-03 1.45E.04 1,27E-05
00
3;OZE.04 6.251.05 8,75E-06
25
L2
l
ES
7,6900E-01
SHELL
Ml 04
5,50E-01
4,63E
01
1,15E 9.448 4.62E 1.56E 5,OSE 1.52E 3.40E t,OlE 2.65E
05 04 04 04 03 03 02 02 01
3,8lE-01 2.36E.01 1.23E.01 b.OSF-02 3.20E.02 l.TlE-02 a.Z(rE-03 4.70E.03 2.58E-03 1;6OE.O3 a.9aE.04 4;35E-04 1.621.04 6.35E-05
2.75E 1.4OE 5.64E 2,lOE 8.721.01 3.691-01 1.37E.01 6,36E.02 2.a4E.02 1;498-02 6.921.03 2;65E-03
01 01 00 00
2;83E.05
7;W.05
1.17E.05 3,23E-06
2.621.05 5.55E.06
6;8bE
00
2.3lE 4;14f.01 3,96E-02 4.43E.03 7;45E.04 1,25E-04 1,35E-05
00
=b,IZOOE-O?
EB
E4
ES
7.2aE.04 2.IIE.04
w2
05 05 05
9.05E 3.391 V.LTE
07 07 06
3.201-02 2,2lE-02 1,32E-02
4.37E 2.60E 1,33E
3.5lE 7.a4E 2.04E
02 01 01 00 00
2.67E 4.74E l.OlE 2,13E 3.48E S.36E l;a3E 5,35E-01 t.ZlE-01 t.85E.02 t .44E-03 t.OaE-04 t.65E-05 t ;84E-06 a.93E.Oa
04 03 03 02 01 00 00
2.321 1.64E 4,05E 7.02E 9;03E t.8OE 3;23E 8,06E t.50E t,.SOE-01 t.OlE-02
06 05 04 03 02 02 PI 00 00
6.47E.03 2,95E-03 1.44E.03 7.071-04 3.06E.04 1.571.04 7,71E-05 4.3tE-05 Z.lZE-05 8,56E-06 2,4lE-06 6.9bE-07 2,32E-07 6.6?8-Oa 1,02E-01
5,26E-01 1.a8E.01 7.47E.02 2.96E.02 9.9S.E.03 4,23E-03 1,69E-03 8.02E.04 3.24E.04 l.OZE-04 2.071-05 4,40E-06 1,14E-06 2,54E.07 2,77E-08
=25
I.3
3.0bE-08
6,7tE-05
5 ,(IOE-06 2,OlE.07
SHELL
E3 1,3aE 6,42E 2.361 5.991 1;3tE 3.32E 8.39E 1.67E 4.67E-01 l,t9E-01 3.92E.02 t.OlE-02 1.81E-03 I.691104 1.77c.05 2.66E-06 3.701-07
6,6bE-04
EE
E4 04 03 03 02 02 01 00 00
1.66E
6.87E 2.18.5 4.5tE 7.a4E l.btE 3.30E 5;13E l.tI)E 2.448 6.7bE.01 t.42E-Ot t .94E-02 1.251-03 9,09E-05 9.92E-06 9.77E-07 5,02E-Oa
x6.41
OOE-01
E5
06 05 05 04 03 03 02 01 01 00
06 07 07 06
3;82E
05
6.4tE 1.07E t.3tE 2.5OE 4.228 9;93E t.7lE I;atE-01 a,2aE-03 4.33E-04 3,57E-05 2,62E-06 a.85E.01
04 04 03 02 01 00 00
See page438 for Explanation of Table
452
4.70E
PI5 05
2.68E
05
1.24E 4.09E 1,lSE 3.55E 1.09E 2.72E 9.14E 2,abE 1.12E 3,66E a,94E-0, 1,35E-01 2,34E-02 5.45E.03 t.laE-03 1,5OE-04 1,3OE-05
05 04 04 03 03 02 01 01 01 00
l.bOE 8.96E 3.93E l.t6E 2.79E 7.39E t.92E 3.89E l.lOE 2.a8E 9.722 2.631 5,ltE 5,66E-01 7,3aE-02
07 06 06 06 05 04 04 03 03 02 01 01 00
?.37E-02 2.37E.03 2.321-04 1.59E-05
2.89E 1.52E 6.66E 2.17E 6.37E 2.15E 7.36E 2.14E a.23E.Ot 3.01E.01 1;35E.01 5.158-02 1.5SE.02 3,12E-03 7.061-04 2;04E-04 5,49E-05 a.PIE-06
II4 03 03 02 02 01 01 00 00
t,?JE 8.14E 3.06E 8.17E 1.92E 5,26E 1.47E 3.36E 1.07E 3.2OE 1;22E 3.04E-Ot P.llE-02 1.33E.02 2.268-03 5;2tE-04 1.12E.04 l.LlE-05
N5 05 04 04 03 03 02 02 01 01 00 00
t.03E 4.35E 1.42E 3.09E 5.798 1.29E 2.94E 5,ZPE t.40E 3.42E 1;ltE 2.8aE 5.37E.01
07 06 06 05 04 04 03 02 02 01 01 00
5.7tE.02 7.248.03 t;IEE.OJ 2,26E-04 2,18E-05
w4
N3 00 00 00
4.16E 2.22E PialE 3.19E 9.llE 2.96E 9,59E-01 2.55E-01 P.OOE-02 2,95E-02 l.tPE-02 3.9aE-03 9;aLE-04 t.44Ec04 2,28E-05
02 02 01 01 00 00
4.658-06 a.O7E-07 6*4OE-08
3.461 t.66E 6.3SE I.POE 3.89E l.OLE 2.75E 5,aOE 1.7OE 4,5aE-Ot t,58E-01 4.36E.02 8,5OE-03 9,07E-04 l,OTE-04 1.7IE.05 2.33E.06 1,36t-07
115 04 04 03 03 02 02 01 00 00
2.67E 1.15E 3.82E S.39E 1.54E 3.3aE 7.35E 1.23E 2.99E 6.b3E l.PbE 4,468..01 6.651-02 5.318-03
06 06 05 04 04 03 02 02 01 00 00
4,67E-04 5,90E-05 6.3tE.06 2.738-07
KEV nr
1.5aE 5.aaE t,62E 2.74E
I44 04 03 03 03 02 02 01 91 00 00 00
YE" Ml
9.4lE 3,931 1.27E
8.6tE.02 2,97E-02 S.laE-03 1.60E-03 1.74E.04 t.lZE-05 3,55E-06 5,20E-07 3,62E-OS
1.36E 7.95E 3.90E 1.44E 4.7OE t.7lE 6.2lE t.9tE 7.60E 2,abE 1.31E 5.lOE-Ot 1,57E-01 3,22E-02 7,3aE-03 2.15E-03 5.821-04 P.bOE-05 l,OSE-05
H3
HZ
9,OaE
03 03 03
1,tOE 3.2lE.01
113 02 02 02 01 01 00 00 00
KEV
t5
01 00 00 00
3.5aE 2.?9E 1.16E L,II(IE 1,@9E a,lOE 3.522 1.34E 6,33E-01 2,87E-01 1.52E.01 7,12E.02 2,75E.O2 7.658-03 2.30E..03 8,35E-04 Z.aOE-06 5,95E-05 a,3aE-06
7,aOE 3,651 1.36E
5.3ZE
Ot Ot 01 00 00
00 00
2.738
2,46E-03 ‘.66E.O4
E2 7.00E 3;70E t.62E 5.tSE t;4?E 4,69E-0, l.SOE-01 3.93P-02 t.37E-02 4,41E-03 t,76E-03 5.75E-04 t,39E-04 Z.OOE-05 3.221-06 7,03E-07 1.468-07 Z.OOE-00
00
2.505 I.318 6,4OE-01 3,39E-01 l.(llE-01 6,7bE-02 4,9aE-02 2,75E-02 1.70E-02 9.571-03 4.641.03 1.739-03 b,79E-04 3.041-04 1.25E.04 3*48E-05 6,50E-06
00
E3 01 01 00
4.04E
4,lOF.
1.20E.04 3.OaE.05 5.57E-06
*
06
02
04 03 03 03 02 02 02
"2 00
06 05 05 04 0‘ 03 03 02 02
02 PI 01
9.15E 9.04E 5.65E 2.50E a.l)OE 3.t4E 1.06E 2.83E 9.6aE 3.0,E 1;15i 3.54E-01 7;84C-02 9.97E-03 t.45E.03
E2 3.89E 2.07E 9,ltE
02 02 02 02 01 0'1 00 00
5.2.4E
3,bOE
SHELL
KE"
5.2bE
E4
.---
‘
EG
25
06
1.2OE 3.62E 1.36E
El
4,blE-05
El
5.278-06
.
E2
00 tit 1
a,O4E 2.73E 9,baE 2.70E 7,a5E 2,17E 4.548 1.29E 3.298 1.07E
O,PtE-Ot l.llE.01 t,59E-02 3,27E-03 6,72E-04 9.391-05 l.O3E-05
5,09E-03 1.30E-03 3.32E-04 5.991-05 a,36E-06
=6,5390E ES
2.91E
1;15E-@2 6.t6E.03 3.138-03 l.aOE-03 9.14E.04 3.15F.04 I,lSE-04 3.90E.05 I .SaE-05
l.ZlE.06 2.9SE.07 9.03E.Oa 2,50E-08 4.161-09
E4 04
2.74E 1.88E 1.13E S.45E :.N; , 4.74E-01
9.5bE.02 6,04E-02 3,3lE-02 t.441-02 5;69E-03 2.43E.03 1;03E.O3 3,7aE-04 1.70E.04 7;22E.05 3,60E-05 1,54E-05
ES
1,ObE
2 ES
SHELL
02
7,7tE-01 5,49E-01 3,5lE-01 1.88E.01 9.29E.02 4,SbE.02 2.52E-02
t.PPE-06
Ul
3.72E
El
6.30E.06
1000 2000
25
FZ 01 00 00 00 00
2 ES
=
1,35E-02 9.t5E.03 5.51E.03 2.75E.03 1;27E-03 6.3OE.04 3.13E.04 1.3aE-04 7,19E-05 3.59E-05 2;04E-05 I.03E.05 4,29E-06 t,30E-06 4.141-07 1.57E.07 5.54E.08
1*34E-08
M2 l.tIE 6.I9E 2.79E 9.3aE.Ot Z.a3E-Ot 9,6aE.O2 3,34E-02 9.66E.03 3.661103 1,30E-03 5.66E.04 2.071-04 5.77E-05 t;OlE"OS t.931106 4.79E.07 l.ttE-07 t.73S.08
)I3 Ot 00 00
3.32E 1.53E 5.64E t.45E 3.27E 8.66E 2.336 5.05E.Ot t,53E-01 4.32E-02 t;55E-02 4.521-03 9,45E-04 t.tlE-04 t.4lE-05 2,39E-06 3,47E-07 2,72E-Oa
n5
w4 03 03 02 02 01 00 00
4.5OE l.aLE 5,aOE l.ZOE 2;t5E ‘.60E 1,OOE 1.7OE 4.26E 9.79E-01 2;99E-Ot T.tIE-02 t.t7E-02 9.851.04 9.2tE-05 I.IPE-05 t.PSE-06 5,4tE-011
05 05 04 04 03 02 02 01 00
4.72E t,73E 4,69E
07 07 06
7.94E
05
t.13E 1.97E 3.5OE 4.6SE 9.71E I,a3E
05 04 03 02 Ot 01
4,TbE
00
9.396-01 t.2lE-Ot 7;4tE-03 5.tTE-04 5.26E-05
4,29E-06 l.etE-07
BAND, TRZHASKOVSKAYA,
TABLE. 2 EG
hl
15 17 20 25 32 ‘0 50
1.08E 7.56E 4.76E 2.50E 1.21E 6.241-01 3.791.01 1 .“E.Ol 7.6&E-02 3.abE-02 2.2OE.02 ?;llE-02 ‘.67E-03 ‘1,‘2E-03 ‘.7?E-0‘ l.PlE-0‘ 7,70E-OS L.‘OE-05 5,83E-06
65 10 100 120 150 200 300 450 650 1000 2000 6000
El
15 17 20 25 32 ‘0 50 65 80 100 120 150
O,BCE.ol 5,89E-01 3.78E.01 2,03E-01 l,OlE-01 5,30E-02 2.768.02 1,27E-02 b,79E-03 3.461-03 2.00E-03 1 .OtE-03 4;301.04 1,32E-0‘ 1,39E-05 1,79E-05 7.216-06 2.25E.06
200 300 ‘SO 650 1000 2000
01 00 00 00 00
3.7CE 2;55E Y.53E 7.3lE IslOE 1.39E 6.llE 2.29E
02 02 02 01 01 01 00 00
15 17 20 25 32 ‘0 50
65 80 100 120 150 200 300 050
650 1000 2000
E? l.lZE-01 7,OPE.02 3,9dE..02 1,7lE-02
6,76E-03 2,90E-03 (.2&E-03 ‘,55E-0‘ 2,06E-0‘ .5.76E-05 ‘.JCIE-05 1 ,WE-05 6,‘56.06 l,b9E-06
3,68E-07 ? .lZE-07 J.lOE.OI 5,16E-09
?.ObE
00
4.43E-01 ?.2OE-01 9.35E-02 3,13E-02 7.OlE-03 1 .73E-03 S.SSE-04 1.77E.04 b.lSE-05 7,‘4E-06
15 17 20 25 32 ‘0 50 65 GO 100 ?20 150 200 300 450 656 1000 2000
ET 2,07E-ol 1.3'1E.01 7;16E.02 3.llE.02 l.ZtE-02 5,22E-03 2,22E-03 G.OGE-06
3,63E-04 7.5‘8..04 7;68E-05 3.3lE.05 l;YbE-05 2.70E-06 7.06E-07 2;3‘E-07 7.L6E-08 1.671-08
See page 438 for E xplanatior
26
01 01 01
LV
5.6bE 2.461
00 00
1.13E S.OPE-01 ? .9SE-01 .5,99E-02 S.EPE-02 1 .PSE-02 .5,6OE-03
00
6,OlE 4.30E 2.6lE l.ZlE 4.75E l.P‘E 7.6lE 2.45E 9,78E-01 3.60E-01 I, SEE-01 5,79E-02
=
L2
03 03
1.66E
03
‘,29E 9.638 2,SOE 6.5‘E 1.36E 3.97E-01 l.O6E-01 3,67E-02 1 .OPE.OZ 1,99E-03 2,17E-0‘ 2,65E-05 b.LSE-06 6. SbE-07 4.5bE-08
02 01 01 PO 00
26
01 01 01 00 00
05 05 0‘ 04 0‘ 03 03 02 02 01 01 00
6.12E 4.27E 2.35E 8.8OE 2.56E 7.65E 2,16E 0,blE 1,32E 3,‘lE 1.12E 2.84E S,OPE ‘,78E-O?
06 06 06 05 05 0‘ 0‘ 03 03 02 02 01 00
EG
0‘ ;;
03 03 03 03 02 02 02 01 01 00 00
=8,4bOOE-01
4,3SE
04
7:29E 1.6OE ‘.O‘E 1.02E 2:0&E 5.7lE-01 1.44E-01 4,.5lE-02 1.25E-02 2;23E-03 2,09E-04 2,19E-05 3.2.5E-06 L.S6E-07 3.768-0.5
02 02 01 01 00
'.,21E 2.57E ?.36E 5.721 2.2lE 9.4bE ‘.OPE 1.5bE 7.33E.01 3.32E-01 1.76E.01 Il,ZOE-02 3.16E.02 (l,l?E.03
02 02 02 01 01 00 00 00
2, b3E-03 9.53E.06 3,lBE.0‘ 6.7‘1.05 9.39E.06
Mb
l.SOE .¶.87E 4.396 9.63E 5.31E 1.96E 7.1&E 2,ZOE 8,T‘E 3.29t l.SOE S.dSE-01 1 .tlOE.Ol 3,69E-02 8,‘2E-03 I.LSE-03
0‘ 03 03 03 02 02 0, 01 00 00 00
4.791 2,I)lE 1.33E 0.491 1.28E 3.99E 1.23E 3.09E ?,ObE 3.21E 1.21E b.17E l.OPE 1 .SIE-01
tls 05 05 05 0‘ 0‘ 03 03 02 02 01 01 00 00
L,bbE-02 6,20E-03
6.63E.04
07 06 06 06 05 0‘ 04 03 03 02 02 01 00
l,SbE-02
1.35Er03 1,7lE-0‘ l.‘7E-05
1 .OPE-0‘ 1.18E.05
1,SOE 8.79E ‘.OlE 1.23E 3.03E 1.15E 2.14E 4.37E 1.2&E 3.26E 1.1oe 2.998 5.8lE 6.4‘8-01 0,39E-02 2.701-03 2,63E-0‘ 1.8OE.05
KEV H3
M2
m5
M‘
6.35E
04
6,5?E-03 ‘.54E-01
5.65E 3.3&E
01 01
3.521 l..SSE
03 03
2.09E 9.8lE
05 01
q.23E 5.20E
07 06
04 04 0‘ 03
2.OZE.01 '1,‘7E-OI 7.19E.02 3.G.OE-02
1,IOE b,,G(E 2.SLE l.OCE
01 00
G.ObE 2.61E
02 02
03 02 02 01 00 00
2.026-02 9,75E-03 5.53E.03 3.03E.03 1,07E-03 1 .OSE-03 S.OTE-04 l.ME-0‘ 7.348-05 3.261-05 1.311-05 3,68E-06
4.39E.01
01 01 00
1.7OE 3.688 6.89E 1.5‘E
1.48E J.‘EE 1,03E 2.7bE 9.30E 2,458 k,‘SE-O? b.328102 L,90E-03 8,32E-0‘ 1 .‘lE-0‘ 1.54E.05
7,651 2,SbE 8.768
04 03 03 02
06
00
3.7OE 9.8OE 2.29E 6.261
2.5&E 9.72E.01 3.5‘8-01 l.S8E-01
00
1.7‘E 3.97E l.LbE 3.7bE 1.431 ‘,‘PE-01 l.O6E-01 l.SSE-02 2.62E.03
02 01 01 00 00
3.40E 6.2SE 1.6‘E ‘.OlE 1.3OE 3.36E 6.251-01 6.62E-02 8,38E-03 l.S3E-03
03 02 02 01 01 00
=7,2300E-01
00
1,62E-01 7,52E-02 3.35E.02 1,76E-02 8.llE.03 3.091-03 8,47E-0‘ 2.52E.0‘ 9.08E.05 3,02E-05 6.361.06
nr 4.03E.02 2.7qE-02 1.62E-02 7.97E.03
5,3SE 3.19E 1.63E 6.66E.0,
2.84E 4.92E 8.5bE 1,llE 2.2lE 3.9IE
05 0‘ 03 03 02 01
3.63E-03 7 ,TdE.Ol 8,76E-0‘ 3.79E.06 1.95E.06 9,59E-05
9,948 1,tlbE Z.Z‘E-01 1,26E-02 0,33E-0‘ 0.42E.05
00 00
5.378.05 2,bSE-05 l.O'IE-05 3.02E.06 73E.07 L.PlE-07 4.391-01 1 .Z(IE-0.5
2.32E.01 P,IlE-02 3.bSE.02 1,2‘E-02 5.2SE.03 2.10E.03 9.91E.0‘ ‘,OIE-04 (.27E-0‘ 2,SPE.05 5.52E.06 l.‘SE-06 5.20E.07 3,‘9E-01
a.
=7.1000E.01 ES
b.O3E-0‘
Z,blE-04
(,ZPE-OL T.bZE-05
l.O3E-05
Z.SlE-OS
H3 00 00 00
H‘
n5
5.04E 2,69E 7.19E 3.88E
02 02 02 01
1.13E 1.99E 7.6‘E 2,OSE
04 0‘ 03 03
1.12E 3,63E l.lI)E 3.lSE-01 l.llE-01 3,65E-02 t.42.E.02 ‘.94E-03 l.ZJE-03 1,8lE-0‘ 2.86E.05 5.85E-06 l.OEE-06 8,09E-08
01 00 00
L.75E T.ZbE 3.36E 7,+2E 2.09E 5.65E.01 1.9bE.01 S.‘OE-02
02 02 01 00 00
3.15E 1.36E
06 06
4.56E
05
l.OOE
05 06 03 02 02 01 00 00
1.06~-02 l.l3E-03 1.34E..04 Z.lSE-05
l.a7E L.09E 6.93E l.SOE 3.661 a.l‘E 2.4lE S.SOE-01 8.491-02 6,blE.03 5.8bE-04 7,39E-05
2.93E.06
7.93E-06
1.72Em07
l.lbE-07
UEV Ml
n2
l.E(IE 6.991 1.93E 3.29E ‘,59E 7.73E I.301
08 07 07 06 05 0‘ 0‘
T .63E-02 l.llE-02 6,67E-03 3.33E-03 1,56E-03 7,65E-04 3.8lE.04
t.UE I.OOE 3,bOE 1.2lE 3,64E-01 1.2‘E.01 ‘.27E-02
1.59E 3,0&E 5.1bE 1.21E
03 02 01 01
1.b.S.E.Ob ll.l'lE-05 4,3L)E-05 Z.CPE-05
1.651-03 7,17E.O‘
2.OPE 2.22%-Oq
00
1.26E.OS 5.251-06 ,,59E-06 5,07E-O? 1 .PPE.OI 6,7GE-Oa 1,6‘E-OR
2.6lE.O‘ ?.26E-05 1.278-05 2.4lE.06 5.93E.07 1,37E-07 2,?2E-0.3
l.OIE-02 5,33E-OL 4.4lE.05 3,24E-06 l,OPE-07
2.3bE-06 6,33E-OS
*2
08 07 07 06
EG
b.OIE-02 1,8lE-02 3.63E-03 8.1.5E-0‘
OS 0‘ 0‘
KEV
l,OEE 1.06E ?.1‘E q.97E
7.29E.06 2,5&E-07
06 05 OS 04 03 03 02 01 01 00
M3
HZ 00 00 00 00
Ml
ES Ob 05 05 0‘ 03 03 02 01 01 00
KE"
6.66E 3,82E l.‘lE ‘,8lE
EB
SHELL
1.99s 8.25E 2.63E S.‘CE 9.49E 1.95E 4.02E 6.26E 1.44E 2.98E 8,28E-01 1 .?‘E-01 2.3116-02 1 .S‘E-03 1 .lZE-04 1,231-05 1,21E-06 6,18E-08
6.89E 1.762 2.95E 1.53E 7.50E.01 3.968-O? Z.l?E-O? 1 .OZE-01 5.79E-02 3,18E-02 1.97E.02 l,lOE-02 5,33E-03 1,99E-03 7.7SE.04 3.45E.O‘ l.‘ZE-0‘ 3.9lE.OS T.Z‘E-06
ES
E‘
1.66E ;,;;E
00 Ml
5,30E-02 8,bPE.03 1,‘9E-03 1.638-0‘ 1 .GPE-OS
SHELL
1,l‘E 4.76E 1.53E 3.24E 5.81E 1.23E 2.62E 6.22.E 1.03E 2.26E 6,blE-01 1 .SOE-01 2.30E.02 1.79E-03 1.601-0‘ 2,07E-05 2.326-06 (.13E-07 LJ
EJ
E2
-7.1140E ES
E4
9,SOE b.‘SE
=
EB
SHELL
6.21E 7.13E 4.8&E 2.29E 8.45E 3,llE 1.08E 2.92E l.OlE 3.18E 1.22E 3,80E-01 I.SOE-02 1.09E.02 1 .6lE-03 3,38E-04 7.06E.05 9.95%-06
E3 01 01 O* 00 00
2.03E.OS 3;‘7E-06 7.768-07 1 .S‘E-07 ?,63E-08
6.47E 4.48E 1.96E 6.26E 1.78E 5.70E"01 1.83E"O? L,8OE-02 1.67E.02 5.391-03 2.,SE-03 7,05E-06 1.7lE-0‘ Z.‘bE-05 3.961-06 8.65E.07 1 ,IOE-07 2,65E-0.9
02 02 02 02 01 01 00 00
26
EZ 4.72E 2.51E 1,llE 3.6qE 1.0&E 3.‘lE-01 l.lZE-01 I,OPE-02 l.OIE-02 3.6lE.03 1.49E.03 5.07E.04 ?;30E.OL
Conversion Coefficients
E‘
1 .bOE-02 2.72E-03 5,20E-Ob 1,35E-Ob 3,&9E-05 6.33E..06
2,85E-03 6*‘6E-04 1,6lE-04 5,19E-05 1,66E-05 3,90E-04
SHELL
2.42E 1;bBE 9.54E 3,8aE 1.2SE ‘.‘OE l.‘SE 3.72E 1.25E 3,I)lE l.44E 4.3e.E 9.511E.01 l.tOE-01 1.7‘E-02 3,6?E-03 T.SOE-0‘ 1 .OSE-04 l.l6E-05
El
E2 2.75E 1.9lE ?.16E
03 03 03 03 02 02 0, 01 01 00 00
9,35E-06
=
Internal E‘
6.72E-05
2 EG
Kl
9.65E 6;60E 3.89E 1.7lE 6.42E 2,52E 9.57E 2.9aE 1.16E 4.20E l.a2E 6,55E-03 1.78E..07 2,98E-02 5.616-03 l.k‘E-03 3.716-0‘
2 Et
26 E3
2 EG
s
22
Internal Conversion, Z < 30
and LISTENGARTEN
H3 01 00 00 00
1,23E-02
‘.‘OE 2.02E 7,432 1.9OE 4.2t.E 1.13E 3.02E
4‘ 03 03 02 02 01 01 00
6.53E-01 l.PTE-01 5.551-02 l.PPE-02 5.771-03 ? .20E-03 1 .‘OE-0‘ 1,78E-OS 3.00E-06 ‘.34E-07 3.36E-08
4.651.03
w
5.95E 2.43E 7.63~ 1.58E P.IOE 5,98E 1.3OE
05 05 04 0‘ 03 02 02
6.,9E
07
2.26E 6.14E 1.0&E 1.47E 2.568 4,52E
07 06 06 05 04 03
2.2OE 5,49E 1.261 3.84E.01 9.151-02 1.49E.02 (.25E.O3 1 ,lTE.Ob 1.5OF"OS I, 58E.06
0, 00 00
6.035 1.25E 2.35E 6.lOE t,ZOE l.S‘E-01 9.‘3E-03 6.578.0‘
02 02 0, 00 00
6.668-05 5.42E-06 T.SlE-07
6.73E-06
I of Table
453
Atomic
Data
and
Nuclew
DetD
hblsr,
Vol.
18.
No.
5,
November
1976
BAND,
TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 = 27 EG 15 17 20 25 32
‘0 50
65 60 100 120 (50 200 SOC ‘50
650 1000 2000
6000
El 1.14E 5.05E 5.09E 2.bSE l.SOE
EE 01 00 00 00 00
6;7‘E.O( 3.4bE-01 1,57E-01 8,SEE.02 4,2lE-02 2.4lE.02 l.ZZE-02 5,14E-OS 1.57E.03 5.2lEr04 2,12E-0‘ 8,55E.05
2.661-05 6,441-06
S.bSE 2.55E 1.55E 7.5SE 3.2SE T.‘bE b.‘OE 2.4&E l.llE C.77E-01 2.38E.01 l.OlE-01 3.42E-02 l.bPE-03 l.PlE-OS b.l5E-0‘ 1,97E-04 4.62E-05 2.,26E-06
El
IS
8,77E-01
17 20 25 32 ‘0 50
6.2bE.01
02 02 02 01 01 01 00 00 00
65 80
100 12c 150 200
300 ‘50 650 1000 2000
2.73E 1;92E (.lbE 5,b‘E 2.5bE 1.19E 5.4lE"01 Z,OPE-01 P.lOE-02 4.221-02 2,lSE.02 9,19E-03 S.lSE-03 7.(bE-04 1,79E-04 5.8lE-05 1 ib7E.05
2.528-06
4,39E-06
El
15
1 ,SOE-01 8.256-02 4,5bE-02 Z.OOE-02 7.97E.03 3;‘46-03 1.48E.03 5,4&E-04 2,hOE.06 l.O5E-04 5;28E-05 2.28E-05
17 20 25 32
‘0 50 65 b0 100 120 (50 200 300 450
7;83E-06
650 1000
1,8lE-06 4.501.07 l.S'IE-07 3,115~08
2000
6.351-09
EG
50 65 80 100 120 150 200 300 45c 650 1000 2000
03 02
2.58E 9.9lE S,lZE 1.2SE
02 01 01 01
‘;4bE
00
1.9‘E 7.04E-01 1.92E-01 S.Z‘E-02
00
=
01 01 01 00 00 00
27
02 02
02
1,18E
02
4.7bE
01
1;97E 7.87E 2.57E 1.03E 3.84E.01 1.70E.01
01 00 00 00
6.268-02 5.761-04
00 00
9.blE-07 (,PPE-07 Z.OSE-08
27
LB
.
00
b.aaE-01
Z.blE-03 L).5bE-04 2.0bE-04 3,00E-05 4.8SE-06 1,05E-06 2.19E-07 2,98E-08
2.02E 9.38E S.‘bE 8,bOE 1,9SE 4.89E 1,24E 2.488
6,9bE.01 1,77E-01 5.85E.02 (,52E-02 2.721-03 2.551-04 L.b7E-05
‘.01E-06 5.571-07 ‘.5bE-08
9.8IE 4.92E 1.85E
OS 03 03
01 01 00 00
b,lZE
02
2,45E-01 1.188-01
2.57E l.lOE ‘,75E 1.80E
OS
b.b9E-02
8.4bE-OT
2.24E 8.17E 2.52E 1,OOE
02 01 01 01
02 02 01
3.678-02 2,2bE-02 1.278-02
3.7bE 1.72E
00
b;llE-OS
3,82E-01 2.02E.01 9.4lE.02 S;bZE-02 l.OOE-02 S.OOE-03 1.02.E.OS
00 00 00
‘.62E-01
2.276-03 b.8lE-0‘ 3.911.04
1 .bOE-0‘
?.bOE-01 5;39E-01 3.3&E-01 1;?4E.O1 8,‘PE.02 4.CbE.02 2.SbE-02 l.l4E-02 b.‘TE-03 3,55E-03 2.196-03 1.22E.OS 5.88E.04 2,18E-04 a,4SE-05 3.7‘E-05 1.538-05
=7,9400E-01
03 03 02 02 01 00 00
5.7lE 1.85E S.PlE 7.02E 1.49E 3.18E 5.211
05 05 04 03 OS 02 01
1.2bE 2,768
01 00
b.llE-Ol q.blE-01 2;asE-o2 2,22E-OS l.P9E-0‘ 2,58E-05 2,89E-06 1 .‘lE-07
SHELL
6.532
01
1,14E 2.35E L.b5E 7.57E 1.74E
04 OS 02 01 01
S.bZE
00
1.01E 2*42E-01 Z.POE-02 (.lllE-03 $.37E-04 1,50E-05 l.&bE-06 7,54E-08
00
6.11bE i;O‘E 2.05E b,lbE S.OlE 1.2‘E 5,2'(E-01 1,PPE.01
01 01 01 00 00 00
8.861-02 3.93E.02 2,05E-02 P.LbE-03 3,59E-OS 9.821-04 2,9lE-04 l.O‘E-04
3.468.05 7.261106
kl
4.2bE
03
2.2SE 9.70E 3,lSE 9,lSE 3.05E l.O‘E S.OOE 1,lLE 4,qIE.Ol 1.85E.01 7,02E-02 t.lOE-02 4.211-03 9,‘2E-04 2.71E.04
OS 02 02 O'I 01 01 00 00
1.18E.05
n2
07
1,SbE 2.3bE
07 06
3,24E 1,“E
02 02
05 0‘
1.69E I.366 ‘.blE l.“E
01 01 00 00
03
‘.bbE-04
2.69E
02
4..55E 1;ZlE 2.2bE 2;75E-01 1.556-02 l.OJE-03 l.OSE-0‘ 9,08E-06 S.l7E-07
01 "1 00
2,41E-04 q.lLlE-0‘
S.b7E I.981 7,87E.O1 2.8SE.01 q,lSE-01 ‘.‘bE-02 l,52E-02 b,45E-OS 2,59E-03 l.ZSE-03 4,99E-04 1.58E.04 3.221.05
00 00
3,4lE 5.9SE l.O‘E l.S‘E
S.SOE-02 I.PbE-02 9,74E-OS 4.458-03 2,19E-03 1.07E.OS
6.646-05 3.281-05 1,3SE-05 3,75E-06 1,09E-Ob
3,bSE..07 l.O5E-07 l,bOE-Ob
=7,7900E-01
b,ZZE 1.47E 2.5‘1 P.?OE-01 1.241-02 6,5lE-04 5.401-05 S;PbE-06 1,34E-07
01 01 00
02
1.24E 3.38E
02 01
6.5bE
00
05 05 0‘ 04 03 02 02
4.68E
01
q.‘bE ‘.‘OE 1.67E 5,23E-01 1.2SE.O( 1.798-02 S.OZE-OS
01 00 00
1.47E
07
b.18E
06 06
2.02E 4;37E b.lSE 1.8lE ‘.lOE 7.3‘E 1.92E 4.69E t.5lE 3.91E 7.25E-01 7.67E.02
05 04 0‘ OS 02 02 01 O( 00
9.641-03 1.7bE-03 S.OOE-04 2.8bE-05
4.906 2.3bE 9.12E 2,LSE 5.7lE 1.53E 4.07E b.65E 2.55E
w5 0‘ 0‘ OS OS 02 02 01 00 00
3.69E
06 Ob 05 05 04 03 OS 02 01 00 00
3,85E-01 1 .JbE-01 4.4bf.02 l..52E-02
2.39E.01
b.O9E-OS
6.631-02
b.TSE-01
1,5lE-03 2.2‘2-04
l.SOE-02 1.40E.03 1,6bE-0‘ 2.67E.05 3,66E-06 P.lIE-07
(.04E.O1 8.15E-03 7.231-04 9.19E.05 9.2.91-06 4.318-07
3,5bE-05
1.79E.06 ‘.OOE-07 b,SbE-08
7.291-06 1.278-06 l.OlE-07
M2 1.90E 1;03E ‘.blE 1.54E ‘;bSE-01 1,58E-01 5,LPE.02 1,5bE-02 5,b7E-03 2,ObE.03 8,99E-04 3.27E.04
6.371-06
9;068.05
1.936-06
1*57E-05 2.97E.06 7.291-O') (.67E-07 2,57E-08
2.338-07 b;22E-08 ,.9&E-Ol
454
3.67E
1,bOE 5.38E 1.19E 2.24E ‘,9,E 1,ObE 1.8lE 4.44E 9.9lE 2.94E
6.88E.06
1.9bE-02 1;33E-02 b.OOE-03 3.992-03 l;b5E-03 9.211-O‘ ‘.59E-0‘ 2.021-04 l.ObE-04 5,SOE-05 3.021-05 l.SPE-05
6,15E..O?
See page 438 for E xplanation I of Table
0‘ 0‘ OS OS
6,90E-01
UEV Ml
02
8.922 2.37E 4;89E 1.4OE
W‘
4,82E
3,bbE
2.5lE l.lbE 4.43E 1.17E 2.726 7.42E 2.061
w
02
08 0, 07 06 OS 0‘ 04 OS
05
M5
l.‘OE-0‘ 1,86E-05
6.05E
2.22E 8;28E 2,SOE 3.91E 5;491 9.2bE 1;5bE 1.92E
06
S,ZbE
7,SOE-01 9.511.02 l.?7E-02 3.068.03 2.981-0‘ 2.021-05
6.9SE.06
7.261-05
00
0‘
07 06
06
1.29E
lb‘
6.49E
E5
02 05
00 00
4,9lE*02
E4
06
4.7‘E 1,14E $.75E-01 3,02E-02 ?.O‘E-OS 1.53E.03 1;931.04 1.651-05
08
Eb
2.38E 9.87E 3.15E
01
4;osE
KEY
ES 1.28E
l.‘bE
rs
HZ
4,17E-06
ER
00
1.37E 8.44E
KEV Ml
04 04 04 OI 0‘ 03 OS 02 02 01 0" 00
00
05 05 05 04 0‘ OS 03 02 02 01
2,05E-01 4.20E.02 9.58E.03 2.79E.03 7.52E.O‘ 1.2SE.O‘ l.SZE-05
7.058-05
M5
4,80E 2.9OE Y.‘2E ‘.BPE 1.42E 4.47E 1.39E 3.50E 1.18E 3,7lE
6,681-O+
S.blE-0‘ 7.bOE.05
4.3.51-05 8.02E-Ob
5.5lE 3;24E 4.32E 3;OlE 1.25E 4.49E 1.4‘E 3.4lE 1,04E 2.84E 9.69E 2,5bE 4.751-01 4,68E-02 5.388-03 9.2‘E-0‘ 1.58E-0‘ I.746105
06
04 OS OS 02 02 01 01 00
02 01
5.57E 3.45E 1.79E 8.758-01
ES
SHELL
ES 02 01 01 00 00
04
02
1,59E 6,671
06 06 05 05 0‘ 0‘ 03
1,SbE
LS
1.6&t
S.OlE
S.SbE 1.98E 7.89E 2,‘OE 7,401 2,lSE 4.651 I.351 3,53E 1.17E 3.03E 5;‘OE 5.1&E-01 5,77E-02
EB =9,2bOOE-01
03 OS OS OS 02 02 02 01 01 00 00
Mb
02
4.92E
1.821-0‘ 1,59E-05
SHELL
MS
HP 00
9.7bE.03 1,65E-OS
Z < 30
KE"
8.07E
04
27
00 Ml
06
E4
5.68E.08
E2
2,2lE-01 5,8OE-02 Z.OZE-02 6.5SE-03
00
l.OSE l.SOE-01 1.90E.02 3,98E-03 8,SPE-04 l.llIE*0‘ l.ZPE-05
7;9SE-05 l.l3E-05
1.15E 5.38E 2,OlE 5,201 1.17E 3.05E 7.9.5E 1,bbE 4.856-01 l.SlE-01 ‘;5tE.O2 1.25E-02 2;4bE.O3 Z.bPE-0‘ 3,29E-05 5,5SE*Ob b,l4E-07
‘.lSE-01 1,3bE-01 3,bL)Er02 l.S2E-02 4.4lE-03 1;82E-OS b.ZZE-04 l;bOE.O‘ 2,50E-05
2;62E-OS
4.65E
ES
‘.SbE 1.2bE
l.OZE 5.37E 2.35E 7.55E 2.15E
02 02 01 01
1.782-03 3.768-0‘
1.5lE-04 3;92E-05 7,15E-06
01 01 07
Fl
OS
3.82E l.SOE 3.99E 1.52E
5.SSE 5;341 4.02E 2,ObE 8.02E S.OSE l.ObE 2.99E 1.05E 3.33E 1.29E 4,OSE.01 P.lbE-02 1,19E-02
1.74E.02 2,99E-03
5.691 S.OSE l.S‘E
2,39E-01 l.SlE-01 8.321-02 S.bSE-02 l.‘SE-02 6.158-03
1,4bE
Conversion,
Coefficients
4.48E
EL
2,4bE
.
=7.70908 E5
05 05 0‘ 04 04 03
Ll
5.278 3.9lE
EZ
EB
l.PSE 1.43E 8*55E 3.6‘1 1.25E 4.378
E3
4.29E.06
9.58E-04 ‘;SZE-0‘ 1*84E-0‘ 9,19E-05 3,9bE-05 1.371-05 3,21E-06 8,54E-07 2,bYE-07 9,0SE-08 Z.OZE-08
1.69E b.‘bE
1.59E.03 4,12E-04 7,51E-05 1.04E.05
2
15 17 20 25 32 ‘0
OS OS 03
b.lSE-03
2 EG
SHELL
Conversion
F‘
8,blE L.T?E S.?lE
E2
4.05E.01 2,lPE.01 (.OPE-01 5.7bE.02 3,OtE-02 1,39E-02 7,LbE-OS S.bZE-OS 2.20E.03 1.13E.03 ‘.77E-0‘ l.‘7E-04 4,92E-05 2,OlE.05 ll.lOE-06
K,
ES
2 EG
Internal
Internal
5.79E
OS
2,bbE
03
9.721 2.47E 5.548
02 02 01
1.4bE
01 00
3.8bE 8.37E.01 2.52E.01
7,ObE-02 2.538-02 7.3lE-03 7,528-03 1.7bE.O‘ 2.238-05
3,74E-06 5.S?E-07 ‘,lOE-08
I45
Ml
NY Oq 0, 00 00
7,bSE S.qLJE 9.98E 2.05E
05 05 0‘ 04
S.bSE
03
7.73E 1.672 2.82E 7.01E l.bOE ‘.bOE-01 1.16E.01 q.L)OE-02 1,58E-03 l.llE-0‘ 1,8"E-05 T.97E.06 8.296.00
02 02 01 00 00
b.OPE 2;95E 7.98E 1.34E 1.9OE 3.29E 5.80E 7.72E 1.59E 2,99E 7.75E 1.52E 1,95E-01 1.198-02
8.2bE-04 8.sbE.05 6,7(1E-06 1,87E-07
07 07 06
06 05 0‘ 03 02 02 01 00 00
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 EC 15 17 2c 25 32 40 50 65
80 100 12c 150 200 300 450 650 1000 2000 6000
Fl ?.21E 8.55E 5.4lE 2.84E 1.40E 7.25E.01 3,?3E-01 1.69E.01
01 00 00 00 00
9;03E-02 4.5GE.02 2,63E-02 1,34E-02 5.631103 1,73E-03 5.751-04 2,358.04 9.47E.05 2.941-05 T.lOE-06
15 17 20 25 32 40 50 65 GV 100 120 156 200 300 450 650 IOOV 2000
3.53E 2.52B 1.56E 7.7lE 3.35E ?.53E 6.a4E 2.59E 1;19E 5.12E.01
02 02 02 01 01 01 on 00 00
9,30E-01 6.68E.01 4.32E.01 2.341-01 1 .llE.Ol
2.lOE-03
6;78E-04 2.186-04 5.13E.05 9,‘13E-06
6.22E.VP 3.261-02 1,51E-02 8,15E-03 4.18E.03 2.42E.03 1,24E-03 5.28E.04
1.641-04 5.48E.05 2,24E-05 9,07E-06 2.821-06
5.99E 2.6LE 1.25E 5.73E.01 2.231-01 l.OCE-01 4.55E-02 2,30E-02 l,OOE-02 3,43E-03 7.69E.04 1;94E-O4 6.48E.05 2,09E-05 4,93E-06
75 17 20 25 32 40 50 65 80 100 120 q50 200 300 450 650 1000 2000
1.49E.01
01 01 01 00 00 00
,; sac-09. 5,2aE-02 2.33E.02 9.32E.03 4,04E-03 1,74k.o3 6.441-04 2;93E-04 1.26E.04 6.3lE.05 2.73E.05 9,43E-06 2.2oE.06 5.472.07 1,47E-07 4.65t.08 7,75E-09
2
El
32 40 50 65 GO 100 120 150 200 300 450 650 IVOV 2000
2.74E.01 1.74t.01 P.bOE-02 4,21E-02 1.672-02 7.192-03
s;ose.oY
l.l3E-03 5;lnE-04 P.lIE-04 l.OPE-04 4,72E-G5 1,64E-05 3,90E-06 l.OZE-06 3,40E-07 1.09E.07 2.431-01
3.12E 2.56E 1.63E 6.9LE 2.23E ?,OPE 2,OPE 4.668 1;38E
06 06 06 *5 05 04 04 03 03
3.63E
02
j.59.5
01
4.9lE 1.09E l.lOE-01
00 00
1.21E 3.17E 5.7lE 5,50E-01
02 01 on
2,07E-02
6.241.02
4.3bE.03
1.07E.02 1.83E.V3 2,031.04 1.771.05
SHELL
3,07E 3.73E 3.22E 1.02E 7.51E 2.95E 1,07E 3.041 1,OIE 3.47E 1,36E 4.30e.01 9.83E.02 1.3OE.02
02 01 01 00 00 00
6i3bE.04
1;951.03
?.67E-04 4;39E-05 8.OCE.06
4.17E-04 8,a7E-05 1,27E-05
D28
I.2
04
6.46E
03
2.41E 6.26E 1.4lE 3.68E 9;dSE 2.02E 5;89E.O1 1.59E.Ol 5.50E.02 l.§2E-02 3,0lE-03 3.30E.04 4.05E-05 6.83E-06 l.OIE.06 7.03E.08
03 02 02 01 00 00
l
28
03 03 03 03 02 02 02 01 01 00 00
0‘
SHELL
1;12E 4.13E 1;05E 2.3lE 5.87E 1.49E 2.96E 8,36E-01 2.14E-01 7,06E-02 1,.53E-02 3.29E.03 3.09E.04 3.24E-05 4,G.bE.06 6.75E-07 5.52E.08
04 03 03 02 01 01 00
2.I1VE 1;lTE 3.73E 7.76E 1.36E 2.8lE 5.EOE 9.07E 2.09E 4.35E 1.2tE 2.55E.01 3.515-02 2.281-03
1.661-04 l.OZE.05 1.79E.06 P.lZE-08
00
0.5 07 07 06 05 04 04 03 02 01
5.93E.02 4.0VE.02 2.39E.02 1,18E.02 5.4OE.03 2.66E.03 1;3lE.03 5.691.04 2.94E.04 1.45E.04
1.47E 2.77E 3.35E-O( l.POE-02 1.27E.03 1,29E-04 1,12E.05 3,93E-07
01 00
a.13E.05 4.021.05 1.63E.05 4.63E.06 1.34E.06 4.46E.07 1.29E.07 1.97E.08
EE
=8,5500E-01
06 05 04 04 03 a2 01 01 00 00
04 04 03 03 02 02 01 01
1.T4E 4,29E 1.95E 7. bOE.01 2.33E.01 4.76E.02 l.OPE-02 3.15E.03 8.49E.04 1.39E.04 1.48E.05
01 00 00
n5
4.67E
05
2.94E 7.48E 5.26E 1.55E 4.961 1.55E 3.94E 1,33E 4,19E 1.65E 5.37E 1.3lE 1.98E.01 3.42E.02 7,95E-03 1.72E.03 2.1.5E.04 1.84E.05
05 05 04 04 03 03 02 02 O? 01 00 00
1.2oE 7.17E 3.97E 1.33E 3.47E 9.68E 2.60E 5,.42E 1.5&E 4.llE 1.4oE 3.802 7.blE 6.238-01 1.07E.01 1,99E-02 3.452.03 3.368.04 2,26E-05
07 06 06 06 05 0‘ 04 03 03 02 02 01 00
I42 8.27E 4.8bE 2.461 9;77E 3.58E 1.47E 6;75E.O( 2.25E.01 l;V4E-01 4.59E.02 2.39E.02 l.lVE-02 4,lCE.Of ?,13E-03 3.34E.04 1.201.04 3.95E.05 8.24E.06
w3 01 07 07 00 00 00
I44
5.12E 2;68E 1.16E 3;73E 1.08E 3.6lE T.22E 3.52E 1.34E 4.84E.01 2.15E.01 8.lSE.02 2.43E.02 4.851.03 1.08E.03 3,llE.04 6.30E.05 1.34E.05
03 03 03 02 02 VI 0'1 00 00
2.99E 1,401 5.26~ 1,39E 3.22E 8.75E 2.42E 5.48E 1.73E 5,lJE ?.94E 6.06E.01 1.42E.01 2,07E-02 3.4bE.03 7.94E.04 1.7OE.04 2,12E-05
nr 05 05 04 04 03 02 02 01 01 00 00
1.73E 7.30E 2.36E 5.15E 9.59E 2.?3E 4,8fE G.56E 2;24E
07 06 06 05 04 04 03 02 02
5.45E
01
l,76E 4.53E a,37E-01 8.82E.VI IrllE-02 P.OlE-03 3.43E.04 3.281-05
01 00
*2 7.8lE 4,67E 2.39E 9.51E.01 3.43E.Vl ?.JTE.Vl 5.44E.02 1.8SE.02 7,.57E-03 3,16E-03 1.5lE.03 6.12E.04 1.94E.04 3.96E.05 8.5OE.06 2.221-06 4.961-07 5.42E.06
N3 00 00 00
7.2OE 3.a7E ?.72E 5.63E 1,63E 5.321 ?.74E 4.66E.01 1.65E.01 5.45E.02 2;22E.02 7.44E.03 l,ll6E.O~ 2.75E.04 4.39E.05 P.OlE-06 1.58Ec06 1.26E.07
01 VI 00 00
7.S4E 3.45E 1.26E 3.19E 7.12E l.86E 4.95E 1.06E 3.19E.01 I.PLE-02 3.191.02 9.19E.03 1.9OE.03 2.2OE.04 2,77E-05 4.62E.06 6.60E.07 4.97E.08
M4 02 02 02 01 01 00 00
5.76E 2.79E l.OdE 2.92E 6.a2E 1,43E 4.89E 1.04E 3,VlE a.37E.O? 2.9lE.01 8.07E.02 q,SPE-02 1.7lE.03 2.OLE.04 3.3OE.05 4.53E.VI 2.67E.07
03 03 03 02 01 01 00 00
1.02E 4.13E 1.29E 2.64E 4.66E 9,aIE 2.13E 3,5&E 8.89E 2.03E 6.15E.01 1.46E.01 2.37E.02 1.90E.03 1.a3E.04 2.341-05 2.44E.06 l.OlE-07
I45 04 04 04 03 02 02 01 01 00
4.2GE T.87E 6.30E 1.4lE 2.65E 5.aCE 1.28E 2.17E 5.35E 1.2OE 3.55E 6,17E-VI 1.27E.01 9.9aE.03 8.86E.04 1.13E.04 1.225-05 5.36E.VT
06 05 05 04 03 02 02 01 00 00
1.04E 3.79E 1.02E 1.72E 2,42E 4.19E 7.3dE 9.7SE 2.02E 3.77E 9.771 1.9lE 2.451-01 r;49E-V2 ?.03E-03 l.V4E-04 (1.431.06 2.30E.07
01 06 05 05 04 03 03 02 01 01 00
KEV "I
011 07 07 06 05 05 04 03 02 01 01 VP
"4
1.76E 1.07E 5.451 2.07E 6.92E 2;54E 9.29E 2.87E
KEV
1.5VE 5,6&E 1,dOE 2.8OE 4.06E 7.09E 1;24E 1.6lE 3.251 5.87E
2.58E 9.67E 2,69E 4.60E 6.491 l.lOE 1.65E 2.29E 4;38E 7,45E 1.76E 3;05E 3,261.01 1,50E-02 7.89E.04 6.551-05 4,82E-06 1.621-07
02 02 02 01 01 0, 00 00
UEV
Ml
E5 06
5,72E 3.49E 1,.55E 7.7bE 2.98E ?,27E 5.46E 2.07E 9;73E-01 4.3G.E.01 2,3lE.01 l.O(IE-01 4;?3E.OZ 1.14E.V2 3.4OE.03 1.23E.03 4.07E.04 G,536.05 l,l6E.O5
9.2OE.01 6.351.Ol 3.93E.01 2.05E.01 9.9IE.02 5.22E.02 2.79E.02 1.34E.02 7,SSE.03 4.12E.03 2.541-03 l.LIE-03 6.791.04 2.51E.04 9.661.05 4.27E.05 1.7bE.05 4.71E.06
=8.72OOE.01 E5
06 05 05 04 03 03 02 01 01 00
*3 00 00 on 00 00
Ill 05 04 04 04 04 03 03 02 02 01 01 00
EB
KE"
9.99E.04 4.428-04 1.00E.04 4.a92.05 8.86E.06
=l,OOlIOE
1.33E 2.55E 2.58E 2.321 l.OGE 4.13E I.378 3.37E 1,051 Z.PlE l.OOE 2.7lE 5.051-01 5.05E.02 5.881.03 l.VZE-03 1,77E-04 1.961-05
E4
2.41E
9.4lE 6.50E 4.02E 2.09E l.OPE 5.35E.01 2,04E-01 1.36E.01 ?;71E-02 4.22E.02 2.6OE.02 1.45E.02 6.97E.03 2.585.03
ES
SHELL
1.62E 6,6VE 2.2VE 4,68E .5,42E 1.79E 3.83E 6.30E 1,52E 3,35E 9.86E.01 2.25E.01 3.46E.02 2,72E-03 2.441-04 3,?8E.05 3.58E.06 1.74E.07 L3
E3 02 01 01 00 00
EB
E4
1.38E
E2 1.2lE 6;40E 2.8VE 9.OlE 2.561 8.23E.01 2;6kE-01 6.96E.02 Z.CIE-02 7.858-03 3.14E.03 1 .OIE-03 2,5lE-04 3.62E.05 5.641-06 1.27E.06 2,64E-07 3.51E-02.
02 02
00 Ml
05 05 04 04 04 03 05 02 02 01
E4
02
=R,3330E E5
1.52E l.lQE 7.52E 3.37E 1,ZOE 4.31E 1.4br: 3.9qe 1.34E 4.16E
E3 01 07 01 00 00
EB
9,2OE-04 1.3lE.04 1.44E.05 L 1
4.50E 3.49E 2.28E 1.14E 4.72E 2,OOE 6.08E 2.678 1.09E 4,Vl)E.01 (.dZE.01 6.73E.02 l.d(lE-02 3.27E.03
22 6.8OE 3.63E 1.6VE 5.23E 1.52E 4,97E-01 1.63E.01 S.CLE-02 ,.60E-02 5,35E-V3 2.21E.03 7.56E.04 1.958-04 3.06E.05 5.271-06 1.18E.06 2.36E.07 2,49E-08
03 03 03 03 02 02 02 01 01 00 VO
E3
2 El
SHELL
Conversion Coefficients
E4
28
l
F2 2.69E 1.9lE 1.19E
Yl
7,5lE 5.6VE 3.50E 1.64E 6.4bE 2.62E 1.02E 3.25E 1;29E 4,72E 2,07E 7.52E-01 2,06E-01 3.5lE-02 6.726-03 1,75E-03 4.56E.04 8.35E.05 1.16E.05
2,56E-01 l.lOE-01 3.7lE.02 .5;39E-03
El
EG
28 E3
* EC
3
F2
Internal
Internal Conversion, Z < 30
2.338.02 1.58E.02 9.52E.03 4.76E.03 2.2lE.03 t.lOE.03 5.491.04 2.42E.04 1.27E.04 6.356.05 3.62E.05 1;83E.OS 7.661-06 2.321.06 7.4qE.07 2.8OE.07 9.48E.00 2'.37E-08
n2 2,4lE 1.3OE 5.85E 1.96E 5,IIIE.01 1.99E.01 6.82E.02 1.96E.02 7.35E.03 2.60E.03 1.?2E.O3 4.06E.04 l.lZE.04 1.93E.05 3.641.06 8.9OE.V7 2,03E.07 3.09E.08
cl3
H4
1)5 OS 07 07 06 OS 04 03 02 02 0, 00 00
See page 438 for E xplanation L of Table
455
Ahic
Doto
and
Nuclear
Dota
Tables,
Vol.
16,
NQ.
5,
Novmber
1976
BAND,
and LISTENGARTEN
TRZHASKOVSKAYA,
Internal Conversion, Z < 30
TABLE. Internal Conversion Coefficients
EG
El
15 17 20 25 32 40 50 65 a0
l.ZIE 9.04E 5.748 3,05E 1.50E 7.781-01 4.01E.03 1.83E.01 9 .?7E-02 .9?P.O2 .a6E-02 .45E-02 .14E.03 ,89E-03 .32E-04 ,586.04 .04E.04 3 .24E.05 7 .79E-06
1.90 200 300 450 650 1000 2ool-J 6000
FE 01 "0 00 00 00
3.4OE 2.478 1.56E 7.85E 3.46E Y.60E 7.18E 2.75E 1.27E
02 02 02 01 01 01 00 00 00
6.39E 5,OOE 3.26E 1,59E 6.42E 2.65E 1.09E 3.37E 1.352 4,971 2,lPE B.OlE-01 2.2lE.01 S.OOE-02 7.31E.03 ,.PZE.OJ 5.OJE.04 9.261.05 l.ZOE.05
5.47E.01 2.74E.01 1 .lllE.01 4.01E.02 9.13E.03 2.29E.03 ?.45E-04 2,41E-04 5,6aE-05 l.OtE-05
2 EG
El
E4
ES
=
03 OS 03 03 02 02 02 01 01 00 0"
29
1.14F 9.648 6.5lE 3,lOE 1.15E 4.23E 1.46E 3.97E 1.37E 4.32E 1.66E 5.17E 1.16E 1.50E-01 2,24E-02 4,?6E-03 l.OlE-03 1.46E.04 1.60E.05
Ll
E2
ES 05 04 04 04 04 03 03 02 02 01 01 00 00
SHELL
E3
2,05E l.EmE 1,3lE 6.06E 2.05E 6.758 2.04E 4.651 .3VE .?lE .25E .SOE .01E .(I?E-01 6 ,74E.O2 1 ,lbE-02 2 ,OlE-03 2 ,25E-04 1 .9?5.05
Ea
E4
n1 06 06 06 05 05 04 04 03 03 02 02 0, 00
1.09E 7.542 4.66E 2.426 1.18E 6.1.5E.01 3,27E-01 1.57E.01 u.a4E-02 4.03E.02 2.97E.02 1;65E-02 7.93E.03 2.928-03 l,lJE-03 4.97E.04 2.02E.04 5.448-05 9.751.06
=1,0960E
00
E5
P.LIZE-OI
2.63E
01
3.73E
02
1.59E
03
2.82E
05
1.08E
17 20 25 32 LO SF 65 8E 100 120 150 200 300 450 650 1000 2000
7.07E.01 4,596-O? 2.50E.Oq 1.26E-01 6;70E.O2 3,53E-02 1,64E-02 a,8?E-OS 4.571-03 2.656-03 1.36E-03 5.alE.04 ?,81E.04 6.088-05 2,498.05 l.OlE-05 3,14E-06
1.89E 1.2OE 6,lOE 2.771 1;31E 6.03E.01 2.371-01 q.l*E-01 4.89E.02 Z.LPE-02 1.08E.02 3.741-03 8.65E.04 Z.ZOE-06 7.19E.05 2,34E-05 5.3lE.06
01 01 00 00 00
3.05E 2.09E 1.08E 4.65E 2;OlE a.25E 2.77E 1.14E 4.31E.01 ,.93E.O, 7,20E-02 2.03E.02 3,5?E-03 6.99E.04 l.(I5E.04 4,191.05 P.OlE-06
02 02 02 01 01 00 0" 00
2.39E 2.46E 1.57E 6.93E 2;63E 1.06E 3.06.E 1.11E 3.60E 'I.426 4,54E-01 l.OSE-OI 1,4OE-02 2.l3E.03 4.601-04 9.1)8E-05 l.bZE-05
03 03 03 02 02 02 01 01 00 00
4,62E 1.54E 1.671 P.lOE 3;74E 1.3OE 3.3lE 1.05E 2.96E 1.03E 2.82E 5;33E-Oq 5.428-02 6,4lE-03 1.13E-03 1.96E.04 2,2lE-05
04 04 04 03 03 03 02 02 01 01 00
7.46E.01 4.61E.01 2.40E.01 l.l?E-01 6;141.02 3,25E-02 1,56E-02 8.768-03 4.78E.03 2.931.03 7.63E.03 7,81E-04 2.87E.04 '1.,OE-04 4.85E.05 1.961-05 5.29E.06
Ea
=9,5lOOE.O,
EC
61 1,7(E-01 l.OPE-01 6,OaE-02 2.69E-02 1;08E-02 4,?2E-03 2.04E.03 7;58E-04 3.461-04 1;49E-04 7.50E.05 3.26E.05 l.lSE.05 2.648-06 6.591.07 Z.OZE-07 5.631-08
8.09E 4,3lE 1.9lE 6.231 1.8lE 5.94E.01 1.96E.01 3;SSE.02 1.921-02 6;44E-03 2.66E.03 9,14E-04 2.361-04 3,72E-05 6.4,E.06 1.441-06 2,.98E-07
2000
9,39E.09
3,05E-08
15 ,? 20 25 32 40 50 65 80 100 120 150 200 300 430 650 1000 2000
3,lZE.Ol 1.99E.01 l;lOE-01 4.841-02 1.93E.02 a;34E-03 3,58E-03 1.321-03 5,98E-04 2,56E-04 '1.291-04 3,57E-05 ,.9‘E-05 4.63E.06 ,.22E.06 4,05E-07 1.29E.07 2,a9E-06
See page 438 for Explanation
LZ
1.64E 7.70E 2,aaE 7.49E 1.69E 4.42E 1.16E 2;43E I.t,E-0, 1;92E-01 6.65E.02 1.85E.02 3.668-03 4.02E-04 4.95E.05 8.361106 1,23E-06
E4 04 03 03 02 02 01 01 00
1.91E a,046 2,bqE 5.561 l.OOE 2.14E 4.59E 7;56E 1.13E 4.04E 1.19E 2.72E.01 4.2OE.02 3,3lE-03 2.99E.04 3,90E-05 4,39E-06
8.64E.08
E2 Y.43E 7.381 3;32E 1.07E 3.04E 9;?81-01 3,14E-01 8.291-02 2.89E.02 9.30E.03 3.?5E-03 1.23E.03 J.OOE-04 4.35E-05 7.OqE.06 1.53E-06 3,17E-07 4.28E.08
SHELL
E3 01 01 07 00 00
7. El
29
F2
15 I? 20 25 32 40 50 65 a0 100 120 150 200 300 450 65" ,000
EG
=
=
2,15E-07
29
L3 E3
02 01 01 01 00
2.86E ‘1.33E 4;WE 1.23E 2.7SE 7;OOE 1.71)E 3.56E l.OOE 2.56E-01 CL.47E.02 Z.ZOE-02 3.95E.03 3.721-04 3.90E.05 5.861-06 a.lZE.07 6,62E-01
3.3OE 1.37E 4.40E 9.18E 1.61E 3.34F 6.90E i.oae 2.5OE 5.20E 1.45E 3.06E.01 4.2lE-02 2.741-03 2,OOE.04 2.191-05 2,16E-06 l.,OE-07
3,OOE 1.13E 3.14E 5,4OE 7.648 1;30E 2.19E 2.721 5.21E 8.87E 2,lOE 3.64E 3.90E.01 l.aOE-02 9.49E.04 ?,a9E-05 3,UZE.06 1.951-07
4.44E 2.92E 1,53E 5.622 1.69E 5.4aE 1.73E 4.4IE 1 .50E 4 .72E 1 .86E 6 ,.OIE 1 .48E 2 .23E-01 3 ,85E.O2 (I ,96E.O3 1 .94E.O3 2 .44E.04 2 .05E.05
rt5 05 05 05 04 04 03 03 02 02 01 01 00 00
l.OlE 7.13E 3.83E 1.35E 3.67E 1.04E 2.84E 5.99E 1. 73E 4. 59E 1. 56E 4. 26E 32E 9. 25E.01 1. 2lE.0, 2. ZlE-02 3. 88E.03 3. 7?E-04 2. 52E.05
8,
07 06 06 06 05 05 04 03 03 02 02 01 00
*3
?I4
115
01
6.13E
03
3.5I.E
05
2.03E
07
5.a3E 2,94E 1.16E 4.24E 3;?4E 7.23E.01 2.64E.01 1.2lE.01 5.34E.02 2.77E.02 1.27E.02 4.79E.03 l.SOE.03 3.82E.04 1.36E.04 4,49E.05 9,32E.06
01 01 01 00 00
3.2OE 1.3isE 4.43E 1.2aE 4;25E 1.44E 4,llE 1.56E 5.63E.01 2.491-01 9.42E.02 2;aOE.02 5,56E-03 1.242-63 3.55E.04 9.45E.05 l.SZE-05
03 03 02 02 01 Of 00 00
1.66E 6,238 1.64E 3.798 1;03E 2,63E 6.39E 2,OlE 5.95E 2.24E 7.OOE.01 1;64E-07 P.S?E-02 3.VbE.Of 9,06E-04 1.93E.04 2,4lE-05
05 04 04 03 03 02 01 01 00 00
8.56E 2.79E 6.OLE l.lZE 2;liE 5.6,E 9,PaE 2.6OE 6.3lE Z.OJE 5.22E 9.63E.0, l.OlE-01 l.t6E-02 2.29E.03 3.90E.04 3.738.05
06 06 05 05 04 03 02 02 01 01 00
00 00 00 00
6.322 4.581 2.04E 6.7OE 1;95E ;,',;: . 5;dlE.Ol 1.99E.01 ;,:W;-;; , 9.031.03 2.261-03 3.361-04 5.38E.05 Y.llE-05 1,94E-06
02 02 02 01 01 L?;
6,?3E 3.26E 1,27E 3.44E 8;OIE 2.17E 5.84E l;ZSE 3.7OE 1;OlE 3,5lE.O? 9.76E.02 1,93E-02 Z.OPE-03 2.5OE.04 4.05E.05 5,5aE-06
04 04 04 03 02 02 0, 01 00 00
4.938 2.16E 7.32E 1.64E 3,lZE 6.IPE 1.52E 2.SPE 6.39E r;43E 4.27E 9,OSE.01 1.53E.01 l,PlE-02 1.08E.03 1.39E.04 ?.50E-05 6.6(E-07
9,35E 5,59E 2,66E 1.14E 4.13E.01 1.65E.01 6.56E.02 2;23E.O2 9.54E.03 3;84E.O3 l.83E.03 7,45E-04 2.36E.04 4.83E.03 (.04E.05 2.73E.06 6.?lE-07
n3
6,6?E-Oa
I44
-
1.551.07
n5
3.3OE.07
06 06 05 05 04 03 03 02 01 07 00
CEV Ml
08 0.5 07 06 05 05 04 OS 02 01 01 00
04 04 03 03 02 02 02 01 01 00 00
9.93E
*2
7.12E.02 4.aOE.02 2.2.8E.02 1.42E.02 6;521.03 3.21E.03 1.58E.03 6.a9E.04 3.57E.04 1;76E-04 9.90E.05 4,901.05 1.99E.05 5.67E.06 1.658.06 5.3lE.07 1.59E.07
a9.3100E.01 E5
06 06 05 04 04 03 02 02 01 00 00
I2 00
2.421.08
EB
n4
1.88E 1.16E 6,OOE 2,3lE 7.79s 2.67E 1,05E 3.258 1.29E 4.87E 2.22E 8;61E.01 2.64E.01 5;3aE-02 l.ZZE.02 3.56E.03 9.561-04 1,55E-04 1.64E.05
KE"
Ml 08 07 07 06 05 04 04 Q3 02 01 01 00
4.851-07
SHELL E4
04 04 03 03 02 01 01 00 00
1.75E 6,64E 1,aaE 3.30E 4;.5OE a.42E 1.48E 1;93E 3.892 ?;06E l.??E 3,34E 4,06E-01 2.3lE.02 1.55E.03 1,5OE-04 1.30E.05
WY 02 02 02 01 01 01 00 00 00
E5 06 05 05 04 cl4 OS 02 01 01 00 00
6.62E 4,04E Z.lLE 6.94E 3.44E 1.46E 6,31E 2.3aE (.llE 5.01E.01 2.64E.07 1;23E.O1 4.69E.02 1.29E.02 3.85E.03 i ,386.03 4.58E.04 9.54E.05 1.29E.05
n1
,5
2
W2 01 00 00 00 00
2.75E.02 1.116E.02 1.T3E.02 5.63E.03 2.6lE.03 1;30E-03 6.516104 2,aae-04 ,.51E.04 7,57E-05 4.32E.05 P.lllE.05 9.15E.06 2.77E.06 8,.53E-07 3.35E.07 l.laE.07 2.83E.OR
I42 3.04E 1.64E 7;36~ 2.46E 7.37E.01 2.49E.0, 8,52E.02 2.44E.02 9.13E.03 3.22E.03 1,39E-03 S,OOE-04 1.3aE.04 2.37E.03 4.43E.06 l.O(IE.06 2.44E.07 S,?OE.Oa
n3 01 0, 00 00
n5
Ml
9.76E 4.46E 1.62E 4,09E 9.09E 2;37E 6.278 1,34E L.OZE-0% q.lZE-01 3.99E-02 l.lSE-02 2.37E.03 2.72E.04 3.41E.05 5.6aE-06 8.05E.07 5.9RE.08
03 03 03 02 01 01 00 00
1.3lE 5.32E Ti66E 3.39E 5.95E 1;ZbE E.?OE 4.52E 1.12E 2,541 7.71a.01 (,(IZE-01 2,95E-02 2.45E.03 2.26E.04 2,89E-05 2.99E.06 1.23E-07
06 05 05 04 03 03 02 01 01 00
1.34E 4.86E 1.31E 2.19E 3.O(IE 5i32E 9.32E 1.23E 2.53E 4.73E l.22E 2.39E 3.05E.01 l.a5E-02 1.281.03 1.29E.04 1.04E.05 2.82E-07
08 07 07 06 05 04 03 03 02 01 01 00
of Table
456
A+.,mic
Dota
and
Nuclear
Date
Tc,bler,
Vol.
18,
No.
5,
November
1976
BAND, TRZHASKOVSKAYA,
and LISTENGARTEN
TABLE. 2 = 30 EG 15 17 20 25 32 LO 50 65 .50 100 120 150 200 300 450 650 1000 2000 6000
El 1.34E 9.52E 6;07E 3.24E 1.59E G.31E.01 4,3OE-01 1,97E-01 l,OSE.O'l 5.361-02 3.09E.02 1.58E.02 6.6GE.03 2.07E.03 6,93E-04 2.84E.04 l.l5E-04 3.56E.05 0.521.06
E2 01 00 00 00 00
3.20E 2.39E 1.55E 7.93E 3.56E 1.66E 7,5*E 2.89E 1.34E 5;82E-01 2.93E.01 1.271-07 4.32E.02 9.9OE.03 2.501-03 L);l6E-04
5.228 4.3&E 2;98E 1.52E 6.32E 2.661 I.068 3.48E 1.40E 5;2lE 2.3lE 8.49E.01 2.36E.01 L.OGE-02 7.93E-03 2;lOE.Ol 5.53E.04 l,OZE-04 l.LlE.05
2.651-04 6.261-05 l.lOE-05
15 17
20 25 32 40 50 65 00 100 IEO 1so
200 300 450 650 1000 2000
El 1.03E 7.46E.01 4.85F.01 2.66E.01 1.35E.01 7.1111-02 3.79E.02 1.77E.02 9,6lE-03 4.96E.03 2,G9E-03 1.49E.03 6,37%.04 l.PPE.04 6.72E.05 2.76E.05 1.12E.05 3.4bE.06
2.55E 1.86E 1.19E 6,lGE 2.G4E 1.36E 6.321-01 2.50E.01 ?.1.5E-01 5,23E-02 2.67E.02 1.17E.02 4.05E.03 9,458.04 2.42E.04 7.95E.05 2,59E.05 6,13E-06
01 01 01 00 00 00
15 17 20 25 32 40 50 65 80 100 120 150 200 300 450 650 1000 2000
El 1,94E.O1 l.ZLE-01 6.95E.02 3.09E.02 1,25E-02 5.46E.03 2.37E.03 8;86E-04 4.05E.04 ?;75E-04 8.84E.05 3,85E-05 1.34E.05 3.148.06 7.19E.07 2;43E-07 6.77E.08 1.13E.0.5
9,SfE 5,lOE 2.2bE 7.38E 2.?SE 7,06E-01 2.33E.01 6;55E-02 2.29E.02 7,7OE-03 3.19E.03 l.lOE-03 2.841.04 4.42.E"05 7.75E.06 1.741.06 3.49E.07 3.70E.OG
15 17 20 25 32 40 50 65 110
100 120 150 200 300 450 650 1000 200"
El 3.531101 2.25E.01 1.25E.01 5.53E.02 2.22E.02 9.6lE.03 4.14E.03 1.538.03 6.96E.04 2.996-04 1.50E.04 6.54E.05 2.28E.05 5;46E.O6 1.441-06 4.GOE.07 1.53E.07 3.42E.OG
See page 438 for Explanation
Ll
02 02 02 02 01 01 00 00 00
SHELL
1.04.5 1.40E 1.78E (.3?E 6,29E 2.69E 1.036 3.07E l.lZE 3.7lE l.LIE 4.77E.01 1,llE.Ol 1,5lE-02 2.32E.03 5.06E.04 l.lOE-04 1,59E-05 L2
01 01 01 00 00
1.94E 9.12E 3.42E 8..59E 2,OlE 5.261 1.38E 2;POE 0.5lE.01 2;3OE.Ol 7.998.02 2.226-02 4.418.03 4.86E.04 6.00E.05 1.02E.05 1.5OE.06 1.05E.07
.
03 03 03 03 02 02 02 01 01 00 00
06 05 05 04 04 03 02 01 01
04 04 03 03 02 01
b.84E
00
1;43E 3.27E.01 5,06E-02 4,OOE.03
00
SHELL
2,llE 4.238 1,lPE 3.05E.01 1.01E.01 2.6211-02 4.7lE.03 4i44E.04 4.66E.05 7.00E.06 9.691.07 7.8781011
01 00 00
3.03E 1.6OE 5.13E 1.07E l.GPE 3;92E 8.13E li28E 2.96E 6.96E 1.72E 3.64E.01 5.01E.02 3;2LE-03 2.39E.04 2.621.05 2.58E.06 1.3lE.07
05 04 04 04 03 03 03 02 02 01 01 00
=1,0440E
2,OPE 7,691 2,lGE 3.85E 5,64E 9.9lE 1.75E 2.29E 4.638 8.4lE 2;lZE 4,OOE 4,08E.01 2.79E.02 l.G'IE.03 1;92E-04 1.68E.05 5.93E.07
3,43E 1.298 3;62E 6.25E 8.88E 1;51E 2.57E 3;lVE 6,tIE 1.051 2.416 4,31E 4.63E. 2;14E-02 1.13E.03 9.431-05 6.96E.06 2,JLE.07
00
00 I41
08 0* 07 06 05 05 "4
03 02 02 01 00 to1
3.22E.02 2.19E.02 1.32E.02 6.62E.03 3.07E.03 1.54E.03 7.6GE.04 3.40E.04 1.78E.04 8.951-05 5.llE.05 2.581.05 l.OGE-OS 3;29E.O6 1.05E.06 3.97E.07 l,LOE-07 3,34E-OG
N3 02 02 02 02 01 01 00 00 00
114
1.95E l.24E 6;52E 2.55E 8.691 3.221 1,19E 3,67E T.LbE 5,49E 2,SOE 9.728-01 2.97E.01 6,06E-02 1,3GE.02 3,99E-03 l.O7E-03 1.74E.04 l,OPE.05
04 04 03 03 02 02 02 01 01 00 00
4.04E 2.82E 1.55E 5,9lE 1.83E 5.998 1,PlE 4.90E 1.67E 5,tGE 2,OGE 6,78E 1.66E 2,50E-01 4.321-02
115 05 05 05 04 04 03 03 02 02 01 01 00 00
1.00E.02 2.17E.03 2.73E.04 2.27E.05
7.96E 6.19E 3.60E 1,35E 3.82E ?,llE 3.08E 4.56E 1.9lE 5.09E
06 06 06 06 05 05 04 03 03 02
1.74E
02
4.75E 9.29E 1.03E ?.35E.01 2.51E.02 C.JLE.03
01 00 00
4.22E.04 2,.5lE-05
KEV
I(2 00
l.+PE 6.94E 3,49E 1.3GE 5,OOE 2,04E 0.46E.01 3.OGE.01 1.41E.01 6.lGE.02 3.21E.02 1,46E.02 5.SlE.03 1.491.03 4.35E.04 1,5SE.O4 5.09E.05 1.05E.05
"3 02 O? 01 O? 00 00
nc
7.29E 3.8OE 1.64E 5.2SE T.SlE 4,981 1.6GE 4.79E l.dlE 6,5lE-01 2.8GE.01 l.OE.E.01 3,22E.O2 6,36E-03 1.4lE.03 4.041.04 1.07E.04 1.721-05
03 03 03 02 02 01 01 00 00
L.18E 1.9SE 7.32E 1.92E 4.44E 1.2OE 3.30E 7.42E 2,331 6,07E 2.591 8.05E.01 l.G.5E.01 2,7lE-02 4,5lE.03 1.03E.03 2,19E-04 2,728.05
NS 05
05 04 04 03 03 02 01 01 00 00
2.37E 9.98E 3,26E 7,04E 1,31E 2,89E 6.SlE 1.t6E 3,OlE 7.22.E 2,348 6,OOE 1,lOE 1.15E.01 1.44E.02 2,6lE-03 4.431-04 4,22E-05
07 06 06 05 05 04 03 03 02 01 01 00 00
KEV R2
8,5OE.02 5.73E.02 3.44E.02 1.7OE.02 7.8OE.03 3.G5E.03 1.9OE.03 8.30E.04 4.501.04 2.13E.04 l;ZOE.04 5.938105 Z.LlE-05 6.87E.06 2.00t.06 6.772.07 1,94E.07 2.94E.Oa
=1,0210E E5
06 06 05 05 04 03 02 02 01 00 00
1.26E 6.7lE.01 5.39E.01 2.79E.07 1.36E.01 7.13E.02 3.771.02 l.OOE.02 l.OlE.02 5,5lE-03 3.3GE.03 1.88E.03 G.95E.04 3.281-04 1.25E.04 5.491.05 2,22E-05 5.92E.06
7.60E 4.651 2;46E 1.03E 3,95E 1.6GE 7.22E 2.72E 1.27E 5.70E.Ot 3,OOE.01 1.39E.Ol 5.3lE.02 1.46E.02 4.33E.03 1,55E-03 5.?3E.04 1.06E.04 1.421.05
II 08 07 07 06 05 04 04 03 02 01 O? 00
EG
00
112 01 00 00 00 00
Ml
E5
2.241 9.42E 3.07E 6.55E 1.19E 2.54E 5.451 9,OlE 2.19E
KEV
Pl
5,OGE 9.7lE 1,34E 1.95E 7.45E 3.321 1.2lE 3.2lE 1,04E 3,OOE ?.OLE 2,93E 5,6lE-01 5.79E.02 6.94E.03 q,PJE.O3 Z,lGE-04 2.47E.05
El
3,36E 1.56E 5,79E 1.40E 3;25E G.P(IE
1.26E G.7qE 5;nsE 2.79E 1.36E 7.11E.01 3.761.01 1;80E.01 1 .OlE.Ol 5.5qE.02 3.38E.02 l.GOE-02 G.99E.03 3.3OE.03 1.27E.03 5.571.04 Z.ZSE-04 6.03E.OS 1.07E.05
*1,1940E
E8
4,745.05 5.368-06 2,62E-07
L3
06 06 06 05 05 04 04 03 03 02 02 01 00
ES
SHELL
E3 02 01 01 01 00 00
EB
3.62E-04
30
00
1.24E 1.3lE 1;OZE 5.17E 1.86E 6,35E 1.97E 4;6lE 1.40E 3;78E l.PBE 3.42E 6.29E 6.231-01 7.24E.02 I,261102 2,2OE.03 2.49E.04 2.12.E.05
E4 04 03 05 02 02 01 O? 00
=9.6590E E5
01 04 04 04 04 03 03 02 02 01 01 00 00
E4
30
F2 1.68E G.PZE 3.91E 1.26E 3.59E 1.13E 3,7lE-O? P.GlE-02 3.43E.02 l.llE-02 4,45E-03 1.47E.03 3.57E.04 5;?8E-05 8.352-06 ?.GZE.06 3.77E.07 5.0G.E.08
8.OlE 7.50E 5.491 2.79E 1.08E L.llE 1.45E 4.01E l.bOE 4.46E 1.73E 5.421 1.23E 1.6lE.01 2.42E.02
E3
2 EG
.
E2
ER
5;lPE.03 l.llE.03 1.6lE.04 1.766.05
30
2.96E 2,59E 1,68E 1.02E 4.531 2,OOE G.37E 2.G6E 1.19E 4.52E.01 2.04E.01 7.661-02 2,lGE.02 3,87E.O3 7.65E.04 2.04E.04 5.431-05 l.OlE-05
Conversion Coefficients
El 03 03 03 03 02 02 02 01 01 00 00
E3
2 EO
.
E2 00
SHELL
E3 02 02 02 01 01 01 00 00 00
2 ES
Kl
Internal
Internal Conversion, Z < 30
l,?lE 6,641 3.41E 1.36E 4.93E.01 1.97E.01 7.G6E.02 2;68E.02 1.15E.02 4.628.03 2.2?E.O3 8.991.04 2,868.04 5.GGE.05 9.27E.05 3,331.06
tl3 O? 00 00 00
9,99E 5.3GF 2.4OE 7.92E 2.3lE 7.57E 2.48E 6;TOE.ol 2.39E.01 7.9lE.02 J.PJE.02 l.OPE-02 2.72E.03 4.07E.04 6.54E.05 1.35E.05 2.371-06 1.9OE.07
01 01 00 00
1.25E 5,69E 2.06E 5.19E 1;15E 2,96E 7.G7E 1.61)E 5.01E.01 I.39E.01 4.95E.02 1,42E-02 2.92E.03 3;35E.O4 4.18E.05 6.911106 9.75E.07 7.13E.0.5
7.47E.07 8.l7E.01
14 02 02 02 01 01 00 00
7.77E 3.78E 1.48E 4,OZE 9.491 2.56E 6.91E 1;46E 4.4OE 1.2OE 4,2OE-01 1.17E.01 2.32E.02 2.52E.03 3.03E.04 4.951.05 6.GlE.06 4.04E.07
MS 04 04 04 03 02 02 01 01 00 00
5.62E 2.47E 8.42E 1.9OE 3.63E 11.07E 1.79E 3.05E 7,57E 1.70E 5.09E 1.18E 1.14E.01 T.46E.02 (.3lE.O3 1,60E.04 1.G3E.05 G.OPE-07
06 06 OS 05 04 03 03 02 01 01 00 00
KEV I2 3.81E 2.05E 9.19E 3.07E 9.17E.O? 3.rOE.01 1.06E.01 5.O?E.02 1,13E-02 3.96E.03 l.IOE-03 6.131.04 1.68E.04 2;G7E.O5 5,35E.06 1.29E.06 2.92E.07 4,38E-08
n3
n4 04 03 03 02 02 01 00 00
?.67E 6.77E 2,llE 4.29E 7;50E 1.58E 3i38E 5.658 1.39E 3.16E 9,57E-O( 2.26E.03 3.65E-02 3;02E.O3 2.7GE.04 3.54E.05 3.65E.06 1.491-07
N5 06 05 OS 04 03 03 02 01 01 00
1.69E 6.12E 1.65E 2.76E 3,G')E 6.bt.E 1.16E l.54E 3.15E 5.878 ?.52E 2.961 3.771-01 2;28E-02 !.57E-03 1.58E.04 1.27E.05 3.428-07
011 07 07 06 05 04 04 03 02 01 01 00
of Table
457
Atomic
Dota
od
Nuclear
Dota
Tables,
Vol.
18,
No.
5,
November
1976