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Prompt gamma rays from thermal-neutron capture
ATOMIC
DATA AND NUCLEAR
DATA TABLES
26, 5 11-559 (1981)
PROMPT GAMMA RAYS FROM THERMAL-NEUTRON M. A. LONE,
R. A. LEAVITT,*
CAPTURE
and D. A. HARRISON?
Atomic Energy of Canadas Limited Chalk River Nuclear Laboratories Chalk River, Ontario KOJ lJ0, Canada
A catalog of y-rays emitted following thermal-neutron capture in natural elements is presented. In Table I, y-rays are arranged in order of increasing energy. Each line contains the ‘y-ray energy, intensity, element identification, thermal-neutron radiative-capture cross section, and the energies and intensities of two of the more abundant y-rays associated with that element. In Table II, y-rays are arranged by element and y-ray energy; energy uncertainty and y-ray intensity are given. The catalog is designed for use in high-resolution analytical prompt y-ray spectroscopy,
* Summer t Summer
student from Queen’s University, student from Toronto University,
0092-640x/81/060511-49$02.00/0 Copyright 0 1981 by Academic Press, Inc. All rights of reproduction in any form reserved.
Kingston, Ontario, Canada Toronto, Ontario, Canada
511
Atomic
Data and Nuclear
Data Tables,
Vol. 26, No. 6. November
1981
M.A.LONE,R.A.LEAVlTT,andD.A.HARRISON
Prompt y’s from Thermal-Neutron
Capture
CONTENTS
INTRODUCTION ........................................... POLICIES .................................................. EXPLANATION OF TABLES ...............................
512
TABLE I. y-Rays Ordered by Energy ........................ TABLE II. y-Rays Ordered by Element and Energy 2 = l-83 (except for &n), 90, and 94 ................... REFERENCES FOR TABLES ...............................
513 514 515 529 558
INTRODUCTION
This catalog of the prompt y-rays from thermalneutron capture in natural elements is designed primarily as a convenient tool for analytical prompt y-ray spectroscopy. The employment of this technique which complements neutron-activation analysis is growing rapidly.’ Other potential uses will be the identification of background y-rays and of chemical trace impurities in target materials used for (n, y) studies.% Previous compilationss-s provided information on y-rays from thermal-neutron capture in individual isotopes and natural elements and covered data published prior to 1%9. Since then more data with higher resolution have become available which supersede earlier results. The present catalog based on the data
published between 1968 and March 1980 updates the information on natural elements in the previous compilations. The catalog is divided into two sections. In Table I, y-rays are listed in order of increasing energy. Only y-rays with intensity greater than 1% are included. Each entry consists of y-ray energy, intensity, element identification, thermal-neutron radiative-capture cross section, and two of the more abundant yrays from the element. In Table II, y-rays are listed by element. This table includes references, thermalneutron radiative-capture cross sections, y-ray energies, energy uncertainties, and intensities. of Technology Rept. MITNE-85 (1%9); also AFCRL-69-007 1 5. J. N. Hamawi and N. C. Rasmussen, Massachusetts Institute of Technology Rept. MITNE105 (1969) 6. CINDA-A. An Index to the Literature on Microscopic Neutron Data (Int. At. Energy Ag., Vienna, 1979), Vols. 1, 2 7. CINDA 79. Supplement to CINDA-A (Int. At. Energy Ag., Vienna, 1979) 8. S. F. Mughabghab and D. I. Garber, “Neutron Cross Sections,” Vol. 1, “Resonance Parameters,” National Neutron Cross Section Center, Brookhaven National Laboratory Rept. BNL-325, 3rd ed. (1973) 9. W. W. Bowman and K. W. MacMurdo, ATOMIC DATAANDNUCLEARDATATABLES, 13,90(1974)
References
1. E. T, Jumey, in Neutron Capture Gamma-Ray Spectroscopy, edited by R. E. Chrien and W. R. Kane (Plenum, New York 1979), p. 461 2. M. A. Lone and G. A. Bartholomew, in Neutron Capture Gamma-Ray Spectroscopy, edited by R. E. Chrien and W. R. Kane (Plenum, New York, 1979), p. 675 3. G. A. Bartholomew et al., “Compendium of Thermal-Neutron-Capture Gamma-Ray Measurements,” Part I, Nuclear Data A 3,367 (1%7); Part II, Nuclear Data A 5 (1968), 1; Part III, Nuclear Data A 5, 243 (1969) 4. N. C. Rasmussen, Y. Hukai, T. Inouye, and V. J. Orpan, “Thermal Neutron Capture Gamma-Ray Spectra of the Elements,” Massachusetts Institute 512
Atomic
Data and Nuclear
Data Tablea,
Vol. 26, No. 6. November
1961
M. A. LONE, R. A. LEAVI’M’,
and D. A. HARRISON
Prompt y’s from Thermal-Neutron
Capture
POLICIES LITERATURE
DATA
COVERAGE
For analytical prompt y-ray spectroscopy a single Ge(Li) or a Ge(Li)-NaI spectrometer is used. Consequently, data for this catalog are taken from measurements made with such spectrometers. Thus the extremely highresolution, mostly low-energy data, collected with bent crystal spectrometers, are not included. In Table I, y-rays with intensity greater than or equal to 1% are included. Table II contains y-rays with intensity greater than 0.05%. References to the literature containing data on weaker y-rays are identified in Table II.
SELECTED
GAMMA-RAYS
GAMMA-RAY
The data were obtained from a survey of the literature published between 1968 and March 1980. The references for this survey were selected primarily from the International Atomic Energy Agency reports CINDA-A6 and CINDA-79’ and Nuclear Data Sheets (recent references). Thermal-neutron capture cross sections are taken from BNL-325.*
INCLUDED
ENERGY
Listed are only prompt y-rays from thermal-neutron capture in all elements with 2 = 1 through 2 = 83 (except slPm) and in 2gTh and “EPu. Gamma-rays from the decay of the residual nucleus are not included. These were compiled earlier by Bowman and MacMurdos The energy of each y-ray is a weighted average of the energies reported various authors computed from the relation E = C (i3EJ-2EIlC
ENERGY
ERROR
The uncertainty
ELEMENT
INTENSITY
IDENTIFICATION
(8Ei)-2
in the mean y-ray energy is found from AE = [C (Ei - E)2(8EJ-2/(N
GAMMA-RAY
by
- 1) C (8Et)-2]“2
The y-ray intensities adopted are unweighted averages. If the original article reported only relative intensities, the absolute intensities were computed by normalizing to the absolute intensities reported by others. The intensities are given in terms of y-rays emitted per 100 neutron radiative captures.
The atomic number Z and the chemical symbol of the element are given in both tables. In some instances the presence of trace chemical impurities in target materials may have led to wrong assignments of ‘y-rays especially in the case of elements with low neutron capture cross sections. The listing of capture cross sections and TWO MAJOR LINES in Table I helps in identifying such erroneous assignments.
CROSS SECTION
Thermal-neutron
ESCAPE
Energies of -y-ray peaks which result from single and double escape of annihilation photons from the detector are not included
PEAKS
REFERENCES
capture y-ray production
cross sections are taken from BNL-325*
Reference keys are given in the style 68Jo. A complete Tables
513
Atomic
Data and Nuclear
reference list follows the
Data Tables.
Vol. 26, No. 6, November
1961
M. A. LONE, R. A. LEAWIT.,
and D. A. HARRISON
EXPLANATION I.
y-Rays ordered
TABLE
II.
y-Rays Ordered by Element
by Energy
I Z SY SIG
a, b, c, d
and Energy
(except for elPm), 90, and 94
E
TWO MAJOR
Capture
OF TABLES
TABLE
2 = l-83
Prompt y’s from Thermal-Neutron
LINES
Gamma-ray energy as observed in the spectrometer Gamma-ray intensity per 100 neutron radiative captures Atomic number Chemical symbol Thermal neutron y-ray production cross section for the element Two of the more abundant y-rays associated with the element Energy uncertainties: a < 0.1 keV b = 0.1-l keV c = l-3 keV d > 3 keV
514
Atomic
Data and Nuclear
Data Tables.
Vol. 26, No. 6, November
19%
M. A. LONE, R. A. LEAVI’M’,
and D. A. HARRISON
Prompt y’s from Thermal-Neutron
515
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
7057.8 11 44,9 4 21I:02 11 63.8 9 63.8 9 444.; 9’ 21a:2 442.9 63.8 bo,o g.;
a,48 55 cs :*: ;; 2
&3:8 8:70 65 b3*9 Loo 43 64.6 1.40 65 67.3 1*20 55 74,1 2.24 55 75.1 10.80 65 75,s 2.40 43 79.1
TB TC T8 CB CS TB TC
1.00 65 TB
116.4 172.2 1596.2 75.1
15 49 15 11
% U&:4 1lJ*;
:: 15 ‘95
11 4 9
75.1
11
1191 b5 TB
k!m! MEtoo EE
Bt46 M 8 R 197.7 2JO 56 Bn 198.0 14.89 ba ER 198.3 3.77 55 es 198.4 23.88 47 A6 hut1 198.4 1.34 71 LU 7+7EtOl 19913 Sbt4S 74 Y ItPEt 139.4 1950 34 SE lJEtO1 lW,4 1,lO 33 I lW,4 9,50 M 8D 200,3 1,bO 41 RB 200.4 be27 77 IR 201.6 1.55 51 aB 202,s 18.55 39 Y 203.1 7,21 29 w 205,b 5*&S 55 c8 20589 a,47 47 A8 206.6 2.44 63 EU
172:s 49 2.bEtOl
193.4
63.8
9
208.9 209&J 21210
254.7 25ws 5 3s1*9 s l:: i sat4
%38 5: F14.5 6.8 30 31 11&:4 1s 7f 76.4 10 198.4 24 236.7 12 221.6 2 244.1 1
1.05 71 LU 7*7Etol a,10 75 RE axtO 8~80 25 RR lJEtO1
&J
:s
$I!:3
11
Iii&
4
‘%: 2595
i
2993 334J
:I
217.4 1.79 77 IR 4JEtO2 217.5 1.35 68 ER l&t02 218,2 10,bO 57 LA 9.1000 218.4 1.14 SS CB 2.9EtOl 21988 1.31 55 CS 219EtOl 220.9 4.17 3s BR b*aEtOo 22186 2.14 63 EU 46bEtO3 223,5 221.7 3.01 4,91 43 67 lcHo 1,9EtOl 6.7EtOl
200*4 816,O 1596.2 116.4 116.4 245.7 206.6 ;3$;
351.9 198.0 288.3 176.4 176.4 l%,b 244e1 E426;;
5 15 9 10
224.4
137
33 A!? 4JEtOO
225,4 228,o
1.36 77 IR 1.09
4JEtO2
2.70
228.6 52.27 229,5 1*03 230.2 25.95 230.3 1.65 230.9 2.17 233.8 1903 234,3 3173
1105 6.00 lb.82 1.23 79&O lea0 48,79 1.71 5.47 11.39
53 I 57 LA 33 ns 43 TC 18 RR 43 TC 43 TC SS cs 44 RU 32 GE
17611 1924 35 BR 176.4 10.32 SS CB 177.2 11.11 59 I’R 177.9 1.24 33 As 178.9 1666 b5 n 182.9 3.90 59 FR 185.7 20.54 bb BY #:S 187.9 188.0 188.5
1M !i ii 1.19 33 AS 1.39 35 BR 6.8EMO 1.80 25 RR 1JEtOl
153413 172,2 4745.0 17292 239.5 116.4 540.0 3028.0
172:2 49 26718 3
lb416 200.4
17 1 6
10 6 1 1:
*3
7
351.9
5
iv:% St! *R:!!I
&3&0,0 13 SSa,4 3 116.4 15
235.1 1.99 35 BR 235.8 I,30 57 Ln 235.9 2.89 58 CE 23612 4,22 79 Au 236.3 2,39 33 As 236.7 12.22 47 na 23783 1.19 75 E 237.7 3.80 57 LA 238.9 8db 34 SE 239.8 6.24 67 HO
bdEtO0 9,lEtOO br w -01 9. tO1 4JE+OO 6.4EtOl 8.8EtOl 9.1000 lJEtO1 b.?UOl
245,7 1596.2 334.8 1201.8 164.6 198.4 209.3 1596.2 &13*9 42&e?
195.6 b
6
241,8
3.7EtOl
341.9
6 12
246.9 24748
21192 70 YB
6 41 15 15 1s 11 2 4:
2
295.6 21 8174.7 12 200.4 6 351.9 s 7&v:: B X45,5 556.4 24 13
442.9 4 218.2 11 471.9 4 299.5 11
7 49 s!i :: 49 ‘W 11 26316 5 15 176.4 10 11 475.1 7 39 596.4 33
245.7 11 116.4 15
45787 7 269.2 4 256.0 8 1,3 5 2bab 18 K 4318 12
a62 i:R # 8 M&l 214,O 54.91 72 W l.OEtO2 214.9 9.88 79 Au 9,9EtOl 217.0 9.15 21 SC 2JEtOl 217,l 1,49 43 TC 1,9EtOl 217.2 8.71 45 RR 1.5EtO2
22&l
MO,7 162.7 164.6 lbb,7 167.3 lb808 17292 174.3 174.8 175.1
3
'691e7 11 283t2 3 1?&,4 10
11 VS.6 6 15 218.2 11 96 439.7 54 12 214.9 10 17 1S34r3 7 24 ,2OS19 9 a 254.0 a 15 218,2 11 a 520.0 6 4 290,3 3 7 52bS,7
6
wi 1: ii! n:i 11 177.2 11 1: s38,4 7 41 116.4 15 17 2223.3 25 63 164.6 17 1x1 245.7 11 195.6 26.6 18 r243.8
3.76 14 SI l.bE-01 5174 79 AU 919EtOl
3533.1 68 493414 63 1201,8 12 214~9 10
516
M. A. LONE, R. A. LEAVITT,
and D. A. HARRISON
Prompt y’s from Thermal-Neutron
Capture
TABLE I. 3/-Rays Ordered by Energy See page 513 for Policies
2*9Eiol
116.4
M 314*4 317.4
kin! l*wOl bJE-01
m aa 935 53 26.6 18 7243.8 12 334.8 96 439.7 54
%:60 319,5 319.8 320.8
I:M8i 3t4MO 7*7E+ol staEtO3
15
176.4 10
a:8 d 5641,s 3 457.7 7 333.4 w
#:P l! 348.7 3 269.2 4 439.4 56 634.0 267.8
5269.2 30 1894.8 22 19983 56 6190.2 5
323.6 324.9
2223.3 25 217t2 9
::mi 2~wOO l.SEtOl
flit% 3028*0 2223.3 230.2 293.5 239.8 334.8
:: 39 25 26 5 6 96
&! 59&4 b34,o 277.4 310t2 424,7 439J
B 33 17 20 4 4 54
35iR :63
ma 21410 5269t2 3aa.Q
‘8 >H:~ ‘% xi 30 1884:a 22 39 596.4 33
39#73 sa:4
L m: 1: 3 283:2 3
ll8#
1;
g.30
1;
77229 457,7 1201,E 11684 172.2 !3Mtb 4.8
27 29bo:o 7 269.2 12 214.9 15 17614 49 299.5 96 1534.3 17 439.7
333.3 15.91 78 PT 333.4 98.90 62 St! 333.9 2.07 67 HD 334,7 2.39 45 RH 334.8 95.9s ss CE 33s*l 1120 39 Y 335.6 2.25 49 1%
356.1 439.4 239.8 217.2 439.7 &079*8 1293.4
28 5234.6 56 SOS9 6 426.7 9 267.8 54 bb2.4 77 776.8 18 1097.0
1.22 b4 8D 7,95 73 SE
fd
307.3
7SE-02 1.9EtOl
:‘M hEtO bJE-01
3,42
and Explanation
47 A6
198.4 24
a 4 10 10 11 547
236~7 12
4.98 2t20 1.30 2.53
#kl 0 339.5
32.8 12 nrr 19 K 51 SB l&to1 MEtO 6X+01 itSEM 6JE-01 1.3EtoO 1,9EtO2
6.71 3.68 41 16 PD NB bt9E 1,X@ 1.70 65 TB 2t6EtOl
%T 2! 75.1 11
w aa
17 3
4 18 4 3 26 30 12 9 9
339.5 2.78 28 III 341.7 26.27 22 11 341.9 7B19 70 YB 343.9 5.46 29 w 345*0 1.67 3s BE 346.8 2.16 73 TA 348.7 640 18 AR 348,7 2,s a1 n g.j 6p# $! g * e 23062 3916.7 5269.2 334.8
26 ss6*4 13 49 2828.1 43 30 18Mt8 22 96 439.7 54
%i =: 7R”6 8998.8 38 8533,4 558.4 3 332.8 143583 14 627.5
44 17 3 12
198.4 24 236,7 12 228.6 52 8174,7 12 Jo28.0 39 596.4 33 Bii 299.5 299.9
M 8 I 11*49 43 Tc 1.39 30 2m
P 1.8 303rb
k% 8 “I 2.14 31 6A
303.9 3os.s
3.71 72 HF 1.69 67 Ho
366~ 367,)
lt59 26 FE 2&W 1.51 35 OR 6JEtOO
7631tl 28.7
380.7
2.10
402.9 27 198.4 24 1201.8 12
73 TA
2JEtOl bAEtO1 9.9EMl
29 764&S 24 11 195.6 6
360.6 4 234.7 12 2l4.9 10
lsk1 w NW lW.7 2l 538.4 1836.1 sa aw.0
l&U02 MEto
214.0 55 239,8 6
f#H b91.7
7 11
325.8 426.7
b 4
?iik~ 230.2
fl 7 28
“e w.1 9 26 277.4 20
M. A. LONE,
R. A. LEAWIT,
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
517
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation GANM RAY I kiu x goq 404:o 411.3 413.2 413.8 417.2 418.8 419.3
25.M 1:b3 1929 7.25 1.56 7.21 1.14 1630
419,s 420.3 42099 421.9
4,Ob 1.07 1,19 1.69 42216 5.69 424.7
ELENENT 2 SY SIG
;
g
2dEtOl
58 CE t!! 67 Ho b&l 66 DY 9JEtO2 10 NE 3.8E-02 49 IN 1.9EtO2 77 IR 6 36 KR EE 23 U
S&Et00
51 SB
WEtOO
53 I 37 8B 57 IA
:=i*f 427:O 430.4 434.0 1.01 49 IN 434.2 1,32 38 SR 43594 1.22 27 CG 436.1 1.09 15 P 43683 2.19 12 110 436.6 6.54 23 U 439.3 1.62 39 Y 439.4 55.51 62 W 439,7 54.38 58 CE 440,l 3.84 10 NE
grlEtO0 2.sEtOl 5,lEtOl b+HtOl 4.3EtOO 6,9EtOO
ki
"aYLF
3bO.b 333.4 334.8 239.8 185.7 203564 l&3';
% keu
12 x
4 377.8 2 99 439.4 56 96 439.7 54 6 426.7 4 21 538.4 7 77 350,3 61 1; 109;*; 1;
881:8 84 121312 37
133.6 8
S&8 1596.2 881.8 697.3 239.8
I x
ZSY
477,b 2959 3 LI 478.3 11.17 76 GG 479.1 1.91 26 FE 479.5 1.86 15 P 479.6 2.00 12 l6 479,7 2.05 7 N 479.8 1,43 46 PD 480,l 1,26 42 Ml 481.8 12.56 S4 XE 4G2.4 2,27 58 CE
61569
8
717.3
5dEtOO 1JEtOO
6517.2 18 7162.7 13 b079.8 77 776,8 30 333.4 99 SOS.918 334.8 96 662.4 26 2035.4 77 350.3 61
3OJf.i 333:4 fwf fw E lb7.3 80 4 43.0 xi 6110.9 20
s20,o 520.0 522.9 524.3
5*8G 8.22 34 26 8E CA MEtO! 4JE-01 2.08 19 K 2,iEtOO 2.72 54 XE 2,SEtOl
195&; 1942:O 773 473ii’: 3i 770.3 51 7317 11 bbG,9 Go .9 22
X&b 52692 52819 530.8 529.3
1,GO 1,52 2.10 1.16 1.30
75.1 2223.3 1201tB 1077.4 881.8
3,BEtOO
#!:i 453.2 45318 454.3 454.5 455.6 457.7 457,9
f:ii 1.16 2.36 2,22 6124 1.05 6.95 1.12
Fil CE BA NN NB Ho LU NB
5:m ME-01 lJEtO0 1JEtOl S.lEtOl 6.7EtOl 707EtOl 1JEtOO
'#ii:: 334.8 1435.3 26.6 697,3 239.8 269.2 254,7
fl 1ki '8 96 43917 54 14 627S 12 18 7243.8 12 73 618.9 29 b 426.7 4 4 319.8 3 25 293.5 5
a:8 M 542.7 1.18 543.5 2,97 546,s 1.20 548.9 1,20 S49.8 1.03 550.3 1.34 551.6 4.04
25 101 58 CE 59 PB 56 81) SO 8N 28 NI 29 66 CU DY
lJEtO1 bJE-01 1JEtOl 1.2E+oo 6.3E-01 9JEtO2 34.4EMO Et60
26.6 334,8 177.2 1435,3 1293.3 y.78 2!k3
18 7243.8 12 96 439.7 54 11 141.3 4 14 627.5 12 13 1171.3 8 ;33 8S3&; 7914:s 31 1;
554.8 6897 21 GC 555.2 4.27 35 BR 556.4 13.05 27 CG 556.4 1.49 IS RN 556.8 9.85 37 RB 557.5 1.38 49 IN
3.59 33 I 1.99 15 P
4&a l&H1
3900.3
16 2154.2
472.4 59.83 11 M 473.3 2.21 7 N 473.5 1.50 49 IN #g 66.a ; g
4X-01
6395.4 15269.2 1293.4 s40.0 54010 241e8 334.8
22 870.6 22 30 1884.8 22 18 1037.0 12 10 687.4 4 11 1628s 6 22 341.9 7 96 439.7 54
475:) 475.4
1:aEtO2
2171 70 YB Et! 14.40 58 CE bk-01
&% 477.0
2 8 %I! 1.01 27 W
9:K Y 1 3.7EtOl
477,l 477.6
5.75 60 NB SJEtOl 2.18 73 TA 2,lEtOl
25beO 8 6.4 33
502.5 SOS.9 17892 5,23 60 62 NB SN 5,lEtGl 5s 3 516.0 25JO 18 IIR b.GE3 1 516.7 18.50 17 CL 3JEtOl
15
bdE-02 3916.7 49 2828.1 43
yE5E
209.3
16 2154.2
26 277.4 20
1X&~
1;
214.9
10
40219 23012 185.7 816.0 334.8 933.7 2035~4 881.8
27 3%: : 26 277.4 20 21 538.4 7 41 198~0 15 96 439.7 54 37 629484 17 77 350,3 61 84 1213.2 37
1.13 75 RE 8JEtOl 3,!V 32 GE 2JEtOO
1111 29 cu
471:9 472.4
848.8 15 m.9 22 439.7 54
4W,7 500.2
449.4
459.7 1.60 4bO,2 1.23 4bO.b 1.35 463.0 1919 4b4.3 1.14 46&l 12,98 m k9772
778.3 37 668.9 Go 334.8 96
18 1097.0 12 58 898,O 28
DY ER CE ZR NE 448.6 3.20 36 KR 1 58 56 25 60 67 71 41
i2
8
9.9EtOl bZtO0 2.lEtOl 3.7EtOl 9JEtO2 l&Et02 6.3E-01 la9E-01 3.8E-02 2ZiEtOl
bb 68 58 40 10
kdl
X
6 290.3 3 164.6 17 1534,3 7
2.58 79 Au 4,38 53 I 1.16 73 TA
6.81 27 CG
“YY
kstr
442.9 4
440.6 442.9 44390 447.3 447.3 447,3 447.5 447.5 447.8
2,Ol 1.54 1,87 1.80 1.32
SIG MNS
10 476.0 3 15 218.2 11 84 1213.2 37 73 618~9 29
1293.4 1836~1 230,2 3900.3
MEtO
kei
651792 18 7162.7 13 558.4 3 283.2 3
1.9EtO2 1.2EtOO 3JEtOl 1.8E-01
6X-01 3.8Ed2
GnNMRAY
27813 33 791415 31
lb416 17 1534.3
44218 lo8 l&P 2&Z 26 277.4 697,3 73 402.9 27
7 15
65 76 79 38 36
TB GG IYI ZN KB
2,bEtOl 1JEtOl 9.9EtOl 2JEtGl l.lEtGO
8
11 63.8 9 25 .o 17 12 r 14.9 10 84 19 17ib3 13:; :;
537,3 1.27 47 AG 6.4EtGl 537.4 19.52 54 XE 2*sEtOl 538.4 537.7 2.35 7.47 bb 37 DY RB 9,3EtO2 3JE-01
198.4 24 bb8,9 86 g; ;;
234.7 12 n3.9 22 tq*f 3
53984
1.01 55 cs
11614 15
7614 10
!i39,6
2.18 21 GC 2JEtOl
%“4 598.4 598.5
dd #!I bG ER 67 Ho 59 PB 57 LA 47 AG 71 LU 74 Y
2*9Etol 7:m! l&t02
52
Zf95.6 21
bJE#l
Rf 6’ w:s f 816,O 41 19GtO 15 239,G 6 426.7 4
tEi 7ktGl 1,9EtOl
457,7 7 ? 9.2 199.3 56 6 90.2
1JEtOl
2JEtOl b+MOO 3JEtOl lAEt62 3z-01 ime
la w & ::!k# 3.25 51 GB 514EtM 9.17 38 GB IJEt
558.6 72.73 48 CG 559.6 6.03 12 IIG 559.7 1165 59 PR 559.9 1.56 33 M 560*2 2*20 11 Mn
228.6
2StO3 6.3E-02 1.2Etol 4.3EtM 4.OE-01
228.6 245.7 230.2 217.2 476.0 1293.4
4 5
52 295.6 21 11 195.6 6 26 277.4 20 9 267.8 3 3 1030.a 3 la l
a!:! ifi 2 28382 3 1836.1 58 651.3
14 1
! 20
61849 29 360.6 4
567.3 569.0
4033 57 LA 9,lEtOO 1.03 66 GY 9JEtO2
lN&;
e
;!
i3G la.2 ii r4 7
518
M. A. I&N&
42..A. LEAW,
and D. A. HARRISON
Prompt y’s fmn ‘IWmal-Neutron
Capture
TABLE I. .-y-RaysOrdered by Energy See page 513 for Policies and Explanation
snfwl RnY ke! 569.3 56947 571.1 572.2
8.52 1.13 1.04 1.69
76 42 54 19
2224*33g
6s 86 KE K
63&i ;;
66d9 80 m:9 22 77013 51 2073t7 11 177.2 11 141.3 4
573.1 1.45 59 P% 573.7 1.25 42 M% 574.6 575*3 575.3 575,a
6Rii
12.60 39 Y
%
!R!
ii
3026.0 39 596,4 33 no.3 51 2073.7 11 558.6 73 651.3 14
1.33 32 8E 1.14 19 K 2.31 48 CD
577.9 579,4
1.32 74 Y lt9EtOl 1.96 80 H6 3&tO2
368.1 81 16931914
1991356 619012 5
7!M*J 707.5
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1,70 15 P
1,aE-o1 3900.3
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:a
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2.00
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ii ifi
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M :I 333.4 334.8 615.9 816,O
B 99 96 8 41
%5 i#:: 439.4 439.7 325.6 196.0
a :: 56 54 7 15
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2746:9 77272.Jg3 299.; 72312 g2 3916.7 49 2828~143 27%,3 33 791415 31 3028,O 39 596.4 33 778.3 37 848.8 15 238‘9 8 520.0 6
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mt5
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14 4095.6 11 52 295.6 21 11 475.1 7
668.9 457.7 334.8 2035.4 207317
10 475.1 6
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634.0 16.88 76 0s ME+01 2223.3 25 187.3 15
11113 23 U 2.61 19 K 2.60 29 al
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648.8 650.9 2.9% 1.04 3% 66 SR DY 1JEtOD 913EtO2 1a36:1 5% 89%:: 2 651.0 651*3 658.3 65919 660.9
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662.4
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2.22 58 CE 6JE-01 3.77 69 TH l&t02
63g.t g
g.;
6360.0 1596:2 15 13 643::$ 1942.0 73
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618.9 29
$3 23d2
808.1 2,18 21 SC 2.7EtOl 2.62 70 Ya 3JEtOl
809.3
195$;
26 6%: ifi 27714 3 20
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54 6
3.21 9.60 42 17 I(0 CL 2X+00 3JEtOl
1186.5 11 944.0 11
:;
1919 39
439.7 475.1
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1;
96 439e7 54 33 7914.5 31 22 537.4 20 w 43964 56
334.8 96 540010 10
773.9 22 269a2 4 439.7 54 350.3 61
786.3 786.8
368.1 81 1693.9 14 3349% 278.3 773.9 333.4
80 7 96 n
11 JSBQ.6 9 199.3 56 6190.2 5
11 141.3 4 816.0 41 198,O 15
676.6 687.4
w
1836.1 5% 898.0 2%
1435,3 228~6 54oro 540.0 668.9 177.2
645.9 646,7 648.4
16 2154,2 15 558.6 73 651.3 14
ldEt-00 33.10 32 %E 2JEtoo 1435,3 302&o 14 39 627.5 868.4 13 5269.2 30 1884.8 22 4.35 7 8 7SE-02
596.8 1.08 59710 1.66 597.1 1.62 600*2 11,36
609.2 613.9
:
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;
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;
52 295.6 21 241.8 22 341.9 7
M. A. LONE,
R. A. LEAVITT,
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
519
Capture
TABLE 1. y-Rays Ordered by Energy See page 513 for Policies
6nNMRAY I& 61297 614.7 616.0 616.6 619.3 023.1 823.5 626.4 %2%e7 %30,4
: 1.04 10.15 40.96 En76 2‘71 1.03 4.26 Lb3 2,96 1.72
831.2 1.63 62 %H 834.6 2.73 30 ZH 835.1 2bdb 24 C% 635.9 1,50 41 I 63btb 1165 20 CA 837.7 9.60 1% AB a41rl 75155 lb s 843.7 1.84 19 K 644,O 2~30 40 ZR 846.1 lb32 10 & 846.1 846.9 %4%,% 850.5 653‘4 853.5 659.0 ab0.3 6b4,3 ab4.9
3.52 1.06 14.52 11~14 4.91 25.96 1146 1.W L20 12.20
- Yx lleb
ELEMENT z SY SI6 54 XE 60 ND 6% ER 56 %A 49 IN 44 Ru 23 V 35 BB 76 6% 13 AL
668.9 697,3 196,o 1435.3 1293.4 540.0 6517,2 245.7 2223t3 7723.9
865.8 2+28 7 N 867.2 2.17 20 CA 867.3 la10 16 AR 868.1 1.10 57 LA 868.3 1.97 62 %I! 868.4 14.79 32 6E 868‘6 1.02 64 ED 869.0 2.02 15 P %b9,2 1.42 79 All 869.9 3826 54 XE
w 19 27 25 73 80 59 51 37 77
439.4 7863.3 7939,3 293.5 b419.9 4745,O 2379.7 2073,7 6294.4 350.3
56 11 13 5 39 55 45 11 17 61
9bOt6 4tbD 961.8 7,42 961.8 lo.26 9b3#9 1.90 973.2 1.19 976.2 5.2% 977.2 4.13 97763 5.0% 979,2 1.52 960.1 L66
32 BE 2JEtOO 3026tO 39 3196.4 b4 ED 4.9EW 1186.5 11 44.0 5% CE bJE-01 334.6 96 43967 36 X6 2AEtOl 881.8 84 1213,2 50 SN bJE-01 1293.3 13 12i2a ill.3 12 %% bJM2 3916.7 49 bl 64 ED 4*9Et# 1186.5 11 944.0 5% CE bJE-01 66 DY 9JEtO2 20 CA 4JE-01
6517.2 8998,~ 778.3 Mb.1 816.0 ba09.4 333,4 226.6 81610 697.3
1% 38 37 5% 41 64 w 52 41 73
7162.7 8533,4 720*3 698.0 198.0 33b7,b 439.4 295,b 198.0 618.9
13 17 7 28 15 34 56 21 15 29
980,7 961.2 983.5 984.0 9%7*7 990.5 997.0
3 LI 60 ND 22 TI 13 # 76 66 40 ZR 5a CE
5269+2 1942.0 167.3 1596.2 333*4 ma.0 llBb*5 3900.3 1201.8 bba,9
30 73 60 15 99 39 11 lb 12 80
1684.8 b419.9 4745,o 216,2 439.4 59684 944.0 215412 214.9 773.9
22 39 55 11 56 33 11 15 10 22
333,4 1077,r 688181 254.7 4JE-01 1942,O 6X-01 167.3 ME-01 542Oa5 2,lEtOO 770,3 93397 1.9E-01 3,%E-02 2035.4
74’E bk-01
9.1EtOO 5*6EtO3 2*3EtDO 419EtO4 l.aE-01 9,9EtOl 2StOl
870.6 21.92 11 WA 4.OE-01 71.9 100,oD 70.9 2.71 5% a CE 0 2 7 -04 4:&0i 672.7 2.39 37 RB 3JE-01 %73,2 lta3 81 TL 3AEtoo 1g.i pfi =3” I !u :;#ili a61:a 64:oo 36 KR 215EtOl 883.3 2.67 bb DY 886.5 1,50 34 %E EEt
472.4 60 b395.4 22 2184.5 62 10%7,9 82 334.6 96 439,7 54 556.8 10 476.0 3 5b41*5 3 348.7 3
886.6 2.59 80 H% ti.9 1,io 76 66 666,b 1.74 21 SC 691,a Lb% 74 Y a9513 1.36 54 XE 696.1 1.34 41 MB #be7 1.M 39 Y 697.3 6.51 64 ED 898.0 27.84 3% SR 898.0 10.65 5% CE
3.6EtO2 MEti1 217EtOl 1.9EtOl 2.5EtOl iJEt lJEt# 4*9E+O4 1JEtOO 6.3E-01
3b8,l 222&
81 1693.9 14 E g.6” ;[
1w:3 668.9 254.7 60796% 1186.5 1%3b*l 334.8
56 bd2 80 773,9 25 293.5 77 77b*% 11 944,o 5% 850.5 96 439,7
5 22 5 30 11 11 54
898.2 902.8 9W.5 910.9 912.1 912.7 914,9 915.3 9lbeb 928.2
1.65 2.64 1.07 1.08 2.96 3.20 3155 1.1% 1.45 1.01
2.bEtOO 6.3E-01 1,lEtOO 3AEtOO 9JEtO2 1.9E-01 l&t02 ME-01 4,9EtO4 3JEtOl
7631.1 334.8 1077.4 5b41.5 16517 933.7 816.0 390013 Mb.5 230.2
29 96 19 3 21 37 41 lb 11 26
7645.5 439,7 7863.3 348,7 53884 6294.4 198.0 2154.2 944.0 277.4
24 54 11 3 7 17 15 15 11 26
930.2 930.5
1.81 76 6% 1.01 68 ER
lAEtO1 l&Et02
222313 25 %lb*O 41
634.0 19&o
17 15
I-
~~
26 FE 5% CE 30 2% 81 TL 66 BY 40 ZR 68 ER 15 P M ED 27 CO
238.9
8
613.9
40 26 62 %H 56 CE 36 -- KR 27 C6 b4 ED 39 Y 41 15 ttB P
lt9E-01 5StO3 bJE-01 2.5E+Ol -.--_-_ 3JEtOl 4.9Eto4 ME400 1JEtOO 1.8E-01
1136 54 XE
215EtOl
TWilMHILWS 11 ll% x Peu
933@7 941.3 943,3 943.8 .-.944~0 944.0 944~4 94446 945,2 958.9
37426 1.42 16.43 5.40 _. 2.21 1osb 1.80 1.88 ltl3
ELEMENT 2 SY SI6 BnRNs
a0 773,9 22 73 61%,929 15 284.1 12 14 627.5 12 la 1097.0 l2 11 47541 7 16 71b2,7 13 11 195.6 6 25 b34*0 17 27 2960.0 6
JdEtO3 l+lEtOO 3,lEtO% iJEt
23 U 5.OEtOO 28 WI 42 I 3% SR 6% E% 4 %E 62 SN 21 6C ba EB 60 N%
and Explanation
9.83 2.34 2.56 5.47 1.70 1.47 1.34
3tbE-02 5JEtOl b,lEtOO 2JE-01 1.5Etol 1.9E-01 6.3E-01
1zc
:A ti !I MM 100b.b 1*41 59 P% MEto
1007,4 1016.1 lOlba5 1019.0 102019 1030,a 1031.5 1032.4 1040*0 1043.5
17
#3$j, Wi.8 ---.230.2 118b.5 6079.8 3900.3 254.7
g 8 47 54 84 1213.2 -. -__-.- 37 _. 26 q7g.j 8 11 77 jb’ 6.6 30 25 lb 2$9 ‘Tj 1;
bb8,9 60
2032e5 697.3 1381.5 7723.9 22222;
250::
f
b294.4
569
773:9 22 33 11 54 37 6 43 11
69 1052.7 5 73 18.9 29 69 c 4.; ? 27 $j :o 17
334:% 96
‘1:
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&8 141.3
:: :i’ 4
2,80 3.20 9.00 2.47 1.33 3.02 4+96 1.37 4.20 1.17
30 36 10 26 57 37 54 15 56 35
Zn KR HE FE U RB XE P M BR
LlEtOO 2StOl 3.8E-02 2tbEtO6 PtlE+OO 3JE-01 2,5EtOl lbuE-01 1JEtoo b*%EtOO
1077.6 1.30 1080*3 2.81 1064.4 1.53 1086.4 1.19 1087.9 I#,00 lOW.5 1.53 1091.2 3180 1096,4 1.84 1037.0 11.94 1098.9 1.64 1100*7 be19
36 72 21 19 6 21 42 b4 49 54 32
w HF aC K 0 6C 111 6D IN XE 66
2,5EtOl 861.8 84 1213.2 37 l.aEtO2 2,7EtOl 211E+OO 2.7E-04 2JEtOl 295mb 21 2, B tO0 118b:5 f2$; g11 P .8 15 4. to4 1.9EtO2 2StOl ‘29$ . g 2 !73 E .9 ::22 2.3EtOO 3026.0 39 596.4 33
8
54o:o0 214 540.0 1186.5 334.8 1186.5 334.8 #q * 1124~1 1124.5
l&O 54 XE 2,5EtOl 2.20 36 XR 2StOl
55 11 10 11 96 11 96 B
R! s 475.1 6 p44.0 11 439.7 54 944.0 11 439.7 54 gpf 25: *
668.9 80 773.9 22 881.8 64 121362 37
520
M.
A.
LONE,
R. A. LEAVITT,
and D.
TABLE
A. HARRISON
Prompty’s from Thermal-Neutron Capture
I. Y-Rays Ordered by Energy
See page 513 for Policies and Explanation GnuM RAY
ELEAKl
z SY
SIG BMNG
kiu : 1127.8 2,83 46 PD bepEW Mt 1132.5 1138.0 1138,b 1139,s 1140.6 1141.0 1142.4
!I:#
13I!!
1.15 ltlb 3.04 1.53 1.42 1.51
60 8B 29 W 54 XE 31M 58 CE b4 GD
3176 40 2R
1.76 64 8B it87 20 CA k i!
#f
Y8GMJJBLIWES 11 k: z kEvu ‘22
4dE-01 3 $8b 9#!:39 !! wEtO
2R,9 R 1950.9 22 6110.9 20 1950.9 22 6110.9 20 228.6 52 295.6 21 334.8
bJE-01 l%! 1173.0 2.24 54 XE 1175,4 1.95 72 tF 1175.7 1.20 76 08 lktO1
:*El
1186.4 19.67 118110 it16 K!! 1186.5 1018364 8D 1186.7 2.11 39 Y 1186.8 52.20 18 AR 1189.0 1.05 28 nr 1194.2 1881 62 BK
‘da!
bb8,9
96
43917 54
G lzk54 ? Bo
23
:
334:8 96
414EtOO s,mO3
'%E *
10 ii
1199.2 2.16 35 BR 6.GEtGG 245.7 11 195.6 6 1200,b 2.34 46 PD 6*9Etoo blSt9 8 717~3 8 1200.9 3.69 42 M 2JEtoO 778.3 37 848.8 15 164.6 17 1534e3 7 1201.4 l*IS 33 As 49*EF 214.9 10 261.1 b t&f w ii R” 3:4E td sbhs 3 348‘7 3 ::=Eg&I
bii:Q
!Y
773.9 22 325.8 b #ki
1.30 21 SC 3.87 72 H
M:il
M
2mOl ldEtO2
6, -01 2.1 5: too 'PO? 2.6EtOG 763111 1261.3 1.28 54 KE 2.SEtOl 668.9 1261.7 29,53 6 C 3x-03 4945.3 ion,4 1262.1 1.95 30 ZK 1262,6 I$ *8 8 l267:4
-334.8
4*09 58 CE pg ; #
1276.6 1278*2
2223.3 2s
2.14 57 LA 2.51 68 ER
1308.3 1.23 57 LA 1303.6 1.47 72H
439.7
54
b&o
17
3B 770:: ,l b8 ‘;: 493414 207& :’63 1596.2 15 218.2 11 816.0 41 198.0 15
1s:~ :: H
1283.3 1.77 48 CD 1291.3 6.88 54 KE 1293.3 12n76SO9N 12936417.59 49 IU 1293.7 7,40 62 W 1297.8 11.92 54 KE 1301,b 1~38 28 WI HE:“6 ::I! # “1 1304,6 1.27 37 BB
19 7863.3 11
568.1 81 1693.9 14 1186,s 11 9uro 11
1:U 71 OS 1268.5 1.34 19 K W:d
3: 29 80 68 96
2.5EtO3 2,SEtOl :*zz sktO3 2sEuil 4AE+OO 2.SEM3 2JE400 3JE-01 9JEtOO
l.GEtD2
558.6 73 651.3 14
668.9 80 773.9 22 1171,3 8 1229.5 7 1097.0 12 21 d9.4 2.1 ll 333.4 w 56 668,9 80 773.9 22 8998.8 3G 8533.4 17 ?3ti 5: 2%! 556.8 10 476.0
f"i 3
15 2l8.2 11 214.0 55 325.8 b
1596.2
350.3 bi
s
f
ii!:9 8 668.9 80
!&I ‘3 773.9 22
1.56 1.09 1.33 2,71
15 P l.GE-01 3900.3 lb 2154.2 15 21 Gc 2JEto1 :: 76 OS l.SEtOl mm3:63 H ml 64 8B 4,9Eto4 1186.5 11 944.0 11 bJE-01 X54,8 96 439.7 5) E iFi 2,SEtOl 881,B 84 1213.2 37
:‘;,
m88 2sEtol
228.6 52 295.6 ton.4 19 7863.3
1334.7 134&S M;f 1352.9 1354~0
21 11
533:t # et % 816.0 41 198.0 15 167.3 80 474.0 55
:ia! 176 13b4,l 1364.2
i377,l 1379.4
ii03
138843
3.05 2ocb
boo’s”
;
z*;
;
bl
3900:3 b@$ g lb 2lS4.2 77!;; 815 Ml844 30 Ml,7 26 \94& 3 M3409j g
1396.6 1.26 108E 139983 3.17 48 CD 1400.2 1.06 23 V I,11 37 w 1404.6 7695 40 Z8 1407.6 lt23 80 KG 1408.9 leO8 13Iy 1413.1 14.04 15 P 1414~1 3,92 60 ND
29 7645.5 24 18 7l62.7 13 77 350.3 61 73 65183 14
77O:a 51 2073:7 11
bo UD
l404,2
7631.1 6517.2 203St4 X&b
SS8:b 73
MEtOO 3JE-01 1.9E-01 3.8EtO2 2JE-01 l.BE-01 S,lEtOl
651.3 14
bSl7,2 18 7162.7 13 556.8 10 476.0 3 933.7
37 6294.4
697.3
73
17
368.1 81 1693t9 14 7723.9 27 2960.0 8 39OG13lb 2lS4.2 15
143513 14toS 56 )A 1JEtGO 627,s 12 1442.1 1.13 38 GB 1*2EtOO 183b*l 58 144488 2.94 56 M lZtO0 1435.3 14 lU7,S 1alO 57 U 9,lEfOO 1596.2 1S
228:b 52 214.0 55
f! s= 1260.6 2.57 26 fE
*; 77
618.9 29
$’
12l3,2 37,OO36 KR 2,SEtOl 881.8 84 2.05 38 RR 1*2EtOO 2.15 80 HB 3.8EtO2 ‘W B
1218,s 1225.7 122G,o 1228.9
1330.3
k:: 2035.4
PI
1.60 54 XE 1380.6 1.98 1s P 1381.5 69.08 22 11
776,8 30 4745.0 55
6b8,9 80 214.0 55
1326.2
N8MJlRLIlEs
19
12.08 54 #
39
ii
SIG MRUS
: 1.20 10 WE 3.8E-02
1369,s 1.17 39 Y 1371.4 1179 58 CE 1373.1 lS7 19 K
944.0 11 199:)
2*SEtol lnOEtO2
d
773.9 22 6 b&o 17
214,O 55 32Sr8
439EtO4
lJEtO0 698E-01
z SY
615,9 8 71743 8
k&Ii 8kb !I ml ii 1.9E-01 933.7 37 6294.4 17 SJEtOl 697.3 73 618.9 29 3.8Et8D 278t3 33 7914.5 31 2.SEt81 a.9 80 773.9 22 2tPEtOD 63bOtO13 691.7 11 bJE-01 334.8 96 439.7 54 4.9EtO4 1186.5 11 944.0 11 4,9EtO4 1186,s 11 94&o 11 1942‘0 73 Ml9.9 39
1.30 17 CL 3JEtOl a93 17 a 3JEto1 @#
Gmn RnY
4095.6 11 898.0 28 627.5 12 218.2 11
l479,4 1.57 19 K 2tlEtOG 770.3 31 2073.7 11 1481.9 1.58 bDND %lEtOl 697.3 73 618.9 29 1484.8 2.86 54 XE 2*SEtOl 668.9 Go 773.9 22 SS8.b 73 bSl.3 14 1489.4 1.86 48CB :*Yi 2. too %: 3 iii:3 H bJEtO0 b44$ g 2.SEtGl 3’,5 1 1.78 49 8 12931418 1 ::j H 1.26 32 iE P 2a93 27 CG Cf z 277:4 20 b&9 80 773.9 22 3.28 548
l!i
1534.3 1535.2 15&S 1548.0 1549.5 1552Il 1553.4 tw 1565.3 1566.6 1571.4
7.18 la26 lt2G lt90 3blb
4JEtoo 164.6 17 1,2EtGO 183&i E 2,SEtOl 14 ‘3 14 123m 2%b S2 6360.0 13 3.76 31 M 2e9Etw 1.28 22 11 6.1EtOG 138l.s 69 4.30 1.12 Ex! s%m %:? i8 1846 19 K 2.lEtOO 770.3 Sl 1.34 42 MU 2.7Et00 778.3 37 7.27 GO118 3.GEtD2 368.1 81
33 A5 3GGR 36 KG 56M 21 GC
471.9 4 898.0 28 1213.2 37 %"6
ii
691.7 11 M18:; ii % .9 22 2073.7 11 848.8 15 169369 14
M. A. LONE,
R. A. LEAVITT,
Prompt
and D. A. WARRISON
y’s from
Thermal-Neutron
521
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
- Y2 kEeV
ELEHEHT 2 SY SI6
1572.6 1.71 46 PD 6.9Etoo 1572.7 3.36 21 SC 157305 1.74 46 P6 bz:2% IJEt 4,7EtOO 1590,o 1.00 13 Al 1596.2 15.36 57 IA 1598.2 1.28 54 XE 1600.6 4,16 17CL 1612.7 6.00 26 R Ml !m 1617.4 2.40 1617.9 6.02 161813 1.92 1618.3 2.01 1616.5 8.16
1618.6
B !I 54 XE 40 ZR 41 NB 30 M 19 K
1.49 46 PD
1618.6 8,OO 56 M 1618.6 1618.7 MI:!
1J6 :z I,41 1619:6 1,73 3.64 EP * 1,64 1622.5 1624.0 1628.5 1629.9 1632.3 1632.8 1633.3 1633.9 1634.4 1637,4
7v:3” % 141.3 4 274b.9 3
b!M 30’ 63:#8i 2JE-01 9vlEtOO 2*5Etoi bllOa9 20 3AEtOl 2*bEtOo 7631,1 29 7645.5 24 PI&77 :: =:w 773t9 22 2aEtOl 1.9E-01 1.2Etoo 254,7 25 6iz ‘: 7863:3 11 lJEM0 4: 2073.7 11 2elEtOO ‘% 619Etoo 61519 8 717.3 8 IJEt 14351314 627.5 12 L9EtOl 199.3 56 6190.2 5 133,6 8 442.9 4 bJEtO0
2:#8? i!k: 1s 52 TE 4JEtOO bO3.1 9 32 8E 213Etoo 3028.0 39 ib4.b 17 33 6s 44 RU 540.0 11 45 Rtl 217.2 9
R:49 18 2746~9 3 596.4 33 1534.3
7
2b7e6
3
475.1 7
- Y2
YFL11E9
ktE 1724.0 1725.0 1725,l 1725.5 1734.2
ZSY 8MW8 616 k% 2 B f 2.91 20 CA 4JE-O’ 1942.0 73 6419.9 39
:w :! 1747.0 1747.2 1748.9 1750,o
!:I# 3.31 1.08 2.10 3‘01
1752.8 1757.6
i:;
17bOJ 1760.2 1761.9 1764.4 1770.7 1775.0 1777.8 1783.8
iti! 3# 1.36 41 wb 3*89 15 P
D i!i 25 RI 10 IIE 11nn 12is
A # 15 P 1:OO bbw 5a64 22 11 3.00 14ss 1.76 4600 ::E 5107 23 V
I* IH-O 9:3&
l381.5 69 6418t4 iYE E 2:5Eta l&-O1 3533; 3539:1 g68 4;w# 934:4 5,oEtQo 6517~216 t 162~7B
1803.7 1802.1 1.32 1.98 78 27 PT Co l,OEtOl 3JEtOl
78 PT l.OEtOl 356,l 26 333.3 16 7 N 7X-02 5269.2 30 1884.8 22 7 N 7.5E-02 5269,2 30 1884.6 22 15 P 1.8E-01 39001316 2154.2 15
1888.8 2.48 31 8h 2,9EtOO 1889.3 1.97 37 RB 3JE-Ol 1889~6 2.27 11 I# 4. 5 -01 1890,O 1.16 27 CO 3. tO1 1890*0 6.W 15 P l,SE-Ol 1890.1 2.24 54 XE 2.5EtOl 1890.2 8.65 12 118 beI -02 1890.4 1183 40 ZR I, -01 1891.3 1.67 56 M ME400 1897.5 1.92 10NE 3tSE-02
:a
3,03 21 6c
1.08 70 YB
1878,7 1.10 36 KU 1880.2 1.41 20 CA Ml,5 I.40 18 AR 1881.6 1.16 38 SR 1883,9 6.79 30 M 1884,8 21162 7 N
1676.8 1.02 1678e3 7.36 1661.4 1.62 1688.2 2Jb 1690,l 7@7712116 6JE-02 39161749 169113 1.97 20 CA 4*3E-01 194&I 52 1692.0 4.65 21 SC 2JEtOl 1693.9 14*13 80 IiS 3.8EtO2 368:l 81 1693.9 1.02 23 V 54Etoo 6517.2 18 1694.8 1.25 24 CR 3*lEtOO 8884.1 27 1701.5 1.82 44 RU
540.0 11 1942.0 73 770*3 51 26.6 18 1201.6 12 334.8 96 3916.7 49 bJE-02 l&f I M#84 3JEtO2 368.1 61 4.3E-01 2JEtOO iJEt 9,9EtOl 6.3E-01
1720,6 1.39 72 HF l&Et02 1721.6 1.59 52 TE 4.7EtOO
341.9
7
2828,’ 43 b4&
;f
59661214 7162.7 13
835.1 27 475.1 7
6419.9 39
2073,7 11 7243.8 12 214.9 10 439a754 2828.1 43 la:% li 1693.9 14
214.0 55 325.8 b 603.1 9 W46.9 3
3dlE-02 20351477 4.X-01 1942.0 73 2dEtOO 540.0 11 bdE-01 167.3 80 3t7EtOl 230.2 26 1,2EtOO 143&: g
1853,3 1.31 27 C6 3.7EtOl 1857.3
22
E
ge:
E
350.3 61 b419t9 39 ,475tl 7 4745.0 55 277b420 b2&; ;:
1839.7 2.19 31 66 2,9EtOO 636O:O13 b91:7 11 1842.1 1,21 22 TI 6,lEtOO 1381.5 69 Wl8r4 30 1847,7 3.38 40 n 1.9E-01 933.7 37 6294,4 17 :i#:d’
241.6
ge;
1804,2 3.92 54 XE 21 to1 b68:o 80 7731922 1808,9 29t97 12 N6 6,if -02 3916t7 49 28284143 1812.8 I,51 21 SC 2.7Et01 226.6 52 295tb 21 1821,6 2.04 10 ME 1825.8 2.13 20 CA 1827,3 It55 44 Ru 1828.8 1.00 18AR 1831.0 6,21 27 Co 1836.1 1835,o 57,79 1.60 38 56 SR Sa
3.7Etol
R:! 8 !i%:lH 1851721 ‘538t4 7
6.07 24 CR 3.lEtOO 8884.1 27 83581 27
19 3 8
166462 1:92 1671.7 2.67 1,32 %*3 I,26 1474:1 3,55 1674,2 1.93
a!:3 33 26.6 16 2035.4 77 472.4 60 6.3E-02 3916.7 49 2828.1 43 1*9EtO2 1293.4 16 1097.0
2.3E-01 7723.9 27 29&O 8 2eXt01 668.9 60 773.9 22 2&00 540.0 11 47581 7 ME-01 390$; ;; 2154.2 15 6294.4 17 1.9E-01 bZ-02 3916:7 49 lL?EtOO 14351314 %?: 2 1*9EtOl lW*3 56 6190:2 5 4.w01 472.4 60 b395B422 2,5EtOl b68.9 60 7731922 40 ZR ls9E-01 93387 37 6294.4 17 4.3E-01 1942,O73 6419a939 2sEto3 556&b73 651.3 14 23 V 5.OEtOO 6517,2 16 716287 13 1942.0 73 6419.9 39 20 CA 4x-01 b97,3 73 618.9 29 60 IID WEtO 29 w 3mOO 278,3 33 7914.5 31 1s P 1.8E-01 3900*3 16 2154*2 15 30 UI l*lEtOO 1077.4 19 7863*3 11
3435 13 AL 2.00 54 XE 5.88 44RU 2.81 15 P 2.31 40 ZR 5SO 12HS 2.48 56 Bn lrl0 74 Y 7.45 11Iin 1.84 54 XE
1642.6 1.88
1675.1
Tw Y ‘lF 12 k% 2 keV 2 625.9 8 717,3 6
B ti
ml 2JEtOl
215EtQl 4JE-01 bt6-01 IJEt 1,lEtOO 7.5E-02
230~2 26 277a420 It&% !! 63:! 5i 226.6 52 295.6 21 Ml.8 64 :1213t2 37 1942.0 73 ‘64198939 167.3 SO :4745+055 1836tl 58 898.0 28 1077.4 19 ‘3863.3 11 5269t2 38 ‘5298.0 21 636otO 13 691,7 11 556.8 10 476.0 3 3900:3 g’2 16 g lg.: ~2l54:2g15 MB.9 80 773.9 22 3916.7
49 1282g.i 43
933,7 37 ~6294.417 1435.3 14 627r5 12 2035.4 77 350.3 61
1897.6 1898.4 1898.5 1900,4 1913,9 1915,2 1918.2
8.10 36 KR 2aEtO1 Mb6 84 1213e237 1.98 56M l&t00 1435.3 14 627.5 12 4.27 24 CR 3dEt60 8884.1 W 835.1 27 1.49 21 SC 1.20 10 HE 2m s: i!iJ iI 16 5’243.6 12 hi:: 9 2746.9 3 ii ~a!:3 11 m:31 fM 1930.5 2035.4 77 35Ot3 61 193117 8A 219EtOO 1932.2 1.38 1.19 31 11HA 4dE-01 vi;:
K&R::
::
522
M. A. LONE, R. A. LEAVI’IT,
aud D. A. HARRISON
TABLE
Prompt y’s from Thermal-Neutron
I. Y-Rays Ordered by Energy
See Page 513 for Policies WINA RAY kL 194015
TWOIMRLIWES z SY
SI6 8ARNs
2.02 32 BE
2JEtOO
:
:%t::g 7M !dd 1945.9 1.28 54 XE
1949.0 1949.9 1950.3 195069 1953.2 19JJ.7 1956.7 ;y.i
kit!
‘:
3028.0 39
kZ
‘r2
596.4 33
80 773.9 22 60 6395.4 22
13 8533.4 58 691.7 11 17 20 llMI7 20 ; 7g; g *
2.29 :.g
19 'K 10 ME
2.lEtOO 3.85-02
770.3 51 2073.7 11 2035.4 77 3SO.3 61
&:e lh 1959.1 14.62 1961.0 1.20
ti P 17 Cl 36 KR
km IJEt 2AEtOl
tit!:! !I #!:a B 1950,9 22 611019 20 88198 84 1213.2 37
ma 2*sEtOl l.OEtOl
&!:24
Mu 1975.1 1978.7
f:B 4 fi 1.04 54 XE lJ6 78 PT
1979.3 1979.5 1982.4 1983.7 1987.4
4490 9660 1.87 labs 2.56 1987.6 2~74 1988.0 2.34 19R8,9 1.03 1994,7 2t5S 1999.7 4,lb
36 10 12 11 54 25 40 7 24 7
KR HE MR IIA XE RN ZR N CR N
2JEtOl 3.8E-02
1999.8 2000.8 2001.9 2002.4
1.08 15 P 9,97 20 CA 1,20 7 N 7,02 80 MS
1.8E-01 4JE-01 7.X-02 3dEtO2
2006.1 2007.6 2009,2 2009~9 2015.2
2,43 la97 7,48 1.52 1.67
f8
bR24
SC K 2.7EtOl 2,lEtOO CA 4.3E-01 I#) 2.7EtOO GA 2.9EtOO 201615 3.36 25 MN lJEtO1
ktvE 2100.5
NH 2111~4
35601 28
333t3
2154a2 Ml919 1884.8 169319
15 39 22 14
R 0:t 1942.0 778.3 b3b0.0 26,b
5q 28276 73 6419.9 37 848B8 13 691.7 18 7243.8
f: 39 15 11 12
SIB 8ARNs
1.05 23 U
TM0 IWRLIlEs 11 E2 k5: Z keU 6517.2
:;aBf
18 7162.7
I2 Z 13
7%79 B KM ‘I 228,b 52 295.6 21 1836.1 58 8w.o 28
21 SC 38 SR 49 IN 50911 15 P iii
472.4 60 6395.4 22 b360.0 13 69187 11 W:! ii m1 8 472,4 60 6395.4 22 7723.9 27 2960.0 8
1.75 13 AL ::#I #id 1.10 19 K 15.23 15 P
lb
lb '73 30 81
z SY
2123,E 212&*1
fi
3900.3 1942,O 5269.2 368.1
:
2.71 1.28 2::: *: 10.71 3 11217 1.50 2114.3 6.94 2118.4 2121.5 :':6
668.9 80 773.9 22
881.8 84 1213,2 37 2035*4 77 2bSO.3 61 bJE-02 5916.7 49 $1 43 I,OE-Ol 472.4 60 b395a4 22 2.SE+ol 668.9 80 773.9 22 1.3EtOl 26.6 18 7243.8 12 1.9E-01 933.7 37 6294,4 17 7.SE-02 5269.2 30 1884.8 22 3JEtOO 8884.1 27 835.1 27 7AE-02 5269.2 30 1884,8 22
211 20 42 31
and Explanation 6nNM RAY
it fRi ts :s8 ilk39
2stO1 668.9 2.00 11 WA 4dE-01 472,4 1.06 31 M 2.9EtOO W.8 0 1.35 28 WI 4*4EtOO 21,72 17 # 3JEtOl &110,9 1.77 23 V fss7v; 1.17 38 SR :*iE t *
Capture
#:oz # MI3 770.3 51 2073.7 390013 lb 1413.1
2157.4 3+&2 7 N 7sE-02 2159.6 3.50 36 KR 2aEtOl 2170.8
2,08 54 XE 2172.6 2.59 15 P 2174.7 2.63 7 N 217&e& 1.83 25 NH 2179.0 1.14 50 SN 2184*5 82.00 8 0 2191.4 2.07 40 ZR 2197.7 2.19 11 lh
2sEt01 l&-O1 7.sE-02 lJEtO1 bJE-01
2200,2 2203,4 2203,b 2205.5 2209.6 2211.3 2212.9 2213.3 2214.0 222060
2*sEtOl MEtoO 3.8E-02 2.lEtOO 2JEtOl lJEtO1 l.lEtOO l.pE-01 3dEtO2 lJEtO0
1.30 1.44 6.84 It10 MO 1.62 3.S4 1.33 1.20 2,20
2223.3 25.02
36 i(R 38 SR 10 ME 19 K 54 XE 25 1QI 30 2N 40 2u 80 N8 56 M
ml 4k-01
76 OS 1StOl
M 11 14
5269.2 30 1884.8 22 8&lj
fi
‘j&f
g
3900:3 5269.2
lb 21s4:2 15
881.8 1836.1 2035.4 770.3
84 1213,2 37 98 898.0 28 77 350.3 61 51 2073.7 11
2: 1077.4 933,7 36861 1435.3
!I 19 37 81 14
731 7863.3 b294,4 1693.9 627.5
3 11 17 14 12
634.0
17
187.3
15
27 835.1 27 29 ~0 14 &I? es lb 2154.2 lb 2154.2
27 8 12 15 15
30 26.6 18 1293.3 13 870.9 100 933.7 37 472.4 60
1884.8 7243.8 1171.3 1087.9 6294.4 b395,4
22 12 8 82 17 22
sHw!9! Sill! fS&&i It00 19 K
3s39,J68 493494 63 668.9 80 773,9 22
980.7 10 1052.7 23002 26 277.4 390013 lb 2154.2 2035.4 2039.2
76.80 10 HE 3X-02 1.18 52 YE 4mQo l 4:19 48 i*B 12 6: m6 2.46 25NN :% 3:w 1.25
!.! T: 12 a 11 M
297 : 629414 1#
fb.# 3! mf 2:lEtO0 bJEtO0
bt3E-02
4eOE-01
2458.7 206283 2062.5
1.16 21 SC 2JEtOl 228.6 52 ,3.71 7 N 7tSE-02 5269.2 30 1.03 31 61\ 2*9EtOO 63bO1013 1. tO1 26.6 l8 $&ii ::I! w w 356.1 28 1, I 401 2Ob9e2 1.60 19 K 2,lEtOO 770.3 51 207317 10.75 19 K 2,lEtOO 770.3 51 4. -01 N:4 kc 8 ii 1, =Eto1 19126:06 ii 2092.9 21.52 14 51 l&-o1 3539.1 68 209462 2094.8
2.22 20 CA 4r3E-01 1.52 54 XE 2SfOl
5 20 15
194&; t
;
2828.1
43
ii% 641814 2828.1 b39%4
:: 30 43 22
295.6 1884.8 691.7 7243, 333. !I 2073.7
21 22 11 12
lb
11
5580.6 9 m38 H
2233.2 223582 2238.9 2240.7 2241.1 2244.6
1.60 8,32 3.04 8.91 1.45 2250,b 1,13
2254.1 22s4.5 #ii:3 2269.6 2271.9 2272.0 227615 2282.3 2282*9
m 2308,b
14 24 13 56 15 15
SI lkO1 CR Y 32’iP-t Bn 1:2EtOo P l&-O1 P 1 BE-01
5.33 sb Y 12.56 39 Y ::I 1.00 1.80 1.51 2,lO 1.40 2,93 l&o 3.81
ii 04' 31 u 80 H6 13 # 38 SR 17 a 13 AL 3OM 19 K
64$99 8
g
2329.0 2329,3
1435.3 14 6079.8 77 3m:pJ i3biro 368,l 7723.9 1836.1 1950.9 7723.9
1.10 40 W 1.05 39 Y
:t 13 8’ 27 58 22 27
627.5 12 776.8
30
ma M 691.7 11 1693.9 14 2960.0 8 898.0 28 6110.9 20 2960.0 8
l,lE+OO
:mi 4.X-01
51 2073t7 11 73 b419.9 39 18 7243.8 12 lb 2154.2 15 81 1693.9 14 73 b419.9 39 flati # a3 8 1942.0 73 b419.9 39
l,pE-Ol IJEt
933.7 37 6294.4 17 6079.0 77 776.8 30
wi :s isi hEi 1:59 1s P l&-O1 1.12 80 HR 3.mO2 4.3E-01
4934.4 63
8W.l 7723.9 1435.3 3900.3 3900.3
770,3 1942.0 26.6 3900.3 368.1 1942.0
M. A. LONE, R. A. LEAVITT,
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
523
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
295.6 21
5420.5 59 2Q73J 11 214.9 10 2391.4
2.63 38sR
245248 10.23 9 F 2455.8 4,12 48 CD 2457.9 1.67 38 SR 2458.9 3.93 79 Au 2469.6 1.14 78 PT 2474.6 1.01 31 6A 2477.4 1,25 21 SC 2490 7 2171 2490:8 1 10 16 18 1IR S 2517,b
1*2EtOO 4toE-01 2*7Etol 4.OE-01 2JEtOO 1,lEtOO 1s-01 l.bE-01 1,9E-01 3,8E-02
183661 472.4 228.6 472.4 no,3 1077.4 g*:
9SE-03 2.5EtO3 1,2EtOO 9,9EtOl l&Et01 2.9EtOO 2.7EtOl 5.2E-Oi 6X-O
582*2 558.6 183611 1201.8 356.1 63bO.O 228.6 841.1 167+3
14,78 11 WII 4.OE-01
2519.0 25f 9.1 25 .b 2521.8 2528.1 2539,2 2541.0 2545,9 2546.5 25&l
1.02 2.08 6.78 1.09 8.45 1.52 2.24 2.75 1.95 1.46
40 54 7 25 9 54 12 19 39 48
ZR XE N I# F XE 116 K Y CD
2554.1
1,30 28 NI
E 2:; 1:11 20 cn 2.04 19 K
2632.1
:*cl 5:38
i! 'Lil 9 F
2635.6 2639.2 2639.3
ii
13 358913 11 73 Ml.3 14 58 898.0 28 12 214.9 10 28 333.3 lb 13 691.7 11 52 29586 21 80 5420:s 76 4745 0 395
M:i 2700.8 2703.4 27Q9J
I:# ltll 2.48 1.83 1.67 1.04 1.25 2.60 le87 Se83 1.94 1.40 1.14 1.31
2l s 48 CD bbw 40 ZR
2721,3 2726.4 2733tb 2746.9 2748.9 2753t2 2756.8 27bOe9 27b5,3 2767.3
2768.8 1.40 2771,8 8.60 2781,5 2.17 27 1.7 27! 4,2 2M ltl0 iii!:: 1*02
26 19 bb 52 39 lb 19 36 57 48
CR 3olEtOO KR
a
F ZR
3bKR 18 #( 14 SI
27 84 22 13 37
as
a
835.1
a:!
27
ti
2sEtDl bt8E-01 l&o1
7631.1 770.3 185.7 603.1 6079.8
29 7645.5 24 51 2073.7 11 21 ‘B8.4 7 9 723.2 2 77 776.8 30
~~4: 881:8 1596,2 558.6
;: F E’: E 84 213:2 37 15 218.2 11 73 651.3 14
88lt8 84 1213,2 37 167.3 80 3539.1 68 mt 3
:o"iE 36s~: 19 K 2,lEtOO 58 CE bJE-01 Em 6,8E-01
6294.4 773.9 1884.8 7243.8 3589e3 773.9 282811 2073.7 776.8 651.3
17 i?2 22 12 11 22 43 11 30 14
2811.0 3.31 20 CA 2819.4 1,08 10 NE 2821,4 2~94 13 AL 2824.9 1.02 90 TH 2828.1 42.51 12 116 2831,l 2.15 7 N 2837,3 1.10 36 KR 2839.9 1.85 19 K 28i2tO 1113 28 NI 2842.8 1,97 79 Au
4JE-01 3*p2 2. -01 7moo bJE-02 7dE-02 2sEtol 2,lEtOO 4moo 9*9Etol
1942,O 73
4.4EtOO
8998a8 38 8533.4
17
2845*5
3Ztol
mot9
22 bllOt9
20
2920.2 1.29 80 it8 3.8EtO2 2929*5 2Ao 54xE 2sEtol 293111 22.34 lb S 5.2E-01 2944.5 la03 22 TI belEt 2948e5 1Jb bb DY 9.3Et42 29bo.Q 7.99 13 AL 2AEdl 29b3ab 1.56 12 I 2974.6 1.35 17 a 2975.7 l*oo 56 BA 2977.1 1.28 54 XE
36861 b&9 Ml.1 1381.5 185.7 7723t9 3916.7 195489 14s; *
81 80 76 69 21 27 49 22 ;
lb93,9 773.9 ~5420.5 b418r4 538.4 : 3033.9 2828.1 ~bllOt9 b&7.; ,
14 22 59 30 7 7 43 20 g
228.6 52 295.6 21 770.3 51 2673.7 ii 1435.3 14 627.5 12
2978.5 2982.4 2994.7
1.00 3.18 lel2
19 K 11 M 17 a
2,lEtDO 4.OE-01 3.3Etol
770.3 51 2073.7 472.4 19sor9 22 bqb395.4 bllO.9
11 22 20
1RQ !4 %8 M 3473.0 4 3916.4 2 gb*; \$ 2154.2 15
#!A! 3012.3 3015.9 ##;~ 3022.3 3026.2 3027.0
f:# 1.43 1.08 f;# 1.59 3.46 2.53
a P 21 SC 17 a 5s’ CE’ 24 CR
MM 2t7EtOl 3JEtol %;g$ 3tlEtOO
1m 228,b 1950.9 j&f 8884:l
iii ~ w 52; 295.6 22 6110.9 # ~ gf*j 27 835:l
ti 21 20 4 27
11 W 22 TI
4.E-01 belEt
1%::
it'
iii
9sE-03 2JEtol
37 80 30 18 13 80 49 51 7? 73
8884.1 881.8 1mt9 582.2 933.7
iii*: 3: 'tit3 ': 933:7 37 b294:4 17
FE 2dEtOO K PalEtOO DY 9JEtO2 TE 4JEtOO Y lJEtO0 S X!GOl K 2.15kto0 KR 2, tO1 LA 9,lEtOO CD 2.5EtO3
472.4 bQ 6395.4 22
p72.;
iI g
4m 299,;
z4 ;
881:8 241.8 3900.3 680984 772389 1201.8 143583 472.4 582.2 8884.1 1942.0 770.3 167.3 770*3 582.2
84 22 lb M 27 12 14 M 13 27 73 51 80 51 13
1213:2 34la9 2154.2 3367.6 29bQeQ 214.9 627.5 6395.4 3589.3 835.1 b419.9 2073~7 4745,O 2073*7 3589,3
37 7 15 34 8 10 12 22 11 27 39 11 55 11 11
558:b 73 YP r,S 1942.0 73 Ml919 : 3b 9 F 1,b8 42 Ml
22 11 11 15 63
24 36 17 9 40
933.7 b&9 5269.2 26.6 582*2 668.9 3916.7 770,3 b#?9,8 558.6
iml 2b53.4 2657.0 2 *b 2H.8 2660.2 2661.7 2663.9
659514 2073*7 7863.3 2154,2 4934,4
1.28 3.0 2.58 7.77 4.75
1,9E-01 hEtO 7.5E-02 lJEtO1 9JE-03 2,5EtOl bJE-02 2JEtOO 1JEtOO 2,5EtO3
1.29 75' AU 1.40 56 BA 1.85 11 m
%*i t
89&o 28 ?a! it
93317 57 2035,4 77 T&5 *
i%%
2593t7 2593.9 2594.1 2bDle9
58 60 52 bo 51 19 #
2b7QJ 2bXL4 2676.0 2682.8 2693.8
9SE-03 2JEtOO
582.2 ?78,3
:3 39
13 3589.3 11 37 848.8 15
1.07
17 a
if!::
524
M. A. LONE, R. A. LEAVITT,
aad D. A. HARRISON
Prompt y’s from Thermal-Neutron
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies
2JE+OO 2rsEtOl 2JE-01 9sE-03 E-Y 2:lE ito l.E-01 3JEtOl 9*5E-03 3082.6 3087.5
1.31 57 LA 1.31 70 n
9,lEtOO 3*7E+ol b.8E-01 6.3E-01
3130.9
w:* W! 3162.7 3185.4 3185.7
2.25 1.13
31 I 12 II6
ii $8
isi # ly
1:n 3.34 3196&S 1.14 3209.4 1.12
15 80 90 12
3213.5 1~32 322008 27.09 3221.5 1.20 3262.5 2.75
11 HA
596.4 33 86804 15 58282 13 3589.3 11 3916.7 49 2828.1 43 3539.1 68 4934,) 63 770.3 51 2073.7 11 3900.3 lb 2154.2 15 1350.9 22 6110.9 20 582*2 13 3989.3 11 15 218t2 11 22 341.9 7 80 4745.0 SS 96 439.7 54 60 6395.4. 22
FE: 881:s b360,O 1950~9
ii 4934B4 63 84 11::23 f :: 13 691.7 11 22 6110.9 20
2,9EtOO
6360.0 3916.7 881.8 3473*0 167~3 607918 3900.3 368.1 347310 3916.7
13 49 84 4 80 77 16 81 4 49
4*oE-O1
472B4 841,l 2035.4 770.3
60 6595.4 22 76 S42OJ 59 77 350.3 61 51 2073.7 11
P 88 YH 116
lb S ME-01
10 ME 3m8E-02 19 K 2JEtOO
ak$ 3:# 21 SE 3267.4 1.49 26 FE 3271.0 18100 8 0 3273.8 5.31 15 P 327518 l/22 bb DY
691,7 2828,l 1213.2 3946#4 4745.0 776.8 2154.2 1693b9 3946.4 2828d
11 43 37 2 95 30 15 14 2 43
BiM SI %:I It 7651.1 29 7615.5 24 87099 100 2184.5 82
3E:;
if
2&:
Y
60 81 77 49 27
6595.4 22 1693.9 14 776*8 30
3279.6 32Wb 3300.9 33Oltl 3303.0
la00 2.98 1.45 8.89 1.11
11 69 39 12 13
W II6 Y f& AL
4.OE-01 J&t02 1JEtOO 6JE-02 2a3E-01
472,4 368tl 6079.8 391697 7723.9
296080
8
t4!s‘:! 3341.7 3365.5 33b7rl
::!I 1822 I,20 1430
it 90 18 36
‘g: lH AR KR
BWJ 7*4EtOO 6rBE-01 2JEtOl
WI !I ia:: 3473BO 4 394bt4
:: 2
33.71 4 BE 5.26 lb S
912E-03 5.Zf-01
6809.4 64 853.5 26 841.1 76 S42O.S 59
3367.6 3370.4
4 plf
::mt
3s& R 1.9 :1
1g
3# :2
%.H B w3 13 1381.5 69 b418.4 30
g i
390013 66819 3473.0 933.7 5269.2 4934.4
1.05 1:04 40 90 ZR TH
3532.1 9.79 y39.i 68;g
36 6190.2 5
90 Ytl 40 zu 22 11 brlEtO0 9 F 4Oow FE 11 Y 4k-01 36 KM 2JEtOl 19 K 9 F 92:m
7 n ;; SI
1:21 22 1F
ME-01 2ziEtOl f:gg lkO1 62:m
582.2 13 398943 11 g88118 84 g 12l3:2 get 37 g 770*3 51 2073.7 582.2 13 3589.3 lb 80 4 37 30 63
2154.2 773.9 394b.4 6294.4 1884.8 2092,9
11 11 15 22 2 17 22 22
5579.0 1.26 23 V 5toEtoo 3579.5 1.50 36KR 2.sEtol
a!:8 3 ml ii 6517.2 18 7162.7 13 881.8 84 1213.2 37
3585.7 2.28 20 CA 4.3E-01 3s8u*o 14.95 11 WA 4dGOl 3589.3 llJ1 9 F 9esE-03 359ltl 4.11 13 # 2JE-01 3607.8 1,23 57 LA 9.lEtOO 3610.2 6134 24 C6 4JE-01 3617.3 1.20 36 KR 2ziEtol 3619~6 1.42 3 CE 6.3E-01 3630.3 3.86 9 F 9BsE-03 3632.8 1.68 70 YB 3.7EtOl
1942,O 472.4 S82.2 7723~9 1596.2 194210 881.8 334.8 982.2 241.8
3641.0 3644*4 3651.2 365210
4.06 1.74 1.82 1.64
56 11 19 59
IA Hn
1.2EtOO 4.OE-01 K 2JEtOO PR iJEt
&!:I 318 ti Ei 3677.8 IS.68 7 8 3680.1 1.79 57 IA .9 32alO 6 C 368 5”3 .2 la03 31 86
b: &a 7.X-02 9,lEtOO
368961
1.70 19 K
2JEtOO
3960.0 3978.7
1.18 19 K 2.lEfQO 1.11 19 K Z,lE+OO
73 60 13 27 15 73 84 96 13 22
6419.9 6395.4 2452.8 2960.0 218.2 6419I9 1213.2 439.7 3s89t3 341.9
39 22 10 8 11 39 37 51 11 7
627.5
12
t!iR: :: 141:3 4 %:1
fi
k!m 770.3 51 207317 11
28286143
167.3 80 47451055
881.8
d339
84 1213.2
37
HM 3373.4 3377.9
1.01 90 lH
7AwO
347Lo
iiR3 3109.1 3411.6
M ni 9 3.54 2s M 1.49 11 IIA
3mf l*EiOl 4.oE-01
vi:! 761 m3 d 26.6 18 724318 12 472.4 60 6395.4 22
341312 34i3.6 ,342016
1.91 26 FE 2hEiOO 6.47 12 116 1.20 56 aR
3916.7 49 2E8.1 43
#k$ 3437.6 3443.5
\:% B R 1.31 40 ZR
3452.6 3465.1
f:#
lWt3 4.17 1.32 1.75 7.33 1.03 1.97 JJO 1.11 2,62
84 19 r9 80 27 2960.0 773.9 228
1596.2 241.8 167.3 334,8 472.4
:*Ez 2: to3 2. !E Ml 2.9EtOO 3‘3EtOl
and Explanation
#
mt 8 691.7 11 4 3946.4 2
1.79 31 8A 2.9EtOO b360.0 13
‘E $5 1:3 w TH 2.00 18 WI I.77 6.16
19 K 13 #
7631.1 29 7645.5 24 881.8
84 1233.2 37
9,3EtO2 7*4Etoo 6.8E-01
NM 933.7 6809.4 185,7 3473.0 167.3
21lEtO0 2dE-01
770.3 51 2073.7 7723.9 27 2960.0
-- _-
2l 37 64 21 4 80
%akt d 6294.4 17 3367.6 34 538.4 7 3946.4 2 4745.0 55 11 8
770.3 51 2073.7 770.3 51 2073.7
11 11
M. A. LONE,
R. A. LEAVITT,
525
Prompt y’s from Thermal-Neutron Capture
and D. A. HARRISON
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
GnNNn RAY d"
I
ELEHEMT 2 SY SIG BMNS
TM0 MJM LINES 11 E2 12 l3 r beu 3 4671.3 13.80 15 P lr8E-01 3wo.3 16 2154‘2 15 4675.4 2.99 80 NE 31 to2 3681 81 ‘169 49 14 4684.3 le41 74 Y l,&Ol lW93356 619i t2 5
4687r6 l*ll
4690.7 469212
410617 5.77 4117.3 2.39 4124,2 1,12 4127.2 3.11 4133.3 4136.4
39 Y 23 V 66 8Y 9 F
6.42 13 AL 3.31 g;
tM Sk bk 4173.0 1:24 !i t 4187.8 1.45 11 WI :;;e; 4200:0 4200.0
t+;
3; y
1*3EtOO 6079e8 77 776.8 30 5,oEtoo 6517,2 18 7162.7 13
9JEtO2 9JE-03 2.3E-01 :*Ei 3k-02 2JEtOl 4x-01 ;JW&
56 86 15 P 4201.0 2.19 19 K 4207.9 1.00 27 CO 4216.5 1154 12 88 4218.3 4.26 26 FE 4236,4 1.35 21 8C 4248.7 1945 74 Y
l:ZMO lJE-01 2,lEtOO 3JEtOl 6JE-02 2&tOO 2,7EtOl 1,9EtOl
4259.5 4260~4 429015
2JE-01 9S-03 6AE-01 9AE-03
lib
2t63
6tOO 13 AL 2.38 9 F 9.11 58 # 4293.7 2.44 9 F
4320.8 4336.1 43S1.8 4358.1 4361.2 4364.3
1.54 W CU 4.21 58 CE 1.58 39 Y 1.96 31 GA 4139 19 K 4.58 15 P
3,8EtOO 6.3E-01 1JEtOO 2,9EtOO 2,lEtOO ME-01
18ss7 582.2 772319 77Od
21 538,4 13 3589.3 27 W&O 51 2073.7
7
11 8
11 1077.4 19 7863.3 11 4fgj # ‘IO& $l 472:4 60 639514 22 6360.0 582.2 13 3589.3 69lt7 11
1435.3 14 627.5 12 3900.3 16 21541215 770*3 51 2073.7 11 23042 26
277.4 20
228.6 52
295,6
3916.7 49 2828.1 43 7631,l 29 7645.5 24 21
lW,3 56 6190.2 5
8 7723,9 27 2960.0 582.2 13 3589,3 11 33418 96 439.7 54
582.2 13 27863 33 334~896 6079,8 77 6360.0 13 770.3 51 3900.3 16
3589,3 11 7914.5 31 439.7 54 776.8 30 691.7 11 20734711 2154.2 15
4374.4 52.80 10 HE 3.8E-02 20356477 350.3 61 @#:b 3:a 17 L% m8 l&w ?i 4395.2 1.10 36 K8 2.5001 881.8 84 W 4406.1 1,66 26 FE 2,6EtOO 7631.1 ::I%:: %I# 579: m8i 15%: M 194;,: ;; 4418.9 14.94 2OCk 4JE-01
Td:2’ f! 1213.2 37
7645.5 24
%:I 11’ 64196939 4430.8 4.40 16 S 5.2E-01 5420.5 59 4431.8 1.60 31 6A 2,9E+OO63601013 69187 11 6110.9 20 4443+0 T5.96 5 B 7005.1 48 %*i ii #&f ::I =”3 “u 65% :8e 7162:7 13 4460.1 2820 13# 7723t9 27 2960~0 8 4490.5 1.57 15 P 3WO.3 16 21s4*2 ‘,5 t&I !A 5'7 II Iltl:5 4508.9 15.78 7 N 1884*8:: 4515.8 1.04 20 CA 6419*9 39
81 TL 3.4EtOO 5641.5 3 348.7 3
3.94 13 AL 2.3E-01 3.27 59 P8 1JEtOl
4758e8 3.24 GO HG 3r8EtO2 4765.7 16~06 58 CE 6JE-01 4790.6 ld4 60 NE 5,lEtOl 4792.5 4799*5 480184
1122 31 86 1.06 79 MI la69 59 I’8 4810.0 1.80 26 FE 4829.6 l&O 70 n
4840.5 4841.8 484 ~8 484f *2 485886
2.07
16 S
5JE-01
841.1 76 5420.5 59 7723.9 27 2960.0 8
29’ZE lktO1
3,40 31 Gn 5.00 8oNG
2r6EtOO 3JEtOl 2t9EtOO 3*8E+O2
84 8 # 1:06 28 NI
!*I Em 4ktOO
691.7 11 214.9 10 141.3 -4
7645.5 24
E:‘: 1: 1693:9 14 i&f
899898 38 8533.4
9
17
4869.7 2.42 31 84 4869.8 11,47 16 S 4882.5 5123 22 TX 488367 1.54 23 ‘J 4888.7 1.81 57 LA 489Oa7 1~28 31 86 4902.9 2.64 13 # 490514 1.86 27 Co 4913.4 1.55 81 Tl 4921.5 1.01 27 CO
StOEtOO 6517.2 18 7162.7 13 9,lEtOO 1596.2 15 218,2 11 2,9E+OO6360.0 13, 691.7 11 2.X-01 7723.9 278W&O 8 3JEtOl 230.2 26 277.4 20 3.4EtOO 5641.5 3 348.7 3 3JEtOl 230.2 26’ 277.4 20
49348462,69 14 SI
lJIE-01
tm:iY:ti64 d
4949.4 la68 25 88 4953.6 1.04 80 H6 m:s 3# B PB 4974.8 1.15 80 Ho 4975.1 2.78 21 SC 4979.9 4.04 17 CL 4986.6 2139 9 F 499212 2.04 19 K 5005.6 1.89 9 F
SOW.0 SOl3t8
2.9EiOO 6360.0 13 691.7 11 ME-01 841,l 76 5420.5 59 6elEtOO
1361.5 69, 6438.4
30
!l:m lJE+Ol 3.%+02 66:ia J&+02 2,7EtOl 3JEtOl 19508922 6110,9 20 9.SE-03 582.2 13 X89.3 11 770.3 51;
“:3 a#! ::
1.96 40 ZB 19 K
5015.0 5.73 25 It8
%:: if .I 17 778.3 5112073*7 11 26.6 ll 7243t8 12
W! I:!! 1’9 St 5843.8 1.44 W CII 5047,2 3.15 16 S
m3 tt 7914.5 31 5420.5 59
145
1.87 ti F
4659.6 2.09 13 AL 2.X-01
8
177.2 11 141.3 4 4710.2 34.18 5 B l.OE-01 4443,O76 7005.1 48 8811884 : 1213.2 37 4714.6 1.20 36 ItR 2StOl 4714.8 1.03 22 TI 611EtOO 1381,s 69 6418.4 30 )A 1JEtOO 1435.3 14 627.5 12 4722.1 1,51 56 4723.1 1.28 59 PI! lJEtO1 17712 11 141.3 4 4725.3 2,50 25NN lJE+Ol 26,6 18 473460 5m 13 # 2.3E-01 772399 27' :43’i Yl 4739.1 7127 80 NE 318Eto2 368.1 81’ 16It 09 14 4745.0 55.00 18 AR 6.8E-01 167.3 80’ 1186.8 52 4749,7 2.74 20 CA 4JE-01 1942.0 73 4732.4 1839 81 TL 3mOO
::!ll 2.16
463911
7723.9 27 2960.0
8.20 I:!! 3.75 1.48 2.S9
H 7 59 PR
57 LA 81 1481 57 u 13 K
368.1 81, 1693e914 881.8 84 1213.2 37
218.2 11 RS ‘S 4934.4 63 218.2 11 2960.0 8
526
M. A. LONE,
R. A. LEAVITT,
Prompt
and D. A. HARRISON
y’s from
Thermal-Neutron
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
3.94
59 PR
1JEtOl
iI I# 3:$t8s 1.69 31 BA 2.9EtOD
:A
Lo8
i:!!i 2.88
57 Lb
9dEtOO
:'s Py 19 K
MM 2.1EtOD lJ8 81 TL 3AEtOo 2.65 27 Co 3JEtOl 3,52 25 141
1.18 29 al ::I8
:: ai
;*Ei 1:30 LO2 1.24 3.96
i: env 36 KR 55 cs 25 M 78 PT
;2*;
;e;
;
!32b!i:7
5:78
70 YB
m:!i 5269.2 5269.5 B8:4 5280.2
Yik3 9 7ak3 '3 6360*0 13 691.7 11 1596.2 15 218.2 11 !im
84 b!M
156
770*3 51 2073.7 11 348.7 3 %i'! * 2s5 277.4 20 26.6 la 7243.8 12 278.3 33 7914.5 31
881t8 84 1213.2 37 116.4 15 176.4 10 26.6 18 7243.8 12 356,l 28 333.3 lb
38;s 35 2!&'6 1884.8 22 5298.0
5404.1 lx! 81 R 3,4Etoo 5411,O 1.82 13AL 2JE-01 5417.7 2.19 29 CU 3dEtOO 5420*5 59*oR lb s ME-81 5433.1 1,44 25 tin IJEt 5437.0 1.27 2s MN lJEtO1 21 18 se SJEtOl 2JEtol 5445.6 1.81 1.33 b0 5448.4 5449.8 1.06 32 GE 2.3EtOO 5451r8 3JO 12 f@ 6.3E-02
sb41.5 3 348*7 3 7723.9 27 29b0.0 8
3.35 1.70 1.04 2.81 1.13 3.27
30 36 21 31 41 19
278.3
$&Jj
3.05
9ziE-03 5,iEtOi 9*9EtOl
9 F 60 ND
26
wlif
23 13 60
278,3
2ktOD
33 7914.5
18 7243.8
4v:36 R
m
31 12
#
7863.3 11 1213.2 37 295.6 21 691.7 11 293.5
5
2073.7 11
B M:5
582.2 13 697.3 73 1201te 12 3916.7 49 26.6 18
:*ii Kk 1:77 31 OA 2.35 66 DY 1107 53 I
bdEtO0
Sb16,7
5618.8 3;* :: ii LO8 7 n 1.12 21 SC ::A! ia P 1852 39 Y NO 3bKR 6.16 80 Ho
4.oE-01 3JEtOD 7.SE-02 2JEtOl M8i
lJEtO0 2sEtOl
7.20 27 C8
3.8EtO2 3JEtOl
E,
4dEtO2
3.45 2.23
:
t
88Bl.l 27
iJEt
9 F 9 F
6.00 10HE
i# i! iii 6.22 19 K ltlb 47 a6 3,19
15 P
1.65 W IIU 1.32 42 NO
618.9 29 214.9 10 34817
w 538:4
:= 22 3
s: 7
442.9 4
30 1864.8
5779.6 5781.2 5790*7
5792*6 5792.9
saob,o 5823.9 5816.8 5824.3
5840.1
1888 31 8A 1.40 36 Ku 1.03 36SR No 36KR 1.01 47 A0 1.08 31 6A 2.13 2.12 48 28CD UI 1,40 56 lm 1.70 36 KR
2.9EtQO b3bO.O13 2AEtOl 881.8 84 lt2EtOO 183btl 58 2AEtOl 881.8 84 6.4Etol 198.4 24 2.9EtOo 6360.0 13 2.SEtO3 4AEtoO agf fl 2AEtOl 881:8 84 2dEtOl 881.8 84
691.7 11 1213.2 37 898*0 28 1213t2 37 236.7 69lt7
12
11 qf*i 1: 12131237 1213.2 37
1.38 59 f’R L2EtOl 177.2 11 14183 4 S891.7 2,&i 23 V S.OEtOO 6517.2 18 7162.7 13 9897.3 5896*0 2.76 1.05 21 41BC lm 2.7EtOl lJEtoo a.; f gf3 2: 5842.9
5900,b
4.25
20 CA 4JE-01
1942:O 73 b419:9
39
33
3589.3 11
Pi!*: 30 da
133.6 0
5269.2
ii w 9 F
14
1950.9 22 6110.9 20 3028.0 39 596*4 33
f*m 73sE-02 5269.2 3,4E+OO 2sEtOl 2.9EtOo 9AEtO2
SW.1 10.00 7 N 7.X-02
1693.9
3028tO 39 596.4 33 3916.7 49 282&l 43
M;8
t:a
5616.6 3.11
691.7 11 1213.2 37 267.8 3 2073.7 11
841.1 76 2379.7 45 26.6 18 7243.8 12 26.6
1,17 27 al
33 7914.5 31 6190.2 5
199.3 56 6360.0 13 881.8 84 217.2 9 770*3 51 368.1 81
ZN l,lEtO8 1077.4 19 KR 2JEt81 881t8 84 SC 2,7Et01 228.6 52 an 2*9EtOD 6360,O 13 UB 1.2EtOO 254.7 25 770,3 51 K 2.1EtDO
6:bS ii25 8IIN t*t; 18.48 7 R
5559.1
J&t02
a::: 34 7 1.73 17 CL 1.12 32 SE
lJ4
230.2
%k3 582.2 472.4
560213
230.2 26 277.4 20 1942.0 73 b419.9 39 5641.5 3 348.7 3
3916,7 49 2828.1 43 52698230 1884.8 22 8998.8 38 8533.4 17
3.82 80 tl6
B8k3 kit 342 5601.5 4.95 31 an
8884,l 27 835.1 27
!i ii
167.3 80 4745.0 55
!!kb % 63bo.O 13
!I 21
bJE-02 7SE-02 4JEtOO J*aEtoO 1.9EtOl 2,9EtOO 2AEtOl 1aEto2 2dEtOO
5387,b
5582.0 ll.bO 18AA bJE-01
199.3 56 619012 5 933.7 37 6294,) 17 241.8 22 341~9 7
;
1480 81 n 5295.9 1.27 12 UG 52388021.02 7 H 5312.3 1.01 28 WI 5319.4 1.09 29 cu 5319.9 2.89 74 U 5339.1 7,04 31 ah 5340*8 1.20 36 KR 534b,9 1.29 45 Ml 5380.6 8.90 19 K
4
ai 115 2iR3 1: 6517.2 18 7162.7 13 6360.0 13 69197 11
'2% $1 SE 29673 7 II 1.26 24 CR ::::
177.2 11 141,3
22
5925.1 LB4 27 CO 3JEW 5957.2 5956.7
230.2
1.28 1.75 77 4 IR IIE 4ZtO2 9.2E-03 680&
5966.2 13.86 80 HB 3tBEtO2 5975. 5982,: 6 83 27 ca 3JEtOl
1:27 W #)
9.65
9 F
9SE-03
6018.5 9.00 26 FE 2,bEtOO lJ7 32 BE 2JEtoo
bD3b.3
277.4 20
y
336;4$ “J
368:1 81 1693:9 14 230.2 26
909EtOl lZOl.8 5999.6 2.54 24 CR J,lE+OO 8W.l 6007.3 1.90 34 §E lmO1 238.9 6008.0 6.09 31 8A 2, E tOD b3bO.O 6010.4 1.62 29 a 3, too 278.3 bOl7.1
26
277.4 20
12 214.9 10 27 835.1 27 8 613,9 8 13 691.7 11 33 7914.5 31 582I2 13 3589.3 11
7631.1 29 7645.5 24 33
3028.0 39 596.4
M. A. LONE,
R. A. LEAVlTr’,
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
527
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies
and Explanation anlw
:
2 SY
SI8 BARNS
&037,4 bO54.9
k%
11 x
8
12 x
I,07 30 ZW l.lEtOO 3.03 21 SC 2JEtOl bAEtO1 F 7M “6r 1JEtOO 6101:3 794 2:2a ‘379 13 AL 2.3E-01 6101.8 2.51 38 8B 1JEtOO 6104,O 1.95 25 Hn lJEtO1 6105,O 1.88 28 a1 414EtOO 6110.9 2O.M) 17 CL 3JEtOl 6111.4 4.82 31 M 2*9EtOo
1077.4 19 7863.3 11 228.6 24 198.4 52 %:5 295.76 il nb.8 7723.9 Mb.1 26.6 8998.8 1950.9 b3b0,O
30 27 58 18 38 22 13
19 2940.0 8 898.0 28 7243.8 12 8533,4 17 llb4,7 20 691.7 11
6111.4
39l6,7 3028.0 8a84,l 1WJ 1201,8 s!5+;
49 39 27 56 12 523
2a28,l 596.4 83J.l 619oe2 214.9 f4g.i
43 33 27 5 10 2;
sa2:2 13 3589:3 199.3 56 5261.3 6360.0 13 691.7
11 4 11
2927 12 116 6.3E-02
1.90 36 KR 2aEtOl 5.52 79 Au 9*9Eto1 3149 60 ND S,lEtOl M 1110 1.32 4294*2 1.21 b294,4 16160 6306.9 1.90
638091 M:3 6393.4 6395.4 b418,4 b419,4 b419.9 M&b 64!i7*5
3 36 24 j3 40 36
I KR CR A8 ZR KR
1.19 54 XE
2AEtQl
670788 lS1 &716*7 i9a 6736.4 5.04 6743.2 I.36 4747.2 1,40 6749.7 2.25 675lB4 1.38 6759,3 39JO 4759,a lA4 475918 24.17
32 11 82 14 14 64 39 5 10
aE 2JEtOO ac 2JEtol PB lJE-01 SI 1*&E-01 SI 1*&E-01 8B Y :*Ei! B lkO1 NE 3s-02 22 TI b*lEtOO
6749,B 1.00 30 W 6771,O 1.07 -3 LI 6783.4 3.36 25 M 678L3 12.98 15 P 6803,s 2.60 36 KR baO9.4 43t75 4 BE bM9ab 3.27 33 A8 6832.7 1,19 41 NB 6837,O 10.79 28 HI 4839,5 6,43 21 SC
39 Si 94 bB &a 11 77 76 n 69
J96.4 295.6 0.0 14934.4 14934.4 944.0 nbtB 7005.1 350.3 b41a.4
1077,4 19 7ab3,3 2032.5 89 980.7
33 21 0 43 63 11 30 48 61 30 11 10
39w :86 $i#:! 18 881~8 84 1213.2 37 YE 254:7 8998.8 228.6
3: lB?! 2: 25 8! ts 5 38 ‘3533.4 17 52 293.6 21
b884 baa :3 689041 6910*5 6915.5 6919.3 6926,2
B! 1.1s 1.37 1.22 3024 1.09
it! 24 30 32 42 33
P CB ZN GE ilD A8
:%i 2kOO 2JEtOO 4*3EtOO
3028.0 39 596.4 33 778.3 37 848.8 15 164.6 17 1534.3 7
6928.8 6931.7 6942.6 6958,5 6962.7 697747 698489 6987.8 6999s 7082.7
2.40 2.20 3.00 2096 1.20 2926 2,97 3.25 2.68 1.9s
25 36 38 30 36 17 27 29 19 31
NN KR SR ZN KR CL C8 w K 6A
lJEtO1 2sEtOl 1JEtOO l.lEtOO 2,!iEtOl 3JEtOl 3JEtOl 3,8EtOO 2.1EtOO 2.9EtOO
26.6 881.8 1836.1 1077.4 8alt8 1950.9 230.2 278.3 770.3 63bo60
7005.1
47,85
l.OE-01
444360 76 6759.3 4O
668.9
B 7 :! ?I 21 84 1213.2 37 27 835,l 27 17 1534.3 7 37 250.4 9 84 1213,2 37
80
773.9 22
64b4,8 9.03 Mb715 5.60 6485.9 6.42 6501.7 8.1s 6511.9 1.55 651499 1.19 WlJ.2 17A3 6519.1 3.50 &55&S 4873 6556.8 2.34
23 54 27 60 79 81 23 36 22 21
V XE CO ND hII TL U KR TI SC
6583.6 6599.5 6600.7 6601.0 6619.5 bb27,b b&44,2
28 29 9 34 17 17 21
II 414EtOO 8998.8 38 CU 3,8EtOO 278.3 33 F 9AE-03 502.2 13 8E lt2EtOl 238.9 8 CL 3JEtOl 1950.9 22 CL 3JEtOl SC 2JEtOl
472.4 1381.5 5269.2 1942.0 1201,8
5 B
22 26 22 15 10 14
7069e2 1.29 7099.7 4.34 7112,O 1.49 711781 2,Ol 7159.7 5.81 7162.7 13.14
5.oEtoo 6517.2 18 7162,7 2AEtOl 668.9 80 773.9 3JEtOl 230.2 26 2n,4 S.lEtOl 697.3 73 618.9 9,9EtOl 1201,8 12 214.9 3.4EtOO 5641.5 3 348.7 5.OEtOO 7162~7 13 645.9 2ziEtOl 881.8 84 121312 bJEtO0 1381,s 69 Ml814 21JEtOl 228.6 52 295.6
13 22 20 29 10 3 11 37 30 21
7176.1 2s 29 al 7179.3 1.12 34 8E 72OO.b 7177 14 SI 7207s 1.00 36 Kfl 721387 4.72 27 CB 7243.8 12,13 25 #I 7246.7 4.02 3 LI 7251*9 3.70 29 al 7270.3 3.36 25 NN 7278.8 5J3 26 FE
368.1
8533.4 17 7914.5 31 3589.3 11 613,9 8 6110.9 20
7291,s 2.30 7299.1 9.00 7306.2 8.09 7310,s 4.02 7366.2 7,52 7567.7 94,Ob 7413.6 I.19 J&$ 7421.2
278.3 33 7914.5 31 230.2 26 277,4 20
::m
18 84 58 19 84 22 26 33 51 13
7243.8 1213.2 898.0 7863.3 1213.2 6110,9 277.4 7914.5 2073.7 691.7
12 37 28 11 37 20 20 31 11 11
R&i f:# B if 5:#8! 19d:5 ii ‘W*i 2i 705718 11.06 25 ilN MEtO 24.6 18 724318 12
60 870,b 69 341.7 30 lBa4,8 73 4418.9 12 214.9 81 1693.9
4.24 29 W 3dEtOO 7843 27 CO 3.7EtOl
l.lEtOO 3,&E-02 1. tO1 1. e -01 2sEtOl 9,2EQ3
3028.0 22B.b 7367.7 3539.1 3539.1 11abJ 4079.8 4443,O 2035.4 13al*S
i2
B&l 881.8 8884.1 164.6 933*7 881.8
Ma ia:6 P! 4m4 ti 3.aEtOO 278.3 33 7914.5 31 i*~~~ 9kto1 3.8EtO2
B&SW
NBWIRLIREB El '1 &
1077.4 19 7863.3 11 bs17,2 18 7162.7 13 230.2 26 277.4 20
ii CU WA TI N CA w Ha
4678.0 6705.8
z SY
6867.5 1*&2 30 ZN l.lEtOO 4873.P 10.73 23 u 54Etoo 6876.8 8.21 27 CD 3JEtOl
3: 29 11 22 7 20 79 80
1.77 2.40 8107 2.92 8,Ol 4.54 1.08
I %
881.8 a4 1213.2 37 1201,8 12 214.9 10 697.3 73 618.9 29
‘3% 1818 22.18 30,13 1810 38.89 2,ll wo
4,OE-01 b*lEtOO
LeE
RAY
7490.8 7528.3
‘M 5.31
30 24 30 21 25 23
23 7 29 23 24 82 7
ZN CR M 8C M U
ltlEtO0 3,lEtOO ltlEtO0 2,7EtOl lt3EtOl S,OEtOO 3tEEtOo 1,2Eto1 l.bE-01 2tsEtOl 3.7EtOl 1JEtOl 3.bE-02 3 tm 1.*if tO1 2&+OO
ion,4 888111 1077.4 228.6 2686 6517.2
19 7863.3 27 835tl 19 7863.3 52 29&b 18 7243.8 18 645.9
278.3 33 7914,5 31 238,9 B 613~9 8 T* 141 23042 26.6 2032,s 278.3 2b,b 7651.1
# 26 18 89 33 18 29
5,OEtOO 6517.2 5269.2 W 3,EEtOO 278.3 U MEtOO M17.2 CR 3,lEtOO B8B4.1 PB 1X-01 6736.4 N 7d&O2 5269.2
18 30 33 18 27 5 3O
U
N 7.SE-02
114 M#l 15 P 1.8E-01
2.W 27 CO 3JEtOl 3.70 38 SR MEtOo
ii 27 ii 21 12 11
%!:1 !! 277,4 20 7037.8 11 980.7 10 7914.5 31 7243.8 12 7645.5 24
l?B:% 9’ 3900.3
lb
230.2 2b 183&l 58
277.4 20 898.0 28
M. A. LONE, R. A. LEAWIT,
Prompty’s from Thermal-Neutron Capture
and D. A. HARRISON
TABLE I. y-Rays Ordered by Energy Seepage 513 for Policies and Explanation
7537.0 4.47 7571,3 1.54 7b24.1 1‘40 7631.1 28.51 7635.9 3.43 B&8 M3 7693.4 4.15 7696.8 1.23 7723.9 27*43
8533.4 Z*! ii 7914.5 55b:e 10 476.0
2s NI 29 al 37 RR
26 FE
8132.4 2.56 21 SC 2JEtOl 815414 4.74 12 It6 8174.7 11a3 21 SC 8310.4 3.81 7 I 8315.4 2.27 21 SC
295.6 21 rl 43 228.6 52 %I rb 21 5269.2 30 228.6 52
17 7
fR# 84M.3 8512t3 853116
l:u 4.54 6.15 6.11
M 24 CR 24 CR 3tlEiOO 21 SC 2JEtOl
!!?#A 8884.1
1 27
T2: .
K
881.8 a4 1213.2 37 278.3 33 7914.5 31
8533.4 8578.4
lb.98 2.91
28 WI 17 CL
4t4EtOO 3JEtOl
6998.8 38 4b5tl 13 1950.9 22 bllOt9 20
I#:!
::ti
5f s!
Mi8i
!a::
##:42
M
P z= :;#m
&k$
10829t2
14.12
7645.5 24 228.6 52
21 SC Pi R 13 AL
28 III 13 #L
2960.0
7749.9 7755,3
1.50 36 KR 2StOl 1.40 29 w 3JEtOO
m 7600.0 7818.9
I:# f7' d 3.91 lb S 8119 28 HI
3:4# 5JE-01 4mOO
f&3
8533.4 8 3033.9
17 31 3
I@;# B mil 4 041.1 76 5420.5 59 8998.8 36 8533.4 17 : tR 3w 278.3 33 8884,l 27
8039eb 1.13 38 9R
1836.1 56 89BtO 28 8998.8 38 8533e4 17 I
3614 28 II
le2EtOO 4*4Eiw
835.1 27
295.6 21
B WI
II
ii
#i
888).1 26.97 24 CR 3JEt40 835.1 27 7939.3 13 8998.8 37.74 28 nr 4AEtoo 8533.4 17 46&l 13
IM ii w’ ::fH 7914,s 3om 29cu 3JEtoo 793913 12.75 24 CR 3,lEtOO 81200,s
220.6 52
3916.7 49
9298.4 4.15 26 FE 2t6EtOO 9720.3 lo,97 24 CR 3dEtOO
528
7 M
Atomic
7.5E-02
Data and Nuclear
1w:i
7631.1 29 7645.5 24 H84.1 27 B35tl 27
5269,2 30 1084.8 22
Data Tables,
Vol. 26. No. 6. November
1981
M. A. LONE,
R. A. LEAVITT,
TABLE
E8E88Y keV
IWT, HA00
Prompt y’s from Thermal-Neutron Capture
and D. A. HARRISON
II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
E&MY EHE88Y keu H!k kd C88SS SECTIOII: 3.32E-01 MN8 Ul8SSSECTIIM3&E-02 BUM 1052,70c 4.91 203230c 89.33 a?8 .
z=
4
=?#!?h
ELEmnBE b ‘%J5
347.41 b
0.16
1.07 E 4.02
CROSS sEcT108: 9JOE-03 Bm6 631.83 b 0.24 85333 a 25.96
2590.15 a 23.28 0.13
2811,80b
2896.40 b 0.15 3367.61 a 33,71
3443.51a 11.59 5356.73b 1.75
b8w.41a 63.75
36773 a lStb8 3855.11ba 0.82 3084.33 0.84
5619.10 c 1108 b$2$ ; l:JJ b5o!i hoc ohs
J3 a 0.24 t39 b Lb4 ;g E 1.;
$!K$,~
bi’$$;
k;
5297196 5333d7aa 21:02 18.48
8310.37ca 7413:60
1:19 3.81
Sb2,Oba 10.00
8368.98b
O.lb
343OhOd J9 d ==P2.18 d 3Slt38 d 3657.76 d . d M 19 378b:u dd 5804.94d 3819.83 d
0.12
ci8sssEc1188:1.03E-01BARNS 47lOJOc 34,18 Z= 6 ELEEKC fiEmEims: ma 1261.74 a 29S3
6739.30 c 39tsO 7OOLlOc 47*83
c88ss8Ec110H: 3.37E-03&MS 3683.93a 32.10
4945.33a b7,M
z = 7 ELE8Emn c88s8sEc1188:7.47E-02Bms 8EFE8ENCES: b9.b 70Rabi% c71! 7;3!h 74Tti7;Is lq 244.30c 0692 253.10c 4.60 8b!i:80c 2128 2ob2330 c 3:71 277.905 g’: c ;*9g 2.15 1670.29 1781.85 1681.44b a 0.70 7.36 1.62 2336.70 2157.40c 4.41 2174.70 3.62 2A3 3b9:10c
1:14
p&g f 2;.$ 1988:91b 1103
252O.M a 2831,W 3013.78 a
6.70 2.15 0.86
1999.67 a
3299.70c
0.20
4db
Z= 8 ELEE8T:O C88S8 SEC1188: 2a7OE-04BMtHS lEFEmcEs: 77k 2184,47 b 8240 870~89 b 100.00 1087.88b 82,OO z= 9 ELErlEmF
IEFEEES:
7ORa
3332.09 a
;
9.79
gg
10829.18 a 14:12
327ltOOb 18.00
c88ss8EcmJ: 9sOE-03 Bms
ma c 13tO2 2b82m c 7.77 2452.80c 10.23 2699.30c 4.51 P! bo $8: M iw8 cc 5% 2632110 c Se38 3074.40c 9t21 3262.M) c 3.44 4199.90c 2.30 2661.70c 6.36 CB8SSECTIOW: 3,8OE43 B688s 1027,97c 1042,47c lOSOeb7 c 1071.37c 1312,bbd
0.36 1897.51d 0.24 0.24 14.16 lJ0
MM dc ::I8 1433.75d 0.96
147bZiS d 1533.54 d
0.60 Ot9b
2163J8d
0.84 0.24
2330126 d
0.24 0.24
2399.16d
8lm
6.84
“d
a=lessthan 0,l keUi b=betwm
0612 Otl2 OA 0.12 Oe24
cc T:1
2839.10d Ot12 2896.03c 7.20 2923tWd Ot34 2933.28d 0.24 2953t78d 0.24 2994177 d 0.12 3023.67 d 0~24 3099&d 0.24 3221.54c
8% 0”:: 8:8
0.12 0.12 0.12 3934,31c OJb 39bb*voc 0.48 3974.8 c 0.84 MS. d 0.12 4161.46 d 4184r76 d
0,12 0.24
ii!M dd 3379.41d
2538.04 d 2606.03d
EIWW urcertaintr
2bb3,82d 2691.72d 2707.62d m8
2035.40 c 76p:: 2067989 d 0.72
2203.58c 2295.77d
2.39
2754111 d 2765.31d
Mm ii 2013.30d
2075.39d
4986.60c
:B d r93 d :# JO 605 Sb4MO
! d d d
8*B 0:24 Ml 0.12 0.24 0.24
.w c .7b d . d B :so rd r87d %"d bti9.75 c
3412.91 d
0.1 and1 keVI c==
529
4374.42c 52.80 tll d 0.24
1 and3 k&I d= Jnrkr khan3 keV,
Atomic
Data and Nuclear
Data Tables,
Vol. 26, No. 6, November
198
M. A. LONE, R. A. LEAVI’IT,
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
Capture
TABLE II. y-Rays Ordered by Element and Energy See page 513 for Policies
?!r’ 11
INTt N/LOO
ELEMENT: M
%%‘i 4W:lO c 560*20 c 596.80 c Sk38 799.90 834.70 836,lO 870,60
0.6 *9 2.20 1.09
E !a c 2.19 c 0.89 c 0.80 c 21.92
1003.80 c
o,w
f= 12 ELUENT: Ns REFEREII#s: 7ORa 277.70 c 3,05 326.60 c 2.20 39oJo c 6.68 g*g c’ f.g * t !&g c’ 268 ml! p’ 976:20 c 1129.40 1632.80 1690.10 1714*00 17so400 1808.90 lWO.20
?*8 S:Ztl
c 8,46 c 530 c 7.77 c 3.53 c 3101 c 29.97 P 8.65
ENERSY keU
INT, WlOO
ENEWY keU
88 cb !:B
INT. WlOO
Z’
CROSSSECTION: 4.00):l-01 BMNS 7.45 2,lO 2.27
2137, 2197. 300 22wt80 236L30
c c c c
9290 Acc%i?JHI 2982Ao c 3026.20 c
3,18 3.46
*70 Jo 3546&0 3wu.00
c c c c
!:fi c 1.05 c 1865 c 17.10 c 1*2!i
m68 2504.60 2517.60 2594.10 2716rOO
rc c c c c
m68E, 3213.50 3279+60 337osO 3411.60
89 1.32 1,OO 3.48 1.49
%&I8 3865t30 38781so 3982.00 4091.00
cc c c c c
0.35
4187,84 c
1345,soc 1.90
163440 c 1748190 c 1889.60 c ms8’E 196wO 1983.70 2027*20 2057.00
2123.80 c
2.32
2eo8.90 c
CROSSSECTION: 6.3Of -02 1982.40 c 2043.40 c 2048JO c 2541,OO c 258330 c 2607.70 c 2623.80 c 2642.60 c 26S.60 c 2709,lO c 2828.10 2wo.30 2938.90 2963.60 3054.10 3139.50 3160.40
3453*90 c
OS4
3916.70 4078AO 4136,90 4216.50
BMNS
1.87 4,19 3188 2.24 0.95 0.91 0.74 0.68 1.07 0.68
c 42,51 c 3.78 c 0.85 c 1.56 c 12,90 c 1.13 c 0.76
2656.07 2691.96 c
0, a65 0.
2709.51 b 2727.90 c 2737.80 c 27%i*O6 c m7;*‘p4 ‘c
0~48 0423 0.19 0.05 20’14
&I* 7.44 c
0,2 9
Et: z 2976:33 c
%i 0:ll
c c c c
3.85
1*12
8,W 0.92 y; 0189 0.66 O&2 0,40 3562.00 3!i98.20 3631,oO 3743.70 3808t40 3a30*70 387~,10
c c c c c c c
c 48,62 c 0133 c 0.42 c lJ4
4257.60 4285JO c 441130 c po$t c’
0.79 0139 032 0p.g
4966160 c
1:39
5157tooc
038
5196.60 5224.10 !i29%90 54%80 5526.90 5545*20
z = 13 ELENEN1: nL CROSSsEc11oN: 2*3OE-01 BMW EFENCES: 7Ol?a 721s 78% 248.90 c 6,M 2486,s c 0.16 3347.13 b p&i ; 2Js.g 2502.88 c OIL2 3392.21 a 3465.08 a 550:70 c a:92 253s,18 2550*28 c 0.06 0.18 3480t57 c 3541.16 c y$iE g:g 2577.62 bca 2,69 2566,47 2590.34 0.14 1.39 3S60.49 b 3!#L12 a 830:40 c r:n 2625.83 a 0,97 3624,lS c a:
and Explanation
c c c c c c
pj 3:30 1.39 0.55
4133.32 b :2: 421i26 4239.66 4259.51 4279a93 4331.14 4 “a74 4f 7.13
36pSSC
36 .%b
6037.00c
61llAO 617SdO 62!&30 6273.90
c c c c
6319.10 6354*80 6419.50 6442.20 6471,20
c c c c c
kEi I
:
5103.69 b 5134.06a 5176.19 b s2Ol*W c s209tm c sZ38.18 b SOL&B a 5343.26 c !w7.os c 541LO2 a
cb b c a b c b c
0.27 0.39 0.02 0, 1 1. Q2
0.16 0.04
Z = 14 ElEttENT: SI CR&S SECTION: 1.6OE-01 BMS REFEMES: 69Bl 70Ra 70% 246.90 c 3.76 449.90 c 0,37 656.00 c ZSOJO c 3.63 559.50 c 0.70 693.20 c 383400 c 0.38 596.20 c 0~87 752.39 a Enera uncertaintr
0.47 0.67 1.48
1038.98 d 1152.57 b 1262.47 c
a=less than 0.1 keUi b=betuaen 0.1 and 1 keVi
0.30 0.61 OdO
1273*33a 1294mc 13O!i.37 b
c=beheen 1 and 3 k&U d= snater
716orSO c
0.49
6315.80 6349.13 6397.82 6440.44 #.f$;
b b c b
1.81 0.11 OtOl 0.59 8,;
6618:97 b 6710.34 b
0:44 0171
H:8
Ii
8:b8
mi 7118t90 c 713!L13 b 7175.22 b
8:N 0.08 0.05 0.14
7237.70 b 0.07 7260r2Ob 0.04 7341.17 b 0806 7455.90 c 0.16 7656Jo c 0117 7693.42 b 4.15 7723.85 a 27.43
E”,s 82 1415:66 b 0:lO Urn 3 kaU,
M. A. LONE, R. A. LEAVITI,
and D. A. HARRISON
TABLE
II. y-Rays Ordered by Element See page 513 for Policies
,4 ELEHEHT: SI 1446*16 b 0.70 1534.46 b 0.30 1540~56 b 0,50
kontinwd) 2092.90 a 2157,sO c 2205111 b
1775.04 b 1793.54 b
4.00 0.60
EE 29obk
1867.14 b 2029.77 c
0160 2.25
3054.16 b 3Oab*50 c
Prompt y’s from Thermal-Neutron
bb 2.17 c 0.10 1,41 0.47
531
Capture
and Energy
and Explanation
4323JOc 4407tM c 4508.22 b
3116.40 3278dO 3306.30 3432AO
c c c c
0.31 0623 0.30 0.23
w! 3632.70 3661.39 3769107
be c b b
68% 0.34 3.89 0.23
%E 4934:39 b
3864.87 b 3955.15 b
1832 2.26
SO27S4 c sO7odO c
5107.23 b 5261.49 d g3J t
3.75 0.20 ;'i
S?97:47 b
Oh9
ma 6244.10 6287.00 6300.70 0.20 0.20
I? kt! r 0.17 c 0.27 b 12.37
6419163 b 6445.14 c
0.19 OJO
83 J2d 84% +91b 106au8
c
0140
cRoss SECTIOW 118oE-01 MRNS
33bso c 371so c g';t F
0,n 0.58 f.3
449130 c
Oh7
472Aoc &7.3J ;
1.99 :*g
1380.60 1413,lO 1629,90 1674.10 1688120 1734,20 1760*10 1890*00 1941.90 1999.80
I! 1.98 c 14.04 c 2t81 c 3.55 c 2*36 c 3.89 c 1.57 c 6.05 c SJO c 1.08
2424t70 c 2460*7Oc 2553.90 c 2S6.10 c 2603,lO c 2bs7do c 2705,lO c 2774.20~ 2863.10 c 2886.20 c
1.66 0.67 OS2 4679 0.74 1,71 0.M
c 1.65 c 1.33 c 6.94 c 15.23 c 2‘59 E 1.45 c 1.13 c 1.01 c 089 c 0.81
295mo c
0.25 0.33 5.07 0.39 0.96 0.37 0,34
Mu8 E 944.60 c 1032,40 c
M 1*13 1837
2021*80 2034810 2114.30 2154120 2172.60 2244.60 225odo 2262.70 2276.60 2285.10
1070+60 c 1321,40 c
8.55 1.56
2295.40 c 2309.10 c
595:2oc 3:92 636.20 c 12.18 706150 c 1170
~E;&~EnEmas
la 0.58
2992.10 c 3058.30 c 3087aOc 3121.90 c 3152mc 316BtOo c 318sAOc 3220*60 c 3273.80~ 3303AO c 3318110 c
0.26
3336,70 c
3339.60c
33baJo 3444.10 3482JO 3522480 3551100
c c c c c
do c 6 6.10 c 62?s .7Oc
ix8 343&o
r’ c
6342 "':E 64&90
*
3741.90 c 37bu2Oc 39OoAOc 3924.w c 39bomc 3971JO c 4129,60 c 4146eBO c 42001OOc 4261.00 c
0128 0*40
4324.30 c 4364Joc
0.28 4.50
5778Jo c 5816,50 c
0.90 0.40
7600.00 c 8640*90 c
3,91 2,66
ii;
c
CROSSSECTIOK 5.2OE-01 MRNS
841,li c 75.55 2379.70 c 44,s
2864170 c 1.78 2931.10 c 22.34
3398.70 c 3723,lO c
1,24 2183
4869.80 c 11.47 5047.20 c 3.15
%:!8
~~;~
#!:‘I8
I:#
w58
‘c
a
cc ‘::I!
rc
Z = 17 ELEHEIIT: CL CROSSSECTION: 3,32E MFEREilcfs: 7oRa 76sp 78% 1647.97 a 292.27 b 0.29 936.89b 0th 305.10 c 0.21 944.96 b 0.08 1675.00 c 337,52 a 0.07 1020.40 c oJ8 1679.76 b 1035.30 a 0,09 1043.30 b 0.11 RR: 8: i’0 1066.98 b 0.06 1131.14 a 1.27
0.19 0.19 o.b!i 0.41
1234678 1327.34 1356.27 1372.59
b a b a
#:ii aa 8% 786.26 a 9&O g.z ; 1i.g
% b
c c c b
O*Ob 0.96 O*Ob 0,33 0.07
cc T!!
2003.33 a 2011.21 b 2021t79 a 2034&a !%*!I t 2075:lb a
:Bi:J! z d:# 1170.83 a 0.46 541.00 57540 589.90 S93,20
oO:$J o”:H Oa24
0.44 0.11 0,45 !jFj Oh6
23*z i 230l:sZ b
3!8i:#
:
2110.23 b
m:!! bb 2422.21 b
b
2427t41 2432.91 2439.91 244S.61
1806& 1828.35 1840.35 1846.05
b a b b
2131.58 2156+01 2179.40 2199.93
a a b
%!* 0.15 4.16 0.09
W:B 1870.55 1896.90 1936.85 R&93
ifi b c b a
3.%M?d 2246.23 b 2252.93 b
a
b a
2303.61 c
2294.62 c 2311.08 a 2318.92 b 2326.02 b
b b b b
0.12
Y:
bb i:f
‘“a 7.93 F 5.41 e aw8 2%4:30
ii b b b :
20 c B90c
0117 0.22 0.21 0.14
t70 c .OOb
0:37 i:B 83 0*19 0.18 0,lS 82
859348 b
0:ll
m33 1462.42 149h43 MOO&2 160!!,76
863,89 a
0.14
1626&
b
0.32
1959.13 a 14&
227S32 c
0.18
2489.21 c
0.49
2&!WO b
0.08
P13J
8%
WI
:
8:#
#as
BkR
b:1
mi
8:#
akw
53
1:
EnerS~ uncartaintr
Eli
8:H
a=less than Owl kaVi b=batuaen 0.1 and 1 keVi
#ml br 2467.55 b 2470.51 b
cb
t
#w
aill 0.70 0.69 0823 cc 0,lS
:
c=betwan 1 and 3 keVi d= rlnater
38 s
831 0:14 0.18 8:B
i
ban 3 keV*
532
M. A. LONE, R. A. LEAVITI-, and D. A. HARRISON
TABLE
Prompt y’s from Thermal-Neutron Capture
II. y-Rays Ordered by Element
and Energy
See page 513 for Policies and Explanation EllER8Y ka’J
INT*
WOO
keU
“fk
(ifontinuad) 3158.05b
268OJOb
%l#k# ,b 3201.95b
Hk#lk z%i
Emtar
:
mw 6 8:s 2809.70c 0.30 2812.48b 0.33 2821.18c
i!f#:$:
r
3347.94b 3352.44c
8:8!i O*lS 0.07
3359654 b O,lO 3372.67 c 0.10 337LOO b 040 338&g; 8:# 3&S a 3437.13b 8Z
i##dbb
3469.42b
4w *
3727.70b 373M9 a
4298S9b
3750.03a
37Sb.Wb 3774.81 a
m#!
3800.29b
38101Wb
3R21,SS b 1.06
3825.95 a
1
RM!! t 352M2b
lw:a56
i&6= bb ::a 3573145 b 0.18
313S.26b 3132.35 b
0.18 0.08
OI20
84
Bk!# f 3604d4a 0.W 3614.11c 0.15 3622.71b 0.15 3629.11b 0.17 3634.45 i
8A 0.09
0.76 4m:23 b’ 0.20 wt * c OeOb 0.22
3581.21c
s
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0129
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8:&I
m!il %*f
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Z = 19 ELEIEUT: K wFwEwE8t
ho 24yJ; I!
7oJama
oh0 y$
MM: 2107.94 c
2l30.74b
c88a8wcT1al:
29lrsOc ilki8
Q:# OA8
0.10
PC 38
OIOb
tw4 % 4952&b
4957,94c
838 0.23 0.13
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M
8:ll 0.10
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ob*E 0:ll
ir l 0.53 0.09
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S3OOt49 b
t!i: !I f 462w9 c 4633.39c
pJ g
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4salrW c
ml:
4484,SSb
z.;
;
bllO:W a 2OhO 6185.27b Oe14
ti2i2.g
i
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5447.07c 0.05 s46oJoe 0.12 4916.79c
8578.36 b
0107 6142.01c
86
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,b
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4dO
2.lwOO
4843.96 c
0.11
oh2 ii*:: 4711.38c 0.06 4139:07b 0:n 4721.07c 0.W 4149r85c OIO6 4729.02a 0.75 4163.15b 0111 4735.07b 0.12
WI
0.05
4509, b 0.07 4317, I! b 0.17 4524898 b 0.53 4532.70b 0.07
Z=l8 ELMMT: #1 CR888 SECTIW:bt78E-01MM8 wFEmcE8: ma 1828.76c LOO 2566.01b 167.30b 79.60 w8~ 2438 837.69 b 9.60 867.29b 1.10
48s.26 c
m!! rc 060 O*oJ !8#;# s 4500.10c 0,Ob so8st82c
#!!:ii
3SSO2b
0.14
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3488.02b
0.11
4418.31 b
38bQ.98b 3868.18 c
i
3041.26c
0.27
3833.Wb
ia%
b' b
4414.49 b
4424.31c 4430.71c
3812.8~ 3a48.48 c
0.07
4“:lii bb ip 4M ,lO b 4906.55b 0:07 4933,14 b 0.14
s
3981.07a 399b.17b tx 4003.07b oh1 4012JO c 0.12
Y70 HM a
0.37
443Y bb iit! :3s4*: b’ 43s9:82c
3744JQb
0~13
8:8 0.07
bp
4273:70c 4284.13b 4293,83b
3476.90 c
3500.07b
8%
1 4770.57b 4700.67b
4198,14 c f!ObAO b
2940,67b 2974160 a
ENEMY keu
I?#:#
8184 iw! ,b 0.10 3975,Wb
3481.40c
IWT, n/100
4748.47b
ii 0”:1’3 8:b 3 8:E 0.13
$74: c Y” bC 7M iiF8 32ko5 s 2d :w 5 32Sll c 2736.59c 3271.37c 2741.69b 2747.49b 0824 3281.84b 0.06 2752.39b 0,23 3291.36b oati m!! cb 0:12 3316.42a 0.29 3320.14 c 0.10
ENEMY ka’J
2.91
i:; 0126
MIS
316.80c zH8
0.40
rc 1”9
35930c
0.24
38lt38b
#:R
828
i&3
0.32
ce 248
M!ho E ;.; 4gg; oh0
Enrrfir uncerkintv a=lessUun 0.1 keUib=bekmn0.1 and1 k&U c=bdwen 1 and3 krUi 6 imatw than 3 kd,
M. A. LONE, R. A. LEAVITT,
TABLE
and D. A. HARRISON
8% 0.10 2.08
E8 572:20 575t30 594180
: c c c
pj 1:14
boa&0 c
0.10
z*:: Mb:71 bbbG!Y 682.10 $99*oJ
b c c ;
720:93 b 734.J9 c
0.34 0.17 !*i!
0110 0.59 f :!J 0:20
737849 c OS40 741.39 c 0.40 770627 b 51.48 0920 0146
891.81 b
204iL98b
3.66
3388rOOb
928 lO,M OdO 0.43 tg
i&# i 3634.22b 3651.18 b 3663&b 3609.12 b 3696tO2 b 3737.62 b 3762.11 b
m::: 2073.65 2105114 2122.73 ;npj:
1330.48 1356.00 1373.13 141OS7 1418.57 1428.87 143W7b 1451.47 MM,92 1460147
2153.44 b 2171.88 b 2104.47 a 2194.04 b 2205d4 b 2233&?3b 2260db 2290.73b 2304,03 b 2310.06 b
b b b
OJO OS8 1.57 ;:; Oh OIlO 0134 0.10
bb b b b
2143164 b 2150,39 b
0130 0.80
ENEMY
keU
2WOJO 2807.42 2839.93 2856.70 2860119 2a92.31
b b b b b a
d&l a:98
ftiu!
1645,96b
m# bb 8:1! 2467.72 b 0.30
a!:84 bb ti27,23 it
2474.12 2480.52 2545a6 2557.81 2568.11 2!i73,81 2593.61 261OdO 2614.91 2620,ll
3335,89b 3349dS b 33b4sO c 338lJ8b 33WSSb 3404.34 a 3419,04 b 342aJOc
!I
0:10 0.39 0.10 0.30 0.30 0.30 lORh37 a 1139.08 b :;M&38~
I.19 0.10 p$
1929.34 a 195M6 a 2007d4 a
1177h
Oh?
%i;t
b’ i:;
Z=20 ELMMT:M WERENESt 7ONa 277.00 c 0.68
lbbO,M 1675.76 1694,96 1704.28
b b a b b b b b b b
bb
2121.50 c 2129mc 2145.30 2149.40 22w.30 2264Jo 2294.60
Enerw uncerkintr
0:96 0.40 2.16 1.40 0.90
OJO 0.30 2875
2.04 lb10 0.30
3099&o 3128Ab 31x1,57 3157.30 3199Jsa 3220.56 3262,49
H&Y
3779.21 3790.01 3794.21 3022&b 3828.91 3839~11
a b b
ENEWY keV
N;Zi
i,n 0.20 Ot17 0.83 0.10 0.20
b b
4671.78 b 4Emz i te 74h c 4903mc
a ;#bc 38bBJOb
c
3875.21 b 3097S3b 3912d3 b 3931.69 b 3944*94 b
b c b a
1.M
"b
0,40
3473.92 c
Oh?8 1*43 0.29 0123
Ex Ii 354&b 3570.46 b
0020 1.11 0,97 5.21 OtSl
0.72
33noo c
0.53
4087&b 4111& b 4122.07 c 4136*3Ba 417Odbb 42Ql.00 a 4224S7b 4239&c 4244. 1 b 42!io*bc ?
3.27 Otll
2.19 0,79 0.10 0. 0. 8
4201dSa 4314.01 b 4328.10 c 4346.90 c 436L22a
0.32 0.28 0,08 0,17 4‘39
5297so c
0.32
1’:8 i:Z
CROWSECTION: 4.3K
2474.00 i 2ti7bA c
2,13
i*t
:To;,
3767Jbb
2917613 b 2926,74 b 2930J9b 2978db 2992tSBb 3010*51 a 3026.70 c 3039.90 c 3Q5bAbb 3071m c
I?:90
b b b b c b
ENEWY keU
Nikl
232WOc 2346.51 23b7,24 2376.13 2389.58 2419a27 2446.22
b b b b 1747,76b 1752&b 1794.97 b 1815.93 a 1858,7 b 1881.1 9 b
b
MT, N/l00
1479&b 1489.86,b 1517147 b 1565.32 b 1583,57 b 1614107 b 1610.47 b
916163b 0.10 Ki .
ENERGY ke'J
M:1 b" 838 0.10 1233J8b 1247~50 b 3s9 1255d8 b 126lt08 b kit 12bm2a 1303.55s ::z 1319d b 0110 b c b b b b
Capture
II. y-Rays OrdFred by Element and Energy See page 513 for Pdlicies and Explanation
ENER6Y INT, INT, ENER6Y keu keV N/l00 Mm0 z= 19 ELEMENT: IK kontinued) 4SlrbO c OS10 1216.78 b 0020 :M8 P 48s30 c 522~94 b
Prompt y’s from Thermal-Neutron
c c c c c
$a!$8 rc 2341.50 c
1*40
2767.70 c 2811*00 2862rw 2w3Jo 295brlO 3003&0 3oe6.30 islm 3289Ao
c c c c c c ‘c c
6094 iiiw8, 2”s OS7 361oa c 6.34 3638,20 c
0.61
::t 0.39 0.73
w8 3eo2.70 3915.90 3947.00
Oas t:g 0.42 ado
3.31 0.44
3981.90 c 4218r90 c 4293,20 c
9::.
kR oh {I# 0130
rc c c c
0.24 0.25 0.47 warm c 14.94 4468.00 c 0.21 4slf*W c 1.04 l#Hi: 4615.40 c
0.42
8:% 0.33
a=less than 0.1 keVi b=bdueen 0.1 and 1 keVi c=betwm
533
d%915*80c
Atomic
1 and 3 keUi d= Ire&e
thm 3 keU,
Data and Nuclear
Vol. 26, No. 6. November
Data Tables,
tg&
M. A. LONE, R. A. LEAVITT,
TABLE
and D. A. HARRISON
z=21 Ei.Elm:sc 8EFEWCESt 7ORa %88 cc 55:8 2!%00 c 0.44 280.80 c 1.09 m
cc w
“:Z 5 z! Jo c 627.90 c 643.00 c JR78
2.18 6.97 ::ii
rc
s*: F 860:30 c
0.65 1.09
"Kl
w8’r ki\ 1857.30 c 3803 1871.70 c
0.65
w8 rc 1975.70 c 2006;1; c’
!:8 0.82 ;.I#
s8wo *
c
2o8oroo c
1334JO 1549,sO 1572,70 1648,40
c c c c
Z = 22
keU
sM98: 8% 2929soc 0.41 2949.80 c 04 M98 cc 8:lli
1:16
3031:z : a 40 c
0124 0.23 0.21 0.13 0.24
4173.00 4202.90 4236.40 4269.50 4292.40
2111.40 2128m 2155.00 2168.90
c c c c
0.70 2.71 0.60 0.39 0.31
3106.00 3117.50 3158.90 3168100 322240
c c c c c
m8 2288Jo 233ot80 2341.40
cc 8:1”a c OJ4 c c k::8
#ki8 3281.20 3309,30 33swo
rc P# c 0.36 c 00.: c 6 0.19 0.40
84 1830 1.53
ml8 cr 3478.90 c
8% 0,24 0,44 0.11
g
0.82
ELEWT: TX
341.70 c 26.27
0.24 2635.60 2665*50 2680&O 2696.40 2715JO 2739so 27%20
c c e c P c c
4804 oo:ii
m8 cc 8:!! 2817:20 c 0.23 2837.00 c
0.33
EHEMSY kev
8%
EE88Y kau
ll%i
BMr, 8% 0,93
4000*70 c 4021.80 c
!8#x 4083.60 c 4111.10 c 4131.90 c 4154tOO c
3012JO c
3377JO c 3396.30 c
1430 la09 1.09
Gil
BMM
1.74 0,65
ok 0.84 MM cc 4.63 1706.70 c 0,96 17!i4sO c
llik
la43 0.54 0.90 0.39
!:B
:Ei : 132&O c
EMSY
ENER8Y keu
ems SECTION: 2.6% Ml
Ii*!.
Capture
II. Y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
EnE88Y keU
Prompt y’s from Thermal-Neutron
““:ii B-ii *30 3569190 3596.30
c’ c c c
3623.10 3b3sAo 3642.20 3711,s 3722.90 373620 38Qotoo . w8 3&o
c c c c c c c c
0.35 ‘1:‘::
0.1s 0,20 0.44 OS8
c c c c c
1~24 OJl 1.w 0.12 0.45
aM: 4341.30 c 4355.00 c 4377.60 c
83 OIo9 oa 0.60
5316.50 c
5335do c 5346.30 c
0.08
0142 !;N
4402.00 c 5567.80 c
0.32 0.16
spa 4464.Oc *‘p 4498t90 4535.40 4564.90 4597.20 4616B60 4628.90
:
0.61 0.21 0*12 0.25
4656.50 468040 4721,20 4744140
c c c c
O,lS 0.72 0.73 0.08
5818.60 c 5834.30 c 5897.30 c
0,24 0.08 2.76
OS2
4975.10 c
2,78
6259.00 E
0.12
0,37 M
0.10 0.15 oai 1.80
5541t30 c SM.13 b
0.30
3762.43 3870.30 3903&o 3920,96
0.77 1,03 0.80 2,s 1.; *
iw! ec 4133.70 c 4222.40 c 4355.20 c 4673,OO c
0.20
4714,83 b
c c c c c c
p&i
%
5679:w 5703t20 5743.70 5781.10 5803.80
c c c c c
%*50 :c 0116 838
7488.98 7s68,90 7635.90 7673.00 7691.00 7889Ao 7924.80
c c c c c c
0.12 3.43
8033.50 c 8116.20 c 8132*40 c
0.16 0.20 2.56
0.18 0.36
7062.46 d
0.45
Oo:M 0815 0917 0.31 0.87
",Il0; 57!iS:lO 5801.80 5967.40 6109.10 6150.00 6169.80
c c c c c c
t; 0116 0.12 0.13 0.33 0.19 0918
m 7216t43 4 7333.41 7626.37 8010.95 8113.28 825s.26 8262.97
dbc c c c d c b
83 0.03 0.10 0.20 0.13 0.02 0.02 0.13
1.03
6199.70 c
0,14
d
0.01
8:M
iI
8:8i
: c
ii*: 0:03
‘,
3879do c
C8OS8SECTIOH: 6,loEtOO BMS
14s
i.97 _.. a-
8.87 -.-.
d&
k$.$ *
918.19 b 928.69 b
0.18 OA8
1983.96 c 2048.00 c
!&I! 1046.19 c 1121.11 b llMZi9 b
5:$' 0.07 0.92 0.14
1312&8 b
0.77
BMs 2238.95 2259.94 2277970 2371*30
c d c e
3027.04 -b -.-. 3083t2Ob 3116.30 c
c c c b
OISO 1.26
tl!M : 6418.33 b 30.13 648lr60 c 0,14
0.20 0.87 0.44
w8f Ml 6759.78 b 24.17 a4.g f 8.; * * 6908.00 c 0.17
83 0.08
3733193 a
1.04
s498so c
0.17
EMMY uncertainty a=less than 0.1 kaVi b=betueen 0.1 and 1 kaUi c=bekrson 1 and 3 LaOi ds sreater Uun 3 k&b 534
Atomic
Data and Nuclear
Data Tables.
Vol. 26. No. 6. November
1981
M. A. LONE, R. A. LEAVITT,
and D. A. HARRISON
TABLE
II. y-Rays Ordered by Element See page 513 for Policies
ENERSY IMT. keU N/l00 Z=23 ELENENT:U REFERENCES: 7ORa 294.80 c 3.14 :g.ftj ; tag fJ:g;
8;:
S9bh c o:b2 MS,90 c 11.13 69wo c 0*8b AM
:
ENERSY ENER6Y keV %I keU N%il CROSSSECTIW:S,o4E+W BMMS
c’ c c c PC
and Energy
and Explanation
FY
NE-i
ENEMY keu
ii-ii
zy
n/l00 xNTB
m8 2792.70 2027.30 2a4LsO 2888.90 2962tso 3034.00 3101*70
0.27 0.16 cc 0.33 c c fd . c c c c c
!:8
am8
823sO c
4.26
2082.70 c
o*s7
3265.70 c
0.26
l&i8 : 1097.20 c 1255*70 c
a:%i OS 0.99
w1 cc ::8i 2169.20 c 0.47 2271110 c 0.43
m%8: 3so3so c 3s34*50 c
8:H 0.77 ozlb
H&R s 1400.20 c lSSE*40 c
5::4 l&b 4,30
m88 cc 8# 2428.20 c 0.29 2SlS~SO c OX!
m88 ce M 3669JO c 0.24 3717820 c 0034
Z = 24 ELEHERT: CR REFERENCESi 7ORa 564.20 c 2.16
535
Capturf
2622670 c
1617.00 c 1664*20 c 1693190 c 3% 19s3:20 1960.10 2002.00
Prompt y’s from Thermal-Neutron
CROSSSECTION 3,lOEtOO MRMS 2321.00 c
be07
3393,bo c
046
4133.90 c
0.42
5618.80
c
3.87
cc c c c c c
f:R 0.92 1.55 OJS lJ8 0.26 1.59
w8 3513.00 3596.70 3617.70
: c c c
83 0.51 0140 0188
a8 c’ 44swo c 4529.70 c
818 0.47 0.21
@M8 : 5857.90 c 5999do c
898 0.78 2654
5862.70 c
0.49
tw8 E b326.40 6282.40 c
I:!? 0.55 1,32
6372.10 c
o,a2
835.10 74920 986.60 1151.20 lS8%20
c 2bab 11.04 c 0.45 c 0.45 c 1.49
p&g 18&O
c;
4:27 :a$
m88 2558.20 2601.90 2621.30 2670.40 3022*30 3091&O
1994.70 c
2sS
3178.60
c
0.88
3928*10 c
0940
223880
a,32
3263.50 c
OS1
4o22.30 c
0.16
5493.70 c
0.72
bb45so c
5.91
029
2806& 2817.40 2832.90 2842.10 2857.89
b b b b b
0412 0~12 0.39 0.08 Ot37
b" ob*: b Oh5 b OJO b 0.18
0.17 0,OE 0.11 OJ3 0,06 0.02
838 Oh 0,33
28b4*3q SW8 2893,70 2898.70
3172.50 b 3191.50 b 319SdO b 3203.W a 3213.70 b 3222AOb ak88~ 3242.50b 3247.30 b
84: 0,09 0,09
1.09 0.24
2922dOb 2926.89 b 2937&o b
0,34 0,42 0.07
3259.90 b 3266.81 a 327ltBO b
0.18 0.73 0.32
5wi8 bb 83 33OlJO b 0.17 331b.W b 0.08
369740 b 3716.20 b
0.12 0.04
&Wi 3346.90 a
83 0.63
HA8 1 3752.29 a
8:84 0.41
3363SOb
0.08
c
25 ELEHEMT:ltN CRDSSSECTION:l~3 ‘3Eto1 BARNS LRENCESt 7011e 7Ma 71th 7X0 2b.M) a 18.00 1140*00 c 0166 2372.10 b 2g ; ,;Jg 1401*70 c 2396.40 b 2405,70 b 17O!i*40 c ?!! io4k il 8140 1747dO c 3:31 2428.60 b 113.35 a OJS 1876.20 c 0.34 2437.79 a 118AM a 0.24 1915*20 c 2.50 2443110 b 2.74 tskn r: 8:fi s!k# 6 M:Ii “, MM2 a l&I 2023.90 b 2soa.so a 212.02 a ado 2044.70 a 2515~00 b
ii; 19
215.13 a 229.87 a 231,bO a
048 OJa O&5
2Ob3J9 a 2O9o.40 a 2122.50 b
1.80 1.04 OS!
2S2lt80 c 2534.60 b 2545.70 b
H:H z 274.28 a 314.40 a
!:!i 0.46 6,7b
m8 b" 83 2159.10 b OXi 2176.59 b 1.85
m!8 b" 2582.OOb 2534,49 I
Hi;!8 ii 2976,40 b
8:#! 0.25
Bw! f: 354.11 a
8:8 0.62
s% bb 8:6 22O5.30 b 0.93
mi ! 2622669 b
T%ba a?* 1.70 b 3034~10 b
tr4 0,*B 0.14
375.18 454.30 459.72 486.47
OS3
0108 0.96 OS37 0.32
3O47dO b 3OS8t22 b 3061~90 b 3072e70 b
0.37 0.13 0.15 0.04
898 0.07 0,ll 0.03 0.18
mm 3098rlO b 3116,iO b ;313S:bO 124 70 b b
"0:8! 0.03 0.22 0 19 Oh
a
a :*g a a
0:21
i%‘i !I 22S4:80 b 2261.00 b
541.40 b 558.70 c
8% 0:10 0.20 0.31 0.52
Bt:R 23lOdIO 2320.20 2331dO 2338640
646.40 c oJ4 716.43 b 0.74 Enerd~ uncertaintr
b b a b
2644.10 b 2677ab9 a
27MalO b 2769.20 b 2779.50 b
2342.60 b OAO 279odO b 0.07 3144,40 a 0.27 fv$g i ;*;; 23b8e41 b OS7 2802.20 b 0,lO 3159.60 b 0.11 , , a=less than 0.1 keUi b=b@tuean 0.1 and 1 keUl c=betuaen 1 and 3 keVl d= w&elr
9720.30 c lOB97
3772.00 b a i%M b .381SdM a
0.12 0.29 0.04 1.41
l8&88k
8:88
3897.00 b 0.09 3901.70 b O&! than 3 keU.
536
M. A. LONE, R. A. LEAVITT,
TABLE
?!F’ Z= 25
IWT,
ELEtlEHT: IW 0.66
NM
1
8:8!
M%
kofGwed)
4187.20b
N#;#
:
a&i8
z
1:;
4223.49a 4230.60b
OhI 0.10
i&g 048
1
I:!
4088:SO 4103.68 4110.40 4127.70 4131.90
b b b b b
0:04 0.27 0.35 0.05 0.07
4423.70b 4446tooa 4469480 b 4473.10b
0.06 I.03 0.10
0.04
4SSOS3 b
0,51
-?!m
ElDlEHT:FE
4330.40b 4348.00a 4364.50b
0.36
l#:!i
8E
4415.30 b
0.06
0.01 0.24
0.06
SlS.59
ii%: *
2150 0.07 0,02 0.02 0.05 0,26 0.18 0,07 0.07 0.95
52s4a 3 S290.30b S298JOb
4841.00 b
0.63
5313.60b
472St34b 4739.40b 4751.70b 4764~10 b 4768.80b 4mAO c mw
Ii
5102AOb 5111,67i 5129.50b 5134.40b
#RI8 cc 8::f 2250.90c OIIO 2273.00c 0,ll
BE! '
3267139 a 1.49 3292tsoc OJ3
m1,c 4012.24b
403!Lm c
#:!I ,” %a8 cc 8:/i 692.10a Se29 2366.90c 0.14
#?M
mf8
1725A6 a 0.03 ns~.$ ; $5 1842:W c
m9070 c
2021.60c
2412~10 c
0.11
3357.73b
t
8:::
cc f# *
3379.70c 3397.00c
0.17 0.03 OJ6 0,04
6783.39b 6928.77b
7o3wo
5707.00b
571480 b 5733.9Ob 5760.96b
0.13 0.02 1.69
0.06
R30 *
8:8!
0.08
5905t60 b
k
c
7057*81 8 z# : 727o:wa
0110
1.67
3382.40 c
0:Oa 7430:90c 0105 Age# ; 0.04 .
SIU
i%%
m8r
833
0.04
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5693.10c
0.0s
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9s Aa a 606lAo c 6163.80c
0.69 5061.27b 0.12 384srlOc 2091.40c 0.23 3103.26a 0.80 3M428 a z=n El.EmT:co wosssEcT1ow: 3J2EtOl Mm5 2066.09 b
1.01
1291.30c
##:!k
f:?t
m18,r
944*# c 2.21 1215.60c 0.78 ~1~s
189040c 2033.60c
bc 8:tl
@9& a 4874.00c 4940& a
3770.21b 3792.21b
477.00c
6567.10c 6s73Joc * c m 67622330 : 6813,n c . c ml 7049:30:
!is11:70c ss64m c s!m.30 c
OllS 1.91
3s97a c 3614.30c 3644.30c 366&mc
0.22
ail:28 cc :I 5271.90c 0.03 5287.90c ;I 531 =7 f8,’ 5340*90c 0:03
64Mr20 c
kE
EM8 er 3406.74b I:!
272lJ3 a
rc
4142.70c
5106.90c 04 5141rsO c OIIS 5203*60 c
0.13 0.03 0.04 f’!
2576.30bc 2526.53 2617.70c
0.26 OA8 OtlO
39oor90 c
53!+7*40 c 5306.70c s42ot60c p#o~
3413.19 a 3436&b
0:16
Enerau uwertaintu
83
5543.00b 5563.90b 5586.50c 5601.30b
4157‘00c 0.12 4218.30a 4.26 4274.76b 0.13 4295.70 c 0d.z 4324.70c 4367.60c 0:03 4380t10c 0,13 4406.13a 1.66
0.04
2425.70c 0.20 2469.20b OS3 2497.50c 0.09
0,2s
WEERElit 7ORa 23ot20 c 25.95 RI8 : 1d:R
0.06
am
cuossSEmoM:2sE 1300 MRMS
m! 1 ‘M 4llAO c 0.74 479.10 c I.91
O&95 I.85 O&B5 2,47
S485rSOb
562SdOb 5637SOb S678dOb
5245.30b
391armc 3932.30c
c a b a
0.55
a 5199.08 a
3121,lOc 0.05 3170.52b 3185.82b kH
810.60 898.20 92082 1019tO3
0.41
ak# bbI;# 3464.10b 0.03
~j~ B 4933.16 b 4949x2 a
a TM' ~2lmO c 0.36 277.30c 0.14 2129.18a 0.68 314.20c 0.16 2153.40c 0.14
8:#
5404.54 b
H:H b . 5033.44 !!06&24b
0109 0.13
t
1854.10 b
8:% m85014t9S 1b
404LlO b 405lJO b
Z=26
Capture
II. y-Rays Ordered by Elem lent and Energy See page 513 for Polici ies and Ex
:rE bb 4324110 b
4173.9Ob
Prompt y’s from Thermal-Neutron
M%i
WI00
3927.12b
and D. A. HARRISON
Ml.70
pj
8bil oh ooly *d 8:06
c
7143JOc
n97.90 c 2: :
soo2.20 c so44.20 c 0.75
2204.70c
&8!e
3115.80c
0.24
1.16 I.09
26a6.50c 2726.80c
360940c 3613.90c
0.20 0.35
than 0.1 kaVi b=betwxn O,l ar#J 1 keUi c=b&um
i4R885 8:8 i!!i*x 5 t:P Eh8’ 838 3&o F 0.19 1 #rb 3 keVCC treater than 3 keV,
M. A. LONE,
R. A. LEAVITT,
TABLE
537
Prompt y’s from Thermal-Neutron Cafiture
and D. A. HARRISON
II. y-Rays Ordered by Element
and Energy
See page513 for Policies and Explanation IWT. N/l00
keU
z= 27 ELENEMT: a 3663,70 c 0.16 m8 gag
: c’
3842:w c
83 1.; 0:21
402840c 1.66 4128.20 c 0.11 4151AOc 0,62 LEHENNaNI
N:k
korkinu4d)
zy Wloo IMT*
EENEY
IWTe
WOO
keu
IIcf.
keU
WlOO
s212*60 c
0140
5925.10 c
1.84
6876.80 c
8~21
ml8 ec 83 4884.30 c 0*80 49Ost40 c la86 p&j; &j
#!w8 537OJO 5509.70 S567.20
cr c c c
83 0.42 034 0.26
c c c c c
M 0.62 0.28 0.68 0.54 6.42
:I8 rc .bO c
54 1.81
so38Jo stt69*00 5128.10 5148.30 Slbb.50 5181JO
m48,c 6169.70 6148.90 a do tW
3: 40 c
tn 2.4%
E*W t
i
t*ti8
4207.90 c
1.00
4705,90 c
ak:8 4348.80 437bdO 4394.40 4471&O 4527.20 4546,sO 4607.10
rc c c c c c c c
8# 0.20 OJS 0.23 OJl 0.19 0136 0.85
4622,90 c
0.20
4645dO c 4666.80 c
oJ5 0.14
c c c c c c
Od9
022 0.27 OJS oe13 0.38 2.65
a!!:# cr 363830 c wi9Jo c
% 1.10 7.20
s702*90 c 5742.20 c WWAO c
0.51 2.10 0.33
6705t80 c 673ldO c 6757.10 c
7843 0~19 0~09
6536,60 c f3iwE
o*w M
6901:80 c 6947.40 c 6983.10 c
0:lO 0910 0.11
CM888 SECTION: 4.43EtOO BAwls
252.30 270,lO 283,lO g9;*8i$
c c c c’
363:oo 465.10 48ldO 846e90 877*90
c ok6 c 12.98 c 0952 c 1.06 c 3,86
0,71 0.26 3J4 ;‘;
118940 c
la05
3026SO c
Oe24
5227.00 c
I’m8 1726.90 181640 f841*#
!:iil 0.71 0.M $fl
0‘1 O?!
0.18 0.17 0116
ml8 5395.50 5436,oo ss46*80 5695*40 5780.10 5816,80 583b.70
0411
5924dO c
0109
0.17 0118 0.60 0.13 0.17
lZt4 0.52 0.63
8:E 0.13 OS0 0.15
4320180 4385.60 4477*40 4502*po 4362.10 4985.90 * I#!! 4b9o:oo 4705.50
: c
0169 OIlO 0.10
lilTi 40 c s614.60 c sb3!Mo c sy7go’c
t;
5893:w E
0113
mi3t60 c n76.10 c mm c
W8: 6063dlo c 6133.60 c
M 0,44 0.25
?W8 P’ 8% I.30 f la4 r b36,bo c 15.71
cc c c c’
2093AO c 2123.40 c
0,2b 0.81
Bk#8 3151a 3182Ao 3221.00 3265.90 3296.00 3349,Oo 3367.30
2148,lO c
0.43
3383100 c
19!&0 c
z=29
1:35
ELEmT:w
EEFEEEE: 70Ra 203110 c 7.21
: c c c c c c c
494120 c
0139
J79.80 c bW.90 c 619alO c
2.91 8.62 0.84
2797.70 c 2839180 c 2932.40 c
: c c c c
::I8 0.94 1824 0.72 lelb
!W8: 3140.20 c 3174,70 c
1672.40 c 1744.80 c
1.26 1.11
c 32.69 c 0.82 c 5.46 c 7.58 c 0.36
&*$3*
i
1159.60c
z=30
J:!J
0.98
aENENT:m
0134
4713160 c
cc c c c c c c c 0.62
bb33,20 668340 6716.80 bg.oJ
0.13 8:H 0.16 37*74
c 0.10 c 0.16 c 0.22 ; 1yJ
CR088 SECTION: 3.79EtOO BMN!? 1834.30 1853Jo 2l3bJO 2439.80 246!!*50 2497,bO 2512. 26% 1 2699.90 2731.00
278.30 316.20 343*90 385.20 394.90
tiMI 768.10 878.10 9 A0 11# &O
7%
ENEWY keU
3509.80 c
0.42 0.35 0.49
3s61a 3591.00 3616.70 3728.70 3755.50 3777.70 3818.70 3844t40 388530
0.20 0.21 0,33
3900*70 c 392oao c 3937.40 c
0,12 Od 0,15
4733.00 c 4781dO c 4804*30 c
OS3 0.37 0.13
0.23
@M: 4032*80 c 4089.00 c
83 0.15 0.14
##:l: 4902r80 c 4982.80 c
0.35 0.14
Ew8 cc 8:&t 3413.70 c 0.14
lm8 rc 4201,50 c
8# 0.37
i8&# cc !;I! so84.00 c 0.44
Ml8 ec 60s 6244.10 c 0.20
3435.00 3483.80 c
4285.80 4297.30 c
0.22 OIll
5139*80 5151.90 c
Ez: ,
8:U 0.26
0.34 0.14
CM888 sECT1oI(: l*loEtdO
c c c c e c c c c
c c c c c c c
51w.w c
c c c c c c c c c c
=v : IF 19Ao c
5417.70 c 5449;; E”
8:N
0.12 011s
RM s 19 7914tso c 3042
II’:*
slwlls
c 7% 208.20 c 0.28 221.90 c oa w8
:
8#
Enera uncerkintr a=less than O,l keW b=bheen
0.1 and 1 keU) c=&twm
1 and 3 k&i d= lrwter
OS0 2.53 3.70
than 3 kaV.
M. A. LONE,
R. A. LEAVIlT.
TABLE
and D. A.
HARlUSON
Prompt y’s from Thermal-Neutron Capture
II. r-Rays Ordered by Element
and Energy
See page 513 for Policies and Explanation
keu NEI 2=30 ElEmT:m 22B6do c 140 fw8:
2419.40c 2650.00P 2736Joc 2769,20c 2858.10c 2921Aoc 3093+50 c 3136.50c 3281.60c 3207.50c
A:#
1.30 oJ4 013s 0~23 0.71 0.17 0,32 OIl6 OI26 0,47
z=31 ELEnElm66 EFEMCES: 7ORa
319.00c 3.50 376.60c 1.77 393.70c 6,44 411.40c 0.92
ENEHY keU
hntiwed)
3331.70 c 0.34 4164,lOc 0.37 . c w 18 8:# m8,c 8:&? 339!:70 ‘E 0,23 4446eeo c 0.17 3458Jo c 0.33 4582.90c 0.42 3586.70 c a c 0.47 3717.90 c 818 4u53 750,mc 0.14 3774.80 c 4756.50c OIlS 383330 c 4703.90c 0.41 3074sO c 4795,OO c 0.22 3957.30c 0.15 4fJ2etoo c 0.68 4028.20c 0128 4869.70c 0117 4137.00c 1.60 4wmo c 0,39 CROSS SECTION: 2.9OEtOOB6RUS 0.55 0.70 0.48 0.64 0.60 0.52
2062250 c 2116JOc 2126.10c 225740c
4w.10 c 0.54 2269.60c ml F M #&#,c 2351.90c 2396.20c
Bki8 rc 2474,60c 7lOJO c 1.09 2552.00c 7saJo c 1.30 2576.40c 869JOc 0.81 2603,wc 903.80c 0.32 2626.50c 999.30c 0.38 2640.20c 11400160 c 1853 2676.00c 1173.60c 0.64 2692,lOc
&yEmTnTaGE
EHER6Y keu
3158.10c 3169.00c 1.00 83 0~69 0.63
8f 1.01 oJ5 0.90 o&5 0.62 0.84 0.69 0.70
::i!i 0.48 0.57
3236r70 c iw8: =x,c k :I c 3524:40 F 3566too c 366lt70 c 36B7.20c 3746Joc 3764.30c 3777.50c 3794.10c
w8 rc s246t90c 52671eo c s34o.80c
8::9’ oJ9 0.25 0.25 54ohlO c 0.13 5473.60c 3.35 5520.20c 0.37 5559.60c on93 5647.20c 0,39 5661.70c 0‘17 56%*40c 0,12
59a2r60c 6037.40c 6262Joc 6421.20c 6481,60c 6509.10c 6658*20 c 6703.40c 6769.00c
0,18 1.07 0147 0.28 0.91 Ot83 1.11 Otl LOO
c 0.25 47 ;a; 48 386030 m1 cc!i! 4792.50 c 484080c RR 3894*80 c: E 0:41 l!m:
tz lb2 3.40
3991&oc 0192 5002*90c 4013.50c 0,39 SO18tSO c 4032.30c 0.38 SO55.20 c 4071.00c oJ5 5159~10 c
40%,60 c 0.34 m8 cc!;a 4311.80c 0.70 4337JOc
1.03 0.66 0.31 0.43 029
5762ac 0.36 6867.50c iHti8 cc kfi fm8 : 5909*40 c 01887069.20c
0117
1.62 1%
1.29 1.49 0.93 lOIsa 0.71 1.09
M 0.49 g*g E 0924 0.67 6OOhOc 1.69 6111.40c
6:09 4.82
6129.90c
Ot84
ff
M:IuI E 6:# 6318t40c 2.55 636otooc 12.78
0.59
#w8: f:%8 447940c 0.23 4541.80c 1,95 457sa c 0,43 4595.70c 1.13 4627.50c 0876 m8: 8% 4723.00c 0.38
7112.00c 7lawO c 7863t30c 8313.90c 9118t20c
IlKi
N!#:i58 : 6521.60c 7002.70c
a:#8 0.31 1.95
66wt60 c 6707.Mc MM8 ‘E 6915.50c 7018.30c
0.21 1.51
7a*18 : 726o:ooc 7415.50c 7soo.50c 7628JOc 7725.30c
8*# o:ss 0.46 0.20 0.14 0.09
M8#& 4 f .
pj e
5541.40c 1,n s577t80c 0.47 WI EC ii:!! s65lJo c 0.70
CRO!X+SECTION: 2JOEtOO Bllwls
175.10c 11.39 lW.90 c 0.70
1940sOc 1965.60c
a:1 : 8:B 283.50c 0*97 297.40c 1.24
$8w8 cc 2074.40c 2292.20c 0.18
3709.10c 3830140 c
lr26 1.41
Ener4~ uwrtaintr
3551.90c 0.24 3583e30 c oJ6
4573.60c 4641.20c
5620.00 c
4685*60 c 0.22 4706.70c 0.47
5649.60c MM cc M;Rl cc 8% 483&mc 0106 5782Joc 4wlt40 c 0.58 316.80 c 6036,30r 6092Iooc mf8 cc 8:1 4988.50c 0.42 6115,80c 5002,70c 0,26 6172.00c 5063doc oA5 6199.50c 5088.50c 0.27 622s.50c 5161.10c 0.42 6251.00c
a&88 EC 3995.20c 3995840 c . c fM8: H!l SW8 cc 8:8 t8!!1 500*20c 3.57 2563.90c 0.19 4077hor’ 575r30c 1.33 2643.00c O&l4 4189,90c 596140c 33610 2784.80c 0.41 4220.60c 6oeI90c 7.40 2953.00c 0.18 4262.60c 702.00c 0190’ 3028.00c 39100 4307.60E f8?:!8 s 538 i&88 cc m8 cc 43w.20c R6mo c 14J9 3276.30c 960.80c 4.60 3336Joc 4438.10c 1100.70c 6.19 470c 4463.40E 1470*00 c 2.06 R tea c 0.14 4495.40c 1471.40c 1.28 3478t70c 0.09 4513,lOc 1511.60c 1619.50c
5035t30c
ENEMY keu
“%
#!M rr 5266.40c 5347.70c 5367.50c 5383.20c 5449.00c
8:!8 0.11 0.24 On18 0.26 1.06
OIOB 5518.00c 1.12 0.36 556Ot80 c 0.42
wi8 EC 6361.20c
8:!il 1122 0114
tz*: : Mm:40 c 6505Aoc 6542.40c 6584.90c
0.10 0.25
s=lessthan 0.1 keUib+kkrrm 0.1 and1 keUi cnktwen 1 ~IKJ3 keUl dt Swab? than 3 ke%
538
Atomic
Data and Nuclear
Data Tables.
Vol. 26. No. 6. November
1361
Prompty’s Tom Thermal-Neutron Capture
andD. A. HARRISON
M. A. LONE, R. A. LEAVflT,
TABLE
II. y-Rays Ordered by Element
and Energy
See page 513for Policies and Explanation INT, ENER6Y FY WOO keU WlOO INT* r 33 ELENENn 6s cuossSECTIOH: 4*3#tOO BnRNs iEi:wtENcE!l: b8Jo 7oaa
157.70 164.60c lb.82 2.37 177.90c 1.24 187.90 c
m8E,
3626.40 c 4018.00 d
1.19
1JS t94 B:88 cc 8t31 3s2aoc 0.42 356.00c 03 379.80c 0148 402.00c 0.82 427.00c 1.07 471190 c 3.59 SW.70c 0.77
2205.40c 2743.00c 2Bbo.00c
0.07
1~00d O&b
4097.00d 264.60c
83 0,14
0107
m8
8:i!
lm! bd 4810.00d 4826.53 b 484340b 48bO.00 d 4877.00d 4893.07b 4917t66b
M:888 S36O.OOd 5374.22b S3WAOd 5416.14 b
SOb6dO b myL&l t
0.11 0.15 4329.00d 0.1s
4499.98c
0.3s
0.16
4SlS.00 d
0114
4S32,OO d 0.11
Z=34 ELEiHT:SE CROSS SECTION: 1,17EtOl EMS mERENcEs: 7ORa 175.90c 0.09 1003JMc 2941.90c 0.09 Bkfl~ 199.40c 238.90c
148 1.50 8.06
f!!?:!8 : 1146.20 c
1162.70c
m8I d:!!
Iti 0:14 0.39
:M8 cc 8:R 0160 1239190 c 0.32 0867 1296650 c O,W 0111 1308,90c 0.92 1383.60c 1714,40c :::=:88 cc m8 cr s20tOO c 1922t70c sb8.60c 199S,70c gQ# ‘E BM cc s9s,60c 2394840 c 613.90c 2s20*80 c 0.27 2613.30c 286.10c 297.40c 332.70c 367.00c 439.70c
2674a20 c
2721.00c
5985.28 b
8%
6392ASb MOM3 b 641846 b
0.62 O,i4 0,44
3EsuAo c
4926.60c
0.19
uM8Ec 8*!! m8 cc 3482.10c 0131 4243.60c 3517.30c 0.11 4338.80c 0.09 4 Jot a#:!8 rc 0.18 4!M 40 c 3sm.90c 0.18 4412.70c 3601.40c 0.06 4435.50c y&g;
8:li 0.19
so79:70c
OIoa 0.07 OIlO 0.24 0. 7 O.be 0*06 0.10 0. 1 0.L 04 0112
B’Ri.8 cc 5169.80c S2OSt30 c 5243.70c S276.90c
f:!
M
bRfb.40 b
0.07 ::8i 0.24 2.47
4244tlO c . c tm
6413:80: 0110 w8*20 c e c iwas 0.07 #& ; 0.16 6867:OO c 0.0s
89
w1:3 : I!# A0 E SS74.70 c
0.23
YP”. c’ M8 s79s:soE’ 3807,SO c
8:8 3.12 040
001;;
5812190 c s9m.80c 4545:70c 011s s96830c at88 ec 8:ii imM8 5 4b41.60c 0.13 6049.70 c 4701.90c 0.11 6155.90c 4770A c 0.08 6232.30c
a=lessthan 0.1 keWb=betwm0.1 and1 k&Ii
oo*:: .
678lA c
6187.00d 0.09
0*29
RM8 cc 4oos*ooc 4022a c 4034.00c 4106.10c 4174.90c
0.28
0.11 0.12
5674.28b OAb 5688617 a 0.28 5697100 d OAO
M:?8 : it B 3242.60c 0.06 3331doc 0.06 33MllO c 0.18 3413*10 c 0.11 344040c 0.16
539
:sP k
3:2# 0,22 0.10 Ot29 0123
3909*90 c 0.13
8*
0.10
01
8:tT ilW8 cc 8:W l;b:?8f 3902Ioo c 0.30
0.23 0.16 Et: 5 3646:w c 0.06 0.12 mw cc 0.19 3702.20c 0.17
0.18
6096.28 b bl29.00 d 6142.66 b 6176.00d
m8 cc 3072t30c 0.27 317!i,80c
3749.70c 3775.50c
Eners~ uncerkintr
0.27
98 0:13 0.46 0.12 037 5443.00d 0.1s S4S2,OOd 0.14 S4&&8b 0.22
,
rOOd
:@Of 88 ho f
5303.00d
0.14 0111
W%
rOOd
4760.41c
0.10 0,lO
zy
8:tj 0.16 W7.00 d 0.07 4S99.00d 0.05 0,13 022
0,22
ii 4247.00d 4257.00d 4272.00d 4286.00d 4304.00d 4318AOd
Nzi
tm8dc 4Sb7.31b
4156.41 c
0.85 0,ll
ENEMY keU
,7S97*80 c ~7660.10 c :?734.10 c iW8 i ;esa1:10c ‘9181.60c
c=hetwen1 ml 3 k&t; 6 rreateti tlun 3 k@U,
Atomic
Data and Nuclear
Data Tables,
Vol. 26, No. 6. November
198’
M. A. LONE, R. A. LEAVTT,
aod D. A. HARRISON
TABLE
Prompt y’s from Thermal-Neutron
II. ~-Rays Ordered by Element See page 513 for Policies
EMER6Y EER6Y EumY keU keu HEi bk kd Z=3s El.E?EmBR CROW sm1on: baoEfoO Dms
EFEREms:7oRa tM8 E 8% 1bMo c 17bJO c
3!:!8 E 211,lO c
0.29 1.24
::B 0.16
83: :*# 243:70 c 11:41 25bt80 c
0.24
##!:a8 :
!A!
53
: f’:; 0:18
389:lO c 393.30 c 415.70 c
0,ll 0.12
2=36 El.mfT:Ku REFEmm: 72Ba 189.30 c 0642 GM8 1 382JOb 419130 b 133 s&g;
8:W 0.25 1~30
% ‘%9 ;*s$
541:30 c
0166
546.00 c
om
604.70 b b&g g
0.8) tl;g
694dO c 706.90 c 714.40 b
0.29 0.47 0,43
iwab M&O
ti b W:OO
pg
;
963189 c 1!#:B Mb*19
IWlr w/100
449:30 c
0.12
453*wEe a!:#8 E 493150 c 538.80 c
00’: 0:24 Ot12 0.22
S55.20 c
H#w :0: 4lbO.30 c
78b*bo c m40 c
4,27
9101 914.178 c 102!5tbO c 1043.50 c IosI*sa c 11wJO c
1.17 0.30 2.16
571.20 c
0.15
1248,bo c
0.21
618&O E b43,4Q c
4.61 0.16
169OdO c 2066.80 c
B!:#F bWt20 c 691.60 c
83 0.24 0.30
720.50 c 731.90 c
0.46 OJO
o*es
0.41
l&P cr 1# 1124.49 c 2t20 1213.19 b 37.00 H!:# 1330.29 1442.69 1463.49
cc c c b
6146.90c
0.10
71sbJO c
M 0.31 0.18
a#;1 p’ 5250*90 c
M:# : 6222m c 624640c
8s 0.07
?&RI : 7341rsO c 7421.50 c
am 24bO.50 c 2786.10 c
32s3Joc
89 oh1 0.37 0.05
fihki8 cc 6438100 c 0:12 MWt70 c 086
3343.30 c 349o.ao c
“0::
wi8 55obt8o Sm.70 5sbBt40 5bsoAo 5674.10
cc c c c c c
22OOJ7 b e b liw 267&b bb 2760&b
1.20 tg
lb&8 1709.48 1742.38 1780.18 lBl3dMb 1854.38
0:26 0.31 0.85 0.69 0.65 0.51
3!!79:52 b 3617.32 b 3742.71 b 3617.21 b 399OtJ8b 4042.20 b
b
5207tbO c
;:;
6532.20 c
0.19
6569.30 c bb19,40 c
0.11 0.07
5629JOb
0.60
M8
:
%!*R,
:
Bms
1490.59 b 1542.49b ~bpn~
0.77
Otll EC 0.11 c 0.12 cc t*iii
sos2Joc
NM! 3110.74 3148.24 3323103 3367.13 342Odb #agg
b b b b
82 1.20 0.61 26.00
sa:!8 bm.60 bom.20 -_.-.__ 6094.00
0161
ems fEcT1m: 2*soEtOl 1059*w c
0.05 iik!8 cr 0.13 5we.20 c 0.10 5913.30 c 0.34
b1owO c
BM: s&i w8,c bW,iO P 1.76
l&i
EEWY kau
4165,bo c 44 .IOr 44a &oc 44e!itso c 4851,eo c 4942.10 c !mo,90 c
543.40c
and Energy
and Explanation
ke’J
w8PC 8% !#!:68 ec
Capture
k b b b b
0.58 00s 0.47 0.51 f:88
1.30
4893JS b 5057&b 507M4b 5099.44 b 5190103 b
t :X 0.42 0167
Y*# bb I!4 7122 b 5312.92 b 5340.82b
s941r98 b 5965dEb 6036.67 b bOb3.27 b 6123,16b blb4.06 b 6218.36 b 6244&b 6281.4 b 4306.85b 6328.85b
;*i 1:90
bp M c 0.39 uloss SEClIal1 3.7oE-01 746.10 85br40 872.70 899.20 312.00
c c c c c
0.19 0.22 2.39 0.27 0.21
Brim 0.16 0.17
13mbO c 1404t20 c
83 0:17 0.18 0.25 0.10 0.07 0.W
2303.10 c 2310.20 c 639.70 c
0.66
%*S :: 724:OQ c
E 0:72
EnerSr umrtaintr
1139.50 c 1162.10 c 1163.70 c 1304.M) c a=less ti
0,22 1857*00 c 0.42 0.20 1871.90 c 0.23 lm9Jo c 1.27 1973.00 c 0.1 keW b=bckmn 0.1 and 540
27s9.20 c 2784.00 c f:?J
i
2924:eo c m 48 : 3067350 P 3IOb.00 c
232040 c 0.1s 0.W 3130.20 c 0.09 3136.20 c 2346.50 c 0.10 0.18 2352.30 c 0.13 %% * 5 2364.00 c 0.13 0.05 1 keU# c=betwen 1 and 3 kdlv) dr mater than 3 kaUI Atomic
Data and Nuclear
Data Tables,
Vol. 26. No. 6, November
198
M. A. LONE, R. A. LEAVI’IT,
and D. A. HARRISON
Prompt y’s from Thermal-Neutron
Capture
TABLE II. y-Rays Ordered by Element and Energy Seepage 513 for Policies and Explanation
INTtFY
Nil00 :: RB hntirwd)
“Ei
0.18
3824.40 c
i:i
?fg:f
0:04
3992:u c
f
INTt “A00
F
ERER6Y IRT, keU “A00
OIO6 0.03 0.03 0.07 0.03
3542,40 c
4319.00 =c 4287t80
0.04
436Oa70 c
0,04 4386tOOc O,OS 4403ac oto7 0+06
#SO*70 c 4497a c
4s15.30c
lfM8
:
4570*9Oc 4586.40 c 2=38 -8:
kit 0.03 0.04
Y!!F
N%
0.26
;; yo E pi
614 Y 98 :
8:8!
7111:3 c
MM
8:8% 046
cc
71 6.10 c 7211.66c
ohs 0,13 0.08
7438tsOc
0.04
0.12
638!5.40 c 0.15 4966,OOc
0,14 498s,30 c 0105 5012.70 c 0,lS so29,50 c 0.18 0.03
Nit
6064.50 c
6292*80 c 63!%40 c
O&S 0,03 0,18
keU
6187*90 c 0.28 623470c 0.04
8:!1 I!@8 : 8:fl oeos 4248.60 c 0.03 i%t
DER8Y
Ym# #gin
5 c
!i255:80 c' 53w,'o c
0.05
0.18 8:H 0806
0.10
5702*40 c
s728Joc 5760.60 c s800.20 c z%t : R&8’ !w80:70 : 6032*20 c
0.13
6418.40 c
0.12 0,39
0.11 i:Q o,fa i::
Et.ENENT:8R CR888 SECT1 IOn: 1,21E:300 MN8 69Lr 7‘Ma RI8 ", 410.40 c 418.20 c
_.._ MM8 It a:Bi 0811 1761tlOc 0.18
%M 484.18 ss830 576.40
6 b c c
P:M 0.79 9.17 OJS
59bdtO
c
O&O
585.51a
2.13
1774.40c 1779.80c
993.60 c 1039.70 c
0.06 0.23 0.15 0.06 0.06 0.12 OS36
1058.10c 115OaO c 1181AOc !*I: 1218.52a 2:Os
3677.65b
OA6
1687.60c
0.37
EWSY
01 OA
1786.60 c 1799.24 b
1902LiO c 1910125 a
4.01 0818 0.24
iMi!k 3996.40 4020.45 4036t20 40x70
0.08
4077.48 b
0.43
1836M a 188MOc 1891*60 c
:%I : 1953:70 c 1969dOc 1982.20 c 2033.50 c 2081.60b
918.10c
83 Bkl8 cc 0.27 mt80c 0415 3888.85b
OS8 8:#
3os8,80c
0.12
2111640 b lJ8
ii4 0:07 3189aoc 0.16 3219t82 b 0.46 0.16 E?:oo cp 0.09 3318:lO c 0.18
2141.50 c
3337.40c
1”:: f:; Oh
0.24
:i:;+: : tx 2203hc 1144 2252.24 b 0646 2276.48 b 2,lO 2290.80c 0.14 2298.80c 0.35 2315.90c 0.27 2336dSb ot19
Ki
EEi F 0:w 3385:80c 0.07
3397dOc 3426.33 c 34 ,l b 34808 3487:90 bb 3522188 b
0113 0.24 0.14 OeO8 050 0.22
4196.80 4259do 4264.70 4276JO 4287*70
83 0.13 _._od% _. .. l
OJ3
c a c c
0.13 04 0.17
5162JOb 511SdSb
c c c b c
4349.15c 4371.90a
t
0.13 0.16
!i397rsO c s409.90 a
4392ac 4417.50 b 4499dOb 4517dO c 4529&b
H2% =135 :so Sl81SO !im*60 0.12 0Q.g
iwi
f:B
B&E 36s4.10c 3686.00c
%:!I 0.14 0,14
a?ia
P 0': 0:w
MU8
3756,90c
83 0.05
4676:OO c 4700*50 c
3771.95 c 38osJo c
Od7 0.12
P c c c
# * 0.06
A2 b
ss9a c 0.05 ss78.40c 0.09
SS934S b
OJ4
w!
bc 8:I
iM8
c’ 8:8!
4743.50 b
4748&c 4771.25 b
0,o' 0.08
c’
z*i:70:c 42b t26 a
p:i *
8:8% @!:A Eb M 0.06 s8so.00c OJO
M:88
wtcertaintu r=lessthan OJ keUi b=Mmn 0.1 md 1 keVf
541
z% * 5386JOb
4552.95 b 4!$$% 1
OtzS 0.52
t c c c a
5391tBO c 0.14
3541,lSb 0130 3614110 3589.15 c b 0.12 0.10
2677.73 b 2734.26 b
szz 5218:20 s242a m6Jo 5276.82
5361.52a 04
4297,20 c 4305.9Ob 4323t83 b
on29 0.20 0.29
c'
K 8b Oil4
0.0!5
2354dOc 2363ac 2367160 c :
8:8
5874.30 c 5906*so c
0.12 0.a
c=betueen 1 md 3 keUS$= rmter Vm 3 k&l,
Atomic
Data and Nuclear
Data Tables.
Vol. 26. No. 6. November
1981
M. A. LONE, R. A. LEAVITT’,
and D. A. HARRISON
Prompt y’s from Thermal-Neutron
Capture
TABLE II. y-Rays Ordered by Element and Energy See page 513 for Policies UlE88Y
MT, WOO
keU clm88 8Ecm8:
and Explanation ENE88Y
IWTI WOO
keU
EilEa8Y kd'
llR
UlEWY kev
8%
1.28EtOO ww8
!l:58ccM __..-. E*Eee
961.70 978.50 1106*90 1186JO 1212.70 1369.M 1372.80 1417.20
c c c c c c c c
0.85 0181 0.54 2.11 l.S8 1.17 0.70 0.81
2363hOc 24owOc 2473.10 c 2503.10 c 2546.50 c
1559,50 c
0.87
2565.60 c
:::t:fl
cc m
lH:s%
cRos8 8ECTIW: 1.85E-01 623.8Oc 668.40 c
ztao c
912.7 *v 933.70 99030 1060.60 1132Jo 1404.60 447.50 491.70 s40*90 561.40 996.70 602.50
c c c c c c
1.80 0.72 0.31 8.55 0187 0.26
0.37 0187 2JO 0.82
c c +:g c c 0:41 c 3.76 c 7*9s
1425,40 c 1617.90 c 1632.30 c 1642.80 c 1847JOc 1890.40 c
0*60 6,02 2.31 1.88 3.38 1.83
cp
BIlRlls
1988.00 c 2041.50 c 2105.80 c wi rc 232940 c 2354*#c pJ:!J
.
2531.50 253s.20 2693.80 2709.70 2873.70 2932.70
2834 1.12 g
*
2937.30 c 3045*90 c 3109aOc
M:!! cc I:# 3268.80 c 3296.50~ E
f c c c c c c
0.33
0.73 0.49 0.47
t :B 00:8
fij *
4225.10 c 4261.30 c 4277.00 c
0.73 4145 0.47 Oa67 OS6
0888
3474.20 c
la32
4507ac
0.28
::35" 1883
3531,w c 3501*40 J579.30 c
1.03 1.05 0.61
4654.00 4529&c c 4738.10 c
oaw 1.77 0.21
$8,
3607.70 3637Jo c
0169 0.84
lE8 .
4349tOOc 4361*9oc
048 0.16 0.07
4983t2Ob 4997ac 5030.91 b
ELEIIENY:MB cm8 SECTION: 1*15EtoO MRM8 71Ch ~icT60 73540 c 2292.40c 20640 c 0.92 746630 c 2494.90 c 217sO c 0,49 no,90 c 2672.10 c 77st9Oc g:g g p$j I 835.90 c im:158 cc 878.80 c 3114.60 c p#J ; 2p3J I 882.40 c 3387.60 c 343odo c 271:00 c 0134I 3479.80 c I#% Pp 3506.70 c $7&g. ; 8,;; , I 936:70 c
4995,lOc sowtooc 5134.50 c 4pg
5
5309390 c ##J
,
f
#itI8 77OOh c E 8634t7o c
84 0:42 0.82
Er ttib
z = 41
293.50 c 310120 c
4966 4.11 / I I
1 396roo c 413.30 c
0.37 0.24
ml8 cc 3889.80 c 3920.40 c
ifwl s 4648.05 c 466ot60 c
w8:
RM8
%M;#b,
1265.10 c
0.19
E!&Jf
betS%uncertaintr z&ss
o":P 0.18 0.32 0.18
5964t78 a 5979AOc 5997t21 b 6059.07 b
0.36
6396.56 b
0.16
ii&ii
!:::
7110.70 c ;;67rg;
049 i.g
a;#;
i:tj
72%34b
0:Oe
0144 0.09
ss9L29 a 5608.23 c
oh8 0.25
0.20
5647.63 c
0.12
On24
0.32 0.13
y8&;
0o.g
@i&
$1
4260: a 4304AOpc
o":hj 0.18 0.16 0.16
49l3:31 a 4927.40 c
4329AOc
0.27
4949s3 c
C
0:31 Otl8 0~61 0.11 0.34 1.24 0.15
5401.77 b
4711.65 b ;
3104t32 a 5130.77 c 518OJS b
tz
0.31 0.26 0.22 Oe24 0.21
0.17
4004a c 40 ';#F 4155.60c 4 96.40 c ~#o f c
0.36
4s4Ots9r 45!%?2b 4s95*10 c 4607.32r
re
4049 413moc
ce c c c
2121.30 c
c c c c
c c c b b
3544.10 3630.70 36m20 3720.10
:w 1618.30 172MO 1879.40 0.16
00:x 4456*90 4467.60 4485.93 4504.62 4524.76
945t20 c 9sstoo c 9!BtlO c 102st9Oc 1079. 1119.1“8’ c 1130.00 c llsOI60 c
1404:10 c
696.30 c
4396.Wc
b'
than 0.1 keVi b=beWem 0.1 awl 1 keVi c=betusen 1 and 3 k&U C fire&w
542
Atomic
Data and Nuclear
Data Tables,
than 3 keL
Vol. 26. No. 6. November
198
M. A. LONE, R. A. LEAVI’TT,
543
Prompty’s from Thermal-Neutron Capture
and D. A. HARRISON
TABLE II. y-Rays Ordered by Element and Energy See page 513for Policies and Explanation ENEMY INT, ENERGY INTt ENERSY INT. ENER8Y INT. keU N/l00 keU N/l00 keU N/l00 N/l00 keU Z: :42 ELENENT:NE DOSSSECTION: 2dEtOO MRNS 8Ef:ERENCES: 70Ra 187,SOc 0116 759.80c 0.46 2373.70c OS5 193910 c 0*19 778130 c 36.92 24w.80 c 0.87 222,20c 0.18 784,80c 3121 2423.40c 0829 3692t50c 0.41 228JJoc 0.22 811.70r’ f; 2451.50c 0.19 373b60c 0.27
NMcc“aa 4a;#!l rr 8:# 4542.80c 0~23
!!&a rc 2% 264.10c 039 268.70c 0.21
!&I c 1091JOc 1107JOc
oh 3*80 0*57
!@:!I ‘c 8:Tj
w8’c
U!
Ot30 0,24 405.60 c g,;tJ E 550:80 c
569.70c 573.70c 580,20c gpg ;
1.58 g.g
678:Eoc 0:31 720.30c 7.35 737.40c 1.91
3#kB cc “0% 2645.10c 0.32 2653.00c MS
2792.70c 020 2795.40c 0.23 2812.50c 0.19 pj 2846.70c 2958*60 c 0141 1,34 3009*mc 030 3os8.mc 0854 3132.70c OS1 3213AOc i702.50c 0.79 3236.40c 1762080 c ado 326040c 0611 1923JO 1775*00 cc 0.36 1.44 3329,lO 3300,30cc 0.16 ozi 1958,60c 0.45 3473.50c 0,w 2009.90c ltS2 349OJOc 0.12 2111*60c 0.46 3606,20c OJ4
Z = 43 ELEHENT: TC CROSS SECTION: lt9OEtOl BMMS REFERENCES: 79Pi 31.37a 0.78 62,89a 2J2 90.68a 1.07 35:$i x
8: f9
:;*g # ;
is;; t
A::!
:
!:!I
105.71 92,02a 2.34 0+20
ELEllENT:RUCROSS SECTIflN:2&EtOOBMNS 7Oaa c 2,23 711,bOc 0.30 3321.30c 737,40c : i::: 823,lOc f ii! B#:# cc 850,m c 3947.10c 1046.50c 0”:: 4007.80c uJ$tg ; 402Mo c ::B 4216,80c 1342110 c 0.93 4269.80 c 1362.20c 0.89 4325.80c c 4184 1620.00c 3.M 435osoc !i4O,OO 1627.40 c 0.75 4394.70c E 10.69 4477.30c SW&g; ;*lt$ :FO c 1.82 5*88 4586.20c w c 1.55 4627.00c 6bd50 c 0:11 1827, 687840 c .4*01 2459.70c 0.42 4653,lOc z-45 ElIlENT:RN UNISE SECTIOI:lSOEtO2 MM& rmNENEs: 70Ra 358,m c 0.14 mim 818,40c 217.20 375.20 c 0.47 833.90c 2 00 IRK “09 lakB”or, 8 z49.g 440.90c 0.75 mi2.mc * ‘c K? 469.90E 0,77 162oI90c c ok8 482.00c 0.74 2214.30c c 2.69 537.70e 556.40 c 1.49 0.81 =.3t$ P’ c 0.18 289+m c 0.16 597,50c 0.44 3&o c 306.30c 0.97 645*40c 1.70 3642.80c
4613.70c
0.24
i&Y* l,fl Et “03 3896690 c 0.1s 3915,20c 0.13
ma I op:88 4681.70c 0.38 4741,20c 0.40
HM:
kl!
am:
8%
3971,lOc 3996.30c 4018AOc 4049dOc 4071.40c 4179120 c 4205.60c 4228.10c 4268.20c 4294dOc 4308*90c 43sG!O 4325*40 c
0.09
4789.10c
0.14
O,ll O*lO
g:iiJ
tit a:07 0.12
f
492&o c
o”:t! 0.15
4933 497*!!F 5031:10c so43dOc 5078.00c
0.06 0*13 0.20
5107.20c 0.10 5117,40c 0.23 5218tSO 0.05
3.24
4380.80c 0*12 5247.30c 0.47 4442.90c 0~46 5285.10c 0*19 4493.40c O& 5404,90c 0912 166d8a :fM
1.23
: d:!!
206.16 196,44a 0.90 1SO
213.20a 1.76 w
t
7414.70c oml 837l*90E 0.59 75 744 ;j E !a# *
299.48a 11.49
f:#
276.55 263.56a 5.20 3.10
2=44
5 8*!Z
g.g; 342:00c
:.; Ok
789.90c 0.22 7!ndlo 1.11 816.10c 0.18
0.28
4828.20c
0.13 0.15 a.49 cc 0.10 5022.10c 5091,40c 0”::
%m 5333:OO c ss67JOc 5586.30c Ot43 5670sOc
00% 0.27 ot12 0.15 0.12 0921 :*ti zxi : 0.10 0:72 58!&0 c 0113 0119 5871,lOc 0113 0.31 0.23 0.48 Od8 0.16 ;;2 0.42 0.26 0.13 0.28
0.m
4220190 c 43OsAoc Ii&8 cc 4447,80c 4482.80c 4!iO9,70c 4w.sO c 4547.90c 4432.80c 0.34 469040c 0~11
5893.90c
a!;# cc 6298doc 632SdO c
6342.00c &x71*40c 6416.20c
Ot27 O,lO 0.11 0.47 0.15 0.31 0.82 0.13 0.21 0.80 0.19
6689doc
i:i #!I* x c 662630c 0143
48km c 0.11 49ooAoc 0.10 tM9 EC 8:H 5006.30c sO21.70c
I*:: a:13 5134*50 c 0.10 5154*40 E 0.49 5203.90c 0.43 5266.20c 0.93
5110.20 c
0.18 0.29
3968.60 3727,wc 0.26 0.17 4726.40 4694.90c 0.19 0.09 !w*w 5323.10c 0810 1.29 4022.40c 0.14 4833.70c 0.16 smrn c 0.20 62mlJoc 0166 Enerw uncertaintr a=lessthan 0.1 keWh=hetueen 0.1 and1 keUi c=be&n 1 and3 keUid= Sreakr than 3 keU*
544
M. A. LONE, R. A. LEAVITT, andD. A. HARRISON
Prompty’s from Them&-NeutronCapture
TABLE II. y-Rays Ordered by Element and Energy Seepage 513 for Policies and Explanation MT* 8mo
Try
z= 45 ELEtm: ml 6303.00 c 0.15 Z=46 ELEEWPD 8sE8aE8: 7oRa z245*O”c s*24 2433 17 : 8s 291.00c 1.49 301.80c 0.41 m8: I:# 3s8.90c 1.31 396.70c 0.21 414.90c 0.28 430,‘o e 3.75 463.60c 0,19
m8 PC 8;ii 615.90c 8,40
Y!?’ 8% Z’ hntinwdl
63s3.90 c 0137 6419.40 c c88ss SECml: 6*9moO MM8
6s7*60c 0.20 2457.50 c * c M8: 8# m8 25210 ‘, 7s4do c 0.38 w.70 c
0.62
1w8: 1127.80c 12OOt60 c 1348.70c 1396.30c 1422.90c 1526*20 c 1572.60c 1573dOc 1618.60c
g:H 2.83 2.34 0.46 0.91
2706*90c SW8 cc 3030.00c 3148.70c 3227.60c 3335.90c
atI z :d 330.20c 0.51 3xMo~c 0140 360.60c E*ii
1,81
5 3
ih8 c 4490 : 49sdo c
8k! oh1
6997.90 c
0.07
“:“,: #a t7 4
Ot66
*lo c 0. 6SmlO E 0.09 6624&l c 0.18
8:ti 8;Z
83 0.14 0.13 0.13 0.27
4920.00c
0.25
y$;
0112 0.30 oat9 Otl4
5018.00c 5099.60c s179,OD c sm.40 e
0.07 0.06 OJ3 0.06
5917h c a:12 ;p$p 6017.60c 0118 6049.80c 0.07 E&o; 6168.30c 0.05 .
9’6% 3
0.15 0.13 OIL7
‘,
tg
707srlOc
0.0s
E 1:p x:oJ ,
89 fB:t8 ‘c 83 6294Aoc 0,os
cc 6&80 c 0.37 M38.90c 748.40c OAO 3993.30c iws 81’15 m8’c 0412
4724.30c 4812.90c
1.03 0.83
897.10c 929.10c
l8M8 F 0.26 4139,30c OB24 s111m c 0820 41S4,60c 0.07 SK%80c
934soc 0122 42sotsoc OJ2 1011*70 c o,S8 4347840 c Ot19 1029*40 c 0.46 4366.00c 0.18
8:B
83 ;I;
8% SW8 : 0.29 22s2t30c oh1 0.68 2314.70c ig I:#! m8 EC 1#47 238oIsoc 0109 4.95 2397.70c 0.99
s38sdoc 0.24 5496.80c 0.14 0.38 iw:;I”o Ee ss77*60 c ff 5611.80c * c I#!!8 ffi s74o:oo: oil8 5771.00c 0.42
486040c 4929670 c
549.80 588.60c
SOo1.20 c 5051.10E
51x1*20c
0.21 s792.90c 0112 S810.80c S2OSIlO c 0.36 5893.50c s19s.90
c
6ossaoc 6oMa c wi8 F 62&o c 644s.90 c ml8 E 63E:*
1.01 707s.80c 0.33 7268.40c OlO8
8:El S3S1.90c 8:ti a:+8 8:&i 0.07 5995.10c 0.12
ift!f:!8 ce W8: 2206.70c 0.82 46s2a c Otll 1.09 2336.60c 0.23 4738130 c 0.23 2148 El.EMl:CD cmssSErxm: 2AsEto3 MRu8 8EFEmcEs: 7m 368Jo c 0.11 1746.40c 0.34 2s82t30c 0.26 1 61.00c 0.45 Jo c rl7 1L 3.50 c 0.41 P6lOt40c *13 1826.00c 0.70 26s9.80c 1879140 c 0.77 267s.20c * c #?kl8 rc ml? gsg ; 1:*9$ 2022.30c 0.26 27&o : 0.16 2067670 c 0.13 2767.30c 1.31 724:90c 3:92 2083t’oc 0.30 2799.90c 0162 747.30c 1.37 2102tsoc 0.83 2811.90c 0.18 sWto0 c 466s 2124r30c 2822,lOc 0*08 &I: 923.50c 99440 c ml8 rc 1302*60 c 1364.20c
0.36
?n!M cc 8:M BM cc 4064.70c 0109 5310.70c 0,07
Z=47 ElDlEma8 C80888ECTIllN: 6AEtOl WI8 8EFEmxs: 7oRa MAO c 23.88 s2sAoc 0.98 3003JOc 205.90c 8.67 537.30c 1.27 3310.50c #m : is:!! 259.80c 0.77 267.M)c 3.42
6785.80 c
5522.90c 0.68 4999.90c 0.0s
3634.10c 3739.30c 3776.00c 3909.30c
MA8: 1988.40c
Oh14
8 it! 1:4f
MM ‘c 8% 2973.50c 0.06 3ooo.00c a&38: M68t90c 3lao.90c
W8
rc
:
S3SkSO c
0.14
6019.10c
0.31
3273.40c . c Em8 3&o : 3441.80c * c H# 3So1:10: 3s46r20c 3S8MUe 3612.90c 363740c
0.05
3994.20c
0.23 0.13
i:; * 0.28 0.06
HkIc8: 3728.10c
8% OJO
0.49
0.05 8;8i
8Y11
‘ont90 E 4097t70c 4124.80e 4140*50c t . c l&H8 4222:‘o: 423s.30c 4286t20c
4683doc 46 dot 4a dot 4745a c
8:E O*OS FM . c .7 * ‘ai8 886 4834:305
0”:: OtO4 z4
.
T
4309r40c 0,lO 4331.20c 0.w
y3&so;
tW8: 439lrOOc
18!3kc SO70:40 : 0:18
8:W 0.11
00’;;
834
M. A. LONE, R. A. LEAVITT.
TABLE
ENE88Y keu
cm8
Z~~EllEWaIW c c c c
3M8E,
0.47 0,24 0.27 oxi 8%
0.11
EllER8Y keU 8% 0.04 0.18 0.20 0.13 0.60 2.13
5878t30c
0.05
98 c’ 8*ii oh b215.00c 0.04 6230.40c 0.07
#
M42t40 c
4234.70 c f2gg E
&4&1:80 c 0:lb bs17.20c 0.11 6587JO c
0.13
3267.60 c 3282.00 c
Otl5 4121.70c 0.04 0.14 4134Joc 0.04 0~18 4lsO*40c 0.03
7bLbOc
2112.10c 10.71 21botooc 0.17 2187.60c 0.24 2337t4Oc
0.24
w8c, 88&m c 9lwO c
8% 0.58
mi!8: 248bdOt
8:996 i!R38E, 8:N %iH8r 0.11 3’00.00c o&b 4309.30c 0.12 342btOO c 0107 4323.80 c
727JOc
819.30 c
a24:E ,' %!i Jo c
rc
lOb7.80c
0.16
2579.90 c c' c 2703.90 E 2743.40 c 2772,bOc
3331.40c 3351.00c
8:!8
w8
0.15
3544*90 c
84 oh 0.08 O.Ob 0.06
iw8
lbb9t30c 1732.8oc
0.23 lJ8
2927e9Oc
0.05
ab9#
8:8i
:
#!3: M !8F 1.40c 2004.00c Oelb 31lSAOc 0”:: 2016.70c 0.18 3161.00c OIlS 20%,50c 0.26 3198.20c OS10 C8088SLCTIOII: be3OE -01 BMNS 732.80 c 760,8Oc 819.90 c 869.40 c
0.45 oJ3 0,27 Ot31
2022*&o c 2042.00 c 207520 c
2096.90c
ma 104Oa c 0.44 1048tbO c 0.35
:w
lOb9,sOc oa cc 6.84 7.85
0,27
0.34
at48 cc 83 ssb140 c 037
1648.30c 0.41 1666.90c 0.32 1726.90c 0.90 1747.40 c 178 18lf.80 680 c
3703.20 c #l&# cr
710*00E 0*21 Enera uwertaintu
227odo c
r' c
198MOc
0.21
0.06
tm8 cc 8:!8 w8: 4bl3,lO c 0.04 s!mt90 c 4bs1.40c 0108 5712.50 c
8:M Otob
0:11 0.10 OAb
4W:# rc 4743.00 c 4774mc 4807.80 c
otos ;e#
0820 4823.70 c OIlO 4849.70 c
0,03
8:!i
W8:
oJ4
bO47,40 c
ml*90 c
8:: OtbO
0.09
613hO c b231*10 c
0.03 0104
0.16
0.07 0.06
m8
044
5 8:E
4058.70 c
0.08
0.25
2722.00 c
;:;
2774tSOc 2789.40 c
0.10 0.14
3421.10c 0.06 3436.90c OIob 3459r20c 0.53 3474*70 c
o&b
g ebJ; 89: R 421hoc oh4 Jo c
0,ob
#8!i8; 3s27a
c
M 0.07
='%cc 0~39 8# *so c
003 ok9
Bti :I rc ‘354.80e *lo c .20 E !I!! 4 do c
0.04 0.03
1.14
0.14
2738.00c
WM
0.20 0.14
cc 8:1
3%: 293o:oo c
2961.00c
odt 0121
4969.40c SOSr20c s32Ao c
8%
0.44 0118 0.09
OIW 3bll110c m:88cc8:B #lM8 rc 0,lO
0125 2986.30 c
0.11 0.19
;:; 3169.50c . 3196.00c 0.16 3230.20c 0.10
3155.10 c
0.29 0.17
27MAc
4441,boc
0.0s
0.29 04b
0.30 0.36 0.80 0.21
0.18 OlW O&
0.04
a!28 :1 cc I:! 2307tOOc 3032,90 cc 0.21 2326.80 c oh 3057do Em8 cr 8:H WI cc 8:f 77 0.21 3121,90 c i&7'i8 2417h
4372.70 c 442ot80 c
mG8Ec
rc iia c 0.19 c 0.14 c c
387bdOc 3928.10 c
8:il 0.08
s48l60 c
0.15
cc 8%
3blOtbOc
4074.60 c
Ma cc “031 4oob*90 c 0.15 4o4stooc 0.08
ot49
1826.90c 1843*70 c 1alMo c 1922.30c 1944*50c 196OJO c
215OrOo 2171dO 2179.00 2245.10
0.06 OIbo
cc WI
2824.70c OeOb 3773:80 c 2878.70c 0.05 3792.00 c 2891.90c OAb 3811.00c
478.40c
0.05 8.E
0.23 oa13 0.12 2.71
717,80c
2 7*!! 2R 2bb2,'o
47!i.O0 c
545
Capture
8ECTmN 1.94EtO2 Mm!?
lm8
35&*90c
Prompt y’s from Thermal-Neutron
II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
NY,
WlOO keU Z=# ELEmY:c8 kontinued) 543l*‘o c 0,w 5633JOc !i457.!50c 0,lb 72&o c y&g ; 84: 8 08do c 5721150 c S!B’:# c 0:lb 5782Joc Sm.00 c 0.09 5823*9Oc 203.i 214.40 219.10 232.30
and D. A. HARRISON
0.39
3403.30 c
otw
4
8:Q: 0.04 0.07
441 40 c
O&b
:P :
848
3658.90c 367330c
ii
:z : 8:: . c tm8. c 8% r80 c ‘bl *‘oc 8% 3 a0 c OtOb
HM rc 3728.70c 3778.70c 3793.10c
3m9tsoc 0.22 581540c 0.05 348: k88 389lJo c 398240c 3927.10c 3954t80c 398l‘soc 4012Isoc 4127.80c
0.14 o*os 0.07 0.11 Otl’ 0.04 OIOb ww,90 c
a=lesstitan 0.1 Wi b-b&em 0.1 and1 keW c=&tAmn1nd3luVid=anrtrrti3w.
0.06
546
M. A. UINE, R. A. LEAVl’IT, andD. A. HARRISON
Prompty’s from Thermal-NeutronCapture
TABLE II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
Fry NK!ivy zk F
F
it%
Z=50 ElEElll: Sn hntinnd) 4975.20 c mw
:
sm,so c 5ll4Sl c sfM8
:
5171.20c
0.09 8#
5219.30 c
otw
#!;28:
8:B
0.15 0.14
5362.10c
8:#
0.16
5972.80 c
0107
6335.60 E
0.16
6978.90 c
0.07
cc 8:83 o*os sB22r40 c 0.18
BktE 6094Aa c
83 0.06
M8: 6460.80 c
83 0.03
MJ8 : 74SO.30 c
8:# 0.15
5932.40 c
&8:38 cc M 626MO c 0.43
##;I8
5392.50 c
0.42
5741.40c
Wi:i8: 5467.20 c
83 o*os
#M cc83
1.35
0.17
283.20 P 310.90 c 316.30 c
3.24 OIl2 0.19
0.18
Z=52
332twc
2.53
613.90 E
3sldO c
0.30
431*40c
452*00 c
0.17
546.80 c 558r4oc 59Mo c 602.40 c
0.21 3.25 OISB 0~45
491*40c
0.25
iii:88 415t70 418.60 422so 557.00
0116 2783.70 c
EunEul:1
0.65
kit
0.59
$a# Ii 8% 206.94a 0.11
8:#
0.08 0,lO OIW 0.23 jvi ok
1206.80c
0.36
46wdo
0.17
5675*90c 5603.90c
0.11 0118
0.19 0.20
48l& r’c 5004:w
00;:’ 0:w
Eic: 4
:*:,
0.12
3921.20c 3964.00c
0.10 0.12
4981.90c 0.20 4989,OO c 0.10
1355.60c 1569.30 c
0.32
c
0.09
513.Jo c 5245.50E 5336.60c 5407.30c 54&g ; 5562:60c
1247.00 c
4304.00c
5126.70 E 0.15
56OOtSO c 5619tlO c
0.26 01sB
0.23
3153.9oc
0*43
3222tso c
0126
EP : 3&o c 3543tso c
8:ii
4043.20 c
0.W 407940 E 0.22 4103. 4s c
4134, c 4153.40c a2&
0.11 0.14 0.13
c’ y$
4344:90 E
oh3
0.26 0116
Oa:;
0.13 0.14
5045JO c
0.26
525Ot30 c
0.24
5loOt7Oc 5leO*lOc 194.90c 5206.10c 5227.20c 5278.10c
0.06 0.15 0.15 OIW 0.19
6614.10c
0.11
0.07 0.12
698.60 b
0.13
6$76!
;*z
0,23
6734.00 c 7lOOJO c
0~17 0.13
5457.60 c 5560t50 c 5618.40 c 5667&c
4684*20 c 4781.20c 4854.10c 0.88
iw8 5879.90 sw3rBo 597iAo
: c c c
8:ii! t::
8:iw 0.61 0.21 0.17
6025.70c
0.18
S44.52b
0.09
570.60c
0.10
317.43 b
0.14 ;.;
364&b 369.37b
0.w
i#
g;:
83
0.41
24w3r
126.99b
0.19 ;.z
255m g;
&b
O:#
#j;#t
153:02r 156.53s
::u 0.59
284:Olb 0.14 290*80a OIW
a i
3Qlr870
WC
344.73 8
io6.27 s 124.30 8
251.68s
299.97 b
0.75
oh1 04.:;
0.22
354t70c
392:26 f
0"::
461.21 458.01 sb
0.16 0113
55er60 557.42ca 0.17 0.15
462&b 464ss a 47OJOb
0.09 0.14 0.08
579.56 b SE!&!3 b
477.32b 483694 480.9Obb
0.06 0.05 0.08
586r85b 589813 ba 59046
0.06 0.21 0.39
#iSi
83 01oB
##:84 8 I# 502t63a 0130
t
6ON2b 613.18 b 618.45 b
504r37 b 0.07 0.14 398t61s SM.49 b 0.03 0.09 409.79 b EneHlrtmcertsintv s=hssthn 0,l k&V b=betwm0,l and1 Levi c=Bhsen 1 snd3 krVi 63 Jnrkr Los
6030*60 E 0.17 6105.40c 0.14
5373.40c 0.14
4388dOc 4433*00 c 4491.30 c 4509.70 c 453lt9Oc
824 4673.10 W8 ccc
323.10a it:: 33ltOO 3&8Jb 0
102:31 im a
1.10
3884.00 c
oo:!!
0.46 0.12 0.12
224.12 a 231.27 235.81 8 a
160.74 a
0.34
cuosSSEcmH:6*2moo Ball5
lEFEmmt 27.18b 7wa 1.6971sc1641s s 0 21 42.80 b 0.34 193:n a oh6
;
9326.10c
#k# cc 69ldt5Oc 0.06
0.12 0.00
3815,lOc
67.10 b
0.22
4567.70 c 4602t60 c
m!:R : 3722.00 c 3776.80~
pp;
168Bt40 c 0.24 0.W 1697.70c 0.37 0.29 1703.40c 0.26 0125 1722.30c 0.22 0.14 1949.50c 0142 0.15 3235.80 0.17 237wo c 0.16 0.18 0.19
027 #iM cr 0.14 30254!0 c on15 3092*00 c 0.32 0.19 3104dOc
P:# ii
6601.90c
0.16 921.10c 0.98 1019.50c 0.70
2797.30~ 2909.00 c 2927.00 c 2942.20 c
203.70 215.00 244t60 251.70
1325.90c
0.03
CROSS!EClIoW:4.7OEtOO MM6
EFEmcEs:
ze53
0.06
6158.90c
SECTION: 5.4oE400BMHS
27540 c
32240c
0.04
0.33
~alEuTT~~70~ 201.60c
5517.50 c
297.64b
0.08
69!l:W b
0:31
a:!! 7wr79 705.46 715.62
83 0.41
1 a b b
thsn 3 kd4
0.15 0.13
M. A. LONE,
R. A. LEAVITT,
TABLE
z=53
ELEtm:
720.18 b
I
0.05
g
8.#
kmtinuedl
1006.33 b
0.26 0.18 0.31 0.11 0.09 0.19
1035.93 b
782:89 b WOJO b 804,91 b
0:24 0116 0.09
1’8# :!z,” 1051.96 b 1063.60 c 1071~42 b
811865 822.14 826S2 839.24 841.32 857.51
b b b b b b
0.08 0.08 0.07 0.06 0.09 0.08
1074.13 1094&b 1133625 1141.71 1147.37 1151.23
lH:$:p !i 890.20 b
898.62 a
8:f! 0.07 0.24
1u.k’Ia t 1394t57 b 1618.70 c
932.00 c
0.16
1984.90 c 2207.00 c 2937.60 c
z=54 ElmEmKE KFEEEE8: 7lKa 384Jo c 0.64 yo*; t' ;,i 481:so c 12:56 @:I8 s *kH 571110 c 1.04
4425.70 c
0.11
b b b b
4511J2 451L99 4524.01 4512.86
0.07
-8:
4SOW3 a 0.13
0108 1.18 0,42
0.11
c a b b
tRB 1 4593.01 b 46OL14 b 4612.91 b 4619.27 b 4624Al b
4668.01 il
c8888 8Ec11oJl: 2,45EtOl
8’pf Oh 0,18
045 Otl2 Otll 0.07 0.08 ;:; 6
0.05 0. I84 0. 0,05 0.15 0.05 O&8 Oto6 0.13 0,07
5137.14 b
4864.50 b 4872SOb 4878aW b 4892.06 b 4926.80 b 4937.04 b
0.06 0.06 0.15 0.14 0.09 0.18
5361.40 c 537oA8 c 5384.53b 54OW8b 5145.58b 5151.98 c
m8f WOOtOOa 5014.00 b
8:15 0.25 0.13
4&I 1 5494.39b 5522&O a
5018.24 b 5028~39 b 5032189 c
0~28 0,iO 0.06
5951.07 b
mm! 3095.69 a 5109169 b 5119.39 b
WI ' bc 5197L9 a 5209.07 b
5558,488
8:$" 0.23 0.09 0.06
5SA.95 .07 iM .70 5646J7b 5657.47 5722&b
b b c
c d c c
b
1.60 3,04 2.48 2.24
1656r30 1691.90 1698.20 17lSAo
c c c c
2292‘50 2519.10 2539t20 2!m30
c b c c
Ot88 2.08 1.52 ado
5427.90 5475.10 5515.20 s693Jo
M:s8 1291.30 1297.80 1319.90 1366JO
bc b b b d
M 6.88 11.92 12.08 0,72
mu8 lM4.20 1853r40 1861.20 1890~10
b, b c c b
ml8: 3030.80 c 3356eSOd qgb$o$ ,
t:1 1.60 0.40 t;g 8
IBM !! 57ss.w c s886.60 c 5919.10 c !i958tSO d
1.60
t96 b .SSb 40 E ~24 b
0.14 0.08 0.05 0.05
::s
tZ*
d6 b Jo E
0.16 044
:04 b'
8% *
:41 86 k ,15 b
ii:!! 0.11
67 r60 d 67iI .90 d
0.11 0.15
0.18
5!09i9i
b b c c
1899t80 c
1560*80 c lm.20 c
1.12 1.28
2094.80 b 217Ot80 c
0.48 4.96
1608,20 c 1617.46 b
0.88 2.40
2194.60 c 2209.60 c
Mu8
M
w98
M
SsiM
‘c
547
MJS
1011.90 c 1031.50 b 6
ii{
4692.11 b 4710.04 b 4742.31 b 4749.41 b 4x7.39 a 4771.31 c 478MOb 478%,80 c W&21 a 4851.18 a
1124.10 1139.50 1156,70 1173.00
1379.40 b
z=55
83 0.15 0,07
b
=3B*w”: 3510:80 c 3656t40 c 39x90 c
Capture
II. y-Rays Orderec ;1by Element anId Energy See page 513 for Polk :ies and Explanati Oil
mn b” 1028194 b #.#
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
bc
cm8 SECfIal: 2.9OEtOl 8ARHs 561 a T48' 116J7 a 15.15 142J7 a 61112 a 0:18 116.61 a 1.22 MM6 a 61.17 a 0.15 117.17 a 0.23 146.42 a 149 .g r 130, a 173.79 a 174.31 a
0.96 1;;:
8f Oh8 0.23 83 0.97 0.17
28 ‘d 988
8:H 4.59
HM f 132.76 a
i:# 0.09
##a
114.33 a 115.34 a
0.26 0.05
133.59 a 137.76 a
0.14 0.11
180&B a 186.84 a
EnerJr uncertaintr t-less than 0.1 k&i
:
lWd2 a
89
83
m8 6&gsi NM8 ,d
7413.20 c
0,lS
iw#li 5139.30 c 5207.40 c s236t80 c
83 Ot26 0.22 0.28
6318.40 d 6380.10 c 6423.9Od
40 d 40 d A0 d
0.14 0.16 0.02
5268.40 d 5340.90 d
0,14 0.23
6467.50 c 6526.3Od
93WAO c
0.27
ma
"d 855
ii?&88
!
ElmEmc8
!k#i f 113.76 a
89
189.84 190.26 193.72 194.71 197.78 198.30 200&4a
a a a a a a
0.29 0.10 0.11 0.16 0.16 3.77 0.44
2l8.35 2l9.76 232.18 23444 240.68 244.95 243.86
a a
#RN : 209.55 a
I :# 0.27
m! t 254.76 a
a a a a a
21L32 a 0.74 236.64a 0.71 211.92 a 0.07 260.S8b 0.07 b=brtmrm 0.1 and 1 IW c=b&mn 1 nd 3 IwVi 6 Jreatw
Mm 3 ltd.
548
M. A. LONE, R. A. LEAVllT,
and D. A. HARRISON
TABLE
Prompt y’s from Thermal-Neutron Caphue
II. y-Rays Ordered by Element
and Energy
See page 513 for Policies and Explanation
liii 29b.20b f:8
t
0.07
83
wstob a 0*19 307.260 4.15 Pi!5: : 3lb.40 a 317.08a 322.708
8% 0.08 0.39 0.07
32944 D
oa
336.07a 0.10 i#:8i b,
344.79 a
8% Otob
MS.38 a 0.18 aJ:p[
pj
3&o
a 0:94
us.93 a 0.31 347.88a 0.44
0.08 otio 0.41 0.18 0.1s 402.41 b 0.09 403.10b 0.16 4osd8 a 0.19 WY ‘0 412.50b 414.50b 1 ;I* a iI8 42h t 42b.40 b
48s*osa od2
1444tWc lS48,00d
2.94 1.90
Inl. WI00
s7oJo c #Ml ec 572140 c “::8 a rwT E SmtlO E
Otlb 034
0.45 0.37
5949, c
648S7b b63.28b 482SOb
0~44
4348.77b 44OStOO d tt&!8:
5976. 88 c
Otl9
6018.00c
0.13
0.10
0.43
0.62 0.13
6S81.00d 6614.86 c
0.10 0.12
8%
838 0.16
#itO % 6713&O d OtO4 b7S.86 E 0.14
4931tsoc
0.07
8;8! 0.08
429,80a 0.20 432.4 b 0.10
2Sbhb3b 0.40
4.20 1047. !I8 c 0.89 143Sr32 b 14.05
z=!v
b
UEWY w
0.20
i&3: Ml B&8 : 1::iil b84JOc 0.42 8.78
.
w’k
8:8 0.09
3338.34b 0.44 336OtOO d 0120
4497tOO d 4sw3 c ia$!ti
37&O : wooJo c
818.60c 1040. d
83
b&4 bb
3678.10c , c ai!8
1.19
0.19
#4
34x93 cd 3490.W * c m8 3bdo3 ;
4b3tooc
547.40b ilim 622.17 b b24t42b
EWWY kd
oo:ze:
sw8.73 c m8dd
1.51 5713,bO c 0.37 5729tWb 3922Jo c 0.18 oa 5971.33c 0.23 39b3Jo c OIo9 6019tOO d 0813 6027,lOc I:! 405740 c 8:E 11. 0.18 a! 040 Oil3 411 : ,b wi 0147 SO9WOd 0.42 0.07 c 0.37 0.12 %Z b' 11.20 5107*30 4242:62b 5177. b 0.15 612beOOd 0.07 42sQ.40 c’ 83 5220. iii d 0.10 b268rOOd 0.07 4287.47c 0.28 524QdO d 0813 b33LOOd O.lb 4323.58~ 4331.mc
4722,iZc 4760100 d 4772.00c 488ot40c 4897.30c 4924.00c Mb,48 c
0.19 0.35
0.63 O&S
S27OtWb
9504.00d
tmk! b969.00 d 7028AOd
8:U 8:po 0.04 0.09
7173.50b 0.14 n14.10 c 0.33 7s32:ood ;.t * fB98 829o:wEc 1:: 8300,00d
8619.00d
9108.POc 9120.60d
0620 0.03 0.34 0.31
1054.40b
0.21
1125.1 b 1133Joc
0.33
0.38 0~45
u.Ew8Y:i.A
744.20b 749.40c 766rOO b
290.91 a 304tw a
310‘138
3.80 0.24 0.31 b.97
---.. - - . _. ibsds a 0.1s 167.20b 0.07
83 0.53
0.19 8.80
jptd:l,b 335.86c 34lrb2 a
. b #ia w7:57 s w3*20 c
#l;#t 407.20c
#I:#; 837.w E
422. 8 Lb9 424.!i a 443.21b
477.92a mt, 528Mb S43.2Ob SW.92 8
8:%
658.28 b 667.6 a Wl. d b
b89.w c w!“,
no.40b
1.17 O&O
0.10 om ?a 0.6s
722.79a 2.84 737.W b 047
848r9Ob 843&b 8M.Obb 882r27b 8M8k 935.80 c 939r4Ob 953.8Ob
0.42
M. A. LONE, R. A. LEAVI-M’, andD. A. HARRISON
hpt
y’s from Thermal-Neuhon Capture
TABLE II. y-Rays Ordered by Element and Energy Seepage 513 for Policiesand Explanation ENEN8Y kff 2=57
ELElm:L 1142.70 c 0. W8
cc
kantinued)
8:
1432.80b
219srlO c
ff31:?8 t
m8
0,23 0.45 0.85
rc
2304.90c 2317.00 c
0.15
8:8 0.15 0,lS
2w:g rr 8:ii 2423.80c 00:: 2439.10 c 0”:; 15136 2451.00c 0.13 2482.80c 0.10 2!!19,90 c 0,87
pg.; b’ 84 122!hOb 0: 1233.10b 1253,74 b
Oo:!! OIIO 2bOaJQc 0.20 2b20,sO c tg 2b39.60c 2668150 c 0109 2686.40c 0*12
a&i8 : 2583*90 c
1363.70b f3a&lJ ,
k
2700.00c 2713.90c 2736.60c
0.17 8.;; *
t:; oh
3113,lOc
3719,OO E 3727.95b
3142,90 c M% EC 3lWAOr 3218.30 c 32bs.30 c
Bk100 rc 3820.75 b
3319.10 c
3901.20 b 3951.73 a
3847*00 c 3864*50 c 3875,lOc
328lJO c
3342~80 c
33s8Jo c 3372Ao c
8:# 0.63
m8 cc 255.50c 2b!Mo c #*B;
k!! 4.93 1.50 :.a
p;:g
;:g
;
33480 c 95:98 4o4tooc 1963
iE=AiT: 7081 17u.d c 11. 230920 c 0, 244.50c 0. B*88 c’ 8, 327:g c’ f : aho c_ 0: -_-.__
350.50c 0; 36lJO c
0,
aa8
cc M
4bOJO c 1.23 4bLlO c 0.97 4Ei.40 c 14,40
482.40c 2.27 s84rboc 9m !wsa
c
1.17
662.40c 26,40 676.60c 2,22
w 4.74 2.71
898.00c 902180c Yd 943.30c 18:43 961.80 c lo,26 977Jo c 5.08 w7,OOc lJ4
cRosssEcl1oM:l.l!wOl b8bJo c
1141.00c
1.42
1169,80 c i.44 118bdO c 19.67
1262160 c 132br20E 1371.40c 1712.60c
4.09 St99 1879 3.84 4481.00c
OJ8
29%so
0.13
c
942.10c 956.40-C
2407.50c
920,oo c
3167.40c 00’: 3192.30 c 0124 322lr40 c
oo*i 0:14 OS3 8f oh1 0.17 0.20
391.40c 1oob*bo c
w8 : 439.90c 4blJO c
w8 : 1149tsO c 1177.90 c
Hkn : 2530.80c 0.14 2sb2.30c 0.73
3 :E 33
Rt8 : 559.70c
m8 cp 1248.50 c
m8: 2619.40c
8:4# 0.21
#i&n: 3566.10 c
r71 8.13 0.38
2661.30 c
0.14
338bdO c
0*14
1.45
Ener*rumrtaintr
1273.50 c
2436.10 c
2449940 c
0.47
8:1# #ia8
3534*10 3ssoa 3641,bO 3630*30 3652*00
89
4:21 0.43
c c c c c
0.47 0.27 0.58
1”:# 3712190 E 0.67 37, c 0.24 37#!M 0.15 379lho : 38llJo c ‘dE *
0.20
iii*: : 403:90c
573,lO c
t :1
1
M:R cr f:b4” 1122.40 c 1.04
179b.bO c 0.97 2946.30 c 1889eBo c OtS8 2963.40 c 1943.30 c 0.28 2977*00 c 2244do c 0.24 2998.60 c 2237*60 c 0.13 3029.70c OJl . c :I: 0.19 au8 2350,80c Oa24 3134:aO c’ 23swo c 0.20 3149.60E
EM:
=rM!
B#EMs
1702,80c
E# c’ 747130 c 790.90c 803rooc
0113
5097670 b t 28
3384.40c
1.14 0.38
2884 27 3: @ii 5 2838.30c 0.16 c 1426,30b 0.19 2863Joc 0.62 3477390 iEc110M: 6dOE -01 Dms z=s8 ELENENCCE CR088 ImRENlm 7ORa 712.90 c 4157 1049tsOc 3.65 22s,ooc 0499 439,70c 54.38 MM 1 1418&O b
4997i6Ob 5046po c
0.11 0.19
ii: if
427730c uobpo c
432bcbO c 434hbac , xw W8’ g3tJ ,
E
462SilOc
E’ 8:8
0.14 0.w
4072JoE 0.07
r=lrss than 0.1 keVi b=betwn 0.1 and1 keUI c=b&uw~1 and 3 WI
C rrutrr
tJuh 3 k&L
:w; AL A, U&&l&R;
A: w,
and .B.s& &kRRISON,
TABLE
F!nmpt 7.5 from Thermal-Neutron
II. y-Rays Ordered by Element See page 513 for Policies
0.30
z=bo ElEllEm88 =vf8i cT71 981.20 c 2.34 M8s tg 8:1 f8RP,r 8:B po,p 1049IOO c 0.42 e 0 1109*90 c 0.30 1221. 1138. 88 E &j# w8 : f:# 4s4.50 c 6.24 1341.30c oh0 477.10 c so2Jo c
5.75 5.23
sb4.50 c 576.50 c
1.42 0.20
13sb.40c 0.38 1377,lOc 1.03 1414.10c 1453.30c 1481.90c
iR#: 2l:tl 67lrlO c 0.27
p1 32
1672.50 c
1910*00 c 2072rlOc 213OtbO c gpJ
814.70 c lOxi
a
f
2347.70 c
864*90c 12.20 2372.40 c
“ok
s842.90 c
1.38
3410r80c * c WI 3&o : 3462a c 3s46.80c 3733.20E 3774.20c 3788.90E
0.34 4257110 c 0.13 A0 c 0631 El! do c 0.23 4351a c 0.22 4356t30c 0.16 4407.10c 442ltOOc 8% 443640c 0112 4sOMOc 0.35 4515*20 c
0.39 0.20 0.76
3833.70 c 3843t40 c 38s2a c
4534.80 c 4563.50 c 4394, c
4blSI8 c
3892.10 c 3942.20 c
80::
“:;E 940 *sot 4113.10 c 4122.30 c
0.21 On16
413Oa c 4214.40c
oi!
and Energy
and Explanation
3803.90 c 0.41 0.18
Capture
4669.80 c 4690.30 c 4747.10 c yj;iJ
.
EZJ .
f 5
0.11 0.13
007 0:b 0.75
84 * 2: 8.15 f :I *
0.24
t::
I c8088sEcl1aH:st8oEiO38MKi I 1
8:=t 2.44
siH81
t:M
I=64
459:40 : 485.30 E
EC M 8.;
s8o:so ‘r 8:# oh =
Enenlv uwerkintr
SMr 637r80 c
1 ,
8% 0.17 1:;
es088 8Ecml: 244.10 c 262.10 c 286.20 c
296.10c
83
868t30 898r80c
oa 1.97
1447.30 1700~90 c 0.23
5617.00c ss33.40
!Wc,
9%
M:!8
H:i8
a:,: 0.98
4rbmO3 1,lS 0.2s 0.35
0.67
w88ScTxlw4,9ouo4
8%
0.05
sMs*20 c
0.06
g
SW.60 c s43lJo c
0:S
#.& 3 i
t:i! pJ
sbO9:roc
Oh
a#M s s784.40c
8A 0.23
sO93tsO c
0.12
P:t *
~$:ig
fQ t
figi
pj
644t40 779.110 c
0.29 0.27
4286.00 5503.40 cc
lsb4*40c
0.40
5597070 c 0.0s
0.36
4482.00c 4mJo c 4soot20c
0.09
$tpJ
*
.
i
l
8m8 3ss*20 c 389.m c 424.00 c
003 .
440.58E
0.11 04
m8: 8m8
!:i/ 1.74
&WI cc 4os8.40 c 0.15
than 0.1 Ml;
b418.70 c
0.41
4.13
6.51
0.91
12b2.10 c
c
Hess
E
7214.20 c
0.22
NH8 : 1004.90 c
1.02 0.80
w : ii9 961.80c 7.42
977a
0.38
748:10 c’ 762.90 c
2799.10 c 2901.30 c 3001.90 c *OC wo 3849:40 cc 387!+80 c
868*80 c 876.60 c 897.30 c
‘E M
42lbr80 c
0.11 0.63
;:;rc
;383:38P, %:I8
w 23oJo c 7%o c 0.29 239.30 c 0.20 #!$:!I
!MP, 38lt70 c ;::5
ElEllEm88
W:# a9J;
570.10 c 584.50 c kzi
;
2 = 63 El.EmY: N 8EmmE8: 7oRa 181.30 c 0.28 f&l8 : 206.60 c
320.80 c 1.20 3334 c 98.90
1.76
0.1s 0.25 0118 0.14 0.10
0.15
89
b=betuem 0.1 and 1 keVt ccktwen
550
Atomic
T
487s:90c 4w:38 er so2s*80 c
0.11 E4 0:d 0.05
1 and 3 kdli d= Jnskr Data and Nuclear
Data Tables.
than 3 keV. Vol. 26, No. 6, November
1981
M. A. LONE,
R. A. LEAVITT’,
TABLE
F Z= 64
It&i ELEHEHT: 6D
6428.90 6671.30 c
0110 0.12
skn % 89 33.12 b 0.90 40.30 b 0.52
keU
II. Y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
nk
keU
kantinwd) 6748.70 6911&O c
2.25 0.13
OlOZ 0.W
7a!8:.
sEfx1oil: 2rssE‘Ml
$%R 273.70 a
8% OS9
1sb:# ! 8% 4b4.33 a 0.96
a27hg ,30 tb
0:19 ;.ig
8:vi 0.48
284.25 288,14 290.55 295.77
b a b b
0.42 0.66 0.42 0.26
468tb2 b 476672 b 481.18 a 484.06 a 4B7,BOb 490.94 b 497.42 b
75+07 a lo+80
302.81a
0,41
499.10 b
Ml t 79.10 b 83.80 b 87 w:Qo 18
8# 0.44 O&O O& 0111 ;.l$
w8 bb 521~17 b 525A3 a 527~45 b 529,OOb 531.48 b 532.95 a 53BJOb
93.26 a
1124
m? 315.86 317.45 319.86 323.40 g.bg
;j.;i
;
03.g ,’
339:49 a
1:70
b a b b b a
0,14 0.59 0.16 0.48 0,ll 0.12
340.96 b ;4*: ;
0832 ;*;g Oh
WI8 z 135k a 138.77 b
83: 2110 0,13
3&l 352.43 354.58 396.17 357.69 360845 341.75
140140 141JS 150.60 153.64 15&W
0.53 0.53 0.71 2.32 0.55
.
lOlJ5 103,93 108.80 112141 114,lO 117.81
188.22 193.44 199.04 204.07
b b a a a
P:il 1.00 0.23
8.g
ab b a a b ;
a b b a a b a
0.77 0.29 0.54 1.23 0.14 OJ8
3153,74 a 370.09 a 372.94 a j77.g ;
0.74 0.30 0.32 g6’sj
37676 a 381.32 b
Ok? 0.11
i/M! 1 391.20 b
8:E 0.17
b a b b
On12 1.91 0,65 0.19
392,93 b ;9$*: ;
OJB op.8
402:63 b
0:27
imi 6 213.60 b
8:# OtOB
218*40 b %:i8 1
x 0:Ob
484:8!: 41OA!J a 413.29 a
83 OAO 6.21
228.15 b
0,ll
427.00 a
0.61
iii!:38 t 8:E H:ft ,” 83 239.25 b 0.09 440.41 b 0.20 242.00 b
0.19
442&O a
&ta 254.25 255.70 257,90
t b b b
f:Sd 0.34 0.30 0.14
#Hit 448.67 b 45189 a 4S3.M b
262dO b
0.06
455Al
Enem uncartaintv
Capture
EER6Y
EElUlY
2 = 65 El.El5lT: TB mss REFEmEs: 7Ma 7‘Me
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
b
541.53 515.07 540.64 S!MBb 55935 563.21
a a b a b
0.14 0.07 0.16
851.04 a iii
0.70
0.26
ipj
0111 yj
c E
0.14 0.08
90 b S41 71 OOb
0.0 0. d
0:so 0,W
912:53 b 915.17 b
0119 0.32
iii!% c' 2911&I c
0":: 0.09
a$t 5494?80 c
8:: 0,03
0852 0.18 0.19 0,13 0.13 0.10 0.18 0.07 Oal8 0.17
917,42 920,60 926,95 930.55 934A 944.08
b b b b b a
0.17 0.27 0.13 0.07 0.07 0.48
3011.00c
0.13
3076.10c 0.05 3169.90c 0.06
SSl2ilOb 551640 b 5524 i 04 b g; ; ;
0.07 0.07 0.13
3248.10c
s!iK! 90 c
0:01
w
k
0.07 0147
w?i f 649.43 b
8:ii 0.19
MM 1 1018.70 b
655.80 a 662.34 b 664.55 b b&59 a 67417 b 679. 48 b 6KMSb 684.85 b #.S4 b 6 .B2b
0.40 0.12 0,42 0.23 0.09 0.13 0121
1021.75 b 1025164 b
0616 0*18 0.07
i:; *
1‘035:: bb 84 :wo3 bb 1032.00b mi8
",
O;if 8 .17 0130 0.13 0. 1 Oh
699.38 b
0.10
1064.22 b
0.15
*#
8::3 0.17 0,07
kst
b a
714h b
1.06 0.22
R%s 1 753.OBb 767+03 a 772.00 a
0.20
780.63 b
bo*E Oh
1033.16b
319mO c
OdO
0.W
0.07
0.07
BM8 rc 83 M I 1% 3b!d30 c 0107 b 36&10 c 0.04 SMsiW !i662!19c
id;
8:M 0.01
0.03
“,IE 30!ib:30 c 3912too c
::n”
4014.20c 4104.20c 414st30c M:B
:
4256.40 c
4so4.00 c
M# i 1076.80 b lO@SdS b
82
MS8
;:ij + 0.20
1442.60 c
:
1139.30c 1290.60c l&b+10 c
8:R 0,2a
a=lass than 0.1 keUi b=baheen 0.1 and 1 keUi c=batwan
551
c
3037.20 c
8%
0.69 0.08
a
83 0.09
b
oe27
b
cr c
b
976.76 b 988.71 b WI.40 b 993.49 b 99SA2b 998.70 b 1001.00 b
b b
0.13
$#M 2535,80 2731.50 2744.80 2843.40
%t
b" 8:t3 b 0.14
0807 0.19
591.45 593JS 59WBb 600.22 611.64 625.97 b2MO
2405.50 c
i?M 871.15 874.78 888.08 w&i;
971.35 b 974,70 b
0.38
8% 0.19
022
Atomic
5219.11 b
0.06
1 and 3 k&V d= #tit
Data and Nuclear
Data Tables,
WI
3 k&a
Vol. 26, No. 6, November
198’
hmpt
M. A. LONE, R. A. LEAVITT. and D. A. HARRISON
TABLE
II. y-Rays Ordered by Element
Y’S f?om Thermal-Neutron Capture
and Energy
See page 513 for Policies and Explanation
REfsEHm: 7oRa w8: Ml 206.10 c
b c :B : a&*30 c
OIo9 0.16 b 8R oh 0.14
3f8:88:
848
333.40 c m8F $3;
0.17 f:XiT y;
&8: poF
isn 22’8
477:10 c
0:94
497.60 c swo c
213.80 c
w8: 0.18 b:Pb2019*ao NM8ccc
67lJ0 c
bwb90 c
0.50
m7r4Oc b c ml 2l40: 2190. b %d b
WJO c 0.39 ml rc k# 93OdOc
Obs9
r' c c c
23ber30 c b c rn# 2427hOf 2444,bOc RM8 2wl*90
rp c
0.26
0.63
0.44
2336*10c 2s4t70 c
0.18 0.79
4.M) 7.47
1109.90c 0.3s 1127.40c 0.67
2592rb9c 2w.20 c
gdf
p:i
Ijj#
11
#iJ%
s&*40 c
0:bo
1291:boc
0:41
2747:40c
0.46 0.37 b b !I kg
w8EE 634.00c
8% 0.20
w8: l7boe2oc
8:B 1.09
msr m*bo c
Oil4
WHO 22l.70 c
3.01
6.24
4sstboc 4&4*&oc
M
am
239.00c am
2&7r# c 290.30c iw8: 372*#c 39240 c
0.33 3.35 1:8! 2.02 Ot70
1071.50c
1093raoc
613rllO c
E! MY 0.32
blSA0 c 0.27 b c l?iR 8&l :b l&J I 0.39 137940c 0.30
3o3sr70c
0*&b
8:3d &#s 824 i?#Jl: 0.16 3ll4r80 c oa 3Eodo c 314wo
c
MA8
cc
317&I!Io c 3198.60 c
3215.50 c
0.1s
83 0.8 0.13
0.07
JWlr40 c
#I;#: 3924Joc
394Mo c
8A 0.23 0.3s
8:1 0.04
0.15
3239.50c 327Mo c b c !P bh : 3wbJo c b P WI38 3469:10:
39&1*00 c 0126 ssbr90 c Wb20 c 0.14 s&O7ac 4owb40c 0.23 b c b c C 1: ii I## b c p” ho c 42sl.10c 8:X b c 83 881 43&o : 0.19
0.11 __--
43wbboc 44bsbWc
4904.10c 49Dlb30 c
%:8x 0.12
l8wr 4639bWc 1174.10c b c tptfl
m8P, WmbY c sw2bWc b c II!88 sls7ho : 518l*boc o*aa s2l2a c
0.32
swo*boc
oa
0.17
043
wale c &Wl. 88 c
OIo9 0.24
0.21
0.06
r7 8b9 0:ob 47k39r 0*12
479b.10 c
Obo9 4ultso c 0.07 0.13
0.10
4827do c
ws4*&0c
4866.00 c
O*lS
0.07
s23a.a c
SW*10 c
5336Jo c
s362b20 c suabooc a!M: SuobWc SbwbWc b c w8 s762:n: sl3.10
0.03
Otl2
c
flEifzdcw 190. c 14.89 217,88 c 2s4.30 c 2b9.w c
1.35 0.39 0.33
w8:: s:!! 346070 c 0.29 39740 c 0.58 848s
89
447.30 c
1.54
552
Atomic
Data and Nuclear
Data Tables.
Vol. 26. No. 6. November
1981
M. A. LONE,
R. A. LEAWIT,
TABLE
EER6Y
INT.
keU
N/100
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
Capture
II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation MERGY
EUENY
IIT*
keU “&i keU WlOO CRWS SECTION: l.OXtO2 BARNS
Emw k&J
iifli
maw
IlIT,
keV
WlOO
EmmY ki4
IlIT. W/l00
3.10 c P 20 c 104bt50 c
1103.70 c
w8 rc 1362,20 c 1627.40 c at28 591.90 c
z = 70
El.EmT:
0.18
YB
REREHCES: 70Ra 3&A Ii 858
cc
2187.50 c
WI t 2&o c 308*20 c
“of 0:37 0.67
1129.90 c 1167.20 P 1216JO c
w8
8:# 0.69 7,19 2.12
392.80 c 404,20 c R8 cc g:‘J ;
0.33 0.35
c c c c c e
o&o 3.93 0.26 0.32 0.24 2.62
8858 ce 8:# Mb*90 c O,b9 941t80 .c 0,39 z = 71 ELEHENT: LU REFERWESt 70Ra
0118
0.56 0.44 0.55
2318dO 2331,80 2349.70 2400.80 2439.80 24bb.70
c c c c c c
fm8r,
8%
m8
cc 83
1455.30 c 1588.40 c 1633*so c
o.tlo 0,73 0149
2516.00 c
111bJMc
0.88
sb9:bO c sB9,‘o 63bJO 691,bO 724.10 762.80 009JO
PAMi
f8RR cr!:I! Tim8PC0.20 f8!
1093*10 c 109sAO c
336*&o c 341.90 c 3ha.70 c
3988*00 c
ems SECTIOK 3dbEtOl
241dO c 21.92 24wO c 0.9s
rc
0.89
1914.70 1934.20 1961.70 198wo 2023.70 2071JO
419wO
c
0.21
4247.70 4273.10 4302*00 446740 4523t60 4656elO 4672,w
e c c c c c c
0.20 0.04 0.10 0.12 0.M 0.05 0.0s
3504.30 3slOtlO 3sbEt20 339oIoo 3632t80 3659.30
c c c c c c
4926.00 c !iOlOt40 c
MA8 Er 3754*80 c 376830 c
t8iM : 5086.40 c 52b!Mo c
4457.60c 4524t70c
7.00 c Bl *w c 3!11*10c
RM8 EC 2976.70 c 3001.80 c
CRUSSSECTION: 7.73EtOi
OIlO 0.82 o,sa 0.13 0.08
469940 c 4737Jo c 4029.60 E 4m.30 c
BM#S
lb *OO c 224 40 c 3538.60 e 38s2rsO c
0,42 0.19
&!8c, 227.70 c 234.40 c
Pi! 0:45 Ots’
!m8 269.20 285.80 302.10 310.44
; c c I! c
9:R 3.90 0.41 O& 0,75
w8c, 762.00 877.00 899.00 1063.20
c c c c
!;!I 2.11 0.30 0. 0.1a
mt8 cc 4ooo.20 c 4271.80 c 0.12 0.09 m#8 cc 0.06
319dO c 336.60 c
3.49 0*35
1167.10 c 13bbdo c
0,26 0.53
4393.20 c 4413.80 c
Enersr wcertaintr
8:8i
c c c c c c
0.51 0.21
393;: cp 0’3 41440 c 0669
0.32
c c c c c
NM : 2166.70 c 2259.30 c
0.73
re
kit
3370,90 3387.30 3424.90 3463.40 3493.70
2787.10 2813.50 2873.80 2mJo 29oe40 2923.20
i
f&l8
8:8! 8:: 0.64
cc c c c c c c c
OS7 0.32 0.20 0.17 0*&a 0.15
I840
c P c c c c E c
iw8 2628.50 2663.20 26%*40 27oorbo 2729.80 2734.80 2769.60
c c c c c c
8%
E Ok 0.96 0617 0.12
9.90 1.70 308730 3117.10 3143.00 31b4*90 3174.00 3mOO
zx: ?d8’
4707170 : 4799Jo c
m8cc
a=less than 0.1 keU# b=betuesn 0.1 and 1 krVi cm
553
Slbsr90 * a!ilH 5267:60 5319.80 5344.10 53b!wo
c c
: c c c
1 and 3 k&i
Atomic
Data and Nuclear
0.15 0.14 0.07
0.16
89 t: 0114 0.04
d= frratw Utan 3 ksU+
Data Tables.
Vol. 26, No. 6, November
1981
hf. A. LONE, R. A. LEAVITT,
TABLE
I%
kdl 2=72
ELEREmH
mEFulum: 7ata H$8: %I!
and D. A. HARRISON
TY ll% CRass sEcTIan: Lo2E m8: 8%B!Mc, m8E, 812dOc 83240c
a $8 f
#x8
w8 EC 133oJOP 1421;b c ‘i 2.70 c %I .60 E
i*sn .
8:J1 1
83 0.25 0.39
cc 8%
42kaOc 402taoc
a.89 04
1102*80 c 1142,lOc 11sO.80 c 1166~90 c llts*40 c 1.95 1184120 c 0.47
2=73 ElmmT6 mEFamEs: 7oRa7 ztz E:$i WP
m8: 8:!! 38S4.80c 0.24 3w2.68 a 0.23
38
c c c
0.32 0.90 0.38
: c
116 P 0.32
s43mo 1472.40 1618.60 1633.90r’
373Oa c *Soc a8 389& : 3912:sOc 397ldO c 3979.20c
8 138cr 237edo c
2468.50c
8iw k 4366d3b
040 1.10
?P 2 4s c 0.57 2346.60c 0.53 2432JOc 0.22 2s 2s#6.# 0.40 c 0.26 c 0.26
0.37
0.12 0.24
0:41 * c au8 8:!8 311s:aO : 0.11 y
0.18 0.21 0.13 0.32
s311.90c 5353t70c
4673t47b 4691.66b 4739.34b 47s6*40c Hm
NM
Ii
Ii
5181.43b 5206.76b
0.23
3510.30c 3s34,4or Jsbl.SU-c g6*g ;
0.21 0.78 0.44 i*i
36&w c
oh2
w8 cc 8::o’ 3739.00c 0.77
3x01 c 377s.!8 c 011s 3w1.00c
*lo:i! c’ ai tm c 3359.10c 3376.10c m8 rc
04
SO3447 b 5062AOb so7s.80 5102t16 bb 5123.04b 3147.40b
4666&b
3494.10 c
0.13 0.13 0.13
0.14
4821680 b
0.63 0.20 0.69 8.Z
8:ti OIl3
l##:E 83 4916.10c 497srsoc 3 0.13
4629.70b
4BO2d7b
4383.13 b
319O.ioc 3a6r40 c 3223.90c
fM8 Ec 4392.80c 4487.70c 4507.80c 473Oesa c
Otli 0.19
4752m c
2412.50c 242tLsoe
c OJO 2707.70c rc d:4 m:f8 rc c oa43
m8E 83 3173a c 0.34 3208.90e 0.30
4282a c OS29 4290.10c
Hw 3709.40E
CRUSS sEcl1on:2IllE tO1 WNS ‘IHe 79uI 3594.40c 0.21 4118rll a 0.W 344440c 0112 4158.44 b 1: *9 a :* 0 c 2:30 2.10 m8: 83 Rd 402.90c 27.18 373Mo c 0115 42l9k z 4lSaJ c 032 38ooII c 0.10 4279.60c m8 cr 1:ll s48t40c 033 631.30c 0.48
m8: 8%
46: cc 8% Pi8
W6.30 c 0.67 1795.40 c 6c 83 fkM8 c w 0916 f064:50 ‘c 2064.90 I 0.19 lOwt30 c 2ls3*80 c o":E
k#
3%% 8% 2924.40c 0.25 2947.50c
6.11
8:#
WI00
keU
1302 MaNs
276:20p’ t:: 27940 c 0.22
24s*20: I au8
IWle
keU
122erPO c 1268.80c
0.16
Capture
II. y-Rays Ordered by Element and Energy See page513 for Policies and Explanation
581.10c 0.19 &!ir30 c 0.2s
234.80 c
Prompt y’s from Thermal-Neutron
0121 0113 c 0.37 4383130 4416.30c #lp70 c 8.00 c 455adOc 4M2*soc 4572.90c
4aw8E
462bJO c
Enerl mcertaintu Ness kun Oh1krVi b=betwen0.1 wrd 1 ksVl c=bettaen 1 rrd 3 kdi
554
Atomic
Data and Nuclear
6 inrtrr
Data Tables,
than 3 kcV.
Vol. 26. No. 6, November
1961
M. A. LONE, R. A. LEAVITT,
TABLE
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
INl, m IWO keU CR8888Ecmn: 8.wEtOl BMWI
ENER8Y
EEIRY k&J
keU
4648.10 c 4662.40 c 4704.80 c 4714.50 c
34oAo c
0.25
795*00 c
Ot5!i
359.10 c
0.98
9!V,lO c
0.24
187, iso:
mss :
!8
c 15.23 i::
sEcTI8M: l*s3UOl
689.90 725.90 77s90 828.70 84!L50 886*90 899,90 930.20 1m
371.70 E
3.48
c c c c c c E c
0.76 lJ4 0,48 2,9b 033 1,lO om 1.81
PC b3
1175,70 c
&8 ec89 er 0.48 w8 40930 c 1436.00 c 412~70 c 048 1803,70 c
8:lil
4501.70 c 4635*30 c
1.20
4946JO c
0.07
5491.60 c
0.07
022
sbooJo c
0.06
0.05 om 0.07 0.07 0.07 0.07 0.06 04s
3816,lO 3831.30 3900,70 39!wo 3979150 4072Ao 4222,sO 4253.30
0,07 0.02 0.02 OtO3 0.03 0.02 0,08 0.03
cc 8:8l
3140.90 c
5224.10 s2sb.so !!277,00 moJ0
c c c c
0.05 0.04 0,17 0.23
8:# 0803 0103 0.03
: 4615.70 c 467520 c 4716.30 c
89 0,03 0.12 0.07
0607 0.02 Ot03
4751.30 c 4812.80 48ootW c
0,07 0.03 0.23
564040 c 5684;g c’ a!
0.03 $*2tJ
0.03 0.03 0,02
484s.40 c 4920,70 c 4962JO c
0.0s 0.03 0.03
(10 c 588(*20 c 5919.60 c
0:02 0.08 0.02
5027.10 c !iOb7*50 c so88.50 c 5129tOO c 5147JO c
0.10 0,19 0.25 0.16 0.36
8:6$ 3361.40 #?t:i8:c
c c c c c c
3465.90 3516.20 357lJO 3677.00 3748.90 3767t40
c c c c c c
Z = 77 ELENEHT: IR CR88SSECTIOW:4,2bEtO2 BMNS REFERENCES: 70Ra 6.27 1.79 1.36
799oAo c
OIo5
l&u8 cc 4508*00 c 4s3oJo c 0.16
lBi18
##M 5220,lO 5261.60 528340 0.14 g.
0,Ob
c
jlfw ec 322!it20 c 0:03 3239.30 c 0.03
0.40 0.21 0.10 0.05 0.16 0,13
6119,20 c
8s
f:# 0.38 0.15
2261130 228mo 2330.40 2436.70 2458.80 25o!L20
4257.10 c h34$ ; .
c c P c c c c c
m8: 43&w
g
558*40 c 11.20 569.30 c 8.52 6g:g ; $#
0.27 1*14 0,45
0.25 83
sOO7.40 c
!8RR
3386.50 c 3402Jo c
401.50 c 418,80 c 422.50 c
!il%rs0 c I!&$;
0.08
c c c c f c c c
: c 0813 c 0.63 c 25.02
200.40 c 217940 c 22wo c
0.14 0.04 0.33
0.10
2!v4.40 2smoo 2605.20 2620.90 2666.50 2815180 2938,!io 3021,90
48M8 2130.00 2160,40 2223.30
0141 0.64
so c 38% do c so73t70 c
Ml?%
M8: 478.30 c 11.17 492.30 c 0.39 526.20 c 1.52
Mb.70 c 669.10 c
0.12 0.03 0.04 8s 0.20 0.07 0.05 0.06
0.03 0.11 0*07
m8: 4859t90 4888t40 431540 4936.40
0.03
c c c c
___.
f=76mlmTT,
Capture
85’4 ##:Rr m4,oo
c” c 0.25 E 0.42 c 0.42
c SM.10 c ss9sdo c
kl8 0.5) 0176 OI2s
4867.00 c 4w7*60 c 4981.70 c
Z=7S ELEllEUT:PTcR8s8 SECTm: l*OOEtOl BMM Wt 70Ra 0.66 #i 38: 8:8 0.96 333JO c 15.91 3%10 c 27.61 @g E pj
48l:W c ss8Ao c s7s.00 c
0:24 0.74 0.31
2Mr, 696.50 c
779.80 1048.20 lO9lJJO 1358Ao 149lJO 1629.80
c c c c c c
0.96
m:“o : 1676,80 c
lbOS.90 c 1713.20 c 1737.70 c 1803.70 E 1804,OO c 1826.30 c
Enerd~ uncertaintu a=less than 0.1 krUi b=b&wen 0.1 and 1 kV;
555
c=&tum Atomic
1 and 3 k&M dt ire&r Data and Nuclear
Data Tablas.
thn
3 keV,
Vol. 26, No. 6, November
198’
Prompt y’s from Thermal-Neutron Capture
M. A. LON ‘33,R. A. LEAWTT, and D. A. HARRISON
TABLE
II. y-Rays Ordered by Element
and Energy
See page 513 for Policies and Explanation
57 z= 70
ItIT, n/loo
El.EmT:
2749&Oc
Pl
0.31
3369.00c
Hi:38 E 8:1 %x8:
#W8: 3425.90c 3ss3,wc
8*8!
i!Bihl c 2&o : 2928.30c 2995.90c 3022,bOc 3041.50c
8:8 oh7
8:8$ OS17
3311.70c
oa13
3284.10 c
i#:i8 rc 53 2blJO c 5.75 278*10c 0.52 f:l;
f:f
349:80 c
0:9b
371.00c 0.32 38l.70 c 4.14 411.40c 0.64 418*00c 0.40 421.90c 0.34 440.60c 2.58 45640 c 0.78 w8: 8% 98.90 c 2.10 597.00c 1.66 bOld0 c 0.69
612.60c
8% oh3 041
04s
0:03 0.03
4557.30c
8:1# W8
W8: 4223.20c 045 4227m c 0.0s 4256.30c 0.12 4287.50c on11
?#I:# cc ‘4729.50c 0.15 474b.70c 0.07 4767.90 c 0.15 4791.80c 0.19
c’ 00:;
8:H
#!!:88e 5140.00c 5173.40c am 5307.00c s393a c 5417.20c 5432.60c
om
8:P 0.04 1.4 5:ti 0.95 0.81 046 0.11
1;; a# T8do:c pJ 0119
r1b:i8 : lia do c 4882.40c 0131 5521.10c 4899.40c 0.37 5546.70c
0:10
44OhO c 0:a #lb*10 c i:; ml8 fc lR% : 44sm c Oh5 4989.90c 4477.30c OtO9 4995.20c
0*69
4025*80 c 0816 4762.90c
pj
5078,lOc
8:8
w8
8:fl
cc
0.04
4W:B rc 4152.40c OIob 4167.90c 0.12
I:; ?‘:I 3bi E i!#
11:1 rc 1M 1712.00 1245.80cc 1.78 0.50 .
8M’rr 89 4278.80 41mt20E c 0.46 0.44
; 8+# E’ ;$tj
BkpS: 4338.0 c 4369rbO c 2593:mc 1129 4397.60c 2S96.70 c 0.96 4478*90c 2649.60 c 4510d c 26% c f;; 4s2s.w c 2842.t8 c 4s43.40c 3186.60c 0111 4573.60c 3265.10c 0.19 4587.70c wli y&
0:07
0.20 0. v lN8 cc Q3 5676.70 c oo:13 5692,80c 0.03
0.17
s204.90c
pJ
s795.70 c #i?Al
:
5874.50c 591er50c M8: 6003*90 c 6033*50 c
0.26
841 0.29 0.34
8:?! 0.37 OI90
6074.10c 0.24 6097aoc OIob 0811 0.07 t:X OIll 8:B 0.15 0.06
8:/i OIW 0.47 0.12
0.31
5767.10 c
0.11
8%
#kR cc 8:H 4828.110 4799.50c 0.15 1.06
W8 cp 8:B 5354,OO 5307.mc 0.51 0.48
M8 E*#
: E’ 8.i
W8: 8:8 y8J.g c’ ;a;
j!j#f
#Jilf
f#
61&O c 6148.30c
oh l*ll
813 1
iR#sE, 8% 3692.90c 0.08 37ose5o c 0.29
l8H8 : 4b43.M)c 0:u 4bmJo c 0,lO
1719.50c 1862t40c 2002.40c
3850.20 c 3868.10 c 389l.w c
4604tooc 46675.40 c 4739.10c
p&#;
70::
2984.30c 3os2Joc 3873.70c
I:#
w8
@Ml ce 14:ti 6229.90c 0.28 b310tOo c om71 6397rooc 0.79 b4s7.50c 5.20
frJ:iJ .
i
2704.80c 2817dOc 288340c 29OOtLO c
2.71
0408 00:E 11:9 I;#
49&O c 4929.90c 4957.40c 4973.50c 4998.10c 5038.00c so77t5oc
f#
0154 W&ho’, . 0.13 547320c 5493.40c 55l2.80c s523doc 5541.10c 5594.00c w58: ma ‘r 5140.80c 0:49 sb75t90c 514%.20 c 0.74 5710.10c
zw8 : 22s9a c 2271.90c
4:
0.08
4041,lOc
0.0s
2=79 El.Elm:Au IEFEmm: 7081 214t90c 9.88
m
8# 0.14
BM’ cc $62&E ,” :.g
OIOB Oto5 36&w c 0.24 3747tbO c 0.28 376140c * c i8bi 38 rc 8% MY8 3ll7t30 c 0.07 3815:90cc 3133.10c oa13 3848Aoc . c N!:# cc m8 3176*20 c OIlO 394bh c’ 323odoc 0.08 3962alb c 3251.50c
0.05
;:; ok9 ;;;
0.67
m8:
1.80 1.12 0.45 3.89
3216.10 c 32u.40 c e c am8 3425:30:
4114.80c 4243.10c 427lt30c 4280.30c USlt20 c
a#;!8 cc 48llt30 c 4841.80c 4893.50c 4904.70c 4919.30c
0.38 0.61 0.26
3499.40c 0.39 3&W50 c 0.18 3633tboc 0.54
4372.30c OS8 E.; E ;.g
4953.60c 4974.mc 5049.88c a:$;
1.16
cr
cr 8% 2920.20c 1.29 EM cm8 sEclIoK 3*4Etm Mm
“o:; * 0.24
45ssh e oh0 4574s c 1.02
1.65
sbsh c
bhb
1.84 MS 5.02 i:$
1 lQRa c c
0.54 Odl
Enmaw unnrtaintu
a=lessthan 0.1 keVi b=btwm
0.1 ad 1 kdi
556
c=betmm1 and3 keUl d= ~rmter Atomic
Data and Nuclear
Data Tables.
tha
3 k&h
Vol. 26. No. 6, November
M. A. LONE, R. A. LEAVI’IT,
TABLE
IWTI ?!Fy W/l00 I1 ELEMENT: Tl 425810 c 0.87
II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
‘%Ti “s:; md8c : c c c
oh7 OS5 0,12 0.44
fw8 : 1293:30 c
;:i t 0.33 0.51 0,45 0.85 0.43 0.50
713.80 c
0,49
BE8 873:20 Fc
:*ti 1:83
1360.30 c 1459.50 c lsL2O c 1478rOOc
910*90 c 931,lO c
lea9 0.53
1601*60 c 1712.60 c
1741,lO c m:l8 2111.20 2341.00 do li# 40 3942.10 %4 t
5014.50 c
C
iii 00:: 8:#
4114.40 c 4196dO c 4225.70 c 4287dOc 4309170 c 4343.50 c
0.13
CBBSSSECTIOII: ls7OE-01 II#ws
Z = 83 ELEHENT:81 REFEEHES: 708a 4054.70 c 36,47
CROSSSECTION: 3,3OE-O2 BARNS
Z-90
CRBSSSECTIOW:7AOEtOO BARWS
C
m8 cr 5’80.20 c 5239t40 c
cc c c c c c 0.07 0.03 : 0.09
Z = 82 ELEHEHT:P8 REtTImEs: 7ORa 6734Ao c Jto4
alo ‘;E 54ohlO c 54s80 c 5sO3ac 4752.40 c
lJ9
5533.40 c
0.31
3184.90 b
8:B 0.12 0.46 0.74 0.49
0:41 0.44 0,Sl
i#k#b" 3231.60 b 3245.50 b dOb ai! a90 b 3276.50 b 3288&ib 3295.3Ob 332UOb 3341.70 b 3343.70 b 3377.9#b 3391.10 b 3398JOb M@&#j "b
O& .14
::t8
3441dOb
0.13 0.34
5399.40 c 5515.07 b
0.02 OA9
Sm.94
5597.90 5634L!o c
0.17 0.07
6535:40 tc 593&$
1.36
7367.70 c 94.06
4lOldO c 24.39 2712840 . M8 .
EM8 277l.60 278420 2790.40 2610&O 2630,lO
4171.10 E 50.84 2091.40 b . b B%# 29&o : 297OdOb
is;:
b b
0.40 0.88
#tz 2653:44
~~EKlKlKW7qyeCRDSsSECTIOW:
MkPbb 3009,9Ob 3045.10 b 3049dO b 30570 b 3O!i8e&Ob 3070.40 b 3087.60b 3118rOO b 312716Ob 3132JOb 3148;3Ob 3174,OO b
oo:E 0.25 0,45
pJ
~00 b
0.45
:P 1 JOb l,Bo b
8:!! lJ7 0.30
f
#Ii 73.OOb P104.60 b 4174.00 b 4202.OOb
83 OtS6 0.15 0.08 O&
4758.00 b 4769.64 b
0605 OJ3
d0:::
0.22 0.1 O*3Q oO:E
2.69EtO2 MN!+
4739dO c
0.10
4927.90 c
~7byo~ 489 :10 c
8.E 0:10
4996110 c 0.09 iv*47J cc 8%
Enersr uncerkintr
Capture
EJ06Y keU
1113:10 1121,50 11 *70 11B .90
ElEHENT:TH
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
0,lO
5097.10 c
=% bb FiR A0 c 0.23 Ot02
a=lsss than 0.1 keUi b=b&mn
0.1 and
557
kdJi c=betum
Atomic
c
0107 0.17 8A
1 and 3 kaUt & lnoter
than 3 k&l,
Data and Nuclear
Vol. 26. No. 6. November
Data Tables.
1981
hi. A. LONE, R. A. LEAWIT,
and D. A. HARRISON
REFERENCES 68Jo
LIVI
Johnson
Prompt y’s from Thermal-Neutron Capture
FOR TABLES
and 1.J.
Nucl. Phus.
Kennett,
A 113,
104 (1968) 69Bl
PIHI Blichert-loft and K.C. Tripathir in proceedints Svrposiur on Neutron Capture Barra Rau Spectrorcoprr Studsvik(IAEAr Vienna, 1969) ~~173
69Jo
L. Jonsson
69Lu
H, Lvcklaaa 625 (1969)
69SAt
C. Sarour
69Tr
K+C. fripathi,
and R. Hardellr in proccedinas of Sunrosiua on Neutron Capture Gamma Raw Spectroscopvr Studsvik(IAEAr Uiennar 1969) ~~199 and 1.J.
Bhat
A 1239
P.H. Blichert-Taft, of Suarosiur on Neutron
Studsvik(IAEAr et a1.r
70BHt
H*R,
70Gr
LIUI Groshev 768 (1970)
70Ha
R+ Hardell
7OJo
L.U. 1109
Johnson (1970)
7OJu
EITI
Jurnev
70tle
J. Hellera 385 (1970)
70Ra
N.C. Rasmussen et Report DASA 25701
Selinr
Nucl. Phrs. A 139,
Kennettr
al.9 Nucl, Phus.
et
proceedinrs Spectroscopup
Phvs+
et a1.r
et a1.r
Kennettr Rev,
and H, Postrar al.,
1115
J,
C 2r
2323
Phvs+
Phvsica Scripta
(1970)
h 1549
71Be
0,
71Ch
R,E, 2054
7lHe
R.G. Helmerr R.C. 6reenuoodr and CIYI Nucl. Phvsr A 168~ 449 (1971)
Bellman, Atorkernenertiie
and HI Gruppelaarl
179 145 (1971)
K, Rimawir and
J.B,
Gartil
Phvs,
1,B.A. Nanuabar P. Grozr Huntiarian Sciences Report KFKI-71-46 (1971)
7lSc
LIAI Schaller, 415 (1971)
71Va
P,H+ti.
721s
&.F.ii. Ishaer A. H. Colenbrrnderr Can. J. Phrs. 50~ 2845 (1972)
Van Assche
et
558
Nucl, Phvs,
C 31
Acadeau
Nucl. Phars.
and B. tiichaudt
al.9
Rev.
ReiChr
Kardonr
Kern,
Incorporated,
2r 169 (1970)
Spits, A.H.F. OP Den Kaapl Nucl, Phrs, A 145, 499 (1970)
J.
48,
(1970)
A.H.J.
Be
349
85 (1970)
Gulf General Atoric
7OSP
of
4:
Can.
El
Chrien, (1971)
~~183
(1970)
Scripta
Nucl. Phrs+
GA-10248
in Rar
Nauk SSSR Ser. Fit
Phvsica
Phrs.
and S+ Borevinar Capture 6an8a
C 2r
IZV, Akad,
and TIJI
(1969)
Viennar 19691
Rev,
and C, Beerr
581
70Se
71Ka
of
A 160,
and T.J.
Atomic
367
A 1659
(1971)
Kennettr
Data and Nuclear
Data Tables.
Vol. 26, No. 6. November
1961
M. A. LONE,
R. A. LEAVI’IT,
Prompt y’s from Thermal-Neutron Capture
and D. A. HARRISON
REFERENCES 72fla
Hrttssonr
C,G.
Clrnellr
StE+ 5r 58 (1972)
Scripta
FOR TABLES and LI
Jonssonr
Physica
720t
H, Ottmar et a1.t in proceedinfs of Conference Nuclear Structure Study with Neutrons(Centrr1 Institute for Physicsr Budapestr 1972) p.88
73So
L,L,
Sokolovskv and A&E. Srwosium on Awlications
in
on Research
in proceedings of Nuclear Data and TechnoloSy(IAEA9 Vienna, 1973) p.431
Science
74Gr
RICI Greenuood 385 (1974)
741s
A,F.tl.
74Ju
Elf+
Ishaa Jurneyr
Corriteer
and R,G,
Ilnatochkin,
al.9 Nucl,
et
Reports
Nucl. Instrum.
Helmerr
Instrum+
to the
Nethod
U.S.
Nuclear
of
Nethod
21~
193
1219
(1974)
Data
USNDC-11~152 (19741
74Ke
J,
Kern
et al.9
Nucl, Phys+
74Ker
J,
Kern
and D. DUCV Phys,
74We
C, Ueitkawr P. Hatussekr and HI Ottmar, Neutron Capture Gamra Rar Spectroscopyt edited by K,Abrahams et al. (Reactor Centrum Nederlandsr Pettenr 1975) ~~749
7541
UILI
75co
AIH+ Colenbrander 236 (1975)
76Sp
A,ii.J.
77tlc
RIBI
7GGr
R.C.
Alexeev et al,,
Nucl. Phys,
et
Greenwood Spectroscopyf (Plenum Press,
al.,
A 248~ Can,
Nucl,
Phys,
Nucl. Phys,
II 281,
S, Sakamotor by R.E,Chrien
78St
tl.L+ 253,
Stelts and R.E. (1978)
79Pi
J,A+
Pinston
et
79w*
J,tl.
Van den
Cruyce
80Gr
R.CeGreenuood
249
(1975)
JI
Phus.
A 264, 325
and R.E+ Chrien, Neutron edited by R,E,Chrien Neu York? 1979) p.621
7GSa
for
(1974)
Kennettt
Spits and J. Kopecky, McDonald
333
C 10~ 1554 (1974)
Rev.
and T+J.
RJY
t References
A 2219
53r
63 (1976)
(1977)
Capture Gamma and Y.R,Krne
Neutron Capture Gamma Ray Spectroscowv end W.R*Kane(Plenum Press9 New York,
weaker
al.9
Chrienc
Nucl. Instrum.
Nucl. Phys, et al+r
and R,E+Chrien,
lou eneray
559
A 3219
Phys, phys.
Rev,
iiethod
edited 1979) p.737 1559
25 (1979) C 20,
Rev.
504
(1979)
C 21 (1980)
498
darra-rays.
Atomic
Data and Nuclear
Data Tables.
Vol. 26. No. 6. November
1%
DATA AND NUCLEAR
DATA TABLES
26, 5 11-559 (1981)
PROMPT GAMMA RAYS FROM THERMAL-NEUTRON M. A. LONE,
R. A. LEAVITT,*
CAPTURE
and D. A. HARRISON?
Atomic Energy of Canadas Limited Chalk River Nuclear Laboratories Chalk River, Ontario KOJ lJ0, Canada
A catalog of y-rays emitted following thermal-neutron capture in natural elements is presented. In Table I, y-rays are arranged in order of increasing energy. Each line contains the ‘y-ray energy, intensity, element identification, thermal-neutron radiative-capture cross section, and the energies and intensities of two of the more abundant y-rays associated with that element. In Table II, y-rays are arranged by element and y-ray energy; energy uncertainty and y-ray intensity are given. The catalog is designed for use in high-resolution analytical prompt y-ray spectroscopy,
* Summer t Summer
student from Queen’s University, student from Toronto University,
0092-640x/81/060511-49$02.00/0 Copyright 0 1981 by Academic Press, Inc. All rights of reproduction in any form reserved.
Kingston, Ontario, Canada Toronto, Ontario, Canada
511
Atomic
Data and Nuclear
Data Tables,
Vol. 26, No. 6. November
1981
M.A.LONE,R.A.LEAVlTT,andD.A.HARRISON
Prompt y’s from Thermal-Neutron
Capture
CONTENTS
INTRODUCTION ........................................... POLICIES .................................................. EXPLANATION OF TABLES ...............................
512
TABLE I. y-Rays Ordered by Energy ........................ TABLE II. y-Rays Ordered by Element and Energy 2 = l-83 (except for &n), 90, and 94 ................... REFERENCES FOR TABLES ...............................
513 514 515 529 558
INTRODUCTION
This catalog of the prompt y-rays from thermalneutron capture in natural elements is designed primarily as a convenient tool for analytical prompt y-ray spectroscopy. The employment of this technique which complements neutron-activation analysis is growing rapidly.’ Other potential uses will be the identification of background y-rays and of chemical trace impurities in target materials used for (n, y) studies.% Previous compilationss-s provided information on y-rays from thermal-neutron capture in individual isotopes and natural elements and covered data published prior to 1%9. Since then more data with higher resolution have become available which supersede earlier results. The present catalog based on the data
published between 1968 and March 1980 updates the information on natural elements in the previous compilations. The catalog is divided into two sections. In Table I, y-rays are listed in order of increasing energy. Only y-rays with intensity greater than 1% are included. Each entry consists of y-ray energy, intensity, element identification, thermal-neutron radiative-capture cross section, and two of the more abundant yrays from the element. In Table II, y-rays are listed by element. This table includes references, thermalneutron radiative-capture cross sections, y-ray energies, energy uncertainties, and intensities. of Technology Rept. MITNE-85 (1%9); also AFCRL-69-007 1 5. J. N. Hamawi and N. C. Rasmussen, Massachusetts Institute of Technology Rept. MITNE105 (1969) 6. CINDA-A. An Index to the Literature on Microscopic Neutron Data (Int. At. Energy Ag., Vienna, 1979), Vols. 1, 2 7. CINDA 79. Supplement to CINDA-A (Int. At. Energy Ag., Vienna, 1979) 8. S. F. Mughabghab and D. I. Garber, “Neutron Cross Sections,” Vol. 1, “Resonance Parameters,” National Neutron Cross Section Center, Brookhaven National Laboratory Rept. BNL-325, 3rd ed. (1973) 9. W. W. Bowman and K. W. MacMurdo, ATOMIC DATAANDNUCLEARDATATABLES, 13,90(1974)
References
1. E. T, Jumey, in Neutron Capture Gamma-Ray Spectroscopy, edited by R. E. Chrien and W. R. Kane (Plenum, New York 1979), p. 461 2. M. A. Lone and G. A. Bartholomew, in Neutron Capture Gamma-Ray Spectroscopy, edited by R. E. Chrien and W. R. Kane (Plenum, New York, 1979), p. 675 3. G. A. Bartholomew et al., “Compendium of Thermal-Neutron-Capture Gamma-Ray Measurements,” Part I, Nuclear Data A 3,367 (1%7); Part II, Nuclear Data A 5 (1968), 1; Part III, Nuclear Data A 5, 243 (1969) 4. N. C. Rasmussen, Y. Hukai, T. Inouye, and V. J. Orpan, “Thermal Neutron Capture Gamma-Ray Spectra of the Elements,” Massachusetts Institute 512
Atomic
Data and Nuclear
Data Tablea,
Vol. 26, No. 6. November
1961
M. A. LONE, R. A. LEAVI’M’,
and D. A. HARRISON
Prompt y’s from Thermal-Neutron
Capture
POLICIES LITERATURE
DATA
COVERAGE
For analytical prompt y-ray spectroscopy a single Ge(Li) or a Ge(Li)-NaI spectrometer is used. Consequently, data for this catalog are taken from measurements made with such spectrometers. Thus the extremely highresolution, mostly low-energy data, collected with bent crystal spectrometers, are not included. In Table I, y-rays with intensity greater than or equal to 1% are included. Table II contains y-rays with intensity greater than 0.05%. References to the literature containing data on weaker y-rays are identified in Table II.
SELECTED
GAMMA-RAYS
GAMMA-RAY
The data were obtained from a survey of the literature published between 1968 and March 1980. The references for this survey were selected primarily from the International Atomic Energy Agency reports CINDA-A6 and CINDA-79’ and Nuclear Data Sheets (recent references). Thermal-neutron capture cross sections are taken from BNL-325.*
INCLUDED
ENERGY
Listed are only prompt y-rays from thermal-neutron capture in all elements with 2 = 1 through 2 = 83 (except slPm) and in 2gTh and “EPu. Gamma-rays from the decay of the residual nucleus are not included. These were compiled earlier by Bowman and MacMurdos The energy of each y-ray is a weighted average of the energies reported various authors computed from the relation E = C (i3EJ-2EIlC
ENERGY
ERROR
The uncertainty
ELEMENT
INTENSITY
IDENTIFICATION
(8Ei)-2
in the mean y-ray energy is found from AE = [C (Ei - E)2(8EJ-2/(N
GAMMA-RAY
by
- 1) C (8Et)-2]“2
The y-ray intensities adopted are unweighted averages. If the original article reported only relative intensities, the absolute intensities were computed by normalizing to the absolute intensities reported by others. The intensities are given in terms of y-rays emitted per 100 neutron radiative captures.
The atomic number Z and the chemical symbol of the element are given in both tables. In some instances the presence of trace chemical impurities in target materials may have led to wrong assignments of ‘y-rays especially in the case of elements with low neutron capture cross sections. The listing of capture cross sections and TWO MAJOR LINES in Table I helps in identifying such erroneous assignments.
CROSS SECTION
Thermal-neutron
ESCAPE
Energies of -y-ray peaks which result from single and double escape of annihilation photons from the detector are not included
PEAKS
REFERENCES
capture y-ray production
cross sections are taken from BNL-325*
Reference keys are given in the style 68Jo. A complete Tables
513
Atomic
Data and Nuclear
reference list follows the
Data Tables.
Vol. 26, No. 6, November
1961
M. A. LONE, R. A. LEAWIT.,
and D. A. HARRISON
EXPLANATION I.
y-Rays ordered
TABLE
II.
y-Rays Ordered by Element
by Energy
I Z SY SIG
a, b, c, d
and Energy
(except for elPm), 90, and 94
E
TWO MAJOR
Capture
OF TABLES
TABLE
2 = l-83
Prompt y’s from Thermal-Neutron
LINES
Gamma-ray energy as observed in the spectrometer Gamma-ray intensity per 100 neutron radiative captures Atomic number Chemical symbol Thermal neutron y-ray production cross section for the element Two of the more abundant y-rays associated with the element Energy uncertainties: a < 0.1 keV b = 0.1-l keV c = l-3 keV d > 3 keV
514
Atomic
Data and Nuclear
Data Tables.
Vol. 26, No. 6, November
19%
M. A. LONE, R. A. LEAVI’M’,
and D. A. HARRISON
Prompt y’s from Thermal-Neutron
515
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
7057.8 11 44,9 4 21I:02 11 63.8 9 63.8 9 444.; 9’ 21a:2 442.9 63.8 bo,o g.;
a,48 55 cs :*: ;; 2
&3:8 8:70 65 b3*9 Loo 43 64.6 1.40 65 67.3 1*20 55 74,1 2.24 55 75.1 10.80 65 75,s 2.40 43 79.1
TB TC T8 CB CS TB TC
1.00 65 TB
116.4 172.2 1596.2 75.1
15 49 15 11
% U&:4 1lJ*;
:: 15 ‘95
11 4 9
75.1
11
1191 b5 TB
k!m! MEtoo EE
Bt46 M 8 R 197.7 2JO 56 Bn 198.0 14.89 ba ER 198.3 3.77 55 es 198.4 23.88 47 A6 hut1 198.4 1.34 71 LU 7+7EtOl 19913 Sbt4S 74 Y ItPEt 139.4 1950 34 SE lJEtO1 lW,4 1,lO 33 I lW,4 9,50 M 8D 200,3 1,bO 41 RB 200.4 be27 77 IR 201.6 1.55 51 aB 202,s 18.55 39 Y 203.1 7,21 29 w 205,b 5*&S 55 c8 20589 a,47 47 A8 206.6 2.44 63 EU
172:s 49 2.bEtOl
193.4
63.8
9
208.9 209&J 21210
254.7 25ws 5 3s1*9 s l:: i sat4
%38 5: F14.5 6.8 30 31 11&:4 1s 7f 76.4 10 198.4 24 236.7 12 221.6 2 244.1 1
1.05 71 LU 7*7Etol a,10 75 RE axtO 8~80 25 RR lJEtO1
&J
:s
$I!:3
11
Iii&
4
‘%: 2595
i
2993 334J
:I
217.4 1.79 77 IR 4JEtO2 217.5 1.35 68 ER l&t02 218,2 10,bO 57 LA 9.1000 218.4 1.14 SS CB 2.9EtOl 21988 1.31 55 CS 219EtOl 220.9 4.17 3s BR b*aEtOo 22186 2.14 63 EU 46bEtO3 223,5 221.7 3.01 4,91 43 67 lcHo 1,9EtOl 6.7EtOl
200*4 816,O 1596.2 116.4 116.4 245.7 206.6 ;3$;
351.9 198.0 288.3 176.4 176.4 l%,b 244e1 E426;;
5 15 9 10
224.4
137
33 A!? 4JEtOO
225,4 228,o
1.36 77 IR 1.09
4JEtO2
2.70
228.6 52.27 229,5 1*03 230.2 25.95 230.3 1.65 230.9 2.17 233.8 1903 234,3 3173
1105 6.00 lb.82 1.23 79&O lea0 48,79 1.71 5.47 11.39
53 I 57 LA 33 ns 43 TC 18 RR 43 TC 43 TC SS cs 44 RU 32 GE
17611 1924 35 BR 176.4 10.32 SS CB 177.2 11.11 59 I’R 177.9 1.24 33 As 178.9 1666 b5 n 182.9 3.90 59 FR 185.7 20.54 bb BY #:S 187.9 188.0 188.5
1M !i ii 1.19 33 AS 1.39 35 BR 6.8EMO 1.80 25 RR 1JEtOl
153413 172,2 4745.0 17292 239.5 116.4 540.0 3028.0
172:2 49 26718 3
lb416 200.4
17 1 6
10 6 1 1:
*3
7
351.9
5
iv:% St! *R:!!I
&3&0,0 13 SSa,4 3 116.4 15
235.1 1.99 35 BR 235.8 I,30 57 Ln 235.9 2.89 58 CE 23612 4,22 79 Au 236.3 2,39 33 As 236.7 12.22 47 na 23783 1.19 75 E 237.7 3.80 57 LA 238.9 8db 34 SE 239.8 6.24 67 HO
bdEtO0 9,lEtOO br w -01 9. tO1 4JE+OO 6.4EtOl 8.8EtOl 9.1000 lJEtO1 b.?UOl
245,7 1596.2 334.8 1201.8 164.6 198.4 209.3 1596.2 &13*9 42&e?
195.6 b
6
241,8
3.7EtOl
341.9
6 12
246.9 24748
21192 70 YB
6 41 15 15 1s 11 2 4:
2
295.6 21 8174.7 12 200.4 6 351.9 s 7&v:: B X45,5 556.4 24 13
442.9 4 218.2 11 471.9 4 299.5 11
7 49 s!i :: 49 ‘W 11 26316 5 15 176.4 10 11 475.1 7 39 596.4 33
245.7 11 116.4 15
45787 7 269.2 4 256.0 8 1,3 5 2bab 18 K 4318 12
a62 i:R # 8 M&l 214,O 54.91 72 W l.OEtO2 214.9 9.88 79 Au 9,9EtOl 217.0 9.15 21 SC 2JEtOl 217,l 1,49 43 TC 1,9EtOl 217.2 8.71 45 RR 1.5EtO2
22&l
MO,7 162.7 164.6 lbb,7 167.3 lb808 17292 174.3 174.8 175.1
3
'691e7 11 283t2 3 1?&,4 10
11 VS.6 6 15 218.2 11 96 439.7 54 12 214.9 10 17 1S34r3 7 24 ,2OS19 9 a 254.0 a 15 218,2 11 a 520.0 6 4 290,3 3 7 52bS,7
6
wi 1: ii! n:i 11 177.2 11 1: s38,4 7 41 116.4 15 17 2223.3 25 63 164.6 17 1x1 245.7 11 195.6 26.6 18 r243.8
3.76 14 SI l.bE-01 5174 79 AU 919EtOl
3533.1 68 493414 63 1201,8 12 214~9 10
516
M. A. LONE, R. A. LEAVITT,
and D. A. HARRISON
Prompt y’s from Thermal-Neutron
Capture
TABLE I. 3/-Rays Ordered by Energy See page 513 for Policies
2*9Eiol
116.4
M 314*4 317.4
kin! l*wOl bJE-01
m aa 935 53 26.6 18 7243.8 12 334.8 96 439.7 54
%:60 319,5 319.8 320.8
I:M8i 3t4MO 7*7E+ol staEtO3
15
176.4 10
a:8 d 5641,s 3 457.7 7 333.4 w
#:P l! 348.7 3 269.2 4 439.4 56 634.0 267.8
5269.2 30 1894.8 22 19983 56 6190.2 5
323.6 324.9
2223.3 25 217t2 9
::mi 2~wOO l.SEtOl
flit% 3028*0 2223.3 230.2 293.5 239.8 334.8
:: 39 25 26 5 6 96
&! 59&4 b34,o 277.4 310t2 424,7 439J
B 33 17 20 4 4 54
35iR :63
ma 21410 5269t2 3aa.Q
‘8 >H:~ ‘% xi 30 1884:a 22 39 596.4 33
39#73 sa:4
L m: 1: 3 283:2 3
ll8#
1;
g.30
1;
77229 457,7 1201,E 11684 172.2 !3Mtb 4.8
27 29bo:o 7 269.2 12 214.9 15 17614 49 299.5 96 1534.3 17 439.7
333.3 15.91 78 PT 333.4 98.90 62 St! 333.9 2.07 67 HD 334,7 2.39 45 RH 334.8 95.9s ss CE 33s*l 1120 39 Y 335.6 2.25 49 1%
356.1 439.4 239.8 217.2 439.7 &079*8 1293.4
28 5234.6 56 SOS9 6 426.7 9 267.8 54 bb2.4 77 776.8 18 1097.0
1.22 b4 8D 7,95 73 SE
fd
307.3
7SE-02 1.9EtOl
:‘M hEtO bJE-01
3,42
and Explanation
47 A6
198.4 24
a 4 10 10 11 547
236~7 12
4.98 2t20 1.30 2.53
#kl 0 339.5
32.8 12 nrr 19 K 51 SB l&to1 MEtO 6X+01 itSEM 6JE-01 1.3EtoO 1,9EtO2
6.71 3.68 41 16 PD NB bt9E 1,X@ 1.70 65 TB 2t6EtOl
%T 2! 75.1 11
w aa
17 3
4 18 4 3 26 30 12 9 9
339.5 2.78 28 III 341.7 26.27 22 11 341.9 7B19 70 YB 343.9 5.46 29 w 345*0 1.67 3s BE 346.8 2.16 73 TA 348.7 640 18 AR 348,7 2,s a1 n g.j 6p# $! g * e 23062 3916.7 5269.2 334.8
26 ss6*4 13 49 2828.1 43 30 18Mt8 22 96 439.7 54
%i =: 7R”6 8998.8 38 8533,4 558.4 3 332.8 143583 14 627.5
44 17 3 12
198.4 24 236,7 12 228.6 52 8174,7 12 Jo28.0 39 596.4 33 Bii 299.5 299.9
M 8 I 11*49 43 Tc 1.39 30 2m
P 1.8 303rb
k% 8 “I 2.14 31 6A
303.9 3os.s
3.71 72 HF 1.69 67 Ho
366~ 367,)
lt59 26 FE 2&W 1.51 35 OR 6JEtOO
7631tl 28.7
380.7
2.10
402.9 27 198.4 24 1201.8 12
73 TA
2JEtOl bAEtO1 9.9EMl
29 764&S 24 11 195.6 6
360.6 4 234.7 12 2l4.9 10
lsk1 w NW lW.7 2l 538.4 1836.1 sa aw.0
l&U02 MEto
214.0 55 239,8 6
f#H b91.7
7 11
325.8 426.7
b 4
?iik~ 230.2
fl 7 28
“e w.1 9 26 277.4 20
M. A. LONE,
R. A. LEAWIT,
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
517
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation GANM RAY I kiu x goq 404:o 411.3 413.2 413.8 417.2 418.8 419.3
25.M 1:b3 1929 7.25 1.56 7.21 1.14 1630
419,s 420.3 42099 421.9
4,Ob 1.07 1,19 1.69 42216 5.69 424.7
ELENENT 2 SY SIG
;
g
2dEtOl
58 CE t!! 67 Ho b&l 66 DY 9JEtO2 10 NE 3.8E-02 49 IN 1.9EtO2 77 IR 6 36 KR EE 23 U
S&Et00
51 SB
WEtOO
53 I 37 8B 57 IA
:=i*f 427:O 430.4 434.0 1.01 49 IN 434.2 1,32 38 SR 43594 1.22 27 CG 436.1 1.09 15 P 43683 2.19 12 110 436.6 6.54 23 U 439.3 1.62 39 Y 439.4 55.51 62 W 439,7 54.38 58 CE 440,l 3.84 10 NE
grlEtO0 2.sEtOl 5,lEtOl b+HtOl 4.3EtOO 6,9EtOO
ki
"aYLF
3bO.b 333.4 334.8 239.8 185.7 203564 l&3';
% keu
12 x
4 377.8 2 99 439.4 56 96 439.7 54 6 426.7 4 21 538.4 7 77 350,3 61 1; 109;*; 1;
881:8 84 121312 37
133.6 8
S&8 1596.2 881.8 697.3 239.8
I x
ZSY
477,b 2959 3 LI 478.3 11.17 76 GG 479.1 1.91 26 FE 479.5 1.86 15 P 479.6 2.00 12 l6 479,7 2.05 7 N 479.8 1,43 46 PD 480,l 1,26 42 Ml 481.8 12.56 S4 XE 4G2.4 2,27 58 CE
61569
8
717.3
5dEtOO 1JEtOO
6517.2 18 7162.7 13 b079.8 77 776,8 30 333.4 99 SOS.918 334.8 96 662.4 26 2035.4 77 350.3 61
3OJf.i 333:4 fwf fw E lb7.3 80 4 43.0 xi 6110.9 20
s20,o 520.0 522.9 524.3
5*8G 8.22 34 26 8E CA MEtO! 4JE-01 2.08 19 K 2,iEtOO 2.72 54 XE 2,SEtOl
195&; 1942:O 773 473ii’: 3i 770.3 51 7317 11 bbG,9 Go .9 22
X&b 52692 52819 530.8 529.3
1,GO 1,52 2.10 1.16 1.30
75.1 2223.3 1201tB 1077.4 881.8
3,BEtOO
#!:i 453.2 45318 454.3 454.5 455.6 457.7 457,9
f:ii 1.16 2.36 2,22 6124 1.05 6.95 1.12
Fil CE BA NN NB Ho LU NB
5:m ME-01 lJEtO0 1JEtOl S.lEtOl 6.7EtOl 707EtOl 1JEtOO
'#ii:: 334.8 1435.3 26.6 697,3 239.8 269.2 254,7
fl 1ki '8 96 43917 54 14 627S 12 18 7243.8 12 73 618.9 29 b 426.7 4 4 319.8 3 25 293.5 5
a:8 M 542.7 1.18 543.5 2,97 546,s 1.20 548.9 1,20 S49.8 1.03 550.3 1.34 551.6 4.04
25 101 58 CE 59 PB 56 81) SO 8N 28 NI 29 66 CU DY
lJEtO1 bJE-01 1JEtOl 1.2E+oo 6.3E-01 9JEtO2 34.4EMO Et60
26.6 334,8 177.2 1435,3 1293.3 y.78 2!k3
18 7243.8 12 96 439.7 54 11 141.3 4 14 627.5 12 13 1171.3 8 ;33 8S3&; 7914:s 31 1;
554.8 6897 21 GC 555.2 4.27 35 BR 556.4 13.05 27 CG 556.4 1.49 IS RN 556.8 9.85 37 RB 557.5 1.38 49 IN
3.59 33 I 1.99 15 P
4&a l&H1
3900.3
16 2154.2
472.4 59.83 11 M 473.3 2.21 7 N 473.5 1.50 49 IN #g 66.a ; g
4X-01
6395.4 15269.2 1293.4 s40.0 54010 241e8 334.8
22 870.6 22 30 1884.8 22 18 1037.0 12 10 687.4 4 11 1628s 6 22 341.9 7 96 439.7 54
475:) 475.4
1:aEtO2
2171 70 YB Et! 14.40 58 CE bk-01
&% 477.0
2 8 %I! 1.01 27 W
9:K Y 1 3.7EtOl
477,l 477.6
5.75 60 NB SJEtOl 2.18 73 TA 2,lEtOl
25beO 8 6.4 33
502.5 SOS.9 17892 5,23 60 62 NB SN 5,lEtGl 5s 3 516.0 25JO 18 IIR b.GE3 1 516.7 18.50 17 CL 3JEtOl
15
bdE-02 3916.7 49 2828.1 43
yE5E
209.3
16 2154.2
26 277.4 20
1X&~
1;
214.9
10
40219 23012 185.7 816.0 334.8 933.7 2035~4 881.8
27 3%: : 26 277.4 20 21 538.4 7 41 198~0 15 96 439.7 54 37 629484 17 77 350,3 61 84 1213.2 37
1.13 75 RE 8JEtOl 3,!V 32 GE 2JEtOO
1111 29 cu
471:9 472.4
848.8 15 m.9 22 439.7 54
4W,7 500.2
449.4
459.7 1.60 4bO,2 1.23 4bO.b 1.35 463.0 1919 4b4.3 1.14 46&l 12,98 m k9772
778.3 37 668.9 Go 334.8 96
18 1097.0 12 58 898,O 28
DY ER CE ZR NE 448.6 3.20 36 KR 1 58 56 25 60 67 71 41
i2
8
9.9EtOl bZtO0 2.lEtOl 3.7EtOl 9JEtO2 l&Et02 6.3E-01 la9E-01 3.8E-02 2ZiEtOl
bb 68 58 40 10
kdl
X
6 290.3 3 164.6 17 1534,3 7
2.58 79 Au 4,38 53 I 1.16 73 TA
6.81 27 CG
“YY
kstr
442.9 4
440.6 442.9 44390 447.3 447.3 447,3 447.5 447.5 447.8
2,Ol 1.54 1,87 1.80 1.32
SIG MNS
10 476.0 3 15 218.2 11 84 1213.2 37 73 618~9 29
1293.4 1836~1 230,2 3900.3
MEtO
kei
651792 18 7162.7 13 558.4 3 283.2 3
1.9EtO2 1.2EtOO 3JEtOl 1.8E-01
6X-01 3.8Ed2
GnNMRAY
27813 33 791415 31
lb416 17 1534.3
44218 lo8 l&P 2&Z 26 277.4 697,3 73 402.9 27
7 15
65 76 79 38 36
TB GG IYI ZN KB
2,bEtOl 1JEtOl 9.9EtOl 2JEtGl l.lEtGO
8
11 63.8 9 25 .o 17 12 r 14.9 10 84 19 17ib3 13:; :;
537,3 1.27 47 AG 6.4EtGl 537.4 19.52 54 XE 2*sEtOl 538.4 537.7 2.35 7.47 bb 37 DY RB 9,3EtO2 3JE-01
198.4 24 bb8,9 86 g; ;;
234.7 12 n3.9 22 tq*f 3
53984
1.01 55 cs
11614 15
7614 10
!i39,6
2.18 21 GC 2JEtOl
%“4 598.4 598.5
dd #!I bG ER 67 Ho 59 PB 57 LA 47 AG 71 LU 74 Y
2*9Etol 7:m! l&t02
52
Zf95.6 21
bJE#l
Rf 6’ w:s f 816,O 41 19GtO 15 239,G 6 426.7 4
tEi 7ktGl 1,9EtOl
457,7 7 ? 9.2 199.3 56 6 90.2
1JEtOl
2JEtOl b+MOO 3JEtOl lAEt62 3z-01 ime
la w & ::!k# 3.25 51 GB 514EtM 9.17 38 GB IJEt
558.6 72.73 48 CG 559.6 6.03 12 IIG 559.7 1165 59 PR 559.9 1.56 33 M 560*2 2*20 11 Mn
228.6
2StO3 6.3E-02 1.2Etol 4.3EtM 4.OE-01
228.6 245.7 230.2 217.2 476.0 1293.4
4 5
52 295.6 21 11 195.6 6 26 277.4 20 9 267.8 3 3 1030.a 3 la l
a!:! ifi 2 28382 3 1836.1 58 651.3
14 1
! 20
61849 29 360.6 4
567.3 569.0
4033 57 LA 9,lEtOO 1.03 66 GY 9JEtO2
lN&;
e
;!
i3G la.2 ii r4 7
518
M. A. I&N&
42..A. LEAW,
and D. A. HARRISON
Prompt y’s fmn ‘IWmal-Neutron
Capture
TABLE I. .-y-RaysOrdered by Energy See page 513 for Policies and Explanation
snfwl RnY ke! 569.3 56947 571.1 572.2
8.52 1.13 1.04 1.69
76 42 54 19
2224*33g
6s 86 KE K
63&i ;;
66d9 80 m:9 22 77013 51 2073t7 11 177.2 11 141.3 4
573.1 1.45 59 P% 573.7 1.25 42 M% 574.6 575*3 575.3 575,a
6Rii
12.60 39 Y
%
!R!
ii
3026.0 39 596,4 33 no.3 51 2073.7 11 558.6 73 651.3 14
1.33 32 8E 1.14 19 K 2.31 48 CD
577.9 579,4
1.32 74 Y lt9EtOl 1.96 80 H6 3&tO2
368.1 81 16931914
1991356 619012 5
7!M*J 707.5
!R!
T:sQ B Id
#I:;3 a
38k3 7W.l 710.3 712.4 712,9 717,3 718rO
5%2,2 13.02
M88
a:3
ti
9 F 9.5E-03 3589.3 11 2452.8 10 5%4.1 lt52 66 DY 9t3EtO2 185.7 21 538.4 7 58485 lo&% 62 %% 5JEtO3 333.4 99 439.4 56 5%4t6 9.37 58CE 6dE-01 334.8 96 439,7 54 5%5,2 25S5 12 86 6.3E-02 39l& g 3.: ;; 5%&z cd5 21 SC 2X401 + * 585.5 590.3 594.8 594.9 595.2 595.2 595.9 596,l 596.4 596,8
2.13 3% SR MEMO 1.7% 60 ND S.lEtOl 1.32 10HE 3.8E-02 1.20 57 I.6 9dEtOO 1.17 3.92 1.47 1.73
1,70 15 P
1,aE-o1 3900.3
lJ7
4%CD 2JEtO3
:a
iv8
2.00
32 8E
1.09 31 a
4S5 62 Sll 4.57 5acE !*K *
ii ifi
5taEto3 6JE-Ol 6t9EHO
l&t02
697.3 73 2035,4 77
B
M :I 333.4 334.8 615.9 816,O
B 99 96 8 41
%5 i#:: 439.4 439.7 325.6 196.0
a :: 56 54 7 15
618.9 29 350.3 61
1846m2 r8 15 96 99, 4 '*f 3900,3 16 2l54.2 1:3EtOD 6079.8 n n6.8
5% CE 15 P 39 Y 56 86
i%i;
:: 15 30
11 M
4.oE-01 472.4 60 6395,4 22 1201,8 12 214.9 10
9t9Etol 2JE-01 54 XE 2t5Etol 4JEtOo 6JE-02 3taEtoo 2JEtoo 2,41 42 NO 2.7E+OO 7.66 34 SE 1JEfOl W Au 13 hl.
2746:9 77272.Jg3 299.; 72312 g2 3916.7 49 2828~143 27%,3 33 791415 31 3028,O 39 596.4 33 778.3 37 848.8 15 238‘9 8 520.0 6
717,3 8
325.6 7
mt5
Ia9
):
752.1 1,59 30 2% l.lEiOO 1077.4 19 78631311
Rk14$m:i9
18
6360.0 13 69lt7 11
14 4095.6 11 52 295.6 21 11 475.1 7
668.9 457.7 334.8 2035.4 207317
10 475.1 6
80
773.9 22
634.0 16.88 76 0s ME+01 2223.3 25 187.3 15
11113 23 U 2.61 19 K 2.60 29 al
5eWOO 2.E ai 3s
6517e2 1% 7162.7 13 no.3 51 2073.7 11 y&3 g wda4.5 31
648.8 650.9 2.9% 1.04 3% 66 SR DY 1JEtOD 913EtO2 1a36:1 5% 89%:: 2 651.0 651*3 658.3 65919 660.9
2.9E400 4.19 31 6A -..-_-_ 13.90 4% CD 2SEtO3 1,17 57 LA 9,lEtOO 1125 31 %4 2,9E+oo 1.26 20 Ch 4x-01
662.4
26.10 5% CE
661.1 4.47 80 H8
2.22 58 CE 6JE-01 3.77 69 TH l&t02
63g.t g
g.;
6360.0 1596:2 15 13 643::$ 1942.0 73
697.3 73
618.9 29
$3 23d2
808.1 2,18 21 SC 2.7EtOl 2.62 70 Ya 3JEtOl
809.3
195$;
26 6%: ifi 27714 3 20
1950:9 22 6110:9 20 788.4 15.00 17 CL 3JEfOl 789.9 217.2 18 23 %tl U ME 5.M 8i 6517.2 9 7162.7 267.8 1% 793.9 1.11 2.87 45 799.9 2,19 11 IIA 4tOE-Ol 472.4 60 6395.4 22 802.3 4.60 36 KU 2.5EtOl %%l,% 84 -1213.2 37 558.6 73 651.3 14 806.0 4,65 48CD 2dE+@3 806.6 2,05 30 2% l.lEtOD 1077.4 19 7863.3 11 807,6 l&4 66 DY 9JE402 185.7 21 538.4 7
54 6
3.21 9.60 42 17 I(0 CL 2X+00 3JEtOl
1186.5 11 944.0 11
:;
1919 39
439.7 475.1
773.9 22.24 54 KE 2*5Etol n4,l 2.18 21 ac 2JEtol n a 30 nt9 4h303 35 39 #Y ma 77%,3 36892 42 80 2*7Etoo 779.3 1.87 60 ND 5,lEtOl no,7 3rJ6 64 6D 4.9Eto4 780.9 4.74 5s CE 6.3E-01 781.1 2.64 1111114dlE-01 785.7 5.19 27 CO 3*7Etol
1;
96 439e7 54 33 7914.5 31 22 537.4 20 w 43964 56
334.8 96 540010 10
773.9 22 269a2 4 439.7 54 350.3 61
786.3 786.8
368.1 81 1693.9 14 3349% 278.3 773.9 333.4
80 7 96 n
11 JSBQ.6 9 199.3 56 6190.2 5
11 141.3 4 816.0 41 198,O 15
676.6 687.4
w
1836.1 5% 898.0 2%
1435,3 228~6 54oro 540.0 668.9 177.2
645.9 646,7 648.4
16 2154,2 15 558.6 73 651.3 14
ldEt-00 33.10 32 %E 2JEtoo 1435,3 302&o 14 39 627.5 868.4 13 5269.2 30 1884.8 22 4.35 7 8 7SE-02
596.8 1.08 59710 1.66 597.1 1.62 600*2 11,36
609.2 613.9
:
228.6
;
6ll&
;
52 295.6 21 241.8 22 341.9 7
M. A. LONE,
R. A. LEAVITT,
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
519
Capture
TABLE 1. y-Rays Ordered by Energy See page 513 for Policies
6nNMRAY I& 61297 614.7 616.0 616.6 619.3 023.1 823.5 626.4 %2%e7 %30,4
: 1.04 10.15 40.96 En76 2‘71 1.03 4.26 Lb3 2,96 1.72
831.2 1.63 62 %H 834.6 2.73 30 ZH 835.1 2bdb 24 C% 635.9 1,50 41 I 63btb 1165 20 CA 837.7 9.60 1% AB a41rl 75155 lb s 843.7 1.84 19 K 644,O 2~30 40 ZR 846.1 lb32 10 & 846.1 846.9 %4%,% 850.5 653‘4 853.5 659.0 ab0.3 6b4,3 ab4.9
3.52 1.06 14.52 11~14 4.91 25.96 1146 1.W L20 12.20
- Yx lleb
ELEMENT z SY SI6 54 XE 60 ND 6% ER 56 %A 49 IN 44 Ru 23 V 35 BB 76 6% 13 AL
668.9 697,3 196,o 1435.3 1293.4 540.0 6517,2 245.7 2223t3 7723.9
865.8 2+28 7 N 867.2 2.17 20 CA 867.3 la10 16 AR 868.1 1.10 57 LA 868.3 1.97 62 %I! 868.4 14.79 32 6E 868‘6 1.02 64 ED 869.0 2.02 15 P %b9,2 1.42 79 All 869.9 3826 54 XE
w 19 27 25 73 80 59 51 37 77
439.4 7863.3 7939,3 293.5 b419.9 4745,O 2379.7 2073,7 6294.4 350.3
56 11 13 5 39 55 45 11 17 61
9bOt6 4tbD 961.8 7,42 961.8 lo.26 9b3#9 1.90 973.2 1.19 976.2 5.2% 977.2 4.13 97763 5.0% 979,2 1.52 960.1 L66
32 BE 2JEtOO 3026tO 39 3196.4 b4 ED 4.9EW 1186.5 11 44.0 5% CE bJE-01 334.6 96 43967 36 X6 2AEtOl 881.8 84 1213,2 50 SN bJE-01 1293.3 13 12i2a ill.3 12 %% bJM2 3916.7 49 bl 64 ED 4*9Et# 1186.5 11 944.0 5% CE bJE-01 66 DY 9JEtO2 20 CA 4JE-01
6517.2 8998,~ 778.3 Mb.1 816.0 ba09.4 333,4 226.6 81610 697.3
1% 38 37 5% 41 64 w 52 41 73
7162.7 8533,4 720*3 698.0 198.0 33b7,b 439.4 295,b 198.0 618.9
13 17 7 28 15 34 56 21 15 29
980,7 961.2 983.5 984.0 9%7*7 990.5 997.0
3 LI 60 ND 22 TI 13 # 76 66 40 ZR 5a CE
5269+2 1942.0 167.3 1596.2 333*4 ma.0 llBb*5 3900.3 1201.8 bba,9
30 73 60 15 99 39 11 lb 12 80
1684.8 b419.9 4745,o 216,2 439.4 59684 944.0 215412 214.9 773.9
22 39 55 11 56 33 11 15 10 22
333,4 1077,r 688181 254.7 4JE-01 1942,O 6X-01 167.3 ME-01 542Oa5 2,lEtOO 770,3 93397 1.9E-01 3,%E-02 2035.4
74’E bk-01
9.1EtOO 5*6EtO3 2*3EtDO 419EtO4 l.aE-01 9,9EtOl 2StOl
870.6 21.92 11 WA 4.OE-01 71.9 100,oD 70.9 2.71 5% a CE 0 2 7 -04 4:&0i 672.7 2.39 37 RB 3JE-01 %73,2 lta3 81 TL 3AEtoo 1g.i pfi =3” I !u :;#ili a61:a 64:oo 36 KR 215EtOl 883.3 2.67 bb DY 886.5 1,50 34 %E EEt
472.4 60 b395.4 22 2184.5 62 10%7,9 82 334.6 96 439,7 54 556.8 10 476.0 3 5b41*5 3 348.7 3
886.6 2.59 80 H% ti.9 1,io 76 66 666,b 1.74 21 SC 691,a Lb% 74 Y a9513 1.36 54 XE 696.1 1.34 41 MB #be7 1.M 39 Y 697.3 6.51 64 ED 898.0 27.84 3% SR 898.0 10.65 5% CE
3.6EtO2 MEti1 217EtOl 1.9EtOl 2.5EtOl iJEt lJEt# 4*9E+O4 1JEtOO 6.3E-01
3b8,l 222&
81 1693.9 14 E g.6” ;[
1w:3 668.9 254.7 60796% 1186.5 1%3b*l 334.8
56 bd2 80 773,9 25 293.5 77 77b*% 11 944,o 5% 850.5 96 439,7
5 22 5 30 11 11 54
898.2 902.8 9W.5 910.9 912.1 912.7 914,9 915.3 9lbeb 928.2
1.65 2.64 1.07 1.08 2.96 3.20 3155 1.1% 1.45 1.01
2.bEtOO 6.3E-01 1,lEtOO 3AEtOO 9JEtO2 1.9E-01 l&t02 ME-01 4,9EtO4 3JEtOl
7631.1 334.8 1077.4 5b41.5 16517 933.7 816.0 390013 Mb.5 230.2
29 96 19 3 21 37 41 lb 11 26
7645.5 439,7 7863.3 348,7 53884 6294.4 198.0 2154.2 944.0 277.4
24 54 11 3 7 17 15 15 11 26
930.2 930.5
1.81 76 6% 1.01 68 ER
lAEtO1 l&Et02
222313 25 %lb*O 41
634.0 19&o
17 15
I-
~~
26 FE 5% CE 30 2% 81 TL 66 BY 40 ZR 68 ER 15 P M ED 27 CO
238.9
8
613.9
40 26 62 %H 56 CE 36 -- KR 27 C6 b4 ED 39 Y 41 15 ttB P
lt9E-01 5StO3 bJE-01 2.5E+Ol -.--_-_ 3JEtOl 4.9Eto4 ME400 1JEtOO 1.8E-01
1136 54 XE
215EtOl
TWilMHILWS 11 ll% x Peu
933@7 941.3 943,3 943.8 .-.944~0 944.0 944~4 94446 945,2 958.9
37426 1.42 16.43 5.40 _. 2.21 1osb 1.80 1.88 ltl3
ELEMENT 2 SY SI6 BnRNs
a0 773,9 22 73 61%,929 15 284.1 12 14 627.5 12 la 1097.0 l2 11 47541 7 16 71b2,7 13 11 195.6 6 25 b34*0 17 27 2960.0 6
JdEtO3 l+lEtOO 3,lEtO% iJEt
23 U 5.OEtOO 28 WI 42 I 3% SR 6% E% 4 %E 62 SN 21 6C ba EB 60 N%
and Explanation
9.83 2.34 2.56 5.47 1.70 1.47 1.34
3tbE-02 5JEtOl b,lEtOO 2JE-01 1.5Etol 1.9E-01 6.3E-01
1zc
:A ti !I MM 100b.b 1*41 59 P% MEto
1007,4 1016.1 lOlba5 1019.0 102019 1030,a 1031.5 1032.4 1040*0 1043.5
17
#3$j, Wi.8 ---.230.2 118b.5 6079.8 3900.3 254.7
g 8 47 54 84 1213.2 -. -__-.- 37 _. 26 q7g.j 8 11 77 jb’ 6.6 30 25 lb 2$9 ‘Tj 1;
bb8,9 60
2032e5 697.3 1381.5 7723.9 22222;
250::
f
b294.4
569
773:9 22 33 11 54 37 6 43 11
69 1052.7 5 73 18.9 29 69 c 4.; ? 27 $j :o 17
334:% 96
‘1:
:#H :: 177.2 11
&8 141.3
:: :i’ 4
2,80 3.20 9.00 2.47 1.33 3.02 4+96 1.37 4.20 1.17
30 36 10 26 57 37 54 15 56 35
Zn KR HE FE U RB XE P M BR
LlEtOO 2StOl 3.8E-02 2tbEtO6 PtlE+OO 3JE-01 2,5EtOl lbuE-01 1JEtoo b*%EtOO
1077.6 1.30 1080*3 2.81 1064.4 1.53 1086.4 1.19 1087.9 I#,00 lOW.5 1.53 1091.2 3180 1096,4 1.84 1037.0 11.94 1098.9 1.64 1100*7 be19
36 72 21 19 6 21 42 b4 49 54 32
w HF aC K 0 6C 111 6D IN XE 66
2,5EtOl 861.8 84 1213.2 37 l.aEtO2 2,7EtOl 211E+OO 2.7E-04 2JEtOl 295mb 21 2, B tO0 118b:5 f2$; g11 P .8 15 4. to4 1.9EtO2 2StOl ‘29$ . g 2 !73 E .9 ::22 2.3EtOO 3026.0 39 596.4 33
8
54o:o0 214 540.0 1186.5 334.8 1186.5 334.8 #q * 1124~1 1124.5
l&O 54 XE 2,5EtOl 2.20 36 XR 2StOl
55 11 10 11 96 11 96 B
R! s 475.1 6 p44.0 11 439.7 54 944.0 11 439.7 54 gpf 25: *
668.9 80 773.9 22 881.8 64 121362 37
520
M.
A.
LONE,
R. A. LEAVITT,
and D.
TABLE
A. HARRISON
Prompty’s from Thermal-Neutron Capture
I. Y-Rays Ordered by Energy
See page 513 for Policies and Explanation GnuM RAY
ELEAKl
z SY
SIG BMNG
kiu : 1127.8 2,83 46 PD bepEW Mt 1132.5 1138.0 1138,b 1139,s 1140.6 1141.0 1142.4
!I:#
13I!!
1.15 ltlb 3.04 1.53 1.42 1.51
60 8B 29 W 54 XE 31M 58 CE b4 GD
3176 40 2R
1.76 64 8B it87 20 CA k i!
#f
Y8GMJJBLIWES 11 k: z kEvu ‘22
4dE-01 3 $8b 9#!:39 !! wEtO
2R,9 R 1950.9 22 6110.9 20 1950.9 22 6110.9 20 228.6 52 295.6 21 334.8
bJE-01 l%! 1173.0 2.24 54 XE 1175,4 1.95 72 tF 1175.7 1.20 76 08 lktO1
:*El
1186.4 19.67 118110 it16 K!! 1186.5 1018364 8D 1186.7 2.11 39 Y 1186.8 52.20 18 AR 1189.0 1.05 28 nr 1194.2 1881 62 BK
‘da!
bb8,9
96
43917 54
G lzk54 ? Bo
23
:
334:8 96
414EtOO s,mO3
'%E *
10 ii
1199.2 2.16 35 BR 6.GEtGG 245.7 11 195.6 6 1200,b 2.34 46 PD 6*9Etoo blSt9 8 717~3 8 1200.9 3.69 42 M 2JEtoO 778.3 37 848.8 15 164.6 17 1534e3 7 1201.4 l*IS 33 As 49*EF 214.9 10 261.1 b t&f w ii R” 3:4E td sbhs 3 348‘7 3 ::=Eg&I
bii:Q
!Y
773.9 22 325.8 b #ki
1.30 21 SC 3.87 72 H
M:il
M
2mOl ldEtO2
6, -01 2.1 5: too 'PO? 2.6EtOG 763111 1261.3 1.28 54 KE 2.SEtOl 668.9 1261.7 29,53 6 C 3x-03 4945.3 ion,4 1262.1 1.95 30 ZK 1262,6 I$ *8 8 l267:4
-334.8
4*09 58 CE pg ; #
1276.6 1278*2
2223.3 2s
2.14 57 LA 2.51 68 ER
1308.3 1.23 57 LA 1303.6 1.47 72H
439.7
54
b&o
17
3B 770:: ,l b8 ‘;: 493414 207& :’63 1596.2 15 218.2 11 816.0 41 198.0 15
1s:~ :: H
1283.3 1.77 48 CD 1291.3 6.88 54 KE 1293.3 12n76SO9N 12936417.59 49 IU 1293.7 7,40 62 W 1297.8 11.92 54 KE 1301,b 1~38 28 WI HE:“6 ::I! # “1 1304,6 1.27 37 BB
19 7863.3 11
568.1 81 1693.9 14 1186,s 11 9uro 11
1:U 71 OS 1268.5 1.34 19 K W:d
3: 29 80 68 96
2.5EtO3 2,SEtOl :*zz sktO3 2sEuil 4AE+OO 2.SEM3 2JE400 3JE-01 9JEtOO
l.GEtD2
558.6 73 651.3 14
668.9 80 773.9 22 1171,3 8 1229.5 7 1097.0 12 21 d9.4 2.1 ll 333.4 w 56 668,9 80 773.9 22 8998.8 3G 8533.4 17 ?3ti 5: 2%! 556.8 10 476.0
f"i 3
15 2l8.2 11 214.0 55 325.8 b
1596.2
350.3 bi
s
f
ii!:9 8 668.9 80
!&I ‘3 773.9 22
1.56 1.09 1.33 2,71
15 P l.GE-01 3900.3 lb 2154.2 15 21 Gc 2JEto1 :: 76 OS l.SEtOl mm3:63 H ml 64 8B 4,9Eto4 1186.5 11 944.0 11 bJE-01 X54,8 96 439.7 5) E iFi 2,SEtOl 881,B 84 1213.2 37
:‘;,
m88 2sEtol
228.6 52 295.6 ton.4 19 7863.3
1334.7 134&S M;f 1352.9 1354~0
21 11
533:t # et % 816.0 41 198.0 15 167.3 80 474.0 55
:ia! 176 13b4,l 1364.2
i377,l 1379.4
ii03
138843
3.05 2ocb
boo’s”
;
z*;
;
bl
3900:3 b@$ g lb 2lS4.2 77!;; 815 Ml844 30 Ml,7 26 \94& 3 M3409j g
1396.6 1.26 108E 139983 3.17 48 CD 1400.2 1.06 23 V I,11 37 w 1404.6 7695 40 Z8 1407.6 lt23 80 KG 1408.9 leO8 13Iy 1413.1 14.04 15 P 1414~1 3,92 60 ND
29 7645.5 24 18 7l62.7 13 77 350.3 61 73 65183 14
77O:a 51 2073:7 11
bo UD
l404,2
7631.1 6517.2 203St4 X&b
SS8:b 73
MEtOO 3JE-01 1.9E-01 3.8EtO2 2JE-01 l.BE-01 S,lEtOl
651.3 14
bSl7,2 18 7162.7 13 556.8 10 476.0 3 933.7
37 6294.4
697.3
73
17
368.1 81 1693t9 14 7723.9 27 2960.0 8 39OG13lb 2lS4.2 15
143513 14toS 56 )A 1JEtGO 627,s 12 1442.1 1.13 38 GB 1*2EtOO 183b*l 58 144488 2.94 56 M lZtO0 1435.3 14 lU7,S 1alO 57 U 9,lEfOO 1596.2 1S
228:b 52 214.0 55
f! s= 1260.6 2.57 26 fE
*; 77
618.9 29
$’
12l3,2 37,OO36 KR 2,SEtOl 881.8 84 2.05 38 RR 1*2EtOO 2.15 80 HB 3.8EtO2 ‘W B
1218,s 1225.7 122G,o 1228.9
1330.3
k:: 2035.4
PI
1.60 54 XE 1380.6 1.98 1s P 1381.5 69.08 22 11
776,8 30 4745.0 55
6b8,9 80 214.0 55
1326.2
N8MJlRLIlEs
19
12.08 54 #
39
ii
SIG MRUS
: 1.20 10 WE 3.8E-02
1369,s 1.17 39 Y 1371.4 1179 58 CE 1373.1 lS7 19 K
944.0 11 199:)
2*SEtol lnOEtO2
d
773.9 22 6 b&o 17
214,O 55 32Sr8
439EtO4
lJEtO0 698E-01
z SY
615,9 8 71743 8
k&Ii 8kb !I ml ii 1.9E-01 933.7 37 6294.4 17 SJEtOl 697.3 73 618.9 29 3.8Et8D 278t3 33 7914.5 31 2.SEt81 a.9 80 773.9 22 2tPEtOD 63bOtO13 691.7 11 bJE-01 334.8 96 439.7 54 4.9EtO4 1186.5 11 944.0 11 4,9EtO4 1186,s 11 94&o 11 1942‘0 73 Ml9.9 39
1.30 17 CL 3JEtOl a93 17 a 3JEto1 @#
Gmn RnY
4095.6 11 898.0 28 627.5 12 218.2 11
l479,4 1.57 19 K 2tlEtOG 770.3 31 2073.7 11 1481.9 1.58 bDND %lEtOl 697.3 73 618.9 29 1484.8 2.86 54 XE 2*SEtOl 668.9 Go 773.9 22 SS8.b 73 bSl.3 14 1489.4 1.86 48CB :*Yi 2. too %: 3 iii:3 H bJEtO0 b44$ g 2.SEtGl 3’,5 1 1.78 49 8 12931418 1 ::j H 1.26 32 iE P 2a93 27 CG Cf z 277:4 20 b&9 80 773.9 22 3.28 548
l!i
1534.3 1535.2 15&S 1548.0 1549.5 1552Il 1553.4 tw 1565.3 1566.6 1571.4
7.18 la26 lt2G lt90 3blb
4JEtoo 164.6 17 1,2EtGO 183&i E 2,SEtOl 14 ‘3 14 123m 2%b S2 6360.0 13 3.76 31 M 2e9Etw 1.28 22 11 6.1EtOG 138l.s 69 4.30 1.12 Ex! s%m %:? i8 1846 19 K 2.lEtOO 770.3 Sl 1.34 42 MU 2.7Et00 778.3 37 7.27 GO118 3.GEtD2 368.1 81
33 A5 3GGR 36 KG 56M 21 GC
471.9 4 898.0 28 1213.2 37 %"6
ii
691.7 11 M18:; ii % .9 22 2073.7 11 848.8 15 169369 14
M. A. LONE,
R. A. LEAVITT,
Prompt
and D. A. WARRISON
y’s from
Thermal-Neutron
521
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
- Y2 kEeV
ELEHEHT 2 SY SI6
1572.6 1.71 46 PD 6.9Etoo 1572.7 3.36 21 SC 157305 1.74 46 P6 bz:2% IJEt 4,7EtOO 1590,o 1.00 13 Al 1596.2 15.36 57 IA 1598.2 1.28 54 XE 1600.6 4,16 17CL 1612.7 6.00 26 R Ml !m 1617.4 2.40 1617.9 6.02 161813 1.92 1618.3 2.01 1616.5 8.16
1618.6
B !I 54 XE 40 ZR 41 NB 30 M 19 K
1.49 46 PD
1618.6 8,OO 56 M 1618.6 1618.7 MI:!
1J6 :z I,41 1619:6 1,73 3.64 EP * 1,64 1622.5 1624.0 1628.5 1629.9 1632.3 1632.8 1633.3 1633.9 1634.4 1637,4
7v:3” % 141.3 4 274b.9 3
b!M 30’ 63:#8i 2JE-01 9vlEtOO 2*5Etoi bllOa9 20 3AEtOl 2*bEtOo 7631,1 29 7645.5 24 PI&77 :: =:w 773t9 22 2aEtOl 1.9E-01 1.2Etoo 254,7 25 6iz ‘: 7863:3 11 lJEM0 4: 2073.7 11 2elEtOO ‘% 619Etoo 61519 8 717.3 8 IJEt 14351314 627.5 12 L9EtOl 199.3 56 6190.2 5 133,6 8 442.9 4 bJEtO0
2:#8? i!k: 1s 52 TE 4JEtOO bO3.1 9 32 8E 213Etoo 3028.0 39 ib4.b 17 33 6s 44 RU 540.0 11 45 Rtl 217.2 9
R:49 18 2746~9 3 596.4 33 1534.3
7
2b7e6
3
475.1 7
- Y2
YFL11E9
ktE 1724.0 1725.0 1725,l 1725.5 1734.2
ZSY 8MW8 616 k% 2 B f 2.91 20 CA 4JE-O’ 1942.0 73 6419.9 39
:w :! 1747.0 1747.2 1748.9 1750,o
!:I# 3.31 1.08 2.10 3‘01
1752.8 1757.6
i:;
17bOJ 1760.2 1761.9 1764.4 1770.7 1775.0 1777.8 1783.8
iti! 3# 1.36 41 wb 3*89 15 P
D i!i 25 RI 10 IIE 11nn 12is
A # 15 P 1:OO bbw 5a64 22 11 3.00 14ss 1.76 4600 ::E 5107 23 V
I* IH-O 9:3&
l381.5 69 6418t4 iYE E 2:5Eta l&-O1 3533; 3539:1 g68 4;w# 934:4 5,oEtQo 6517~216 t 162~7B
1803.7 1802.1 1.32 1.98 78 27 PT Co l,OEtOl 3JEtOl
78 PT l.OEtOl 356,l 26 333.3 16 7 N 7X-02 5269.2 30 1884.8 22 7 N 7.5E-02 5269,2 30 1884.6 22 15 P 1.8E-01 39001316 2154.2 15
1888.8 2.48 31 8h 2,9EtOO 1889.3 1.97 37 RB 3JE-Ol 1889~6 2.27 11 I# 4. 5 -01 1890,O 1.16 27 CO 3. tO1 1890*0 6.W 15 P l,SE-Ol 1890.1 2.24 54 XE 2.5EtOl 1890.2 8.65 12 118 beI -02 1890.4 1183 40 ZR I, -01 1891.3 1.67 56 M ME400 1897.5 1.92 10NE 3tSE-02
:a
3,03 21 6c
1.08 70 YB
1878,7 1.10 36 KU 1880.2 1.41 20 CA Ml,5 I.40 18 AR 1881.6 1.16 38 SR 1883,9 6.79 30 M 1884,8 21162 7 N
1676.8 1.02 1678e3 7.36 1661.4 1.62 1688.2 2Jb 1690,l 7@7712116 6JE-02 39161749 169113 1.97 20 CA 4*3E-01 194&I 52 1692.0 4.65 21 SC 2JEtOl 1693.9 14*13 80 IiS 3.8EtO2 368:l 81 1693.9 1.02 23 V 54Etoo 6517.2 18 1694.8 1.25 24 CR 3*lEtOO 8884.1 27 1701.5 1.82 44 RU
540.0 11 1942.0 73 770*3 51 26.6 18 1201.6 12 334.8 96 3916.7 49 bJE-02 l&f I M#84 3JEtO2 368.1 61 4.3E-01 2JEtOO iJEt 9,9EtOl 6.3E-01
1720,6 1.39 72 HF l&Et02 1721.6 1.59 52 TE 4.7EtOO
341.9
7
2828,’ 43 b4&
;f
59661214 7162.7 13
835.1 27 475.1 7
6419.9 39
2073,7 11 7243.8 12 214.9 10 439a754 2828.1 43 la:% li 1693.9 14
214.0 55 325.8 b 603.1 9 W46.9 3
3dlE-02 20351477 4.X-01 1942.0 73 2dEtOO 540.0 11 bdE-01 167.3 80 3t7EtOl 230.2 26 1,2EtOO 143&: g
1853,3 1.31 27 C6 3.7EtOl 1857.3
22
E
ge:
E
350.3 61 b419t9 39 ,475tl 7 4745.0 55 277b420 b2&; ;:
1839.7 2.19 31 66 2,9EtOO 636O:O13 b91:7 11 1842.1 1,21 22 TI 6,lEtOO 1381.5 69 Wl8r4 30 1847,7 3.38 40 n 1.9E-01 933.7 37 6294,4 17 :i#:d’
241.6
ge;
1804,2 3.92 54 XE 21 to1 b68:o 80 7731922 1808,9 29t97 12 N6 6,if -02 3916t7 49 28284143 1812.8 I,51 21 SC 2.7Et01 226.6 52 295tb 21 1821,6 2.04 10 ME 1825.8 2.13 20 CA 1827,3 It55 44 Ru 1828.8 1.00 18AR 1831.0 6,21 27 Co 1836.1 1835,o 57,79 1.60 38 56 SR Sa
3.7Etol
R:! 8 !i%:lH 1851721 ‘538t4 7
6.07 24 CR 3.lEtOO 8884.1 27 83581 27
19 3 8
166462 1:92 1671.7 2.67 1,32 %*3 I,26 1474:1 3,55 1674,2 1.93
a!:3 33 26.6 16 2035.4 77 472.4 60 6.3E-02 3916.7 49 2828.1 43 1*9EtO2 1293.4 16 1097.0
2.3E-01 7723.9 27 29&O 8 2eXt01 668.9 60 773.9 22 2&00 540.0 11 47581 7 ME-01 390$; ;; 2154.2 15 6294.4 17 1.9E-01 bZ-02 3916:7 49 lL?EtOO 14351314 %?: 2 1*9EtOl lW*3 56 6190:2 5 4.w01 472.4 60 b395B422 2,5EtOl b68.9 60 7731922 40 ZR ls9E-01 93387 37 6294.4 17 4.3E-01 1942,O73 6419a939 2sEto3 556&b73 651.3 14 23 V 5.OEtOO 6517,2 16 716287 13 1942.0 73 6419.9 39 20 CA 4x-01 b97,3 73 618.9 29 60 IID WEtO 29 w 3mOO 278,3 33 7914.5 31 1s P 1.8E-01 3900*3 16 2154*2 15 30 UI l*lEtOO 1077.4 19 7863*3 11
3435 13 AL 2.00 54 XE 5.88 44RU 2.81 15 P 2.31 40 ZR 5SO 12HS 2.48 56 Bn lrl0 74 Y 7.45 11Iin 1.84 54 XE
1642.6 1.88
1675.1
Tw Y ‘lF 12 k% 2 keV 2 625.9 8 717,3 6
B ti
ml 2JEtOl
215EtQl 4JE-01 bt6-01 IJEt 1,lEtOO 7.5E-02
230~2 26 277a420 It&% !! 63:! 5i 226.6 52 295.6 21 Ml.8 64 :1213t2 37 1942.0 73 ‘64198939 167.3 SO :4745+055 1836tl 58 898.0 28 1077.4 19 ‘3863.3 11 5269t2 38 ‘5298.0 21 636otO 13 691,7 11 556.8 10 476.0 3 3900:3 g’2 16 g lg.: ~2l54:2g15 MB.9 80 773.9 22 3916.7
49 1282g.i 43
933,7 37 ~6294.417 1435.3 14 627r5 12 2035.4 77 350.3 61
1897.6 1898.4 1898.5 1900,4 1913,9 1915,2 1918.2
8.10 36 KR 2aEtO1 Mb6 84 1213e237 1.98 56M l&t00 1435.3 14 627.5 12 4.27 24 CR 3dEt60 8884.1 W 835.1 27 1.49 21 SC 1.20 10 HE 2m s: i!iJ iI 16 5’243.6 12 hi:: 9 2746.9 3 ii ~a!:3 11 m:31 fM 1930.5 2035.4 77 35Ot3 61 193117 8A 219EtOO 1932.2 1.38 1.19 31 11HA 4dE-01 vi;:
K&R::
::
522
M. A. LONE, R. A. LEAVI’IT,
aud D. A. HARRISON
TABLE
Prompt y’s from Thermal-Neutron
I. Y-Rays Ordered by Energy
See Page 513 for Policies WINA RAY kL 194015
TWOIMRLIWES z SY
SI6 8ARNs
2.02 32 BE
2JEtOO
:
:%t::g 7M !dd 1945.9 1.28 54 XE
1949.0 1949.9 1950.3 195069 1953.2 19JJ.7 1956.7 ;y.i
kit!
‘:
3028.0 39
kZ
‘r2
596.4 33
80 773.9 22 60 6395.4 22
13 8533.4 58 691.7 11 17 20 llMI7 20 ; 7g; g *
2.29 :.g
19 'K 10 ME
2.lEtOO 3.85-02
770.3 51 2073.7 11 2035.4 77 3SO.3 61
&:e lh 1959.1 14.62 1961.0 1.20
ti P 17 Cl 36 KR
km IJEt 2AEtOl
tit!:! !I #!:a B 1950,9 22 611019 20 88198 84 1213.2 37
ma 2*sEtOl l.OEtOl
&!:24
Mu 1975.1 1978.7
f:B 4 fi 1.04 54 XE lJ6 78 PT
1979.3 1979.5 1982.4 1983.7 1987.4
4490 9660 1.87 labs 2.56 1987.6 2~74 1988.0 2.34 19R8,9 1.03 1994,7 2t5S 1999.7 4,lb
36 10 12 11 54 25 40 7 24 7
KR HE MR IIA XE RN ZR N CR N
2JEtOl 3.8E-02
1999.8 2000.8 2001.9 2002.4
1.08 15 P 9,97 20 CA 1,20 7 N 7,02 80 MS
1.8E-01 4JE-01 7.X-02 3dEtO2
2006.1 2007.6 2009,2 2009~9 2015.2
2,43 la97 7,48 1.52 1.67
f8
bR24
SC K 2.7EtOl 2,lEtOO CA 4.3E-01 I#) 2.7EtOO GA 2.9EtOO 201615 3.36 25 MN lJEtO1
ktvE 2100.5
NH 2111~4
35601 28
333t3
2154a2 Ml919 1884.8 169319
15 39 22 14
R 0:t 1942.0 778.3 b3b0.0 26,b
5q 28276 73 6419.9 37 848B8 13 691.7 18 7243.8
f: 39 15 11 12
SIB 8ARNs
1.05 23 U
TM0 IWRLIlEs 11 E2 k5: Z keU 6517.2
:;aBf
18 7162.7
I2 Z 13
7%79 B KM ‘I 228,b 52 295.6 21 1836.1 58 8w.o 28
21 SC 38 SR 49 IN 50911 15 P iii
472.4 60 6395.4 22 b360.0 13 69187 11 W:! ii m1 8 472,4 60 6395.4 22 7723.9 27 2960.0 8
1.75 13 AL ::#I #id 1.10 19 K 15.23 15 P
lb
lb '73 30 81
z SY
2123,E 212&*1
fi
3900.3 1942,O 5269.2 368.1
:
2.71 1.28 2::: *: 10.71 3 11217 1.50 2114.3 6.94 2118.4 2121.5 :':6
668.9 80 773.9 22
881.8 84 1213,2 37 2035*4 77 2bSO.3 61 bJE-02 5916.7 49 $1 43 I,OE-Ol 472.4 60 b395a4 22 2.SE+ol 668.9 80 773.9 22 1.3EtOl 26.6 18 7243.8 12 1.9E-01 933.7 37 6294,4 17 7.SE-02 5269.2 30 1884.8 22 3JEtOO 8884.1 27 835.1 27 7AE-02 5269.2 30 1884,8 22
211 20 42 31
and Explanation 6nNM RAY
it fRi ts :s8 ilk39
2stO1 668.9 2.00 11 WA 4dE-01 472,4 1.06 31 M 2.9EtOO W.8 0 1.35 28 WI 4*4EtOO 21,72 17 # 3JEtOl &110,9 1.77 23 V fss7v; 1.17 38 SR :*iE t *
Capture
#:oz # MI3 770.3 51 2073.7 390013 lb 1413.1
2157.4 3+&2 7 N 7sE-02 2159.6 3.50 36 KR 2aEtOl 2170.8
2,08 54 XE 2172.6 2.59 15 P 2174.7 2.63 7 N 217&e& 1.83 25 NH 2179.0 1.14 50 SN 2184*5 82.00 8 0 2191.4 2.07 40 ZR 2197.7 2.19 11 lh
2sEt01 l&-O1 7.sE-02 lJEtO1 bJE-01
2200,2 2203,4 2203,b 2205.5 2209.6 2211.3 2212.9 2213.3 2214.0 222060
2*sEtOl MEtoO 3.8E-02 2.lEtOO 2JEtOl lJEtO1 l.lEtOO l.pE-01 3dEtO2 lJEtO0
1.30 1.44 6.84 It10 MO 1.62 3.S4 1.33 1.20 2,20
2223.3 25.02
36 i(R 38 SR 10 ME 19 K 54 XE 25 1QI 30 2N 40 2u 80 N8 56 M
ml 4k-01
76 OS 1StOl
M 11 14
5269.2 30 1884.8 22 8&lj
fi
‘j&f
g
3900:3 5269.2
lb 21s4:2 15
881.8 1836.1 2035.4 770.3
84 1213,2 37 98 898.0 28 77 350.3 61 51 2073.7 11
2: 1077.4 933,7 36861 1435.3
!I 19 37 81 14
731 7863.3 b294,4 1693.9 627.5
3 11 17 14 12
634.0
17
187.3
15
27 835.1 27 29 ~0 14 &I? es lb 2154.2 lb 2154.2
27 8 12 15 15
30 26.6 18 1293.3 13 870.9 100 933.7 37 472.4 60
1884.8 7243.8 1171.3 1087.9 6294.4 b395,4
22 12 8 82 17 22
sHw!9! Sill! fS&&i It00 19 K
3s39,J68 493494 63 668.9 80 773,9 22
980.7 10 1052.7 23002 26 277.4 390013 lb 2154.2 2035.4 2039.2
76.80 10 HE 3X-02 1.18 52 YE 4mQo l 4:19 48 i*B 12 6: m6 2.46 25NN :% 3:w 1.25
!.! T: 12 a 11 M
297 : 629414 1#
fb.# 3! mf 2:lEtO0 bJEtO0
bt3E-02
4eOE-01
2458.7 206283 2062.5
1.16 21 SC 2JEtOl 228.6 52 ,3.71 7 N 7tSE-02 5269.2 30 1.03 31 61\ 2*9EtOO 63bO1013 1. tO1 26.6 l8 $&ii ::I! w w 356.1 28 1, I 401 2Ob9e2 1.60 19 K 2,lEtOO 770.3 51 207317 10.75 19 K 2,lEtOO 770.3 51 4. -01 N:4 kc 8 ii 1, =Eto1 19126:06 ii 2092.9 21.52 14 51 l&-o1 3539.1 68 209462 2094.8
2.22 20 CA 4r3E-01 1.52 54 XE 2SfOl
5 20 15
194&; t
;
2828.1
43
ii% 641814 2828.1 b39%4
:: 30 43 22
295.6 1884.8 691.7 7243, 333. !I 2073.7
21 22 11 12
lb
11
5580.6 9 m38 H
2233.2 223582 2238.9 2240.7 2241.1 2244.6
1.60 8,32 3.04 8.91 1.45 2250,b 1,13
2254.1 22s4.5 #ii:3 2269.6 2271.9 2272.0 227615 2282.3 2282*9
m 2308,b
14 24 13 56 15 15
SI lkO1 CR Y 32’iP-t Bn 1:2EtOo P l&-O1 P 1 BE-01
5.33 sb Y 12.56 39 Y ::I 1.00 1.80 1.51 2,lO 1.40 2,93 l&o 3.81
ii 04' 31 u 80 H6 13 # 38 SR 17 a 13 AL 3OM 19 K
64$99 8
g
2329.0 2329,3
1435.3 14 6079.8 77 3m:pJ i3biro 368,l 7723.9 1836.1 1950.9 7723.9
1.10 40 W 1.05 39 Y
:t 13 8’ 27 58 22 27
627.5 12 776.8
30
ma M 691.7 11 1693.9 14 2960.0 8 898.0 28 6110.9 20 2960.0 8
l,lE+OO
:mi 4.X-01
51 2073t7 11 73 b419.9 39 18 7243.8 12 lb 2154.2 15 81 1693.9 14 73 b419.9 39 flati # a3 8 1942.0 73 b419.9 39
l,pE-Ol IJEt
933.7 37 6294.4 17 6079.0 77 776.8 30
wi :s isi hEi 1:59 1s P l&-O1 1.12 80 HR 3.mO2 4.3E-01
4934.4 63
8W.l 7723.9 1435.3 3900.3 3900.3
770,3 1942.0 26.6 3900.3 368.1 1942.0
M. A. LONE, R. A. LEAVITT,
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
523
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
295.6 21
5420.5 59 2Q73J 11 214.9 10 2391.4
2.63 38sR
245248 10.23 9 F 2455.8 4,12 48 CD 2457.9 1.67 38 SR 2458.9 3.93 79 Au 2469.6 1.14 78 PT 2474.6 1.01 31 6A 2477.4 1,25 21 SC 2490 7 2171 2490:8 1 10 16 18 1IR S 2517,b
1*2EtOO 4toE-01 2*7Etol 4.OE-01 2JEtOO 1,lEtOO 1s-01 l.bE-01 1,9E-01 3,8E-02
183661 472.4 228.6 472.4 no,3 1077.4 g*:
9SE-03 2.5EtO3 1,2EtOO 9,9EtOl l&Et01 2.9EtOO 2.7EtOl 5.2E-Oi 6X-O
582*2 558.6 183611 1201.8 356.1 63bO.O 228.6 841.1 167+3
14,78 11 WII 4.OE-01
2519.0 25f 9.1 25 .b 2521.8 2528.1 2539,2 2541.0 2545,9 2546.5 25&l
1.02 2.08 6.78 1.09 8.45 1.52 2.24 2.75 1.95 1.46
40 54 7 25 9 54 12 19 39 48
ZR XE N I# F XE 116 K Y CD
2554.1
1,30 28 NI
E 2:; 1:11 20 cn 2.04 19 K
2632.1
:*cl 5:38
i! 'Lil 9 F
2635.6 2639.2 2639.3
ii
13 358913 11 73 Ml.3 14 58 898.0 28 12 214.9 10 28 333.3 lb 13 691.7 11 52 29586 21 80 5420:s 76 4745 0 395
M:i 2700.8 2703.4 27Q9J
I:# ltll 2.48 1.83 1.67 1.04 1.25 2.60 le87 Se83 1.94 1.40 1.14 1.31
2l s 48 CD bbw 40 ZR
2721,3 2726.4 2733tb 2746.9 2748.9 2753t2 2756.8 27bOe9 27b5,3 2767.3
2768.8 1.40 2771,8 8.60 2781,5 2.17 27 1.7 27! 4,2 2M ltl0 iii!:: 1*02
26 19 bb 52 39 lb 19 36 57 48
CR 3olEtOO KR
a
F ZR
3bKR 18 #( 14 SI
27 84 22 13 37
as
a
835.1
a:!
27
ti
2sEtDl bt8E-01 l&o1
7631.1 770.3 185.7 603.1 6079.8
29 7645.5 24 51 2073.7 11 21 ‘B8.4 7 9 723.2 2 77 776.8 30
~~4: 881:8 1596,2 558.6
;: F E’: E 84 213:2 37 15 218.2 11 73 651.3 14
88lt8 84 1213,2 37 167.3 80 3539.1 68 mt 3
:o"iE 36s~: 19 K 2,lEtOO 58 CE bJE-01 Em 6,8E-01
6294.4 773.9 1884.8 7243.8 3589e3 773.9 282811 2073.7 776.8 651.3
17 i?2 22 12 11 22 43 11 30 14
2811.0 3.31 20 CA 2819.4 1,08 10 NE 2821,4 2~94 13 AL 2824.9 1.02 90 TH 2828.1 42.51 12 116 2831,l 2.15 7 N 2837,3 1.10 36 KR 2839.9 1.85 19 K 28i2tO 1113 28 NI 2842.8 1,97 79 Au
4JE-01 3*p2 2. -01 7moo bJE-02 7dE-02 2sEtol 2,lEtOO 4moo 9*9Etol
1942,O 73
4.4EtOO
8998a8 38 8533.4
17
2845*5
3Ztol
mot9
22 bllOt9
20
2920.2 1.29 80 it8 3.8EtO2 2929*5 2Ao 54xE 2sEtol 293111 22.34 lb S 5.2E-01 2944.5 la03 22 TI belEt 2948e5 1Jb bb DY 9.3Et42 29bo.Q 7.99 13 AL 2AEdl 29b3ab 1.56 12 I 2974.6 1.35 17 a 2975.7 l*oo 56 BA 2977.1 1.28 54 XE
36861 b&9 Ml.1 1381.5 185.7 7723t9 3916.7 195489 14s; *
81 80 76 69 21 27 49 22 ;
lb93,9 773.9 ~5420.5 b418r4 538.4 : 3033.9 2828.1 ~bllOt9 b&7.; ,
14 22 59 30 7 7 43 20 g
228.6 52 295.6 21 770.3 51 2673.7 ii 1435.3 14 627.5 12
2978.5 2982.4 2994.7
1.00 3.18 lel2
19 K 11 M 17 a
2,lEtDO 4.OE-01 3.3Etol
770.3 51 2073.7 472.4 19sor9 22 bqb395.4 bllO.9
11 22 20
1RQ !4 %8 M 3473.0 4 3916.4 2 gb*; \$ 2154.2 15
#!A! 3012.3 3015.9 ##;~ 3022.3 3026.2 3027.0
f:# 1.43 1.08 f;# 1.59 3.46 2.53
a P 21 SC 17 a 5s’ CE’ 24 CR
MM 2t7EtOl 3JEtol %;g$ 3tlEtOO
1m 228,b 1950.9 j&f 8884:l
iii ~ w 52; 295.6 22 6110.9 # ~ gf*j 27 835:l
ti 21 20 4 27
11 W 22 TI
4.E-01 belEt
1%::
it'
iii
9sE-03 2JEtol
37 80 30 18 13 80 49 51 7? 73
8884.1 881.8 1mt9 582.2 933.7
iii*: 3: 'tit3 ': 933:7 37 b294:4 17
FE 2dEtOO K PalEtOO DY 9JEtO2 TE 4JEtOO Y lJEtO0 S X!GOl K 2.15kto0 KR 2, tO1 LA 9,lEtOO CD 2.5EtO3
472.4 bQ 6395.4 22
p72.;
iI g
4m 299,;
z4 ;
881:8 241.8 3900.3 680984 772389 1201.8 143583 472.4 582.2 8884.1 1942.0 770.3 167.3 770*3 582.2
84 22 lb M 27 12 14 M 13 27 73 51 80 51 13
1213:2 34la9 2154.2 3367.6 29bQeQ 214.9 627.5 6395.4 3589.3 835.1 b419.9 2073~7 4745,O 2073*7 3589,3
37 7 15 34 8 10 12 22 11 27 39 11 55 11 11
558:b 73 YP r,S 1942.0 73 Ml919 : 3b 9 F 1,b8 42 Ml
22 11 11 15 63
24 36 17 9 40
933.7 b&9 5269.2 26.6 582*2 668.9 3916.7 770,3 b#?9,8 558.6
iml 2b53.4 2657.0 2 *b 2H.8 2660.2 2661.7 2663.9
659514 2073*7 7863.3 2154,2 4934,4
1.28 3.0 2.58 7.77 4.75
1,9E-01 hEtO 7.5E-02 lJEtO1 9JE-03 2,5EtOl bJE-02 2JEtOO 1JEtOO 2,5EtO3
1.29 75' AU 1.40 56 BA 1.85 11 m
%*i t
89&o 28 ?a! it
93317 57 2035,4 77 T&5 *
i%%
2593t7 2593.9 2594.1 2bDle9
58 60 52 bo 51 19 #
2b7QJ 2bXL4 2676.0 2682.8 2693.8
9SE-03 2JEtOO
582.2 ?78,3
:3 39
13 3589.3 11 37 848.8 15
1.07
17 a
if!::
524
M. A. LONE, R. A. LEAVITT,
aad D. A. HARRISON
Prompt y’s from Thermal-Neutron
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies
2JE+OO 2rsEtOl 2JE-01 9sE-03 E-Y 2:lE ito l.E-01 3JEtOl 9*5E-03 3082.6 3087.5
1.31 57 LA 1.31 70 n
9,lEtOO 3*7E+ol b.8E-01 6.3E-01
3130.9
w:* W! 3162.7 3185.4 3185.7
2.25 1.13
31 I 12 II6
ii $8
isi # ly
1:n 3.34 3196&S 1.14 3209.4 1.12
15 80 90 12
3213.5 1~32 322008 27.09 3221.5 1.20 3262.5 2.75
11 HA
596.4 33 86804 15 58282 13 3589.3 11 3916.7 49 2828.1 43 3539.1 68 4934,) 63 770.3 51 2073.7 11 3900.3 lb 2154.2 15 1350.9 22 6110.9 20 582*2 13 3989.3 11 15 218t2 11 22 341.9 7 80 4745.0 SS 96 439.7 54 60 6395.4. 22
FE: 881:s b360,O 1950~9
ii 4934B4 63 84 11::23 f :: 13 691.7 11 22 6110.9 20
2,9EtOO
6360.0 3916.7 881.8 3473*0 167~3 607918 3900.3 368.1 347310 3916.7
13 49 84 4 80 77 16 81 4 49
4*oE-O1
472B4 841,l 2035.4 770.3
60 6595.4 22 76 S42OJ 59 77 350.3 61 51 2073.7 11
P 88 YH 116
lb S ME-01
10 ME 3m8E-02 19 K 2JEtOO
ak$ 3:# 21 SE 3267.4 1.49 26 FE 3271.0 18100 8 0 3273.8 5.31 15 P 327518 l/22 bb DY
691,7 2828,l 1213.2 3946#4 4745.0 776.8 2154.2 1693b9 3946.4 2828d
11 43 37 2 95 30 15 14 2 43
BiM SI %:I It 7651.1 29 7615.5 24 87099 100 2184.5 82
3E:;
if
2&:
Y
60 81 77 49 27
6595.4 22 1693.9 14 776*8 30
3279.6 32Wb 3300.9 33Oltl 3303.0
la00 2.98 1.45 8.89 1.11
11 69 39 12 13
W II6 Y f& AL
4.OE-01 J&t02 1JEtOO 6JE-02 2a3E-01
472,4 368tl 6079.8 391697 7723.9
296080
8
t4!s‘:! 3341.7 3365.5 33b7rl
::!I 1822 I,20 1430
it 90 18 36
‘g: lH AR KR
BWJ 7*4EtOO 6rBE-01 2JEtOl
WI !I ia:: 3473BO 4 394bt4
:: 2
33.71 4 BE 5.26 lb S
912E-03 5.Zf-01
6809.4 64 853.5 26 841.1 76 S42O.S 59
3367.6 3370.4
4 plf
::mt
3s& R 1.9 :1
1g
3# :2
%.H B w3 13 1381.5 69 b418.4 30
g i
390013 66819 3473.0 933.7 5269.2 4934.4
1.05 1:04 40 90 ZR TH
3532.1 9.79 y39.i 68;g
36 6190.2 5
90 Ytl 40 zu 22 11 brlEtO0 9 F 4Oow FE 11 Y 4k-01 36 KM 2JEtOl 19 K 9 F 92:m
7 n ;; SI
1:21 22 1F
ME-01 2ziEtOl f:gg lkO1 62:m
582.2 13 398943 11 g88118 84 g 12l3:2 get 37 g 770*3 51 2073.7 582.2 13 3589.3 lb 80 4 37 30 63
2154.2 773.9 394b.4 6294.4 1884.8 2092,9
11 11 15 22 2 17 22 22
5579.0 1.26 23 V 5toEtoo 3579.5 1.50 36KR 2.sEtol
a!:8 3 ml ii 6517.2 18 7162.7 13 881.8 84 1213.2 37
3585.7 2.28 20 CA 4.3E-01 3s8u*o 14.95 11 WA 4dGOl 3589.3 llJ1 9 F 9esE-03 359ltl 4.11 13 # 2JE-01 3607.8 1,23 57 LA 9.lEtOO 3610.2 6134 24 C6 4JE-01 3617.3 1.20 36 KR 2ziEtol 3619~6 1.42 3 CE 6.3E-01 3630.3 3.86 9 F 9BsE-03 3632.8 1.68 70 YB 3.7EtOl
1942,O 472.4 S82.2 7723~9 1596.2 194210 881.8 334.8 982.2 241.8
3641.0 3644*4 3651.2 365210
4.06 1.74 1.82 1.64
56 11 19 59
IA Hn
1.2EtOO 4.OE-01 K 2JEtOO PR iJEt
&!:I 318 ti Ei 3677.8 IS.68 7 8 3680.1 1.79 57 IA .9 32alO 6 C 368 5”3 .2 la03 31 86
b: &a 7.X-02 9,lEtOO
368961
1.70 19 K
2JEtOO
3960.0 3978.7
1.18 19 K 2.lEfQO 1.11 19 K Z,lE+OO
73 60 13 27 15 73 84 96 13 22
6419.9 6395.4 2452.8 2960.0 218.2 6419I9 1213.2 439.7 3s89t3 341.9
39 22 10 8 11 39 37 51 11 7
627.5
12
t!iR: :: 141:3 4 %:1
fi
k!m 770.3 51 207317 11
28286143
167.3 80 47451055
881.8
d339
84 1213.2
37
HM 3373.4 3377.9
1.01 90 lH
7AwO
347Lo
iiR3 3109.1 3411.6
M ni 9 3.54 2s M 1.49 11 IIA
3mf l*EiOl 4.oE-01
vi:! 761 m3 d 26.6 18 724318 12 472.4 60 6395.4 22
341312 34i3.6 ,342016
1.91 26 FE 2hEiOO 6.47 12 116 1.20 56 aR
3916.7 49 2E8.1 43
#k$ 3437.6 3443.5
\:% B R 1.31 40 ZR
3452.6 3465.1
f:#
lWt3 4.17 1.32 1.75 7.33 1.03 1.97 JJO 1.11 2,62
84 19 r9 80 27 2960.0 773.9 228
1596.2 241.8 167.3 334,8 472.4
:*Ez 2: to3 2. !E Ml 2.9EtOO 3‘3EtOl
and Explanation
#
mt 8 691.7 11 4 3946.4 2
1.79 31 8A 2.9EtOO b360.0 13
‘E $5 1:3 w TH 2.00 18 WI I.77 6.16
19 K 13 #
7631.1 29 7645.5 24 881.8
84 1233.2 37
9,3EtO2 7*4Etoo 6.8E-01
NM 933.7 6809.4 185,7 3473.0 167.3
21lEtO0 2dE-01
770.3 51 2073.7 7723.9 27 2960.0
-- _-
2l 37 64 21 4 80
%akt d 6294.4 17 3367.6 34 538.4 7 3946.4 2 4745.0 55 11 8
770.3 51 2073.7 770.3 51 2073.7
11 11
M. A. LONE,
R. A. LEAVITT,
525
Prompt y’s from Thermal-Neutron Capture
and D. A. HARRISON
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
GnNNn RAY d"
I
ELEHEMT 2 SY SIG BMNS
TM0 MJM LINES 11 E2 12 l3 r beu 3 4671.3 13.80 15 P lr8E-01 3wo.3 16 2154‘2 15 4675.4 2.99 80 NE 31 to2 3681 81 ‘169 49 14 4684.3 le41 74 Y l,&Ol lW93356 619i t2 5
4687r6 l*ll
4690.7 469212
410617 5.77 4117.3 2.39 4124,2 1,12 4127.2 3.11 4133.3 4136.4
39 Y 23 V 66 8Y 9 F
6.42 13 AL 3.31 g;
tM Sk bk 4173.0 1:24 !i t 4187.8 1.45 11 WI :;;e; 4200:0 4200.0
t+;
3; y
1*3EtOO 6079e8 77 776.8 30 5,oEtoo 6517,2 18 7162.7 13
9JEtO2 9JE-03 2.3E-01 :*Ei 3k-02 2JEtOl 4x-01 ;JW&
56 86 15 P 4201.0 2.19 19 K 4207.9 1.00 27 CO 4216.5 1154 12 88 4218.3 4.26 26 FE 4236,4 1.35 21 8C 4248.7 1945 74 Y
l:ZMO lJE-01 2,lEtOO 3JEtOl 6JE-02 2&tOO 2,7EtOl 1,9EtOl
4259.5 4260~4 429015
2JE-01 9S-03 6AE-01 9AE-03
lib
2t63
6tOO 13 AL 2.38 9 F 9.11 58 # 4293.7 2.44 9 F
4320.8 4336.1 43S1.8 4358.1 4361.2 4364.3
1.54 W CU 4.21 58 CE 1.58 39 Y 1.96 31 GA 4139 19 K 4.58 15 P
3,8EtOO 6.3E-01 1JEtOO 2,9EtOO 2,lEtOO ME-01
18ss7 582.2 772319 77Od
21 538,4 13 3589.3 27 W&O 51 2073.7
7
11 8
11 1077.4 19 7863.3 11 4fgj # ‘IO& $l 472:4 60 639514 22 6360.0 582.2 13 3589.3 69lt7 11
1435.3 14 627.5 12 3900.3 16 21541215 770*3 51 2073.7 11 23042 26
277.4 20
228.6 52
295,6
3916.7 49 2828.1 43 7631,l 29 7645.5 24 21
lW,3 56 6190.2 5
8 7723,9 27 2960.0 582.2 13 3589,3 11 33418 96 439.7 54
582.2 13 27863 33 334~896 6079,8 77 6360.0 13 770.3 51 3900.3 16
3589,3 11 7914.5 31 439.7 54 776.8 30 691.7 11 20734711 2154.2 15
4374.4 52.80 10 HE 3.8E-02 20356477 350.3 61 @#:b 3:a 17 L% m8 l&w ?i 4395.2 1.10 36 K8 2.5001 881.8 84 W 4406.1 1,66 26 FE 2,6EtOO 7631.1 ::I%:: %I# 579: m8i 15%: M 194;,: ;; 4418.9 14.94 2OCk 4JE-01
Td:2’ f! 1213.2 37
7645.5 24
%:I 11’ 64196939 4430.8 4.40 16 S 5.2E-01 5420.5 59 4431.8 1.60 31 6A 2,9E+OO63601013 69187 11 6110.9 20 4443+0 T5.96 5 B 7005.1 48 %*i ii #&f ::I =”3 “u 65% :8e 7162:7 13 4460.1 2820 13# 7723t9 27 2960~0 8 4490.5 1.57 15 P 3WO.3 16 21s4*2 ‘,5 t&I !A 5'7 II Iltl:5 4508.9 15.78 7 N 1884*8:: 4515.8 1.04 20 CA 6419*9 39
81 TL 3.4EtOO 5641.5 3 348.7 3
3.94 13 AL 2.3E-01 3.27 59 P8 1JEtOl
4758e8 3.24 GO HG 3r8EtO2 4765.7 16~06 58 CE 6JE-01 4790.6 ld4 60 NE 5,lEtOl 4792.5 4799*5 480184
1122 31 86 1.06 79 MI la69 59 I’8 4810.0 1.80 26 FE 4829.6 l&O 70 n
4840.5 4841.8 484 ~8 484f *2 485886
2.07
16 S
5JE-01
841.1 76 5420.5 59 7723.9 27 2960.0 8
29’ZE lktO1
3,40 31 Gn 5.00 8oNG
2r6EtOO 3JEtOl 2t9EtOO 3*8E+O2
84 8 # 1:06 28 NI
!*I Em 4ktOO
691.7 11 214.9 10 141.3 -4
7645.5 24
E:‘: 1: 1693:9 14 i&f
899898 38 8533.4
9
17
4869.7 2.42 31 84 4869.8 11,47 16 S 4882.5 5123 22 TX 488367 1.54 23 ‘J 4888.7 1.81 57 LA 489Oa7 1~28 31 86 4902.9 2.64 13 # 490514 1.86 27 Co 4913.4 1.55 81 Tl 4921.5 1.01 27 CO
StOEtOO 6517.2 18 7162.7 13 9,lEtOO 1596.2 15 218,2 11 2,9E+OO6360.0 13, 691.7 11 2.X-01 7723.9 278W&O 8 3JEtOl 230.2 26 277.4 20 3.4EtOO 5641.5 3 348.7 3 3JEtOl 230.2 26’ 277.4 20
49348462,69 14 SI
lJIE-01
tm:iY:ti64 d
4949.4 la68 25 88 4953.6 1.04 80 H6 m:s 3# B PB 4974.8 1.15 80 Ho 4975.1 2.78 21 SC 4979.9 4.04 17 CL 4986.6 2139 9 F 499212 2.04 19 K 5005.6 1.89 9 F
SOW.0 SOl3t8
2.9EiOO 6360.0 13 691.7 11 ME-01 841,l 76 5420.5 59 6elEtOO
1361.5 69, 6438.4
30
!l:m lJE+Ol 3.%+02 66:ia J&+02 2,7EtOl 3JEtOl 19508922 6110,9 20 9.SE-03 582.2 13 X89.3 11 770.3 51;
“:3 a#! ::
1.96 40 ZB 19 K
5015.0 5.73 25 It8
%:: if .I 17 778.3 5112073*7 11 26.6 ll 7243t8 12
W! I:!! 1’9 St 5843.8 1.44 W CII 5047,2 3.15 16 S
m3 tt 7914.5 31 5420.5 59
145
1.87 ti F
4659.6 2.09 13 AL 2.X-01
8
177.2 11 141.3 4 4710.2 34.18 5 B l.OE-01 4443,O76 7005.1 48 8811884 : 1213.2 37 4714.6 1.20 36 ItR 2StOl 4714.8 1.03 22 TI 611EtOO 1381,s 69 6418.4 30 )A 1JEtOO 1435.3 14 627.5 12 4722.1 1,51 56 4723.1 1.28 59 PI! lJEtO1 17712 11 141.3 4 4725.3 2,50 25NN lJE+Ol 26,6 18 473460 5m 13 # 2.3E-01 772399 27' :43’i Yl 4739.1 7127 80 NE 318Eto2 368.1 81’ 16It 09 14 4745.0 55.00 18 AR 6.8E-01 167.3 80’ 1186.8 52 4749,7 2.74 20 CA 4JE-01 1942.0 73 4732.4 1839 81 TL 3mOO
::!ll 2.16
463911
7723.9 27 2960.0
8.20 I:!! 3.75 1.48 2.S9
H 7 59 PR
57 LA 81 1481 57 u 13 K
368.1 81, 1693e914 881.8 84 1213.2 37
218.2 11 RS ‘S 4934.4 63 218.2 11 2960.0 8
526
M. A. LONE,
R. A. LEAVITT,
Prompt
and D. A. HARRISON
y’s from
Thermal-Neutron
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
3.94
59 PR
1JEtOl
iI I# 3:$t8s 1.69 31 BA 2.9EtOD
:A
Lo8
i:!!i 2.88
57 Lb
9dEtOO
:'s Py 19 K
MM 2.1EtOD lJ8 81 TL 3AEtOo 2.65 27 Co 3JEtOl 3,52 25 141
1.18 29 al ::I8
:: ai
;*Ei 1:30 LO2 1.24 3.96
i: env 36 KR 55 cs 25 M 78 PT
;2*;
;e;
;
!32b!i:7
5:78
70 YB
m:!i 5269.2 5269.5 B8:4 5280.2
Yik3 9 7ak3 '3 6360*0 13 691.7 11 1596.2 15 218.2 11 !im
84 b!M
156
770*3 51 2073.7 11 348.7 3 %i'! * 2s5 277.4 20 26.6 la 7243.8 12 278.3 33 7914.5 31
881t8 84 1213.2 37 116.4 15 176.4 10 26.6 18 7243.8 12 356,l 28 333.3 lb
38;s 35 2!&'6 1884.8 22 5298.0
5404.1 lx! 81 R 3,4Etoo 5411,O 1.82 13AL 2JE-01 5417.7 2.19 29 CU 3dEtOO 5420*5 59*oR lb s ME-81 5433.1 1,44 25 tin IJEt 5437.0 1.27 2s MN lJEtO1 21 18 se SJEtOl 2JEtol 5445.6 1.81 1.33 b0 5448.4 5449.8 1.06 32 GE 2.3EtOO 5451r8 3JO 12 f@ 6.3E-02
sb41.5 3 348*7 3 7723.9 27 29b0.0 8
3.35 1.70 1.04 2.81 1.13 3.27
30 36 21 31 41 19
278.3
$&Jj
3.05
9ziE-03 5,iEtOi 9*9EtOl
9 F 60 ND
26
wlif
23 13 60
278,3
2ktOD
33 7914.5
18 7243.8
4v:36 R
m
31 12
#
7863.3 11 1213.2 37 295.6 21 691.7 11 293.5
5
2073.7 11
B M:5
582.2 13 697.3 73 1201te 12 3916.7 49 26.6 18
:*ii Kk 1:77 31 OA 2.35 66 DY 1107 53 I
bdEtO0
Sb16,7
5618.8 3;* :: ii LO8 7 n 1.12 21 SC ::A! ia P 1852 39 Y NO 3bKR 6.16 80 Ho
4.oE-01 3JEtOD 7.SE-02 2JEtOl M8i
lJEtO0 2sEtOl
7.20 27 C8
3.8EtO2 3JEtOl
E,
4dEtO2
3.45 2.23
:
t
88Bl.l 27
iJEt
9 F 9 F
6.00 10HE
i# i! iii 6.22 19 K ltlb 47 a6 3,19
15 P
1.65 W IIU 1.32 42 NO
618.9 29 214.9 10 34817
w 538:4
:= 22 3
s: 7
442.9 4
30 1864.8
5779.6 5781.2 5790*7
5792*6 5792.9
saob,o 5823.9 5816.8 5824.3
5840.1
1888 31 8A 1.40 36 Ku 1.03 36SR No 36KR 1.01 47 A0 1.08 31 6A 2.13 2.12 48 28CD UI 1,40 56 lm 1.70 36 KR
2.9EtQO b3bO.O13 2AEtOl 881.8 84 lt2EtOO 183btl 58 2AEtOl 881.8 84 6.4Etol 198.4 24 2.9EtOo 6360.0 13 2.SEtO3 4AEtoO agf fl 2AEtOl 881:8 84 2dEtOl 881.8 84
691.7 11 1213.2 37 898*0 28 1213t2 37 236.7 69lt7
12
11 qf*i 1: 12131237 1213.2 37
1.38 59 f’R L2EtOl 177.2 11 14183 4 S891.7 2,&i 23 V S.OEtOO 6517.2 18 7162.7 13 9897.3 5896*0 2.76 1.05 21 41BC lm 2.7EtOl lJEtoo a.; f gf3 2: 5842.9
5900,b
4.25
20 CA 4JE-01
1942:O 73 b419:9
39
33
3589.3 11
Pi!*: 30 da
133.6 0
5269.2
ii w 9 F
14
1950.9 22 6110.9 20 3028.0 39 596*4 33
f*m 73sE-02 5269.2 3,4E+OO 2sEtOl 2.9EtOo 9AEtO2
SW.1 10.00 7 N 7.X-02
1693.9
3028tO 39 596.4 33 3916.7 49 282&l 43
M;8
t:a
5616.6 3.11
691.7 11 1213.2 37 267.8 3 2073.7 11
841.1 76 2379.7 45 26.6 18 7243.8 12 26.6
1,17 27 al
33 7914.5 31 6190.2 5
199.3 56 6360.0 13 881.8 84 217.2 9 770*3 51 368.1 81
ZN l,lEtO8 1077.4 19 KR 2JEt81 881t8 84 SC 2,7Et01 228.6 52 an 2*9EtOD 6360,O 13 UB 1.2EtOO 254.7 25 770,3 51 K 2.1EtDO
6:bS ii25 8IIN t*t; 18.48 7 R
5559.1
J&t02
a::: 34 7 1.73 17 CL 1.12 32 SE
lJ4
230.2
%k3 582.2 472.4
560213
230.2 26 277.4 20 1942.0 73 b419.9 39 5641.5 3 348.7 3
3916,7 49 2828.1 43 52698230 1884.8 22 8998.8 38 8533.4 17
3.82 80 tl6
B8k3 kit 342 5601.5 4.95 31 an
8884,l 27 835.1 27
!i ii
167.3 80 4745.0 55
!!kb % 63bo.O 13
!I 21
bJE-02 7SE-02 4JEtOO J*aEtoO 1.9EtOl 2,9EtOO 2AEtOl 1aEto2 2dEtOO
5387,b
5582.0 ll.bO 18AA bJE-01
199.3 56 619012 5 933.7 37 6294,) 17 241.8 22 341~9 7
;
1480 81 n 5295.9 1.27 12 UG 52388021.02 7 H 5312.3 1.01 28 WI 5319.4 1.09 29 cu 5319.9 2.89 74 U 5339.1 7,04 31 ah 5340*8 1.20 36 KR 534b,9 1.29 45 Ml 5380.6 8.90 19 K
4
ai 115 2iR3 1: 6517.2 18 7162.7 13 6360.0 13 69197 11
'2% $1 SE 29673 7 II 1.26 24 CR ::::
177.2 11 141,3
22
5925.1 LB4 27 CO 3JEW 5957.2 5956.7
230.2
1.28 1.75 77 4 IR IIE 4ZtO2 9.2E-03 680&
5966.2 13.86 80 HB 3tBEtO2 5975. 5982,: 6 83 27 ca 3JEtOl
1:27 W #)
9.65
9 F
9SE-03
6018.5 9.00 26 FE 2,bEtOO lJ7 32 BE 2JEtoo
bD3b.3
277.4 20
y
336;4$ “J
368:1 81 1693:9 14 230.2 26
909EtOl lZOl.8 5999.6 2.54 24 CR J,lE+OO 8W.l 6007.3 1.90 34 §E lmO1 238.9 6008.0 6.09 31 8A 2, E tOD b3bO.O 6010.4 1.62 29 a 3, too 278.3 bOl7.1
26
277.4 20
12 214.9 10 27 835.1 27 8 613,9 8 13 691.7 11 33 7914.5 31 582I2 13 3589.3 11
7631.1 29 7645.5 24 33
3028.0 39 596.4
M. A. LONE,
R. A. LEAVlTr’,
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
527
Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies
and Explanation anlw
:
2 SY
SI8 BARNS
&037,4 bO54.9
k%
11 x
8
12 x
I,07 30 ZW l.lEtOO 3.03 21 SC 2JEtOl bAEtO1 F 7M “6r 1JEtOO 6101:3 794 2:2a ‘379 13 AL 2.3E-01 6101.8 2.51 38 8B 1JEtOO 6104,O 1.95 25 Hn lJEtO1 6105,O 1.88 28 a1 414EtOO 6110.9 2O.M) 17 CL 3JEtOl 6111.4 4.82 31 M 2*9EtOo
1077.4 19 7863.3 11 228.6 24 198.4 52 %:5 295.76 il nb.8 7723.9 Mb.1 26.6 8998.8 1950.9 b3b0,O
30 27 58 18 38 22 13
19 2940.0 8 898.0 28 7243.8 12 8533,4 17 llb4,7 20 691.7 11
6111.4
39l6,7 3028.0 8a84,l 1WJ 1201,8 s!5+;
49 39 27 56 12 523
2a28,l 596.4 83J.l 619oe2 214.9 f4g.i
43 33 27 5 10 2;
sa2:2 13 3589:3 199.3 56 5261.3 6360.0 13 691.7
11 4 11
2927 12 116 6.3E-02
1.90 36 KR 2aEtOl 5.52 79 Au 9*9Eto1 3149 60 ND S,lEtOl M 1110 1.32 4294*2 1.21 b294,4 16160 6306.9 1.90
638091 M:3 6393.4 6395.4 b418,4 b419,4 b419.9 M&b 64!i7*5
3 36 24 j3 40 36
I KR CR A8 ZR KR
1.19 54 XE
2AEtQl
670788 lS1 &716*7 i9a 6736.4 5.04 6743.2 I.36 4747.2 1,40 6749.7 2.25 675lB4 1.38 6759,3 39JO 4759,a lA4 475918 24.17
32 11 82 14 14 64 39 5 10
aE 2JEtOO ac 2JEtol PB lJE-01 SI 1*&E-01 SI 1*&E-01 8B Y :*Ei! B lkO1 NE 3s-02 22 TI b*lEtOO
6749,B 1.00 30 W 6771,O 1.07 -3 LI 6783.4 3.36 25 M 678L3 12.98 15 P 6803,s 2.60 36 KR baO9.4 43t75 4 BE bM9ab 3.27 33 A8 6832.7 1,19 41 NB 6837,O 10.79 28 HI 4839,5 6,43 21 SC
39 Si 94 bB &a 11 77 76 n 69
J96.4 295.6 0.0 14934.4 14934.4 944.0 nbtB 7005.1 350.3 b41a.4
1077,4 19 7ab3,3 2032.5 89 980.7
33 21 0 43 63 11 30 48 61 30 11 10
39w :86 $i#:! 18 881~8 84 1213.2 37 YE 254:7 8998.8 228.6
3: lB?! 2: 25 8! ts 5 38 ‘3533.4 17 52 293.6 21
b884 baa :3 689041 6910*5 6915.5 6919.3 6926,2
B! 1.1s 1.37 1.22 3024 1.09
it! 24 30 32 42 33
P CB ZN GE ilD A8
:%i 2kOO 2JEtOO 4*3EtOO
3028.0 39 596.4 33 778.3 37 848.8 15 164.6 17 1534.3 7
6928.8 6931.7 6942.6 6958,5 6962.7 697747 698489 6987.8 6999s 7082.7
2.40 2.20 3.00 2096 1.20 2926 2,97 3.25 2.68 1.9s
25 36 38 30 36 17 27 29 19 31
NN KR SR ZN KR CL C8 w K 6A
lJEtO1 2sEtOl 1JEtOO l.lEtOO 2,!iEtOl 3JEtOl 3JEtOl 3,8EtOO 2.1EtOO 2.9EtOO
26.6 881.8 1836.1 1077.4 8alt8 1950.9 230.2 278.3 770.3 63bo60
7005.1
47,85
l.OE-01
444360 76 6759.3 4O
668.9
B 7 :! ?I 21 84 1213.2 37 27 835,l 27 17 1534.3 7 37 250.4 9 84 1213,2 37
80
773.9 22
64b4,8 9.03 Mb715 5.60 6485.9 6.42 6501.7 8.1s 6511.9 1.55 651499 1.19 WlJ.2 17A3 6519.1 3.50 &55&S 4873 6556.8 2.34
23 54 27 60 79 81 23 36 22 21
V XE CO ND hII TL U KR TI SC
6583.6 6599.5 6600.7 6601.0 6619.5 bb27,b b&44,2
28 29 9 34 17 17 21
II 414EtOO 8998.8 38 CU 3,8EtOO 278.3 33 F 9AE-03 502.2 13 8E lt2EtOl 238.9 8 CL 3JEtOl 1950.9 22 CL 3JEtOl SC 2JEtOl
472.4 1381.5 5269.2 1942.0 1201,8
5 B
22 26 22 15 10 14
7069e2 1.29 7099.7 4.34 7112,O 1.49 711781 2,Ol 7159.7 5.81 7162.7 13.14
5.oEtoo 6517.2 18 7162,7 2AEtOl 668.9 80 773.9 3JEtOl 230.2 26 2n,4 S.lEtOl 697.3 73 618.9 9,9EtOl 1201,8 12 214.9 3.4EtOO 5641.5 3 348.7 5.OEtOO 7162~7 13 645.9 2ziEtOl 881.8 84 121312 bJEtO0 1381,s 69 Ml814 21JEtOl 228.6 52 295.6
13 22 20 29 10 3 11 37 30 21
7176.1 2s 29 al 7179.3 1.12 34 8E 72OO.b 7177 14 SI 7207s 1.00 36 Kfl 721387 4.72 27 CB 7243.8 12,13 25 #I 7246.7 4.02 3 LI 7251*9 3.70 29 al 7270.3 3.36 25 NN 7278.8 5J3 26 FE
368.1
8533.4 17 7914.5 31 3589.3 11 613,9 8 6110.9 20
7291,s 2.30 7299.1 9.00 7306.2 8.09 7310,s 4.02 7366.2 7,52 7567.7 94,Ob 7413.6 I.19 J&$ 7421.2
278.3 33 7914.5 31 230.2 26 277,4 20
::m
18 84 58 19 84 22 26 33 51 13
7243.8 1213.2 898.0 7863.3 1213.2 6110,9 277.4 7914.5 2073.7 691.7
12 37 28 11 37 20 20 31 11 11
R&i f:# B if 5:#8! 19d:5 ii ‘W*i 2i 705718 11.06 25 ilN MEtO 24.6 18 724318 12
60 870,b 69 341.7 30 lBa4,8 73 4418.9 12 214.9 81 1693.9
4.24 29 W 3dEtOO 7843 27 CO 3.7EtOl
l.lEtOO 3,&E-02 1. tO1 1. e -01 2sEtOl 9,2EQ3
3028.0 22B.b 7367.7 3539.1 3539.1 11abJ 4079.8 4443,O 2035.4 13al*S
i2
B&l 881.8 8884.1 164.6 933*7 881.8
Ma ia:6 P! 4m4 ti 3.aEtOO 278.3 33 7914.5 31 i*~~~ 9kto1 3.8EtO2
B&SW
NBWIRLIREB El '1 &
1077.4 19 7863.3 11 bs17,2 18 7162.7 13 230.2 26 277.4 20
ii CU WA TI N CA w Ha
4678.0 6705.8
z SY
6867.5 1*&2 30 ZN l.lEtOO 4873.P 10.73 23 u 54Etoo 6876.8 8.21 27 CD 3JEtOl
3: 29 11 22 7 20 79 80
1.77 2.40 8107 2.92 8,Ol 4.54 1.08
I %
881.8 a4 1213.2 37 1201,8 12 214.9 10 697.3 73 618.9 29
‘3% 1818 22.18 30,13 1810 38.89 2,ll wo
4,OE-01 b*lEtOO
LeE
RAY
7490.8 7528.3
‘M 5.31
30 24 30 21 25 23
23 7 29 23 24 82 7
ZN CR M 8C M U
ltlEtO0 3,lEtOO ltlEtO0 2,7EtOl lt3EtOl S,OEtOO 3tEEtOo 1,2Eto1 l.bE-01 2tsEtOl 3.7EtOl 1JEtOl 3.bE-02 3 tm 1.*if tO1 2&+OO
ion,4 888111 1077.4 228.6 2686 6517.2
19 7863.3 27 835tl 19 7863.3 52 29&b 18 7243.8 18 645.9
278.3 33 7914,5 31 238,9 B 613~9 8 T* 141 23042 26.6 2032,s 278.3 2b,b 7651.1
# 26 18 89 33 18 29
5,OEtOO 6517.2 5269.2 W 3,EEtOO 278.3 U MEtOO M17.2 CR 3,lEtOO B8B4.1 PB 1X-01 6736.4 N 7d&O2 5269.2
18 30 33 18 27 5 3O
U
N 7.SE-02
114 M#l 15 P 1.8E-01
2.W 27 CO 3JEtOl 3.70 38 SR MEtOo
ii 27 ii 21 12 11
%!:1 !! 277,4 20 7037.8 11 980.7 10 7914.5 31 7243.8 12 7645.5 24
l?B:% 9’ 3900.3
lb
230.2 2b 183&l 58
277.4 20 898.0 28
M. A. LONE, R. A. LEAWIT,
Prompty’s from Thermal-Neutron Capture
and D. A. HARRISON
TABLE I. y-Rays Ordered by Energy Seepage 513 for Policies and Explanation
7537.0 4.47 7571,3 1.54 7b24.1 1‘40 7631.1 28.51 7635.9 3.43 B&8 M3 7693.4 4.15 7696.8 1.23 7723.9 27*43
8533.4 Z*! ii 7914.5 55b:e 10 476.0
2s NI 29 al 37 RR
26 FE
8132.4 2.56 21 SC 2JEtOl 815414 4.74 12 It6 8174.7 11a3 21 SC 8310.4 3.81 7 I 8315.4 2.27 21 SC
295.6 21 rl 43 228.6 52 %I rb 21 5269.2 30 228.6 52
17 7
fR# 84M.3 8512t3 853116
l:u 4.54 6.15 6.11
M 24 CR 24 CR 3tlEiOO 21 SC 2JEtOl
!!?#A 8884.1
1 27
T2: .
K
881.8 a4 1213.2 37 278.3 33 7914.5 31
8533.4 8578.4
lb.98 2.91
28 WI 17 CL
4t4EtOO 3JEtOl
6998.8 38 4b5tl 13 1950.9 22 bllOt9 20
I#:!
::ti
5f s!
Mi8i
!a::
##:42
M
P z= :;#m
&k$
10829t2
14.12
7645.5 24 228.6 52
21 SC Pi R 13 AL
28 III 13 #L
2960.0
7749.9 7755,3
1.50 36 KR 2StOl 1.40 29 w 3JEtOO
m 7600.0 7818.9
I:# f7' d 3.91 lb S 8119 28 HI
3:4# 5JE-01 4mOO
f&3
8533.4 8 3033.9
17 31 3
I@;# B mil 4 041.1 76 5420.5 59 8998.8 36 8533.4 17 : tR 3w 278.3 33 8884,l 27
8039eb 1.13 38 9R
1836.1 56 89BtO 28 8998.8 38 8533e4 17 I
3614 28 II
le2EtOO 4*4Eiw
835.1 27
295.6 21
B WI
II
ii
#i
888).1 26.97 24 CR 3JEt40 835.1 27 7939.3 13 8998.8 37.74 28 nr 4AEtoo 8533.4 17 46&l 13
IM ii w’ ::fH 7914,s 3om 29cu 3JEtoo 793913 12.75 24 CR 3,lEtOO 81200,s
220.6 52
3916.7 49
9298.4 4.15 26 FE 2t6EtOO 9720.3 lo,97 24 CR 3dEtOO
528
7 M
Atomic
7.5E-02
Data and Nuclear
1w:i
7631.1 29 7645.5 24 H84.1 27 B35tl 27
5269,2 30 1084.8 22
Data Tables,
Vol. 26. No. 6. November
1981
M. A. LONE,
R. A. LEAVITT,
TABLE
E8E88Y keV
IWT, HA00
Prompt y’s from Thermal-Neutron Capture
and D. A. HARRISON
II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
E&MY EHE88Y keu H!k kd C88SS SECTIOII: 3.32E-01 MN8 Ul8SSSECTIIM3&E-02 BUM 1052,70c 4.91 203230c 89.33 a?8 .
z=
4
=?#!?h
ELEmnBE b ‘%J5
347.41 b
0.16
1.07 E 4.02
CROSS sEcT108: 9JOE-03 Bm6 631.83 b 0.24 85333 a 25.96
2590.15 a 23.28 0.13
2811,80b
2896.40 b 0.15 3367.61 a 33,71
3443.51a 11.59 5356.73b 1.75
b8w.41a 63.75
36773 a lStb8 3855.11ba 0.82 3084.33 0.84
5619.10 c 1108 b$2$ ; l:JJ b5o!i hoc ohs
J3 a 0.24 t39 b Lb4 ;g E 1.;
$!K$,~
bi’$$;
k;
5297196 5333d7aa 21:02 18.48
8310.37ca 7413:60
1:19 3.81
Sb2,Oba 10.00
8368.98b
O.lb
343OhOd J9 d ==P2.18 d 3Slt38 d 3657.76 d . d M 19 378b:u dd 5804.94d 3819.83 d
0.12
ci8sssEc1188:1.03E-01BARNS 47lOJOc 34,18 Z= 6 ELEEKC fiEmEims: ma 1261.74 a 29S3
6739.30 c 39tsO 7OOLlOc 47*83
c88ss8Ec110H: 3.37E-03&MS 3683.93a 32.10
4945.33a b7,M
z = 7 ELE8Emn c88s8sEc1188:7.47E-02Bms 8EFE8ENCES: b9.b 70Rabi% c71! 7;3!h 74Tti7;Is lq 244.30c 0692 253.10c 4.60 8b!i:80c 2128 2ob2330 c 3:71 277.905 g’: c ;*9g 2.15 1670.29 1781.85 1681.44b a 0.70 7.36 1.62 2336.70 2157.40c 4.41 2174.70 3.62 2A3 3b9:10c
1:14
p&g f 2;.$ 1988:91b 1103
252O.M a 2831,W 3013.78 a
6.70 2.15 0.86
1999.67 a
3299.70c
0.20
4db
Z= 8 ELEE8T:O C88S8 SEC1188: 2a7OE-04BMtHS lEFEmcEs: 77k 2184,47 b 8240 870~89 b 100.00 1087.88b 82,OO z= 9 ELErlEmF
IEFEEES:
7ORa
3332.09 a
;
9.79
gg
10829.18 a 14:12
327ltOOb 18.00
c88ss8EcmJ: 9sOE-03 Bms
ma c 13tO2 2b82m c 7.77 2452.80c 10.23 2699.30c 4.51 P! bo $8: M iw8 cc 5% 2632110 c Se38 3074.40c 9t21 3262.M) c 3.44 4199.90c 2.30 2661.70c 6.36 CB8SSECTIOW: 3,8OE43 B688s 1027,97c 1042,47c lOSOeb7 c 1071.37c 1312,bbd
0.36 1897.51d 0.24 0.24 14.16 lJ0
MM dc ::I8 1433.75d 0.96
147bZiS d 1533.54 d
0.60 Ot9b
2163J8d
0.84 0.24
2330126 d
0.24 0.24
2399.16d
8lm
6.84
“d
a=lessthan 0,l keUi b=betwm
0612 Otl2 OA 0.12 Oe24
cc T:1
2839.10d Ot12 2896.03c 7.20 2923tWd Ot34 2933.28d 0.24 2953t78d 0.24 2994177 d 0.12 3023.67 d 0~24 3099&d 0.24 3221.54c
8% 0”:: 8:8
0.12 0.12 0.12 3934,31c OJb 39bb*voc 0.48 3974.8 c 0.84 MS. d 0.12 4161.46 d 4184r76 d
0,12 0.24
ii!M dd 3379.41d
2538.04 d 2606.03d
EIWW urcertaintr
2bb3,82d 2691.72d 2707.62d m8
2035.40 c 76p:: 2067989 d 0.72
2203.58c 2295.77d
2.39
2754111 d 2765.31d
Mm ii 2013.30d
2075.39d
4986.60c
:B d r93 d :# JO 605 Sb4MO
! d d d
8*B 0:24 Ml 0.12 0.24 0.24
.w c .7b d . d B :so rd r87d %"d bti9.75 c
3412.91 d
0.1 and1 keVI c==
529
4374.42c 52.80 tll d 0.24
1 and3 k&I d= Jnrkr khan3 keV,
Atomic
Data and Nuclear
Data Tables,
Vol. 26, No. 6, November
198
M. A. LONE, R. A. LEAVI’IT,
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
Capture
TABLE II. y-Rays Ordered by Element and Energy See page 513 for Policies
?!r’ 11
INTt N/LOO
ELEMENT: M
%%‘i 4W:lO c 560*20 c 596.80 c Sk38 799.90 834.70 836,lO 870,60
0.6 *9 2.20 1.09
E !a c 2.19 c 0.89 c 0.80 c 21.92
1003.80 c
o,w
f= 12 ELUENT: Ns REFEREII#s: 7ORa 277.70 c 3,05 326.60 c 2.20 39oJo c 6.68 g*g c’ f.g * t !&g c’ 268 ml! p’ 976:20 c 1129.40 1632.80 1690.10 1714*00 17so400 1808.90 lWO.20
?*8 S:Ztl
c 8,46 c 530 c 7.77 c 3.53 c 3101 c 29.97 P 8.65
ENERSY keU
INT, WlOO
ENEWY keU
88 cb !:B
INT. WlOO
Z’
CROSSSECTION: 4.00):l-01 BMNS 7.45 2,lO 2.27
2137, 2197. 300 22wt80 236L30
c c c c
9290 Acc%i?JHI 2982Ao c 3026.20 c
3,18 3.46
*70 Jo 3546&0 3wu.00
c c c c
!:fi c 1.05 c 1865 c 17.10 c 1*2!i
m68 2504.60 2517.60 2594.10 2716rOO
rc c c c c
m68E, 3213.50 3279+60 337osO 3411.60
89 1.32 1,OO 3.48 1.49
%&I8 3865t30 38781so 3982.00 4091.00
cc c c c c
0.35
4187,84 c
1345,soc 1.90
163440 c 1748190 c 1889.60 c ms8’E 196wO 1983.70 2027*20 2057.00
2123.80 c
2.32
2eo8.90 c
CROSSSECTION: 6.3Of -02 1982.40 c 2043.40 c 2048JO c 2541,OO c 258330 c 2607.70 c 2623.80 c 2642.60 c 26S.60 c 2709,lO c 2828.10 2wo.30 2938.90 2963.60 3054.10 3139.50 3160.40
3453*90 c
OS4
3916.70 4078AO 4136,90 4216.50
BMNS
1.87 4,19 3188 2.24 0.95 0.91 0.74 0.68 1.07 0.68
c 42,51 c 3.78 c 0.85 c 1.56 c 12,90 c 1.13 c 0.76
2656.07 2691.96 c
0, a65 0.
2709.51 b 2727.90 c 2737.80 c 27%i*O6 c m7;*‘p4 ‘c
0~48 0423 0.19 0.05 20’14
&I* 7.44 c
0,2 9
Et: z 2976:33 c
%i 0:ll
c c c c
3.85
1*12
8,W 0.92 y; 0189 0.66 O&2 0,40 3562.00 3!i98.20 3631,oO 3743.70 3808t40 3a30*70 387~,10
c c c c c c c
c 48,62 c 0133 c 0.42 c lJ4
4257.60 4285JO c 441130 c po$t c’
0.79 0139 032 0p.g
4966160 c
1:39
5157tooc
038
5196.60 5224.10 !i29%90 54%80 5526.90 5545*20
z = 13 ELENEN1: nL CROSSsEc11oN: 2*3OE-01 BMW EFENCES: 7Ol?a 721s 78% 248.90 c 6,M 2486,s c 0.16 3347.13 b p&i ; 2Js.g 2502.88 c OIL2 3392.21 a 3465.08 a 550:70 c a:92 253s,18 2550*28 c 0.06 0.18 3480t57 c 3541.16 c y$iE g:g 2577.62 bca 2,69 2566,47 2590.34 0.14 1.39 3S60.49 b 3!#L12 a 830:40 c r:n 2625.83 a 0,97 3624,lS c a:
and Explanation
c c c c c c
pj 3:30 1.39 0.55
4133.32 b :2: 421i26 4239.66 4259.51 4279a93 4331.14 4 “a74 4f 7.13
36pSSC
36 .%b
6037.00c
61llAO 617SdO 62!&30 6273.90
c c c c
6319.10 6354*80 6419.50 6442.20 6471,20
c c c c c
kEi I
:
5103.69 b 5134.06a 5176.19 b s2Ol*W c s209tm c sZ38.18 b SOL&B a 5343.26 c !w7.os c 541LO2 a
cb b c a b c b c
0.27 0.39 0.02 0, 1 1. Q2
0.16 0.04
Z = 14 ElEttENT: SI CR&S SECTION: 1.6OE-01 BMS REFEMES: 69Bl 70Ra 70% 246.90 c 3.76 449.90 c 0,37 656.00 c ZSOJO c 3.63 559.50 c 0.70 693.20 c 383400 c 0.38 596.20 c 0~87 752.39 a Enera uncertaintr
0.47 0.67 1.48
1038.98 d 1152.57 b 1262.47 c
a=less than 0.1 keUi b=betuaen 0.1 and 1 keVi
0.30 0.61 OdO
1273*33a 1294mc 13O!i.37 b
c=beheen 1 and 3 k&U d= snater
716orSO c
0.49
6315.80 6349.13 6397.82 6440.44 #.f$;
b b c b
1.81 0.11 OtOl 0.59 8,;
6618:97 b 6710.34 b
0:44 0171
H:8
Ii
8:b8
mi 7118t90 c 713!L13 b 7175.22 b
8:N 0.08 0.05 0.14
7237.70 b 0.07 7260r2Ob 0.04 7341.17 b 0806 7455.90 c 0.16 7656Jo c 0117 7693.42 b 4.15 7723.85 a 27.43
E”,s 82 1415:66 b 0:lO Urn 3 kaU,
M. A. LONE, R. A. LEAVITI,
and D. A. HARRISON
TABLE
II. y-Rays Ordered by Element See page 513 for Policies
,4 ELEHEHT: SI 1446*16 b 0.70 1534.46 b 0.30 1540~56 b 0,50
kontinwd) 2092.90 a 2157,sO c 2205111 b
1775.04 b 1793.54 b
4.00 0.60
EE 29obk
1867.14 b 2029.77 c
0160 2.25
3054.16 b 3Oab*50 c
Prompt y’s from Thermal-Neutron
bb 2.17 c 0.10 1,41 0.47
531
Capture
and Energy
and Explanation
4323JOc 4407tM c 4508.22 b
3116.40 3278dO 3306.30 3432AO
c c c c
0.31 0623 0.30 0.23
w! 3632.70 3661.39 3769107
be c b b
68% 0.34 3.89 0.23
%E 4934:39 b
3864.87 b 3955.15 b
1832 2.26
SO27S4 c sO7odO c
5107.23 b 5261.49 d g3J t
3.75 0.20 ;'i
S?97:47 b
Oh9
ma 6244.10 6287.00 6300.70 0.20 0.20
I? kt! r 0.17 c 0.27 b 12.37
6419163 b 6445.14 c
0.19 OJO
83 J2d 84% +91b 106au8
c
0140
cRoss SECTIOW 118oE-01 MRNS
33bso c 371so c g';t F
0,n 0.58 f.3
449130 c
Oh7
472Aoc &7.3J ;
1.99 :*g
1380.60 1413,lO 1629,90 1674.10 1688120 1734,20 1760*10 1890*00 1941.90 1999.80
I! 1.98 c 14.04 c 2t81 c 3.55 c 2*36 c 3.89 c 1.57 c 6.05 c SJO c 1.08
2424t70 c 2460*7Oc 2553.90 c 2S6.10 c 2603,lO c 2bs7do c 2705,lO c 2774.20~ 2863.10 c 2886.20 c
1.66 0.67 OS2 4679 0.74 1,71 0.M
c 1.65 c 1.33 c 6.94 c 15.23 c 2‘59 E 1.45 c 1.13 c 1.01 c 089 c 0.81
295mo c
0.25 0.33 5.07 0.39 0.96 0.37 0,34
Mu8 E 944.60 c 1032,40 c
M 1*13 1837
2021*80 2034810 2114.30 2154120 2172.60 2244.60 225odo 2262.70 2276.60 2285.10
1070+60 c 1321,40 c
8.55 1.56
2295.40 c 2309.10 c
595:2oc 3:92 636.20 c 12.18 706150 c 1170
~E;&~EnEmas
la 0.58
2992.10 c 3058.30 c 3087aOc 3121.90 c 3152mc 316BtOo c 318sAOc 3220*60 c 3273.80~ 3303AO c 3318110 c
0.26
3336,70 c
3339.60c
33baJo 3444.10 3482JO 3522480 3551100
c c c c c
do c 6 6.10 c 62?s .7Oc
ix8 343&o
r’ c
6342 "':E 64&90
*
3741.90 c 37bu2Oc 39OoAOc 3924.w c 39bomc 3971JO c 4129,60 c 4146eBO c 42001OOc 4261.00 c
0128 0*40
4324.30 c 4364Joc
0.28 4.50
5778Jo c 5816,50 c
0.90 0.40
7600.00 c 8640*90 c
3,91 2,66
ii;
c
CROSSSECTIOK 5.2OE-01 MRNS
841,li c 75.55 2379.70 c 44,s
2864170 c 1.78 2931.10 c 22.34
3398.70 c 3723,lO c
1,24 2183
4869.80 c 11.47 5047.20 c 3.15
%:!8
~~;~
#!:‘I8
I:#
w58
‘c
a
cc ‘::I!
rc
Z = 17 ELEHEIIT: CL CROSSSECTION: 3,32E MFEREilcfs: 7oRa 76sp 78% 1647.97 a 292.27 b 0.29 936.89b 0th 305.10 c 0.21 944.96 b 0.08 1675.00 c 337,52 a 0.07 1020.40 c oJ8 1679.76 b 1035.30 a 0,09 1043.30 b 0.11 RR: 8: i’0 1066.98 b 0.06 1131.14 a 1.27
0.19 0.19 o.b!i 0.41
1234678 1327.34 1356.27 1372.59
b a b a
#:ii aa 8% 786.26 a 9&O g.z ; 1i.g
% b
c c c b
O*Ob 0.96 O*Ob 0,33 0.07
cc T!!
2003.33 a 2011.21 b 2021t79 a 2034&a !%*!I t 2075:lb a
:Bi:J! z d:# 1170.83 a 0.46 541.00 57540 589.90 S93,20
oO:$J o”:H Oa24
0.44 0.11 0,45 !jFj Oh6
23*z i 230l:sZ b
3!8i:#
:
2110.23 b
m:!! bb 2422.21 b
b
2427t41 2432.91 2439.91 244S.61
1806& 1828.35 1840.35 1846.05
b a b b
2131.58 2156+01 2179.40 2199.93
a a b
%!* 0.15 4.16 0.09
W:B 1870.55 1896.90 1936.85 R&93
ifi b c b a
3.%M?d 2246.23 b 2252.93 b
a
b a
2303.61 c
2294.62 c 2311.08 a 2318.92 b 2326.02 b
b b b b
0.12
Y:
bb i:f
‘“a 7.93 F 5.41 e aw8 2%4:30
ii b b b :
20 c B90c
0117 0.22 0.21 0.14
t70 c .OOb
0:37 i:B 83 0*19 0.18 0,lS 82
859348 b
0:ll
m33 1462.42 149h43 MOO&2 160!!,76
863,89 a
0.14
1626&
b
0.32
1959.13 a 14&
227S32 c
0.18
2489.21 c
0.49
2&!WO b
0.08
P13J
8%
WI
:
8:#
#as
BkR
b:1
mi
8:#
akw
53
1:
EnerS~ uncartaintr
Eli
8:H
a=less than Owl kaVi b=batuaen 0.1 and 1 keVi
#ml br 2467.55 b 2470.51 b
cb
t
#w
aill 0.70 0.69 0823 cc 0,lS
:
c=betwan 1 and 3 keVi d= rlnater
38 s
831 0:14 0.18 8:B
i
ban 3 keV*
532
M. A. LONE, R. A. LEAVITI-, and D. A. HARRISON
TABLE
Prompt y’s from Thermal-Neutron Capture
II. y-Rays Ordered by Element
and Energy
See page 513 for Policies and Explanation EllER8Y ka’J
INT*
WOO
keU
“fk
(ifontinuad) 3158.05b
268OJOb
%l#k# ,b 3201.95b
Hk#lk z%i
Emtar
:
mw 6 8:s 2809.70c 0.30 2812.48b 0.33 2821.18c
i!f#:$:
r
3347.94b 3352.44c
8:8!i O*lS 0.07
3359654 b O,lO 3372.67 c 0.10 337LOO b 040 338&g; 8:# 3&S a 3437.13b 8Z
i##dbb
3469.42b
4w *
3727.70b 373M9 a
4298S9b
3750.03a
37Sb.Wb 3774.81 a
m#!
3800.29b
38101Wb
3R21,SS b 1.06
3825.95 a
1
RM!! t 352M2b
lw:a56
i&6= bb ::a 3573145 b 0.18
313S.26b 3132.35 b
0.18 0.08
OI20
84
Bk!# f 3604d4a 0.W 3614.11c 0.15 3622.71b 0.15 3629.11b 0.17 3634.45 i
8A 0.09
0.76 4m:23 b’ 0.20 wt * c OeOb 0.22
3581.21c
s
404O.bb b
0129
4077tlbc 0.08 *a1a I88 r7b c 4091.76d 0107 4097.05 a 0.11
8:&I
m!il %*f
: :
E
Z = 19 ELEIEUT: K wFwEwE8t
ho 24yJ; I!
7oJama
oh0 y$
MM: 2107.94 c
2l30.74b
c88a8wcT1al:
29lrsOc ilki8
Q:# OA8
0.10
PC 38
OIOb
tw4 % 4952&b
4957,94c
838 0.23 0.13
4979.94a 4,04 4990.18 b 0.27 4998.84b 5007.73c 5017,95a 5027.03c wot33 c
M
8:ll 0.10
4aB:
ob*E 0:ll
ir l 0.53 0.09
4597.39c
Od8
S3OOt49 b
t!i: !I f 462w9 c 4633.39c
pJ g
iw :8be s346rl8c 5357.38c
4salrW c
ml:
4484,SSb
z.;
;
bllO:W a 2OhO 6185.27b Oe14
ti2i2.g
i
p3J
6341:37b
0:13
0”:8
8#
@Me’ 5406.57c 5419.87b 5428.17 c
5447.07c 0.05 s46oJoe 0.12 4916.79c
8578.36 b
0107 6142.01c
86
#!mF B#iM: 5148.61c 0.0s 8786.70c SS8l.Wb il.60 5960.24c 0101
,b
;*;i
u#:a ,b 8:I b379,08b 0.23
I#$8 b 4551.10 b
4dO
2.lwOO
4843.96 c
0.11
oh2 ii*:: 4711.38c 0.06 4139:07b 0:n 4721.07c 0.W 4149r85c OIO6 4729.02a 0.75 4163.15b 0111 4735.07b 0.12
WI
0.05
4509, b 0.07 4317, I! b 0.17 4524898 b 0.53 4532.70b 0.07
Z=l8 ELMMT: #1 CR888 SECTIW:bt78E-01MM8 wFEmcE8: ma 1828.76c LOO 2566.01b 167.30b 79.60 w8~ 2438 837.69 b 9.60 867.29b 1.10
48s.26 c
m!! rc 060 O*oJ !8#;# s 4500.10c 0,Ob so8st82c
#!!:ii
3SSO2b
0.14
!2*# : I:# 4458h2a 44b4Jl c 0:Ob
3488.02b
0.11
4418.31 b
38bQ.98b 3868.18 c
i
3041.26c
0.27
3833.Wb
ia%
b' b
4414.49 b
4424.31c 4430.71c
3812.8~ 3a48.48 c
0.07
4“:lii bb ip 4M ,lO b 4906.55b 0:07 4933,14 b 0.14
s
3981.07a 399b.17b tx 4003.07b oh1 4012JO c 0.12
Y70 HM a
0.37
443Y bb iit! :3s4*: b’ 43s9:82c
3744JQb
0~13
8:8 0.07
bp
4273:70c 4284.13b 4293,83b
3476.90 c
3500.07b
8%
1 4770.57b 4700.67b
4198,14 c f!ObAO b
2940,67b 2974160 a
ENEMY keu
I?#:#
8184 iw! ,b 0.10 3975,Wb
3481.40c
IWT, n/100
4748.47b
ii 0”:1’3 8:b 3 8:E 0.13
$74: c Y” bC 7M iiF8 32ko5 s 2d :w 5 32Sll c 2736.59c 3271.37c 2741.69b 2747.49b 0824 3281.84b 0.06 2752.39b 0,23 3291.36b oati m!! cb 0:12 3316.42a 0.29 3320.14 c 0.10
ENEMY ka’J
2.91
i:; 0126
MIS
316.80c zH8
0.40
rc 1”9
35930c
0.24
38lt38b
#:R
828
i&3
0.32
ce 248
M!ho E ;.; 4gg; oh0
Enrrfir uncerkintv a=lessUun 0.1 keUib=bekmn0.1 and1 k&U c=bdwen 1 and3 krUi 6 imatw than 3 kd,
M. A. LONE, R. A. LEAVITT,
TABLE
and D. A. HARRISON
8% 0.10 2.08
E8 572:20 575t30 594180
: c c c
pj 1:14
boa&0 c
0.10
z*:: Mb:71 bbbG!Y 682.10 $99*oJ
b c c ;
720:93 b 734.J9 c
0.34 0.17 !*i!
0110 0.59 f :!J 0:20
737849 c OS40 741.39 c 0.40 770627 b 51.48 0920 0146
891.81 b
204iL98b
3.66
3388rOOb
928 lO,M OdO 0.43 tg
i&# i 3634.22b 3651.18 b 3663&b 3609.12 b 3696tO2 b 3737.62 b 3762.11 b
m::: 2073.65 2105114 2122.73 ;npj:
1330.48 1356.00 1373.13 141OS7 1418.57 1428.87 143W7b 1451.47 MM,92 1460147
2153.44 b 2171.88 b 2104.47 a 2194.04 b 2205d4 b 2233&?3b 2260db 2290.73b 2304,03 b 2310.06 b
b b b
OJO OS8 1.57 ;:; Oh OIlO 0134 0.10
bb b b b
2143164 b 2150,39 b
0130 0.80
ENEMY
keU
2WOJO 2807.42 2839.93 2856.70 2860119 2a92.31
b b b b b a
d&l a:98
ftiu!
1645,96b
m# bb 8:1! 2467.72 b 0.30
a!:84 bb ti27,23 it
2474.12 2480.52 2545a6 2557.81 2568.11 2!i73,81 2593.61 261OdO 2614.91 2620,ll
3335,89b 3349dS b 33b4sO c 338lJ8b 33WSSb 3404.34 a 3419,04 b 342aJOc
!I
0:10 0.39 0.10 0.30 0.30 0.30 lORh37 a 1139.08 b :;M&38~
I.19 0.10 p$
1929.34 a 195M6 a 2007d4 a
1177h
Oh?
%i;t
b’ i:;
Z=20 ELMMT:M WERENESt 7ONa 277.00 c 0.68
lbbO,M 1675.76 1694,96 1704.28
b b a b b b b b b b
bb
2121.50 c 2129mc 2145.30 2149.40 22w.30 2264Jo 2294.60
Enerw uncerkintr
0:96 0.40 2.16 1.40 0.90
OJO 0.30 2875
2.04 lb10 0.30
3099&o 3128Ab 31x1,57 3157.30 3199Jsa 3220.56 3262,49
H&Y
3779.21 3790.01 3794.21 3022&b 3828.91 3839~11
a b b
ENEWY keV
N;Zi
i,n 0.20 Ot17 0.83 0.10 0.20
b b
4671.78 b 4Emz i te 74h c 4903mc
a ;#bc 38bBJOb
c
3875.21 b 3097S3b 3912d3 b 3931.69 b 3944*94 b
b c b a
1.M
"b
0,40
3473.92 c
Oh?8 1*43 0.29 0123
Ex Ii 354&b 3570.46 b
0020 1.11 0,97 5.21 OtSl
0.72
33noo c
0.53
4087&b 4111& b 4122.07 c 4136*3Ba 417Odbb 42Ql.00 a 4224S7b 4239&c 4244. 1 b 42!io*bc ?
3.27 Otll
2.19 0,79 0.10 0. 0. 8
4201dSa 4314.01 b 4328.10 c 4346.90 c 436L22a
0.32 0.28 0,08 0,17 4‘39
5297so c
0.32
1’:8 i:Z
CROWSECTION: 4.3K
2474.00 i 2ti7bA c
2,13
i*t
:To;,
3767Jbb
2917613 b 2926,74 b 2930J9b 2978db 2992tSBb 3010*51 a 3026.70 c 3039.90 c 3Q5bAbb 3071m c
I?:90
b b b b c b
ENEWY keU
Nikl
232WOc 2346.51 23b7,24 2376.13 2389.58 2419a27 2446.22
b b b b 1747,76b 1752&b 1794.97 b 1815.93 a 1858,7 b 1881.1 9 b
b
MT, N/l00
1479&b 1489.86,b 1517147 b 1565.32 b 1583,57 b 1614107 b 1610.47 b
916163b 0.10 Ki .
ENERGY ke'J
M:1 b" 838 0.10 1233J8b 1247~50 b 3s9 1255d8 b 126lt08 b kit 12bm2a 1303.55s ::z 1319d b 0110 b c b b b b
Capture
II. y-Rays OrdFred by Element and Energy See page 513 for Pdlicies and Explanation
ENER6Y INT, INT, ENER6Y keu keV N/l00 Mm0 z= 19 ELEMENT: IK kontinued) 4SlrbO c OS10 1216.78 b 0020 :M8 P 48s30 c 522~94 b
Prompt y’s from Thermal-Neutron
c c c c c
$a!$8 rc 2341.50 c
1*40
2767.70 c 2811*00 2862rw 2w3Jo 295brlO 3003&0 3oe6.30 islm 3289Ao
c c c c c c ‘c c
6094 iiiw8, 2”s OS7 361oa c 6.34 3638,20 c
0.61
::t 0.39 0.73
w8 3eo2.70 3915.90 3947.00
Oas t:g 0.42 ado
3.31 0.44
3981.90 c 4218r90 c 4293,20 c
9::.
kR oh {I# 0130
rc c c c
0.24 0.25 0.47 warm c 14.94 4468.00 c 0.21 4slf*W c 1.04 l#Hi: 4615.40 c
0.42
8:% 0.33
a=less than 0.1 keVi b=bdueen 0.1 and 1 keVi c=betwm
533
d%915*80c
Atomic
1 and 3 keUi d= Ire&e
thm 3 keU,
Data and Nuclear
Vol. 26, No. 6. November
Data Tables,
tg&
M. A. LONE, R. A. LEAVITT,
TABLE
and D. A. HARRISON
z=21 Ei.Elm:sc 8EFEWCESt 7ORa %88 cc 55:8 2!%00 c 0.44 280.80 c 1.09 m
cc w
“:Z 5 z! Jo c 627.90 c 643.00 c JR78
2.18 6.97 ::ii
rc
s*: F 860:30 c
0.65 1.09
"Kl
w8’r ki\ 1857.30 c 3803 1871.70 c
0.65
w8 rc 1975.70 c 2006;1; c’
!:8 0.82 ;.I#
s8wo *
c
2o8oroo c
1334JO 1549,sO 1572,70 1648,40
c c c c
Z = 22
keU
sM98: 8% 2929soc 0.41 2949.80 c 04 M98 cc 8:lli
1:16
3031:z : a 40 c
0124 0.23 0.21 0.13 0.24
4173.00 4202.90 4236.40 4269.50 4292.40
2111.40 2128m 2155.00 2168.90
c c c c
0.70 2.71 0.60 0.39 0.31
3106.00 3117.50 3158.90 3168100 322240
c c c c c
m8 2288Jo 233ot80 2341.40
cc 8:1”a c OJ4 c c k::8
#ki8 3281.20 3309,30 33swo
rc P# c 0.36 c 00.: c 6 0.19 0.40
84 1830 1.53
ml8 cr 3478.90 c
8% 0,24 0,44 0.11
g
0.82
ELEWT: TX
341.70 c 26.27
0.24 2635.60 2665*50 2680&O 2696.40 2715JO 2739so 27%20
c c e c P c c
4804 oo:ii
m8 cc 8:!! 2817:20 c 0.23 2837.00 c
0.33
EHEMSY kev
8%
EE88Y kau
ll%i
BMr, 8% 0,93
4000*70 c 4021.80 c
!8#x 4083.60 c 4111.10 c 4131.90 c 4154tOO c
3012JO c
3377JO c 3396.30 c
1430 la09 1.09
Gil
BMM
1.74 0,65
ok 0.84 MM cc 4.63 1706.70 c 0,96 17!i4sO c
llik
la43 0.54 0.90 0.39
!:B
:Ei : 132&O c
EMSY
ENER8Y keu
ems SECTION: 2.6% Ml
Ii*!.
Capture
II. Y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
EnE88Y keU
Prompt y’s from Thermal-Neutron
““:ii B-ii *30 3569190 3596.30
c’ c c c
3623.10 3b3sAo 3642.20 3711,s 3722.90 373620 38Qotoo . w8 3&o
c c c c c c c c
0.35 ‘1:‘::
0.1s 0,20 0.44 OS8
c c c c c
1~24 OJl 1.w 0.12 0.45
aM: 4341.30 c 4355.00 c 4377.60 c
83 OIo9 oa 0.60
5316.50 c
5335do c 5346.30 c
0.08
0142 !;N
4402.00 c 5567.80 c
0.32 0.16
spa 4464.Oc *‘p 4498t90 4535.40 4564.90 4597.20 4616B60 4628.90
:
0.61 0.21 0*12 0.25
4656.50 468040 4721,20 4744140
c c c c
O,lS 0.72 0.73 0.08
5818.60 c 5834.30 c 5897.30 c
0,24 0.08 2.76
OS2
4975.10 c
2,78
6259.00 E
0.12
0,37 M
0.10 0.15 oai 1.80
5541t30 c SM.13 b
0.30
3762.43 3870.30 3903&o 3920,96
0.77 1,03 0.80 2,s 1.; *
iw! ec 4133.70 c 4222.40 c 4355.20 c 4673,OO c
0.20
4714,83 b
c c c c c c
p&i
%
5679:w 5703t20 5743.70 5781.10 5803.80
c c c c c
%*50 :c 0116 838
7488.98 7s68,90 7635.90 7673.00 7691.00 7889Ao 7924.80
c c c c c c
0.12 3.43
8033.50 c 8116.20 c 8132*40 c
0.16 0.20 2.56
0.18 0.36
7062.46 d
0.45
Oo:M 0815 0917 0.31 0.87
",Il0; 57!iS:lO 5801.80 5967.40 6109.10 6150.00 6169.80
c c c c c c
t; 0116 0.12 0.13 0.33 0.19 0918
m 7216t43 4 7333.41 7626.37 8010.95 8113.28 825s.26 8262.97
dbc c c c d c b
83 0.03 0.10 0.20 0.13 0.02 0.02 0.13
1.03
6199.70 c
0,14
d
0.01
8:M
iI
8:8i
: c
ii*: 0:03
‘,
3879do c
C8OS8SECTIOH: 6,loEtOO BMS
14s
i.97 _.. a-
8.87 -.-.
d&
k$.$ *
918.19 b 928.69 b
0.18 OA8
1983.96 c 2048.00 c
!&I! 1046.19 c 1121.11 b llMZi9 b
5:$' 0.07 0.92 0.14
1312&8 b
0.77
BMs 2238.95 2259.94 2277970 2371*30
c d c e
3027.04 -b -.-. 3083t2Ob 3116.30 c
c c c b
OISO 1.26
tl!M : 6418.33 b 30.13 648lr60 c 0,14
0.20 0.87 0.44
w8f Ml 6759.78 b 24.17 a4.g f 8.; * * 6908.00 c 0.17
83 0.08
3733193 a
1.04
s498so c
0.17
EMMY uncertainty a=less than 0.1 kaVi b=betueen 0.1 and 1 kaUi c=bekrson 1 and 3 LaOi ds sreater Uun 3 k&b 534
Atomic
Data and Nuclear
Data Tables.
Vol. 26. No. 6. November
1981
M. A. LONE, R. A. LEAVITT,
and D. A. HARRISON
TABLE
II. y-Rays Ordered by Element See page 513 for Policies
ENERSY IMT. keU N/l00 Z=23 ELENENT:U REFERENCES: 7ORa 294.80 c 3.14 :g.ftj ; tag fJ:g;
8;:
S9bh c o:b2 MS,90 c 11.13 69wo c 0*8b AM
:
ENERSY ENER6Y keV %I keU N%il CROSSSECTIW:S,o4E+W BMMS
c’ c c c PC
and Energy
and Explanation
FY
NE-i
ENEMY keu
ii-ii
zy
n/l00 xNTB
m8 2792.70 2027.30 2a4LsO 2888.90 2962tso 3034.00 3101*70
0.27 0.16 cc 0.33 c c fd . c c c c c
!:8
am8
823sO c
4.26
2082.70 c
o*s7
3265.70 c
0.26
l&i8 : 1097.20 c 1255*70 c
a:%i OS 0.99
w1 cc ::8i 2169.20 c 0.47 2271110 c 0.43
m%8: 3so3so c 3s34*50 c
8:H 0.77 ozlb
H&R s 1400.20 c lSSE*40 c
5::4 l&b 4,30
m88 cc 8# 2428.20 c 0.29 2SlS~SO c OX!
m88 ce M 3669JO c 0.24 3717820 c 0034
Z = 24 ELEHERT: CR REFERENCESi 7ORa 564.20 c 2.16
535
Capturf
2622670 c
1617.00 c 1664*20 c 1693190 c 3% 19s3:20 1960.10 2002.00
Prompt y’s from Thermal-Neutron
CROSSSECTION 3,lOEtOO MRMS 2321.00 c
be07
3393,bo c
046
4133.90 c
0.42
5618.80
c
3.87
cc c c c c c
f:R 0.92 1.55 OJS lJ8 0.26 1.59
w8 3513.00 3596.70 3617.70
: c c c
83 0.51 0140 0188
a8 c’ 44swo c 4529.70 c
818 0.47 0.21
@M8 : 5857.90 c 5999do c
898 0.78 2654
5862.70 c
0.49
tw8 E b326.40 6282.40 c
I:!? 0.55 1,32
6372.10 c
o,a2
835.10 74920 986.60 1151.20 lS8%20
c 2bab 11.04 c 0.45 c 0.45 c 1.49
p&g 18&O
c;
4:27 :a$
m88 2558.20 2601.90 2621.30 2670.40 3022*30 3091&O
1994.70 c
2sS
3178.60
c
0.88
3928*10 c
0940
223880
a,32
3263.50 c
OS1
4o22.30 c
0.16
5493.70 c
0.72
bb45so c
5.91
029
2806& 2817.40 2832.90 2842.10 2857.89
b b b b b
0412 0~12 0.39 0.08 Ot37
b" ob*: b Oh5 b OJO b 0.18
0.17 0,OE 0.11 OJ3 0,06 0.02
838 Oh 0,33
28b4*3q SW8 2893,70 2898.70
3172.50 b 3191.50 b 319SdO b 3203.W a 3213.70 b 3222AOb ak88~ 3242.50b 3247.30 b
84: 0,09 0,09
1.09 0.24
2922dOb 2926.89 b 2937&o b
0,34 0,42 0.07
3259.90 b 3266.81 a 327ltBO b
0.18 0.73 0.32
5wi8 bb 83 33OlJO b 0.17 331b.W b 0.08
369740 b 3716.20 b
0.12 0.04
&Wi 3346.90 a
83 0.63
HA8 1 3752.29 a
8:84 0.41
3363SOb
0.08
c
25 ELEHEMT:ltN CRDSSSECTION:l~3 ‘3Eto1 BARNS LRENCESt 7011e 7Ma 71th 7X0 2b.M) a 18.00 1140*00 c 0166 2372.10 b 2g ; ,;Jg 1401*70 c 2396.40 b 2405,70 b 17O!i*40 c ?!! io4k il 8140 1747dO c 3:31 2428.60 b 113.35 a OJS 1876.20 c 0.34 2437.79 a 118AM a 0.24 1915*20 c 2.50 2443110 b 2.74 tskn r: 8:fi s!k# 6 M:Ii “, MM2 a l&I 2023.90 b 2soa.so a 212.02 a ado 2044.70 a 2515~00 b
ii; 19
215.13 a 229.87 a 231,bO a
048 OJa O&5
2Ob3J9 a 2O9o.40 a 2122.50 b
1.80 1.04 OS!
2S2lt80 c 2534.60 b 2545.70 b
H:H z 274.28 a 314.40 a
!:!i 0.46 6,7b
m8 b" 83 2159.10 b OXi 2176.59 b 1.85
m!8 b" 2582.OOb 2534,49 I
Hi;!8 ii 2976,40 b
8:#! 0.25
Bw! f: 354.11 a
8:8 0.62
s% bb 8:6 22O5.30 b 0.93
mi ! 2622669 b
T%ba a?* 1.70 b 3034~10 b
tr4 0,*B 0.14
375.18 454.30 459.72 486.47
OS3
0108 0.96 OS37 0.32
3O47dO b 3OS8t22 b 3061~90 b 3072e70 b
0.37 0.13 0.15 0.04
898 0.07 0,ll 0.03 0.18
mm 3098rlO b 3116,iO b ;313S:bO 124 70 b b
"0:8! 0.03 0.22 0 19 Oh
a
a :*g a a
0:21
i%‘i !I 22S4:80 b 2261.00 b
541.40 b 558.70 c
8% 0:10 0.20 0.31 0.52
Bt:R 23lOdIO 2320.20 2331dO 2338640
646.40 c oJ4 716.43 b 0.74 Enerd~ uncertaintr
b b a b
2644.10 b 2677ab9 a
27MalO b 2769.20 b 2779.50 b
2342.60 b OAO 279odO b 0.07 3144,40 a 0.27 fv$g i ;*;; 23b8e41 b OS7 2802.20 b 0,lO 3159.60 b 0.11 , , a=less than 0.1 keUi b=b@tuean 0.1 and 1 keUl c=betuaen 1 and 3 keVl d= w&elr
9720.30 c lOB97
3772.00 b a i%M b .381SdM a
0.12 0.29 0.04 1.41
l8&88k
8:88
3897.00 b 0.09 3901.70 b O&! than 3 keU.
536
M. A. LONE, R. A. LEAVITT,
TABLE
?!F’ Z= 25
IWT,
ELEtlEHT: IW 0.66
NM
1
8:8!
M%
kofGwed)
4187.20b
N#;#
:
a&i8
z
1:;
4223.49a 4230.60b
OhI 0.10
i&g 048
1
I:!
4088:SO 4103.68 4110.40 4127.70 4131.90
b b b b b
0:04 0.27 0.35 0.05 0.07
4423.70b 4446tooa 4469480 b 4473.10b
0.06 I.03 0.10
0.04
4SSOS3 b
0,51
-?!m
ElDlEHT:FE
4330.40b 4348.00a 4364.50b
0.36
l#:!i
8E
4415.30 b
0.06
0.01 0.24
0.06
SlS.59
ii%: *
2150 0.07 0,02 0.02 0.05 0,26 0.18 0,07 0.07 0.95
52s4a 3 S290.30b S298JOb
4841.00 b
0.63
5313.60b
472St34b 4739.40b 4751.70b 4764~10 b 4768.80b 4mAO c mw
Ii
5102AOb 5111,67i 5129.50b 5134.40b
#RI8 cc 8::f 2250.90c OIIO 2273.00c 0,ll
BE! '
3267139 a 1.49 3292tsoc OJ3
m1,c 4012.24b
403!Lm c
#:!I ,” %a8 cc 8:/i 692.10a Se29 2366.90c 0.14
#?M
mf8
1725A6 a 0.03 ns~.$ ; $5 1842:W c
m9070 c
2021.60c
2412~10 c
0.11
3357.73b
t
8:::
cc f# *
3379.70c 3397.00c
0.17 0.03 OJ6 0,04
6783.39b 6928.77b
7o3wo
5707.00b
571480 b 5733.9Ob 5760.96b
0.13 0.02 1.69
0.06
R30 *
8:8!
0.08
5905t60 b
k
c
7057*81 8 z# : 727o:wa
0110
1.67
3382.40 c
0:Oa 7430:90c 0105 Age# ; 0.04 .
SIU
i%%
m8r
833
0.04
4552.40c 0.0s 1552,sOc 4563AOc 4!m.00 c 4640.90c
5693.10c
0.0s
#8”
9s Aa a 606lAo c 6163.80c
0.69 5061.27b 0.12 384srlOc 2091.40c 0.23 3103.26a 0.80 3M428 a z=n El.EmT:co wosssEcT1ow: 3J2EtOl Mm5 2066.09 b
1.01
1291.30c
##:!k
f:?t
m18,r
944*# c 2.21 1215.60c 0.78 ~1~s
189040c 2033.60c
bc 8:tl
@9& a 4874.00c 4940& a
3770.21b 3792.21b
477.00c
6567.10c 6s73Joc * c m 67622330 : 6813,n c . c ml 7049:30:
!is11:70c ss64m c s!m.30 c
OllS 1.91
3s97a c 3614.30c 3644.30c 366&mc
0.22
ail:28 cc :I 5271.90c 0.03 5287.90c ;I 531 =7 f8,’ 5340*90c 0:03
64Mr20 c
kE
EM8 er 3406.74b I:!
272lJ3 a
rc
4142.70c
5106.90c 04 5141rsO c OIIS 5203*60 c
0.13 0.03 0.04 f’!
2576.30bc 2526.53 2617.70c
0.26 OA8 OtlO
39oor90 c
53!+7*40 c 5306.70c s42ot60c p#o~
3413.19 a 3436&b
0:16
Enerau uwertaintu
83
5543.00b 5563.90b 5586.50c 5601.30b
4157‘00c 0.12 4218.30a 4.26 4274.76b 0.13 4295.70 c 0d.z 4324.70c 4367.60c 0:03 4380t10c 0,13 4406.13a 1.66
0.04
2425.70c 0.20 2469.20b OS3 2497.50c 0.09
0,2s
WEERElit 7ORa 23ot20 c 25.95 RI8 : 1d:R
0.06
am
cuossSEmoM:2sE 1300 MRMS
m! 1 ‘M 4llAO c 0.74 479.10 c I.91
O&95 I.85 O&B5 2,47
S485rSOb
562SdOb 5637SOb S678dOb
5245.30b
391armc 3932.30c
c a b a
0.55
a 5199.08 a
3121,lOc 0.05 3170.52b 3185.82b kH
810.60 898.20 92082 1019tO3
0.41
ak# bbI;# 3464.10b 0.03
~j~ B 4933.16 b 4949x2 a
a TM' ~2lmO c 0.36 277.30c 0.14 2129.18a 0.68 314.20c 0.16 2153.40c 0.14
8:#
5404.54 b
H:H b . 5033.44 !!06&24b
0109 0.13
t
1854.10 b
8:% m85014t9S 1b
404LlO b 405lJO b
Z=26
Capture
II. y-Rays Ordered by Elem lent and Energy See page 513 for Polici ies and Ex
:rE bb 4324110 b
4173.9Ob
Prompt y’s from Thermal-Neutron
M%i
WI00
3927.12b
and D. A. HARRISON
Ml.70
pj
8bil oh ooly *d 8:06
c
7143JOc
n97.90 c 2: :
soo2.20 c so44.20 c 0.75
2204.70c
&8!e
3115.80c
0.24
1.16 I.09
26a6.50c 2726.80c
360940c 3613.90c
0.20 0.35
than 0.1 kaVi b=betwxn O,l ar#J 1 keUi c=b&um
i4R885 8:8 i!!i*x 5 t:P Eh8’ 838 3&o F 0.19 1 #rb 3 keVCC treater than 3 keV,
M. A. LONE,
R. A. LEAVITT,
TABLE
537
Prompt y’s from Thermal-Neutron Cafiture
and D. A. HARRISON
II. y-Rays Ordered by Element
and Energy
See page513 for Policies and Explanation IWT. N/l00
keU
z= 27 ELENEMT: a 3663,70 c 0.16 m8 gag
: c’
3842:w c
83 1.; 0:21
402840c 1.66 4128.20 c 0.11 4151AOc 0,62 LEHENNaNI
N:k
korkinu4d)
zy Wloo IMT*
EENEY
IWTe
WOO
keu
IIcf.
keU
WlOO
s212*60 c
0140
5925.10 c
1.84
6876.80 c
8~21
ml8 ec 83 4884.30 c 0*80 49Ost40 c la86 p&j; &j
#!w8 537OJO 5509.70 S567.20
cr c c c
83 0.42 034 0.26
c c c c c
M 0.62 0.28 0.68 0.54 6.42
:I8 rc .bO c
54 1.81
so38Jo stt69*00 5128.10 5148.30 Slbb.50 5181JO
m48,c 6169.70 6148.90 a do tW
3: 40 c
tn 2.4%
E*W t
i
t*ti8
4207.90 c
1.00
4705,90 c
ak:8 4348.80 437bdO 4394.40 4471&O 4527.20 4546,sO 4607.10
rc c c c c c c c
8# 0.20 OJS 0.23 OJl 0.19 0136 0.85
4622,90 c
0.20
4645dO c 4666.80 c
oJ5 0.14
c c c c c c
Od9
022 0.27 OJS oe13 0.38 2.65
a!!:# cr 363830 c wi9Jo c
% 1.10 7.20
s702*90 c 5742.20 c WWAO c
0.51 2.10 0.33
6705t80 c 673ldO c 6757.10 c
7843 0~19 0~09
6536,60 c f3iwE
o*w M
6901:80 c 6947.40 c 6983.10 c
0:lO 0910 0.11
CM888 SECTION: 4.43EtOO BAwls
252.30 270,lO 283,lO g9;*8i$
c c c c’
363:oo 465.10 48ldO 846e90 877*90
c ok6 c 12.98 c 0952 c 1.06 c 3,86
0,71 0.26 3J4 ;‘;
118940 c
la05
3026SO c
Oe24
5227.00 c
I’m8 1726.90 181640 f841*#
!:iil 0.71 0.M $fl
0‘1 O?!
0.18 0.17 0116
ml8 5395.50 5436,oo ss46*80 5695*40 5780.10 5816,80 583b.70
0411
5924dO c
0109
0.17 0118 0.60 0.13 0.17
lZt4 0.52 0.63
8:E 0.13 OS0 0.15
4320180 4385.60 4477*40 4502*po 4362.10 4985.90 * I#!! 4b9o:oo 4705.50
: c
0169 OIlO 0.10
lilTi 40 c s614.60 c sb3!Mo c sy7go’c
t;
5893:w E
0113
mi3t60 c n76.10 c mm c
W8: 6063dlo c 6133.60 c
M 0,44 0.25
?W8 P’ 8% I.30 f la4 r b36,bo c 15.71
cc c c c’
2093AO c 2123.40 c
0,2b 0.81
Bk#8 3151a 3182Ao 3221.00 3265.90 3296.00 3349,Oo 3367.30
2148,lO c
0.43
3383100 c
19!&0 c
z=29
1:35
ELEmT:w
EEFEEEE: 70Ra 203110 c 7.21
: c c c c c c c
494120 c
0139
J79.80 c bW.90 c 619alO c
2.91 8.62 0.84
2797.70 c 2839180 c 2932.40 c
: c c c c
::I8 0.94 1824 0.72 lelb
!W8: 3140.20 c 3174,70 c
1672.40 c 1744.80 c
1.26 1.11
c 32.69 c 0.82 c 5.46 c 7.58 c 0.36
&*$3*
i
1159.60c
z=30
J:!J
0.98
aENENT:m
0134
4713160 c
cc c c c c c c c 0.62
bb33,20 668340 6716.80 bg.oJ
0.13 8:H 0.16 37*74
c 0.10 c 0.16 c 0.22 ; 1yJ
CR088 SECTION: 3.79EtOO BMN!? 1834.30 1853Jo 2l3bJO 2439.80 246!!*50 2497,bO 2512. 26% 1 2699.90 2731.00
278.30 316.20 343*90 385.20 394.90
tiMI 768.10 878.10 9 A0 11# &O
7%
ENEWY keU
3509.80 c
0.42 0.35 0.49
3s61a 3591.00 3616.70 3728.70 3755.50 3777.70 3818.70 3844t40 388530
0.20 0.21 0,33
3900*70 c 392oao c 3937.40 c
0,12 Od 0,15
4733.00 c 4781dO c 4804*30 c
OS3 0.37 0.13
0.23
@M: 4032*80 c 4089.00 c
83 0.15 0.14
##:l: 4902r80 c 4982.80 c
0.35 0.14
Ew8 cc 8:&t 3413.70 c 0.14
lm8 rc 4201,50 c
8# 0.37
i8&# cc !;I! so84.00 c 0.44
Ml8 ec 60s 6244.10 c 0.20
3435.00 3483.80 c
4285.80 4297.30 c
0.22 OIll
5139*80 5151.90 c
Ez: ,
8:U 0.26
0.34 0.14
CM888 sECT1oI(: l*loEtdO
c c c c e c c c c
c c c c c c c
51w.w c
c c c c c c c c c c
=v : IF 19Ao c
5417.70 c 5449;; E”
8:N
0.12 011s
RM s 19 7914tso c 3042
II’:*
slwlls
c 7% 208.20 c 0.28 221.90 c oa w8
:
8#
Enera uncerkintr a=less than O,l keW b=bheen
0.1 and 1 keU) c=&twm
1 and 3 k&i d= lrwter
OS0 2.53 3.70
than 3 kaV.
M. A. LONE,
R. A. LEAVIlT.
TABLE
and D. A.
HARlUSON
Prompt y’s from Thermal-Neutron Capture
II. r-Rays Ordered by Element
and Energy
See page 513 for Policies and Explanation
keu NEI 2=30 ElEmT:m 22B6do c 140 fw8:
2419.40c 2650.00P 2736Joc 2769,20c 2858.10c 2921Aoc 3093+50 c 3136.50c 3281.60c 3207.50c
A:#
1.30 oJ4 013s 0~23 0.71 0.17 0,32 OIl6 OI26 0,47
z=31 ELEnElm66 EFEMCES: 7ORa
319.00c 3.50 376.60c 1.77 393.70c 6,44 411.40c 0.92
ENEHY keU
hntiwed)
3331.70 c 0.34 4164,lOc 0.37 . c w 18 8:# m8,c 8:&? 339!:70 ‘E 0,23 4446eeo c 0.17 3458Jo c 0.33 4582.90c 0.42 3586.70 c a c 0.47 3717.90 c 818 4u53 750,mc 0.14 3774.80 c 4756.50c OIlS 383330 c 4703.90c 0.41 3074sO c 4795,OO c 0.22 3957.30c 0.15 4fJ2etoo c 0.68 4028.20c 0128 4869.70c 0117 4137.00c 1.60 4wmo c 0,39 CROSS SECTION: 2.9OEtOOB6RUS 0.55 0.70 0.48 0.64 0.60 0.52
2062250 c 2116JOc 2126.10c 225740c
4w.10 c 0.54 2269.60c ml F M #&#,c 2351.90c 2396.20c
Bki8 rc 2474,60c 7lOJO c 1.09 2552.00c 7saJo c 1.30 2576.40c 869JOc 0.81 2603,wc 903.80c 0.32 2626.50c 999.30c 0.38 2640.20c 11400160 c 1853 2676.00c 1173.60c 0.64 2692,lOc
&yEmTnTaGE
EHER6Y keu
3158.10c 3169.00c 1.00 83 0~69 0.63
8f 1.01 oJ5 0.90 o&5 0.62 0.84 0.69 0.70
::i!i 0.48 0.57
3236r70 c iw8: =x,c k :I c 3524:40 F 3566too c 366lt70 c 36B7.20c 3746Joc 3764.30c 3777.50c 3794.10c
w8 rc s246t90c 52671eo c s34o.80c
8::9’ oJ9 0.25 0.25 54ohlO c 0.13 5473.60c 3.35 5520.20c 0.37 5559.60c on93 5647.20c 0,39 5661.70c 0‘17 56%*40c 0,12
59a2r60c 6037.40c 6262Joc 6421.20c 6481,60c 6509.10c 6658*20 c 6703.40c 6769.00c
0,18 1.07 0147 0.28 0.91 Ot83 1.11 Otl LOO
c 0.25 47 ;a; 48 386030 m1 cc!i! 4792.50 c 484080c RR 3894*80 c: E 0:41 l!m:
tz lb2 3.40
3991&oc 0192 5002*90c 4013.50c 0,39 SO18tSO c 4032.30c 0.38 SO55.20 c 4071.00c oJ5 5159~10 c
40%,60 c 0.34 m8 cc!;a 4311.80c 0.70 4337JOc
1.03 0.66 0.31 0.43 029
5762ac 0.36 6867.50c iHti8 cc kfi fm8 : 5909*40 c 01887069.20c
0117
1.62 1%
1.29 1.49 0.93 lOIsa 0.71 1.09
M 0.49 g*g E 0924 0.67 6OOhOc 1.69 6111.40c
6:09 4.82
6129.90c
Ot84
ff
M:IuI E 6:# 6318t40c 2.55 636otooc 12.78
0.59
#w8: f:%8 447940c 0.23 4541.80c 1,95 457sa c 0,43 4595.70c 1.13 4627.50c 0876 m8: 8% 4723.00c 0.38
7112.00c 7lawO c 7863t30c 8313.90c 9118t20c
IlKi
N!#:i58 : 6521.60c 7002.70c
a:#8 0.31 1.95
66wt60 c 6707.Mc MM8 ‘E 6915.50c 7018.30c
0.21 1.51
7a*18 : 726o:ooc 7415.50c 7soo.50c 7628JOc 7725.30c
8*# o:ss 0.46 0.20 0.14 0.09
M8#& 4 f .
pj e
5541.40c 1,n s577t80c 0.47 WI EC ii:!! s65lJo c 0.70
CRO!X+SECTION: 2JOEtOO Bllwls
175.10c 11.39 lW.90 c 0.70
1940sOc 1965.60c
a:1 : 8:B 283.50c 0*97 297.40c 1.24
$8w8 cc 2074.40c 2292.20c 0.18
3709.10c 3830140 c
lr26 1.41
Ener4~ uwrtaintr
3551.90c 0.24 3583e30 c oJ6
4573.60c 4641.20c
5620.00 c
4685*60 c 0.22 4706.70c 0.47
5649.60c MM cc M;Rl cc 8% 483&mc 0106 5782Joc 4wlt40 c 0.58 316.80 c 6036,30r 6092Iooc mf8 cc 8:1 4988.50c 0.42 6115,80c 5002,70c 0,26 6172.00c 5063doc oA5 6199.50c 5088.50c 0.27 622s.50c 5161.10c 0.42 6251.00c
a&88 EC 3995.20c 3995840 c . c fM8: H!l SW8 cc 8:8 t8!!1 500*20c 3.57 2563.90c 0.19 4077hor’ 575r30c 1.33 2643.00c O&l4 4189,90c 596140c 33610 2784.80c 0.41 4220.60c 6oeI90c 7.40 2953.00c 0.18 4262.60c 702.00c 0190’ 3028.00c 39100 4307.60E f8?:!8 s 538 i&88 cc m8 cc 43w.20c R6mo c 14J9 3276.30c 960.80c 4.60 3336Joc 4438.10c 1100.70c 6.19 470c 4463.40E 1470*00 c 2.06 R tea c 0.14 4495.40c 1471.40c 1.28 3478t70c 0.09 4513,lOc 1511.60c 1619.50c
5035t30c
ENEMY keu
“%
#!M rr 5266.40c 5347.70c 5367.50c 5383.20c 5449.00c
8:!8 0.11 0.24 On18 0.26 1.06
OIOB 5518.00c 1.12 0.36 556Ot80 c 0.42
wi8 EC 6361.20c
8:!il 1122 0114
tz*: : Mm:40 c 6505Aoc 6542.40c 6584.90c
0.10 0.25
s=lessthan 0.1 keUib+kkrrm 0.1 and1 keUi cnktwen 1 ~IKJ3 keUl dt Swab? than 3 ke%
538
Atomic
Data and Nuclear
Data Tables.
Vol. 26. No. 6. November
1361
Prompty’s Tom Thermal-Neutron Capture
andD. A. HARRISON
M. A. LONE, R. A. LEAVflT,
TABLE
II. y-Rays Ordered by Element
and Energy
See page 513for Policies and Explanation INT, ENER6Y FY WOO keU WlOO INT* r 33 ELENENn 6s cuossSECTIOH: 4*3#tOO BnRNs iEi:wtENcE!l: b8Jo 7oaa
157.70 164.60c lb.82 2.37 177.90c 1.24 187.90 c
m8E,
3626.40 c 4018.00 d
1.19
1JS t94 B:88 cc 8t31 3s2aoc 0.42 356.00c 03 379.80c 0148 402.00c 0.82 427.00c 1.07 471190 c 3.59 SW.70c 0.77
2205.40c 2743.00c 2Bbo.00c
0.07
1~00d O&b
4097.00d 264.60c
83 0,14
0107
m8
8:i!
lm! bd 4810.00d 4826.53 b 484340b 48bO.00 d 4877.00d 4893.07b 4917t66b
M:888 S36O.OOd 5374.22b S3WAOd 5416.14 b
SOb6dO b myL&l t
0.11 0.15 4329.00d 0.1s
4499.98c
0.3s
0.16
4SlS.00 d
0114
4S32,OO d 0.11
Z=34 ELEiHT:SE CROSS SECTION: 1,17EtOl EMS mERENcEs: 7ORa 175.90c 0.09 1003JMc 2941.90c 0.09 Bkfl~ 199.40c 238.90c
148 1.50 8.06
f!!?:!8 : 1146.20 c
1162.70c
m8I d:!!
Iti 0:14 0.39
:M8 cc 8:R 0160 1239190 c 0.32 0867 1296650 c O,W 0111 1308,90c 0.92 1383.60c 1714,40c :::=:88 cc m8 cr s20tOO c 1922t70c sb8.60c 199S,70c gQ# ‘E BM cc s9s,60c 2394840 c 613.90c 2s20*80 c 0.27 2613.30c 286.10c 297.40c 332.70c 367.00c 439.70c
2674a20 c
2721.00c
5985.28 b
8%
6392ASb MOM3 b 641846 b
0.62 O,i4 0,44
3EsuAo c
4926.60c
0.19
uM8Ec 8*!! m8 cc 3482.10c 0131 4243.60c 3517.30c 0.11 4338.80c 0.09 4 Jot a#:!8 rc 0.18 4!M 40 c 3sm.90c 0.18 4412.70c 3601.40c 0.06 4435.50c y&g;
8:li 0.19
so79:70c
OIoa 0.07 OIlO 0.24 0. 7 O.be 0*06 0.10 0. 1 0.L 04 0112
B’Ri.8 cc 5169.80c S2OSt30 c 5243.70c S276.90c
f:!
M
bRfb.40 b
0.07 ::8i 0.24 2.47
4244tlO c . c tm
6413:80: 0110 w8*20 c e c iwas 0.07 #& ; 0.16 6867:OO c 0.0s
89
w1:3 : I!# A0 E SS74.70 c
0.23
YP”. c’ M8 s79s:soE’ 3807,SO c
8:8 3.12 040
001;;
5812190 c s9m.80c 4545:70c 011s s96830c at88 ec 8:ii imM8 5 4b41.60c 0.13 6049.70 c 4701.90c 0.11 6155.90c 4770A c 0.08 6232.30c
a=lessthan 0.1 keWb=betwm0.1 and1 k&Ii
oo*:: .
678lA c
6187.00d 0.09
0*29
RM8 cc 4oos*ooc 4022a c 4034.00c 4106.10c 4174.90c
0.28
0.11 0.12
5674.28b OAb 5688617 a 0.28 5697100 d OAO
M:?8 : it B 3242.60c 0.06 3331doc 0.06 33MllO c 0.18 3413*10 c 0.11 344040c 0.16
539
:sP k
3:2# 0,22 0.10 Ot29 0123
3909*90 c 0.13
8*
0.10
01
8:tT ilW8 cc 8:W l;b:?8f 3902Ioo c 0.30
0.23 0.16 Et: 5 3646:w c 0.06 0.12 mw cc 0.19 3702.20c 0.17
0.18
6096.28 b bl29.00 d 6142.66 b 6176.00d
m8 cc 3072t30c 0.27 317!i,80c
3749.70c 3775.50c
Eners~ uncerkintr
0.27
98 0:13 0.46 0.12 037 5443.00d 0.1s S4S2,OOd 0.14 S4&&8b 0.22
,
rOOd
:@Of 88 ho f
5303.00d
0.14 0111
W%
rOOd
4760.41c
0.10 0,lO
zy
8:tj 0.16 W7.00 d 0.07 4S99.00d 0.05 0,13 022
0,22
ii 4247.00d 4257.00d 4272.00d 4286.00d 4304.00d 4318AOd
Nzi
tm8dc 4Sb7.31b
4156.41 c
0.85 0,ll
ENEMY keU
,7S97*80 c ~7660.10 c :?734.10 c iW8 i ;esa1:10c ‘9181.60c
c=hetwen1 ml 3 k&t; 6 rreateti tlun 3 k@U,
Atomic
Data and Nuclear
Data Tables,
Vol. 26, No. 6. November
198’
M. A. LONE, R. A. LEAVTT,
aod D. A. HARRISON
TABLE
Prompt y’s from Thermal-Neutron
II. ~-Rays Ordered by Element See page 513 for Policies
EMER6Y EER6Y EumY keU keu HEi bk kd Z=3s El.E?EmBR CROW sm1on: baoEfoO Dms
EFEREms:7oRa tM8 E 8% 1bMo c 17bJO c
3!:!8 E 211,lO c
0.29 1.24
::B 0.16
83: :*# 243:70 c 11:41 25bt80 c
0.24
##!:a8 :
!A!
53
: f’:; 0:18
389:lO c 393.30 c 415.70 c
0,ll 0.12
2=36 El.mfT:Ku REFEmm: 72Ba 189.30 c 0642 GM8 1 382JOb 419130 b 133 s&g;
8:W 0.25 1~30
% ‘%9 ;*s$
541:30 c
0166
546.00 c
om
604.70 b b&g g
0.8) tl;g
694dO c 706.90 c 714.40 b
0.29 0.47 0,43
iwab M&O
ti b W:OO
pg
;
963189 c 1!#:B Mb*19
IWlr w/100
449:30 c
0.12
453*wEe a!:#8 E 493150 c 538.80 c
00’: 0:24 Ot12 0.22
S55.20 c
H#w :0: 4lbO.30 c
78b*bo c m40 c
4,27
9101 914.178 c 102!5tbO c 1043.50 c IosI*sa c 11wJO c
1.17 0.30 2.16
571.20 c
0.15
1248,bo c
0.21
618&O E b43,4Q c
4.61 0.16
169OdO c 2066.80 c
B!:#F bWt20 c 691.60 c
83 0.24 0.30
720.50 c 731.90 c
0.46 OJO
o*es
0.41
l&P cr 1# 1124.49 c 2t20 1213.19 b 37.00 H!:# 1330.29 1442.69 1463.49
cc c c b
6146.90c
0.10
71sbJO c
M 0.31 0.18
a#;1 p’ 5250*90 c
M:# : 6222m c 624640c
8s 0.07
?&RI : 7341rsO c 7421.50 c
am 24bO.50 c 2786.10 c
32s3Joc
89 oh1 0.37 0.05
fihki8 cc 6438100 c 0:12 MWt70 c 086
3343.30 c 349o.ao c
“0::
wi8 55obt8o Sm.70 5sbBt40 5bsoAo 5674.10
cc c c c c c
22OOJ7 b e b liw 267&b bb 2760&b
1.20 tg
lb&8 1709.48 1742.38 1780.18 lBl3dMb 1854.38
0:26 0.31 0.85 0.69 0.65 0.51
3!!79:52 b 3617.32 b 3742.71 b 3617.21 b 399OtJ8b 4042.20 b
b
5207tbO c
;:;
6532.20 c
0.19
6569.30 c bb19,40 c
0.11 0.07
5629JOb
0.60
M8
:
%!*R,
:
Bms
1490.59 b 1542.49b ~bpn~
0.77
Otll EC 0.11 c 0.12 cc t*iii
sos2Joc
NM! 3110.74 3148.24 3323103 3367.13 342Odb #agg
b b b b
82 1.20 0.61 26.00
sa:!8 bm.60 bom.20 -_.-.__ 6094.00
0161
ems fEcT1m: 2*soEtOl 1059*w c
0.05 iik!8 cr 0.13 5we.20 c 0.10 5913.30 c 0.34
b1owO c
BM: s&i w8,c bW,iO P 1.76
l&i
EEWY kau
4165,bo c 44 .IOr 44a &oc 44e!itso c 4851,eo c 4942.10 c !mo,90 c
543.40c
and Energy
and Explanation
ke’J
w8PC 8% !#!:68 ec
Capture
k b b b b
0.58 00s 0.47 0.51 f:88
1.30
4893JS b 5057&b 507M4b 5099.44 b 5190103 b
t :X 0.42 0167
Y*# bb I!4 7122 b 5312.92 b 5340.82b
s941r98 b 5965dEb 6036.67 b bOb3.27 b 6123,16b blb4.06 b 6218.36 b 6244&b 6281.4 b 4306.85b 6328.85b
;*i 1:90
bp M c 0.39 uloss SEClIal1 3.7oE-01 746.10 85br40 872.70 899.20 312.00
c c c c c
0.19 0.22 2.39 0.27 0.21
Brim 0.16 0.17
13mbO c 1404t20 c
83 0:17 0.18 0.25 0.10 0.07 0.W
2303.10 c 2310.20 c 639.70 c
0.66
%*S :: 724:OQ c
E 0:72
EnerSr umrtaintr
1139.50 c 1162.10 c 1163.70 c 1304.M) c a=less ti
0,22 1857*00 c 0.42 0.20 1871.90 c 0.23 lm9Jo c 1.27 1973.00 c 0.1 keW b=bckmn 0.1 and 540
27s9.20 c 2784.00 c f:?J
i
2924:eo c m 48 : 3067350 P 3IOb.00 c
232040 c 0.1s 0.W 3130.20 c 0.09 3136.20 c 2346.50 c 0.10 0.18 2352.30 c 0.13 %% * 5 2364.00 c 0.13 0.05 1 keU# c=betwen 1 and 3 kdlv) dr mater than 3 kaUI Atomic
Data and Nuclear
Data Tables,
Vol. 26. No. 6, November
198
M. A. LONE, R. A. LEAVI’IT,
and D. A. HARRISON
Prompt y’s from Thermal-Neutron
Capture
TABLE II. y-Rays Ordered by Element and Energy Seepage 513 for Policies and Explanation
INTtFY
Nil00 :: RB hntirwd)
“Ei
0.18
3824.40 c
i:i
?fg:f
0:04
3992:u c
f
INTt “A00
F
ERER6Y IRT, keU “A00
OIO6 0.03 0.03 0.07 0.03
3542,40 c
4319.00 =c 4287t80
0.04
436Oa70 c
0,04 4386tOOc O,OS 4403ac oto7 0+06
#SO*70 c 4497a c
4s15.30c
lfM8
:
4570*9Oc 4586.40 c 2=38 -8:
kit 0.03 0.04
Y!!F
N%
0.26
;; yo E pi
614 Y 98 :
8:8!
7111:3 c
MM
8:8% 046
cc
71 6.10 c 7211.66c
ohs 0,13 0.08
7438tsOc
0.04
0.12
638!5.40 c 0.15 4966,OOc
0,14 498s,30 c 0105 5012.70 c 0,lS so29,50 c 0.18 0.03
Nit
6064.50 c
6292*80 c 63!%40 c
O&S 0,03 0,18
keU
6187*90 c 0.28 623470c 0.04
8:!1 I!@8 : 8:fl oeos 4248.60 c 0.03 i%t
DER8Y
Ym# #gin
5 c
!i255:80 c' 53w,'o c
0.05
0.18 8:H 0806
0.10
5702*40 c
s728Joc 5760.60 c s800.20 c z%t : R&8’ !w80:70 : 6032*20 c
0.13
6418.40 c
0.12 0,39
0.11 i:Q o,fa i::
Et.ENENT:8R CR888 SECT1 IOn: 1,21E:300 MN8 69Lr 7‘Ma RI8 ", 410.40 c 418.20 c
_.._ MM8 It a:Bi 0811 1761tlOc 0.18
%M 484.18 ss830 576.40
6 b c c
P:M 0.79 9.17 OJS
59bdtO
c
O&O
585.51a
2.13
1774.40c 1779.80c
993.60 c 1039.70 c
0.06 0.23 0.15 0.06 0.06 0.12 OS36
1058.10c 115OaO c 1181AOc !*I: 1218.52a 2:Os
3677.65b
OA6
1687.60c
0.37
EWSY
01 OA
1786.60 c 1799.24 b
1902LiO c 1910125 a
4.01 0818 0.24
iMi!k 3996.40 4020.45 4036t20 40x70
0.08
4077.48 b
0.43
1836M a 188MOc 1891*60 c
:%I : 1953:70 c 1969dOc 1982.20 c 2033.50 c 2081.60b
918.10c
83 Bkl8 cc 0.27 mt80c 0415 3888.85b
OS8 8:#
3os8,80c
0.12
2111640 b lJ8
ii4 0:07 3189aoc 0.16 3219t82 b 0.46 0.16 E?:oo cp 0.09 3318:lO c 0.18
2141.50 c
3337.40c
1”:: f:; Oh
0.24
:i:;+: : tx 2203hc 1144 2252.24 b 0646 2276.48 b 2,lO 2290.80c 0.14 2298.80c 0.35 2315.90c 0.27 2336dSb ot19
Ki
EEi F 0:w 3385:80c 0.07
3397dOc 3426.33 c 34 ,l b 34808 3487:90 bb 3522188 b
0113 0.24 0.14 OeO8 050 0.22
4196.80 4259do 4264.70 4276JO 4287*70
83 0.13 _._od% _. .. l
OJ3
c a c c
0.13 04 0.17
5162JOb 511SdSb
c c c b c
4349.15c 4371.90a
t
0.13 0.16
!i397rsO c s409.90 a
4392ac 4417.50 b 4499dOb 4517dO c 4529&b
H2% =135 :so Sl81SO !im*60 0.12 0Q.g
iwi
f:B
B&E 36s4.10c 3686.00c
%:!I 0.14 0,14
a?ia
P 0': 0:w
MU8
3756,90c
83 0.05
4676:OO c 4700*50 c
3771.95 c 38osJo c
Od7 0.12
P c c c
# * 0.06
A2 b
ss9a c 0.05 ss78.40c 0.09
SS934S b
OJ4
w!
bc 8:I
iM8
c’ 8:8!
4743.50 b
4748&c 4771.25 b
0,o' 0.08
c’
z*i:70:c 42b t26 a
p:i *
8:8% @!:A Eb M 0.06 s8so.00c OJO
M:88
wtcertaintu r=lessthan OJ keUi b=Mmn 0.1 md 1 keVf
541
z% * 5386JOb
4552.95 b 4!$$% 1
OtzS 0.52
t c c c a
5391tBO c 0.14
3541,lSb 0130 3614110 3589.15 c b 0.12 0.10
2677.73 b 2734.26 b
szz 5218:20 s242a m6Jo 5276.82
5361.52a 04
4297,20 c 4305.9Ob 4323t83 b
on29 0.20 0.29
c'
K 8b Oil4
0.0!5
2354dOc 2363ac 2367160 c :
8:8
5874.30 c 5906*so c
0.12 0.a
c=betueen 1 md 3 keUS$= rmter Vm 3 k&l,
Atomic
Data and Nuclear
Data Tables.
Vol. 26. No. 6. November
1981
M. A. LONE, R. A. LEAVITT’,
and D. A. HARRISON
Prompt y’s from Thermal-Neutron
Capture
TABLE II. y-Rays Ordered by Element and Energy See page 513 for Policies UlE88Y
MT, WOO
keU clm88 8Ecm8:
and Explanation ENE88Y
IWTI WOO
keU
EilEa8Y kd'
llR
UlEWY kev
8%
1.28EtOO ww8
!l:58ccM __..-. E*Eee
961.70 978.50 1106*90 1186JO 1212.70 1369.M 1372.80 1417.20
c c c c c c c c
0.85 0181 0.54 2.11 l.S8 1.17 0.70 0.81
2363hOc 24owOc 2473.10 c 2503.10 c 2546.50 c
1559,50 c
0.87
2565.60 c
:::t:fl
cc m
lH:s%
cRos8 8ECTIW: 1.85E-01 623.8Oc 668.40 c
ztao c
912.7 *v 933.70 99030 1060.60 1132Jo 1404.60 447.50 491.70 s40*90 561.40 996.70 602.50
c c c c c c
1.80 0.72 0.31 8.55 0187 0.26
0.37 0187 2JO 0.82
c c +:g c c 0:41 c 3.76 c 7*9s
1425,40 c 1617.90 c 1632.30 c 1642.80 c 1847JOc 1890.40 c
0*60 6,02 2.31 1.88 3.38 1.83
cp
BIlRlls
1988.00 c 2041.50 c 2105.80 c wi rc 232940 c 2354*#c pJ:!J
.
2531.50 253s.20 2693.80 2709.70 2873.70 2932.70
2834 1.12 g
*
2937.30 c 3045*90 c 3109aOc
M:!! cc I:# 3268.80 c 3296.50~ E
f c c c c c c
0.33
0.73 0.49 0.47
t :B 00:8
fij *
4225.10 c 4261.30 c 4277.00 c
0.73 4145 0.47 Oa67 OS6
0888
3474.20 c
la32
4507ac
0.28
::35" 1883
3531,w c 3501*40 J579.30 c
1.03 1.05 0.61
4654.00 4529&c c 4738.10 c
oaw 1.77 0.21
$8,
3607.70 3637Jo c
0169 0.84
lE8 .
4349tOOc 4361*9oc
048 0.16 0.07
4983t2Ob 4997ac 5030.91 b
ELEIIENY:MB cm8 SECTION: 1*15EtoO MRM8 71Ch ~icT60 73540 c 2292.40c 20640 c 0.92 746630 c 2494.90 c 217sO c 0,49 no,90 c 2672.10 c 77st9Oc g:g g p$j I 835.90 c im:158 cc 878.80 c 3114.60 c p#J ; 2p3J I 882.40 c 3387.60 c 343odo c 271:00 c 0134I 3479.80 c I#% Pp 3506.70 c $7&g. ; 8,;; , I 936:70 c
4995,lOc sowtooc 5134.50 c 4pg
5
5309390 c ##J
,
f
#itI8 77OOh c E 8634t7o c
84 0:42 0.82
Er ttib
z = 41
293.50 c 310120 c
4966 4.11 / I I
1 396roo c 413.30 c
0.37 0.24
ml8 cc 3889.80 c 3920.40 c
ifwl s 4648.05 c 466ot60 c
w8:
RM8
%M;#b,
1265.10 c
0.19
E!&Jf
betS%uncertaintr z&ss
o":P 0.18 0.32 0.18
5964t78 a 5979AOc 5997t21 b 6059.07 b
0.36
6396.56 b
0.16
ii&ii
!:::
7110.70 c ;;67rg;
049 i.g
a;#;
i:tj
72%34b
0:Oe
0144 0.09
ss9L29 a 5608.23 c
oh8 0.25
0.20
5647.63 c
0.12
On24
0.32 0.13
y8&;
0o.g
@i&
$1
4260: a 4304AOpc
o":hj 0.18 0.16 0.16
49l3:31 a 4927.40 c
4329AOc
0.27
4949s3 c
C
0:31 Otl8 0~61 0.11 0.34 1.24 0.15
5401.77 b
4711.65 b ;
3104t32 a 5130.77 c 518OJS b
tz
0.31 0.26 0.22 Oe24 0.21
0.17
4004a c 40 ';#F 4155.60c 4 96.40 c ~#o f c
0.36
4s4Ots9r 45!%?2b 4s95*10 c 4607.32r
re
4049 413moc
ce c c c
2121.30 c
c c c c
c c c b b
3544.10 3630.70 36m20 3720.10
:w 1618.30 172MO 1879.40 0.16
00:x 4456*90 4467.60 4485.93 4504.62 4524.76
945t20 c 9sstoo c 9!BtlO c 102st9Oc 1079. 1119.1“8’ c 1130.00 c llsOI60 c
1404:10 c
696.30 c
4396.Wc
b'
than 0.1 keVi b=beWem 0.1 awl 1 keVi c=betusen 1 and 3 k&U C fire&w
542
Atomic
Data and Nuclear
Data Tables,
than 3 keL
Vol. 26. No. 6. November
198
M. A. LONE, R. A. LEAVI’TT,
543
Prompty’s from Thermal-Neutron Capture
and D. A. HARRISON
TABLE II. y-Rays Ordered by Element and Energy See page 513for Policies and Explanation ENEMY INT, ENERGY INTt ENERSY INT. ENER8Y INT. keU N/l00 keU N/l00 keU N/l00 N/l00 keU Z: :42 ELENENT:NE DOSSSECTION: 2dEtOO MRNS 8Ef:ERENCES: 70Ra 187,SOc 0116 759.80c 0.46 2373.70c OS5 193910 c 0*19 778130 c 36.92 24w.80 c 0.87 222,20c 0.18 784,80c 3121 2423.40c 0829 3692t50c 0.41 228JJoc 0.22 811.70r’ f; 2451.50c 0.19 373b60c 0.27
NMcc“aa 4a;#!l rr 8:# 4542.80c 0~23
!!&a rc 2% 264.10c 039 268.70c 0.21
!&I c 1091JOc 1107JOc
oh 3*80 0*57
!@:!I ‘c 8:Tj
w8’c
U!
Ot30 0,24 405.60 c g,;tJ E 550:80 c
569.70c 573.70c 580,20c gpg ;
1.58 g.g
678:Eoc 0:31 720.30c 7.35 737.40c 1.91
3#kB cc “0% 2645.10c 0.32 2653.00c MS
2792.70c 020 2795.40c 0.23 2812.50c 0.19 pj 2846.70c 2958*60 c 0141 1,34 3009*mc 030 3os8.mc 0854 3132.70c OS1 3213AOc i702.50c 0.79 3236.40c 1762080 c ado 326040c 0611 1923JO 1775*00 cc 0.36 1.44 3329,lO 3300,30cc 0.16 ozi 1958,60c 0.45 3473.50c 0,w 2009.90c ltS2 349OJOc 0.12 2111*60c 0.46 3606,20c OJ4
Z = 43 ELEHENT: TC CROSS SECTION: lt9OEtOl BMMS REFERENCES: 79Pi 31.37a 0.78 62,89a 2J2 90.68a 1.07 35:$i x
8: f9
:;*g # ;
is;; t
A::!
:
!:!I
105.71 92,02a 2.34 0+20
ELEllENT:RUCROSS SECTIflN:2&EtOOBMNS 7Oaa c 2,23 711,bOc 0.30 3321.30c 737,40c : i::: 823,lOc f ii! B#:# cc 850,m c 3947.10c 1046.50c 0”:: 4007.80c uJ$tg ; 402Mo c ::B 4216,80c 1342110 c 0.93 4269.80 c 1362.20c 0.89 4325.80c c 4184 1620.00c 3.M 435osoc !i4O,OO 1627.40 c 0.75 4394.70c E 10.69 4477.30c SW&g; ;*lt$ :FO c 1.82 5*88 4586.20c w c 1.55 4627.00c 6bd50 c 0:11 1827, 687840 c .4*01 2459.70c 0.42 4653,lOc z-45 ElIlENT:RN UNISE SECTIOI:lSOEtO2 MM& rmNENEs: 70Ra 358,m c 0.14 mim 818,40c 217.20 375.20 c 0.47 833.90c 2 00 IRK “09 lakB”or, 8 z49.g 440.90c 0.75 mi2.mc * ‘c K? 469.90E 0,77 162oI90c c ok8 482.00c 0.74 2214.30c c 2.69 537.70e 556.40 c 1.49 0.81 =.3t$ P’ c 0.18 289+m c 0.16 597,50c 0.44 3&o c 306.30c 0.97 645*40c 1.70 3642.80c
4613.70c
0.24
i&Y* l,fl Et “03 3896690 c 0.1s 3915,20c 0.13
ma I op:88 4681.70c 0.38 4741,20c 0.40
HM:
kl!
am:
8%
3971,lOc 3996.30c 4018AOc 4049dOc 4071.40c 4179120 c 4205.60c 4228.10c 4268.20c 4294dOc 4308*90c 43sG!O 4325*40 c
0.09
4789.10c
0.14
O,ll O*lO
g:iiJ
tit a:07 0.12
f
492&o c
o”:t! 0.15
4933 497*!!F 5031:10c so43dOc 5078.00c
0.06 0*13 0.20
5107.20c 0.10 5117,40c 0.23 5218tSO 0.05
3.24
4380.80c 0*12 5247.30c 0.47 4442.90c 0~46 5285.10c 0*19 4493.40c O& 5404,90c 0912 166d8a :fM
1.23
: d:!!
206.16 196,44a 0.90 1SO
213.20a 1.76 w
t
7414.70c oml 837l*90E 0.59 75 744 ;j E !a# *
299.48a 11.49
f:#
276.55 263.56a 5.20 3.10
2=44
5 8*!Z
g.g; 342:00c
:.; Ok
789.90c 0.22 7!ndlo 1.11 816.10c 0.18
0.28
4828.20c
0.13 0.15 a.49 cc 0.10 5022.10c 5091,40c 0”::
%m 5333:OO c ss67JOc 5586.30c Ot43 5670sOc
00% 0.27 ot12 0.15 0.12 0921 :*ti zxi : 0.10 0:72 58!&0 c 0113 0119 5871,lOc 0113 0.31 0.23 0.48 Od8 0.16 ;;2 0.42 0.26 0.13 0.28
0.m
4220190 c 43OsAoc Ii&8 cc 4447,80c 4482.80c 4!iO9,70c 4w.sO c 4547.90c 4432.80c 0.34 469040c 0~11
5893.90c
a!;# cc 6298doc 632SdO c
6342.00c &x71*40c 6416.20c
Ot27 O,lO 0.11 0.47 0.15 0.31 0.82 0.13 0.21 0.80 0.19
6689doc
i:i #!I* x c 662630c 0143
48km c 0.11 49ooAoc 0.10 tM9 EC 8:H 5006.30c sO21.70c
I*:: a:13 5134*50 c 0.10 5154*40 E 0.49 5203.90c 0.43 5266.20c 0.93
5110.20 c
0.18 0.29
3968.60 3727,wc 0.26 0.17 4726.40 4694.90c 0.19 0.09 !w*w 5323.10c 0810 1.29 4022.40c 0.14 4833.70c 0.16 smrn c 0.20 62mlJoc 0166 Enerw uncertaintr a=lessthan 0.1 keWh=hetueen 0.1 and1 keUi c=be&n 1 and3 keUid= Sreakr than 3 keU*
544
M. A. LONE, R. A. LEAVITT, andD. A. HARRISON
Prompty’s from Them&-NeutronCapture
TABLE II. y-Rays Ordered by Element and Energy Seepage 513 for Policies and Explanation MT* 8mo
Try
z= 45 ELEtm: ml 6303.00 c 0.15 Z=46 ELEEWPD 8sE8aE8: 7oRa z245*O”c s*24 2433 17 : 8s 291.00c 1.49 301.80c 0.41 m8: I:# 3s8.90c 1.31 396.70c 0.21 414.90c 0.28 430,‘o e 3.75 463.60c 0,19
m8 PC 8;ii 615.90c 8,40
Y!?’ 8% Z’ hntinwdl
63s3.90 c 0137 6419.40 c c88ss SECml: 6*9moO MM8
6s7*60c 0.20 2457.50 c * c M8: 8# m8 25210 ‘, 7s4do c 0.38 w.70 c
0.62
1w8: 1127.80c 12OOt60 c 1348.70c 1396.30c 1422.90c 1526*20 c 1572.60c 1573dOc 1618.60c
g:H 2.83 2.34 0.46 0.91
2706*90c SW8 cc 3030.00c 3148.70c 3227.60c 3335.90c
atI z :d 330.20c 0.51 3xMo~c 0140 360.60c E*ii
1,81
5 3
ih8 c 4490 : 49sdo c
8k! oh1
6997.90 c
0.07
“:“,: #a t7 4
Ot66
*lo c 0. 6SmlO E 0.09 6624&l c 0.18
8:ti 8;Z
83 0.14 0.13 0.13 0.27
4920.00c
0.25
y$;
0112 0.30 oat9 Otl4
5018.00c 5099.60c s179,OD c sm.40 e
0.07 0.06 OJ3 0.06
5917h c a:12 ;p$p 6017.60c 0118 6049.80c 0.07 E&o; 6168.30c 0.05 .
9’6% 3
0.15 0.13 OIL7
‘,
tg
707srlOc
0.0s
E 1:p x:oJ ,
89 fB:t8 ‘c 83 6294Aoc 0,os
cc 6&80 c 0.37 M38.90c 748.40c OAO 3993.30c iws 81’15 m8’c 0412
4724.30c 4812.90c
1.03 0.83
897.10c 929.10c
l8M8 F 0.26 4139,30c OB24 s111m c 0820 41S4,60c 0.07 SK%80c
934soc 0122 42sotsoc OJ2 1011*70 c o,S8 4347840 c Ot19 1029*40 c 0.46 4366.00c 0.18
8:B
83 ;I;
8% SW8 : 0.29 22s2t30c oh1 0.68 2314.70c ig I:#! m8 EC 1#47 238oIsoc 0109 4.95 2397.70c 0.99
s38sdoc 0.24 5496.80c 0.14 0.38 iw:;I”o Ee ss77*60 c ff 5611.80c * c I#!!8 ffi s74o:oo: oil8 5771.00c 0.42
486040c 4929670 c
549.80 588.60c
SOo1.20 c 5051.10E
51x1*20c
0.21 s792.90c 0112 S810.80c S2OSIlO c 0.36 5893.50c s19s.90
c
6ossaoc 6oMa c wi8 F 62&o c 644s.90 c ml8 E 63E:*
1.01 707s.80c 0.33 7268.40c OlO8
8:El S3S1.90c 8:ti a:+8 8:&i 0.07 5995.10c 0.12
ift!f:!8 ce W8: 2206.70c 0.82 46s2a c Otll 1.09 2336.60c 0.23 4738130 c 0.23 2148 El.EMl:CD cmssSErxm: 2AsEto3 MRu8 8EFEmcEs: 7m 368Jo c 0.11 1746.40c 0.34 2s82t30c 0.26 1 61.00c 0.45 Jo c rl7 1L 3.50 c 0.41 P6lOt40c *13 1826.00c 0.70 26s9.80c 1879140 c 0.77 267s.20c * c #?kl8 rc ml? gsg ; 1:*9$ 2022.30c 0.26 27&o : 0.16 2067670 c 0.13 2767.30c 1.31 724:90c 3:92 2083t’oc 0.30 2799.90c 0162 747.30c 1.37 2102tsoc 0.83 2811.90c 0.18 sWto0 c 466s 2124r30c 2822,lOc 0*08 &I: 923.50c 99440 c ml8 rc 1302*60 c 1364.20c
0.36
?n!M cc 8:M BM cc 4064.70c 0109 5310.70c 0,07
Z=47 ElDlEma8 C80888ECTIllN: 6AEtOl WI8 8EFEmxs: 7oRa MAO c 23.88 s2sAoc 0.98 3003JOc 205.90c 8.67 537.30c 1.27 3310.50c #m : is:!! 259.80c 0.77 267.M)c 3.42
6785.80 c
5522.90c 0.68 4999.90c 0.0s
3634.10c 3739.30c 3776.00c 3909.30c
MA8: 1988.40c
Oh14
8 it! 1:4f
MM ‘c 8% 2973.50c 0.06 3ooo.00c a&38: M68t90c 3lao.90c
W8
rc
:
S3SkSO c
0.14
6019.10c
0.31
3273.40c . c Em8 3&o : 3441.80c * c H# 3So1:10: 3s46r20c 3S8MUe 3612.90c 363740c
0.05
3994.20c
0.23 0.13
i:; * 0.28 0.06
HkIc8: 3728.10c
8% OJO
0.49
0.05 8;8i
8Y11
‘ont90 E 4097t70c 4124.80e 4140*50c t . c l&H8 4222:‘o: 423s.30c 4286t20c
4683doc 46 dot 4a dot 4745a c
8:E O*OS FM . c .7 * ‘ai8 886 4834:305
0”:: OtO4 z4
.
T
4309r40c 0,lO 4331.20c 0.w
y3&so;
tW8: 439lrOOc
18!3kc SO70:40 : 0:18
8:W 0.11
00’;;
834
M. A. LONE, R. A. LEAVITT.
TABLE
ENE88Y keu
cm8
Z~~EllEWaIW c c c c
3M8E,
0.47 0,24 0.27 oxi 8%
0.11
EllER8Y keU 8% 0.04 0.18 0.20 0.13 0.60 2.13
5878t30c
0.05
98 c’ 8*ii oh b215.00c 0.04 6230.40c 0.07
#
M42t40 c
4234.70 c f2gg E
&4&1:80 c 0:lb bs17.20c 0.11 6587JO c
0.13
3267.60 c 3282.00 c
Otl5 4121.70c 0.04 0.14 4134Joc 0.04 0~18 4lsO*40c 0.03
7bLbOc
2112.10c 10.71 21botooc 0.17 2187.60c 0.24 2337t4Oc
0.24
w8c, 88&m c 9lwO c
8% 0.58
mi!8: 248bdOt
8:996 i!R38E, 8:N %iH8r 0.11 3’00.00c o&b 4309.30c 0.12 342btOO c 0107 4323.80 c
727JOc
819.30 c
a24:E ,' %!i Jo c
rc
lOb7.80c
0.16
2579.90 c c' c 2703.90 E 2743.40 c 2772,bOc
3331.40c 3351.00c
8:!8
w8
0.15
3544*90 c
84 oh 0.08 O.Ob 0.06
iw8
lbb9t30c 1732.8oc
0.23 lJ8
2927e9Oc
0.05
ab9#
8:8i
:
#!3: M !8F 1.40c 2004.00c Oelb 31lSAOc 0”:: 2016.70c 0.18 3161.00c OIlS 20%,50c 0.26 3198.20c OS10 C8088SLCTIOII: be3OE -01 BMNS 732.80 c 760,8Oc 819.90 c 869.40 c
0.45 oJ3 0,27 Ot31
2022*&o c 2042.00 c 207520 c
2096.90c
ma 104Oa c 0.44 1048tbO c 0.35
:w
lOb9,sOc oa cc 6.84 7.85
0,27
0.34
at48 cc 83 ssb140 c 037
1648.30c 0.41 1666.90c 0.32 1726.90c 0.90 1747.40 c 178 18lf.80 680 c
3703.20 c #l&# cr
710*00E 0*21 Enera uwertaintu
227odo c
r' c
198MOc
0.21
0.06
tm8 cc 8:!8 w8: 4bl3,lO c 0.04 s!mt90 c 4bs1.40c 0108 5712.50 c
8:M Otob
0:11 0.10 OAb
4W:# rc 4743.00 c 4774mc 4807.80 c
otos ;e#
0820 4823.70 c OIlO 4849.70 c
0,03
8:!i
W8:
oJ4
bO47,40 c
ml*90 c
8:: OtbO
0.09
613hO c b231*10 c
0.03 0104
0.16
0.07 0.06
m8
044
5 8:E
4058.70 c
0.08
0.25
2722.00 c
;:;
2774tSOc 2789.40 c
0.10 0.14
3421.10c 0.06 3436.90c OIob 3459r20c 0.53 3474*70 c
o&b
g ebJ; 89: R 421hoc oh4 Jo c
0,ob
#8!i8; 3s27a
c
M 0.07
='%cc 0~39 8# *so c
003 ok9
Bti :I rc ‘354.80e *lo c .20 E !I!! 4 do c
0.04 0.03
1.14
0.14
2738.00c
WM
0.20 0.14
cc 8:1
3%: 293o:oo c
2961.00c
odt 0121
4969.40c SOSr20c s32Ao c
8%
0.44 0118 0.09
OIW 3bll110c m:88cc8:B #lM8 rc 0,lO
0125 2986.30 c
0.11 0.19
;:; 3169.50c . 3196.00c 0.16 3230.20c 0.10
3155.10 c
0.29 0.17
27MAc
4441,boc
0.0s
0.29 04b
0.30 0.36 0.80 0.21
0.18 OlW O&
0.04
a!28 :1 cc I:! 2307tOOc 3032,90 cc 0.21 2326.80 c oh 3057do Em8 cr 8:H WI cc 8:f 77 0.21 3121,90 c i&7'i8 2417h
4372.70 c 442ot80 c
mG8Ec
rc iia c 0.19 c 0.14 c c
387bdOc 3928.10 c
8:il 0.08
s48l60 c
0.15
cc 8%
3blOtbOc
4074.60 c
Ma cc “031 4oob*90 c 0.15 4o4stooc 0.08
ot49
1826.90c 1843*70 c 1alMo c 1922.30c 1944*50c 196OJO c
215OrOo 2171dO 2179.00 2245.10
0.06 OIbo
cc WI
2824.70c OeOb 3773:80 c 2878.70c 0.05 3792.00 c 2891.90c OAb 3811.00c
478.40c
0.05 8.E
0.23 oa13 0.12 2.71
717,80c
2 7*!! 2R 2bb2,'o
47!i.O0 c
545
Capture
8ECTmN 1.94EtO2 Mm!?
lm8
35&*90c
Prompt y’s from Thermal-Neutron
II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
NY,
WlOO keU Z=# ELEmY:c8 kontinued) 543l*‘o c 0,w 5633JOc !i457.!50c 0,lb 72&o c y&g ; 84: 8 08do c 5721150 c S!B’:# c 0:lb 5782Joc Sm.00 c 0.09 5823*9Oc 203.i 214.40 219.10 232.30
and D. A. HARRISON
0.39
3403.30 c
otw
4
8:Q: 0.04 0.07
441 40 c
O&b
:P :
848
3658.90c 367330c
ii
:z : 8:: . c tm8. c 8% r80 c ‘bl *‘oc 8% 3 a0 c OtOb
HM rc 3728.70c 3778.70c 3793.10c
3m9tsoc 0.22 581540c 0.05 348: k88 389lJo c 398240c 3927.10c 3954t80c 398l‘soc 4012Isoc 4127.80c
0.14 o*os 0.07 0.11 Otl’ 0.04 OIOb ww,90 c
a=lesstitan 0.1 Wi b-b&em 0.1 and1 keW c=&tAmn1nd3luVid=anrtrrti3w.
0.06
546
M. A. UINE, R. A. LEAVl’IT, andD. A. HARRISON
Prompty’s from Thermal-NeutronCapture
TABLE II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
Fry NK!ivy zk F
F
it%
Z=50 ElEElll: Sn hntinnd) 4975.20 c mw
:
sm,so c 5ll4Sl c sfM8
:
5171.20c
0.09 8#
5219.30 c
otw
#!;28:
8:B
0.15 0.14
5362.10c
8:#
0.16
5972.80 c
0107
6335.60 E
0.16
6978.90 c
0.07
cc 8:83 o*os sB22r40 c 0.18
BktE 6094Aa c
83 0.06
M8: 6460.80 c
83 0.03
MJ8 : 74SO.30 c
8:# 0.15
5932.40 c
&8:38 cc M 626MO c 0.43
##;I8
5392.50 c
0.42
5741.40c
Wi:i8: 5467.20 c
83 o*os
#M cc83
1.35
0.17
283.20 P 310.90 c 316.30 c
3.24 OIl2 0.19
0.18
Z=52
332twc
2.53
613.90 E
3sldO c
0.30
431*40c
452*00 c
0.17
546.80 c 558r4oc 59Mo c 602.40 c
0.21 3.25 OISB 0~45
491*40c
0.25
iii:88 415t70 418.60 422so 557.00
0116 2783.70 c
EunEul:1
0.65
kit
0.59
$a# Ii 8% 206.94a 0.11
8:#
0.08 0,lO OIW 0.23 jvi ok
1206.80c
0.36
46wdo
0.17
5675*90c 5603.90c
0.11 0118
0.19 0.20
48l& r’c 5004:w
00;:’ 0:w
Eic: 4
:*:,
0.12
3921.20c 3964.00c
0.10 0.12
4981.90c 0.20 4989,OO c 0.10
1355.60c 1569.30 c
0.32
c
0.09
513.Jo c 5245.50E 5336.60c 5407.30c 54&g ; 5562:60c
1247.00 c
4304.00c
5126.70 E 0.15
56OOtSO c 5619tlO c
0.26 01sB
0.23
3153.9oc
0*43
3222tso c
0126
EP : 3&o c 3543tso c
8:ii
4043.20 c
0.W 407940 E 0.22 4103. 4s c
4134, c 4153.40c a2&
0.11 0.14 0.13
c’ y$
4344:90 E
oh3
0.26 0116
Oa:;
0.13 0.14
5045JO c
0.26
525Ot30 c
0.24
5loOt7Oc 5leO*lOc 194.90c 5206.10c 5227.20c 5278.10c
0.06 0.15 0.15 OIW 0.19
6614.10c
0.11
0.07 0.12
698.60 b
0.13
6$76!
;*z
0,23
6734.00 c 7lOOJO c
0~17 0.13
5457.60 c 5560t50 c 5618.40 c 5667&c
4684*20 c 4781.20c 4854.10c 0.88
iw8 5879.90 sw3rBo 597iAo
: c c c
8:ii! t::
8:iw 0.61 0.21 0.17
6025.70c
0.18
S44.52b
0.09
570.60c
0.10
317.43 b
0.14 ;.;
364&b 369.37b
0.w
i#
g;:
83
0.41
24w3r
126.99b
0.19 ;.z
255m g;
&b
O:#
#j;#t
153:02r 156.53s
::u 0.59
284:Olb 0.14 290*80a OIW
a i
3Qlr870
WC
344.73 8
io6.27 s 124.30 8
251.68s
299.97 b
0.75
oh1 04.:;
0.22
354t70c
392:26 f
0"::
461.21 458.01 sb
0.16 0113
55er60 557.42ca 0.17 0.15
462&b 464ss a 47OJOb
0.09 0.14 0.08
579.56 b SE!&!3 b
477.32b 483694 480.9Obb
0.06 0.05 0.08
586r85b 589813 ba 59046
0.06 0.21 0.39
#iSi
83 01oB
##:84 8 I# 502t63a 0130
t
6ON2b 613.18 b 618.45 b
504r37 b 0.07 0.14 398t61s SM.49 b 0.03 0.09 409.79 b EneHlrtmcertsintv s=hssthn 0,l k&V b=betwm0,l and1 Levi c=Bhsen 1 snd3 krVi 63 Jnrkr Los
6030*60 E 0.17 6105.40c 0.14
5373.40c 0.14
4388dOc 4433*00 c 4491.30 c 4509.70 c 453lt9Oc
824 4673.10 W8 ccc
323.10a it:: 33ltOO 3&8Jb 0
102:31 im a
1.10
3884.00 c
oo:!!
0.46 0.12 0.12
224.12 a 231.27 235.81 8 a
160.74 a
0.34
cuosSSEcmH:6*2moo Ball5
lEFEmmt 27.18b 7wa 1.6971sc1641s s 0 21 42.80 b 0.34 193:n a oh6
;
9326.10c
#k# cc 69ldt5Oc 0.06
0.12 0.00
3815,lOc
67.10 b
0.22
4567.70 c 4602t60 c
m!:R : 3722.00 c 3776.80~
pp;
168Bt40 c 0.24 0.W 1697.70c 0.37 0.29 1703.40c 0.26 0125 1722.30c 0.22 0.14 1949.50c 0142 0.15 3235.80 0.17 237wo c 0.16 0.18 0.19
027 #iM cr 0.14 30254!0 c on15 3092*00 c 0.32 0.19 3104dOc
P:# ii
6601.90c
0.16 921.10c 0.98 1019.50c 0.70
2797.30~ 2909.00 c 2927.00 c 2942.20 c
203.70 215.00 244t60 251.70
1325.90c
0.03
CROSS!EClIoW:4.7OEtOO MM6
EFEmcEs:
ze53
0.06
6158.90c
SECTION: 5.4oE400BMHS
27540 c
32240c
0.04
0.33
~alEuTT~~70~ 201.60c
5517.50 c
297.64b
0.08
69!l:W b
0:31
a:!! 7wr79 705.46 715.62
83 0.41
1 a b b
thsn 3 kd4
0.15 0.13
M. A. LONE,
R. A. LEAVITT,
TABLE
z=53
ELEtm:
720.18 b
I
0.05
g
8.#
kmtinuedl
1006.33 b
0.26 0.18 0.31 0.11 0.09 0.19
1035.93 b
782:89 b WOJO b 804,91 b
0:24 0116 0.09
1’8# :!z,” 1051.96 b 1063.60 c 1071~42 b
811865 822.14 826S2 839.24 841.32 857.51
b b b b b b
0.08 0.08 0.07 0.06 0.09 0.08
1074.13 1094&b 1133625 1141.71 1147.37 1151.23
lH:$:p !i 890.20 b
898.62 a
8:f! 0.07 0.24
1u.k’Ia t 1394t57 b 1618.70 c
932.00 c
0.16
1984.90 c 2207.00 c 2937.60 c
z=54 ElmEmKE KFEEEE8: 7lKa 384Jo c 0.64 yo*; t' ;,i 481:so c 12:56 @:I8 s *kH 571110 c 1.04
4425.70 c
0.11
b b b b
4511J2 451L99 4524.01 4512.86
0.07
-8:
4SOW3 a 0.13
0108 1.18 0,42
0.11
c a b b
tRB 1 4593.01 b 46OL14 b 4612.91 b 4619.27 b 4624Al b
4668.01 il
c8888 8Ec11oJl: 2,45EtOl
8’pf Oh 0,18
045 Otl2 Otll 0.07 0.08 ;:; 6
0.05 0. I84 0. 0,05 0.15 0.05 O&8 Oto6 0.13 0,07
5137.14 b
4864.50 b 4872SOb 4878aW b 4892.06 b 4926.80 b 4937.04 b
0.06 0.06 0.15 0.14 0.09 0.18
5361.40 c 537oA8 c 5384.53b 54OW8b 5145.58b 5151.98 c
m8f WOOtOOa 5014.00 b
8:15 0.25 0.13
4&I 1 5494.39b 5522&O a
5018.24 b 5028~39 b 5032189 c
0~28 0,iO 0.06
5951.07 b
mm! 3095.69 a 5109169 b 5119.39 b
WI ' bc 5197L9 a 5209.07 b
5558,488
8:$" 0.23 0.09 0.06
5SA.95 .07 iM .70 5646J7b 5657.47 5722&b
b b c
c d c c
b
1.60 3,04 2.48 2.24
1656r30 1691.90 1698.20 17lSAo
c c c c
2292‘50 2519.10 2539t20 2!m30
c b c c
Ot88 2.08 1.52 ado
5427.90 5475.10 5515.20 s693Jo
M:s8 1291.30 1297.80 1319.90 1366JO
bc b b b d
M 6.88 11.92 12.08 0,72
mu8 lM4.20 1853r40 1861.20 1890~10
b, b c c b
ml8: 3030.80 c 3356eSOd qgb$o$ ,
t:1 1.60 0.40 t;g 8
IBM !! 57ss.w c s886.60 c 5919.10 c !i958tSO d
1.60
t96 b .SSb 40 E ~24 b
0.14 0.08 0.05 0.05
::s
tZ*
d6 b Jo E
0.16 044
:04 b'
8% *
:41 86 k ,15 b
ii:!! 0.11
67 r60 d 67iI .90 d
0.11 0.15
0.18
5!09i9i
b b c c
1899t80 c
1560*80 c lm.20 c
1.12 1.28
2094.80 b 217Ot80 c
0.48 4.96
1608,20 c 1617.46 b
0.88 2.40
2194.60 c 2209.60 c
Mu8
M
w98
M
SsiM
‘c
547
MJS
1011.90 c 1031.50 b 6
ii{
4692.11 b 4710.04 b 4742.31 b 4749.41 b 4x7.39 a 4771.31 c 478MOb 478%,80 c W&21 a 4851.18 a
1124.10 1139.50 1156,70 1173.00
1379.40 b
z=55
83 0.15 0,07
b
=3B*w”: 3510:80 c 3656t40 c 39x90 c
Capture
II. y-Rays Orderec ;1by Element anId Energy See page 513 for Polk :ies and Explanati Oil
mn b” 1028194 b #.#
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
bc
cm8 SECfIal: 2.9OEtOl 8ARHs 561 a T48' 116J7 a 15.15 142J7 a 61112 a 0:18 116.61 a 1.22 MM6 a 61.17 a 0.15 117.17 a 0.23 146.42 a 149 .g r 130, a 173.79 a 174.31 a
0.96 1;;:
8f Oh8 0.23 83 0.97 0.17
28 ‘d 988
8:H 4.59
HM f 132.76 a
i:# 0.09
##a
114.33 a 115.34 a
0.26 0.05
133.59 a 137.76 a
0.14 0.11
180&B a 186.84 a
EnerJr uncertaintr t-less than 0.1 k&i
:
lWd2 a
89
83
m8 6&gsi NM8 ,d
7413.20 c
0,lS
iw#li 5139.30 c 5207.40 c s236t80 c
83 Ot26 0.22 0.28
6318.40 d 6380.10 c 6423.9Od
40 d 40 d A0 d
0.14 0.16 0.02
5268.40 d 5340.90 d
0,14 0.23
6467.50 c 6526.3Od
93WAO c
0.27
ma
"d 855
ii?&88
!
ElmEmc8
!k#i f 113.76 a
89
189.84 190.26 193.72 194.71 197.78 198.30 200&4a
a a a a a a
0.29 0.10 0.11 0.16 0.16 3.77 0.44
2l8.35 2l9.76 232.18 23444 240.68 244.95 243.86
a a
#RN : 209.55 a
I :# 0.27
m! t 254.76 a
a a a a a
21L32 a 0.74 236.64a 0.71 211.92 a 0.07 260.S8b 0.07 b=brtmrm 0.1 and 1 IW c=b&mn 1 nd 3 IwVi 6 Jreatw
Mm 3 ltd.
548
M. A. LONE, R. A. LEAVllT,
and D. A. HARRISON
TABLE
Prompt y’s from Thermal-Neutron Caphue
II. y-Rays Ordered by Element
and Energy
See page 513 for Policies and Explanation
liii 29b.20b f:8
t
0.07
83
wstob a 0*19 307.260 4.15 Pi!5: : 3lb.40 a 317.08a 322.708
8% 0.08 0.39 0.07
32944 D
oa
336.07a 0.10 i#:8i b,
344.79 a
8% Otob
MS.38 a 0.18 aJ:p[
pj
3&o
a 0:94
us.93 a 0.31 347.88a 0.44
0.08 otio 0.41 0.18 0.1s 402.41 b 0.09 403.10b 0.16 4osd8 a 0.19 WY ‘0 412.50b 414.50b 1 ;I* a iI8 42h t 42b.40 b
48s*osa od2
1444tWc lS48,00d
2.94 1.90
Inl. WI00
s7oJo c #Ml ec 572140 c “::8 a rwT E SmtlO E
Otlb 034
0.45 0.37
5949, c
648S7b b63.28b 482SOb
0~44
4348.77b 44OStOO d tt&!8:
5976. 88 c
Otl9
6018.00c
0.13
0.10
0.43
0.62 0.13
6S81.00d 6614.86 c
0.10 0.12
8%
838 0.16
#itO % 6713&O d OtO4 b7S.86 E 0.14
4931tsoc
0.07
8;8! 0.08
429,80a 0.20 432.4 b 0.10
2Sbhb3b 0.40
4.20 1047. !I8 c 0.89 143Sr32 b 14.05
z=!v
b
UEWY w
0.20
i&3: Ml B&8 : 1::iil b84JOc 0.42 8.78
.
w’k
8:8 0.09
3338.34b 0.44 336OtOO d 0120
4497tOO d 4sw3 c ia$!ti
37&O : wooJo c
818.60c 1040. d
83
b&4 bb
3678.10c , c ai!8
1.19
0.19
#4
34x93 cd 3490.W * c m8 3bdo3 ;
4b3tooc
547.40b ilim 622.17 b b24t42b
EWWY kd
oo:ze:
sw8.73 c m8dd
1.51 5713,bO c 0.37 5729tWb 3922Jo c 0.18 oa 5971.33c 0.23 39b3Jo c OIo9 6019tOO d 0813 6027,lOc I:! 405740 c 8:E 11. 0.18 a! 040 Oil3 411 : ,b wi 0147 SO9WOd 0.42 0.07 c 0.37 0.12 %Z b' 11.20 5107*30 4242:62b 5177. b 0.15 612beOOd 0.07 42sQ.40 c’ 83 5220. iii d 0.10 b268rOOd 0.07 4287.47c 0.28 524QdO d 0813 b33LOOd O.lb 4323.58~ 4331.mc
4722,iZc 4760100 d 4772.00c 488ot40c 4897.30c 4924.00c Mb,48 c
0.19 0.35
0.63 O&S
S27OtWb
9504.00d
tmk! b969.00 d 7028AOd
8:U 8:po 0.04 0.09
7173.50b 0.14 n14.10 c 0.33 7s32:ood ;.t * fB98 829o:wEc 1:: 8300,00d
8619.00d
9108.POc 9120.60d
0620 0.03 0.34 0.31
1054.40b
0.21
1125.1 b 1133Joc
0.33
0.38 0~45
u.Ew8Y:i.A
744.20b 749.40c 766rOO b
290.91 a 304tw a
310‘138
3.80 0.24 0.31 b.97
---.. - - . _. ibsds a 0.1s 167.20b 0.07
83 0.53
0.19 8.80
jptd:l,b 335.86c 34lrb2 a
. b #ia w7:57 s w3*20 c
#l;#t 407.20c
#I:#; 837.w E
422. 8 Lb9 424.!i a 443.21b
477.92a mt, 528Mb S43.2Ob SW.92 8
8:%
658.28 b 667.6 a Wl. d b
b89.w c w!“,
no.40b
1.17 O&O
0.10 om ?a 0.6s
722.79a 2.84 737.W b 047
848r9Ob 843&b 8M.Obb 882r27b 8M8k 935.80 c 939r4Ob 953.8Ob
0.42
M. A. LONE, R. A. LEAVI-M’, andD. A. HARRISON
hpt
y’s from Thermal-Neuhon Capture
TABLE II. y-Rays Ordered by Element and Energy Seepage 513 for Policiesand Explanation ENEN8Y kff 2=57
ELElm:L 1142.70 c 0. W8
cc
kantinued)
8:
1432.80b
219srlO c
ff31:?8 t
m8
0,23 0.45 0.85
rc
2304.90c 2317.00 c
0.15
8:8 0.15 0,lS
2w:g rr 8:ii 2423.80c 00:: 2439.10 c 0”:; 15136 2451.00c 0.13 2482.80c 0.10 2!!19,90 c 0,87
pg.; b’ 84 122!hOb 0: 1233.10b 1253,74 b
Oo:!! OIIO 2bOaJQc 0.20 2b20,sO c tg 2b39.60c 2668150 c 0109 2686.40c 0*12
a&i8 : 2583*90 c
1363.70b f3a&lJ ,
k
2700.00c 2713.90c 2736.60c
0.17 8.;; *
t:; oh
3113,lOc
3719,OO E 3727.95b
3142,90 c M% EC 3lWAOr 3218.30 c 32bs.30 c
Bk100 rc 3820.75 b
3319.10 c
3901.20 b 3951.73 a
3847*00 c 3864*50 c 3875,lOc
328lJO c
3342~80 c
33s8Jo c 3372Ao c
8:# 0.63
m8 cc 255.50c 2b!Mo c #*B;
k!! 4.93 1.50 :.a
p;:g
;:g
;
33480 c 95:98 4o4tooc 1963
iE=AiT: 7081 17u.d c 11. 230920 c 0, 244.50c 0. B*88 c’ 8, 327:g c’ f : aho c_ 0: -_-.__
350.50c 0; 36lJO c
0,
aa8
cc M
4bOJO c 1.23 4bLlO c 0.97 4Ei.40 c 14,40
482.40c 2.27 s84rboc 9m !wsa
c
1.17
662.40c 26,40 676.60c 2,22
w 4.74 2.71
898.00c 902180c Yd 943.30c 18:43 961.80 c lo,26 977Jo c 5.08 w7,OOc lJ4
cRosssEcl1oM:l.l!wOl b8bJo c
1141.00c
1.42
1169,80 c i.44 118bdO c 19.67
1262160 c 132br20E 1371.40c 1712.60c
4.09 St99 1879 3.84 4481.00c
OJ8
29%so
0.13
c
942.10c 956.40-C
2407.50c
920,oo c
3167.40c 00’: 3192.30 c 0124 322lr40 c
oo*i 0:14 OS3 8f oh1 0.17 0.20
391.40c 1oob*bo c
w8 : 439.90c 4blJO c
w8 : 1149tsO c 1177.90 c
Hkn : 2530.80c 0.14 2sb2.30c 0.73
3 :E 33
Rt8 : 559.70c
m8 cp 1248.50 c
m8: 2619.40c
8:4# 0.21
#i&n: 3566.10 c
r71 8.13 0.38
2661.30 c
0.14
338bdO c
0*14
1.45
Ener*rumrtaintr
1273.50 c
2436.10 c
2449940 c
0.47
8:1# #ia8
3534*10 3ssoa 3641,bO 3630*30 3652*00
89
4:21 0.43
c c c c c
0.47 0.27 0.58
1”:# 3712190 E 0.67 37, c 0.24 37#!M 0.15 379lho : 38llJo c ‘dE *
0.20
iii*: : 403:90c
573,lO c
t :1
1
M:R cr f:b4” 1122.40 c 1.04
179b.bO c 0.97 2946.30 c 1889eBo c OtS8 2963.40 c 1943.30 c 0.28 2977*00 c 2244do c 0.24 2998.60 c 2237*60 c 0.13 3029.70c OJl . c :I: 0.19 au8 2350,80c Oa24 3134:aO c’ 23swo c 0.20 3149.60E
EM:
=rM!
B#EMs
1702,80c
E# c’ 747130 c 790.90c 803rooc
0113
5097670 b t 28
3384.40c
1.14 0.38
2884 27 3: @ii 5 2838.30c 0.16 c 1426,30b 0.19 2863Joc 0.62 3477390 iEc110M: 6dOE -01 Dms z=s8 ELENENCCE CR088 ImRENlm 7ORa 712.90 c 4157 1049tsOc 3.65 22s,ooc 0499 439,70c 54.38 MM 1 1418&O b
4997i6Ob 5046po c
0.11 0.19
ii: if
427730c uobpo c
432bcbO c 434hbac , xw W8’ g3tJ ,
E
462SilOc
E’ 8:8
0.14 0.w
4072JoE 0.07
r=lrss than 0.1 keVi b=betwn 0.1 and1 keUI c=b&uw~1 and 3 WI
C rrutrr
tJuh 3 k&L
:w; AL A, U&&l&R;
A: w,
and .B.s& &kRRISON,
TABLE
F!nmpt 7.5 from Thermal-Neutron
II. y-Rays Ordered by Element See page 513 for Policies
0.30
z=bo ElEllEm88 =vf8i cT71 981.20 c 2.34 M8s tg 8:1 f8RP,r 8:B po,p 1049IOO c 0.42 e 0 1109*90 c 0.30 1221. 1138. 88 E &j# w8 : f:# 4s4.50 c 6.24 1341.30c oh0 477.10 c so2Jo c
5.75 5.23
sb4.50 c 576.50 c
1.42 0.20
13sb.40c 0.38 1377,lOc 1.03 1414.10c 1453.30c 1481.90c
iR#: 2l:tl 67lrlO c 0.27
p1 32
1672.50 c
1910*00 c 2072rlOc 213OtbO c gpJ
814.70 c lOxi
a
f
2347.70 c
864*90c 12.20 2372.40 c
“ok
s842.90 c
1.38
3410r80c * c WI 3&o : 3462a c 3s46.80c 3733.20E 3774.20c 3788.90E
0.34 4257110 c 0.13 A0 c 0631 El! do c 0.23 4351a c 0.22 4356t30c 0.16 4407.10c 442ltOOc 8% 443640c 0112 4sOMOc 0.35 4515*20 c
0.39 0.20 0.76
3833.70 c 3843t40 c 38s2a c
4534.80 c 4563.50 c 4394, c
4blSI8 c
3892.10 c 3942.20 c
80::
“:;E 940 *sot 4113.10 c 4122.30 c
0.21 On16
413Oa c 4214.40c
oi!
and Energy
and Explanation
3803.90 c 0.41 0.18
Capture
4669.80 c 4690.30 c 4747.10 c yj;iJ
.
EZJ .
f 5
0.11 0.13
007 0:b 0.75
84 * 2: 8.15 f :I *
0.24
t::
I c8088sEcl1aH:st8oEiO38MKi I 1
8:=t 2.44
siH81
t:M
I=64
459:40 : 485.30 E
EC M 8.;
s8o:so ‘r 8:# oh =
Enenlv uwerkintr
SMr 637r80 c
1 ,
8% 0.17 1:;
es088 8Ecml: 244.10 c 262.10 c 286.20 c
296.10c
83
868t30 898r80c
oa 1.97
1447.30 1700~90 c 0.23
5617.00c ss33.40
!Wc,
9%
M:!8
H:i8
a:,: 0.98
4rbmO3 1,lS 0.2s 0.35
0.67
w88ScTxlw4,9ouo4
8%
0.05
sMs*20 c
0.06
g
SW.60 c s43lJo c
0:S
#.& 3 i
t:i! pJ
sbO9:roc
Oh
a#M s s784.40c
8A 0.23
sO93tsO c
0.12
P:t *
~$:ig
fQ t
figi
pj
644t40 779.110 c
0.29 0.27
4286.00 5503.40 cc
lsb4*40c
0.40
5597070 c 0.0s
0.36
4482.00c 4mJo c 4soot20c
0.09
$tpJ
*
.
i
l
8m8 3ss*20 c 389.m c 424.00 c
003 .
440.58E
0.11 04
m8: 8m8
!:i/ 1.74
&WI cc 4os8.40 c 0.15
than 0.1 Ml;
b418.70 c
0.41
4.13
6.51
0.91
12b2.10 c
c
Hess
E
7214.20 c
0.22
NH8 : 1004.90 c
1.02 0.80
w : ii9 961.80c 7.42
977a
0.38
748:10 c’ 762.90 c
2799.10 c 2901.30 c 3001.90 c *OC wo 3849:40 cc 387!+80 c
868*80 c 876.60 c 897.30 c
‘E M
42lbr80 c
0.11 0.63
;:;rc
;383:38P, %:I8
w 23oJo c 7%o c 0.29 239.30 c 0.20 #!$:!I
!MP, 38lt70 c ;::5
ElEllEm88
W:# a9J;
570.10 c 584.50 c kzi
;
2 = 63 El.EmY: N 8EmmE8: 7oRa 181.30 c 0.28 f&l8 : 206.60 c
320.80 c 1.20 3334 c 98.90
1.76
0.1s 0.25 0118 0.14 0.10
0.15
89
b=betuem 0.1 and 1 keVt ccktwen
550
Atomic
T
487s:90c 4w:38 er so2s*80 c
0.11 E4 0:d 0.05
1 and 3 kdli d= Jnskr Data and Nuclear
Data Tables.
than 3 keV. Vol. 26, No. 6, November
1981
M. A. LONE,
R. A. LEAVITT’,
TABLE
F Z= 64
It&i ELEHEHT: 6D
6428.90 6671.30 c
0110 0.12
skn % 89 33.12 b 0.90 40.30 b 0.52
keU
II. Y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
nk
keU
kantinwd) 6748.70 6911&O c
2.25 0.13
OlOZ 0.W
7a!8:.
sEfx1oil: 2rssE‘Ml
$%R 273.70 a
8% OS9
1sb:# ! 8% 4b4.33 a 0.96
a27hg ,30 tb
0:19 ;.ig
8:vi 0.48
284.25 288,14 290.55 295.77
b a b b
0.42 0.66 0.42 0.26
468tb2 b 476672 b 481.18 a 484.06 a 4B7,BOb 490.94 b 497.42 b
75+07 a lo+80
302.81a
0,41
499.10 b
Ml t 79.10 b 83.80 b 87 w:Qo 18
8# 0.44 O&O O& 0111 ;.l$
w8 bb 521~17 b 525A3 a 527~45 b 529,OOb 531.48 b 532.95 a 53BJOb
93.26 a
1124
m? 315.86 317.45 319.86 323.40 g.bg
;j.;i
;
03.g ,’
339:49 a
1:70
b a b b b a
0,14 0.59 0.16 0.48 0,ll 0.12
340.96 b ;4*: ;
0832 ;*;g Oh
WI8 z 135k a 138.77 b
83: 2110 0,13
3&l 352.43 354.58 396.17 357.69 360845 341.75
140140 141JS 150.60 153.64 15&W
0.53 0.53 0.71 2.32 0.55
.
lOlJ5 103,93 108.80 112141 114,lO 117.81
188.22 193.44 199.04 204.07
b b a a a
P:il 1.00 0.23
8.g
ab b a a b ;
a b b a a b a
0.77 0.29 0.54 1.23 0.14 OJ8
3153,74 a 370.09 a 372.94 a j77.g ;
0.74 0.30 0.32 g6’sj
37676 a 381.32 b
Ok? 0.11
i/M! 1 391.20 b
8:E 0.17
b a b b
On12 1.91 0,65 0.19
392,93 b ;9$*: ;
OJB op.8
402:63 b
0:27
imi 6 213.60 b
8:# OtOB
218*40 b %:i8 1
x 0:Ob
484:8!: 41OA!J a 413.29 a
83 OAO 6.21
228.15 b
0,ll
427.00 a
0.61
iii!:38 t 8:E H:ft ,” 83 239.25 b 0.09 440.41 b 0.20 242.00 b
0.19
442&O a
&ta 254.25 255.70 257,90
t b b b
f:Sd 0.34 0.30 0.14
#Hit 448.67 b 45189 a 4S3.M b
262dO b
0.06
455Al
Enem uncartaintv
Capture
EER6Y
EElUlY
2 = 65 El.El5lT: TB mss REFEmEs: 7Ma 7‘Me
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
b
541.53 515.07 540.64 S!MBb 55935 563.21
a a b a b
0.14 0.07 0.16
851.04 a iii
0.70
0.26
ipj
0111 yj
c E
0.14 0.08
90 b S41 71 OOb
0.0 0. d
0:so 0,W
912:53 b 915.17 b
0119 0.32
iii!% c' 2911&I c
0":: 0.09
a$t 5494?80 c
8:: 0,03
0852 0.18 0.19 0,13 0.13 0.10 0.18 0.07 Oal8 0.17
917,42 920,60 926,95 930.55 934A 944.08
b b b b b a
0.17 0.27 0.13 0.07 0.07 0.48
3011.00c
0.13
3076.10c 0.05 3169.90c 0.06
SSl2ilOb 551640 b 5524 i 04 b g; ; ;
0.07 0.07 0.13
3248.10c
s!iK! 90 c
0:01
w
k
0.07 0147
w?i f 649.43 b
8:ii 0.19
MM 1 1018.70 b
655.80 a 662.34 b 664.55 b b&59 a 67417 b 679. 48 b 6KMSb 684.85 b #.S4 b 6 .B2b
0.40 0.12 0,42 0.23 0.09 0.13 0121
1021.75 b 1025164 b
0616 0*18 0.07
i:; *
1‘035:: bb 84 :wo3 bb 1032.00b mi8
",
O;if 8 .17 0130 0.13 0. 1 Oh
699.38 b
0.10
1064.22 b
0.15
*#
8::3 0.17 0,07
kst
b a
714h b
1.06 0.22
R%s 1 753.OBb 767+03 a 772.00 a
0.20
780.63 b
bo*E Oh
1033.16b
319mO c
OdO
0.W
0.07
0.07
BM8 rc 83 M I 1% 3b!d30 c 0107 b 36&10 c 0.04 SMsiW !i662!19c
id;
8:M 0.01
0.03
“,IE 30!ib:30 c 3912too c
::n”
4014.20c 4104.20c 414st30c M:B
:
4256.40 c
4so4.00 c
M# i 1076.80 b lO@SdS b
82
MS8
;:ij + 0.20
1442.60 c
:
1139.30c 1290.60c l&b+10 c
8:R 0,2a
a=lass than 0.1 keUi b=baheen 0.1 and 1 keUi c=batwan
551
c
3037.20 c
8%
0.69 0.08
a
83 0.09
b
oe27
b
cr c
b
976.76 b 988.71 b WI.40 b 993.49 b 99SA2b 998.70 b 1001.00 b
b b
0.13
$#M 2535,80 2731.50 2744.80 2843.40
%t
b" 8:t3 b 0.14
0807 0.19
591.45 593JS 59WBb 600.22 611.64 625.97 b2MO
2405.50 c
i?M 871.15 874.78 888.08 w&i;
971.35 b 974,70 b
0.38
8% 0.19
022
Atomic
5219.11 b
0.06
1 and 3 k&V d= #tit
Data and Nuclear
Data Tables,
WI
3 k&a
Vol. 26, No. 6, November
198’
hmpt
M. A. LONE, R. A. LEAVITT. and D. A. HARRISON
TABLE
II. y-Rays Ordered by Element
Y’S f?om Thermal-Neutron Capture
and Energy
See page 513 for Policies and Explanation
REfsEHm: 7oRa w8: Ml 206.10 c
b c :B : a&*30 c
OIo9 0.16 b 8R oh 0.14
3f8:88:
848
333.40 c m8F $3;
0.17 f:XiT y;
&8: poF
isn 22’8
477:10 c
0:94
497.60 c swo c
213.80 c
w8: 0.18 b:Pb2019*ao NM8ccc
67lJ0 c
bwb90 c
0.50
m7r4Oc b c ml 2l40: 2190. b %d b
WJO c 0.39 ml rc k# 93OdOc
Obs9
r' c c c
23ber30 c b c rn# 2427hOf 2444,bOc RM8 2wl*90
rp c
0.26
0.63
0.44
2336*10c 2s4t70 c
0.18 0.79
4.M) 7.47
1109.90c 0.3s 1127.40c 0.67
2592rb9c 2w.20 c
gdf
p:i
Ijj#
11
#iJ%
s&*40 c
0:bo
1291:boc
0:41
2747:40c
0.46 0.37 b b !I kg
w8EE 634.00c
8% 0.20
w8: l7boe2oc
8:B 1.09
msr m*bo c
Oil4
WHO 22l.70 c
3.01
6.24
4sstboc 4&4*&oc
M
am
239.00c am
2&7r# c 290.30c iw8: 372*#c 39240 c
0.33 3.35 1:8! 2.02 Ot70
1071.50c
1093raoc
613rllO c
E! MY 0.32
blSA0 c 0.27 b c l?iR 8&l :b l&J I 0.39 137940c 0.30
3o3sr70c
0*&b
8:3d &#s 824 i?#Jl: 0.16 3ll4r80 c oa 3Eodo c 314wo
c
MA8
cc
317&I!Io c 3198.60 c
3215.50 c
0.1s
83 0.8 0.13
0.07
JWlr40 c
#I;#: 3924Joc
394Mo c
8A 0.23 0.3s
8:1 0.04
0.15
3239.50c 327Mo c b c !P bh : 3wbJo c b P WI38 3469:10:
39&1*00 c 0126 ssbr90 c Wb20 c 0.14 s&O7ac 4owb40c 0.23 b c b c C 1: ii I## b c p” ho c 42sl.10c 8:X b c 83 881 43&o : 0.19
0.11 __--
43wbboc 44bsbWc
4904.10c 49Dlb30 c
%:8x 0.12
l8wr 4639bWc 1174.10c b c tptfl
m8P, WmbY c sw2bWc b c II!88 sls7ho : 518l*boc o*aa s2l2a c
0.32
swo*boc
oa
0.17
043
wale c &Wl. 88 c
OIo9 0.24
0.21
0.06
r7 8b9 0:ob 47k39r 0*12
479b.10 c
Obo9 4ultso c 0.07 0.13
0.10
4827do c
ws4*&0c
4866.00 c
O*lS
0.07
s23a.a c
SW*10 c
5336Jo c
s362b20 c suabooc a!M: SuobWc SbwbWc b c w8 s762:n: sl3.10
0.03
Otl2
c
flEifzdcw 190. c 14.89 217,88 c 2s4.30 c 2b9.w c
1.35 0.39 0.33
w8:: s:!! 346070 c 0.29 39740 c 0.58 848s
89
447.30 c
1.54
552
Atomic
Data and Nuclear
Data Tables.
Vol. 26. No. 6. November
1981
M. A. LONE,
R. A. LEAWIT,
TABLE
EER6Y
INT.
keU
N/100
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
Capture
II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation MERGY
EUENY
IIT*
keU “&i keU WlOO CRWS SECTION: l.OXtO2 BARNS
Emw k&J
iifli
maw
IlIT,
keV
WlOO
EmmY ki4
IlIT. W/l00
3.10 c P 20 c 104bt50 c
1103.70 c
w8 rc 1362,20 c 1627.40 c at28 591.90 c
z = 70
El.EmT:
0.18
YB
REREHCES: 70Ra 3&A Ii 858
cc
2187.50 c
WI t 2&o c 308*20 c
“of 0:37 0.67
1129.90 c 1167.20 P 1216JO c
w8
8:# 0.69 7,19 2.12
392.80 c 404,20 c R8 cc g:‘J ;
0.33 0.35
c c c c c e
o&o 3.93 0.26 0.32 0.24 2.62
8858 ce 8:# Mb*90 c O,b9 941t80 .c 0,39 z = 71 ELEHENT: LU REFERWESt 70Ra
0118
0.56 0.44 0.55
2318dO 2331,80 2349.70 2400.80 2439.80 24bb.70
c c c c c c
fm8r,
8%
m8
cc 83
1455.30 c 1588.40 c 1633*so c
o.tlo 0,73 0149
2516.00 c
111bJMc
0.88
sb9:bO c sB9,‘o 63bJO 691,bO 724.10 762.80 009JO
PAMi
f8RR cr!:I! Tim8PC0.20 f8!
1093*10 c 109sAO c
336*&o c 341.90 c 3ha.70 c
3988*00 c
ems SECTIOK 3dbEtOl
241dO c 21.92 24wO c 0.9s
rc
0.89
1914.70 1934.20 1961.70 198wo 2023.70 2071JO
419wO
c
0.21
4247.70 4273.10 4302*00 446740 4523t60 4656elO 4672,w
e c c c c c c
0.20 0.04 0.10 0.12 0.M 0.05 0.0s
3504.30 3slOtlO 3sbEt20 339oIoo 3632t80 3659.30
c c c c c c
4926.00 c !iOlOt40 c
MA8 Er 3754*80 c 376830 c
t8iM : 5086.40 c 52b!Mo c
4457.60c 4524t70c
7.00 c Bl *w c 3!11*10c
RM8 EC 2976.70 c 3001.80 c
CRUSSSECTION: 7.73EtOi
OIlO 0.82 o,sa 0.13 0.08
469940 c 4737Jo c 4029.60 E 4m.30 c
BM#S
lb *OO c 224 40 c 3538.60 e 38s2rsO c
0,42 0.19
&!8c, 227.70 c 234.40 c
Pi! 0:45 Ots’
!m8 269.20 285.80 302.10 310.44
; c c I! c
9:R 3.90 0.41 O& 0,75
w8c, 762.00 877.00 899.00 1063.20
c c c c
!;!I 2.11 0.30 0. 0.1a
mt8 cc 4ooo.20 c 4271.80 c 0.12 0.09 m#8 cc 0.06
319dO c 336.60 c
3.49 0*35
1167.10 c 13bbdo c
0,26 0.53
4393.20 c 4413.80 c
Enersr wcertaintr
8:8i
c c c c c c
0.51 0.21
393;: cp 0’3 41440 c 0669
0.32
c c c c c
NM : 2166.70 c 2259.30 c
0.73
re
kit
3370,90 3387.30 3424.90 3463.40 3493.70
2787.10 2813.50 2873.80 2mJo 29oe40 2923.20
i
f&l8
8:8! 8:: 0.64
cc c c c c c c c
OS7 0.32 0.20 0.17 0*&a 0.15
I840
c P c c c c E c
iw8 2628.50 2663.20 26%*40 27oorbo 2729.80 2734.80 2769.60
c c c c c c
8%
E Ok 0.96 0617 0.12
9.90 1.70 308730 3117.10 3143.00 31b4*90 3174.00 3mOO
zx: ?d8’
4707170 : 4799Jo c
m8cc
a=less than 0.1 keU# b=betuesn 0.1 and 1 krVi cm
553
Slbsr90 * a!ilH 5267:60 5319.80 5344.10 53b!wo
c c
: c c c
1 and 3 k&i
Atomic
Data and Nuclear
0.15 0.14 0.07
0.16
89 t: 0114 0.04
d= frratw Utan 3 ksU+
Data Tables.
Vol. 26, No. 6, November
1981
hf. A. LONE, R. A. LEAVITT,
TABLE
I%
kdl 2=72
ELEREmH
mEFulum: 7ata H$8: %I!
and D. A. HARRISON
TY ll% CRass sEcTIan: Lo2E m8: 8%B!Mc, m8E, 812dOc 83240c
a $8 f
#x8
w8 EC 133oJOP 1421;b c ‘i 2.70 c %I .60 E
i*sn .
8:J1 1
83 0.25 0.39
cc 8%
42kaOc 402taoc
a.89 04
1102*80 c 1142,lOc 11sO.80 c 1166~90 c llts*40 c 1.95 1184120 c 0.47
2=73 ElmmT6 mEFamEs: 7oRa7 ztz E:$i WP
m8: 8:!! 38S4.80c 0.24 3w2.68 a 0.23
38
c c c
0.32 0.90 0.38
: c
116 P 0.32
s43mo 1472.40 1618.60 1633.90r’
373Oa c *Soc a8 389& : 3912:sOc 397ldO c 3979.20c
8 138cr 237edo c
2468.50c
8iw k 4366d3b
040 1.10
?P 2 4s c 0.57 2346.60c 0.53 2432JOc 0.22 2s 2s#6.# 0.40 c 0.26 c 0.26
0.37
0.12 0.24
0:41 * c au8 8:!8 311s:aO : 0.11 y
0.18 0.21 0.13 0.32
s311.90c 5353t70c
4673t47b 4691.66b 4739.34b 47s6*40c Hm
NM
Ii
Ii
5181.43b 5206.76b
0.23
3510.30c 3s34,4or Jsbl.SU-c g6*g ;
0.21 0.78 0.44 i*i
36&w c
oh2
w8 cc 8::o’ 3739.00c 0.77
3x01 c 377s.!8 c 011s 3w1.00c
*lo:i! c’ ai tm c 3359.10c 3376.10c m8 rc
04
SO3447 b 5062AOb so7s.80 5102t16 bb 5123.04b 3147.40b
4666&b
3494.10 c
0.13 0.13 0.13
0.14
4821680 b
0.63 0.20 0.69 8.Z
8:ti OIl3
l##:E 83 4916.10c 497srsoc 3 0.13
4629.70b
4BO2d7b
4383.13 b
319O.ioc 3a6r40 c 3223.90c
fM8 Ec 4392.80c 4487.70c 4507.80c 473Oesa c
Otli 0.19
4752m c
2412.50c 242tLsoe
c OJO 2707.70c rc d:4 m:f8 rc c oa43
m8E 83 3173a c 0.34 3208.90e 0.30
4282a c OS29 4290.10c
Hw 3709.40E
CRUSS sEcl1on:2IllE tO1 WNS ‘IHe 79uI 3594.40c 0.21 4118rll a 0.W 344440c 0112 4158.44 b 1: *9 a :* 0 c 2:30 2.10 m8: 83 Rd 402.90c 27.18 373Mo c 0115 42l9k z 4lSaJ c 032 38ooII c 0.10 4279.60c m8 cr 1:ll s48t40c 033 631.30c 0.48
m8: 8%
46: cc 8% Pi8
W6.30 c 0.67 1795.40 c 6c 83 fkM8 c w 0916 f064:50 ‘c 2064.90 I 0.19 lOwt30 c 2ls3*80 c o":E
k#
3%% 8% 2924.40c 0.25 2947.50c
6.11
8:#
WI00
keU
1302 MaNs
276:20p’ t:: 27940 c 0.22
24s*20: I au8
IWle
keU
122erPO c 1268.80c
0.16
Capture
II. y-Rays Ordered by Element and Energy See page513 for Policies and Explanation
581.10c 0.19 &!ir30 c 0.2s
234.80 c
Prompt y’s from Thermal-Neutron
0121 0113 c 0.37 4383130 4416.30c #lp70 c 8.00 c 455adOc 4M2*soc 4572.90c
4aw8E
462bJO c
Enerl mcertaintu Ness kun Oh1krVi b=betwen0.1 wrd 1 ksVl c=bettaen 1 rrd 3 kdi
554
Atomic
Data and Nuclear
6 inrtrr
Data Tables,
than 3 kcV.
Vol. 26. No. 6, November
1961
M. A. LONE, R. A. LEAVITT,
TABLE
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
INl, m IWO keU CR8888Ecmn: 8.wEtOl BMWI
ENER8Y
EEIRY k&J
keU
4648.10 c 4662.40 c 4704.80 c 4714.50 c
34oAo c
0.25
795*00 c
Ot5!i
359.10 c
0.98
9!V,lO c
0.24
187, iso:
mss :
!8
c 15.23 i::
sEcTI8M: l*s3UOl
689.90 725.90 77s90 828.70 84!L50 886*90 899,90 930.20 1m
371.70 E
3.48
c c c c c c E c
0.76 lJ4 0,48 2,9b 033 1,lO om 1.81
PC b3
1175,70 c
&8 ec89 er 0.48 w8 40930 c 1436.00 c 412~70 c 048 1803,70 c
8:lil
4501.70 c 4635*30 c
1.20
4946JO c
0.07
5491.60 c
0.07
022
sbooJo c
0.06
0.05 om 0.07 0.07 0.07 0.07 0.06 04s
3816,lO 3831.30 3900,70 39!wo 3979150 4072Ao 4222,sO 4253.30
0,07 0.02 0.02 OtO3 0.03 0.02 0,08 0.03
cc 8:8l
3140.90 c
5224.10 s2sb.so !!277,00 moJ0
c c c c
0.05 0.04 0,17 0.23
8:# 0803 0103 0.03
: 4615.70 c 467520 c 4716.30 c
89 0,03 0.12 0.07
0607 0.02 Ot03
4751.30 c 4812.80 48ootW c
0,07 0.03 0.23
564040 c 5684;g c’ a!
0.03 $*2tJ
0.03 0.03 0,02
484s.40 c 4920,70 c 4962JO c
0.0s 0.03 0.03
(10 c 588(*20 c 5919.60 c
0:02 0.08 0.02
5027.10 c !iOb7*50 c so88.50 c 5129tOO c 5147JO c
0.10 0,19 0.25 0.16 0.36
8:6$ 3361.40 #?t:i8:c
c c c c c c
3465.90 3516.20 357lJO 3677.00 3748.90 3767t40
c c c c c c
Z = 77 ELENEHT: IR CR88SSECTIOW:4,2bEtO2 BMNS REFERENCES: 70Ra 6.27 1.79 1.36
799oAo c
OIo5
l&u8 cc 4508*00 c 4s3oJo c 0.16
lBi18
##M 5220,lO 5261.60 528340 0.14 g.
0,Ob
c
jlfw ec 322!it20 c 0:03 3239.30 c 0.03
0.40 0.21 0.10 0.05 0.16 0,13
6119,20 c
8s
f:# 0.38 0.15
2261130 228mo 2330.40 2436.70 2458.80 25o!L20
4257.10 c h34$ ; .
c c P c c c c c
m8: 43&w
g
558*40 c 11.20 569.30 c 8.52 6g:g ; $#
0.27 1*14 0,45
0.25 83
sOO7.40 c
!8RR
3386.50 c 3402Jo c
401.50 c 418,80 c 422.50 c
!il%rs0 c I!&$;
0.08
c c c c f c c c
: c 0813 c 0.63 c 25.02
200.40 c 217940 c 22wo c
0.14 0.04 0.33
0.10
2!v4.40 2smoo 2605.20 2620.90 2666.50 2815180 2938,!io 3021,90
48M8 2130.00 2160,40 2223.30
0141 0.64
so c 38% do c so73t70 c
Ml?%
M8: 478.30 c 11.17 492.30 c 0.39 526.20 c 1.52
Mb.70 c 669.10 c
0.12 0.03 0.04 8s 0.20 0.07 0.05 0.06
0.03 0.11 0*07
m8: 4859t90 4888t40 431540 4936.40
0.03
c c c c
___.
f=76mlmTT,
Capture
85’4 ##:Rr m4,oo
c” c 0.25 E 0.42 c 0.42
c SM.10 c ss9sdo c
kl8 0.5) 0176 OI2s
4867.00 c 4w7*60 c 4981.70 c
Z=7S ELEllEUT:PTcR8s8 SECTm: l*OOEtOl BMM Wt 70Ra 0.66 #i 38: 8:8 0.96 333JO c 15.91 3%10 c 27.61 @g E pj
48l:W c ss8Ao c s7s.00 c
0:24 0.74 0.31
2Mr, 696.50 c
779.80 1048.20 lO9lJJO 1358Ao 149lJO 1629.80
c c c c c c
0.96
m:“o : 1676,80 c
lbOS.90 c 1713.20 c 1737.70 c 1803.70 E 1804,OO c 1826.30 c
Enerd~ uncertaintu a=less than 0.1 krUi b=b&wen 0.1 and 1 kV;
555
c=&tum Atomic
1 and 3 k&M dt ire&r Data and Nuclear
Data Tablas.
thn
3 keV,
Vol. 26, No. 6, November
198’
Prompt y’s from Thermal-Neutron Capture
M. A. LON ‘33,R. A. LEAWTT, and D. A. HARRISON
TABLE
II. y-Rays Ordered by Element
and Energy
See page 513 for Policies and Explanation
57 z= 70
ItIT, n/loo
El.EmT:
2749&Oc
Pl
0.31
3369.00c
Hi:38 E 8:1 %x8:
#W8: 3425.90c 3ss3,wc
8*8!
i!Bihl c 2&o : 2928.30c 2995.90c 3022,bOc 3041.50c
8:8 oh7
8:8$ OS17
3311.70c
oa13
3284.10 c
i#:i8 rc 53 2blJO c 5.75 278*10c 0.52 f:l;
f:f
349:80 c
0:9b
371.00c 0.32 38l.70 c 4.14 411.40c 0.64 418*00c 0.40 421.90c 0.34 440.60c 2.58 45640 c 0.78 w8: 8% 98.90 c 2.10 597.00c 1.66 bOld0 c 0.69
612.60c
8% oh3 041
04s
0:03 0.03
4557.30c
8:1# W8
W8: 4223.20c 045 4227m c 0.0s 4256.30c 0.12 4287.50c on11
?#I:# cc ‘4729.50c 0.15 474b.70c 0.07 4767.90 c 0.15 4791.80c 0.19
c’ 00:;
8:H
#!!:88e 5140.00c 5173.40c am 5307.00c s393a c 5417.20c 5432.60c
om
8:P 0.04 1.4 5:ti 0.95 0.81 046 0.11
1;; a# T8do:c pJ 0119
r1b:i8 : lia do c 4882.40c 0131 5521.10c 4899.40c 0.37 5546.70c
0:10
44OhO c 0:a #lb*10 c i:; ml8 fc lR% : 44sm c Oh5 4989.90c 4477.30c OtO9 4995.20c
0*69
4025*80 c 0816 4762.90c
pj
5078,lOc
8:8
w8
8:fl
cc
0.04
4W:B rc 4152.40c OIob 4167.90c 0.12
I:; ?‘:I 3bi E i!#
11:1 rc 1M 1712.00 1245.80cc 1.78 0.50 .
8M’rr 89 4278.80 41mt20E c 0.46 0.44
; 8+# E’ ;$tj
BkpS: 4338.0 c 4369rbO c 2593:mc 1129 4397.60c 2S96.70 c 0.96 4478*90c 2649.60 c 4510d c 26% c f;; 4s2s.w c 2842.t8 c 4s43.40c 3186.60c 0111 4573.60c 3265.10c 0.19 4587.70c wli y&
0:07
0.20 0. v lN8 cc Q3 5676.70 c oo:13 5692,80c 0.03
0.17
s204.90c
pJ
s795.70 c #i?Al
:
5874.50c 591er50c M8: 6003*90 c 6033*50 c
0.26
841 0.29 0.34
8:?! 0.37 OI90
6074.10c 0.24 6097aoc OIob 0811 0.07 t:X OIll 8:B 0.15 0.06
8:/i OIW 0.47 0.12
0.31
5767.10 c
0.11
8%
#kR cc 8:H 4828.110 4799.50c 0.15 1.06
W8 cp 8:B 5354,OO 5307.mc 0.51 0.48
M8 E*#
: E’ 8.i
W8: 8:8 y8J.g c’ ;a;
j!j#f
#Jilf
f#
61&O c 6148.30c
oh l*ll
813 1
iR#sE, 8% 3692.90c 0.08 37ose5o c 0.29
l8H8 : 4b43.M)c 0:u 4bmJo c 0,lO
1719.50c 1862t40c 2002.40c
3850.20 c 3868.10 c 389l.w c
4604tooc 46675.40 c 4739.10c
p&#;
70::
2984.30c 3os2Joc 3873.70c
I:#
w8
@Ml ce 14:ti 6229.90c 0.28 b310tOo c om71 6397rooc 0.79 b4s7.50c 5.20
frJ:iJ .
i
2704.80c 2817dOc 288340c 29OOtLO c
2.71
0408 00:E 11:9 I;#
49&O c 4929.90c 4957.40c 4973.50c 4998.10c 5038.00c so77t5oc
f#
0154 W&ho’, . 0.13 547320c 5493.40c 55l2.80c s523doc 5541.10c 5594.00c w58: ma ‘r 5140.80c 0:49 sb75t90c 514%.20 c 0.74 5710.10c
zw8 : 22s9a c 2271.90c
4:
0.08
4041,lOc
0.0s
2=79 El.Elm:Au IEFEmm: 7081 214t90c 9.88
m
8# 0.14
BM’ cc $62&E ,” :.g
OIOB Oto5 36&w c 0.24 3747tbO c 0.28 376140c * c i8bi 38 rc 8% MY8 3ll7t30 c 0.07 3815:90cc 3133.10c oa13 3848Aoc . c N!:# cc m8 3176*20 c OIlO 394bh c’ 323odoc 0.08 3962alb c 3251.50c
0.05
;:; ok9 ;;;
0.67
m8:
1.80 1.12 0.45 3.89
3216.10 c 32u.40 c e c am8 3425:30:
4114.80c 4243.10c 427lt30c 4280.30c USlt20 c
a#;!8 cc 48llt30 c 4841.80c 4893.50c 4904.70c 4919.30c
0.38 0.61 0.26
3499.40c 0.39 3&W50 c 0.18 3633tboc 0.54
4372.30c OS8 E.; E ;.g
4953.60c 4974.mc 5049.88c a:$;
1.16
cr
cr 8% 2920.20c 1.29 EM cm8 sEclIoK 3*4Etm Mm
“o:; * 0.24
45ssh e oh0 4574s c 1.02
1.65
sbsh c
bhb
1.84 MS 5.02 i:$
1 lQRa c c
0.54 Odl
Enmaw unnrtaintu
a=lessthan 0.1 keVi b=btwm
0.1 ad 1 kdi
556
c=betmm1 and3 keUl d= ~rmter Atomic
Data and Nuclear
Data Tables.
tha
3 k&h
Vol. 26. No. 6, November
M. A. LONE, R. A. LEAVI’IT,
TABLE
IWTI ?!Fy W/l00 I1 ELEMENT: Tl 425810 c 0.87
II. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
‘%Ti “s:; md8c : c c c
oh7 OS5 0,12 0.44
fw8 : 1293:30 c
;:i t 0.33 0.51 0,45 0.85 0.43 0.50
713.80 c
0,49
BE8 873:20 Fc
:*ti 1:83
1360.30 c 1459.50 c lsL2O c 1478rOOc
910*90 c 931,lO c
lea9 0.53
1601*60 c 1712.60 c
1741,lO c m:l8 2111.20 2341.00 do li# 40 3942.10 %4 t
5014.50 c
C
iii 00:: 8:#
4114.40 c 4196dO c 4225.70 c 4287dOc 4309170 c 4343.50 c
0.13
CBBSSSECTIOII: ls7OE-01 II#ws
Z = 83 ELEHENT:81 REFEEHES: 708a 4054.70 c 36,47
CROSSSECTION: 3,3OE-O2 BARNS
Z-90
CRBSSSECTIOW:7AOEtOO BARWS
C
m8 cr 5’80.20 c 5239t40 c
cc c c c c c 0.07 0.03 : 0.09
Z = 82 ELEHEHT:P8 REtTImEs: 7ORa 6734Ao c Jto4
alo ‘;E 54ohlO c 54s80 c 5sO3ac 4752.40 c
lJ9
5533.40 c
0.31
3184.90 b
8:B 0.12 0.46 0.74 0.49
0:41 0.44 0,Sl
i#k#b" 3231.60 b 3245.50 b dOb ai! a90 b 3276.50 b 3288&ib 3295.3Ob 332UOb 3341.70 b 3343.70 b 3377.9#b 3391.10 b 3398JOb M@&#j "b
O& .14
::t8
3441dOb
0.13 0.34
5399.40 c 5515.07 b
0.02 OA9
Sm.94
5597.90 5634L!o c
0.17 0.07
6535:40 tc 593&$
1.36
7367.70 c 94.06
4lOldO c 24.39 2712840 . M8 .
EM8 277l.60 278420 2790.40 2610&O 2630,lO
4171.10 E 50.84 2091.40 b . b B%# 29&o : 297OdOb
is;:
b b
0.40 0.88
#tz 2653:44
~~EKlKlKW7qyeCRDSsSECTIOW:
MkPbb 3009,9Ob 3045.10 b 3049dO b 30570 b 3O!i8e&Ob 3070.40 b 3087.60b 3118rOO b 312716Ob 3132JOb 3148;3Ob 3174,OO b
oo:E 0.25 0,45
pJ
~00 b
0.45
:P 1 JOb l,Bo b
8:!! lJ7 0.30
f
#Ii 73.OOb P104.60 b 4174.00 b 4202.OOb
83 OtS6 0.15 0.08 O&
4758.00 b 4769.64 b
0605 OJ3
d0:::
0.22 0.1 O*3Q oO:E
2.69EtO2 MN!+
4739dO c
0.10
4927.90 c
~7byo~ 489 :10 c
8.E 0:10
4996110 c 0.09 iv*47J cc 8%
Enersr uncerkintr
Capture
EJ06Y keU
1113:10 1121,50 11 *70 11B .90
ElEHENT:TH
Prompt y’s from Thermal-Neutron
and D. A. HARRISON
0,lO
5097.10 c
=% bb FiR A0 c 0.23 Ot02
a=lsss than 0.1 keUi b=b&mn
0.1 and
557
kdJi c=betum
Atomic
c
0107 0.17 8A
1 and 3 kaUt & lnoter
than 3 k&l,
Data and Nuclear
Vol. 26. No. 6. November
Data Tables.
1981
hi. A. LONE, R. A. LEAWIT,
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