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KAERI /TR--2123/2002 Application of Prompt Gamma-Ray Activation Analysis
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Transcript of KAERI /TR--2123/2002 - OSTI.GOV
KAERI /TR--2123/2002
Application of Prompt Gamma-Ray Activation Analysis
DISCLAIMER
Portions of this document may be illegible in electronic image products. Images are produced from the best available original document.
20029 3 3 2 8 9
i
ii
SUMMARY
Recently, one of the main purpose in the application for the
measuring and testing methods using nuclear analytical techniques is
the development of an tion-destructive absolute method which can be
analyzed trace multi-element in the particular samples, economically
and effectively. Reactor neutron activation analysis is very suitable
to achieve these, there is t\ro methods using a different procedure of
irradiation and measurement. One is a measurement of delayed gamma-ray
emitted from radioactive nuclide and other is a measurement of prompt
gamma-ray when irradiated. The latter method refer to prompt gamma-ray
activation analysis(PGAA). It is very important that relevant
information is collected for accurate analysis according to a type of
sample and analyte to be measured.
This technical report is written for the promotion to uti1 ization
of prompt gamma-ray activation analysis facility to be installed in
HANARO reactor. It is described for a practical aspects including
experiment and equipments, methodology, current status of the research
and development and its applications.
iii
Contents
Chapter 1 ].ntroduct ion ......................................................................................... 1
chapter 2 Principle of Prompt Gamma-ray Activation Analysis ................... 5 2. 1 Nuclear reactions ........................................................................... 6 2. 2 Prompt gmma-rays ............................................................................. 7
2. 3 Detection of prompt gmma-rays ................................................. 16
2. 4 Quanti tative determination ......................................................... 16
2. 5 Spectroscopic analysis ................................................................. 17
2. 6 Counting statistics ....................................................................... 18 2. 7 Detection 1 imi t ............................................................................... 18
2. 8 Principle of ko-standardization in PGAA ................................ 19
3. 1 Neutron sources ............................................................................... 22 3. 2 Neutron ~ 0 1 1 imator and shielding ............................................. 22
Chapter 3 F:aci :I i tiles and Instrumentation ....................................................... 22
3. 3 Sample hand1 ing device ................................................................. 23 3. 4 Gmma-ray spectrometer ................................................................. 24
3. 5 Neutron flux moni toring ............................................................. 27 Chapter 4 E:xperi mental Condi tions ..................................................................... 28
4. 1 Selection and preparation of target ....................................... 28
4. 2 Irradiation and gma-ray counting ......................................... 29
4. 3 Data treatment and cal ibration ................................................. 29
4. 4 Sources of error and corrections ............................................. 30 4. 5 Detection efficiency calibration ............................................. 31
Chapter 5 Current Status of PGAA in Korea and Abroad ............................. 32 5. 1 Faci 1 i ties of PGAA in HANARO ..................................................... 32 5.-2 Faci 1 i ties of PGA.4 in Abroad ..................................................... 41
Chapter 6 Characteristics of Detection and Sensitivity ........................... 57
Chapter 7 A.pp1 icat ions ............................................................................................ 67
iv
............................................................. Chapter 8 Conclusion and prospect ions 93
..................................................................................................................... Reference 95
......................... Annex : Prompt gamma rays from thermal neutron capture 102
V
............................................................................................................... 1 A] $: 1
2;6F %%?tu)$ B J A ) q S q q @z] 5
2. 2 +?$%tI)$ 7
.....................................................................
............................................................................................................... 2.1 @pio ~ 7 6
.......................................................................................................
....................................................................................... 2. 3 +",7nFU)$CLl 3s 16
2. 4 3 5fg4 16
2. 5 &qggq 24 17
2. 6 7$1L?%;ij] 18
2. 7 3gLq7J1 18
19
22
.........................................................................................................
...........................................................................................
.........................................................................................................
.........................................................................................................
...................................................... 2. 8 PGA,\q]AI ko-standardizationq &I i?)
3. 1 %$+)&I 22
3. 2 %+pI zg.7jpt 5)$]
..................................................................................................... 37-j A] 3 9 "OF?] .........................................................................................................
................................................................................. 22
3. 3 A]ZL +]+g?] 23
3. 4 2 n ) * 74q.71 24
3. 5 +<;z)+q 8% 27
4"oF 4% 3-3 28
4 . 1 A ] s L q *qq @3] 28
4. 2 a] + - 29
4.3 E ~ ) o ] q ~ c ~ : $ 2% 29
4. 4 Qx)a$3$ g3 30
4. 5 agjZsg3 31
32
32
41
...............................................................................................
...............................................................................................
...........................................................................................
.............................................................................................................
.....................................................................................
...................................................................................................
.......................................................................................
...........................................................................................
.................................................................................................
............................................................................................. 5 3 ;F 14.4 7]$@4
................................................................................... 5. 1 3)Lisq PGAA A] 4 5. 2 391 4 PGAA A] 4 .......................................................................................
......................................................................................... 63F sq Q.5p) ag+Ad 57
..................................................................................................................... 7"oF -g- -$ 67
vi
8”OF 4s 2 aJF$uJ ............................................................................................... 93
54 7 t”83 95 tl & ~ ~ .......................................................................................................................
+q. : gg+jx\ g q q +M&%ll)* ......................................................... 102
vii
TABLE 1. Prompt gamma-rays from thermal neutron capture reaction ......... 9 TABLE 2. Speci fications of the HPGe detector ............................................... 37 TABLE 3. Specifications of the component of the 7-ray spectroscopy. 38 TABLE 4. Chronical list of reactor-based PGAA facilities ....................... 42 TABLE 5. PG4A systems using low energy ileutron guide beam .................. 43
TABLE 6. PGAA expected sensitivities for HANARO, assuming a flux o:f 1O8n/cro2. sec ....................................................................................... 60
reference samples ................................................................................... 61 Table 7. Analytical sensitivity and detection limits lvith PGAA in
Table 8. Normal ized analytical sensitivity and interferences from
other elements of the recommended 7 -ray line ......................... 63 TABLE 9. Ana1ysi s of Boron \vi th PGAA ............................................................... 64
TABLE 10. Sensitivity and detection limits for selected 7-rays calculated by Yonezawa, for most elements, with the JAERl cold neutron beam ................................................................................... 65
TABLE 11. 'OB concentration in the biological samples and the cultured cells determined by PGAA and chemical analysis ................... 69
TABLE 12. comparison of volumetric dose with that determined by PGAA ................................................................................................. samples 72
TABLE 13. Concentration of Hydrogen i n Quartz samples ............................ 73
TABLE 14. ]DG.i\.i\ analysis of supercondutor S4B ............................................... 74
TABLE 15. Wmetal atomic ratios in amorphous metals, measured by PGAA ............................................................................................................... 75
TABLE 16. !Spectral interference-free CNPGAA limits of detection for selected elements in a lg portion of geological sample ....... 76
TABLE 17. Chemical composition of the sediments; major element ........... 80 TABLE 18. Chemical composition of the sediments: trace element( in ppm)
.................................................................................................................... 81
viii
TABLE 19.
TABLE 20.
TABLE 21.
TABLE 22.
TABLE 23.
TABLE 24.
TABLE 25.
Element concentrations in control SRMs determination by PGAA
................................................................................................................... 83
Limits of Detection( pg/g) for Several Matrices ..................... 85
PGA mass fraction and heterogeneity results for one unit of LOC7002 pork/chi &en meat ........................................................... 86
Analytical 7 -ray, necessary corrections and detection
capabi 1 i ties of PGAA for foods
Nitrogen contents of reference materials determined by PGAA
....................................................... 87
................................................................................................................... 88
Results of B for several samples 89
Ambient particulate and gas-phase boron concentration(ng/m3)
at several measured locations 92
.................................................
.......................................................
IX
FIGURE 1. Principle of prompt gamma-ray activation analysis(PGA.4) ............................................. ;md neutron activation analysis(NAA) 5
FIGURE 2. Top of cross-sectional layout of the gamma-ray spectrometer
......................................................................................... ;md shielding 25 FIGURE 3. I3lock diagram of the electronic and logic modules used
ivi th compton suppressed or pair spectrometer for PGAA ......... 25 FIGURE 4. High-level radio environmental measurements during full
........................................... j~\ver operation of the PGAA faci 1 i ty 26
FIGURE 5. Full energy peak efficiency of the HPGe detector 31 FIGURE 6. 13eam tube and experimental facilities at Hanaro reactor ..... 33
FIGURE 7. A schematic layout of the PGAA system on the ST1 beam
...................
....................................................................................... port of H,W.ARfJ 34
FIGURE 8. 131ock diagram of the detection system fcr PG.4.4 ....................... 37
FIGURE 9. IZnergy peak efficiency of the KAERI PGAA detector
!;ystem 39
FIGURE 10. Plot of the energy curve of the KAERI PGAA detector ........... 40
FIGURE 11. View of the detectors in position with shielding
.......................................................................................................
................................................................................................... removed, 44
FIGURE 12. View of the spectrometer inside its shielding 44
FIGURE 13. Drawing of the PGAA spectrometer in the NIST 45
FIGURE 14. Schematic of the UT-PGAA facil ity lay out 46 FIGURE 15. Cold neutron source and PGAA facility Layout 47 FIGURE 16. Cold head region of CNS 47
.......................
.........................
.............................
.........................
...................................................................
FIGURE 17. Layout of JRR-3M PG.4.4 system at the cold neutron beam
....................................................................................................... guide 48
FIGURE 18. Prompt 7 -ray compton suppression spectrum of Coal -f ly
Ish NIST 1633a 49 FIGURE 19. Schematics of the horizontal cut of the PGA.4 facility ....... 50
....................................................................................
X
FlGURE 20. Compton-suppression and pair spectrometer ............................... 50
FIGURE 21. Part of the Fe(n, y ) spectrum measured with and
without Compton-suppression ........................................................... 51
FIGURE 22, The reactor hall and neutron guide hall ................................... 52 FIGURE 23. Schematic view of the HPGe-BGO detector assembly ................. 53 FIGURE 24. Comparison of ungated (a) and two differently gated
pair mode spectra (b,c) in the vicinity of the 7631-
7645 keV doublet in 57Fe as measured with a natural Fe target ............................................................................................... 54
FIGURE 25. Schematic diagram of the University of Missouri
neutron capture prompt gamma-ray activation
analysis faci 1 i ty ............................................................................... 55
FIGURE 26. Prompt gamma-ray spectrum for 1633A following 4hr irradiation showing the photopeaks used in analysis -..56
FIGURE 27. Comparison of sensitivities and PGAA and NAA ......................... 59
FIGURE 28. ELAN calibration data: major elenents in coal ....................... 77
FIGURE 29. Depth profiles of elements in the Yasaka River estuarine
sediments ............................................................................................... 79
FIGURE 30. Correlation between content ratio: (a)TiOz/SiOn to
(NazO+K*O)/Si02 and B/Si to (Na20+K20)/Si02 for the pottery fragments analyzed 81
FIGURE 31. Schematic illustration of absorption and scattering of
.............................................................................
incident neutrons and the absorption of emitted y -ray ..... 82 FIGURE 32. Standard rock( CSJ JG-1, granodiorite), 12 elements ............. 91
xi
1
2
3
4
Fig. 1 Principle of prompt gamma-ray activation analysis(PGA.4)
and delayed activation analysis(NAA)
5
E* : q t ] o l ] q x ] ( E x c i t a t i o n energy)
KE,: %gq] qf@ $ + I ] q x ] ( K i n e t i c energy of the bombarding
neutron)
B n : qVq41A-l 3%4]qX] (Bind ing energy of the neutron i n
the compound nucleus)
6
Reaction rate, R = w/M Na - Q, - 0 , reactions/sec
E* = B, = ([m(I4N) + m,] - m(lSN)}c2 = dmc2 , MeV
rn(14N) : 14.003074 amu
rn(I5Nj : 15.0U0109 amu
m, : 1.008665 amu
Energy of amu : 931.5 MeV
.'. E* = 0.01163 i3mu X 931.5 MeV = 10.83 MeV
7
Sr(E y ) = R - Ir(E y )/loo, photons/sec
S r ( E y ) : E y 4 '$k&H)(Ernission rate of E y )
R : q % u l (Reaction r a t e )
I r ( E 7 ) : E y q Aj]7](Intensity of E 7 ( % ) )
a
Table 1. Prompt gamma rays from thermal neutron capture reaction
S 0.520
c1 33.2
Ar 0.678
K 2.10
H 0.332 2223.2
Li 0.036 2032.5
890.7
1052.7
B 755 477.6
N 0.0747 5269.3
1884.8
5497.9
6322.4
3677.7
10829.3
841.1
5420.5
2379.7
3220.8
1950.9
6110.9
1164.7
167.3
1186.7
4745.0
770.3
2073.7
5380.6
100
89.33
9.83
4.91
93.00
29.73
21.62
21.02
17.78
15.68
14.12
75.55
59.08
44.5
27.09
21.72
20.00
19.93
79.60
52.20
55.00
51.48
10.75
8.90
9
Table 1. continued
sc 26.5
Ti
v
Cr
Vl n
Fe
co
Ca 0.43 1942.0
6419.9
4418.9
228.6
295.6
8174.7
6.10 1381.5
6418.4
341.7
5.04 651 7.2
7162.7
545.9
3.10 8884.1
835.1
7939.3
13.3 26.6
7243.8
7057.8
2.55 7631.1
7645.5
352.2
37.2 230.2
277.4
6876.8
72.55
38.89
14.94
52.27
20.90
11.83
69.08
30.13
26.27
17.83
13.14
11.13
26.97
26.86
12.75
18.00
12.13
11.06
28.51
24.13
11.70
25.95
19.94
8.21
10
Table 1. Continued
Mo 2.65
Rh 150
Ag 63.6
Cd 2450
In 194
Te 4.70
I 6.20
Y 1.28 6079.8
776.8
202.5
778.3
848.8
720.3
217.2
267.8
334.7
198.4
236.7
205.9
558.6
651.3
1364.2
1293.4
1097.0
2112.1
603.1
2746.9
723.2
133.6
442.9
58.2
77.49
30.03
18.55
36.92
14.52
7.35
8.71
2.69
2.38
23.88
12.22
8.67
72.73
13.90
4.95
17.59
11.94
10.71
9.34
2.60
1.72
8.43
4.38
1.85
11
Table 1. Continued
cu 3.79
Zn
Ge
AS
B r
K r
N i 4.43 8998.8
8533.4
465.1
278.3
7914.5
7636.3
1.10 1077.4
7863.3
1883.9
2.30 3028.0
596.4
868.4
4.30 164.6
1534.3
471.9
6.80 245.7
195.6
776.9
25.0 881.8
1213.2
1463.5
Sr 1.21 1836.1
898.0
850.5
37.74
16.98
12.98
32.69
30.82
15.71
18.93
10.58
6.79
39.00
33.10
14.79
16.82
7.18
3.59
11.41
6.35
4.13
84.00
37.00
26.00
57.79
27.84
11.14
12
Table 1. Continued
La 9.14
Nd 50.5
Sm 5800
Eu 4600
Gd 49000
930
cs 29.0 116.4
176.4
1618.9
1596.2
218.2
288.3
697.3
618.9
864.9
333.4
439.4
737.6
206.6
221.6
1564.4
1186.5
944.0
199.4
185.7
538.4
2703.4
Ho 66.5 239.8
426.7
543.5
15.15
10.32
1.50
15.36
10.60
8.80
73.29
29.01
12.20
98.90
55.51
11.04
2.44
2.14
0.40
io. a3
10.56
9.50
20.54
7.47
2.48
6.24
3.73
2.97
13
Table 1. Continued
Tm 103
Yb
Lu
Hf
Er 162 816.0
198.0
284,l
540.0
475.1
687.4
36.6 241.8
341.9
5265.7
77.3 457.7
269.2
319.8
102 214.0
Ta
os
Ir
325.8
1206.4
21.1 402.9
360.6
377.8
15.3 2223.3
634.0
187.3
4 26 200.4
351.9
5667.0
40.96
14.89
11.80
10.05
6.43
3.77
21.92
7.19
5.78
6.95
3.90
3.43
54.91
6.11
4.60
27.18
4.34
2.38
25.02
16.88
15.23
6.27
4.65
1.15
14
Table 1. Continued
Hg 376
Au 198.8 1201.8
214.9
261.1
368.1
1693.9
5966.2
>(e 24.5 668.9
773.9
2225.2
12.17
9.88
5.75
81.35
14.13
13.86
80.00
22.24
12.56
15
dC( E y )/dt = E (E 7 ) - Sr( E y ) , counts/sec
( E 7 ) : A]%&%, counts/photons
w = 100 C M/ {N, - E ( E 7 ) - Tc CP cr - I r ( E 7 ) }
16
w = w ( R ) C / C ( R )
17
C = G - B
C : %$X]32- l A]q+(photopoak counts)
G : 34]7$1%.$(Gross counts)
B : H)%L7$1++( Background counts)
DL = 3.29(dB/dt/Tc)”’/S, g
dB/dt :. H).vA]q*( background count rate)
S : A~+&LE( counting sensitivity), cps/g
18
DL = 3.29 M(dB/dt/Tc)”2/{Na E ( E 7 ) - 0 0 I I - ( E ~ ) }
$a=+$( gamma-ray count ig ra te )E :
19
A N, e 0 4 I Y A = E M
20
01 4 4 1 A j ,s%q prompt ko-factor& absolute/relative full energy peak
detection efficiency( E )OIL).
prompt ko-factar& L k g q g o ] 3€@QLk.
21
P G A A ~ + ~ d g 1 ) +Adz)+=! (neutron source)
2) +Adz) Z$71* 3)4] (Neutron collimator and shielding)
22
23
24
I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I 0 50 an
I I I I I I I I I I I I I I I I I I I I I I I I I
I I I I I I I ~ _ - - - - _ _ _ _ . _ _ - - - _ - . . _ _ _ _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - - _ - - - - - - - - - - - - - - - .
Fig. 2 Top of cross-sectional layout of the gamma-ray spectrometer and sh i e 1 ding
25
- - I I I I I I I I ; I: I I I I I I
1 "' I I
I =
I
I I I I I I I I S I I I I I I I I I I
I b
1 ;
? I I.
Fig. 4 High-level radio environmental measurements during full power
operation of the PGAA facility; (a) no shielding, mrnal
spectrum (b)shielding with NaI (T1 ) detector, unsuppressed
spectrum (c)Compton suppressed spectrum
26
27
28
4 . 3 L ~ ] O ] I ~ ~ + $ X%(Data analysis and Calibration)
29
30
Fig.5 Ful l energy peak e f f i c i ency of t he HPGe de tec tor
31
32
d n m
- 0 0.5 l m
Fig. 7 (a ) A schematic layout of the PGAA system on the ST1 beam
port of HANARO (b) plan view of the PGAA system
34
35
36
‘7 Oscilloscope 0 m y ADC
Ethernet
Timer 84
scaler Pulser [--
Fig. 8 Block diagram of the detection system for PGAA
Table 2 Specifications of the HPGe detector -
Parameters
Model
Type Re 1 at i ve e f f i c i ency
Resolution Cryostat type Dewar capacity
Geometry Crystal diameter Crystal length Beryl 1 i um window
Detector bias voltage
- ~ -
_-
Figures
n- type GEM-30190 (EG&G ORTEC:)
43 %
1.90 keV( FWHM) at 1.33 MeV Streamline
30 L Closed-ended coaxial
58.2 mm
79.0 mm
0.5 mm -3900 V
37
Table 3 Specifications of the component of the 7-ray spectroscopy
omponen t
reampl i f i er
mpl i f ier
DC & MCB
igh voltage lower supply
'ul ser
lode 1
:57N (EG&G ORTEC)
i73 (EG&G ORTEC)
121E (EG&G ORTEC)
i59
'B-,
( EG&G ORTEC)
( Berkeley Kucl eoni cs )
Ipecifications -~ ~ ~
' Feedback resister : 1 GSZ
' Gain : 1-1500 . Shaping time : 2 ,us
. Type : successive approximation - Conversion gain : 16 k ~ Conversion time 1.5 /IS
- Memory size : 16 k
- Voltage range : 0 - k5000 - Voltage stability : kO.1 %/h - Voltage rise time : 500 ms
- Repetition rate : 2.5 - 250 .... 2
- Delay : 0.25 ,us - 10 ms - Pulse shape : tail or flat top - Integral nonlinerity : k 0.005 %
38
P c u f
0.1
Fig.9 P lo t of the e f f ic iency
Energy. MeV
curve of t he KAERI PGAA de tec tor system
39
Fig.10 Plot of the energy curve of the KAERI PGAA detector system
40
41
Table 4. Chronical list of reactor-based PGAA facilitiesC851.
Location
Cornel1 U., Ithaca U. of Washington, Seattle AEC, Orsay( curved guide) TU Munchen ILL, Grenoble(co1d guide) PINST, Pakistan IVIC, Venezuela OYR, Los Alamos U. of Maryland-NBSR( thermal ) ILL, Grenoble( Guide) JAERI, Tokai (thermal ) MURR, Columbia U. of Michigan, Ann Arbor KURR, Kyoto(guide) McMaster U. , Hami 1 ton MIT, Musashi N. C. State U., Hamilton ILL, Grenoble( thermal guide) KFA, Julich(co1d guide) Imperial college, Ascot AEC, Pretoria Cornel1 U., lthaca(cold, in progress) CRN, Strasbourg DINR Dalat, Vietnam BNC, Budapest(guide) MIT, Cambridge( di fracted beam) NBSR, Gai thersburg( cold guide) JAERI, Tokai (cold and thermalguides) NBSR, Gai thersburg( cold guide) U. of Texas, Austin(co1d guide) SINQ, Vi 11 igen(co1d guide) KAERI, Taejon
Year
1966 1968 1969 1973 1973 1975 1976 1976 1979 1979 1980 1981 1982 1982 1984 1981 1986 1987 1987 1987 1988
1990 1992 1993 1993 1993 1993 1996 1997 1997 2001
Neutron flux n/cm2 - s
1.7 X lob
2.0 x io7 2.0 x io7
1.2 x io7 4.8 x lo7
1.5 X 10"
4.0 X 10" 4.0 X lo8 8.0 X lo8
5.0 X 10' 8 .0 x io7
2.4 x io7 2.0 x lo6 6.0 x io7 5.0 x io5 1.0 x lo7 1.3 x lo8 2.0 x lo8 2.0 x lo6
1.0 x lo6
2.0 x lo6 5.0 X lo6
6.0 X lo6 1 .5 X 10'
1.4 X108, 2.4 X107 8.0 X lo8 5.0 x io7 7.0 x io7 1.2 x lo8
tef erence
14 15
16.17 18 19 20 21
22,23 24,25
26 27 28 29 30 21
32,33 34 35
36,37 38 39
40,41 42 43
44,45.46 47 48 49 50
51,52,53 54,55
56
42
Table 5. PG,AA systems us ing low energy neutron guide beam[861.
NI ST ( USA ) Ge-BGO 25% 4 3.3 x IO8
NSBR, 20 d%^bz) 1.5 X lo8
Uni. of Texas(USA) I Triga-11 I LJ%Abx) I 5.0 x IO7 1 Ge
d 4 1 . 4 X 10' JAERI (Japan) JRR-3M, 20
Ge-BGO Ge - BGO
___- I s t i t u t e of Isotope!;
( Hungary) BRR, 10 2 g . * d X c ) 4.0 X 10' Ge-BGO
43
Cyc 1 o t Ton d%+j x) I I I *log
Paul Scherrer [n s t i t u t e (%i tzerland)
Ge-BGO
Ge-NaI (T1 )
Fig. 11 View of the detectors in position with shielding removed
Fig.12 View of the spectrometer inside its shielding
44
BGO Compton Gamma collimator suppressor 1
Lead shielding , I I{ , -.-. ‘Y
Ge yamma detector
Fig.13 Drawing of the PGAA spectrometer i n the NIST
45
5.2.3 Cornel 1 LflVq PGAA%,x] [89]
Cornel 1 cflitF.4 Ward Center(TR1GA Mark 11, 500kV ~+$j-$~)S)4] 2% PGAAA]+d& Cold Neutron Source(CNS)g O]-$j-f+%X Fig. 154]Aj 2 Z ] 2
CNSq cold head'fS& Fig. 164].'j Li!.q+Z %E). Mesitylene moderator
qq 332 cold neutron& Ni-coated 13 m guides q Z f O]svC). 4 x lo6 nicm2 secolc).
46
_ . _ .
IZEAC?DR BAY
I I
Fig.15 Cold neutron source and PGAA facility Layout
Fig.16 Cold head region of CNS
47
8P
I
IS00 2000
lo’ H 2000 2600 3000 3500 4000 I U
- Qamrns-ray energy lkeV
Fig. 18 Prompt y - r a y compton suppression spectrum of Coal-fry Ash,
NIST 163321
49
loo0 mm
Fig. 19 Schematics of the horizontal cut of the PGAA facility
Fig.20 Compton-suppression and pair spectrometer
Pair spectrometer(Fig.20q SLs%)& Q7dq 30171 q7-t. 254 mmg NaI(T1) scintillator7) %6$4] @ 25 mi Ge-detectors q%L
50
Compton-suppression(Fig. 2Oq qZ$-)& 250 m m g NaI(Tl) /BGO s c i n t i 1 l a t o r
S +^dq%E). 01 BGO+ 2414x1s 4-3 Compton-scattered *A)* $41 W 1 W I %E).
DE SE FE
suppression 1
65:W 67 CO 6900 7100 7300 7m 7703
Energy, keV
Fig.21 Pa r t of t,he Fe(n, 7 ) spectrum measured with and without
Compton - suppress i on
Fig. 21-g Compton-suppression4 p a i r spec t romete rS q ” 2 q F e q
76312) 76451 KeVqIAj double p e a k s 3 L 4 e K ) . i ron powders x ] g
01 5 m m g d i sk 3EI)o lE) .
S ing le 2 3 1 2 double escape peak+ electron-posi t ron p a i r s g*)q L) €192, Fe doublet+ Compton-suppression spectrometer4)Aj E+ * g -iEi
A] LIEF?&].. 9 L f l S 01s peak+ pair spectrometer4]Aj+ ggqz] 3% Et.
51
Fig. 22 The reactor hall and neutron guide hall of PGAA facility
52
Fig. 23 Sch.ematic view of the HPGe-BGO detector assembly
53
7631 DE 1 \ 7665M
Fig, 24 Comparison of ungated (a) and two differently gated pair mode
spectra (b,c) in the vicinity of the 7631-7645 keV doublet in
57Fe as measured with a natural Fe target
54
Fig. 25
Lmd
Schematic diagram of the University of Missouri neutron capture
prompt gamma-ray activation analysis facility
55
4 S E
Y lo’ VI - g s v s k 22
0 0
- -
I I I I I I I I nwx) 2400 - 1200 1600 n20 Loo e00
Enerpy, LcV
Fig. 26 Prompt gamma-ray spectrum for Coal fly-ash,
4hr irradiation showing the photopeaks used in analysis
1633A following
56
57
58
Table 6 PGAA expected sensitivities for HANARO, assuming a flux of 2 +lo8 n/cm -sec
Element
H L i Be B C N 0 F Na & AL Si P S c1 K
Ca sc Ti V
C r Fe Mn co N i cu Zn Ga Ge AS
Se Br Rb Sr Y Zr Nb Mo Ru Rh
Sensi tivi ty(cps/mg)
3.2E+O@ 6.1E-02 3.7E-03
1.5E-03 1.2E-02 2.2E-04 6.3E-03 6.4E-01 3.4E-02 1.OE-01 2.6E-02 1.2E-01 2.2E-01
2.OE+03
6.OE+OO 5.OE-01 9.6E-02 8.2E+00 1.5E+00 2. OE+OO 5.4E-01 1.9E-01 4.6E+00 6.1E+00 4.5E-01 6.3E-01 1.6E-01 4.OE-01 3.9E-01 7.7E-01
4.8E-01 2.9E-02 1.5E-01 1. ?E-01 1.5E-02 1.4E-01 4.5E-01 4.2E-01
1.3E+00
1.2E+01
Element
Pd Ag Cd In Sn Sb Te I Xe cs Ba La Ce P r Nd Sm Eu Cd Tb DY Ho Er Tm Yb Lu H f Ta
VI Re os I r Pt Au
Hg T1 Pb B i Th U
ensi t i v i ty( cps/mg)
l.lE+OO 3.9E+00 4.5E+02 8.OE+OO 1.7E-02 1.9E-01 4.8E-01 6.9E-01 1.3E+00 1.3E+00 5.3E-02 2.9E-01 4.OE-02 4.3E-01 5.3E+00 1.3E+03 1.1E+03 3.2E.03 6.7E-01 4.1E+01 5.4E+00 1.9E+01 2.7E+00 115E+00 4.7E+00 8.6E+00 5.9E+01
1.3E+00
3.6E+01 l.ZE+OO 1.6E+01 4.6E+01
3.2E-01
6.1E-01
4.9E-02 1.5E-03 1.7E-03 5.4E-02 4.2E-03 3.8E-05
60
Table 7.
Element
H B C
N
Na
F
h3 A 1
Si
P S
c1
K C a
Ti
v
!In
Minimum Detection Limit, mg/g ' Analytical sensitivity and detection 1 imi ts with PGAA in
reference samDles [94] -
Gim-Ray Ehergy
1( KeV s 2223
478
1261 4945
1885
5269 10829
472
136811 1633
585
17791)
7724
1273 3539 4934:
637 841
2380
3221
5421 51 6
785 + 788
1164
770
1942
342
138%
143313
212
84711
352
-
Sensitivity counts /mg/s )
0.86
530
4.0 x 2.4 x
0.0030
0.0017 2.5 x
0.15
0.036 0.0016
0.0085
0.024 0.0013
0.0036 0.0066
0.0042
0.0062
0.054 0.015
0.0067
0.0090 1.5
1.2
1.0 0.13
0.022
0.38
0.39
0.33
0.53
1.05
0.046
Coa 1 VIST SRM 1632a)
0.012
4.9 x 10-~
27
16
3.4
2.0 0.92
0.28
0.27
6.1
1.2 0.45
0.86
2.4 0.61
1.1
1.3 0.18
0.28
0.59
0.34 0.0072 0.0093
0.0096
0.069
0.49
0.037
0.027
0.025
0.049
0.0086
0.34
Bovine Liver [XlST SRM 1577)
0.033
6.'7 X
37
24
6.5
3.5 1.9 0.13
0.27
7.9
1.9 0.53
1.4
3.2 0.83
1.9
2.6 0.28
0.33
0.64
0.44 0.012 0.015
0.016
0.12
0.98
0.041
0.027
0.035
0.053
0.010
0.35
61
Element
Fe
cu Zn As
Se Br
Mo
Cd In
Nd
Sn: Cd
Pb
Gamm-Ray Energy
( KeV )
7120 + 7135 7631 + 7645
278 1077
165 ( + 163) 239 244 31 5 778 558 162 186 273 697 334 182 1185 7368
Sensitivity counts /mg/s )
0.015 0.013 0.12 0.019 0.17 0.31 0. 18 0.036 0.11 174 2.9 2.6 2.7 1.3 639 688 108
3.9 x
Minimum Detection Limit, mg/g Coal
:NET SRM 1632a)
0.41 0.16 0.17 0.44 0.23 0.083 0.12 0.44 0.088
6.1 X
0.014 0.013 0.0081 0.9074
2.7 x 10’~ 4.7 x 8.6 X
5.1
Bovine Liver (NIST SRM 1577)
0.59 0.18 0.18 0.58 0.24 0.084 0.19 0.59 0.094
9.3 x io+ 0.014 0.014 0.0079 0. GO82
3.1 x 10-~ 5.3 x 10-~ 1.5 x
5.6
62
Table 8. Normalized analytical sensitivity and interferences from
other elements of the recommended 7 -ray lines l951
Normalized analytical sensitivity Inter f er i ng elements
cps/mg (Av k O n - l )
Cold neutron” Thermal neutron‘ Element E 7 , keV -
H 2224 0.0198k0.0030 (2.22kO. 14) lo3
B 4 78 12.1 kO. 54 Na, S i , P, C1, Mn, Co, Ni, Sr, Cd, Sm, Hg
1.2320.06
C 1262 (9.38kO.68) (3.84k0.99) - lo-‘ Si,Fe,Sm,Gd,Hg
N 1885 (6.96k0.44) - lo-’ (8.15k0.86) Na,Ti.
Na ‘32 0.0043k0.00017 (4.5720. 11) - Sr
Mg 2828 (4.4420.20) - lo-’ (4.9020.41)
A1 1779 (Ei.64k0.23) lo-¶ (6.57k0.25) - lo-’ Si 3540 (1.59k0.077) - lo‘¶ (1.70k0.12) - lo-’ Sr
P 637 (l.47k0.13) lo-¶ (1.4320.067) lo-” K,Ti,Gd
S 841 0.. 00131 k0. 000079 (1.30k0.12) Mg, K, Mn, Sr
C1 786k788 0.0240k0.0014 0.00260k0.00037 Al, Co
K ?70 0.. 00292 k0. 000042 (2.89 k0. 34) - lo-¶ Sr, Gd
T i 1381 0.00861 k0. 00074 (8.4k1.6) - lo-¶ Mn, C’o, Sr, Sm
Mn 21 2 0.0105k0.00099 0.00115k0.00050 Ni
Fe 352 0.00117k0.000082 (1.14k0.059) loԦ S, Ca, Mn, Co, Sr, Gd
co 230 0.0363 k0.0045 (3.52k0.79) lo-‘ Mn, Fe, Sr
Cd !j58 2.08k0.15 (0.242k0.015) Co, Sm
Sm 334 5.31 k0. 39 0.707k0.47 Mn, Sr
Gd X 82 18.0k0.64 1.30k0.33
Hg 368 0.304 k 0.013 0.0285kO. 00053 Ca, Fe, Co, Sr
63
Table 9 Analysis of Boron with PGAA
Ge-BGO
Ge
Ge(Li)
laI(T1)
;e(Li)
;e-BGO
~
Reactor (Flux)
JRR-3M, ZOMW, JAERI (1.4X108 n/m' -s
Basaltic rock, CJS
Granitic rock, CJS JB-1
JG-1
Body tissue-Liver K i dney Spleen Thyroi ( Musc 1 e
V79 cell A V79 cell B Blood-1 Blood-14 Tumer (skin) Tumer ( musc 1 e Tuner ( clusc 1 e Normal tissue
SRM 1632 (coal standard) SRM 1632a(bi tumious) SRM 1635 (subbi tumi ous) SRM 1577 ( bov i ne 1 iver)
Standard sample
Copper ally Zirconium a1 ly
Biological samples Nuclear material
TRIGA- 11, 100kW, dusashi (5. 0X105 n/m' 0s
JBS, lOMW 2.0x10~ n/m2 as:
'RIG4 11, 250KW 5.4 X lo5 n/d 0s)
RIG.4111, 250KW 1.2~10~ n/m'*s)
.W4RO, 24MW 6.1 xlO7 n/d 9s)
Det. sys tern
Samples
I
Boron conc. ( p g / g )
10.7k2.0
5.75kO. 4
22.9f9.0 57.3f16.0 34.1 k16.4 27.7f4.6 31.9k1.0
15.2f2.2 20.5 f2.6 119.722.6 40.5k1.6 34.5k2. 5 39.6f5.0 35.8k5.0 43.5k5.0
42.1 f0. 7
52.7k1.8 104.5k2.6
3.2k0.2
53.821.1
34.4f4.0 21.0k3.0
3.9
. 2 x lo-'
tef. (year
j7 (1995)
16 (2000)
i8 (2000)
1990)
1997)
'1 (1978)
2 (1982
64
Table 10 Sensitivit.y(S) and detection limits(DL) for selected gamma rays
calculated by Yonezawa, for most elements, with the JAERI cold
neutron beam [97] -
Element H -
Li Be B C N F Na
A1 Si P S c1 K Ca sc Ti V
Cr Mn Fe co Ni cu Zn Ga Ge As Se Br Sr Y Zr Nb Mo
Mg
E 7 2223 2032 6809 478 1262 5269 163413 473 3918 1779D 3540 51 3 84 1 1165 770 1942 228 1381 125 1434D 835 212 352 556 465 278 1078 508 596 165 614 245 1837 777 934 256
! 778
S(cps/mg) 3.14 0.0467 0.00566 2300 0.0029 0.007 0.0272 0.867 0.00752 0.11 0.0298 0.0909 0.253 3.6 0.574 0.0546 14.9 1.9 2.85 1.69 0.688 2.67 0.229 2.92 0.558 0.789 0.107 0.174 0.393 1.13 0.796 0.919 0.134 0.167 0.0261 0.0795 0.465
DL(ug/g) 1.3 24 49
0.0025 807 115 267 4.7 73 15 23 54 15 0.79 3.1 18 0.65 0.79 3.9 0.7 3.9 2.7 28 0.94 5.1 6.4 15 28 13 8.7 4.4 6.5 7 11 71 53 3.8
65
Element Ru Pd Ag Cd In Sn Sb Te I Ba La Ce Pr Nd Sm Eu
Gd Tb
Ho Er Tm Yb
b
Lu Hf Ta w Re It- Pt AU
Hg T1 Pb B i
EY 540 71 7 198 558 273 1293 283 603 134 1436 218 662 177 697 334 90D 221 182 352 186 137 816 205 515 636 458 214D 270 146 208 352 356 21 5 368 348 7360 320
st cps/mg) 0.278 0.169 5.21 403 13.5 0.0178 0.108 0.609 1.04 0.0311 0.338 0.0956 0.548 7.99 749 740 25.7 1564 0.11 67.4 7.2 4.55 3.17 2.53 0.277 1.1 14 1.29 0.583 1.2 0.144 1.22 1.36 53.7 0.0691 0.00147 0.00172
DL(ug/g) 11 19 1.7
0.0108 0.39 110 40 11 10 41 22 29 14
0.68 0.0071 0.047 0.34 0.0064
24 0.11 1.8 0.35 1.9 1.8 5.9 2.7 0.57 4.3 18 5.7 19 3 4.5 0.055 46 240 2200
66
67
68
gggjlq :
Table 11 '% concentration in the biological samples and the cultured
Sample --
C e l l A V79 C e l l A V79 Blood-1
131 00d- 14 Tumor( ski t i )
Tumor ( muse 1 e ) Tumor( musc le) Normal tissue Tumor ( ski 19)
Tumor( muscle) Tumor ( musc 1 e) Normal tissue
-- ce1 Is determinl
B concentration in sample(ppm) IW
Weightk)
0.76 0.64 2.6 2.1
0.7245 0.3088 0.2974 0.3216 1 043 C. 1277 0.1137 0.0945
PGAA
1.52k2.2 20.5f2.6 119. k1.6 40.0 f 1.6 34.5f2.5 39.6k5.0 35.8k5.0 43.5k5.0 39.5k2.5 41 +20
31 +20 21 f19
Chemi ea1 analysis
l5.0 18.0 '79.6 22.6 35.0 31.0 29.2 34.0 32.4 23.7 23.6 15.3
I by PGAA and chemical analysis
69
70
71
Sample ID H added mg H/kg ally H found mg/kg-tl 0
305-110
7/27 306 294-111
Measuring hydrogen by cold-neutron prompt-gamma activation
analysis [67]
9TLt-g : y g ~]Sq]llj +&q %$jQ-A]+ - , u g ~ ~ o ] n S , Si1 icon3
811
8/14
72
208 194k11 218k11
92 iO0ki l 101 f l l
2gBLq :
Table 13 Concentration of Hydrogen i n Quartz samples
Sample
GC17 GC128
TD4 TD7C TDTD
blank
--_____ H content, pg/g
8+8
<8 6k6 <5
10+6
4+3
73
:able 14 PGAA analys is of supercondutor S4B
Element
Y
Energy, keV
574.6 776.8 6079.8
Ba
Concent ra t ion ,
( w t %)
11.73 12.30
13.21 46.65 45.18 46.27 41.10 25.48 26.11 25.21 25.36 26.40 26.31
672.5 818.6 1435.5
1 -si gma
error 0.44 0.20
0.32 0.61 0.74 0.72 1.78 0.13 0.48 0.60 0.34 0.83 0.83
278.2 385.2 579.8 608.9 648.4 7636.6
cu
74
%%Pl- Table 15 Id/metal atomic ratios in amorphous metals, measured by PGAA
Sample mass, mg
201.6 207.3 205.2 211.2 179.1 113.5
H/metal, at %
(PGAA) 6.2k0.6 10.6k0.7 8.8k0.7 132k2 <l. 3
3 8 2 4
H-mass, mg
0.21 AZO. 02 0.30trO. 02 0.25t-0.02 3.72-1-0.02
<O. 03 0.40A-0.04
<o. 1
75
I R=-W, f%
0.05-0.5 0.5-5 5-50
50- 100 100- 500 500-1000 1000-5000 > 1000
76
El ement s
B, Cd, Sm, Gd Hg, Eu H, C1, Sc, T i , Mn, Co, Ag, In, Nd V, Cr, Se, Br, Te, Au Na, S , K, Ca, Fe, N i , Cu, Ga, Ge, As, Sr, Mo, I Al, Zn, Y, Sb, Ba, La N, Mg, Si, P, Rb, Zr, Sn C, F, Pb
I I I
I I I I I
M N I 9
I I I I I I
I I I I I I I I I 1 I I I I I I I I I
I
: - I
I
I I
Usefulness; of prompt gamma-ray analysis with guided neutron beams
compared to NAA [71]
?%Fd$- : PGAAk b!S 41q4qPi +S azpt @$W)Sr, ~l-g-4
77
q%cI. d-n%2)- AH Sqqs& $q]d, N A A q H]Z!-&lAj PGA.4q %gg 2-
3q*q. '?!?%% : 3 \ W ] k LiF, 3]%7]+ Ge-BGO, LiF collimator? 20 X
20 rad, %Adx&S 1.4 X lo8 n/d s (Cold neutron), 2.4 X lo7 n/ad s
(Thermal neutron) PGAA%LA] 3 0)-$!-8\%>q Peak neutron energy( wave
length)& 3.0 MeV( 0.52nm, cold neutron beam)q 15.0 MeV( 0.23nm, thermal
neutron beam)o]L). Neutron beam inten~ity(~He counter)+ 0. 05T mm
Ti (cold neutron beam);?t 0. 5T mm Ti (thermal neutron beam)o]L). Flux
fluctuation+ 0.8 % (26days)o]8)o]E).
@+%* 71% @E g s B, Cd, Sm, Eu, Gd :
detection limit ( 2.5-11 ng - cold neutron beam
( 9.7-83 ng - thermal neutron beam Toxic element, Cd ;
( 10.8 ng - cold neutron beam
( 28 ng - thermal neutron beam
Hg ;
( 5 ng - cold neutron beam
( 260 ng - thermal neutron beam
H ;
( 1.3 pg - cold neutron beam
( 2.8 pg - thermal neutron beam
Various material, B, Cd, Sm, Eu, Gd : 25-820 ng/g
H, Na, S, C1, K, Ti, Mn, Co, Hg : 1.1-820 pg/g
C, Na, Mg, Al, Si, P, Ca, Fe : 0.031-10 %
Vertical distribution of elements in non-polluted estuarine
sediments determined by neutron induced prompt gamma-ray and
instrumental neutron activation analyses [72]
*?Lfl-$ : PGAAq] 2)@ sediment4 g o ] q ] U ) g gkS.35 $qs 5lg!'G\.
78
0 1 0 2 0 3 0
40
50 I_.- -
Fig. 29 Depth profiles of elements in the Yasaka River
estuarine sediments(squre: Yl, triangle: Y2)
79
80
Fig. 30 Correlation between content ratio: (a)Ti@/SiOz to (NazO+KzO)/SiOz
and B/Si to (NazO+K*O)/Si@ for the pottery fragments analyzed
81
v-- Position A
w-- Position B
-Dc?mw Position C
w-- Position D
Fig. 31 Schematic illustration of absorption and scattering of
incident neutrons and the absorption of emitted 7-ray
Ceramic glaze analysis by simultaneous in-beam PGAA and XRFS [76]
$=+q-$j- : 'safe for food containers' (SFFC) 371% 187fl2.l
hobby g1azesollE.l A l , B, Ba, Ca, Cd, Co, Cr, Cu, Fe, Gd, Hf, I<, Mn, Na,
82
Pb, Si, Sm. Sr, Ti, Zn, and Zrs neutron capture prompt gamma-ray activation analysis (PGAA)S - A 4 8 2 ). %A14] Pbs X-ray fluorescence
spectrometry (XRFS)S 33gC). XRFSq 33@;I.]+ 200-400 pg/gO] 4 , Pb 4 $+4]+? PGAAA!.C)t "It 100" %E SC). SFFC glazesq]A{ Cdg 0.6 - 202 pg/g ~ ~ + ] ~ ] ~ , Co, Cr, Cu (elements which may enhance Pb leaching from fired g1azes)t qq 1.2, 2.7, 5.6 %o]C).
3 q B 2 ~ : NIST 3€Sg&$ 2.5 cm dia. filterol] 2SA] q A ] do =,- -T- -a- E filter %%.E). 01 A ] S - g $ aEA]a Teflon bag41 &
4 %%*):gC). 7$]%7]& 27 % Germanium detector* qt7l]+ detector NaI(T1) 7$]+7)o]Cl-. AIS-& 15 MW $ x ) S ~ 0]*5)sLLq $$$A,$X)- qg
Ba Ca, %
Cd cu
Fe, Gd
K, %
Mn Na, %
Pb Si, %
Sm Sr Ti, %
Zn
2.5 X lo8 n/d 0s 012, 2.5 cm dia. A S 4 - 8 59 Z:A)*)%C)-.
3924 : Table 19 Element concentrations in control SRMs determination by PGAA
n I S R M 1 6 3 3 - - SRM2710 SRM2711 SRM 89
3300 4-45 1.36 500 6.1.9 11.2
1.770
439 0.2! 2.4 22.6 13.9 1360 0.717 1600
707 1.25 21.8 2950 3.38 -
2.11 10100 1.14 5532 28.97 7.8 240 0.283
-
-
-
1.45 128 -
-
1.72 493 -
70 -
-
1380 -
210
2600 2.90 40.5 500 2.96 5.4
2.54 659 1.11 1.6 30.8 6.4 800 0.322
Montana Soi 1 MoRtana Soi 1 pb/Ba Glass
-
726 2.88 41.7 114 2.89 -
2.54 639 1.14 1162 30.44 5.9 245 0.306
21.8 3400 1.37 20.9 2940 3 . 3 4.0 2.23 10600 1.14 2.7 30.5 5.5 1100 0.284
1.30 0.22 4.1 300 0.06 0.4 7.05 750 4.47 15.6 30.7 0.22 570 0.011
- 16530 16952 11100 1350.4 1700 ,
- 1.25 0.15 - -
0.034 -
6.97 680 4.23 16.23 30.52 -
-
0.006 -
84
Table 20 Limits o f Detection( pg/g) for Several Matrices
'ortion in Teflon 8
Onion Rings 0.40 % C1,
8.8 % H) 50
0.09 180 860 320 470 20 38 130 690 1700 0.1 1
- h a d . Time(hr1
Element (keV 1
H (2223) B (477) Na (472)
(874) s (841)
(5420) C1 (787)
(6111) K (770)
Ca (1942) (6421 1
Cd (558)
-
-
Bag 4
Tomato Juice ( 0.46 % C1,
10.7 % H: 80
0.1 1 200 1 100 370 820 22 46 160 1700 2300 0.14
59
Teflon Blank (no €I or C1)
15 0.02 30 I10 30 70 2 3 20 70 160 0.02
lg Pellet 18
romato Leaves 0.65 % c1,
5.0 % HI 40
0.10 120 530 280 540 13 31 120 800 1600 0.11
213 17
2 mL H20
11 % HI 40
0.04 70 570 170 1 60 5 8 60 590 250 0.05
Neutron capture prompt gamma-ray activation analysis of meat
homogenates [ 791
%?LH-$ : 2 4 4 3%*%! 271q]4 %+AJ~\35q (Thermal neutron
85
capture) prompt gamma-ray activation analysis (PGAA)S O]-$j-3)q H, B, C, N, Na, C1, K, 2 S s $)3*)-sC). Standard Reference Material (SRM)
1546 Meat Homogenate+ National Institute of Standards and Technology
(N1ST)q 22.S $%*b$$El. 01 SRMS n]+ qh_l%(Food and Drug
Adrninistrati0n)q +Qqs3+% 2s *G$&q E S Z L g q ] A j 34) &* g g O]-$e)q 3=%C)-. Xeq Reference Material LGC 7002
PorkIChicken (along with NIST SRMs 1549 Non-fat Milk Powder and 1571 Orchard Leaves)= g43)gC). SRM 15464 $ g e A].Sq]Aj+ H, Na, C1,
and K q ] ~fl%fiAd 2 % I Z l Z N S 3.5 %0]2, gs2e A ] S 4 ] A j H, N, C1, K , k <2 Naq] LfisfiJ-3 2.9 %OIL). %J-)e)aI LGC 700252 H ] % V 34s % 9m. 9??jq : A ] Z * 3€$ig%$ EA)q7] 37)x] SZJ 3La3)%C). $4+A@) &A lL 3.5 X lo’* n/cd 0s 012. 5 A J Z ) %q + B O ) 2.5 cm OIL). A ] S + 24
X 24 mm’q pillow Ey9S. Taflon foil bag2S $d]%E). AqKiif data
-i Canberra Nuclear acquisition interface modules A)%*)q @%SL+,
q]qx] =]0)3+ H, Na, C, C1, S, K, B 4 ] L l ) 3 k q qq 2223, 472, 1261, 787, 841, 770, 477 keVo]C).
L
%c3-%4 :
Table 21 PGA mass fraction and heterogeneity results for one unit of
LOC7002 porklchicken meat
Vsrisnce.’R % Elernenl Mcanil? SP s,L s: Certificate 2-SCOI-C
H. I021 f 0.35 I .3 0.3 I .2 - N& % 0.148 f 0.040 2.5 0.8 2.4 0.7500 f 0.0102 4.04 N.. % 1.90 f 0.14 2.8 4 2 Q.8 1.91 f 0.01 4.09 (Rotein. %)f 11.9 f 0.9 11.9 f 0.1 N! Y; 1.91 f 0.13 2.6 3.9 -2.6 1.91 f 0.01 4.06 C. x 23.1 f 4.8 4.2 6.7 4 . 2 - - a. Y. 1.175 f 0.035 I .3 0.08 0.8 (1.10 f 0.02p 2.1
K. y. 0.214 f 0.013 2.1 2.2 I .7 0.2140 f 0.0038 0.0 B. mencg e0.2 - - - - -
-
S. x 0.146 f 0.019 6.4 6.6 e6.4 - -
‘ ‘ S; ss~an roo( of measured rm~u fraction variance (relative). ‘s.: S q U M rool of m a ~ i d variance (relative m from counting statistics. background. blank. and inlc!fcrcncc Comaion). ‘L: Square rw ofsampling variance (relative ktcrogeneity). e MCM. U. and Sa bud R) 3-lim average (9816,10317. and 10828 kcV) and SWndard deviation ‘Y.t+6.25’ ‘ M ~ U . a n d S , b a s c d o n 10317kVlineonly. ‘7ndicarivc value only*
Expanded uncutaincy at 95% confidence limit, covcngc factor - 2.
86
Multielemental analysis of foods by neutron capture prompt y-ray
activation analysis [SO]
$ ~ L - H - $ : H, B, C1, K, Na, S , Ca, C d S q 8& %+&'I] Lfl&H
4 9=W%L) . &!gB2a : 2sAdX) PGAA g^dX)*Ol 3.3 X 108/cm2 esec(20MW) 01 4 Ge detector(27 % relative efficiency)* NaX(T1)s A)-$j-S)q compton
suppressed dataS 0 - 8 MeV A ) O ] q a n ) $ q*%L). Ti 32s A)-$ -8 )q
770 =Aqx )+i- A L O 2 q35)q ge*+$ 0.5 % 0]+3), 4 - 6+ s-*q %gs y 2 5 .moll O l S L )
?%=+a4 Table 22 Analytical y-ray, necessary corrections and detection
capabil i ties of PGAA for foods
Sensitivity low CI, high CI, # of foods Cancn. lz!mmk& M5" rLes&uib lQllwmf- - - H. 2223 %I 1.72~10" 30 60 41 80600 - 114030 6,477 bg, Na (472), 1.069 0.04 0.19 39 0.12-21.5
CI (488)
2.83 x 10-3 7 37 41 7 - 32000 2.31 x lo3 8 37
CI, 787 hl CI. 1164 hl CI, 6111 bg 3.88~10~ 12 160
K, 770 2.65~10~ 60 210 40 127- 7880
Na, 472 bg. B (477) 3.32 x lo* 70 300 14 170-20300 Na, 874 3.39 x lo-' 350 2060
S, 841 K(843) 1.14~104 140 630 15 104 - 760 S. 5420 1.85x10-* 150 2180
Ca,6420 Ti(6420). 6.59~106 60 4700 Ca, 1942 4.65 x 10' 410 2460 9 soa - 1300
CI (64423)
Cd, 558 F (556) 0.322 0.04 0.26 2 0.07 - 0.16
bg : background for 2.0d standard solution 2 % lowfat milk. Bottle sa1a.d dressing
a7
Material N E T SRM 1515 (apple leaves) NIST SRM 1566a (oyster tissue) NIST SRM 1575 (pine needles) KIST SRM 1570a (spinach leaves) NIST SRM 1573a (tomato leaves) NIST SRM 1577 (bovine liver)
2.37k0.08 %
6.82-tO. 16 %
1.18f0.05 %
6.18k0.16 %
2.94k0.09 %
10.2+0.2 %
N by PGAA I Certified value 2.25k0.19 %
(6.81 %)
(1.2 %)
5.90k0.25 %
3.03k0.15 %
l0 .6k0.6 %
88
Table 24 Results of B for several samples
sample
Dasaltic rock GSJ JB-1 granitic roc:k GSJ JC-1 Irchard leaves, NIST 1571
lrchard leaves, NIST 1572
zoal, NIST 1635 zoal, NIST 1632a coal fly ash,, NIST 1633a river sediment, NIST 1645 bovine live, XIST 1577a
pepperbush, NIES no 1 pond sediment, NIES no. 2 chlorella, NIES no. 3 mussel, NIES no .6 vehicle exhaust partiulates, NIES no 2 sargasso, NIES no 9 rice flour-unpolished, NIES no. 10-a rice flour-uinpolishecl, NIES no. 10-b rice flour-unpolished, NIES no. 10-c fish tissue, NIES no. 11 marine sedment, NIES no. 12 human hair, NIES no. 13 graphite, JAERI -G3 graphite, JAERI-G5 graphite, JAERI -G6 Be JMTR reflector frame
-
-
n
8 4 15
-
4
4 4 4 4
4
3 4 3 3 3 3 3 3 3 3 3 5 3 3 3 3 -
B content, pdg
resent method (av k u n - J
10.7 k 2.0 5.75 k 0.45 32.3 k 1.7
65.8k 4.7
124.2 k 9.6 9.2 k 5.55 38.8 k 0.70 30.9 * 0.93 0.993f 0.10
57.2k5.3 28.5f 1.3 2.12k0.25 13.5kO.84 13.4k0.49 141 k 0.97 1.39k0.27 1.21 k 0.064
0.989k 0.078 1.30 k 0.075 89.3 t 0.75 2.49 k 0.23 2.11 lk 0.22
0.258 k 0.074 2.43k 0.11 3.46 k 0.23
other methods
12.4 10.2 6, 6.7
33 f3 , 32.0k0.6, 37.1 k 0.4
63.5k 1.3, 63.1 k0.6, 33.4k1.34, 40.4k2.5
104.5k 1.8 52.7 k 1.8 38.2k 0.7
..04 k 0.25, 0.59 k 0.08 3.27 k 0.073
56.2f 1.1
2.54 k 0.20 12.9 k 0.4, 13.2 k 0.4
1.38k 0.088 147.7 k 3.1
2..0 k 0.06
0.89rt 0.05, 0.8 2.3 k0.07
89
Muti-element analysis of environmental samples by cold and
thermal guide neutron guided neutron induced prompt y-ray
measurement [82]
33Lfl-$j- : %E%q %%A]S.q]A-l H, B, C, N, Na, Mg, A l , Si, P, S, C1,
K Ca, Ti, Mn, Fe, Co, Cd, Sm, Gd, Hg% 21sq $&Ej- %zz3)2E). 33 2 Z q %%X+ H, C, N, (3% 4]4@ +&(biological sample)+ 20 % O]* )
012 , %$%A] (Detection limit)% B, Cd, Sm, GdQe %&q 39 25-
820 ng/g; H, Na, S, C1, K, Ti, Mn, Co, Hg+ 1.1-820 ,ug/g; C, N , Mg,
A l , Si, P, Ca, Fek 0.031-10 % o]%E).
g+B&% : +x).Si+ JRR-3M, Z O b W q Cold or thermal neutron beam guide
$ O]-$$~)%L). neutron beam shutter, neutron beam col1 imater
(LiF, 20x20 mm'), neutron beam stopper, sample box2.S TA2q%L). 2) fl]11]S+ neutron shielding material-lithum flouride tile(LiF)*
pol yte tra- f 1 ouro-e thy1 ene( PTFE ) S neutron beam$ 45" o]sE). +*x)+& 1.4 X lo8 n an-' s-l( cold
neutron), 2.4 X lo7 n an-' s-l( thermal neutron)o)q gq 37]* 20x20
mm'O]C). Ti 0. 05T mm(co1d neutron)* 0.5' mm( thermal neutron)oS
x) %q 471 ( intensi ty)g ZA)3)%!brrf 3He counters A]q3)%E\. Flux
fluctuation+ 26% s* 0.8 % (cold neutron), 1 56 (thermal neutron)o)
3)s L)E)%L). Mu1 tielements y -ray 3]+7]& HPGe(co-axial type)*
BGO( bi thmuth germanate, Bi4Ge301~)s A)$-5)%E).
A)-$-e)%LL, PTFE A] S3) x) cfl
90
Geological materia'1sZk basaltic rock(CSJ JB-1), river sediment(N1ST
1648), pond sediment(N1ES NO.^), marine sediment(ti1ES No. 12), coal (NIST 1632a), coal flyash(N1ST 1633a), vehicle exhaust
particulate(N1ES No. 8)* biological materials : orchard leaves (NIST 1571), citrus leaves(N1ST 1572), pepper bush (NIES No. l), bovine liver
NIST 1577a, mu:;sel(NIES NO.^), fish tissue (KIECS No. ll),
chlorella(N1ES NO.^), sagasso(N1ES NO.^), rice flour-unpolished
(No.lO-a,b,c)S 5 4 +3)%% 4 B, Cd, S, K k L20 %0]2- , H, C, N, C1 2 2 0 %(Hq neutron scattering4 neutron energy change U ] - S ) S L\E\?&
cF .
Detection of contaminants in concrete surfaces using prompt
91
Table 25 Ambient particulate and gas-phase boron concentration(ng/m3)
at several measured locations
Loca t i on
Aauna Loa Observatory Cape Kumukahi, HI Wallops I s . , VA Col lege Park, MD Gaithers burg, MD Fairbanks, AK
?articulate B
0.2k0.2 <o. 2
2.9+1.3 6 . 7 f l . 9
2.6k0.3 12.2f4.6
Gas-Phase
0.5kO. 3 25k11 70 k 52 20k10
9.53~0.5 0.5k0.4
Mean Gas/Particle
Ratio
2.5 >125
24.1
3.0
3.7 0.04
;amp1 e
3 2 12
12 1 4
92
93
94
References
1. G.L. MOLNAR, R. M. LNDSTROY, in Neuclear Methods in Minerlogy and Geology, A Vertes, S. Nagy, K. Suvegh, Eds., Plenum Press, New
York, 1998, P145
2. M. S. GEIRMANI, I. GOKMEN, A. C. SIGLEO, G. S. KOWALCZYK, I. OLMEZ, A. M. SMALL,, D, L. ANDERSON, M. P. FAILEY, M. C. GULOYALL, C. E>
CHQQUETTE, E. A. LEPEL, G. E. GORDON, \V. H. ZOLLER, Anal. Chem., 52 ( 1980 )240
3. Z. B. ALFASSI, C. CHUNG (Ed.), Prompt Gamma Neutron Activation Analysis, CRC Press, Boca Raton. 1995
4. R. M. LINDSTROll, C. YONEZAIA. in: Prompt Gamma Neutron Activation Analysis, Z. 13. ALFASSI, C CHUNG(Eds), CRC Press, Boca Raton,
1995, p. 93. 5. M.H. CEN, E.A. MACKEY, R.L.PAUL, D.F.R.Milder, J.Radioanal.Nuc1.
Chem., :244(2000)391. 6. R. L. PAlJL, R. M. RINDSTORM, J. Radioanal. Nucl. Chem. , 243( %000)181. 7. C. YONEZAWA, H. MATSUE, J. Radi oanal . Nucl Chem. , 244 (2000)373. 8. H. MATSLE, C. YOREZAWA, J. Radioanal. Nucl . Chem. , 245( 2000) 189. 9. ZS. REVAY, G. L. IIOLNAR, T. BELGYA, ZS. KASZTOVSZKY, R. B. FIRESTONE,
J. Radioanal. Nucl. Chem., 244( 2000)383. 10. D. L. ANDERSOK, W. C. CUhNINGHAM, E. A. MACKEY, Fresen. ,J. Anal. Chem. ,
338( 1'990) 554. 11. J. E. RILEY,Jr,R.M.LINDSTROM, J.Radioana1. Nuc1.Chem. ,109(1987)109.
12. H.D.CHOI,S.H.BYUN,B,J. JLX, in Proc. 6th Meeting of the intern. Group on research reactors, KAERI, Taejon,1998
13. S. H. BYLX, H. D. CHOI, J. Radioanal. Nucl. Chem, 244( 2000)413 14. T. L. ISENHOUR, G. H. MORRISON, Anal. Chem. , 38 ( 1966) 162. 15. S. M. LOMBARD, T. L. ISEhWOLR, P. H. HEINTZ, G. L. WCODRWF, W. E.
WLSON, Intern. Appl. Radiation Isotopes, 19 (1968) 15.
95
16. D. COMAR. C. CROUZEL, M. CHASTELAND, R. RIVIERE, C. KELLERSHOHK, in: Modem Trends in Activation Analysis (NBS Spec. Pub. 312), J.
R. DEVOE (Ed. ), Natl. Bureau of Stand., Washington, DC, 1969, p.
114 17. D. COMAR, C. CROUZEL, M. CHASTELAND, R. RIVIERE, C. KELLERSHOHK,
Nucl. Appl., 6(1969)344 18. R. HENKELMA" Z. Physik, 258(1973)315 19. R. HENKELMANN, H. F. BORN, J. Radioanal, Chem., 16(1973)473 20. bl . R. NAJAM, M. ANWAR-UL-ISLAM, A. F. M. ISHAQ, J. A. SIIRZA, A. !l.
KHAN, L H. QURESHI. J. Radioanal. Chem,, 31(1975)115 21. M. HEURTEBISE, J. A. LUBKOWIIZ, J. Radioanal Chem., 31(1976)503 22. E. S. GLADNEY, E. T. JURNEY, D. B. CURTIS, Anal. Chem48(1976)2139 23. E. S. GLADNEY D. B. CURTIS, E. T. JURNEY, J. Radioanal. Chem,
46( 1978)299 24. M. P. FAILEY, D. L. ANDERSON, W. H. ZOLLER, G. E. GORDON, 2. 51.
LINDSTKOh!, Anal. Chea, 51 (1979)2209 25, D. L. ANDERSON, M. P> FAILEY, W. H. ZOLLER, W. B. IVALTERS, G. E.
GORDON, R. M. LINDSTROM, F. Radioanal. Chem., 63(1981)97. 26. L. ANDRAS, A. BALINT, A. CSOKE, A. Z. NAGY, Radiochem. Radioanal.
Lett., 40( 1979)27. 27. T. TOO, C. YONEZAWA, S. KOURA, S ARAL, T. KOMORI, A Neutron
Capture Gamma-Ray Faci 1 i ty (JAERI-M 8791 ). 1980, Japan Atomic
Energy Research Institute 28. A, G. HANNA, R. M. BRUGGER, M. D. GLASCOCK, Nucl Instrum.Meth.,
188( 1981 )619 29. J. D. JONES, M. A. LUDINGTON, W. L. RIGOT, J. Radioanal Chem.,
72( 1982 )287. 30. C. A. STONE, D. H. BLACKBURN, D. .4, KAUFFMAN, D. C. CRANMER, 1.
OLMEZ, Nucl. lnstrum. Meth, A349 ( 1983)525. 31. 41. D. HIGGINS, M. G. TRUSCOTT, D. M. SHAW, M.BERGERON, G.H.
96
BUFFET, J. R. D. COPLEY, W. V. PRESTWICH, in: Use and Development of LOK
and Medium Flux Research Reactor, 0. K. HARLING,L.CLARK, Jr, P.VOK DER HARDT (Eds), Thiemig: Munich, 1984, p. 690.
32. T. MATSUMOTO, 0 , AIZAIA, T. NOZAKI, T. SATO, Atomkernenergie, 44 (Suppl. ) (1984) 566.
33. T. MATSLMOTO, 0.. AIZAWA, Appl. Radiation, Isotopes, 41( 1!390)897. 34.G. D. MILLER. B.. W. WEHRING, Trans. Am. Nucl. SOC. ,53(1986)161. 35. S. A. KERR, R. A. OLIVER, P. VITTOZ, G. VIVIER, F. HOYLER, T. D. MACMAHON,
N. L. WARD, J. Radioanal. Nucl. Chem. ,113( 1987)249.
36. R. M. LINDSTROM, R. ZEISLER, bl. ROSSHACH, J. Radioanal. Nucl. Chem., 112( 1987) 321.
37. E.1. ROSSBACH, Anal. Chem, 63( 1991 )2156. 38. N. 1. WARD, J. Radioanal. Chem, 110( 1987)633. 39. C. HOFMEYR, Nucl. Instrum. Meth, B35( 1988)435. 40. D. D. CLAFLK, T. EMOTO, C. G. OULLET, E. PEKRUL, J. S. BERG, in: 50 Years wi th
Nuclear Fission, J. W. BEHRENS,A.D.CARLSON (Eds),Am.Nucl. Soc,La Grange Park, IL, 1989, p. 855.
41. K. UNLU, I). D. CLARK, J. Radioanal. . Nucl. . Chem, in press 42. D. TRUElERT, Sc. D. Thesis, Universi te de paris sud, Centred'sOrsay,
1990. 43. L. N. CHAU, K.T. HIEP, V.T. HA, N. C. HAI, J. Radioanal. Nucl. Chem, 165
(1992) 351 44. G. MOLNAEI, Z. REVAY, A. VERES, A. SIMONTTS, H. RAUSCH, J. Radioanal. Nucl.
Chem, 167( 1993)133. 45. G. VOLNAR, T. BELGYA, L. DABOLCZI, B. FAZEKAS, Z. REVAY, A. VERES, , I. BIKIT,
Z. KISS, J. OSTOR, J. Radioanal. Nucl. Chem, 215( 1997)lll. 46. Z. KASZTOVSZKY, Z. REVAY, T. BELGYA, B. FAZEKAS, J. OSTOR, G. L. MOLNAR,
J. Radioanal. Nucl. Chem, in press.
47.0. K. HARLING, J. -M. CHABEUF, F. LAMBERT, G. YASUDA, Nucl. Instrum. Meth, B83 ( 1993 ) 557
97
48.R. M. LINDSTROM, R. ZEISLER, D. H. VINCENT, R.R.GREENBERG,
C. A. STONE, D. L. ANDERSON, D. D. CLARK, E. A.MACKEY, J. Radioanal. Nucl. Chem, 167(1993)121.
49. C. YONEZAWA, A. K. H. WOOD, M. HOSHI, Y. ITO, E.TACHIKAWA, Nucl. Instrum. Meth, A329( 1993)207.
50. R. L. PAUL, R. M. LINDSTROM, A. E. HEALD, J. Radioanal. Nucl. Chem, 215( 1997)63. 51. K. UNLU, C. RIOS-MARTINEZ, B. V. WEHRING, J. Radioanal. Nucl. Chem, 193
(1995) . 52. B. W. WEHRING, K. UNLU, C. RIOS-MARTINEZ, Appl. J. Radiation Isotopes, 48
(1997) 1343. 53. C. RIOS-MARTINEZ, K. UNLU, B. W. WEHRING, J. Radioanal. Nucl. Chem,
234( 1998) 119. 54. J. KERN, M. CRITTEN, J. JOLIE, S. J. MANNANAL, R.SCH\VARTZBACH, In
Proc.9th 1ntern.Symp.Capture GammaRay Spectroscopy and Related
TOPICS, G. L. MOLNAR. T. BELGYA, Z. REVAY(Eds), Springer, Budapest, 1997,
p. 781.
55. bl. CRITTIN, J. KERN, J, L. SCHENKER, J. Radioanal. Nucl. Chem, in press.
56. S. H. BYUN, H. D. CHOI, J. Radioanal.Nuc1. Chem, in press. 57. C. YONEZAWA, H. MATSUE, M. HOSHI, Anal. Chem., 67 (1995) 4470. 58. C. YONEZAWA, H. MATSUE, J. Radioanal. Nucl. Chem., 244 (2000) 373. 59. T. MATSUMOTO, 0, ALZAWA, Appl. Radiation Isotopes, 41 (1990) 897 60. M. P. FALLEY, D. L. AND!3SN, W. H. ZOLLE!l, G. E. GORDON, .Anal. Chem., 13
( 1979) 2209 61. q q % X ] q 9+&, 719LL24 ( 1978) 62. 3+$x]q g+k, 7]&2&2Ad (1982) 63. H. Volker, S. K. Marina, Trans. Am. Nucl. SOC. , 72(1995)112. 64. K. J. RILEY, 0. K. HARLING, Trans. Am. Nucl. Soc.,75(1996)31. 65. C YONEZAV.4, A. K. HAJIWOOD, Anal. Chem, 67( 1995)4466.
98
SOC. ,81 I( 1999)14. 67. R. M. LINDSTROM, R. L. PAUL, D. H. VINCENT, R. R. GREENBERG,
68. Zs. KASZTOVSZKY, ZS. REVAY, T. BELGYA, G. L. MOLNAR, J. Radioanal. J. Radioanal. Nucl . Chem, 180( 1994)271.
Nucl. Chem, 244( 2000)379.
69. E. A. MACKEY, D. L. ANDERSON, H. CHEN-MAYER, R. G.DOKNING, R. R. GREENBERG, G. P. LAMAZE, R. M. LINDSTROM, D. F. R. MILDNER, R. L. PAUL, C. MAYER, J. Radioanal. Nucl. Chem, 203( 1996)413.
70. J. H. MARSHALL, J. F. JUMBERGE, Intern. J. Appl. Radiation Instrum., 3 (1989) 445.
71. C. YONEZAWA, H. MATSUE, J. Radioanal. Nucl. Chem, 244(2000)373. 72. A. KUNO, K. SAMPEI, M. MATSUO, C. YONEZAWA, H. MATSUE, H.
SAWAHATA, J. Radioanal. Nucl. Chem, 239( 1999)587. 73. A. KUNO, M. blATSU0, B. TACANO, C. YONEZAWA, H. MATSUE, H.
SAWAHATA, J. Radioanal. Nucl. Chem, 218( 1997)169. 74. K. SUEK.1, Y. O”J.4, V. SATO, H. NAKAHARA, T. TOMIZAWA, J.Hadioana1.
75. K. SUEKI , K. KABAYASHI , V. SATO, H. NAKAHARA, T. TOlrll.ZAVA, Anal.
76. D. L. ANDERSON,, J. Radioanal. Nucl. Chem, 192( 1995)281. 77. D. L. ANDERSOh, W. C. CUhNINGHAM, Trans. Am. Nucl. Soo. ,65 (1992)
Nucl. Chem, 234( 1998)27
Chem, 68( 1996)%203.
140. 78. R. Zeisler, (National Inst. of Standards and Technology,
Gai thersburg, MD (Uni ted States) ) : V. P. Guinn, (California Univ. , Irvine, CA (United States)) (eds. ). Nuclear Analytical Methods in
the Life Sciences. C1 i fton, New Jersey ( h i ted States). Humana
Press. 1990. 776 p. p. 613-622.
79. D. L. ANDERSON, J. Radioanal. Nucl. Chem, 244(2000)225. 80. D. L. ANDERSON, W. C. CUNNINGHAM, G.H. ALVAREZ, J. Radioanal.
Nucl. Chem, 167( 1993)139. 81. R. L. F’AUL, Trans. Am. Kucl. Soc.,75(1996)16.
82. C. YOkEZAWA, H. MATSUE, M. HOSHI, J.Radioana1. Nucl. Chem, 215
99
(1997)81.
83. A. R. Dulloo, T. V. Congedo, F. H. Ruddy, J. H. Seidel, R. P. \9illiams, D. H. Weigle, Trans. Am. Nucl. SOC., 73( 1995)61.
84. C. CHUNG, L. J. YUAN, K. B. CHEN, Nuclear Instruments and Methods in Physics Research, A234( 1986)102.
85. R. L. Paul, R. M. LINDSTROM, J. Radioanal. Nucl. Chem, 243
(2000)181.
86. C. YONEZAWA, H. MATSUE, J. Radioanal. Nucl. Chem, 244 ( 2000 ) 373.
87. R. L. Paul, R. M. LINDSTROM, A. E. HEALD, J. Radioanal. Kucl.
Chem, 215( 1997)63. 88. K. NULU, C. R. blARTINEZ, B. W. WEHRING, J. Radioanal. Nucl. Chem,
193( 1995)145. 89. D. D. CLARK, C. G. OUELLET, J. S. Berg, Nucl. Sci. Eng.
110( 19921445. 90. C. YONEZAWA, bl. MAGARA, H. SAWAHATA, M. HOSHI, Y. 170, E.
TACHIKAIVA, J. Radioanal. Rucl. Chem., 193( 1995)171. 91. J. KERN et al., The PGAA Project at SINQIPSI, proc. of the gth
International Syposium on the Capture Gamma-ray Spectroscopy and
related topics vol. 2, p.781 92. G. MOLMAR, T. BELGYA, L. DABOLCZI, Zs. REVAY, A. VERES, I. BIKIT,
Z. KISS, J OSTER, J. Radioanal. Nucl. Chem, 215(1997)111. 93. J. R. VOGT, S. C. SCHLEGEL, J. Radioanal. Nucl. Chem, 88(1985)379. 94. )I. P. FAlley, D. L. ANDERSON, W. H. ZOLLER, G. E. GORDON, R. 81.
LINDSTROM, Anal. Chem. Vol 51. No. 13 (1979) 2209 95. C. YONEZAWA, H, NITSUE, 11. HEHI, J. Radioanal. Nucl. Chem.,
193( 1995)171. 96. S. MIYAMOTO, M. SLTOH, A. SHIOMOTO, S . YAMAZAKI. K. NISHMURA, C.
YONEZAWA, H. MATSUE, M. HOSHI, J. Radioanal. Nucl. Chem., 244 (2000) 307.
97. C. YONEZAIF.4, Anal. Sci. , 9( 1993)185.
100
101
ATOMIC DATA AND NUCLEAR DATA TABLES
$45AJ7+zqq] q* z+3 g u t *
102
ATOMIC DATA AND NUCLEAR DATA TABLES 26, 511-559 (1981)
PROMPT GAMMA RAYS FROM THERMAL-NEUTRON CAPTURE
M. A. LONE, R. A. LEAVITI',* and D. A. HARRISONt
Atomic Energy of Canadas Limited Chalk River Nuclear Laboratories
Chalk River, Ontario KOJ 1 J 0 , Canada
A catalog of y r a y s emitted following thermal-neutron capture in natural elements is pre- sented. 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-iays associated with that element. In Tabie IiI, y-rays are arrznged by element and y-ray energy; energy uncertainty and -pray intensity are given. The catalog is designed for use in high-resolution analytical prompt y-ray spectroscopy,
* Summer student from Queen's University, Kingston, Ontario, Canada + Summer student from Toronto University, Toronto, Ontario, Canada
OO92-640W8 110605 1 :1-49%02.001'0 Copyright 0 1981 by Academic Press, Inc. All rights of reproduction in any form reserved. 1
103
Atomic Dala and !:il,clear Data Tables. Vol. 26. No. 6, Novwnber 15:
M. A. LONE, R. A. LEAVIqT. and D. A. HARRISON Ptonlpt 7's from 'l'herm.il-Ncutron Capture
CONTENTS
.-.. ........................................... 104
105
106
107
121
150
INTRODUCTION
POLICIES
EXPLANATION OF TABLES
TABLE 1.
TABLE 11. y-Rays Ordered by Element and Energy Z = 1-83 (except for ,lPm), 90, and 94
REFERENCES FOR TABLES
.................................................. ...............................
y-Rays Ordered by Energy ........................
................... ...............................
INTRODUCTION
This catalog of the prompt y-rays from thermal- neutron capture in natural elements is designed pri- marily 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 matcrials used for ( n , y) studies2
Pievious compilationsJ-5 provided information on y-rays from thermal-neutron capture in individual isotopes and natural elements and covered data pub- lished prior to 1969. Since then more data with higher resolution have become available which supersede earlier results. The present catalog based on the data
u''
References
1. E. T. Jurney, in Neutron Captitre Gamma-Ray Spectroscopy, edited by R. E. Chrien and W. R.
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 ai., "Compendium of Thermal-Neutron-Capture Gamma-Ray Measure- ments," Part I, Nuclear Data A 3, 367 (1967); Part 11, Nuclear Data A 5 (1968), 1; Part 111, 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
: : .. .-Kane (Plenum, New York 1979), p. 461
published between 1968 and March 1980 updates the information on natural elements ir? 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 I% are in- cluded. Each entry conmts of y-ray energy, intensity, element identification, thermal-neutron radiative-cap- ture cross section, and two of the more abundant y- rays from the element. In Table 11, y-rays are listed by element. This table includes references, thermal- neutron radiative-capture cross sections, y-ray en- ergies, energy uncertainties, and intensities.
of Technology Rept. MITNE-85 (1969); also
5 . J. N. Hamawi and N. C. Rasmussen, Massa- chusetts Institute of Technology Rept. MITNE- 105 (1969)
6. CINDA-A. An Index to the Literature on Micro- scopic 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. 1. Garber, "Neutron Cross Sections," Vol. 1, "Resonance Param- eters," National Neutron Cross Section Center. Brookhaven National Laboratory Rept. BNL-33, 3rd ed. (1973)
9. W. W. Bowman and K. W. MacMurdo, ATohfrC
AFCRL-69-007 1
DATA A N D NUCLEAR DATA TABLES, 13,m (1974)
Atomic Data and Nuscar Data Tables. Vol. 26. No. 6 November 1981
104
M. A. LONE, R. A. LEAVITT. and D. A. HARRISON Prompt y's from Thermal-Xeutron Capture
LITERATURE COVER.AGE -c
DATA SELECTED
GAMMA-R.AY Eh'ERCiY
w ENERGY ERROR
GAMMA-R.AY INTENSITY
- . . . . .ELEMENT IDENTIFICATION
CROSS SECTIOS
ESCAPE PE.4KS
REFERENCES
' POLICIES
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-A* and CINDA-79; and Nuclear Data Sheets (recent references). Thermal-neutron capture cross sections are taken from BNL-325."
For analytical prompt y-ray spectroscopy a single Ge(Li) or a Ge(Li)-NuI spectrometer is used. Consequently, data for this catalog are taken from measurements made with such spectrometers. Thus the extremely high- resolution. mostly low-energy data, collected with bent crystal spectrom- eters, are not included. In Table I, y-rays with intensity greater than or equal to 1% are included. Table I1 contains y-rays with intensity greater than 0.05%. References to the literature containing data on weaker y-rays are identified in Table 11.
Listed are only prompt y-rays from thermal-neutron capture in all elements with Z = 1 through 2 = 83 (except ,,Pm) and in *$Th and 2gPu. 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 by various authors computed from the relation
E = 1 (GEj)-'Ei/C (8Ei)-'
The uncertainty in the mean y-ray energy is found from
A E = [I (Ei - E)*(ZjEJ-'/(N - 1) 1 (ZjEj)-2]1'2
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 thz 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.
Thermal-neutron capture y-ray production cross sections are taken from BNL-32Y
Energies of y-ray peaks which result from single and double escape of annihilation photons from the detector are not included
Reference keys are given in the style 68Jo. A complete reference list follows the Tables
Atomic Data and Nuclear Data Tables. VoI. 26. No, 6. November 1981
105 1
' . . ,.
M. A. LONE, R. A. LEAVITT, and D. A. HARRISON Pronipt y's from Therrn:iI-Neutron Capture
EXPLANATION OF TABLES
TABLE 1. y-Rays Ordered by Energy
TABLE 11. yRays Ordered by Element and Energy
2 = 1-83 (except for ,,Pm), 90, and 94
E
I
Z Atomic number SY Chemical symbol SIG
TWO MAJOR LINES
a, b, c , d
Gamma-ray energy as observed in the spec-
Gamma-ray intensity per 100 neutron radiative trometer
capture s
Thermal neutron y-ray production cross section
Two of the more abundant y-rays associated with for the element
the element Energy uncertainties:
n < 0.1 keV b = 0.1-1 keV c = 1-3 keV d > 3 keV
3
106
Atomic Dala and Nuclear Dala Tables. VoI 26. No. 6. November I*'
1
1
ht. A. LOXE. K. A. LE:.4L‘ITT. and D. A . HARRISON Pronlpt y’s fronl Thermal-Neutron Capture
TABLE I . y.-Rays Ordered by Energy See page 513 for Policies and Explanation
6AHM RAY EL.EENT E I I SY SIG
keV X BARNS “TW lvIJoR LINES E1 I1 E2 I2 keU X keV X 7243.8 12 7057.8 11
ELEMNT TW MJOR LINES GA)V(A MY E I Z SY SIG El I1 E2 I2
keU X BARNS keU X keV X 26.6 27.2 30.0 41.9 51.2 52.5 54.0 54.9 58.2 59.7
18.00 25 w 1.69 53 I 2.50 57 L4 4.80 65 TB 3.00 65 TB le14 53 I 2.14 65 TB 2.30 57 LA 1*85 53 I 3e50 65 TB
1.3Et01 6.2EtOO 9.1Et00 2.Mt01 2.MtOl ba2Et00 2,bEtOl 9 t 1Et00 662EtW 2.6Et01
193.4 1.91 19586 6.35 196.4 1.50 197.7 2,30 198.0 14.89
198.4 23.88 198.4 1.34 199.3 5 6 6 4 5 199,4 1.50
198.3 3.77
65 TB 35 BR 43 TC 56 BA 68 ER 55 cs 47 AG 71 LU 74 u 34 SE
2.6Et01 6,8EtOO 1.9EtOl 1.2Et00 1 &to2 2.9Etol 6.4Et01 ?,?Et01 1.9Eto1 1,2Et01
75.1 245.7 172.2 1435.3 816.0 116.4 236.7 457.7 6190.2 238.9
11 11 49 14 41 15 12 7 5 8
63.8 618.6 299.5 627.5 284 1 176.4 205 e 9 269.2 5261.3 613.9
9 5 11 12 12 10 9 4 4 8
133.6 8 442.9 4 1596.2 15 218.2 11 75.1 11 63.8 9 75.1 11 63.8 9 133.6 8 442.9 4 75.1 11 63.8 9
1596.2 15 218.2 11 133.6 8 442.9 4 75.1 11 63.8 9
50.0
b3t2 63,8
64.6 67,3 74.1 75.1 75.5
62.9
63,9
8,49 55 cs 2*22 43 TC 4,OO 57 LA 8,70 65 TB 1.00 43 TC 1.40 65 TB 1.20 55 cs 2.24 55 CS 10.80 65 TB 2.40 43 TC
2.9Et01 le9EtOl 9.1EtMt 2.6Et01 1.9EtOl 2.6Et01 2.9Et01 2e9Ef01 2 8 bEt 01 le9Et01
116b4 15 176e4 10 172.2 49 299.5 11
159be2 15 218.2 11 75.1 11 41.9 5 172.2 49 299.5 11 75n1 11 63.8 9
199,4 199.4 200.3 200.4 201.6 20215 203 e 1 205.6
206.6 208 * 9 209.3 212.0 213.2 213+6 214.0 214.9
211.1 217,2
205.9
2Q.O
1.10 9.50 lab0 6.27 1 e35 18.55 7.21 5.65 8167 2.44 1.05 8.10 8.80 1.76 1.96 54.91 9.88 9.15 1.49 8.71
33 AS 64 6D 41 NB 77 IR 51 SB 39 Y 29 CU 55 cs 47 AG 63 EU 71 LU 75 RE 25 tW 43 TC 31 G4 72 HF 79M 21 sc 43 TC 45 RH
4e3EtM) 4 * 9Et 04 1.2EtOO 493Et02 Se4Et00 1,3Et00 3,8EtM 2+9E-H)1 be4Et01 4.6Et03 ?.?Et01 8.8EtO1 1.3EtOl 1.9Eto1 2.9Et00 1 eOEtO2 9e9EtOl 2,?Ei01 1 e9Et01 1 e5Et62
164.6 17 1186.5 11 254.7 25 351.9 5 558.4 3 M79.8 77 278.3 33 116.4 15 198.4 24 221.6 2
1534.3 7 944.0 11 293.5 5 217.4 2 283.2 3 776.8 30 7914.5 31 176.4 10 236.7 12 244.1 1 269.2 4 291.3 5 7243.8 12 %:3 11 1206.4 5 261.1 6 295.6 21 299.5 11 334.7 2
116.4 15 176.4 10 11614 15 176.4 10 63e8 9 41.9 5 1?2*2 49 299.5 11
79.1 79.1 83.9 85.6 85.8 87.3 90.7 91.4 93.3 97.5
1.00 1 e o 0 lOB90 2a70 1.62 1 e o 7 1.07 3.69 1 e24 3900
8640 2.34 4.59 15.15 1.22 1.13 2.26 1.10 3.40 1.13
65 TP 65 TB 25 ntl 59 PR 43 TC 55 cs 43 TC 43 TC 65 TP 65 TB 25 EN 43 TC 55 cs 55 cs 55 cs 55 cs 55 cs 53 I 59 FR 55 cs
2.6Et01 2.6Et.01 1,3EtO1 1.2Et01 169EtOl 2.9Et01 1.9EtOl 1,9Et01 2.6Et01 2t6Et01
75.1 11 63.8 9 457.7 7 256.0 8
60.0 13 325.8 6 1201.8 12
220.6 52 172.2 49 267.8 3
75 * 26, 177, 172, 116. 172. 172. 75. 7s L
11 63.8 9 10 7243.8 12 11 141.3 4 49 299.5 11 15 17t.4 10 49 299.5 11 49 299.5 11 11 63.8 9 11 63.8 9
104.5 105.7 113.8 116.4 115.6 118.4 120.6 124.3 127.2 127.5
1,3Et01 189EtOl ?,9EtOl 2~9Et01 2 9Et01 289Et01 2 e 9Et01 6.2EtOO 1 .?Et01 2.9E to1
26.6 18 7243.8 12 172.2 49 299.5 11 116.4 15 176.4 10 176.4 10 60.0 8 116.4 15 176.4 10 116.4 15 176.4 10 116.4 15 176.4 10 133.6 8 442.9 4 177.2 11 141.3 4 116.4 15 176.4 10
130.2 7.43 55 CS 2.9EtOl 116.4 15 176.4 10 225.4 1.36 77 IR 4~3EtO2 200.4 6 351.9 5 133.8 135a6 141.3
153.0 153.5 155.6 157.7 160.3
142.3
8.43 2.10 4.40 8.25 1.14 2.32 2.40 2.37 2.23
53 I 65 TB 59 FR 57 LA 53 I 65 TB 57 LA 33 AS 44 Ru
6o2Et00 2.6Et01 1,EtOl 9,lEtOO 6L!E)(K) 2s6Et01 9*1Et00 4.3Et00 2.6EtOO
442.9 4 5 75.1 11 6 177.2 11 566 1596.2 15 21 133.6 8 44 75.1 11 6
1596.2 15 21 164.6 17 153 540.0 11 41
1.2 2 8.8 9 i.7 4 1.2 11 !.9 4 5.8 9 1.2 11 1.3 7 i.1 7
228 0 228. i 228.6 229.5 230.2 230 e 3 230.9 233.8 234.3
1 e09 2 .70 52.27 1.03 25.95 1.65 2.17 1.03 3.73
75 RE 74 u 21 sc 77 IR 27 co 26 FE 31 GA 51 SB 55 cs
!:%!I 2.7EtOl 4.3Et02 3.7EtOl 2,MtW 219EtOO 504EtM) 2.9Et01 6.8EtW 961EtW 6.E-01 919EtOl 4.3Et00 684Et01 8.8Et01 9.1EtOO 1.2Eto1 6.7Et01
209.3 256.0 199.3 6190.2 !! 295.6 21 8174.7 12 200.4 6 351.9 5 277.4 20 556.4 13 7631.1 29 76j5.5 24 6360.0 13 671.7 11 558.4 3 283.2 3 116.4 15 17684 10
160.7 1.05 53 I 6.2Et00 133.6 8 442.9 4 235.1 1.99 35 BR 235.8 1.30 57 LA
245.7 11 195.6 6 162.7 l64,b 166.7 167.3 168.8 172.2 174 3 174.8 175.1
6.00 57 LA 16.82 33 AS 1.23 43 TC
79e60 18 AR 1.80 43 TC 48.79 43 TC 1.71 55 cs 5.47 44 RU 11.39 32 GE
1596.2 15 218.2 11 1534b3 7 471.9 4 172.2 49 299.5 11 4745.0 55 1186.8 52 ln.2 49 299.5 11 299.5 11 263.6 5 116.4 15 176.4 10 540.0 11 475.1 7 3028.0 39 596.4 33
1596.2 15 33448 96
164.6 17 198.4 24 209.3 8 1596.2 15 613.9 8 426.7 4
imi.8 12
218.2 11 439.7 54 214.9 10 1534.3 7 205.9 9 256.0 8 218.2 11 290.3 3 5m.o 6
235.9 i.w 58 CE 236.2 4.22 79 4U 236.3 2.39 33 AS 236.7 12.22 47 AG 237.3 1.19 ?5 RE 237.7 3.80 57 LA 238.9 8.06 34 SE 239.8 6.24 67 HO
176.1 1.24 35 PR 176.4 10.32 55 CS 177.2 11.11 59 PR 177.9 1.24 33 AS 178.9 1.66 65 TB 182.9 3.90 59 PR 185.7 20.54 66 DY 186.8 1.09 55 CS 187.3 15.23 76 OS 187.9 1.19 33 AS
6 8Et00 2.9Et01 1e2Et01 4.3EtOO 2 66Et01 l.2EtOl 9 3Et02 2.9EtOl 1 SEtOl 4.3Et00
245.7 11 19586 6 241.8 21.92 70 YE 3,?Et01 6.3E-01 2.Mt01 1.8E-01 4ebEtO3 1.9E-01 2.xtoo 6.9EtOO 6.8EtOO 2.9Et01
341.9 7 5265.7 6 116.4 15 6 141.3 4 566 164.6 17 153 75.1 11 6 177.2 11 14 53814 7 41 116.4 15 17 7223.3 25 b3 164.6 17 153
.o 8 8 7 4 1.3 7 .8 9
242.6 243.2 243,b 244.1 244.3 244.7 245 e 0 245.7 245 + 9
~.
2.37 58 CE 1.11 65 TB 2.18 15 P 1.15 63 EU 7.63 40.ZR
5.24 46 PD 11.41 35 I 2.31 55 CS
1.22 42 no
334.8 96 439.7 54 75.1 11 63.8 9
3900.3 16 2154.2 15 206.6 2 221.6 2 933.7 37 6294.4 17 7m.3 37 848.8 15 615.9 8 717.3 8 1E.b 6 618.6 5 116.4 15 176.4 10
.3 4
.2 7 5.4 10 e o 17 .3 7
188.0 1.39 35 BR 6.8Et00 188.5 1.80 25 tW 1.3Et01
245.7 11 195t6 6 26.6 18 7243.8 12
246.9 3.76 14 SI 1,bE-01 3539.1 68 4934.4 63 247.8 5.74 79 AU 9,9EtQl 1201.8 12 214.9 10
iW
M. A. LONE. R . A. LEAVIIT, and I). A. HARRISON Pi,mipi y 's froin -I hcriniiI-Nctiirw Capiurr.
TABLE I . y-Rays Ordered by Energy See page 513 for Policies and Explanation
G A M A RAY ELEREHT Tua MOR LINES E I Z SY SI6 El I1 E2 12
keU X PMHS keU X keU X
GAMA RAY ELEKNT TWO HAJOR LINES E I Z SI SIG El I1 E2 I2
keV Z RME keU X keU X 248,l 248.9 299.8 250.4 250.5 250.9 250 9 251.9 252.1 252.4
1.50 65 TP be84 13 AL 1.08 34 SE 9.45 40 ZR 3.63 14 SI 9,46 31 GA 2.71 15 P
2ebEt01 2 13E-01 lent01 1 * 9E-01 1 e bE-01 2.9Et00 1.8E-01 6 3E-01 2 3E-01 2.7Et00
75.1 11 7723.9 21 238.9 8 933.7 37 3539.1 68 6360eO 13 39@0a3 16 129383 13 7723.9 27 77813 37
63.8 9 2960.0 8 613.9 8
629404 17 493404 63 69117 11 2154.2 15 li71.3 8 2960.0 8 848.8 15
307.3 4.15 55 CS 2,9Et01 116.4 15 i76.4 10 310~2 31384 314.4 317.4 31706 319.0 319e5 319.8 320.8 323.6 324.9 3?5.3 325.6 325.8 326.0 326.3 326.6 33211 332 o 8
1::: 58 2 6.?6 25 W 1.22 58 CE 3.66 75 RE 3e50 31 GA 1*75 81 TL 3149 71 LU 1s20 62 Sn
~.
2 5 4 7 334:e a 26.6 19
209.3 8 b3bO.O 13 5641.5 3
45707 7 333.4 99
334.8 96 1 3Et01 6 * 3C-01 f!.e€tOl 2.3Et00 3*4Et00 7,?Et01 5neit03
7243.8 12 459.7 54 ? ! i t 9 0 8 691.7 11 348.7 3 269.2 4 42964 56
1.84 50 sn i,43 42 no 5.65 13 AL
253.1 4.60 7 N 7.5E-02 5269.2 30 1894.8 22 253.1 1-36 74 Y le9EtOl 19913 56 6190.2 5 253,3 2*40 39 Y 1.3Ei00 607918 17 ??be8 30 253,s ?a95 56 EA 1.2EtOO 1435.3 14 627.5 12 253.5 4.55 32 GE 2e3EtOO 3028.0 39 596.4 33 2'53.8 1.25 76 OS 1e5Et01 2223.3 25 634.0 17
4.68 76 OS 1892 45 Wi 1.42 15 P 7,33 46 PD 6.11 72 HF 2.96 7 H 4.98 32 GE 2.20 12 )16 1.30 19 K 2.53 51 SB
1.5EtOI 1.5Et02 1 e bE-Ol te9Et00 1.oEt02 7 SE-02 2.3Et00 6 3E-02 2.lEtOO 5.4Et00
2223.3 25 b34.0 17 21702 9 257.8 3 3900.3 16 2154.2 15 01509 8 717.3 8 214.0 55 1206.4 5 5269.2 30 1884.8 22 3C28.0 39 596.4 33 391607 49 2828.1 43 77013 51 2073.7 11 558.4 3 283.2 3
254.5 4.38 27 CU 3.7Et01 -230.2 26 277.4 20 254.7 24.72 41 NB 1*2Et00 293~5 5 310.2 4 255.0 1.04 67 HO &.?Et01 239.8 6 42607 4 255.5 4.93 58 CE 6+3E-01 334.8 96 43917 54
?55*6 1.22 64 GD 4.9Et04 118615 11 944.0 11 ?56.0 7.95 75 RE 8.8EtOl 209.3 8 291.3 5
333.3 333 8 4 333.9 334*7 33488 335.1 335.6 338 I 0 338.1 339.5
15.91 78 PT 2.07 67 HO 2.38 45 RH 95.98 58 CE 1820 39 Y 2.25 49 IN 6111 46 PD 3.68 41 NB 1.70 65 TS
?8,?0 62 SN 1. O E M 5 t 8Et03 6 t 7301 1,PtOZ 6 + 3E-04 1 e3Ei00 1 9EtO02 6.9Et00 1 *2EW 296Et01
356.1 28 439.4 56 239~8 6 217.2 9 43917 54 6079.8 ?? 129304 615.3 18 0
D.1 11 qj.7 25
5254.6 4 505.9 18 426.7 4 267.8 3 662.4 26 776.8 30 109780 12 717.5 8 293.5 5 53,8 F
259.3 2.58 13 A i i.%-01 %'23,9 27 d b O . 0 8 2t0.0 1.79 71 LU 7+7E+01 457.7 7 26902 4 261.1 5.75 79 AU 9.9EMl 120118 12 214.9 10 -~ 261.2 1.23 55 CS 2.9EtOl 11614 15 176.4 10 253.6 5e20 43 TC 1.9EtOl 172.2 49 299.5 11 264,b le35 33 AS 4,3Et00 16416 17 1534.3 7 265.3 1.50 58 CE 6.3E-01 33418 94 439.7 54 257*6 3.4? 47 AG 6.4EtC1 198.4 24 23307 12 3 7 , a 269,2 271 *2 272.3 273 e 0 273.2 273.3 374.9 275.2 276*6
?e69 45 RH 3.73 71 LU 4.48 25 RH
1 xi02 ?.?Et01 1.3EtOl 9.1Et00 6 * 8Et00 1 ,?Et01 1.9Et02 8.8Et01 1 JEt01 119EtOl
217.2 9 45707 7 26.6 18
159be2 15 245.7 11 199.3 M 1293,4 18 20913 8 2223.3 25 172.2 49
334.7 319.8 7243.8 218.2 195eb 6190e2 1097,O 256,O 634,O 299.5
Y 3 12 11 6 5 12 8 17 11
339.5 341 8 7
341 e9 343.9 345,O 346.0 348 L 7 348,7 35013 350.7
2,78 28 HI 26,27 22 TI 7.019 70 YB 5.46 29 CU 1.67 35 BR 2ilb 73 TA 6.60 18 AR 2.58 81 TL 60.12 10 NE 2.95 66 DY
4,SEtOO b.lEt00 3+7Et01 3.8Et00 6.8Et00 2elEt01 6.8E-01 3e4Et00 3.8E-02 9,3Et02 4 e3EtQ2 2.6Et00 1 eOEt01 2.bEt01 be9Et00 6.4Et01 2,lEtOl 31lEt01 1 .sEtOl 8 8EtOl
8998.8 38 8533.4 17 1381.5 69 6418.4 30 241.8 22 5265.7 6 27803 33 7914.5 31 5.97 57 LA
4.42 35 ER 3.58 74 Y
1.46 75 RE 3610 43 TC
6.92 49 in 2.60 76 OS
245.7 11 195.6 4 402.9 27 3#06 4 167.3 80 4745.0 55 5641.5 3 5603.3 2 203504 77 4374.4 53 185*7 21 53804 7
276.9 277.4 271.7 277.9 278 * 0 280,8 283 1 283 b2
- . . _ , _ . 284.0
278.3
2.34 64 GD 19.94 27 CO 3105 12 I1G
4.98 58 CE 32.69 29 CU 1.09 21 SC
2.15 7 n
3.34 28 tu 3.24 51 SB ! e 2 5 56 Bb
4e9Et04 3 7Et01 6 3E-02 7 * 5E-02 6*3E-01. 3 8Et00 2.7Et01 ~e4Et00 1 0 2 E W 54Et00
1186.5 11 944.0 11 230.2 26 55604 13 3916.1 49 2828.1 43 5269.2 30 1884.8 22 334.8 96 439.7 54 7314.5 31 7636.6 16 22806 52 295.6 21 899818 38 8533.4 17 558.4 3 332.8 3 1435.3 14 6?7.5 12
35119 4.65 77 IR 352.2 11.70 26 FE 356.1 27.61 78 PT 35717 1.23 65 TB 358.9 1.31 46 PD 3bOnb 1.81 47 bG 3bO.b 4.34 73 TA 360,7 2.12 70 YB 362.0 2.32 76 OS 36207 1.00 75 RE
200.4 7631.1 33303 75.1 615.9 198.4 40209 222313 209.3 241.8
4 29 16 11 8 24 27 22 25 8
217.4 7645.5 5254 t 6 63.8 717.3 236.7 377.8 341.9 634.0 256.0
2 24
4 9 8 12 2 7 17 8
284,l 11.60 68 ER- 255.3 8.80 57 LA
lebEt02 9,lEtOO 6.8EtOO 6 v 7Et01 6*9Et00 8~8EtOl 1 e9EtOl 9e9EtOl 1 b2EiOO 5 0 OEW
816.0 41 198.0 15 366.5 1.59 26 FE 2.6Et00 763111 25 7645.5 24 1596.2 15 245.7 11 239.0 b 615.9 8 209.3 8 199.3 56 120108 12
218.2 195.6 42607 717.3 256.0 6190.2 21409
11 6 4 8 8 5 10
367.4 367.4 368.1 369 e 1 370.8 311 01 372.4 376.6 377 I 8
1851 35 BR 2.92 71 LU 81.35 80 H6 1.14 7 It 1.02 42 110 2002 67 HO 3.48 it, os
b,8€tOO 7,?Et01 3mEtO2 7.5E-02 2.7Et00 1.5EtOl 6.7Et01 2.9Etoo 2.1EtOl
245.7 45707 1693.9 526902 778.3 2223 o 3 239 8
636000 402.9
ii 7 14 30 31 25 6 13 27
~.~
135.6 269.2 5966 I 2
848.8 63400 426.7 69107 560.6
m4.a
6 4 14 22 15 17
4 11 4 4 12 10 31 12 7 28 43 8 20
288.7 290.3 291.0
2.48 35 BR 3,35 67 HO 1.49 46 PD 5.12 75 RE 1.42 74 Y 1.75 79 1U 4.66 41 NB 3.14 23 V
291.3 291.6 291 16 293 15 294.8
254.7 25 31002 4 6517.2 18 716?+7 13 198.4 24 236.7 12 22806 52 8174.7 12 3028.0 39 596.4 33 245.7 11 195.6 6 1293.4 18 1097eO 12 172.2 49 2634 5 1077.4 19 7863.3 11 198.4 24 236.7 12 133.6 8 442.9 4 636000 13 691.7 11
1077 31 GA 2.38 73 TA
295.5 2.lE 47 AG be4Et01 295.6 20.90 21 SC 2,?EtO1 297.4 1.24 32 GE 2.3EtOO 298,l 1.64 35 E3 6.8Et00 298.4 1.81 49 In 1.9Et02 299-05 11.49 43 TC 1.9Et01
300.3 1.51 47 4G be4EtOl 301.9 1.34 53 I 6.2Ei00 303.6 2.14 31 GA 2.9Et00
303.9 3.71 72 W 1.OEtO2 305.5 1.69 61 HO 667Et01
299.9 1.39 30 ZN l.lEt00
380.7 380 n 8 381.7 385.2 385 t 3 386.8 38709 390 o 0 391.5 391 0 8
2.10 3.29 4.14 7.58 1.90 4.15 2.26 6.68 1.54 2.59
13 TA 47 AG 73 ICU 29 cu 49 IN 66 DY 38 SR 12 nG 75 RE 27 co
2.1Et01 ba4Et01 9.9EtOl 3.8Et00 1.9Eto2 9eXtO2 1.2ftoo 6.3E-02 8,SEtOl 3,?EtOl
40203 27 198.4 24 1201.8 12 2 03 33 14.4 18 185.7 21 1836.1 58 3916.7 49 m r 3 8 23002 26
We6 236.7 214.9 7914.5 1097.0
5 3 8 0 4 898.0 282801 2s 10 277.4
214.0 55 325.8 6 239.8 6 426.7 4
39307 6944 31 GA Ze9EtOO 6360.0 13 69101 11 400,1 1.53 21 SC 2.7EtOl 228.6 52 29S.6 21
108
TABLE I . y-Rays Ordered by Energy See page S I 3 for Policies :ind Expl;ination
.. G A M A RAY ELENNT TWJ MJOR LIES G A H M RAY ELEiENT Tyo MJOR LINES
E I Z SY SIG El I1 E2 I2 keV X BARNS keV X keV X
E I Z SY SIG El 11 E2 I2 r.eV X SAW keV X keV X
401.7 1.04 54 XE 2.5Et01 bb8.9 80 773a9 22 ??7.5
479,l 479.5 4?9,5 479.7 4?9,8 J30,l 481.8 43?,4
va,3 2.59 3 LI 11.17 76 US 1.91 26 FE 1.86 15 P 2,OO 12 KG 2.05 7 N 1.43 46 PD 1.26 42 KO 12456 54 XE ?a27 58 E
3 LE-02 1 e5Et01 2ebEt00 1 t 8E-01 6 e 3E-02 7.x-02 6.9Etoo 2,?Et00 2 SEt01 6+3E-01
2032.5 89 980.7 10 2223t3 25 634.0 17 7631,t 29 7645.5 24 3900.3 15 2154.2 15 3916.7 49 2828.1 43 5269,2 30 1m382.8 22 61519 8 717.3 8 778.3 37 848.8 15 m e 9 80 773.9 22 334.8 96 43987 54
402 I 9 403.4 404.0 411.3 413.2 41L8 417.2 4i8.8 419.3
27.18 73 TA 2.35 52 SK 1.63 59 CE 1,29 67 HO 7.25 65 BY 1.55 10 HE 7.21 49 In 1.14 77 IR 1,30 35 Xi l
2, lEtOl 5 + 8Et03 613E-01 b*KtOl 9.3EtO2 3 n 8E-02 1 e9EtOZ 4 3Et02 2.5Et01 5 a OEt00 5t4Et00 bB2Et00 3 .?E-01 911Et00 2.5Et 01 5.1Eli01 6.7Et01 4,3Et00 bn9ESOO looEl.02 1.29Z.4 18
350.6 333.4 334.8 239 0 8 185.7 203514 1293.4 200.4 88188
4 9P 96 6 21 77 18 6
e4
377 b 8 439 * 4 42017 5 3 , 4 355.3 1097.0 351 .? 121?,2
439.7 2
56 54 4 7 61 I2 5 37
419.5 4.06 23 V 424.3 1.07 51 SE
6517.2 18 558.4 3 133.6 8 556.8 10 1596.2 15 081,8 84 697 e 3 73 23918 6 164,b 17 615.9 8
7162.7 13 263+? 3 442.5 4 476,O 3
1213t2 S7 618.9 29 293,3 3 1534,3 7 ?17+3 8 1OP7,O 12
21a,2 11
2.06 27 CO 2.39 21 SC i,oa 37 Ra 1.15 ai TL
1.09 47 46
1.05 67 Ho 2.83 32 GE 4.43 27 co
3.7EtO1 2.7EtOl 3.?E-01 3,4Et00 bb7Et01 2.3EtOQ 6a4Et01 3.7Et01
230,2 26 556e8 220.6 10 52
5641.5 3 239.8 6 3028.0 39 198.4 24 230.2 26
277.4 20 295.6 21 476.0 3
426.7 4 596.4 33 23617 12 277.4 20
348.7 3 4?0,9 1.19 53 I
522.6 5,69 57 LA 424.7 13.00 36 KR 426.7 3.73 67 HO
421.9 1.69 37 RB
426.5 1.94 60 ND 427.0 1.07 33 AS 430.4 3e75 46 PD
497.6 4.60 66 DY 983Et02 185.7 21 538.4 7 479,O 3*3b 41 NE 1e2Et00 254.7 25 29385 5
499.7 1.13 75 RE 868Et01 209.3 8 256.0 8 934.0 1.01 49 IN 434.2 435.4 436.1 436.3 436.6 439.3 439 * 4 439.7 440.1
i ,32 1.22 1.09 2.19 6.54 1.62 55.51 3'R.r 54 I38
38 SR 27 EO 15 P 12 nG 23 v 39 Y 62 S!!
10 Nt 58 cE_
1 a2Et00 3.7EtOl 1.8E-01 6 I 3E-62 5; OEtOO 1.3Etoo 518Et03 6 I 3E-01 3.E-02
1836.1 58 230.2 26 :1900.3 16 11916.7 49 6517.2 18 6079 e 8 77 333.4 99 33418 96 2(335*4 77
89890 28 277.41 20 2154,' 15 2828*1 43 7162.7 13 ??be8 30 595.9 18 662.4 26 354.3 61
500.2 3.57 502.5 5.23 505.9 17.92 516.0 25.30 516.7 13,50 520.0 5.88 520.3 8.22 222.9 2.58 324.3 2.72
32 G€ 63 ND 62 SY 18 AR 17 n 34 SE 20 GI 19 K 54 XE
2 e 3EW 501Et01 5,8E+03 6 e 6E-01 3.3EtOl 1.2Eto1 4,3E-01 2alEt00 2.5Ef01
3028.0 697.3 333.4 167.3 1950.9 238.9
770 * 3 663 *9 1942.0
39 73 99 80 22 8 73 51 80
596.4 33 618.9 29 439.4 56 4745.0 55 6110.9 20 613.9 8 6419.9 39 2073t7 11
773.9 22
525.6 1.00 65 TB 2.6EtOl 75.1 11 63.8 9
523.9 2.10 79 M 9 . 9 ~ ~ 120i.e 12 214.9 io 526.2 lis2 76 OS 1.5Et01 2223.3 25 634.0 17
529.3 1.33 36 KR 2~5Et01 681.8 84 1213.2 37 530.8 1.16 30 IN lalEt00 1077.4 19 7863.3 11 537.3 1.27 47 kG 6.4Et01 198.4 24 236.7 12 53714 19.52 54 M 2~5EtOl 668.9 80 773.9 22 537,7 2.35 37 RE 3.?E-01 5Q.8 10 475.0 3 538.4 7.47 66 DY 983EtO2 185.7 21 41302 7 539.4 1.01 55 CS 2.9EtOl 114.4 15 176.4 10
440,t 442.9 443.0 447.3 447.3 447.3 447.5 447.5 447.9 443.6
2.58 79 All 4.38 53 I 'Is16 73 TA 2601 66 DY 1.54 68 ER le87 53 CE 1.80 40 ZR 1.32 10 NE
6.81 27 CO
3.20 36 KR
9 e 9EtOl be2Et00 2.1Et01 3,7Et01 9.3E t02 l.bEM2 693E-01 1 e9E-01 3.E-02 2.5Et01
1201.8 12 133.6 8 402.9 27 230.2 26 185.7 21 816.0 41 334.8 95 933.7 37 2035.4 ?? 88118 84
214,9 S 8 b 2 360.6 ?i7,4 5x.4 198,O 439 .7 6294 I 4 350 3 121362
10 2 4' 20 7 15 54 17 61 37
I"'
53986 540,g 540 . 542.7 543.5 546.5 548.9 549.8 550.3 551 t6
2.18 21 sc 10.6 44 RU lO,O! 69 TH 1.18 68 ER 2.97 67 Ho 1120 59 PR 1.20 57 LA 1.03 47 AG 1.34 71 LU 4.04 74 Y
228.6 52 1-M 67 81kt0 41 239.8 6 1596.2 15 138.4 24 457.7 7 199.3 56
in.2 11
295.6 21 16 e 5 6 198.0 15 426.7 4 141.3 4 218.2 11 236.7 12 269.2 4 6190.2 5
68.4 4
449.4 1.11 29 CU 3e8EtOO 278.3 33 7914,s 31 430.3 4~1.6 453 I 2 453.8 454.3 454.5 455.6
. . , _ 457.7 457.9
1.91 55 CS 1.06 65 TE 1.16 53 CE 2.36 56 BA 2.22 25 HN 6.24 60 ND 1.05 67 HO 6.95 71 LU 1.12 41 NB
2.9Eto1 2.bEto1 6.3E-01 li2Et00 1.3Etol 5tlEtOl 6+7Et01 7.7EtOl 1.2Etoo
116.4 15 75.1 11 334.8 96 1435.3 14 26.6 18 69783 ?3 239.8 6 269.2 4 254.7 25
176.4 10 6318 9 439t7 54 62705 12 724308 12 618.9 29 426.7 4 319.8 3 293.5 5
45917 1.60 25 bH 1.3EtO1 26.6 18 n43.8- 12 554.8 6.9') 555.2 4.27 556.4 13.05 556.4 1.49 556.8 9.85 557.5 1.38 557.6 3e42 5 5 8 I 4 11.20 558.4 3.25 558.5 9.17
21 sc 35BR 27 M 45 RH 37 RB 49 IN 15 P 76 OS 51 SB 38%
2.7Eto1 6,EtOO 3.XtO1 1 t5Et02 3.X-01 1.9Eto2
1 .It01 514EtW 1.2Etoo
i 8 ~ - 0 i
228.6 245.7 230n2 217.2 476.0 1293.4 3900.3 2223.3 283.2 1836.1
52 11 26 9 3 18 16 25 3
58
295.6 195.6 277 s 4 267.8 1030.8 1097.0 2154.2 634.0 332 I 8 898.0
21 6 20 3 3 12 15 17 3 28
.. 460.2 . 460.6
463.0 464.3 465.1 465.8 465.2 471 19 472 * 4
1.23 1.35 1.19 1.14 12198 2.72 5.97 3.59 1 e99
58cE 59 PR 56 BA 50 SM 20 HI 66 DY 29 CU 33 AS .15 P
6.3E-01 1 .ma 1.2fMO 6.3E-01 4.4Et00 9.3EtO2 3 . E W 4.3Etoo 1 .E-01
334.8 96 439.7 54 iijli .ii 141.3 4 1435.3 14 627.5 12 129383 13 1171.3 8 8398.8 38 8533.4 17 185.7 21 53884 7 278.3 33 7914.5 31 164.6 17 153413 7 3900.3 16 '2154.2 15
472.4 59.83 11 HA 4.K-01 6395.4 22 870.6 22 473.3 2.21 7 N 7.5E-02 5269.2 30 1884.8 22 473.5 1.50 49 IN 1.9EtO2 1293.4 18 1097.0 12
556,b ne73 48 CD 2,5Eto3 651.3 14 1564.2 5 559.6 559.7 559.9 5bo.2 550.4 561 e 4 562.9 564.2 564.5
6.03 1.65 1 e56 2e20 1.56 8.55 1.64 2.16 1.42
12 ffi 59 PR 33as 11 NA 31 Gh 4ozR 41 WB 24 CR 60 ND
6 3E-02 1.2Eto1 4.3Etoo 4.OE-01 2.9Et00 1.9E-01
5,lEtOl 4:zm
3916.7 49
164.6 17 472.4 bo b3bO.O 13 933.7 37 254.7 25 8884.1 27 697.3 73
177.2 11 2828.1 141.3 1534.3 6395.4 691 e ? 6294 s 4 293.5 835.1 61889
43 4 7 22 11 17 5
27 29
475.1 6.43 69 TK 1.CEM2 We0 10 687.4 4 475.1 6.84 44 RU 2.bEtQO 540.0 11 1620.5 6 475.4 2.71 70 YB 3.7Et.01 241.8 22 341.9 7 475.4 14.40 58 CE 6.3E-01 334.8 96 439.7 54
476.0 3.36 37 RB 3.7E-01 556.8 10 1030.i 3 475.8 2.05 46 PD ba9EtOO 61519 8 717. 8 477.0 1.01 27 CO 3.?EtOl 230.2 26 277.4 20
477.1 5.75 b0 ND 5.1Et01 69713 73 61889 29 477.6 2.18 73 TA 2.1Et01 902.9 27 3bOBb 4
567.3 4133 57 LA 9elEtOO 1596.2 15 21812 11 569.0 1.03 66 DY 9.3EtO2 185.7 21 538.4 7
IO9
M. A. LONE, R . A. LEAVITT. and D. A. HARRISON Prompt y's front lhermal-Neutron Capture
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
GAnnA RAY ELEHENT TU0 M O R LINES E I Z SY SIG El I1 E2 I2
keV X BARNS keV X keV X GAM RAY ELEnENl Tu0 MJOR LIES
E I Z SY SIG El I1 E2 I2 keV X BARNS keU 2 keV Z
549.3 549.7 571.1 572 * 2 573.1 573.7 574.6 5?5.3 575.3 575.8
8.52 76 OS 1 I 5Et01 2.7EMo 215EtOl 2 1EMo 182Et01 2.7Et00 1.3EtOO 2.3Et00 2.1EtOO 2,5Et03
2223.3 25 77863 37 468.9 80 77003 51 177.2 11 77813 37 6079,8 77 302810 39 770.3 51 558,b 73
434 ,O 848.8 773.9
2073.7 141.3 848.8 776.8 596.4 2073.7 651 e3
17 15 22 11 4 15 30 33 11 14
487.4 4.01 44 RU 2,bEtOO 2.5TMo 2,bEtQO . 6 3E-02 7.5E-02 1.2Etol 4.3E-01 5.1Et01 4,8Et00 1 at01 1 t 8E-01 205EtO3 483E-01 9elEt00 2.3E)o 2.9EtQO 5.8Et03 6 ~3E-01 6.9EtQO 1 . at02 2.7Etoo 2.7Eto1 9.lEMo 4.7EtOO 2.5EtO3 1.5Eto1 4aX-01 3.8E-02 1.Mto2 2 * 7Ec00 5.8Et03 3.4EtOQ 6.3E-01 l.bEt02 5.1EtOl 2~5Et03 1,ZtOl 5.8t03 3.1EtQO 2.5Et01 1 i 1EtW 1 .M-01 2 e 3E-01 2.9Etoo 2sEt01 ?,?Et01 6.X-01 3 + E€-02 2elEt00 1.5TtOl 2.5Etol 2.7Et01 1.3Et00 6*8Et00 2.?Etoo 5.1Et01 4 ,?Et04 bdE-01 4,OE-01 3.7EtOl 3.3EtOl 2.7EtOO 3.3Et01 1,5Eto2 5nOEt00 4.OE-01 2.5Et01 295Et03 l,lEt00 9 JEto2
540.0 11 b 3 M . O 13 -7631.1 29 3916.7 49 5269.2 30 238a9 8 1942.0 73 618.9 29 245.7 11 177.2 ii 3900.3 16 558.6 73
3028.0 39 6360.0 13 333.4 99 334.8 96 615.9 8 816.0 41 778.3 37 228.6 52 1596.2 15 603.1 9 558a6 73 2223.3 25 1942.0 73 2035.4 n 816.0 41 778.3 37 333.4 99 5641,s 3 334.8 96 816.0 41 497.3 73 558.6 73 177.2 11 333.4 99 8884.1 27 668.9 80 1077.4 19 3539.1 MI 7723.9' 27 b3bO.O 13 648.9 80 457.7 7 334.8 96 2035a4 77 2073.7 11 193.3 56 bb8.9 80 228.6 52
6079.8 77 245.7 11 848.8 15 697.3 73 1186.5 11 334a8 96 472.4 # 230.2 24
:%:! I#
475.1 7 250.9 9 7M5.5 24 2828.1 43 1884.8 22 6419.9 39 8M.9 12 195.6 6 141.3 4 2154.2 15 451.3 14 6419.9 39 218.2 11 596.4 33 691.7 11 439.4 56 439.7 54 325.6 7 1pB.o 15 848.8 15 295.6 21 218.2 11 2746.9 3 651.3 14 634.0 17 6419.9 39 350.3 61 198.0 15 848.8 15 439.4 56 348.7 3 439.7 54 198.0 15 410.9 29 651.3 14 141.3 4 439.4 56 835.1 27 773.9 22 7865.3 11 4334.4 63 2960.0 8 691.7 11 773.9 22 269.2 4 439.7 54 350.3 61 5380.6 9 61?0,2 5
537.4 20 295.6 21 202.5 19 195.6 6 720.3 7 610.9 29 944.0 11 439.7 51 6395.4 22 277.4 20
413.9 8
1.13 42 no 1.04 54 X f 1.69 !9 K 1.45 59 PR 1.25 42 HO 12.60 39 Y 1.33 32 GE 1.14 19 K 2.31 48 CD
671.7 11.27 31 692.1 5.29 26 FE 693.0 4.05 12 H6 695.6 2171 7 N 695.7 1.04 34 SE 496.3 1.62 20 CA 697.3 73029 40 ND 499.1 1.76 35 0R 699.0 2.08 59 PR
577.9 1.32 74 Y 1e9Et01 199,3 56 4190,2 5 706.5 1.70 15 P 707.5 1.37 48 CD 707.7 1.95 20 CA 708.3 2103 57 LA 709.1 2000 32 GE 710.3 1.09 31 GA 712.4 4.55 62 Sn 712.9 4.57 58 CE 717.3 8.27 46 PD 718.0 1.71 48 ER
579.4 1.94 80 HG 579.8 2.91 29 cu 580.2 1.58 42 HO 582.2 13.02 9 F 584.1 1.52 66 DY
584.6 9.37 58 CE 585.2 25.55 12 HG 585.2 6.75 21 SC
584.5 10.08 62 sn
3.8Et02 3 + 8Et00 ?+?Et00 9 t 5E-03 9a3EtO2 5~8Et03 4 e 3E-01 6.3E-02 2.7EtOl
348e1 81 1693.9 14 278.3 33 7914.5 31 778.3 37 848.8 15 3589.3 11 2452.8 10 185.7 21 538.4 7 333*4 99 439.4 56 334.8 96 439.7 54 3916.7 49 2028.1 43 228,b 52 295.6 21
585 * 5 590.3 594.8 594.9 595.2 595 2 595.9 596.1 596.4 596.8
2.13 38 SR 1.78 40 ND 1.32 10 NE 1.20 57 LA 1.17 58 CE 3.92 15 P 1.47 39 Y 1.73 54 BA 33.10 32 GE 4.35 7 N
1.2Et00 5 1Et01 3 b8E-02 9slEt00 6.3E-01 1.8f-01 1 3Et00 1,2Et# 2 * 3Et00 7 + 5E-02
1836.1 58 853.0 28 697.3 73 618.9 29 2035.4 7? 350.3 61 1596.2 15 218.2 11 334.8 96 439.7 54 3900.3 16 2154.2 15
1435.3 14 b27.5 12 30?8+0 39 840.4 15 5269.2 30 1884.8 22
6079.8 ?? 776.8 30
720.5 7.35 42 NO 722.2 2.18 21 SC 722.8 2.84 57 LA 723.2 1,?2 52 TE 724.9 3.92 48 CD 725.9 1.14 76 OS 726.9 2.95 20 CA 730.5 1.32 10 NE 73018 4.36 68 Ek 737.4 :,vi 42 no
595.8 597.0 597.1 400,2 403 e 1 408 * 4 60819 408.9 409.2 413.9
i.oa 11 NA 1.44 79 AU 1.42 13 AL 11.36 54 XE 9.34 52 TE 2.60 12 HG 8.62 29 W 7.40 32 GE 7.66 34 SE 2.41 42 no
4, E-01 9.9Et01 2,3E-01 2.5Et01 4 ,7E+00 4 e3E-02 3.8EtOo 2+3Et00 2,lEtOO 1 ento1
472.4 60 120108 12 7723.9 27 448e9 80 274b.9 3 3916.7 49 278.3 33 3028,O 39 778.3 37 238.9 8
4395.4 22 214.9 10 2940,O 8 773.9 22 723.2 2 2828.1 43 7914.5 31 596.4 33 848.8 15 520.0 6
737.6 11,04 42 Sn 737.6 le83 81 TL 738.2 12.83 58 CE 742.7 7.48 40 ND 747.3 1.37 40 CD 747.3 1.15 59 PR 748.1 2.09 62 Sn 749.2 11.04 24 CR 751.8 1.84 54 XE
741.3 2.29 4a ER w
615.9 8.40 44 PD 6 *YE to0 4e8Et00 5.1Et01 1,2Et00 2.7Et01 2.bEt00 1,OEtOZ 2.5Et01 1.2EtOl 1 bEtO2
717.3 8 33.6 7 245e7 11 195.6 6 697.3 ?3 844.9 12 143593 I4 4095.6 11 228*6 52 295.6 21 540.0 11 475.1 7 540.0 10 475.1 6
177s2 11 141.3 4 816.0 41 198.0 15
660.9 00 773.9 22
752.1 1.59 30 UI 418.4 4#41 35 BR 618.9 23.01 40 ND 627.5 12128 56 BA 627.9 9.36 21 SC 430.8 3160 44 RU 63105 14.64 54 XE 630.8 3.39 69 Ttf
752.4 1.48 14 SI 758.0 1.W 13 A 1 758.3 1.30 31 GI 760.9 1.12 54 XE 762.0 2.11 71 LU 765.5 1.83 58 CE 768.5 2.04 10 NE 770.3 51.48 19 K 772.5 1.47 74 Y
632.0 1.30 59 PR 632.1 3173 60 ER
- - . .. . .. . ..
434.0 436 2 436.2 445.4 645.8 445.9 446.7 648.4 648.8 650.9
16.88 76 OS 3.93 70 YE 12e18 15 P le70 45 RH 2.22 59 PR 11.13 23 V 2.61 19 K 2060 29 W 1.04 66 DY 2.90 38 SR
1eSEtOl 3.7Et01 1 8E-01 1.5Et02 1 e2Etol 5.oEtOo 241Et00 3.8Em 9e3EtOZ 1 at00
2223.3 25 241.8 22 3900.3 16 217.2 9 177.2 11 6517.2 18 77013 51 270.3 33 185.7 21 183681 58
187.3 15 341.9 7 2154.2 15 267.8 3 141.3 4 7162.7 13 2073.7 11 791485 31 530.4 7 898.0 .28
773.9 22.24 54 XE 774.1 2.18 21 SC 776.8 30.03 39 Y 776.9 4.13 35 BR 779.3 1.87 60 No 780.7 3.36 64 GO 780.9 4.74 58 CE 781.1 2.44 11 NA 78587 5.19 27 CO
770.3 36.92 42 no
651.0 451 e3 458 I3 453.9 46019 441 s 1 652.4 662.9 668.9 674,l
4.19 13.90 1.17 1.25 1 n26 4.47 26.40 1.88 80.00 2876
31 GA 48 CD 57 LA 31 GA 20 CA 80 H6 58 CE 29 MI 54 XE 62 sn
2. 9EtOO 2 5E to3 9,lEtOO 2*9EtM) 4 3E-01 3 1 8EtO2 6.3E-01 3.8Et00 2e5EtOl 5.8Et03
6360,O 13 558,b 73 1594.2 15 6340.0 13 1942.0 73 3b0tl 81 334.8 94 27883 33 773.9 22 333A 99
691.7 11 136402 5 218.2 11 691.7 11 641919 39 1693.9 14 459.7 54 7914.5 31 537.4 20 439.4 56
78683 786.8 788.4 78919 793b9 799.9 802 e 3 806.0 804.6 807 t 4
9.60 17 CL 3.21 42 M 15.00 17 U. 1..ll 45 RH 2.87 23 v 2*19 11 w 4.40 36 KR 4.65 48 CD 2.05 30 ZN 1.04 66 DY
1950.9 22 6110.9 20 778.3 37 848.8 15 195089 22 6110.3 20 217.2 9 267.8 3 6517.2 18 716217 13
881.8 84 121312 37 558.6 73 651.3 14 1077.4 19 7863.3 11 185.7 21 538.4 7
472.4 60 6395.4 22
474.4 2.22 5a CE m - 0 1 334.8 94 439.7 54 687*4 3.77 49 Th 1,OEt02 540,O 10 47501 6
11
808.1 2.18 21 SC 2,?EtOl 228.6 52 295.6 21 809.3 2.42 70 YB 3.7Et01 241.8 22 341.9 7
M. A. LONE, R. A. LEAVI.~. and 0. A. HARRISON Pioinp from I 'hrrnid- leuiron Capture
TABLE I . y-Rays Ordered by Energy See page 513 for Policies and Explanation
'.
GAMA RAY ELEBENT ruo )~AJOR LIES E I Z SY SIG El I 1 E2 I 2
keV X BARNS keV X keV X
G A M A RAY ELEKNT TU0 MJOR LINES E I Z SY SIG E l 11 E2 I 2
keV X BARNS keV X keV X 812.7 814.7 81600 818.6 81903 823.1 823 0 5 828 e 4 828.7 830 0 4
1.04 54 YE 2.5Et01 5.1EtOl 1,MtOZ 1 o2Et00 1 9EtO2 2.Mt00 5 D OEt00 6*8EtOO 115EtOl 2 t 3E-01
668.9 697.3 198.0
143503 1293.4 540,O
6517.2 245.7
2223.3 7723.9
80 773.9 73 61809 15 284.1 14 627.5 18 1097.0 11 475.1 18 7162.7 11 195.6 25 634.0 27 2960.0
22 29 12 12 12 7
13 6
17 8
933,7 37.26 40 ZR 1,9E-01 941.3 1.42 62 SH 5.8Et03 943.3 18.43 58 CE 6,3E-01 943.8 5.40 36 KR 2.5Et01 944.0 2.21 27 CO 3e7EtOl 944eO 10.56 64 GD 489Et04 944.4 1.80 39 Y 1.3EtOO 544.6 1113 15 P 1.8E-01 94512 le88 41 NE 1e2EtOO 958.9 1.36 54 XE 2t5EtOl
6294t4 17 333.4 99 3 3 4 0 8 96 88108 84 230.2 26
1186.5 11 bo79 18 77 3900.3 16 25417 25 66819 80
250.4 43904 43907
1213.2 277 0 4 199.4 776.8
2154.2 293.5 773.9
9 56 54 37 20 10 30 15 5
22
. . . - . . .- 10.15 60 ND 40.96 68 ER 8.78 56 BA 2.71 49 IN 1.03 44 RU 4.26 23 V 1.63 35 BR %qb 76 OS 1.72 13 AL
831.2 1.63 62 SK 834.6 2.73 30 ZN 835.1 26.86 24 CR 835.9 1.50 41 NE 8 3 6 ~ 6 1165 20 CA 837.7 9.60 18 AR 841.1 75.55 16 S 84307 Io84 19 K 844.0 2030 40 ZR 846.1 1.32 10 NE
5 t 8Et03 le lEt00 3elEt00 1,2Et00 4.3E-01 6,8E-O1 5.2E-01 2,lEtQO 1.x-01 3 e 8E-02
5sOEt00 4.4Et00 ?,?Et00 1.2EtOO 1.MtO2 9 e 2E-03 568EtO3 2.7EtOl 1 &to2 5 * lEfOl
33314 99 439.4 56 107704 19 786313 11 8884.1 27 7939.3 13
254.7 25 29305 5 1942.0 73 641919 39
16703 80 4745.0 55 542005 59 237907 45
770.3 51- 207307 11 93317 37 6294.4 17
203504 77 35003 61
960.8 4.60 32 GE 961.8 7,42 64 GD 96108 10.26 58 CE 963.9 la90 36 KR 97302 le19 50 SH 976.2 5.28 12 f f i 97712 4.13 64 GD 977.3 5.08 58 CE 979.2 1.52 66 DY 980.1 1188 20 CA
2e3Et00 4.9Et04 6.3E-01 215Et01 6 e 3E-01 6.3E-02 4 D E t 0 4 6 * 3E-01 9 * 3EtO2 4.3E-01
302880 39 596.4 33 11 54 37 8
43 11 54 7
39
5 29 30 8
17 17 54 11 11
4
1186.5 11 944.0 334e8 96 439.7 881.8 84 121382
1293.3 13 1171.3 3916.7 49 2828.1 118605 11 944.0 334.8 96 439.7 185.7 21 538.4
194200 73 6419.9 846.1 3052 23 V 846.9 1.06 28 M I 848.8 14.52 42 )Io 85005 11114 38 SR 85314 4.91 68 ER 85305 25.96 4 BE 860.3 1.09 21 SC 86403 1020 68 ER 864.9 12.20 60 ND
859.0 1.46 62 Sn
651702 18 8998*8 38 77803 37
1836.1 58 81600 41
6009.4 64 333.4 99 22806 52 816.0 41 697.3 73
7162.7 13 8533.4 17 72003 7 898.0 28 19800 15
3367.6 34 43904 56 295.6 21 19800 1s 618*9 29
98097 981.2 98305 984 0 987.7 990.5 997 0 0 999.1
100409 1006~6
9.83 2.34 2.56 5.47 1070 1047 1 e34 1.61 1074 i : 4 1
3 L I 60 ND 22 T I 13 AL 76 OS 40 ZR 58 CE 64 G D 64 GD 59 PR
3 e 6E-02 5nlEt01 6,lEtOO 2,SE-01 1 0 to1
6 e 3E-01 4 9Et04 409Et04 1eZEtOl
l & O l
203205 89 697.3 73
138185 69 7723.9 27 2223.3 3 93307 37 334.8 96
118605 11 1186.5 11
1?7,2 11
107714 19 881,8 84
2035 e 4 77 763101 29 159612 15 554.8 10 66809 80
390013 16 1435.3 14 24507 11
1052.7 61809
6418.4 296000 63400
6294 e 4 43907 944.0 944.0 141.3
865,6 2.28 7 H 7.5E-02 5269.2 30 1684.8 22 867.2 2.17 20 CA 4.3E-01 194210 73 6419.9 39 867.3 1.10 18 AR 6.E-01 167.3 80 4745.0 55
100704 101601 101605. 1019,O 102009 1030.8 103105 103204 104000 104305
2.80 3.20 9000 2047 1 e 3 3 3002 4.96 1.37 4.20 1017
30 ZH 36 KR 10 ME 26 FE 57 LA 37 RE 54 XE 15 P 56 EA 35 BR
lelEt00 2.5EtOl 3 I 8E-02 2,6Et00 9,lEtOO 3e7E-01 205EtOl 1 0 8E-01 1 ~2Et00 618Et00
7863~3 11 1213~2 37 35003 61
764505 24 21802 11 47600 3
868.1 1.10 57 LA 9 . i ~ t 0 0 1596.2 is 218.2 ii 868.3 1.97 62 SW 5.8Et03 33304 99 439.4 56 868.4 14.79 32 GE 2.3EtOO 3028.0 39 596.4 33 868~8 1002 64 GD 4 ~ 9 f t 0 4 1186e5 11 944.0 11 869.0 2.02 15 P 1,8E-01 3900.3 16 2154.2 15 86902 1.42 79 AU 9.9EtOl 1201.8 12 214~9 10 869.9 3.28 54 XE 2v5EtOl 668.9 80 77309 22
870.6 21192 11 HA 4,OE-01 47214 60 6395.4 22
773.9 n 215402 15 62705 12 19506 6
4.00 18 AR 608E-01 5 e 8Et03 6oVEtOO 603E-01 3 L bE-02 ::m 3 E-02 307EtOl lo lEt06
16703 80 333.4 99 61509 8 33408 96
2032.5 89 22806 52
390093 16 203514 77 241.8 22
7863.3 11
474500 55 439.4 56 717.3 8 439.7 54 98007 10 29506 21
2154.2 15 35003 61 34109 7
1883.9 7
870.9 100*00 8 0 2.7E-04 218405 82 108709 82 871.9 2171 58 CE 6.X-01 33418 96 43917 54 8 7 2 ~ 7 2 ~ 3 9 37 RB 3,?€-01 55608 10 476DO 3 873.2 1083 81 TL 3.4Et00 564105 3 348.7 3 877.9 3.86 2E N I 4e4Et00 899808 38 8533.4 17 878.1 1.24 29 CU 3.8EtOO 278.3 33 7914.5 31 881.8 84000 36 KR 215EtQ1 121302 37 146305 26
~. . . ._. 883.3 2.67 66 DY 9e3Et02 185.7 21 53804 7 . 88605 1050 34 SE 1.2EtOl 238.9 8 61309 8 . .
2.57 62 Sn 6077 46 PD 3065 58 CE 4091 3 L I 103 21 8S! 15 P
14016 10 ME 1018 70 YB
18093 30 ZN 886.5 2.59 80 H6 3.8Et02 36801 81 1693.9 14 36 KR
72 HF 21 sc 19 I( 8 0
21 sc 42 HO b4 GD 49 In 5 4 x E
2sEt01 1 .K t02 2.7Et01 2olEt00 2.7E-04 2.7Et01 217EiQo 40EtO4 109Eto2 2.5Et01
881.8 84 214~0 55 22806 52 77003 51 870.9 100 22806 52 77803 31
118605 11 129304 18 668.9 80
121302 37 . 886.9 1.10 76 OS 1.5Et01 2223.3 25 63100 17 .:. 888.6 1074 21 SC 207EtO1 22806 52 295.6 21
891.8 1068 74 Y 1.9EtOl 199.3 56 6190.2 5 895.3 1.36 54 XE 2.5Et01 66809 80 77309 22 896.1 1.34 4 1 NB 1.2EtOO 254.7 25 293.5 5
1080.3 2.81 108404 1053 1084.4 1.19
32508 6 295.6 21
2073.7 11 218405 82 295.6 21 848.8 15 944.0 11
211201 11 773.9 22
896.7 1.64 39 Y 1.3Et00 bQ7908 77 77608 30 89703 6.51 64 GD 4eVEt04 1186.5 11 944.0 11 898.0 27084 38 SR 1.2EiQo 183601 58 85005 11 898.0 10.65 58 CE 6.3E-01 334.8 96 43907 54
i0pj.o i i I P i 1098 * 9 1 e 84
898 e 2 90208 909 5 910.9 912.1 912.7 91489 915.3 916,b 928 2
1.85 26 FE 2.64 58 CE 1007 30 ZH 1.08 81 TL 2.96 66 DY 3.20 40 2R
2.MtOO 6,3E-01 1 e 1Et00 3.4Et00 9 e 3EtO? 1 e9E-01 1.bEtO2 1.8E-01 4.9EtO4 3 .?Et01
7631.1 29 334.8 96
1077.4 19 564105 3 185.7 21 93307 37 816.0 41
390003 16 118605 11 230.2 26
7645.5 24 439.7 54
7863.3 11 348.7 3 53804 7
6294.4 17 19800 15
215402 15 944.0 11 277~4 20
1100e7 6.19 32 GE 2.3Et00 3028.0 39 596.4 33 2036 72 HF 1034 44 1026 69 TH 4.47 64 GD 6016 58 CE 3025 64 GD
1 .OEtO2 2.MtOO loOEt02 409Eto4 6.3E-01 419Et04 1186.5 11 bo 3E-01 207Eto1 6.3E-01
21480 55 540.0 11 54000 10
1186+5 11 334.8 96
. -. . _ _ 32508 6 475.1 7 47501 6 94400 11 439.7 54 944.0 11 439.7 54 29506 21 439.7 54
3.55 bE ER 1.18 15 P 1045 64 6D 1.01 27 co
4004 58 2.83 21 8 1.04 58 CE
~ ~ . . . -
334.8 96 228e6 52 334.8 96
93012 1.81 76 OS 1e5Et01 222303 25 634.0 17 930.5 1.01 68 ER labEtO2 816.0 41 198.0 15
112411 1.60 54 XE 2~5Et01 bM,9 80 773.9 22 1124.5 2020 36 KR 2.5EtOl 8 8 1 b 8 84 121302 37
111
TABLE I. y-Rays Ordered by Energy See page 513 for Policies and Explanation
G A M A RAY ELEHENT TU0 flAJOR LINES E I Z SY SIG El I1 E2 I2
keV X BARNS keV % keV %
GAllM RAY ELEKNT M) MJOR LINES E I 2 SY SIG El 11 €2 12
keV % BARNS keV X keV X ii??,B 2.93 46 PD b.9EtOO 615.9 8 717e3 8 1312.7 1.20 10 )#
ti%: k$! j!i I 1319e9 12.08 54 XE 1321.4 1.56 15 P 1322.8 1.09 21 SC 132411 1.33 76 OS 1324.4 2*71 64 GD !326,2 5.99 58 CE 1330.3 1*20 36 KR
3.8E-02 21gEtOO 61 Et00 2st01 1 n8E-01 2.7Et01 1.5Et01 4 b9Et04 6*3E-01 2.5EtOl 2.7Et01 1+1Et00 4,M-01 568EtO3 1 ,6Et02 6*8€-01 286Et00 5 *OEt 00 3 t 8E-02 2e5Et03
2035.4 77 350,3 61 112Pa4 113!*1 1!32,5 113E.G !13St6 1139.5 1150,b 1141*0 ll42*4
8,46 12 KG 1.27 17 CL 3,76 40 ZR 1.15 60 ND 1.16 29 CU 3.04 54 XE 1.53 31 68 1.42 58 CE 1.51 64 GII
6 e 3E-02 3.3Et.01 1 9E-01 5.1Et.01 3.8EtOO 2.5EtOl 2*9EtOo 6.3E-01 4.9Et04
3916t7 49 1950.9 22 933,7 37 697.3 73 27883 33 46819 Bo
334.8 96 1186s5 11
t360.0 13
2828 t 1 6110.9 6294 e 4 618.9 7914.5 773.9 691.7 439.7 944.0
43 20 17 29 31
54 11
:: 668.9 80 773.9 22 3900.3 16 2154.2 15 228.6 52 295.6 21 2223.3 25 631.0 17 1186.5 11 944.0 11 334e8 96 439.7 54 88118 84 1213.2 37
li54.2 1.76 64 GD 4,9Et04 1186.5 11 944.0 11 1155.6 !e87 20 CA 4.X-01 1942,O 75 641919 39
1334.7 1340.5 1345.5 1348.9 1352.9 135410 1358.6 1358.7 1364 e 1 1364.2
2.83 2i SC 2e39 50 ZH 1.90 11 HA 1.67 62 SW 1.45 68 ER 2e30 18 W 1.11 26 FE 2.17 23 V 1.50 10 NE 4*95 48 CD
225.6 52 295.6 21 1077.4 19 7863.3 11 472.4 60 6395.4 22 333.4 99 439.4 56 816.0 41 198.0 15 167.3 80 4745.0 55 763111 29 7645.5 24 6537.2 10 7162.7 13 2035.4 77 350.3 61 558.6 73 651.3 14
1155.7
1154.7
1158e8 1162,b
1165.2 1169.8 1!70,5 1!71,3
2.43 8.36 1 e30 19.93 1.74 3.44 4.t9 7,85
54 XE 19 K 17 CL 17 CL 21 sc 58 CE 62 SR 50 SN
2.5Et01 2,lEtlJO 3e3EtOl 3.3Et01 2.7Et01 6.3E-01 54BEt03 6 I 3E-01 2 .x to 1 1,GEtOZ 1m5Et01 1 ,ntoo 6.3E-01 4+9Et04 1*3Etoo 6,8E-01 4 4Ef00 5 5EtOS
668.9 80 773.9 770.3 51 207387 1950.9 22 611089 1950.9 22 6110,9 22816 52 295.6 334,8 96 439.7 33384 99 439.4 1293,3 13 1229.5
@ 20 20 21 54 56 7
1173,O 2.24 !175,4 1.95 1!75.7 1.20 ilS1,O le16 ll86,J 19.67 !13b.5 10.83 1136.7 2.11 1186,8 52.20 1 1 8 9 ~ 0 1.05 !l99.? 1.81
54 XE 72HF 76 OS 38 SR 5% CE 54 GD 39 Y 18 AR 28 NI 02 sn
663.9 90 773.9 21480 55 325.8 2223,3 25 634.0
22 6 17 28 54 10 30 55 !7 56
1559.5 1371.4 1373.1 1377.1 1379.4 1380.6 1391 e 5 1388.3 13Pt.6 139.3
1.17 le79 1157 1 e03 1.60 1.B. 69t09 3.05 1 b 2 6 3917 1 e06 1.11 7.95 1.23 1.08 14.04 3e92 le04 le15 1.13
14.05 1.13 2.94 1.10 26tOO 1.92 2.06 1.29 1 e57
39 Y 58 E 19 K A0 ND 54 XE 15 P 22 T I 20 CA IO NE 98 ci) 23 V 37 RB 40 ZR 81) HG 13 AL 15 P 60 ND 54 XE 72HF 38 SR
1 6 3EtOO 6 t 3E-01 2slEi00 5~1EtOl 2 s SEW1 1 8 9E-01 6,lEtOO 4*3E-01 3.8E-02 245EiO3
6079.8 77 776.8 30 334.8 96 43917 54 770.3 51 2073.7 11 697.3 73 610.9 29 3900.3 16 2154.2 15 6418.4 30 341.7 26 1942.0 73 641919 39 2035e4 77 350.3 61 558.6 73 651.3 14
668.9 80 773.9 22 1836.1 58 698.0 334.0 96 439e7 944.0 11 199,4 6079.8 77 776.9 167.3 80 4745.0
1199,2 2.16 35 BR 6.6EtOO 245.7 11 195t6 6 1200,6 2.34 46 PD 6.9Et00 615.9 9 717.3 8 1200.9 3.69 42 NO 2.7Et00 778.3 37' 948.8 15 1201,4 1.45 33 AS 4.3Et00 16416 17 1534.3 7 1201.8 12.17 79 AU 9.9Et01 21419 10 261+1 6 1203a7 1.36 81 TL 3.4Et00 . 564185 3 34817 3 1204.6 3.20 54 XE 2,SESOl 66889 80 773.9 22 1206.4 4.60 72 HF 1eOEt02 214,O 55 325.8 6 1?09*4 3Btl 48 CD ?*Et03 558.6 73 651.3 14 1212.7 1.59 39 Y 1e3Et00 6079.8 77 776.8 30
1400.2 1404n2 146416 1407.6 1408.9 1413.1 141481 1417~7 1421.3 1434.9
S*Mt00 3t7E-01 1 ,PE-@l 3eEtO2 2,3E-01 1 LE-01 5.1Et01 2.5Et01 1 bOEtO2 1.2Et00
1.2EtGQ l.2Etoo 1.xtoo 9,lEtOQ 2.5Et01 2e5Et01 2+3Et00 2e3EMO 2.1Et00 5elEt01
6517e2 18 7162.7 13 556.8 10 476.0 3 933e7 37 t294,4 17 365.1 81 1593.9 14 7723.9 27 2960.0 8 3900.3 16 2154e2 15 697.3 73 618.9 29 668.9 80 773.9 22 214.0 55 325.8 6 1836.1 58 898.0 28
62715 12 4095.6 11 1836.1 58 898.0 28 1435.3 14 627.5 12 1596.2 15 218.2 11 881.8 84 1213.2 37 66809 80 773.9 22
3028.0 39 596.4 33 3028.0 39 596.4 33 n0.3 51 2073.7 11 697.3 73 618.9 29
1213.2 121865 1225,7 1228,O 122809 122T.5 1247,s 12tO.b
1261.7 1261 -3
37.00 36 KR 2.05 38 SR 2.15 80 HG 1.30 21 SC 3*8? 72 HF 6864 50 SH 3e59 19 K 2,57 26 FE 1.28 54 XE 29.53 6 C 1.95 30 ZN
2.5Et01 1.2Et00 3e8Et02 2+7Et01 1SOEtO2 6.3E-01 2.1Et00 2.bEtoo 2.5EtOl 3 4E-03 lelEt00 6.X-01 3 8Et02 4 e 9Et04 1.5Eto1 2 0 1Et00 2.7Et01 1 I 6E-01 9elEtOO 1.Mt02 2 5E t03 2.5Et01 6*3E-01 1.9Et02 5.9Et03 2.5Et01 4.4Et00 2.5Et03 2 L 1Et00 3.7E-01
881.8 1836.1 368.1 228e6 214.0 1293.3 770.3 7631 1 669.9 4945.3
84 1463.5 26 58 898.0 28 81 1693.9 14 52 295.6 21 55 32518 6 13 117113 8 51 2073~7 11 29 7645~5 24 80 773.9 22 68 3683.9 32
1435.3 1442e1 144488 1447.5 1463.5 1465.2 1470.0 1471e4 1479 8 4
56 EA 38 SR 56 BA 57 LA 36 KR 54 XE 32 6E 32 GE 19 K - - . _ ,_ . . 1481.9 1.58 40 ND
1262.1 1077.4 . 334 8 368.1 118665 2223 I 3 770~3 228.6 3539 I 1 1596.2 81680
558 L 6 668 t 9 1171~3 1097,O 333 * 4 66819 8998 e 8 558 6 770.3 556,0
19 96 91 11 25 51 52 68 15 41
7863.3 11 439.7 54 1693.9 14 944.0 11 63400 17 2073J 11 295.6 21 4934.4 63 21882 11 198.0 15
1484.8 2.80 54 XE 2.5Et01 668.9 90 773.9 22 148914 1.84 48 CD 2iXtO3 550.6 73 651.3 14 12t2e6
1263.0 1263.6 1267.4 126815 1271 n 4 1273.3 1?76,6 1?7!*2
4.09 58 CE 2.23 80 HG 1.99 M GD 1.04 76 OS 1.34 19 K 1.09 21 SC 15993 14 SI 2.11 57 LA 2.51 68 ER
- - - - . - - - -. - - . i m e 3 1.36 78 PT LoEtoi 356.1 a 333.3 16 1497.8 2.05 42 HO 217Et00 778.3 31 848.8 15 1498.5 4.06 22 TI 6.1EMO 1381.5 69 6418.4 30 1502.4 1.92 54 XE 2e5Et01 668.9 EO 773.9 22 1507.5 le78 49 IN 1*9EtO2 1293.4 18 1097eO 12 1511n6 1.26 32 6E 203Et00 3028.0 39 596.4 33 1516.1 2.93 27 CL) 3e7Et01 230.2 26 277.4 20 1522.7 3.28 54 XE 2,XtOl M8.9 80 773.9 22
i2e3,s 1291,3 1295.3 l293,4 1293.7 1297.8
1302s6 1303e6
1301 -6
1504.6
1.77 49 CD 6.89 54 XE 12.76 50 SN 17.59 49 IN 7.40 62 SH 11.92 54 XE
73 80 8 12 99 80 38 73 51 10
651.3 14 7?3,9 22 1229.5 7 2112e1 11 439.4 56 773.9 22 8533.4 17 651.3 14 2073.7 11 47680 3
1534.3 1535.2 1542.5 1548.0 154915 1552.1 1553.4 1558.4 1560.8 1565.3
7.18 1.26 le20 1.90 3816 3.76 1.28 4.30 1.12 le46
33 AS 38% 36 KR % E A 21 sc 31 6A 22 TI 23 V 54 XE 19 K
4.3EMO l,?EtOO 2.5Et 01 1,xtoo 2.7Et01 2*9EtOO 6alEtCQ 5,OEW 2.5Et01 281Et00
164.6 17 471.9 4 1836.1 58 898.0 28 881.8 84 1213,2 37 1435.3 14 627.5 12 228.6 52 295.6 21
6360,O 13 691.7 11 1381.5 69 6418e4 30 6517.2 18 7162.7 13 468.9 80 773.9 22 770.3 51 2073.7 11
1.38 28 NI 1.47 48 CD 2.40 19 K In27 37 RE
1308.3 1.23 57 LA 9elEt00 1596.2 15 218.2 11 1309e6 1.47 72 H 1eOEfQ2 214.0 55 325.8 6
1566.6 1.34 42 )10 2.7EtOO 778e3 37 848.8 15 1571.4 7.27 80 HG 3.8EtO2 368,l 81 1693t9 14
112
i
TABLE I . y-Rays Ordered by Energy See page 5 I3 for Policies and Explanation
G A M 4 RAY ELEEHT TU0 MJOR LINES E I Z SY SIG El I1 E2 I2
keV % BARNS keV X keV X
1572.6 1572.7 1573.5 15?7.7 1580.8 1585.2 150610 1590.0 1596e2 1598.2
1.71 46 PD
1.74 46 PI1
le40 52 TE 1.49 24 CU Ea37 22 T I 1.00 13 AL 15,36 57 LA
3.36 21 SC
1.41 59 PI1
1128 54 x!:
6.PEt00 2em01 6e9EtOO 1,XtOl 4 s7EtOO 3 * 1EMO 6,1Et00 2 *3E-01 9.IEt00 2eSEt01
615'9 8 228.6 52 615*9 8 177.2 11 603.1 9 e884.1 27 1391.5 69 7123.9 27 218a2 11 668.9 80
717.3 8 295.6 21 717.3 8 141.3 4 2746.9 3 6%:: 3; 2960,O 8 288.3 9 773,9 22
1600.8 4.16 17 CL 3.3EtOl 1750.9 22 611019 20 161?,7 6.00 26 FE 2mbEt00 763111 29 7645.5 24 1614.1 6.20 19 'K 211Et00 77063 51 2073e7 11 1617,o 3.16 23 V 5.CEMO 4517.2 18 7162.7 13
1617.9 6.02 40 ZR lepE-01 933.7 37 6294.4 17 1618.3 1.92 41 WB 1*2Et00 254.7 25 293.5 5 1618.3 2.01 30 ZN 1*1EtOO 1077.4 19 7863.3 11 1618.5 8.16 19 K 211EtOO 770.3 51 2073.7 11 1618.6 le49 46 PD be9EtOO 615.9 8 717.3 8
1617.4 2.40 54 XE 2 e ~ t o 1 658.9 80 773.9 n
161816 161816 1618.7 1618.8 1618.9 1619.4 1619.5 1519.6 1620.9 i620.0
8.00 56 BA le75 74 Y 1.18 53 I 1150 55 cs 1156 52 1E 1.41 32 6.E 1.73 33 AS 3.64 44 RU 1.64 45 F:H
1177 77 Ift
1.2Et00 119EtOl 6e2EtOO 4 3EtO2 2.9Et01 4.7Et00 2a3EtOo 4 I 3Et00 2 I 6EtM 1 .SEt02
1435.3 199.3 133.6 200.4 11614 503.1 3028 0 164,t 543.0 217.2
14 627e5 56 6190,2 8 442.9 1; :7"i:3 9 2746.9 39 596.4 17 1534.3 11 275.1 3 265.8
12 5 4
3 33
7 7 3
lii
1622.5 3.35 13 IL 283E-01 772319 27 2960.0 8 1624.0 2.00 54 ):E 2e5Et01 bb8,9 EO 773.9 22 1628.5 5t88 44 FAI 216Et00 540.0 11 475.1 7 1629.9 2e81 15 P 1.8E-01 390013 15 2154.2 15
1632.8 5 e 5 0 !2 IIG 613E-02 3916.7 49 2828.1 43 1633.3 2.48 J6 IM 1.2EMO 1435.3 14 627,s 12 l633.9 1.10 74 U lt9EtOl 199.3 56 6190.2 5 1634.4 7.45 11 IM 4,OE-Ol 472.4 60 6395.4 22 1637e4 1.84 54 XE 2e5Et01 668.9 80 773.9 22
164218 1.88 40 ;UC 1,PE-Ol 933.7 37 6294.4 17 1649.2 1.95 20 C A 4.3E-01 1942.0 73 64i9.9 39 1660.7 1.49 48 CD 2.5Et03 558.6 73 651.3 14 1Ab4e2 le92 23 U 5eOEt00 6517.2 18 7162.7 13 1671.7 2.67 20 CA 403E-01 1942eO 73 6419.9 39 1672.3 1.32 60 HD 5.1Et01 697.3 73 618.9 29 1672.4 le26 29 MJ 398EtOO 278.3 33 7914.5 31 1674.1 3.55 15 P 1.8E-01 3900.3 16 215412 15 1674.2 1.93 30 ZW lelEt00 1077.4 19 7963.3 11 1675.1 1.08 70 YB 3.7Et01 241.8 22 341.9 7 1676.8 1.02 78 PT l*OEtOl 356.1 28 333.3 16 1678.3 7.36 7 H 7~5E-02 5269.2 30 1884.8 22 1681.4 le62 7 N 7eX-02 5269~2 30 1881.8 22 1688.2 2.36 15 P 1.8E-01 3900.3 16 2154.2 15 1690.1 7.77 12 WG 693E-02 391617 49 2828.1 43
1632.3 2.32 40 j!R 1.9E-01 933,7 37 t294.4 17
1691.3 1.97 20 CA 4z-01 1912.0 73 6419.9 39 1692.0 4ebS 21 SC 2.7Et01 220.6 52 29516 21 1693.9 14.13 80 M 3e8EM2 368e1 81 596612 14 1693.9 1.02 23 U 5eOEtOO 6517.2 18 7162e7 13 1694.8 1.25 24 CR 3.1EW 8884.1 27 -835.1 27 1701.5 1733.7 1704.3 1705 4 1712.0 1712.6 1714.0 1715.0 171812 1719.5
1.82 1.91 le92 1.39 1 .?0 3.84 3.53 1.12 4.00 2.71
44 Ru 20 CA 19 K 3 w 79 Au 58cE 12 116 54 XE 38 SR 80 HG
216E)O 4.3E-01 2.lEtOO 1.3EtOl 919EtOl 6.3E-01 6 . X-02 215Et01 1 .?Et00 3 t SEto2
540.6 ti 47511 1942.0 73 C?l9,9 770e3 51 2073.7 26.6 18 7243.8
1201.8 12 214.9 33488 96 439.7 3916.7 49 2828.1 668.9 80 773.9 1836.1 58 898.0 368.1 81 1633.9
7 39 $1 12 10 54 43 22 28 14
172016 1.39 72 UF liOEt02 214.0 55 325.8 6 1721.6 1.59 52 TE 4.7EtOQ 603.1 9 2746.9 3
GAMA RAY ELEtlEkl Tyti n4m LIMS E I Z SY SIG IEl I1 E2 I2
keV X BARilS krV X keV X
1724.0 2191 20 CA 4.X-01 1742,O 73 6t1?,9 37 lmeO 2.40 54 XE 2e5EtOl 668,9 80 73.9 22 1725.1 8,03 26 FE 2.6EtOO 7631.1 29 75,~,5 ?4 1725.5 1.36 41 NB 1+2E#9 ?54,7 25 273,5 5 1734.2 3189 15 P 1.E-Of 3900.3 16 2156'2 ! S
29 CU 3,E't55 279;3 3f !:14,5 3 M;! f:bJ 30 zn i,iEtoo io7 4 1 :~3.3 i i
1750.0 175218 1757.6 1760.1 1760e2 1761 e9 1764.4 1770.7 1775.0 1777.8 1783.8 1793.3 1795~0
1802.1 1803.7 1804e2 1809.9 1812e8
t779%:1
3.01 12 MG 1.38 49 IH 4.00 14 SI 1.57 15 P le60 66 DY 5.64 22 TI 3.00 ii Si 1.76 54 XE 4.00 14 SI 5.07 23 v 6.07 24 CR
1.61 19 K 2153 22 TI
l:# B !k 1.98 27 CO le32 78 PT 3.92 54 X$ 29,97 12 lib 1.51 21 sc
6 6 3€-O? 1 e9EtE 1 M-01 1 ,EE-01 983EtQ2 64 1E+M 1 +6E-01 2.5Et01 1.6E-01 5,OEtM
3.1EtOO 6,lEiQO 2elEt00 1.OEt02 3 ?Et01 1.0EtOl 2e5EtOl b s H-02 2,7i?01
1 bzstw
i%3?*4 !a 3 U P . i 68 3VOOB3 15 185.7 21 1361.5 69 3539.1 . 68
666.9 ao 3ij39;j &j 6!i17.2 18
iR28 I 1 1007,O 2934 e 4 2151.2 538.4 6410e4 4934.4 773.9 4934.4 7162.7
81384,l 27 835.1 1381e5 69 5418.4 770.3 51 2073.7 214.0 55 325.8 1836.1 58 898.0 230.2 26 277.4 3%*1 28 33313 6b8*? 80 773.9 228.5 52 295.6 3316,7 4P 2e23.1
43 12 63 :5 7 30 63 22 63 13 27 30 11 6 28 20 16 22 43 2i
1821e6 2.04 10 HE 3.E-02 2035,4 77 350.3 61 1825.8 2813 20 CA 483E-01 1942,O 73 6419e9 39 1827.3 le55 44 PJJ 2sMtOO 540.0 11 475e1 7 1828.8 1.00 18 4R 6.8E-01 167.3 W 4745.0 55 183i.O 6.21 27 CU 3.7Et01 230,2 I6 277.4 20 1835.0 1.60 56 BA 1.2EtOO 1435.3 14 627.5 12 1836.1 57.79 38 SR 1.Xt00 898.0 28 850.5 11 1839.7 2.19 31 GA 219EtOO 6360.0 13 691.7 11 1647.7 3.38 40 u( 1e9E-01 933.7 37 6294.4 17 1842.1 1.21 22 TI 6+1Et00 1381.5 69 M18.4 30
1853.3 1853.4 1855.6 1857.3 1878.7 1B80.2 1881.5 1881.6 1883.9 1884.8
le31 27 CO 1.20 54 XE 1.07 20 CA 3.03 21 SC 1.10 36 W 1.41 20 CA 1140 18 4R le16 38 !iR 6.79 30 ZN 21.62 7 N
3e7EtOl 2.5Et 01 4e3E-01 2e7EtOl 2 I 5EtOl 4.x-01 6 8 8E-01 1.2Et00 1 t1EtOO 7 SE-02
23012 26 668e9 80 1942.0 73 228.6 52 881.8 84 1942.0 73 167.3 80 1836,l 58 107714 19 5269.2 30
277.4 20 773.9 22 6419.9 39 295.6 21 1213.2 37 641989 39 4745.0 55 898.0 28 7063.3 11 5298.0 21
1888.8 2.48 31 G4 219Et00 63bO.O 13 691.7 11 188913 1.97 37 R0 3.7E-01 55618 10 476eO 3 1889.6 2127 11 NA 41M-01 472.4 60 6395.4 22 1890.0 1.16 27 W 3~7Et01 230.2 26 277.4 20. 1890.0 6.05 15 P 1.E-01 3900.3 16 2154.2 15 1890.1 2.24 54 ?E 2.SEtOl 668.9 80 773.9 22 1890.2 8.65 12 M6 bo3E-02 3916.7 49 2828.1 43 1890.4 1.83 40 ZR l.pE-01 933.7 37 6294.4 17 1891.3 1.67 56 B4 1.2Et00 1435.3 14 627.5 12 1897.5 1.92 10 E 3.K-02 2035.4 77 350.3 61 1897.6 8.10 36 KR 2*!iEt01 881.3 84 1213.2 37 .___ .-
1898.4 1838.5 2 3 . 4 1913.9 1915e2 1918.2 1923.3 1929.3 1930.5
~.
1.98 4 627 1.49 1.20 2.50 1.27 1.46 2.80 18.M)
56 BA 24 CR .o K 25" 52 TE
10 M
?1 sc
:a T
1 e 2 E t o i 3.1EMO 287EtOl 3 s 8E-02
2.Kt00 2elEt00 3.8E-02
La3
143513 8884.1 228.6 2035 * 4 26.b 778.3 770 3 2035 B 4
W e * .
14 27 52 n 18
51 77 8
627.5 12 035.1 27 295.6 21 350.3 61 7243.8 12 ?74b.9 .? 84tlea 35013 61 2 0 7 3 ~ ii
193117 1.38 31 GA 2,9EHO 6360.0 13 691.7 11 1932.2 1.19 I! HA 4,OE-01 47214 M) 639514 22
113 i
TABLE I . ?-Rays Ordered by Energy See page 513 for Policies and Explanation
G W RAY E&ENT TU0 nAm LINES E I Z SY SIG E l I1 E2 12
keV X BARNS keV X keV X WIHM RAY ELEENT TW) wm LINES
E I Z SY BARNS SIG keV E l 11 X keV E2 Z I 2 keU X 1940.5 1941 e9 1942.0 1995.9 1949.0 1949.9 1950.3
1953.2 1953,7
1950,9
2.02 32 Gf 5.30 15 P 1.28 J4 XE
1-06 31 6A 1.35 28 # I
21.72 17 CL 1.77 23 v 1.17 38 SR
72.55 20 CA
2.00 11 HA
2.3Et00 1 e8E-01 4.3E-01 2.5Et01 4 4 OE-01 2.9Et00 4 4Et00 3.3Et01 5 OEtOO 1 2Et00
3028.0 390063 6419.9 66819 47284
6360,O 8998.8 bl lOi9 651712 1836.1
39 16 39 80 60 13 3a 20 18 58
596.4 215412 4418.9 773.9
6395.4 691 *7
8533 e 4 1164.7 7162.7 898.0
33 15 15 22 22 11 17 20 13 28
2100,5 2105.8 2108.3 211164 211114 2112.1 2112.7 2114,3 2118,4 2121 8 5
1.05 23 U 5.OEt.00 1 0 9E-01 2 3E-01 2e7EtO1 1 * 2 E W 1 e9Et02 6 3E-01 I *BE41 4 3E-01 4 t 3E-01
6517.2 18 7162.7 13 1.28 40 ZR 1.80 13 PL 2.71 21 sc 1.28 38 SR
10171 49 IN 1.50 50 SN 6.94 15 P 2.31 20 CA
933.7 32 629414 7223.9 21 2960.0 220.6 52 295.6
1836.1 58 898.0 1293.4 18 1097.0 1293.3 13 1171.3 3900.3 16 2154.2 1942.0 73 6419.9 194210 73 6419.9
17 8
21 28 12 8
15 39 39 1.40 20 CA
1956.7 1956.9 1957,4 195748 1959.1 1961.0 1965.4 197406 19?5*1 197817
2.29 19 'K 1.20 10 HE 3.25 59 CE 1.68 54 XE
14.62 17 CL 1.20 36 KR 1.05 11 NA 1.09 57 LA 1.04 54 XE 1.36 78 PT
2 E t 0 0 3 8E-02 6.3E-01 2~5Et01 3e3Et01 2.5EtOl 4 8 OE-01 9rlEt00 2.5Et01 1 .OEtOl
770.3 51 2073.7 11 2035.4 77 350.3 61
33418 Ft 439-7 54 66849 80 773.9 22
1950e9 22 6110.9 20 891.8 84 121302 37 47214 60 6395.4 22
159682 15 21812 11 668.9 80 773.9 22 356.1 28 333.3 16
2125,8 2125,! 2129.E 2130,7 2137.5 2139.0 2146.0 2149.4 2155.4 2154.2
2632 11 NA 1.00 31 GA 3.50 20 CA 4.40 18 AR la30 11 HA 1,?5 13 AL 4.08 23 V 1t58 20 CA 1.10 19 K
15.23 15 P
4.OE-01 2a9Et00 4 3E-01 6 I BE-01 4 eOE-01 2.3E-01 5 OEM0 4e3E-01 2vlEt00 1 8E-01
472.4 60 63bO.O 13 1942.0 73 167.3 80 472.4 bO
7723.9 27 6517.2 18 1942.0 73
770.3 51 3900.3 16
6395.4 22 691.7 11
6419.9 39 4745,O 55 6395.4 22 296010 8 7162.7 13 6419.9 39 2073.7 11 1413,l 1 4
1979.3 1979.5 1982.4 1983.7 1987.4 1987.6 1988.0 198869
1999.7 1994.7
4a90 9.60 1 e87 1.65 2.56 2.74 2.34 1.03 2.55 4,16
36 KR 10 HE 12 HG 51 XE
40 ZR 7 N
24 CR 7 N
ii HA
25 nN
2.5Et01 3 BE-02 6 3E-02 4 e @E-01 2.5Et01 113Et01 1.9E-01 7 e 5E-02 3.1Et00 7 SE-02
88198 84 2035.4 77 3916.7 49 472.4 60 668.9 80 26,5 18
933,7 n 5269.2 30 E384.1 27 526962 30
1213.2 37 350.3 61
2828.1 43 6395,4 22
n3.9 22 7243.a 12 6294.4 17 1884.8 22 R35t1 27
1894.8 22
215764 3.62 7 N 36 KR 54 XE 15 P 7 N
I5 M 50 SN 40 ZX a o
11 HA
7 + 5E-02 2.5Et01 ?*5Et01 1 * 8E-01 7 * 5E-02 1,3E+01 6.3E-01 2 7E-04 ! * 9E-01 4.E-01
5269.2 30 1884v8 22 881.8 84 1213.2 37 668.9 80 773.9 22
3900.3 16 .2154,2 15 5269.2 30 1881.8 22
26.6 18 7243.8 12 1293.3 13 1171.3 8 870.9 100 1087:9 82 933.7 37 6294e4 17 47214 60 6395,4 22
2159.6 3150 2170.8 2.08 2172.6 2859
2!76,6 1.85 217990 1.14 2184.5 82.00 2191.5 2.07
x74.7 -2.63
2157.7 2.19 1993.8 20001 8 2001 e9 2002.4 2006.1 2007 6 6 2009.2 2009 9 2015.2 201615
1.03 15 P 9.97 26 CA la20 7 N 7.02 80 HG 2843 21 sc 1.97 19 K 7.48 20 CA
1.67 31 GA 3v3b 25 H N 1.51 42 no
1 a - 0 1 443E-01 7.5E-02 3,8Et02 267Et01 2elEt00 443E-01 2.7Et00 2 e 9Et00 1.3Eto1
3900e3 l b 1942.0 7 3 5269.2 30 365,l 81 228.6 52 770,3 51
1942,O 73 77883 37
6360,O 13 26,b 18
2154e2 15 6.11919 39 188418 22 1693e3 14
295.6 21 2073.7 11 641919 39 848.8 15 691.7 11
7243.8 12
2200.2 2203 4 2203 e J 2205,5 ?209,6 2211.3 2212.9 2213.3 2214.0 2220.0
1.30 1.44 6.84 1110 1.60 1.62 3.54 1.33 1.20 2.20
36 KR 38 SR 10 NE 19 K 54 XE 25 HN 30 2N 40 ZR 80 HG 56 BA
2 5EtOi 1.2Et00 3 .a~-02 2*1EtO0 2 + 5EtOl 1 e3Et01 1 1EtOO 1 9E-01 3.8Et02 1 *?Et#
88118 84 1213.2 57 1836.1 58 898.0 28 2035.4 77 350.3 6i 770a3 51 2073.7 11 bb8.9 BO 773a9 22 26.6 18 7243.8 12
107784 19 7863.3 11 933.7 37 6294.4 17 368.1 81 1693.9 14
1435.3 14 627.5 12 2017t9 2.48 19 K 2elEt00
1.K-01 1.3Et01 1~2Et00 4,OE-01 1.M-01 2,5Et01 3.M-02 367Et01 1 ,BE-01
770.3 51 3900.3 16
2616 18 1435.3 14
472e4 b0 3539~1 68 668.9 80 98017 10 230.2 26
3900.3 16
2073.7 11 2154.2 15 7243.8 12 627.5 12
6395.4 22 4934 t 4 63
773.9 22 105287 5 277.4 20
2154.2 15
2223.3 25.02 76 Os 1.5ftOl 3.E-01 2.5Et01 2*1Et00 1 e 6E-01 391Et00 2.3E-01 1.2Etoo 1 . E f - O l 1 8E-01
63410 17 187.3 15 0.0 0
773.9 22 2073.7 11 493414 63 83511 27
296010 8 627.5 12
2154.2 15 2154.2 15
2021.8 1.65 15 P 2023.9 1.11 25 KN 2024.0 1.31 56 BA 2027.2 17.10 11 NA 2029.8 2.25 14 SI 2030,b 1.44 54 XE 2032.5 89.33 3 L I 2033.6 1.09 27 CO 2034.1 1.33 15 P
2223e3 100,OO 1 H 2225.2 12.56 54 XE 2233.2 1.00 19 K 2235.2 1.60 14 SI 2238.9 8132 24 CR 224087 3.04 13 AL 2241.1 8.91 56 BA 2244.6 1.45 15 P 2250.6 1.13 15 P
0.0 0 668.9 80 770.3 51
3539.1 68 8884.1 27 7723.9 27 1435.3 14 3900.3 16 3900.3 16
- ~ .. . , .. . .
2035 4 2039.2- 2040 e 4 2041.5 2043.4 2044.7 2047.0 2048.0 2048.4 2057.0
76.80 10 NE 1.18 52 TE 3.55 19 K 1.12 40 2R
3 * 8E-02 4*?Et00 2elEt00 1.9E-01 . 6~3E-02 1.3Eto1 2.1Et00 611Et00 6.3E-02 4 i OE-01
350.3 61 437414 603e1 9 2746.9 770.3 51 2073.7 933.7 37 629484
3316.7 49 2828.1 26.6 18 T243.8
770.3 51 207317 138185 69 6418.4 3916.7 49 2828.1 472,4 bo b395,4
53 3
11 17 43 12 11 30 43 22
2254.1 5.33 56 BA le2Et00 . 1435.3 14 627.5 12 2254.5 12.56 39 Y 113Et00 6079.8 77 776.8 30 226217 1.01 15 P 1.8E-01 3900.3 16 2154.2 15 2264.3 1*C4 20 CA 4.3E-01 1942.0 73 6419.9 37 22b9.6 1.00 31 GA 2.9EtOO 6360.0 13 691.7 11 2271.9 1.80 80 HG 3*8Et02 368.1 81 1693.9 14 22n.O 1.51 13 h l 2*3E-01 772389 27 2960.0' 8 2276.5 2.10 38 SR 1*2E+00 1836.1 58 898tO 28 2282.3 1640 17 CL 3*3Et01 1950.9 22 bllOe9 23 2282.9 2.93 13 AL 2*3E-01 7723.9 27 2960.0 8
4.19 12 KG 2.46 3IUI 3.66 19 K 1.26 22 TI 3.88 12 tlG 1.25 11 w
2058.7 1.16 2062,3 3.71 2062.5 1.03 2063.2 1.80 2067.8 1.01 266962 1.60 2073.; 10.75
209289 21e52 %;4 ti;
21 sc 7 N
31 G I 25 HH 78 PT 19 K
25 KN 14 SI 8 CAK
2 ?Et0 1 7 1 SE-02 2.9Et00 1.3EtOl 110Et01 2,1E+W 211Et00 403E-01 1e3EtQl 1 6E-01
228.6 52 5269.2 30 6360,O 13
26.6 18 356.1 28 77013 51 770e3 51
194210 73 26.6 18
353901 68
295.6 21 1384.8 22 691.7 11
2o73n7 11 5380.6 9 641989 39 7243.5 12 4934.4 63
'#:! 1:
2286,9 2290.7 2?94 5 229418 2295 e 4 2296.7 2308 * 6 231114 2321.0 2328 e 7
1 ,oo 3.81 2.49 1 e37 1 e 5 9 1.12 1111 1.41 6.07 1.25
30 ZH 19 K 25" 15 P 80 HG 2ocA 78 PT 24 CR 20 C4
20 ca l * l E t O O 2 1Et00 4 e 3E-01 1.3EtOI 1 * 8E-01 3. 8Et02 4.X-01 1 nOEt01 3.1EtQO 4 *3E-01
1077e4 19 7863.3 11 770.3 51 2073.7 11
1942.0 73 6419s9 39 26e6 18 7243.8 12
3900.3 16 2154.2 15 3 6 8 ~ 1 81 1693.9 14
1942.0 73 6419t9 39 356.1 28 333.3 16
888411 27 835.1 27 1942*0 73 6419.9 39
2094.2 2.22 20 CA 4~3E-01 1942.0 73 641909 39 2094.8 1.52 54 XE 2SEt01 6b8.9 80 n3.9 22 232910 1.10 40 ZR 1.9E-01 933.7 37 6294.4 17
2329.3 1.05 39 Y 1e3Et00 6079.8 77 776v8 30
114 !
M. A. LONE, K. A . LEAVITT. and D. A. HARRISON Prompt y‘s from l‘hermal-Ncuiron C:ipii~i-c:
TABLE I . y-Rays Ordered by Energy See page 513 for Policies and Explanation
G A M RAY UMEHT TU0 MJOR LINES E I Z SY S I G E l I1 E2 I 2
keU X BARNS keU X keU Z G A M A RAY ELEHENT TU0 MJOR LINES E I Z !jY SIG E l I1 E2 I 2
keV X BARNS keU X keV X
2330.8 1.14 21 !K 2t7Et01 228e6 52 295.6 21 2670.4 1.28 24 CR 361Et00 8884.1 27 835.1 27 2675.4 3.60 36 KR 2.5Et01 881.8 84 1213.2 37 2676.0 2.58 17 U 3.3Et01 1.950,9 22 6110.9 20 2682.8 7.77 9 F 9.5E-03 582.2 13 3589.3 11 2693.8 4.75 40 1R 1+9€-0l 933.7 37 6294.4 17 2699:3 2696 4 @:$ 13 3989.3 ’95.6 21 11 2700.8 1.11 48 CD 2.5Et03 558.6 73 651.3 14 2703.4 2.48 66 DY 9.3Et02 185.7 21 538.4 7 270917 1n83 40 ZR 109E-01 933.7 37 6294.4 17
4:51 1 57 21 9 7 9 d - 0 4 2 7 t o
2331.2 2345.9 2346.5 2356.7 2351.3 2377.0 2379.7 238916 2390.7
2.78
1.14 4.41 2.09 1 s43
44.50 2.16 5.58
1.20 25 IYN 30 ;1N 19 K 7 N
11 NA 24 CN 16 s 19 K 79 RU
1.3Et01 1 blEt00 2,lEtOO 7 15E-02 4eOE-01 3 I 1EMO 5 8 2E-01 2*1Et00 9.9Et01
26.6 1077.4 770.3
5269.2 472 I 4
8884 a 1 841.1 770 3
1201 18
18 7243.0 iz 19 7863.3 11 51 207317 11 30 1884.8 22 bO 6395.4 22 27 835.1 27 76 5420.5 59 51 2073.7 11 12 214.9 10
2391.4 2.63 38 !SR 1.2Et00 1836.1 58 898.0 28 2721.3 1.67 26 f E 2.MtOO 7631.1 29 7645.5 24 2377.7 2406.3 2414.9 2419.3 2419.4 242487 2426.0 2437.0 2438.3
1.88 2.75 5.55 1.40 1 e30 1.66 3.05 1.28 1.44
11 HA 21 ISC 11 l A 19 K 30 ZN 15 P 14 j5I 40 .ZR 10 IYE
4~OE-01 ?,?Et01 4bOE-01 2blEt00 lelEt00 1 ,8E-01 1 I bE-01 1 9E-01 3,8E-02 .
9 5E-03 295Et03 1+2Et00 9e9Et01 1 bOEtO1 2.9Et00 2 ,?Et01 6 8E-01 5e2E-01 4*OE-01
472.4 228 * 6 472.4 770 6 3
1077.4 3900 e 3 3539.1 93387
2035 * 4
60 6395.4 22 52 295.6 21 60 6395.4 22 51 2073.7 11 19 7863.3 11 16 2154.2 15 68 4934.4 63 37 6294.4 17 77 350.3 61
2726.4 2733 e 6 2746.9 2748.9 2753.2 2756.8 2760.9 2765.3 2767.3
1.04 1.25 2.60 1.87 5.83 1.94 1.40 1.14 1.31
19 K 66 DY 52 TE 39 Y 16 S 19 K 3bKR 57 LA 48 CD
2elEt00 9.3EtO2 4.7Et00 1.3Et00 5.2E-01 2.1Et00 2.5Et01 9elEt00 2 5Et03
770 3 185.7 603 e 1
bo7918 841 1 770 e 3 881.8
1.596 8 2 558.6
51 21 9
77 76 51 84 15 73
.~ -.
2073.7 11 538.4 7 723.2 2 776.8 30
542085 59 2073.7 11 1213.2 37 21882 11 651.3 14
245288 2455.8 2457.9 2458.9 2469.6 2474.6 2477.4 2490.7 2490.8 2517.6
10.2; 9 F 4012 48 CD 1.67 38 !I 3.93 79 IW 1.14 78 1’1 1.01 31 I6A 1.25 21 !X
582 a 2 558.6
1836.1 1201.8 356.1
6360.0 228.6 167.3 841.1
13 3589.3 11 73 651.3 14 58 898.0 28 12 214.9 10 28 333.3 16 13 691.7 11 52 295.6 21 80 4745.0 55 76 5420.5 5’3
2768.8 1.40 36 KR 285Et01 881.8 8.1 1213.2 37 2771.8 8.60 18 AU 6.8E-01 167.3 80 4745.0 55 2781.5 2.17 14 SI 1.6E-01 3539.1 68 4934.4 63 2781.7 1.70 18 AR 6.E-01 167.3 80 4745.0 55 2794.2 25.20 10 ME 308E-02 2035.4 77 350.3 61 2800.2 1.10 19 K 2.1Et00 770.3 51 2073.7 11 2802.4. 1.02 58 CE 6.3E-01 334.8 96 439.7 54 2807.4 1.93 19 K 2.1EMO 770.3 51 207387 11 2808.P 3.85 11 HA 4.OE-01 472.4 60 M95c4 22 2E10.5 5.90 18 AR 6,BE-Ol 167.3 60 4745.0 55
2811.0 3.31 20 CA 4e3E-01 1942.0 73 6419.9 39
la10 18 AR 2,71 16 S
14.78 11 iYA 472.4 60 6395.4 22
2519.0 2519.1 2520.6 2521.8 2528.1 2539.2 254110 2545.9 2546.5 2550.1
1.02 40 ZR 2,09 54 :KE 6.78 7 N 1.09 3 HN 8.45 9 F 1.52 54 :LE 2.24 12 1% 2.75 19 K
1 9E-01 2.5EtOl 7 5E-02 1e3EHl 9b5E-03 2sEtO1 6 I 3E-02 2elEt00 1 +3EMO 2.5E1.03
933.7 668.9
5269.2 26.6
582.2 668.9
391667 770.3
6079 e 8 558.6
37 6294.4 17 80 773.9 22 30 1884.8 22 18 7243.8 12 13 3589.3 11. 80 773.9 22 49 2828.1 43 51 207317 11 77 776.8 30 73 651.3 14
2819 8 4
2821 e 4
2828 e 1 2831.1 2837 * 3 2839 19 2842 0 284218
2824,~
1.08 2.94 1.02
42.51 2.15 1.10 1.85 1.13 1.97
10 ME 13 AL 90 TH 12 tlG 7 N
36 KR 19 K 28 NI 79Au
3.E-02 2 3E-01 7 * 4Et00 6 0 3E-02 7 I SE-02 2 s E t 0 1 2elEt00 4 e 4Et00 9 e 9EtOl
2035.4 77 -350.3 S i 7723.9 27 2960.0 8 3473.0 4 3346.4 2 391687 49 1808.9 30 5269.2 30 1834.8 22 881.8 84 1213.2 37 770.3 51 2073.7 11
1.95 39 u 1.46 48 I:D
8998.8 38 8533.4 iS 1.201.8 12 214.9 10
2554.1 1.30 28 141 4e4Et00 8998.8 38 853384 17 2845.5
Eli 2863.9 286417 2880.3 2886.2 2896 a 1 2900.6 2903 1
1.07 17 u 1 5 1 M A
6.93 17 U 1.78 16 S 3978 12 nG 3.06 15 P 7820 10 NE 1.16 80 f f i 2.53 11 M
5:f4 1s P 3 . 3Et01
kE3
kE3f 3.3Et01 5.2E-01
3 + 8E-02 3 8Et02 4.N-01
1350.9
3 w 1950.9 841 e 1
3916.7 3900.3 2035.4 368.1 472 4
368.1 668.9 841.1
1381.5 185.7
7723.9 3916.7 1950.9 1435.3 668.9
22 6110.9 20 2553.7 ?%A e 0 2577 e 6 2577.8 2551.1 2585.0 2586.1 2590.2 2590.3
663i8t 2.3E-01 1 &!Et00 2.5EiQl 3.7Et01 1 .Be01 9b2E-03 2e3E-01
34.8 96 j67.3 80 4#%07 8
7723.9 27 296080 8 1836.1 58 898.0 28
241.8 22 341.9 7 3900.3 16 2154.2 15 6809.4 M 3367.6 34 772319 27 29bO.O 8
m a 84 1213.2 37
P8 N:4 Ti 22 bl1019 20 76 5420.5 59
2828.1 43 2154.2 15
77 350.3 61 81 1693.9 14
6395.4 n
1.41 38 !iR i;50 3t ,~ 1.26 70 IrB 4.79 15 P
23.28 4 I3E . . . .. 2.69 13 IN
2593.7 1.29 79 AU 919Et01 1201.8 12 214.9 10 2920 e 2 2929.5 2931 e 1 2944.5 2948.5 2960 0 2963.6 2974 6 2975.7 2977.1
1.29 80 HG 2,40, 54 XE
22.34 16 S 1.03 22 TI 1.36 66 DY 7.99 13 M. 1.56 12 I46 1.35 17 CL 1.00 56 BA 1.28 54 XE
3 * 8Et02 2.5Et01 5.X-01 6.1Et00 9.3Et02 2.3E-01 6.3E-02 3.3Et01 1.2Et00 2.5EtOl
81 1693.9 14 80 773.9 22 76 5420.5 59 69 6418.4 30 21 530.4 7 27 303389 7 49 2 8 2 8 8 1 43 22 6110.9 20 14 627.5 12 80 773.9 22
2593.9 1.40 56 I3A 1,2Et60 1435.3 14 627.5 12 2594.1 1.85 11 I# 410E-01 472.4 60 6395.4 22 260119 8.98 9 F 9.5E-03 582.2 13 3589.3 11 ?bo119 1.55 24 (1 3.1Et00 888411 27 835.1 27
2610.6 2.04 19 K 2.1Et00 770.3 51 2073.7 11 ?614.3 2.90 18 M 6*8E-01 167.3 80 4745.0 55 2614.9 1.10 19 K 2,lEMO 770.3 51 2073.7 11 2632.1 5.38 9 F 9,s-03 582.2 13 3589.3 11 2035.6 4104 21 !X 2e7Et01 228.6 52 295.6 21
2529.3 1.31 56 IM le2Et00 1435.3 14 627.5 12 1539.2 1.43 19 K 2.1Et00 770.3 51 2073.7 11
2533.5 3. 81 1 9 9 14 1649.8 l,!! % 9”$&f &!:I 12 h!:9 10
2978.5 1.00 19 K 2.1Et00 770.3 51 207317 11 298214 3.18 11 MA 4.OE-01 47214 60 63B.4 22 299407 1.12 17 U 3.3EtOl 1950.9 22 6110.9 20 30 0 1.46 ’ 5 t o 5 e 6 73 65 3&:5 4.01 8 2 i:dtJ is3.i 58 fl
2653.4 1.00 90 ‘M 7.4€MO 3473.0 4 3946.4 2 3012.3 1.43 21 SC 2.7EtOl 228.6 32 295.6 21 3015.9 1.08 17 CL 3.3Et01 1950.9 22 611089 20 3016.8 4.01 9 F 9.X-03 582.2 13 358983 11 3017.6 1.77 58 M 6.X-01 334.8 96 43907 54 3022.3 1.59 24 CR 3.1EtOO 8884.1 27 835.1 27
2557.0 1.71 15 P i&o i 3900.3 16 215i.2 i s 2558.6 1.07 12 1% 6~3E-02 3916.7 49 282881 43 2659.8 2.84 48 I3 2,5Et03 558.6 73 651.3 14 266002 1.52 20 I:A 4e3E-01 194260 73 6419.9 39
2661.7 ’ 36 9 F 91t5E-03 582e2 13 3589.3 11 2663.9 1.68 42 If0 2t7EtOO 778.3 37 848.8 15
3026.2 3146 11 NA 4eOE-01 47214 60 6395.4 22 3027.0 2.53 22 TI 6elEMO 1381.5 69 6410.4 30
115 I
Two WOR LIES G A M A PAY ELEKHT E i 1 SY SIG El I1 E2 I2
Lair 2 Mi" keV Z k.N X 347c,4 1473sO 32/4*2 3475.7 3983.7 j5G1.4 3504.7 3513.5 5520,Y 3522.7
1 ,C? 4*;7 It32 le75 ?.33
l.?f !.13 !.11 2.52
! * 3 ;
74 u 00 TH 40 ZR 22 T I 7 F
40 ZR 11 HA 36 KR i? K P F
1.9Etal 7+4E+00 1 -9E-Ol bolEi00 9.5E-03 109E-01 4 * QE-01 2.5Et01 2.1Et00 9.X-03
1W.3 .Sb 6193.2 S 394604 2 3145e3 2 933.7 57 6294.4 17 1381.5 69 6418.4 30 582.2 13 35E943 11 933.7 37 6274,4 17 472.4 60 6395.4 22 8131~8 84 1213.2 37 770~3 51 2973.7 11 562.2 13 358P,3 il
3032.6 3037 5 5273.8 3078.1 3101.8 3110.7 3111.2 3116.1 3130.9 3139,5 3148.2 3148,3 3150.2 3162.7
3185.7 3195.5 3207 t 4
32bJ * 4
3ioa.9
3185.4
1.31 57 L!4 1.31 73 Y8 1.10 f d kR 1.12 58 EL 8.35 11 IC, 1.26 14 S! ! b o 2 4'2 CD 1;OO 36 KR 1.00 31 Gb 1.28 17 U
::9'..2 15 ?4i ,8 22 !6?*3 32 334 e 8 P6 472.4 50 3539 1 66
558,b 73 881~8 84 63.50,O 13 1750.9 22
215.2 !! ?41,9 7
474';,'L 55 439t7 54 63?5*4 22 4934.4 63 651.3 14 1213+2 37 691.7 11 611069 20
::522.9 !3. !S !5 P 54 XE 70 TH 49 ZR 7 N !4 SI i9 K 22 T I 23 v 36 KR
lP8E-01 265Et01 7. 4EtCO 1.E-01 7.5E-02 1obE-01 2elEi00 b e EtOO 5,NtoO 2.5EtOl
390;),3 It 658.9 80 3473.0 4 933.7 37 5267,2 50 4934,4 63 770.3 S1
,1381 15 69 6517.2 18 E81.8 84
215:,2 15 77119 22 3529,? ! t 28
?530,1 1.04 3531e9 le05 3532.1 ? e 7 7 3539.1 69+00 3546.5 5.21 3554.2 1621 3579,O le26 3579.5 1.50
3745.4 2 6294.4 17 1884.8 22 2072.9 n 2073.7 11 b41814 30 7162.7 13 1213.2 37
4'3E-01 4eM-01 9 E 0 3 203E-01 9,lEtOO 4 t 3E-01 2.5EtOl 6 e X-01 9 s 5E-03 Ss7Ei31
1 .ZEtOO 4.E-01 2elEi00 1 ,Xi@! 1.M-Cl 9elEt00 7S€-02 9~1EtOO 3.4E-03 2e9Et00
2.25 31 GR 1113 12 H6 1.30 36 KR 1.60 90 TH 4.00 18 Mt 1.31 39 Y 1.72 15 P 3.34 EO HG 1.14 90 TH 1.12 12 n5
2 9EtOO 6 e 3E-02 2n5Et01 7~4Et00 6 s 3E-01 2 e3Et00 1 e8E-01 3 BE to2 6 * 3E-02 7.4Et00
630.0 37!6*7 931 e8
3475,O i47.3
60:?*8 39c3.3 3tEe1 3473.0 3?!6*7
13 691.7 11 1942.0 73 64lP.9 472.4 # 6315.4 582.2 13 2452.8 7723.9 27 2940.0 1596.2 15 2N.2 1942.0 73 b419,9 334.8 96 439.1 58212 13 3589.3 241.8 22 341,?
1435.3 14 627.5 47214 M) 6395.4 770.3 51 2073.7 177e2 11 141.3 3539.1 69 4934.4 1596.2 15 218.2 5269.2 30 186498 1596~2 15 21802 4945.3 68 1261.7 b36OeO 13 691.7
8ai.s a4 1213.2
39 22 10 8 11 39 37 54 11 7
49 28?8*1 43 84 1213.2 37 4 3946,4 2 80 4725.0 55 77 ?76+8 30 16 2154.2 15 81 1693.9 14 49 2328.1 43
4 3946,4 2
3se8,o i?.?5 11 NR 3591.1 4,11 13 At. 3010,2 6,34 20 CA
3599.3 !1*'1 9 F 3$07.8 1.23 57 Lb 3517t3 1*20 3 KR 3619,b 1.52 58 CE $63.0.3 3eE-5 9 F 36?2,8 !*bS 70 Yrj
3213.5 3223.8 3221.5 3262.5 3252.6 3267.4 3265. e 3271 0 0
3273.8 3275 0 8
1032 11 NA 27.09 i6 S 1.20 13 NE 2.75 19 K 3.44 9 F 1.04 21 SC 1.49 25 FE 18.00 8 0 5.31 15 P 1.22 66 DY
4,OE-01 5 * 2E-01 3.X-02 261Et00 9.X-03 2 B 7EtOl 2sEtoo ?*?E-04 1 *!E-01 9aJEt02
47!,4 60 W i , 4 22 BJl*l 76 5420.5 59
770.3 S! 373.7 11 582,2 13 353?,3 11 ?28,6 52 295,b 21 763101 29 7645.5 24 970.9 100 2184.5 82 39COa3 16 2159.2 15 195.7 21 538.9 7
2025.4 77 350.3 61 3641.0 364414 3651 +2 3652.0 3661.4 3655,8 3677e8 3680 1 3683.9 3687.2
4106 1974 1.82 1.44 1.06 15,68
32.13 1.03
3,p
1.79
56 BR I! HA 19 K 5F PR 14 SI 57 LA 7 n
57 LA 6 C 31 WI
12 22 11 4 63 11 22 11 30 11
3279.6 1.00 11 HA 4.0E-01 472,4 60 6395,4 22 3689.1 1.70 19 K 2~1Et00 77003 51 2073v7 11 3298 5 3300,9 3301 e 1 3303 + 0 3323 6 0 3335.9 3341 8 7
3365.5 - - . . .- 3367 1
2.98 80 tie 1.45 39 Y 8.89 12 HG 1.11 13 kL 1.80 36 KR 1.00 19 K 1.22 90 TH 4.20 18 AR 1.30 36 KR
3 6 6Et02 1 v3EtOO 6 8 3E-02 2s-01 2*5Et01 2.1Et00 7e4Et00 618E-01 215Et01
36901 81 169309 li 607918 77 776.8 30 3916.7 49 2828t1 43 7723.9 27 2960.0 8 881.8 84 1213.2 37 770.5 51 2073.7 11 3473.0 4 3346.4 2 167e3 80 4745eO 55 881.8 84 1213.2 37
3696 0 370004 3720.7 3723 I 1 3733. 9 3737.6 3745.7 3749.0 375967
1.40 19 K 9.80 18 AR 2,41 24 CR 2,83 16 S 1t04 22 TI 1.23 19 K 1.36 12 I% le34 27 co 2.63 20 CI\
2elEi00 6.8E-01 3elEMO 5.E-01 6 e 1Ei# 2;lEtQO 6 3E-02 3.7Ei01 403E-01
770.3 51 2075.7 167e3 80 4745.0 8884.1 27 83591 84111 76 5420.5 1381.5 69 M18.4 770.3 51 2073.7 391607 49 282801 230.2 26 277.4 1942.0 73 6419.9
11 55 27 59 30 11 43 20 39
336716 3370 0 4
.. 3370.5 : ' 3371.5
3373.4 3377.9 3398.3 3278 *7 3409 s 1 3411.6
33.71 4 RE 5.26 16 S 3.48 11 NA le05 40 ZR 1.79 31 GR 1.01 90 TH l e 2 9 90 TH le24 16 S 3.54 25 WN le49 11 HA
9,2E-03 5 ?E-01 4.OE-01 1~9E-01 2.9Et00 ?e 4Et 00 7.4Et00 5.2E-01 1.3Eto1 4 OE-01
4809.4 64 853.5 26 841.1 76 5420e5 59
3762.7 1.10 36 KR 2.SEtOl 881.8 84 1213e2 37 3791.0 1655 -59 PR 1.2EtOl 17702 11 141e3 4 3815.0 1.41 25 WN le3 Ml 26.6 18 724 e8 12 3830e7 6.72 12 I#i be3E-02 3916.7 49 2820.1 43 3849.2 2.55 13 AL 2e3E-01 7723e9 27 29b4.0 8 3854.3 1.33 26 FE 2rbEtOO 7631e1 29 7645.5 24 38bO.O 1.45 31 6A 2.VEtOO b3bO.O 13 691.7 11 3864.9 1.32 14 SI 1.bE-01 353901 68 4934.4 63 387505 2.14 13 AL 2e3E-01 772349 27 2960.0 8 387805 5.38 11 HA 4.OE-01 472.4 b0 6395.4 22 388409 2.71 70 YB 3e7Ei01 241.8 22 341.9 7 3900.3 15.96 15 P 1.8E-01 2154.2 15 141311 14 3916.7 48.62 12 ffi 6.X-02 2828.1 43 1808.9 30 392100 1.80 22 TI 6+1E+00 1381.5 69 641814 30 392409 3.62 15 P le8E-01 3900.3 16 2154.2 15 3929.6 1.30 70 YB 397EtOl 241.8 22 341.9 7 3931.7 1126 19 L 2.1EtOO 770~3 51 2073.7 11 3946e4 1.77 90 nl 704EiW 3473.0 4 3148.3 2 3955.2 2126 14 SI 1.M-01 3539.1 68 4934.4 63 3960eO 1.18 19 K 2.1EtOO 770.3 51 2073.7 11 397897 1.11 19 K 2.1Et00 770.3 51 2073e7 11
3821.6 1.06 17 U 3+3hOl 1950.9 22 bilk9 20
l is
472e4 bO 639514 22 333,7. 37 6294.4 17 6360,O 13 691.7 11 3473,O 4 3946.4 2 3473.0 4 3946.4 2 841.1 76 5420.5 59 26.6 18 7243.8 12
472.4. 60 6395.4 22 3413.1 1.91 26 FE 296Et00 7631.1 29 1645.5 24 ... - -. .- -. 3413.6 6.47 12 tiG bS3E-02 391687 49 2828.1 43 3420.: 1.20 36 KR 2.5Et01 881e8 84 121312 37 3435.A 1.47 90 TH 7.4Et00 3473.0 4 3946.4 2 3436.7 1.78 26 FE 2,MtOO 7631.1 29 764.5 24 3437.6 1.31 40 ZR 1,pE-Ol 933e7 37 629484 17 3443.5 11.59 4 BE 9.2E-03 6809a4 64 3367.6 34 3444.; 1.33 66 DY 9.3Ei02 185,7 21 538.4 7 3448,~ 1.58 90 TH 7e4Et00 3473,O 4 3941.4 2 3451.9 2.00 18 AR 6,8E-O1 16783 80 4745.0 55 3452.6 1.77 19 K 2,lEtOO 770,3 51 207307 11 3465.1 6.16 13 AL 2.3E-01 7?23,9 27 29bO.O 8
M. A. LONE. R. A. L E A V I I T , and D. A. HARRISON Prompt y's from ~lherrnal-Neutron Capture
TABLE I . y-Rays Ordered by Energy See page 513 for Policies arid Explanation
G A M A RAY ELEKENT 1WI EAJOR LIES E I Z SY SIG El I1 E2 12
keU X BARdS keV 1 keU X
G A M A RAY ELI3ENT TU0 MJOR LINES E I 2 SY SIG El I1 E2 I2
keU X BARNS keU X keU Z 3981.1 1006 17 CL 3.3EtOl 1950t9 22 6110.9 20 3982.0 18.63 11 HA 400E-01 472.4 60 639504 22 4002.8 le53 19 K 2,1E100 770.3 51 2073.7 11 4028.4 1.66 27 CO 3,7EtOl 230.2 26 27784 20 4042.2 1.10 36 KR 2e5Et01 881e8 84 121302 37 405417 36.47 83 RI 3.3E-02 417101 51 4101.8 24 4053.7 1073 21 SC 287Et01 228.6 52 295.6 21 4061.8 1.64 19 K 2*1E+OO 770,3 5! 2073,7 11 4095.6 11.28 56 BA 1,ZEMO 1435,3 14 627.5 12 4101.8 24e39 83 BI 3.3E-02 4171.1 51 4 0 3 . 7 36
4671 $3 4675.4 4684.3 4687.6 4690.7 469282 471002 4714.6 4714.8 472Ll
13~80 15 P 2099 80 HG 1.41 74 Y 1.11 81 TL 3.94 13 AL 3027 59 PR 34918 5 B 1.20 35 XR le03 22 TI 1.51 56 BA
i aE-01 3 * 8EM2 1 .Et01 3.4EtOO 2 3E-01 1. xi01 1 ,M-01 2 5Et01 6 e 1Et00 1 e2Et.00
390003 16 215402 3-44.1 81 1693.9 lWi3 56 619012 5643.5 3 348.7 7723.9 27 296000 177.2 f f 141.3 4443.0 76 7005.1 881.8 811 121302 138 1 ~5 69 6418 e4 143503 14 627.5
15 14 5 3 8 4 48 37 30 12
4106e7 5.77 39 Y 1e3Et00 6079.8 77 776,8 30 4117.3 2.39 23 V 5,OEtOO 6517.2 18 7162.7 13 4124.2 le12 66 DY 9.3EtO2 18597 21 538.4 7 4127.2 3.11 9 F 9.X-03 582.2 13 3589.3 11 413313 6.42 13 AL 211-01 7723.9 27 296080 8 4136.4 3.31 19 K 2.1EtOO 770.3 51 207317 11 4171.1 50084 83 BI 3.3E-02 4054.7 36 4101.8 24 4173.0 Io24 21 SC 2.7EtOl 228.6 52 295.6 21 4187.8 1.45 11 HA 4oOE-01 47204 60 6395.4 22
4137.0 1.60 30 ZH l;lEt00 1077.4 19 7863.3 11
4723.1 1.28 59 PR 1,2E+Ol 17'7,2 11 14103 4 4725.3 2'50 25 113Ei01 26.6 18 724308 12 4734,O 5eOO 4739.1 7 e27 4745.0 55000 4743.7 2.74
13 RL 80 ffi 18 All 20 CA 81 TL 80 ffi 58 M 50 ND
2 0 3E-01 3,8Et02 608E-01 4,3E-01 3b4Et00 3.8Et02 6 13E-01 5olEt01
2.9Etoo 9v9Eto1 1 0 2 E t o 1
206Et00 3a?Et01 2,9EMO 3sEtO2 9,1Et00 3,lEtW 4e4Et00
7723.9 368.1 16703 1942.0 5641 8 5 38.1 334.8 697.3
27 81 80
3 81 96
n
n
296010 169309 1186.8 6419.9 34807 169309 439.7 61809
8 14 52 39 3 14 54 29
4752.4 1.39 4758.8 3024 4765.7 15~06 4790.6 1014
4196.0 4199.9 4200,O 4200.0 4201 e 0 4207.9 4216.5 4236 4 4248.7
42ia.z
1.23 31 GA 2.30 9 F 11.20 56 BA 2.63 15 P 2.19 19 K 1.00 27 co 1.54 12 ffi 4.26 26 FE 2.35 21 SC 1945 74 If
2.9Et00 9.X-03 182Eto6 1.E-01 2,lEtW 3e7Et01 6 8 3E-02 2.6EtOO 2.7EtOl 1 9EfOl
6360,O 13 582.2 13 143503 14 3900.3 16 770.3 51 230.2 25 3916.7 49 7651.1 29 22816 52 199.3 56
691.7 11 3589.3 11 62705 12 2155.2 15 207307 11
282801 43 7645,5 24 29506 21 6190.2 5
277.4 20
4792.5 1022 31 GA 479915 1.06 79 AU 4801.4 1069 59 PR 4810.0 1080 26 FE 482906% 1000 70 YB 4840.5 3.40 31 G4 4841.8 5000 80 HG 404208 8e47 57 LA
4858.6 lo06 28 N I 4847.2 1.05 24 CR
6360.0 1201.8 177.2 763101 241,8
6WeO 368.1 159602 W48X C999.8
13 12 11 29 22 13 81 15 27 39
69107 21489 14103 764505 341 09 691.7 169309 21802 83s.1 83384
11 10 4 24 7
11 14 11 2? 17
4259.5 6,OO 13 hl 2.3E-01 7723,9 27 2960.0 8 4260.4 2.38 9 F 9.5E-03 58202 13 3589.3 11 4290e5 9,11 58 CE 6.3E-01 33408 96 43907 54 4?93.7 2.44 9 F 9.5E-03 58282 13 3589.3 11
4869.7 4869.8 4882.5 4883.7 4868.7 4890.7 490219 4905.4 4913.4 492105
2.42 11.47 5123 1 e54 1081 1.28 2.64 lo86 1855 1001
31 GA 16 S 22 TI 23 U
31 GA 13 4L 27 w 81 11 27 M1
57 LA
636000 13 69107 11 84181 76 542005 59
6517.2 18 7162.7 13 1596.2 15 21802 11 6360.0 13 69107 11 772309 27 2960.0 8 23002 26 277.4 20 564105 3 34807 3 23082 26 27784 20
138105 69 641804 30 uu.'
4320.8 i.3 29 cu 3.eitoo 278.3 33 7914.5 31 4336.1 4.21 58 CE 6,3E-01 33408 96 43907 54 4351.8 1.58 39 7 1*3€tOO 607908 77 776.8 30 4358.1 1.96 31 GA 2.9EtOO 6360.0 13 691.7 11 4361.2 4.39 19 K 2~1Et00 770.3 51 2073.7 11 4354,3 4.58 15 F' 1.8E-01 39OOo3 16 215402 15
4374 * 4 4385.4 4389 * 6 4395.2 4406.1 4416.1 4416.4 4418.9 4436.8 4431.8
52.80 10 NE: 1859 19 I; 3.28 57 u 1010 56 Ut 1.M 26 ff: 2.93 9 I:
14.94 20 CA 4.40 16 !;
3.19 57 UI
2035.4 77 3M.3 61 4934.4 62069 14 SI lvbE-01 353981 68 209209 22 77001 51 2 0 7 3 0 7 11 15960 15 21802 11 88108 84 1213.2 37 7631.1 29 7645,s 24 582.2 13 3589.3 11
1942.0 73 6419.9 39 84181 76 32005 59 6360.0 13 691.7 11
159602 15 21882 11
4945.3 494903 4949.4 4953.6 4966.6 496807 4974.0 4975.1 497309
67064 1007 d lo68 25 W 1.04 BO HG ki! 44 If 1015 80 ffi 2878 21 sc 4.04 17 CL
36839 3 12 697h 7i 6fkG 8
138105 69 6418.i 8 2686 18 7243.8 12 36801 81 1693.9 14 3916.7 49 28280
368.1 81 169309 14 2 2 8 8 6 52 2 9 5 8 6 21 195009 22 611089 20
- - - . . . _ . ..
1.60 31 &9
4440.5 1.08 17 fl- 313Et01 195019 22 611089 20 4986.6 2039 9 F 9.5E-03 582.2 13 358983 11 .- -
75.96 5 1.03 25 "4 1818 23 V 2020 13 #. 1857 15 P 1.01 59 PR 2.06 57 LR 15.78 7 N
1 .OE-oi 2,3~-01 103EtOl 5 o O E M o
1 .I#-01 1 8 2 E t o l 9,lEMO 705E-02 4.3E-01
700501 48 2686 18
651702 18 772309 27 390003 16 17782 11 159602 15 526982 30 1942.0 73
6759.3 40 7243.8 12 7162.7 13 296000 8 215402 15 141.3 4 21802 11 188418 22 A419.9 39
499282 500506 5006.0 5013.8 501580 5031 5043:i 504308 5047.2
2004 19 K 1889 9 F 1096 40 ZR 1005 19 K 5.73 2!5 MN 4 8 0 9 9 F le97 19 K 1.44 29 CU 3.15 16 S
770.3 51 58202 13 933.7 37 no03 51 26.6 18 58202 13 77003 51 278.3 33 841 0 1 76
11 11 17 11 12 11 11 31 59 451548 1.04 20 CA
4529.6 1.77 40 ZR 109E-01 933.7 37 629404 17 4541.8 1.95 31 GA 2s9EtOO 63AO.O 13 691.7 11
5049.8 5057.6 Sob009 506802 5069.4 509509 5097.7 5102.4 5101.3 5107.2
5.02 80 HG 1020 36 KR 1.87 9 F 2.87 25 Iv( 1 0 3 8 19 K 2016 59 f'R 8 8 2 0 57 UI 1.50 79 IUI 1.24 41 NE 3075 14 SI
3 0 Et%! 2sEtOl 9.5E-03 1.3Eto1 201EMo 1 onto1 901Et00 9.9EtOl 1 8 2 E t o o
1.AE-01
36801 881 0 8
58282 2686 770.3 177.2 159682
254 07 3539.1
i20i88
81 84 13 18 51 11 15 12 25 68
169309 121302 3589.3 7243r0 2073 8 7 14103 218.2 21489 29305 493404
14 37 11 12 11 4 11 10 5 63
4555.3 4567.1 4574 6 3 4582.8 459003 4595.7 4612.3
4.11 9 F
lo02 80 H6 1.00 36 NR 1 8 0 0 3 6 I I . R le13 31 CiA 3.18 9 F
1.73 25 AH 905E-03 1o3EM1 308EfO2
205Eto1 219Etoo 9,s-03
2,5~toi
58282 13 xi8903 11 36801 81 169319 14
88108 84 1213.2 3?
2 6 ~ 18 n43.8 12
881.8 84 121302 37
MOO 13 691.7 11 58202 13 358903 11
4626,2 1.09 74 U 1,EtOl 199.3 56 619082 5
512605 1048 57 LA 911Et00 159602 15 21802 11 5134.1 2059 13 AL 2.X-01 772319 27 296000 8
4A39,l 2007 16 S 5,,2E-01 841.1 76 5420.5 59 4659.6 2.09 13 1% 2.3E-01 772319 27 2960.0 8
117
TABLE I . y-Rays Ordered by Energy See page 513 for Policies and Expl:tnation
GAHIUI RAY ELEKHT TU0 MJOR LIES E I Z SY SIG El I1 E2 I2
keU X BARNS keV X keV X
MWKA RAY ELElIENT TU0 MWJOR LINES E I 2 SY SI6 El 11 E2 I2
keV X EARNS keV X keU Z 5582.0 11.60 la AR 6,8~-oi 167.3 80 4745.0 si5 5140.2
5142.2 5143.8 5159.1 5160.9 5163.9 5173.4 5173.8 5130.2 5131.2
3.94 4.68 1.43 1.69 1 e 0 8 2.01 1.45 2.88 1 e38 2.65
59 m 23 V 66 DY 31 GA 57 LA 74 Y 78 PT 19 K 81 TL 27 co
1.2Et01 5 s OEM0 9 3EM2 2.9Etoo 9elEt00 1 v9Et01 1eOEt01 2.1Et00 3 8 4Et00 317Et01
177.2 6517,2 185,7 6360 ,O 1596a2 199t3 356 a 1
5641 v5 770.3
230.2
11 141.3 18 7162.7 21 538.4 13 691 17 15 21812 56 6190.2 28 333.3 51 2073.7
4 13 7
11 11 5 16 11 3
20
5583 0 5 5601 1 5601.5 5602 I 3 5603.3 5607.3 5616,b 5616,7 5618 8 5619,l 5623 I 5 5638 5 5641 e 5 5645,O 5652.0 5657 *7 5659 $7 566.7 5667.0
1.25 16 S 4195. 31 GA 1.17 27 M 2.41 81 TL 2.93 66 DY 3.11 9 F 5.17 11 NA 3.87 24 Mc
1.49 34 SE !:$E# 2a9EtMI 3,7Et01 3*4Et00 9 e3Et.02 9 5E-03 4 * OE-01 3,IEtOO
!!kb 636080 230.2 5641.5 18517 582.2 472.4 8884 1
13 26 3 21 13 60 27
691.7 11 ;g; '; 3589.3 11 6395.4 22 835.1 27 1884.8 22 295.6 21 277.4 20 5603.3 2 776.8 30 121312 37 1693.9 14 277.4 20 141.3 4 351.9 5
3 348.7 26 27764
5181.6 3.52 25 Hi 1.3Et01 26.6 18 7243.8 12 la08 7 N 7 5E-02 2.7EtO1 3n7Eli)l 3*4Et00 1 AEt00 2.5E+o1 3.8EtO2 317Et01 1.2EtOl 413EtO2
5269.2 30 228.6 52 230,2 26 348.7 3 6079 e 8 77 88108 84 368.1 81 230.2 26 177.2 11 200.4 6 582.2 13 58282 13 2035.4 77 194260 73 6360.0 13 77013 51 390043 16 1201.8 12 778,; 37
198.4 24
5la8.0 1.18 29 CU 318Et00 278.3 33 7914.5 31 5194.8 1.10 15 P 148E-01 3900e3 16 2154.2 15 5195.0 3.48 31 611 2.9Et00 6360,O 13 691.7 11 5209.9 5.30 23 U 59OEt00 6517.2 18 7162.7 13 5234.4 1.46 31 GA 2e9EtOO 6360,O 13 691.7 11 5251.9 1.30 56 KR 2.5EtO1 831t8 84 121302 37 5252b3 1.02 55 2.9Et01 11664 15 176.4 10 5254.3 1.24 25 HH 1.3Et01 2696 18 7243.8 12 5254.6 3.96 78 PT 1.OEtO1 35611 28 333.3 16
1.12 2: SI: 1.10 27 a 2.84 61 TL 1.52 39 Y 1.00 s6KR 6.16 80 HG 7.20 27 co 3.97 59 PR 1.15 77 IR
5261.3 4.41 74 U 1.9Et01 199.3 56 6190.2 5 5?63*2 2.89 40 ZR 1,9E-01 933,7 37 6294.4 17 5265.7 5.78 70 YB 3s7EtOl 241e8 22 341.9 7 5267.2 2.43 21 SC 2.7EtOl 228t6 52 295.6 21
5269.5 1.26 24 CR 3elEt00 8834B1 27 83511 27 5249+6 1.23 27 CO 3,7Et01 230s2 26 ???e4 20 5270.5 1.14 20 CA 4.E-01 1942,Q 73 6419.9 39 5280.2 1.80 81 TL 3t4Et00 5641.5 3 34817 3
5266.2 4.36 i5 P 1.3E-01 39@00,3 16 2154,2 15 5269.2 2 9 ~ 3 7 H ~ S E - O ~ 1 8 8 ~ 1 22 529a.o 21
5667 I9 5688 * 0 5689.1 5692,l 5692.4 5696.0 5698 s 4 5704.8 5710.1 571265
3.45 2.23 6.00 1.19 2e03 6.22 1.16 3.19 1.65 1.32
9 F 9 F 10 HE 20 CA 31 GA 19 ti 47 AG 15 P 79 AU 42 110
9 SE-03 9,5E-03 3 8E-02 4 e E-01 2,9E#O 2~1EtM) 6 a 4Et01 1 .e€-Ol 7.9ftO! 2.7EtG0
3599.3 11 3539.3 11 350.3 61 6419.9 39 691.7 11 2073.7 11 236.7 12 215402 15 214.9 10 898.8 15
5295.9 1.27 12 WG 6JE-02 3916,7 49 2828.1 43 5298.0 21.02 7 N 7a5E-02 5269.2 30 1834.8 22 5312e3 1101 28 NI 4.4Et.00 8998.8 38 e533.4 17 ." 5319.4 1.09 29 CU 3,8Et00 278.3 33 791415 31 5519.9 2.W 74 U 1e9EtOl 199,3 56 6190.2 5 5339.1 ?BO4 31 GR 2t9EtOO 636010 13 691.7 11 5340.8 1.20 36 KR 2.5EtO1 881*8 84 1213e2 37 5346.9 1.29 45 RH 1.5Et02 217.2 9 267.8 3 5330.6 8.90 19 K 2elEt00 770.3 51 2073.7 11 5387.6 3,E2 80 HG 3a8Et02 368.1 81 1693.9 14
5715.3 5723.5 5729e9 5730 * 1
574J.1 5751 a 9 5752 e 4 5761 10 5776,b
5742 $2
5.50 17 CL 2118 72 E 3459 56 F A 2.39 17 K 2110 27 co 1.12 21 sc 8,37 23 U 6.00 19 K le69 25 RN 1.14 30 ZN
je3EtOl i eOEtO2 I ,2EtM) ?.Kt00 3.7EtO1 ?#?Et01 5,OE+00 2.1Et00 1.3EtOl 1 t 1Et00
1950.9 214 e0 i435.3 770,3 230.2 228.6 6517.2 770.3 26.6
1077.4
22 55 14 51 26 52 18 51 18 19
6110.9 20 325.0 6 627.5 12 2073.7 11 277.4 20 295.6 21 7162.7 13
7243.8 12 7863.3 11 2073.7 ii
5404.1 5411.0 5417.7 5420.5 5433.1 5437.0 5445.6 544814 5449.8 5451 e 0
1.22 1 a82 2.19 59.08 1.44 1.27 1.33 1.81 1 006 3.30
81 ll 13 Rk 29 cu 16 S 25 w 21 sc b0 ND 32 GE 12 R6
25 nN
3.4Et00 2 e 3E-01 3 I 8Et00 5.2E-01 103Et01 163Et01 2.7EtO1 5,lEtOl 2e3EtOO 6 9 3E-02
5641b5 3
278.3 33 841n1 76 26.6 18 26t6 18 228a6 52 697.3 73 3028.0 39 3916.7 49
7n3,9 27 348.7 3 296010 8 7914.5 31 2379.7 45 724318 12 n43.8 12 295.6 21 618.9 29 596.4 33 2828.1 43
5779,b 1.88 31 GA 2.9Et00 636010 13 691.7 11 5781 a2 5790.7 5792 e 6 5 m + 9 5806.0 5816.8 5823 e 9 5824 a 3
1.40 36 KR 1.03 38 SR 1.30 36 KR 1.01 47 llG 1808 31 WI 2.12 28 NI 2.13 48 CD 1;40 36 KR
2.5EMl 1 2 E W 2sEtol 6.4Et01 2*?EtM 4.4Et00 2 I 5E to3 2 e SEt01
881.8 84 1836.1 58 881.8 84 198.4 24 6360.0 13 8998.8 38 55816 73 881.8 84
1213.2 37 898.0 28 1213e2 37 236.7 12 691.7 11 853134 17 651.3 14 1213.2. 37
5840.1 1.70 36 KR 2,5EtOl 881.8 84 lii3;i 37 5842.9 1.38 59 PR 1.2Et01 177.2 11 141.3 4
.-... _ _ . .
547396 5479.7 5481.5 2438 I 2 ~497.0 5510.0 5515.0 5515.5 5517.3 5518.0
3.35 1.70 1104
1.13 3.27 2.41 9.17 1 e73 1.12
2.ei
30 ZH 36 tiR 21 sc 31 WI 41 HB 19 ti 20 CA 23 U 17 CL 32 GE
lelEt00 2 ;5E to1 2.7Et01 2.9EtOO 1 e2EtOO 2,1Et00 4.3E-01 5,OEtOO 3.3Et01 2*3E+OO
1077.4 -19 881.8 84 228.6 52 6360.0 13
770,3 51 1942,O 73 6517e2 18 1950.9 22 3028.0 39
2 5 4 ~ n
7863.3 11 1213.2 37 295.6 21 691.7 11 293.5 5
.6419.9 39 716207 13 6110.9 20 596.4 33
2073.7 ii
5891 e 7 5896,O 589703 5900.6 5902.9 5320.0 5920 I 3
5925 1 5956.7 5957 2 5966 * 2 5975,l 5982 2 599916 6007 8 3 6008~0 6010.4 6017.1
5920.5
2.63 23 V io05 41 NB 2.76 21 SC 4.25 20 CII 1.14 17 CL 2.01 31 GA 9.02 26 FE 1.00 2s KN 1.84 27 CO 1.75 4 BE 1.28 77 IR 13.86 80 HG 6.83 27 CO 1.27 79 AU 2.54 24 CR 1090 34 SE 6.09 31 GA 1.62 29 CU 9.65 9 F
5eOEMO 1 .Et00 2.7Et01 4.3E-01 3e3EtO1 2.9Et00 2.6Et00 1.3EMl 3,?Et01
6517.2 18 254.7 25 228.6 52 1942.0 73 1950.9 22 6360.0 13 7631.1 29 26.6 18 230.2 26
7162.7 13 293.5 5 295.6 21 6419.9 39 6110.9 20 7145:: 41 7243e8 12 277.4 20
551964 3.05 9 F 9,s-03 582.2 13 3599.3 11 9*2€-03 4,3Et02 3.8t02 3,7Et01 9,PEtOl 3.1Et00 1.2EtO1 2.9Etoo 3.8Etoo 9 SE-03
6809 4 200.4 368.1 230.2 1201.8 BE491 238.9 bJ60,O 279.3 582.2
64 6 81 26 12 27 8 13 33 13
3367.6 34 351.9 5 169309 14 277.4 20 214.9 10 835.1 27 613.9 8 691.7 11 791415 31 3589.3 11
cc') J d 00 5523.8 5526.9 5527 t 4 5533.4 5533.4 5537.2 5541.4 5556.9
1.34 1 rot 1 e39 6.65 18.48 1 ,a 1 .Eo 1 ,?7 2.35
60 HD 79 AU 12 ff i 25 wt(
7 H
36R 31 G4 66 DY
81 n
5,iEtoi 9.9EtOl 6.3E-02 1,XtOl 7,5E-02 3b4Et00 2.5Et01 2 9EtOO 9*3Et02
_ _ _ _ 697.3 73 618e9 29 1201.8 12 214.9 10 3916.7 49 2828.1 43 2616 18 n43.8 12
5269.2 30 1884.8 22 5641.5 3 340.7 3 881e8 84 1213.2 37 6360,O 13 69117 11 185,7 21 53814 7
5559.1 1.07 53 I 6.2Et00 133,i 8 142.9 4 5562.1 loa00 7 N 7.X-02 5269.~ 30 1884.8 22
601815 9.00 24 FE 2,bEtOO 7631.1 29 764515 24 6036.3 1.37 32 E 2.3EtOO 3028,O 39 596e4 33
118
M . A . LONE, R. A. LEAVITT, and D. A. HARRISON Prompt y's from I'hermal-Ncutron Capture
TABLE I . ?-Rays Ordered by Energy See page 513 for Policies and Esplanation
GAnnA RAY ELEEHT Tyo )\Am LINES E I Z SY SIG El I1 E2 I2
keV X BARNS keU Z keV Z
6707.8 1.51 32 GE 2,XW 302810 39 596.4 33
G A M A RAY ELEKENT TU0 MAJOR LIMES E I 2 SY SIG El I1 E2 12 keV X BARNS keV X keV %
6037e4 1.07 6054.9 3.03 605515 1.00 6079.8 77 849 61@!e3 2.28 6101.8 2.51 6104*0 1.95 6105,O 1.88 6110~9 20.00 6111.4 4,82
30 IN 21 sc 47 AG 39 Y 13 4L 38 SR 25 KH 17 CL 31 GI
28 nr
1 a1EtM) 2.7EtOl 6.4EtOI 1.3Etoo 2 13E-01 le2Et00 1 e3Et01 4AEtOQ 3.3EtOl 2.9EtOO
1077n4 19 220.4 52 198.4 24 774.8 30 7723.9 27 1836.1 58 26.6 18
8998.8 3a 1950.9 22 6360.0 13 3916.7 49 3028.0 39 199e3 56 1201.8 12 5641.5 3 Z 8 . L 52 58212 13 199.3 56 6360.0 13
8a84,i 27
7863.3 11 295.4 21 236.7 12 202.5 19 2960.0 8 898.0 28 7243.8 12 8533.4 17 1164.7 20 691.7 11
2828.1 43 596.4 33 835.1 27 6190.2 5 21419 10 348.7 3 295.6 21 3589.3 11 5261.3 4 691.7 11
6716.7 1.98 21 SC 287Et01 220.6 52 2 9 5 1 4 21 6736.4 5.04 82 PB 1.E-01 '7367.7 94 0.0 0 6743.2 1.36 14 SI 1.4E-01 3539.1 48 4934.4 43 6747.2 1.40 14 SI 1.4E-01 3539.1 48 4934.4 63 6748.7 2.25 64 GD 4.9Et04 1184~5 11 944.0 11 4751.4 1.30 39 Y 1.3E)OO 6079.0 77 n6.0 30 6759.3 39.50 -5 B LoE-oi 4443.0 76 7005.i 48 6759.8 1.44 10 NE 3t8E-02 2035.4 77 350.3 41 6759.8 24.17 22 TI 6,lEtOO 1381.5 49 6418m4 30
6111,4 6115.8 6136.3 614319 6148.3 6166.3 617083 6174.8 6190.2 619311 6244.5 6251.6 6255.3 6267 1 5275.7 6291.5 5282.4 6294.2 629494 5306.9
2.27 12 KG
1.85 24 CR 1673 74 W 1.11 79 AU 1.52 81 TL 2.96 21 SC 4.16 9 F
1,49 32 GE 6 3E-02
381Et00 1.9EtOl 9.9Et01 3 4Et00 2.7Et01 91%-03 1.9EtOl 2 + 9EMO
2 3Et00 676918 1.00 30 ZM 6771.0 le07 3 LI 6783a4 3.36 25 HN 678513 12.98 15 P 680315 2.60 34 KR 6809.4 63.75 4 BE
lelEt00 3 6 LE-02 1 e3Et01 1 8E-01 2.5Ei.01 9.2E-03 4.3Et00 1.2EMO 464Et00 2,XtOl
1077.4 19 7863.3 11
26.6 18 724388 12 3900.3 16 2154.2 15 881.8 84 1213.2 37 3367.6 34 853.5 24 144.6 17 1534.5 7
8998.8 38 8533.4 17 220.6 52 295.6 21
2032.5 89 980.7 io
254.7 n 293s 5 6809.6 3627 33 AS 6832.7 1.19 41 HB 6837.0 10.79 28 HI 4n78 74 Y
1.51 31 GA 1.90 36 KR 5.52 79 AU 3.49 60 ND 4t23 38 SR 1.20 79 AU 1.10 36 KR 1.32 24 CR 1.21 33 AS 16e60 4C ZR le90 3b KR
683915 6.43 21 !X
2.5Et01 9.9Et01 5,lEtOl 1,2Et00 919Et.01
3,1Et00 4.3EtQO lt9E-01 2k5EiO:
2.5Et0 1
881.8 84 1201J 12 697.3 73 1836.1 56 1201.8 12 881.8 84 8884,l 27 164.4 17 933.1 37 esi,a 84
1213.2 37 214.9 10 618.9 29 898.0 28 214.9 10 1213n2 37 835,l 27 1534.3 7 250.4 9 1213.2 37
686765 1162 30 ZN 1,lEtM 1077.4 19 7863.3 11 6873.9 10.73 23 U 5.OEt00 651702 18 7162.7 13 687688 8.21 27 CO 3,?Et01 230.2 24 277.4 20 6880.7 5.60 36 KR 2.5Et01 881.8 84 1213.2 37 6885.3 2e45 38 SR 1.2EtW 1834.1 58 898.0 28 6990.1 1.15 24 CR 3,1Et00 888411 27 835.1 27 691015 1.37 30 ZN l.lEt00 1077.4 19 7863.3 11 6915.5 1.22 32 GE 203EMO 3028.0 39 596.4 33 691963 3.24 42 t#l 2.7Et00 778.3 37 848.8 15 6926.2 1.09 33 AS 4e3EtW !b4,6 17 1534.3 7
5315t8 1,81 12; AL ?,3E-01 7723,Y 27 2960.0 8 6318.1 2.?? 21. SC 2t7EtOl 228.6 52 295.6 21 6318.4 2,55 31. GA 2.9EtOO 636060 13 691.7 11 t318.9 3.28 75) AU 9.9Et01 1201.8 12 214.9 10 A32019 2.?7 ? F 9e5E-03 S82,2 13 3589.3 11 d322.4 17.78 .I N 7,5E-02 526962 30 1094,8 22
6Y28.8 6931 e7 6942.6 5950.5 5942.7 6977.7 6984.9 6987 e 8 6999.5 7002,7
2s40 25 IVI 2.20 36 KR 3.00 38 SR 2.96 30 ZN 1,20 36 KR 2.97 27 CO
2.68 19 K 1.95 31 GA
2,26 17 CL
3.25 29 CU
le3Et01 2.5Eto1 le2Et00 lelEt00 2.5EtOl 3,3EtO1 3,7Et01 3+8EMO 2 e 1EtOO 2.9EWO
26.6 18 7243.8 881.8 84 1213.2 1836.1 58 898.0 1077.4 19 7863.3 8881.8 84 1213.2 1950.9 22 6110.9 230.2 26 277.4 278.3 33 7914.5 770.3 51 2073.7 6360,O 13 69117
12 37 28 11 37 20 20 31 11 11
1322,8 -1.60 52 TE 4.7Et00 603.1 9 2746.9 3 634918 2.18 21 SC ?*?Et01 228.6 52 295.6 21 6354.8 1.52 12 KG 6s3E-02 3916.7 49 282801 43 6360.0 12.78 31 GI 2.9EtQO 69117 11 250.9 9 6380.1 6380 ,7 4391 e5 6395.4 6395.4 6418,4 6419.4 6419.9 6456.4 5457.5
1.19 54 XE 12.37 1 4 SI 3.20 31 6A 1*18 23 cu
22n18 11 HA 30.13 22 T I le10 7 H 38.89 20 CA 2111 79 AU 5.20 80 HG
2 * 5Et01 4:m 3e8EtOO 4 ,OE-01 6.1Et00 7.x-02 4.3E-01 9,?Et01 3,8Et02 5.0Et00 2.5301 3.7Et01 5,lEtOl 9.9EMl 3 4Et00 5,oEtoo 2.xt01 6,lEtOO 2e7Et01
668e9 3539,l 6360,O 278 I3 47284 1381e5 5269.2 1942.0 1201.8 368.1
80 773.9 22 7005.1 47.85 5 B 1.E-01 4443.0 76 6759.3 40 68 4934,4 63 13 691.7 11 33 7914.5 31
4 3 too #8:2 7:;: 89 8 3:7t!t01 @:j 8 '88:i d 7057.8 11.06 25 KM 1.3Ei.01 26.6 18 7245.8 12 7069.2 1.29 30 211 1.1EtGO 1077.4 19 7863.3 11 60 870.6 22
49 34117 26 30 lM4.8 22 ?3 4418.9 15 12 214.9 10
7099.7 4.34 24 CR 3,lEtOQ 8884.1 27 83511 27 7112.0 1,49 30 ZH 1.1EtW 1077.4 19 7853.3 11 7117.1 2.01 21 SC 2.7Et01 228.6 52 295.6 21 7159.7 5.81 25 w( 1.3Et01 24.6 18 7243.8 12 714217 13.14 23 V 5eOEtOO 6517.2 18 445.9 11
7176,l 2.53 29 W 3+8EtOQ 278.3 33 731415 31 7179.3 1.12 34 SE ls2EtOl 238.9 8 613~9 8 7200.6 7.77 14 SI 1.M-01 3539.1 68 4934.4 63 7207.5 1.00 36 KR 2.5EMl 881.8 84 1213.2 37
~. . . . . 81 1693.9 14 t464.0 6467.5 6485.9 6501 e 7 6511.9 6514.9 b5517,2 6519.1 6556.5 6556.8
9,03 23 V 5.60 54 XE be42 27 CO 8.15 60 ND 1.55 79 M 1.19 81 TL
651712 18 668.9 80 23082 26 697 + 3 73 1201.8 12 5641.5 3 7162.7 13 881.8 84 1381 8 5 69 22816 52
7162.7 13 773.9 22 277.4 20 618.9 29 214.9 10 348.7 3 445.9 11 1213.2 37 6418.4 30 295.6 21
72i3.i 4.jZ 27 co J X t o i 230.2 26 271.4 20 7243.8 12.13 25 W 1.3Et01 26.4 18 7057.8 11 724417 4.02 3 LI 3,6E-02 2032.5 89 980.7 10 7251.9 3.70 29 CU 3.EtOO 278.3 33 7914.5 31 7270.3 3.34 25 Iv1 1,XtOl 26.6 18 7243.8 12
17,83 23 V 3,50 36 KR 4.73 22 T I 2.34 21 SC 7278.8 5.33 26 FE 2.6EtOO 7651.1 29 7645.5 24
7291.5 2.30 23 U 5.OEtOO 6517.2 18 7162.7 13 7299.1 9.00 7 N 7.5E-02 5269.2 30 1884.8 22 7306.2 8.09 29 CU 3.8Et00 278.3 33 7914.5 31 7310.5 4,02 23 U 5,OEtOO 6517.2 18 7162.7 13 7366.2 7.52 24 CR 3.1E100 8884.1 27 83581 27 7367.7 94.06 82 PB 1.7E-01 6736.4 5 0,O 0 7413.6 1.19 7 N 7.56-02 5269.2 30 1884.8 22 7413.8 10.42 17 CL 3.3Et01 1950.9 22 6110.9 20
7421.2 5,31 15 P 1.8E-01 3900.3 16 2154.2 15 741a.7 3.12 34 SE i m o i 238.9 a 413.9 8
6583.6 1.77 28 HI 4.4Et00 8998.8 38 8533.4 17 bS99.5 5600.7 6601,O 6619,5 6627,b 5644.2 6645.5
6660,9 6658,2
2.40 8907 2*9? 8,Ol 4.54 1 ,08 5.91 1.11 3.75
29 cu 9 F 34 SE 17 CL 17 CL 21 sc 24 CR ?tO ZN 38 SR
3e8Et.00 9 t 5E-03 1 * Et01 3.3Eto1 3.3EtOl ?.?Et01 3 1Et00 1 * 1EIGo 1 .2EILOO
278.3 33 582.2 13 238.9 8 1950e9 22 1950.9 22 228.6 52 8884.1 27 1077.4 19 1836.1 58
7914.5 31 3589a3 11 613.9 8 6110.9 20 6110.9 20 295.6 21 835.1 27 7863.3 11 898*0 28
74pO.8 2.99 27 CO 3eXtO1 230,2 26 277.4 20 7528n3 3.78 38 SR 1.2EtOO 1834.1 58 898.0 28
6678.0 4,24 29 CU 3b8EQOO 27813 33 7914*5 31 6705.8 7.43 I!? CO 3.7E+01 230.2 26 277.4 20
I
119 !
M. A. LONE, R. A. LEAVIJT. and U. A . H A R R I S O N Prtinipr :.\ from I'trerri,:~l-h'ciitl.on Chpi:~~..
TABLE I . y-Rays Ordered by Energy See page S13'for Policies and Explafiation
GILMA RAY UEnENT TU0 W R LIES E I 2 SY SIG El I1 E2 I2
keV X BARR keV X keV X
7537.0 4.47 28 HI 4AEt00 85'98.8 38 8533.4 17 7571.3 1.54 29 CU 762411 1.48 37 RB 763111 28.51 26 FE 7635.9 3.43 21 SC 7636.6 15.71 29 CU 7645.5 24~13 26 FE 7693b4 4.15 13 AL
7723.9 27.43 13 K 7696.8 1.23 28
368EtOO 387E-01 21bEt00 2.7Et01 3.8E1.N 2.bEt00 2e3E-01 4.4Et00 2.x-01
27883 33 556,8 10 7645.5 24 22816 52 278.; 33 7631,. 29 7723.9 27 8W8.8 38 296000 8
7914.5 31 476.0 3 352.2 12 295.6 21 791465 31 352.2 12 2960,O 8
3033.9 7 8 5 3 3 ~ 17
7749.9 1.50 36 KR 215E+01 881,8 84 1213.2 37 7755.3 7770.2 7790.2 7800+0 7818.9 7356 2 7914.5 7939 S 3
7863.3
1.40 29 CU 6.70 19 K 8-55 17 CL 3.91 16 S 8.19 28 HI 1.00 15 P
10.58 30 ZN 30.82.29 CU 12,E ' 24 CR
3e8Et00 2olEt00 5,2E-01 4e4Et00 1 ,BE-Ol 1,lEtOO 3e8EtOO 3+1Et00
3,3Et01 278.3 770 3 1950,9 841.1 8998 $ 8 3900S3 107714 278 * 3 8884.1
33 7714.5 51 207Z.7 22 6110t9 38 8533e4 16 2154,2 19 1883.9 33 7656.6 27 835.1
76 5420,5
31 11 20 59 17 15 7 16 27
8039.6 1.13 38 SR 1.2EtOO 183661 58 898sO 28 8120#5 3.14 28 HI 4.4Et00 8998.8 38 8533,4 17
RAY ELEIIEHT Til0 MJUR LIKES E I 2 SY SIG E! 11 E2 12
k U % BARNS keg X keV X
E533,4 16.93 22 W I 4.4Et00 8998e8 38 465.1 13 a578.4 8640.9 875917 8884 s 1 8998.8 9118.2 9149.4 9298 4 9720,3
2.91 17 CL 2.66 16 S 1.10 21 SC 26.97 24 CR 37.74 28 NI 1.09 30 ZH 1.64 7 N 4.15 26 FE 10.97 2# CR
3, xi01 5*2E-o1 21 7Et01 34 iEtO0 4s4EtDO 1 a 1EtOO 7 5E-02 2.6EWO 3,lEtOO
1m.9 22 611089 20 841.1 76 5420.5 59 228.6 52 2'5.6 21 835.1 27 7939.3 13 8533.4 17 4G5.t 13 1077.4 19 7063s3 11 5269~2 30 1884.8 22 7631.1 27 764515 24 8884.1 27 835.1 27
- . ... _ _ . .
8132.4 8154.4 8174.7 8310.4 8315.4 8378.8 8472.9 848413 8512.3 8531.6
2.56 21 x 4.74 12 I G 11.83 21 SC 3181 7 W 2.27 21 SC 1.12 38 SR 2.44 14 SI 4.54 24 CR 6.15 24 CR 6.11 21 SC
2,7Et01 6. x-02 2t7Et01 7 a X-02 2.7EMl 1 e2EtOO 146E-01 3,lEtOO 3elEt00 2.7Et01
Atomic Data and Nuclear Data Tables, VoI. 26. No. 6. November 13, '
120 1
M. A. LONE, R. A . LEAVil'T. and I). A. HARRISON Prompt y's from Thermal-Neutron Capture
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
.-. ENERGY IN1 keU m o o
7 = 1 ELEflENT: H
ENERGY INTe keV HI100
ENERGY I N l e keU WlOO
EHERGY Lev
rnr. N/lM
ENERGY INT, ENERGY keU W O O keU
CROSS SECTIOtI: 3,32E-01 BARNS
INTt N/lOO
1.07 4.02
23.28 0.13
39.50
67.64
~EFER~NCES: 8OGr 2223.25 a 100*00
CROSS SECTION: 3.63E-02 BARNS 2 = 3 ELEKENT: L I REFERENCES : 7DRa
477.60 c 2.59 980.70 c 9.83
= 4 ELEhENT: BE
1052.70 c 4.91 b771.00 C 2032.50 c 09-33 7246.70 C
CROSS SECTIOW: 9.2OE-03 BARNS 3443.51 a 11.59 5956.73 b 1.7J
6809.41 a 63.75 631.83 b 6.24 2S90.15 a 853153 J 25b96 2811180 b
2896e40 b 0.15 3367.61 a 33.71
7005e10 C 47*85 CROSS !XCTI[IN: 1.03E-01 SARNS
4710820 c 34618 6759.30 C
CROSS SECTIDN: 3e37E-03 EARNS 73%
3683.93 a 32.10 4145.33 a
2 = 6 qEtl€NT:C
1261.74 a 23.53 MFEREHCESe 70Ra
Z = 7 ELUENT: N REFERENCES: 69Jo
244e30 c 0.92 253910 c 4.60 277.90 c 2.15 326.00 c 2096
CROSS SECTION: 7.47E-02 BARNS 'ORa 70% 71Be 7So 74Gr 741s 78Gr
69L60 c 2.71 20Ole85 b 1.20
167829 a 7.36 2157AO c 3.62 865.80 c 2.28 2062.30 C 3e71
1681.44 a 1.62 2174.70 C 2.63
I 5619e10 c 1.08 6322*39 a 17,70 6413.40 c le10 6505.40 c ' 0.85
9048.73 0.24 9149e39 b le64 9751e15 c 0120 9 9 2 O e 5 3 c 0.14
10829e18 a 14.12 4 biki3.40 c 0.91 7299.08 a 9.00
8310.37 a 3.8: 7413.60 c 1.19
W e 9 8 b 0+16
336190 C 0.95 369.10 c 1.14 473.30 c 2e21 479.70 P 2.05
1781e85 b 0.70 2356.70 C 18!53.57 b 0.67 2520.64 a
4e41 6.70 2e15 0.86 0.2c
82.00
7.33 2.62
11e11 3e86 3e11 2e30
1.92 1.20
18.60 le20 oen
O e 7 0 76e80 oen o e 8 4 0.24 be04 Oe24 0124 0.36 1 e 4 4 0.12 Oel2 0.12
Op:#
CROSS SECTXON: 2.70E-04 BARNS
1087.88 b 82.00 2184.47 b
CROSS SECTION: 9.50E-03 BARNS
2 = 8 ELEKEIT: 3 REFEKNCES: 77H~
870.89 b 100,00 .- 3271eOO b 18eOO
42bO.40 c 2e38 5005.60 c 1.89 5031.40 c 4e09 5060.90 c 5519*40 c 1% 5616r60 c 3e11 5667.90 E 3.45
5688.00 c 2.23 6017.10 c 9165 3#:R 'c $99 6600e70 c 8.07
2682.84 c 7.77 3488e70 c 2699.30 c 4e51 3522.30 C 3016.80 E 4e01 3589130 C 3051190 c 5.25 3630.30 C 3074.40 c 9.21 4127.20 C 3262.60 c 3e44 4199e90 C
429jljO C 2 ~ 4 4555.30 c 4.11 4416. 0 c 2e93
4612.30 c 3118 4986,M) c 2.39
CROSS SECTIDH: 3eME-03 BARHS 1027.97 C 0*36 1897e51 d
2 = 10 ELBENT: WE REFERENCES :
350.30 C 413.80 C 440.10 c 447e79 c 490e49 c 502.39 c 586.49 c
70% 60.72
1.56 3.04 1 e32 0.60
8:G
3430e60 d 04112 3529e19 d Os06 3542.18 d 0.12 3581e38 d O e 3 6 M e 7 6 d Ot12
5 16 d 0 12 %:lS d 0:12 3786e44 d 0.12 3804.94 d be12 3819.83 d Oe12
- - -. . . . 1042e47 1050.67 1071e37 1312e66 1364e05 1396.55 1433e75 1476e8
0.24 0.24
14e16 1 e20 1 e 5 0 1 e26 Oe9b 0.60
1913.91 d 1930.51 c 1956+90 d 1965.00 d
M:3 8 2013e30 d 2035e40 C
. .. , _. . .
594.79 c - 1.32 625.49 c 0.84 636.89 c 0.60 730e49 c le32 768e49 c 2.04 831e88 c O e 6 0 840.18 c 0.36 046.08 c le32
334.38 c 0160 983.88 c 0.36 991168 c 0.21
1016.47 c 9.00
872.78 c 0.24
5M1.60 d 0.24 Sb89t09 c be00 5773.76 d OeO6 5913.52 d O e O b 5922.82 d Oel2 5991.50C O b 3 6 60B3e07d O e O 6 6#4,07 d 0.24 6408e37 d O e 4 8 6759e75c le44
1533*54 d 0.96 2067~89 d 3934.31 c O e 3 b
3974.40 c 0.84 4 0 4 5 e O 9 d Oel2 4161e46 d Oil2 4104!76 d 0124 4196e06 d O e O b 4319.83 d O e l 2 4333.83 d 0.24 4341.33 d 0.06
3 9 ~ 0 c 0.48 1609a53 d 0.72 2075.39 d 1680.83 d 0 4 2163e78 d 1634e93 d ' O e 4 8 2203,s C 1724.33 d 0.48 2255e77 d 1732e92 d O b 4 2330.26 d 1747e22 d le00 2339e16 d 1821e62 c 2.04 2438e25 d 1832.92 d O e 6 0 2518.54 d 1879.41 d O e 3 6 2538.04 d 1886.91 d 0.56 2606e03 d
Enerar uncertain.tr a=less than 0.1 keVVi b = b e t m 0.1 and 1 LeVi c=betueen 1 and 3 keVi (I. greater than 3 keV,
Alomic Data and Nuclear Data Tables. Vol. 26. No. 6. November 1981
121
I
M. A. LONE, R. A. LEAVITT. and D. A. HARRlSON Prompt y's frorri Thermal-Szuiron C;lpir~rc
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
ENERGY keV
2 = 11 ELM
ENERGY INT. keV W100
CROSS SECTION: 4.M
ENERGY keU
INT. N/lOO
ENERGY k2V
INT. WlW
ENERGY keV
ENERGY kcV
I i i T . U l G O
-01 P m S RERRENCES:
472.40 c 499.10 c FO.20 c ~96.80 c 668.30 c 781110 C
70Ra 59~83 0.69 2.20 1.08 0.42 2.64 2.19 0.89
2137850 c 2197.70 c 2?50,80 c 2361.30 c 2397r70 c 2414.90 c 2504.60 c 2517.60 c 2594a10 c 2716e00 c
1.30 2.19 0.99 2 e09 1.88 5.55 0.77 14.78 1.85 0.86
2862.70 2903810 2982.40 3026.20 3098,lO 3117r00 3213.50 3279 60 3370r50 3411,60
3468.70 3504 70
C 0.55 c 1.97 c 0185 C 14.95 c 1.74 c Oi5l c Ot49 c 5*38 c 18e63 c 0.30
4220110 4445110 51 r6elO 5270 * 40 5297 90 5616.70 6091 00 6395.40
9 . 9 0
C 10*15 c 2.53 c 3.18 c 3.46 C Ea35 c 0.85
0.28 0.71 0049 0.45 0.35 0536 5.17 0426
22.18
~.~ ... . 3546.60 3588000 3644 e 40 3723 60 3865130 3878.50
799.90 c 534e70 c 836,lO c 870+60 c
C 1.32 c l e 0 0 C 3.48 C 1.49
0.80 21.92
1003,80 c Oa85
2 = 12 ELEIIENT: NG 2123.80 C 2,32
CROSS SECTION: 6+30E. 2808,90 c
-02 BARKS
3184.70 c
3.85 3453.90 c 0.35 4187.80 c lB45 ~~
REFERENCES: 70Ra 277470 c 3.05 326e60 c 2.20 390t00 C be68 436.30 c 2.19 479160 c 2.00 559.60 C 6.03 585e20 c 25i,55 608t40 c 2.60 6?3*00 c 4.05 976.20 c 5.28
O S 4 1.12 8189 0.92 0.74
3916t70 4078+40 4136.90 4216,50 4257.60 4285 I 30 4411*50 4509.80 4602 30 4966.60
5560.30 5611e50 5822.70 5890+00 6037 t 80 6111.40 5175.80 6253 30 6273,90
5587.90 C 0.60 C 0.36 E Oe61
6570 e 00 6600 00 66 19 a20 6709,30 6914.20 7160+50 7252.40 7304.10 7569 * 90
7183.30
c 0.80 c 0.37 c 0.35 C 0.54 c 0.76
C 48.62 c 0.33 C 0.42
3209~40 c 3301e10 c 3319.80 c 3360.30 c
c 1.54 c 0.79 c 0.39 c 0152 c Os63 c 0.56 c 1.33
c 0.33 c on35
3413160 c 3478.40 c 343.70 E
6.47 0.89 0.66 0.42
c 0.44 c 2.27 c 0.38
c 0.49 c 0.67 c 0.75 c 0.3 c 0.y
3515t20 c 3549860 c c 0.61
c Qe67 0.40 1129.40 C 9.46 2828,lO c 42.51 3562800 C Oe61 5157.00 C 0~58 6319a10 c 0.58 7599e80 c 0.48 1632.80 c 5.50 2W.30 c 3.78 3598.20 C 0.35 5196.60 c 0.92 6354.80 c 1.52 7676.90 c 0.50 1690.10 c 7.77 2938.90 c 0.85 3631.00 c 0.54 5224.10 c 0.52 64!9*50 C On46 8154.40 E 4874 1714,GO c 3.53 2963.40 c 1.56 3743.70 C 1.36 5255*90 C 1.27' 6442.20 c 0.57 9282.30 c 0.75 1805*?0 C Be97 3139.50 c 1.13 3330e70 C 6.72 5526.90 C 1139 b<?0.60 c 0.36 1690.20 C 8165 3160,40 c 0.76 3870,lO C 0.64 5545*20 C 0.55 6508.30 c Oe55
1750100 c 3,Ol 3054.10 c 12.90 3808,4!, c 0 ,? t 5451J!O c 3,33 6471.20 c 0.33
2 = REFt _I.
i3 Eti l iENT: I L Xh 'CES : ?ORa 72
248.03 c 6.84 252,lO c 5,.65 259,30 c 2.58 553,70 c 0.92 559,OO c 0.92 597.10 c 1.62 758,OO c 1.79 830e40 c 1.72
CROSS SECT1
24"O6,j8 c !Is 73%
2502.88 c 2535,18 c 2550.28 c 2566.47 c 2590.34 b 2656687 c 2691.96 c
2577.62 a 2625,83 a
iON: 2.30E-01 BARNS
0.16 3347e13 b Oil2 3592.21 a
0,18 3480.57 c 0.14 3541.16 c 1.39 3560.49 b 2169 3591.12 a 0.97 3624815 c 0.16 3639.55 c 0.05 3650.95 b
0,06 5465.08 a 0.39 0.45
4133 e32 4169.06 4185107 4215.26 4239.66 4259.54 4279.95 4331.14 4377 I74 4397.13
b b
6842 0.29 0.06 0.06 0.12 6.00 0.18 0.06
5103.69 5134.58 5176.19 5201 *E9 5209 I 98 5238.18 5301.88 5343.26 5377.05 5411,02
b
b
b a
a
a
C C
C C
0154 2.59 0,08 0.03 0.03 0.27 0.39 0.02 0,ll 1.82
6?15*83 6349.13 6387 $82 4440.44 6459.21 6589 s 97 6618.97 6710.34 6722.74 6751 e03
. .
6.16 0.17 0.04 0.68
o.oi 0.59 0.02 0.17 4.ii
0.08 O s 0 8 Os99
0.44 0.71 0.10 0.08
984,OO c 5.47 1408b85 b 1.08 0.48
0.06 152!5,95 1589 97 162: 4 51 1658.70 1927 17 1983 + 75 2108 25 2131.01 2138e99 2171e91
0,80 1 .oo 3.35 0.82 Oe80 0.70 1.80 0.35 1.75 0.25
2709.51 2727.90 2737 $80 2755,06 2821.40 2877I74 2887.44 2922 34 2960 e 01 2976.33
b C C C J C C b a C
0.48 OB23 0.19 0.05 2.94 0.15 0.23 0.22 7.99
3659 e 35 3679 e 72 3709.14 3723 B 34 3753.93 3789 8 40 3823 184 3849a20 3875b46
0.08 0.51 0.51 0.08 0.08
0.41 2.55 2 8.1 4
0.84
4428133 b 4460.13 b 4484 s54 b 4512.01 c 4575150 b 4596.10 b 4620.09 b
4690071 b 4659.61 a
4733.97 a
0.73 2.23 0.08 0.12 0.36 0.10 0. 26 2.09 3.94 5.30
5423*44 c 0.15 0.11 0.22 0.07 0.88
6800 I 02 6821 I51 6860 L 90 6892.90 6936.38 6952.90 69?8,00 7118v80 7135.13 7175.22
0.03 0.06 Oll?
0.03 0.13
5443.54 c 5451 193 b 5523.12 c 5585.47 a 5610,30 c 5648829 c 5708,77 a 5765.10 a 5796e16 b
0.02 0.01 0.43 0.39
0.15 0.09 0.08 0.05 0.14 O I l l 3890s41 0.20 0.15
2240*70 c 3.04 2988o43 c 3033.89 b 3074862 c 3128.61 c 3142.75 b 3191.91 c 3265.55 b 3207.40 c 330?, 97 b
0.21 7.01 0.07 0.21 0.21 0.07 0.13 0.37 1.11
3902.01 c 3935.47 b 3949.80 c 3985.70 c 4002.80 c 4015.63 b 4054.84 b 4069 129 b 4101.74 c
0.39 0.29 0.06 0.10 0.13 0.60 0.31 0.12 0*35
4754.77 c 0.60 5828.65 c 0.01 0.16
7237.70 b 0.07 7268.20 b 0.04 7341.17 b 0.06
7656.70 c 0.17 7693b42 b 4.15 7453.90 c 0.16
7723,85 a 27,43
2255 75 b 2271.98 b 2282.86 b 2298~00 c 234?,20 c 2380,?9 c 2420.09 c 245?,01 b
0847 1.51 2.93 0.64 0.13
4764 u34 b 4868.35 c 4902.94 b
0.67 0.05 2.64 .0,72
5859.15 b 5878.64 c 5922 e 33 b 5948.52 c 5987.62 c 6017,31 b 6101.31 a 6197.e~ b
0.04 0.05 0.03 0.02 0.21 2,28
4945.00 c 4984 43 b 0.ii
0.08 0.05 Oe16
0.13 0.10 0.43
4996.53 b 5CO4e92 c 5063.31 b 0.57
2 iS.,cri\EE?ir: 51 CfiosS_SECiION: 1,6OE-O1 BARNS REFEREhc-3. 59B1 7 0 R ~ 1032
3 6 . 9 0 c 5-76 449.90 c ' 0,37 656.00 c 0,47 1038.98 d 0,30 1273,33 a 15,93 1332.20 c 0.99 355.93 : 0.33 596.20 c 0,87 752.39 a 1.48 1262.47 c 0.30 1305,37 b 0,lO 1415.66 b 0.10 :5Q,SO C 3.53 559e50 c Os70 693.20 c 0.67 1152e57 b O,6l 1294,OO C 0.80 1381,77 b 0430
E n e r s s uncertaintr ;=less than 0.1 keVI b=be?ueen 0.1 and 1 keVi c=betueen 1 and 3 keVi d= greater than 3 keV.
1
122
M. A. LOSE. H. A . LEAVI'rr . kind I). A. HARRISON Prompt y's from I'herm:rl-Neurron (:;ipture
ENERGY IN1 e
keV N/100 Z= 14 E L M N T : SI
1446116 b 0.70 1534.46 b 0.30 1540.56 b 0.50 1552.06 b 0.30 1565.36 b 0.40 1695.15 b 0.20 1757,M b 4.00 1764.41 b 3.00 1775.04 b 4aOO 1793.54 b 0.60 1867e14 b 0.60 2029177 c 2.25
Z = 15 ELEHENT: P ~FERENCES: 70Ra
227.30 c 0.65 233.00 c 0.44 243.60 c 2118 250.90 c 2.71 325.30 c 1.42 336.50 c 0.77 371150 c 0.58 427.70 c 0.54 436.10 c 1.09 449.30 c 0.87 472640 c 1199 479.50 c 557.60 c 595.20 c 636e20 c 706.50 C 869.00 c 915.30 c 944.60 c 1032,40 c
....
1.86 3.4? 3.92 12.1; 1670 2,02 1.19 le13 1.37
1070*60 c 8e55 1321.40 c 1.56
Z = 16 EFEIIENT: S REFERENCES . ?OR a
841.10 c 75.55 2379.70 c 44.50 2490180 c 2.71 2753.20 c 5.83
ENERGY INT, EHERGY INTI ENERGY IHT. ENERGY INT, ENERGY INT. keV W100 keV HI100 keV W100 keV K/lW keV W100
(continued 1 2072.90 a 21.52 3101.80 a 1.26 4323.30 c 0122 5107.23 b 3.75 6743.16 b 1.36 2157.50 c 0186 3116.40 c 0.31 4407.64 c 0.20 526149 d 0.20 6747.17 c 1.40
2135.21 b llbO 3306.30 c 0.30 4528.71 a 0.25 5273.49 d 0.60 7112.07 c 0.20
2446.60 b 0,43 3539,ll b b8.d 48h328 c O:$? 28!$i bd fi67k8 8 8353 2205.11 b 0120 3278.80 C 0.23 4508.22 b 0.32 5271.39 b 0.80 7055~75 b 0.24
2336.50 c Oe99 3432.40 C 0.23 4599.61 C 0.10 5297.47 b 0.19 7200.57 b 7.77 2426eO1 b 3405 3499.30 C 0.2 47 3 3 C 0
25r08,22 b 0145 3632170 c 0.34 4839.96 b 0.28 6244.10 c 0.17 7844.87 d 0.15 ?781*49 b 2417 3641.39 b 3.89 4901.56 d 0.07 6287eOO C 0127 8371.72 d 0.10 3 0 6 + 2 5 c O e 1 0 3769e07 b 0.23 4934.39 b 62.69 6380.70 b 12.37 8472.91 b 2.44 3054v16 b 1441 3864+87 b 1132 5027.54 C 0.20 6419.63 b 0.19 10608,18 c 0.40 3086.50 c O b 4 7 3955-15 b 2.26 5070,bO C 0.20 6445.14 C 0110
CROSS SECTION: 1,80E-01 BMNS
1:18Ge60 c lo98 1!13*10 c 14.04 1629.90 C 2.81 1h74ilO C 3,55 1118,?0 c 2036 1?34,20 c 3,89 1760e10 c lo57 lllP0~00 c 6b05 l!r41,90 c 5.30 1'?99+80 c 1.08
2424170 c 1.66 2460e70 c 0.67 2553.90 c 0.52 2586110 c 4.79 2603,lO c 0.74 2657,OO c 1.71 2735.10 c 0.65 2774.20 c 0.40 2863.10 c 2.14 386.20 c 3906
3336.70 c 0.33 3339.60 c 0.29 3368.30 c 0.56 3444.10 c 0.90 3482.10 c 0.37 3522.80 c 13.15 3551.00 c 0.89 3594.00 c 0.51 3610*60 c 0.36 3634840 c 0.25
4408.30 C 0 ~ 3 5 4490.50 c 1.57 4568.30 c 0.21 4592.70 c 0.29 4613070 c OB45 4629.20 c 0.41 4671.30 c 13.80 4877.10 c 0.70 4911890 c 0.M) 5098.30 c 0.57
5860D10 c 5939~60 c 6036t30 c 6061.90 c 6194.60 c 6226.10 c 6275.70 c 6319.50 c 6392.00 c 6418.90 E
0126 0.25 0.27 3.33 0.65 0.24 0.44 0.57 0.39 0556
2021.80 c l,b5 2958.80 c *0.25 3741.90 c 0.25 5155.20 c 0.25 6504.70 c 0.45 2334.10 c 1.33 2992,lO c 0,33 3768.20 c 0.44 5194.80 c 1.10 6707.80 c 0.51 2114.30 c 6.94 3058030 c 5.87 3900.30 C 15.96 5266.20 C 4.36 6785.30 E 12.98 2154120 c 13.23 3087e80 c 0.39 3924190 c 5.62 5298.80 c 0.29 6915*30 c 0.70 ?:?2,6@ c 2.59 3121+?0 c Ce96 3960.30 c 0.39 5349.30 c 0.25 7179120 c 0.41 2!44,60 c 1,45 3152,OO c 0,37 3971.30 c G.27 5427.70 c 0.22 7306.20 c 0.55 m 0 . 6 0 1.13 3168.00 c 0.34 4129.60 c 0.38 5532.40 c 0.40 7421.20 c 5.31 2262.70 c 1.01 3185e40 c 1.72 4146.80 C 0.32 5519.40 c 0.25 77e8,bO c 0.34 ?276,00 c 0,8? 3220.60 c 0.28 4200.00 c 2n63 5704980 c 3.19 7856.20 c 1.00 2?85,10 c 0.81 3273.80 c 5,31 4261eOO c 0.31 5730,70 C 0.21 7938.10 c 0.27 2Z95.40 c 1.59 3303t40 c OB28 4324.30 c 0.28 5778830 C 0.90 2309,lO c 0.58 3318.10 c 0.40 4364.30 c 4.58 5816e50 C 0.40
CRJSS SECTION: 5.20E-01 EARNS
2964+70 c 1178 3398.70 c 1.24 4869.80 C 11.47 7800.00 C 3.91 2931.10 c 22.34 3723110 c 2.83 5047.20 c 3.15 8640.90 C 2.66 3220.80 c 27.09 4430.80 C 4.40 5420.50 C 591 3370.40 c 5.26 4639.10 c 2.07 5583.50 C 1.8
- - e . . _. . .
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
Z = 17 ELEKENT: U REFEWHES: 70Ra 769
292.27 b 0.29 3os.io C 337.52 a 358.29 a 395.70 C 436.13 a 468.30 b 477.90 c 516.73 a 532.77 a
0.21 0.07 0.19 0.14 0.67 0.09 0.22 18.50 0.09
CROSS SECTION: 3832Et01 BRRNS ' 78St 936.89 b 944.96 b 1020a40 c 1043.30 b 1066.98 b
1162.58 b
1035.30 a
1131.14 a
1164.72 a 1170.83 a
0150 0.08 0.38 0109 0.11 0.06 1.27 1.30 19e93 0.46
1447.37 a 1675.80 t 1679.76 b 1684.38 b 1710.06 b 1730.16 b 1730986 b 1743.26 b 1786.32 b 1788.31 b
0.53 0.88 0.21 0.27 0.31 0.36 0 +23 0.24 0.59 0.28
2003.33 a 2011.21 b 2021.79 a 2034#36 a 2044.14 b 2075.16 a 2092.24 a
2037~94 b
2106.50 c 2110.23 b
0.44 0.11 0.45 0.55
0.17 0.86 0.46 0.77 0.19
OD%!
2294.62 c
2318992 b 2326.02 b 2364.30 c 2368.62 b 2381.52 b
2311.08 a
2391.82 b 2418811 b 2422~21 b
0 +23
0.27 0.26 0.57 0.18
2503161 c 2511.11 b 2520~11 b 2525.41 c 2530.51 b 2557~93 b 2545.41 b 2551.40 b 2555.90 b 2564.30 c
0.12 0.20 0.19 0.19 0.37 0.48 0.23 0.23 0.17 0.19
541.00 c 0.19 1234878 b 0.06 1806.36 b 0.15 2131.58 b 0.25 2427.41 b 0.17 2569.20 c 0.18 589.90 c 3 , s 1356.27 b 0.06 1840~35 b 0.71 2179.40 b 0.39 2439~91 b 0.21 2586,70 c 0.18 575.80 c 0.19 1327.34 a 0.96 1828.35 a 0.65 2156.01 a 0.50 2432.91 b 0.22 2580.90 E 0.15
593.20 b 0.41 1372.59 a 0.33 1846.05 b 0.19 2199.93 a 0.37 2445.61 b 0.14 2593.00 b 0.23 632.74 a 0.32 1425.58 b 0.07. 1857. 5 b 0 2 2448 1 b 60 0 703.04 a 0.10 1445.97 b 0.14 l8bl.k b 0:1$ %?kg k "o:'fb 2454% c 811 $62$:$4 6 !:g 786.26 a 9.60 1462.42 b 0.06 1870.55 b 0.06 2246.23 b 0.17 2467.55 b 0.70 2633.40 b 0.16 738.40 a 15,OO 1496.43 a Q,15 1896.90 c 0.87 2252.93 b 0.38 2470.51 b 0.69 2640.10 b 0.18 830.80 c 0,26 1600.82 a 4.16 1936.85 b 0.48 2259.43 c 0.17 2473.21 c 0.23 2646.99 b 0.28 859.48 b 0.11 1.605,76 b 0,09 1950.93 a 21.72 2266.23 b 0.29 2479.91 c OnlS 2650.80 b 0.22 863.89 a 0.14 1.626.06 b 0.32 1959.13 a 14.62 2275.32 c 0118 2489.21 c 0.49 2655.70 b 0.08
913*40 b 0.09 IL639,79 a 0,51 1995.53 b 0.32 2288.92 b 0.48 2497.01 c 0.20 2675.96 a 2.58 890.89 b 0.07 3t620~7b b 0.23 1984,SO c O s 5 5 2282.32 a 1.46 2492.71 b 0.74 2665e50 b 0.30
Ener$r uncertaintr i%=less than 0 , l keVi b=betueen O a l and 1 keVi c=betueen 1 and 3 keVi d= greater than 3 keVe
123
M . A . LONE. K. A. LEAVITI': and D. A. HARRISON Prompt y's frotn 'I'hcl.ln:ll-Nrurl-~,n Capt~It'
TABLE 11. y-Rays Ordered by Eiement and Energy See page 513 fur Policies and Explanatiuli
ENERGY I N T , keV N/100
Z= 17 ELEWNT: CL
ENERGY INT. keU NA00
Icontinwd) 3158.05 b 0.08 316 ,15 b Ot07 3201.95 b 0.25 3210.55 b 0.14 3221,113 c 0*12 3241.35 c 0.07 3250.05 b 0.30 3255n11 c Oi2l 3271.37 c 0.13 3281.84 b 0.06 3291v36 b 0.20 3296104 c 0.07 3311.54 b 0012
3320.14 c 0.10 3340.44 c 0.05 3347.94 b 0.15 3352.44 c Ob07 3359.54 b 0.10
3199.45 c 0.08
3316.42 a 0.29
3332,84 a 0,86
ENERGY I N 1 e
keV NA00 ENERGY IHT. keV N/lOO
ENERGY INT 1
keU w/100 ENERGY INT
H/lM keV
2680.30 b 0.39 ?587,69 b 0.15 2A92.79 b 0.14 2699.89 c 0.09 2709.39 c 0.19 2714.39 c 0.12 2723.99 c 0014 2733.09 0.14 2736e59 c 0008 2741.69 b 0.14
3640131 b OeO8 b 0*12
3660.75 b 0.23 3669.80 b 0.08 3677.10 b 0.09 3683860 b 0107 3676.60 b 0.07 3707842 b 0.15 3715.00 b Ob07
5386:4! c 0.11 4169~35 C 0.05 4175e7 C 0 0
4198.14 C 0.06 4206.50 b 0.28 4228.64 C 0.05 4263.53 b 0.07 4273.70 C Os12 4284,13 b 0.07 4293.83 b 0.10
4190.d c O:O%
4748.47 b 0.13 4761:2$ 4755 5 1 8 : f b 5464.86 b 0.07 59"m t 8 9
5492e3b b 0.17 5500.26 b 0.10 5561.15 b OeO8 5579.05 c 0.07 5599.24 c 0.08
5517.34 a 1.73
5584194 a 0.50
4760.67 6 0;oi 4792.11 b 0.08 4813126 b Os20 4818.26 C 0.08 48227.15 b 0.20 4835e26 c 0,05
2?47.49 b 0*24 3727970 b 0,M 4299n59 b 0.37 4305.93 b 0.08 4326.73 b 0907
4354e52 b 0.16 4359.82 C On21 4376~70 c 0.17 4394.52 b 0.05 4403.92 b Oe07 4414.49 b 0.27 4418.31 b 0.14 4424.31 C 0.N 4430.71 C 0.06
4332.i3 c 0.10
4843996 c 0.06 485.76 b 0.06
4884.10 b 0.21 490b.55 b 0.07 4933.14 b 0.14 4944*62 b 0.70 4945.24 b 0.40 4952.04 b 0.23 4957194 c 0.13
4366.65 b 0,Ob
4979.94 a 4.04 4390.18 b Oe27 4998.84 b 0.12 5007.73 C 0.07 5017.95 a 0.55 5027.03 c 0.07 5040.33 c 0.06 5054.63 c 0.05 2078.87 b 0.19 *385,82 c 0.05
5604.26 a 0,33 5634.73 c 0.09 2?52*39 0 0.23
2759.19 b 0.15
2779.69 c 0.11 2753.09 c 0.14 2798.27 c 0.35 2801.79 b 0.59 2899.70 c 0.30 2612.48 b 0.33
2764.55 c 0.13 373559 a Qa14
3750.03 a 0.36 3744.20 b 0.13 5702.73 b 0;G
5715.26 a 5.50 5733e41 b 0.42 5754.71 C 0.16 5778.06 b 0.19 5911129 b 0.12 5956.61 b 0.26
5902.91 a 1.14
3756.89 b 0.09 3774.81 a 0.24 3784.49 c 0,05 3791.89 b 0.10 3800b29 b 0.07 3810109 b 0,11
2821B18 c 0.13 3821.55 b le06
3833.89 b 0.09 3842.18 c OvO8 3898.28 c 0.06 3860.98 b O+!O 3868.18 C On05 3915898 b 0,09 3375e87 b 0.13
3825.95 a 0,78
3962.42 a 0.39
6007.90 c 0.10 2831.08 b 0.13 287,6178 b 0.15 2E63,94 a ,6193 2871.08 b 0.61 28?6,88 b 0857 2917.58 b 0.07 2930.27 5 O+lS
2845.47 a 1.07
2895,81 a 0.55
3372.67 c 0.10 3375.00 b 0.60 3382.03 c 0.06 3388.53 b 0.07 3437.13 b 0,Ob 3428.75 a 0-97
6086.57 b 0.74 6110.88 J 20.00
6267.99 a 0.39 6185.27 b 0.14 6289.22 c Os09 6341.57 b O b 1 3 6344.21 b 0.15 b358+10 c 0.10 6379.08 b 0.23
4440,48 a 1.08 4459.12 a 0.13 4446e51 c 0.09
344J.33 b 0.06 3459.43 b 0.07 3469.42 b 0110
4472.81 C 0.05 44?0,71 c 0.07 450@*10 c 0.06
2040.67 b 0.10
2974.60,a 1.35
2153.17 b 0.17 2965.47 b Oe14
?990,27 b 0.14 2994.66 b le12 3001b32 b 0.73 3039e37 c 0.13 3015.91 J 1.08 3026e07 b 0.14 3041.26 c 0.11
2476.90 c 0.13 3981.07 a 1,Ob 3481.40 c 0.13 3996.17 b 0,09 3483.02 b 0.08 4003e07 b 0,ll 3500907 b Os24 4012130 c 0,12 3503.82 b Ov18 4026.25 C 0.13 3512.82 b 0+09 4029996 b 0.15 3525.82 b 0.06
45027,JO b 0.07 4517.60 b 0.17 4524.98 b 0.53 4532.70 b 0.07 4546,IO b O a 2 5 4548.38 b 0.M
5109.37 a 0.11 5124.02 b 0.08 5141.51 b 0.11 5150.44 b 0.20 5204 $54 b 5247.09 b 0.53 5259.80 c 0.09 5265.60 b 0912 5289.69 C 0.05
5 2 ~ ~ 8 0 c 8%
6417.20 c 0.13 6431.70 c O b 0 6 6487923 b 0.14 6544.44 b
6627.64 b 4.54 6640.75 b 0.29 6681.60 E 0.16 6755,90 c 0.12
6422.11 b 0.26
6619.53 b 4040666 b 0.09
4061.26 b 0.20 4070*96 E 0,Ob 4054.23 a 0.76
4 ~ 7 ~ 0 b o,io 4581.99 c 0.05 4586.96 J 0.31 4592.29 c 0.11 4597.39 c 0,M
3531670 c 0.14 3538.72 b 0.14 3550.82 b OB06 3558.02 b 0.22 4077.16 c 0,OE 5300.49 b 0.10 6787.30 c 0.10
3048e86 3061 a71 3068.96 3077.06
0.09 3.95 0.26 0,09 0.30 0.11 0.18 1.28 0.07
3561.15 b 0.95 3566.02 b 0.28 3573.45 b 0.18 3581621 c 0.20 3588.91 b 0.41 3599.49 b 0.55 3604.26 a 0.38
4082,El a 0.73
4097.05 a 0.11 4087.76 c 0.08 4091176 d Oa07
4104.85 b 0.07 4111,bO c 0.16
4604.09 c 0,05 463.79 c Oe05 4633.39 c 0.05 4650.48 c 0.06 4675.58 c 0.05
4616.62 a ob72 5316.29 c O,& 5331618 b 0.08 5346.18 c 0.05 5357.38 C 0.06 5370098 c 0.07 5378.28 c 0.07 5406.57 E 0.06 5419.87 b 0.15 5428.17 c 0.06
6875.60 c 0.10 6951D28 b 0.18 7004850 c 0.12 7281.70 c 0.18 7413.80 b 10.42 7475180 c 0126
6977.66 a 2.26 3086 73 3095e56 3106.36 31 16.08 3126.96 ... ._
4127.05 b 0.13 4133.65 c 0.11 4139.07 b 0.37 4149.85 c 0.06 4163.15 b . 0.11
4684.55 b 0.12 4711.98 c 0.06 4721.07 c Ob05 4723.02 a 0.75 4735.07 b 0.12
3614.11 c 0.15 3622.71 b 0.15
3629.11 b 0.17 3639.45 a 0.29
7562.40 c 0.13 7730.16 b 8155 8578.3 b 2.91
. . 3135.26 b 0.18 3152.35 b 0.08
5447.07 c 0.05 5460,20 c 0.12
M S SECTION: 6.X-01 BAN
1828.76 C 1.00 25bbs01 b 2.80 1881.45 C 1.40 2614.31 b 2t90 3972.65 C 0.54 2668.11 c 0.51 2107.34 C 0.48 2771,80 b 8.60 2130.74 b 4.40 2781.70 c 1.70 2291063 c 0.20 2842.49 c 0.88 2432.42 b 0.84 3089e38 c 1.10 2490.72 b 1.10 3111.27 c 0.40
2229.44 c 0.29 2810.50 b S.90
CROSS SECTION: 2.10EtOO BARNS
3150e17 c 4.00 3365045 c 4.20 340S.S c 0008
4316.79 E 0.07 5063.67 E 0.26 5270.24 c 0.47 5440.61 P 0.05 5581.99 b 11.M) .5960.24 c 0.01. 6062s62 c 0.04 6082.32 c 0.02 6092182 c 0.03
6142.01 c 0.02 6298.38 c 0.96 7379.59 c 0.04 8786.70 c 0.26 3451.85 c 2.M
3564.53 c 0.13 3658.53 c 0.25 3700.42 b 9.90 4102,48 c 0.30 4745.01 b 55.00
2 = 19 ELM)IT: K REFERENCES: 70Jo 70Ra
244*10 b 0.19 291.50 c 0.10 316*80 c 0.40 251B40 C 0.30 297.50 c 0.20 327.90 c 0-40 284e60 C 0.10 300.30 c 0.20 332.10 c 1.30
359e50 c Oi24 368s30 c Ob10 372m70 c 0.60
381.38 b 0.32 387.10 c 0.10 421.60 c 0.20
432.60 E 0.30
E n e r s r uncettaintr a=less than 0.1 keVi b-betueen 0.1 and 1 keUi c=betueen 1 and 3 keVi d= greater t h ~ 3 keV,
, 1 24
E f i R G Y IHTI ENERGY INTO keV N , " O keU NI100
Z= 19 ELEHENT: li icontinrredl .
EHEKGY IHT, keV N/100
EtiERZ,'. IN1 0
t.eV H/ 100 EKERGY XHT, keV N/100
EHi'GY IN, keV H! 100
- 451160 c 0,lO -12lt.78-b 4tO.76 b Oe32 1221.58 b 475.90 c 0.20 1226.48 b
0.20 0.20 0.20 0.10 3.59 0.30 0.30 1n34 2640 0610
204L198 b 3.66 2726t39 b le04 2057.14 b 0.40 ?748,70 b 0120 2069.24 b 1,60 2756.a3 a 1.94 2073.65 b 10.75 2786,26 b 0.29
3588,W b 0.21 3604,40 c Ob12 3615.51 b 0.54 3634.22 b 0855 3651.18 b 1.82 363b42 b 0.60 3689412 b 1+70 3696.02 b 1140 3737862 b 1113 3762.11 b 0.X
938be40 b le59 4373.74 c Ce40 449b.79 a 0.39
485.30 c 0,lO 1233.78 b 522.94 b 2-08 1247050 b
4422.M c 0,jO 4432.45 a 0.41 2105.14 b 0880 2860,20 b 1.10
532t50 c C.40 559.50 c (in47 572.20 c 1.69 575.30 c 1.14
1255.28 b 1261808 b 1268.52 ti
1319.58 b 1303,55 a
2122.73 b 0.43 ;te37,42 b 1,93 2131044 b Oe30 2839.93 b l .E5 2136.54 b 0.20 2956.70 b 0.37 2143e84 b 0,30 2859e19 b Ot53 ?150,39 b 0,80 2ii7ff31 J 0,4@
~ 7 5 . 2 0 C 0 5 4508.22 b 0682 4559,70 c 0.13 4635.01 c 0.10 4654,M b 0.45
4671.70 b 0,67 594,80 c 0.34 t08,60 c 0.10 1330.48 b 0.20
1356,OO c 0.58 1373.13 b 1.57 1410.57 b 0.20 14ia.s7 O A O
2153.44 b 1,lO 2:7!.08 b 0,46
2194.04 b $150 2205t54 b 1610 2233.23 b 1,CO 2263.63 b 0.90 2290.73 b 3e81 2304.03 b 0.30 2310,Ob b Oe91
2325.40 c 0630
2104,47 a 0.95
2917613 b 0,44 3 2 6 . 7 4 b 8836 2 9 3 . ? ? b On60 2970b48 b l a @ @ 2992.38 b 0.64
3026.70 c 0,17 3039190 c 0.58 3056.46 b 2n97 3071,OO C C.12
3093840 c 0,91
3133.57 b 0,60 3157.30 c 0.11
3220056 b 0.30 3262049 J 2875 3288.56 b 0.1
3327.23 b 0.62
3335.89 b 1.00 3349e05 b 0.76 3364.50 c 0.13 3381.78 b 0.45 3384.55 b 0.40
3419004 b 0010 3428.30 c 0.12 3448054 b 0.90 3452.59 b 1.77
3010.51 a 3.52
3128.48 b 0.59
3199.28 a 0.18
3304.02 b 0891
3404.34 a 0,97
3767,lb b 0417
3790,Ol b 0.10 3794b21 b 0.20 3822.46 b 0433 3828091 b 0.30 3839e11 b 0.55 3853.60 C 0009
3868,20 b 0.10
3777,21 a 0.83
3m855 b 0820
62a.x c 0 ~ 1 7 639.79 c 0.50 646.71 b 2.61
47G5.SO c 0,12 4770.M b 0,33 4874990 c O b 3 5
t6 t .29 f 0.10 632e10 c 0.59 i593eO9 c 0.40 701.79 c 0,lO 729.93 b 0.23 734.59 c 0.20
737.49 c 0440
4?03.?0 e 0.16 4928,bO c 0.13 4992.21 a 2.04 5013.81 J la05 5643.33 b 1.97 5069.35 b 1.38
1428087 b 0.20 1435637 b 0030 1451047 b 0.10 1464.92 b 0834 1468.47 b 0.10
1479.44 b 1,57 1489886 b 0.82 1517047 b 0.50 1565032 b 1046 1583.57 b O B 5 0 1614.07 b 6.20 1618047 b 8.16 16 e96 b 0.40
1645.96 b 0.20 1660*04 b 0.49 1675.76 b 0.30 1694.96 b 0.70 1704028 b le92 1747.76 b On19 1752.66 b 0.50 1794.97 b 1.61 1825093 J 0.66 1858076 b 0.61 1881.15 b 0.50
16$kO6 b 0.20
3875h21 b On37 3897.53 b 0.36 3922.53 b 0081 3931.69 b 1.26 3944.94 b 0066 3960001 a 1.18 3978067 a X.11 3989.99 b 0, 4oc2.77 a 1.38
5112.80 c 0013 5133e08 b 0.21 5173.75 b 2.88 5224,OC J 0.56 5 2 7 5 0 3 C 0028
::::Fi m R ! I:!! 5488.90 c 0'20
741.39 C 0040 770.27 b 51.48 782.79 c 0.20 791.65 a 0.46 830.29 c 0.10 827.77 a 0049 843.69 b 1.84 669.29 c 0.20 891.81 b 0.98
2346.51 b 1.14 2367v24 b Oe96 2375,13 b 0.40
2419+27 c le90 2446.22 b 0890 2457.X b 0.40 2460.75 b 0.43 2467872 b 0.30
2389.58 b 2016
4061e75 b 1.M
4087.66 b 0.59 4111036 b 0.43 4122.07 c p.30 4136.38 a 3.31
2474112 b 0,20 2480.52 b 0.30 2545.86 a 2.75
5513.02 b 3.27 55A2080 C O e 1 1 5672.50 c 0 . 5 5695.96 b 6022 5730,W b 2.39 5752.36 b 6.00 5841.35 c 0.20 6387060 c 0.20 6420.70 c 0019 6851060 c 0.24
616169 b 0.10 923.00 c 0.38 951.09 b 0.20 973.19 b 0.10 978.99 b 0110 983.70 c 0.39
1008.29 b 0.10 1057.39 b 0.30 1Ob8,78 b 0030 1082,08 b 0.30
108b037 a 1.19 1139.08 b 0010 1145.38 b 0.20 1158.82 a 8.36 1177068 b 0050
z = 2 0 ELMDI1:CA REFERENCES: 7ORa
391.00 c 363020 C
660.90 c 696.30 c 707070 C 725.90 c 834.60 c 867.20 c 980010 C 1.88
1155obO c 1.87 1388.30 c 3.05 1649.20 c 1095 1671.70 c 2.67
520.00 c
2557e81 b 0.60 ?568*ll b OB20 2573e81 b 0.30 2593,bl b 0.70 2610,bO b 2004 2614e91 b 1.10 2620011 b 0.30
....
4173.16 6 0,78 4201.00 a 2.19 4224037 b 0.59 4239.46 c 0010 4244.21 b 0.55 4250.96 c 0020
4281.35 a 0.32 4314801 b 0028 4328010 C 0.08 4346.90 c 0.17 43b1822 a 4.39
1929.34 J 2.80 2628.91 b 0140 373092 c 0020 1956.66 a 2.29 2639.15 b 1.43 3520.29 b loll 2007.64 a 1.97 2665.10 c 0,28 3527.55 b 0.97 2017086 b 2.48 2688,13 b 0.29 3546.28 b 5.21 2040044 b 3.55 2704000 b 0023 3570.46 b 0.51
6098030 c 0013 6999.46 b 2.68 7770.22 b 6m70
CROSS SECTION: 4.30E-01 B A R S
2350040 C 0.72 2376.50 C 0058 2382.00 c 0.55 2474100 c 0.57 2576840 c 0.57 2607040 c 1011 2660e20 c 1052 2692.50 c 0044 2709.80 c 0.39 2767.70 c 0073
3353.00 c 0.53 3456050 c 0.25 3585.70 c 2028 5610020 c 6034 3638020 c 0.61 3652080 C 0025 3759.70 c 2.63 3802070 C 0039 3915090 c 0.62 3947000 C 0.60
6037090 c 0058 6202010 C 0017 b322.60 c 0.54 6352070 c 0 0 8 6
- - . . .
6389090 c 0073
6915.80 c 0.42 2145.30 c 0093 2149040 C 1058 2 2 5 8 0 3 0 c 0.87 2264.30 c 1.04 2294.60 C 2049 2308.M) c 1011 2328.70 E 1.25
4218.90 C 0025 4293.20 c 0047 4418.90 c 14.94 1468000 c 0021 4515.80 C 1004 :I%:!!: oo:#
6985.40 c 0.19 7106020 c 0.21 7140060 C 0021 7173020 C 0.22 7213.90 c 0019 %i:B 'c 8;#
1825.80 c 2.13 2341050 C 0.57 3289.40 c 0.30 4615.40 C 0033 598ooM) c 0069
Enem uncertaintr a=kss than 0.1 keVi b-betueen 001 and 1 keVi c=betueen 1 and 3 LeVi d= greater than 3 keVo
Alornic Data and Nuclear Data Tables. Vol. 26. No. 6. November 1981
1 125
M. A. LONE, R. A. LEAVITT.'and D. A. HARRISON Prompt y's from Thermal-Neutron Capture
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
ENERGY INT. keV Nil00
z = 2 1 ELu(uII:sc
ENERGY INT, ENERGY IHT* ENERGY IHTi ENERGY INT. ENERGY INT, W100 keV W1M) keV HA00 keV HI100 keV W100 keV
CROSS SECTION: 2.65Et01 BARNS REFERENCES: 70Ra
2j;leOO c
250.00 c 0.44 280.80 c 1.09
L8.60 c 5!!$ '1(Q3;3:vl 'c 1857.30 c 1871.70 c 1887.00 c 1900.40 c 1975.70 c 2006*10 c 2050.10 c 2058.70 c
ki\ 3.03 0.65 0.82 1.49 0.82 2.43 0.41 1.16
3!os:'i8 'p 2929.50 c 2949.80 c 2964,OO c 2994.70 E 3012.30 C 3031.70 C 3051 800 C 3085.50 C
3833:68 'c 4000e70 c 4021.80 c 4038190 c 4059e70 c 4083+60 c 4111.10 c 4131.90 c 4154,OO c
k!? Ot93 0.35 0.19 1 . n 0.15 0.20 0.44 O S 8
%?M 5054 0 00 5085.40 5128.60 5 163 e 50 5209.90 5226.00 5267.20 5285190
C C C C C C C C C C
8:3 0.24 0.44 0.39 0.39 0.73 Ot09 2.43 0.53
0108 0.64 On15 0.42 0.42 0.12 1 e 3 3 1.04 0.36 0.39
%B:$8 6318.10 6349.80 6364.10 6429180 6457.80 6506 s 40 6536.90 6556 ~80
C C C C C C C C C C
8% 2.27 2.18 0,12 0.16 0.61 0.58 0.11 2 p34
0.19 1 e08 0611 1.98 6143 0.69 0.39 0.48 2.01 0.56
0.41 0.68 0.17 0.85 1.43 0.54 0.90 0.39
295160 c 20.90 400.10 c 1.53 408.90 c 0.44 440.50 c 0.88 474~40 C 0.44 486.20 c 2.39
2080,OO c 2111.40 c 2128.50 c 2155eOO c 2168.90 c 2244,OO c 2262.30 c 2288,70 c 2330880 c 2341.40 c
0.70 2871 0.60 0.39 0.31 0.62 0.19 0.54 1.14 0.21
3106.00 c 5117.50 c 3158.90 c 3168,OO c 3222,OO c 3246.50 c 3265,80 c 3281.20 c 3309830 c 3358.50 c
0.24 0.23 0.21 0.13 0.24 0.40 1 *04 0.36 0.36 0.13
4173100 c 4202.90 c 4236.40 c 4269.50 c 4292.40 c 4314.00 c 4327.70 c 4341.30 c 4355,oo c 4377.60 c
le24 0.11 1.35 0.12 0.45 0.37 0.23 0.09 Oe28 0.60
5316.50 c 5335.60 c 5346.30 c 5361,lO c 5378.70 c 5407.00 c 5445.60 c 5481.50 c 5499.50 c 5531.30 c
6575.30 c 6644.20 c 6688e40 E 6716.70 c 6839SO c 6874.40 c 6960+00 c 7052.10 c 7117e10 c 7232.50 c
808.10 c 2.18 835.40 c 0.65 uO60.30 c 1.09 883.60 c 1.74 899.90 c 0.65
2359.20 c 0.45 3377.40 c 0.19 4402*00 C 0.09 5554.90 c 0.32 7331.00 c O e 2 8 2365.20 c 0835 3396.30 C 0.40 4422.90 C 0.31 5567.80 c 0.16 7411.50 c 0.16 2374.50 c 0.70 3415.50 C 0.25 4439150 C Os48 5584,SO c 0.50 7437.60 c 0.29 2406.30 c 2.75 3458.40 c 0.81 4464.70 C 0.48 5623.50 c 1.12 7488.70 c 0.50 2445,OO c 0.24 3478.90 c 0.24 44?8*90 C Os69 5665.60 c 0.44 7568.90 c 0.12 2477.40 c 1.25 3499.60 c 0.44 4535840 c 0.09 5679.90 c 0.13 7635.90 c 3.43 2500s80 c 0.80 3523870 c 0.11 4564.90 C 0.15 5703.20 c 0.21 7673.00 C 0.48 2551,lO c 0.49 3556,30 c 0.36 4597.20 C 0.40 5743.70 c 1.12 7691.00 C 0.12
2583.30 c 0.24 3596.30 c C.42 4628ePC C 0.17 5803.80 c 0,09 7924.80 c 0129 2564.60 c 0.23 3569,90 c 0.11 4616.60 c 0,44 5781.10 c 0.54 7889.50 c 0e12
946.40 c 0.65 1014.50 c 0.88 1C58,20 c 1.30 1084,40 c 1.53 10E9,50 c 1.53 1!22*40 c 2.83 1135.60 c Oe88 1165.23 c 1.74 1226+CO c 1,30
1322.80 c 1.09 1334.?0 c 2.83 1519.50 c 3,16 1572.70 c 3.36 1648.40 c 0.82 1663.90 c 0.84 1692.00 c 4.65
127i.40 c 1.09 2635.60 c 2665.50 c 2680,60 c
4.04 9.90 OB25 1 e57 0.8'3 0.19 0.19 0.20 0.74 0.23
3623.10 c 3635e40 c 3642.26 c 3711,s c 3722t90 c 3736a20 c 3800~00 c 3822.80 c 3840.70 c 3865.40 c
0.61 0.21 0.12 0.25 0.17 0.27 0.25 0.29 0.25 0.11
4 656 650 4680eOQ 4721 e20 4744840 4777.70 4823 I 20 4883170 4891 e30 4918.30 4946.20
C C C C C C C P C C
0.15 0.72 0.73 0.08 0.09 0.17 0.66 0.54 0.53 0.54
5818.60 c 5834.30, c 5897t30 c 5926.00 c 5978.90 c 6054.90 c 6097s10 c 6170.39 c 6192.40 c 6203,50 c
0.24 0.08 2.76 0.25 0045 3.03 0.35 2.96 0.28 0.16
8033s50 81 16.20 8132.40 8174.70 8315940 8470.10 8531 a 60 15#:38
0b16 0*20 2a56
11.83 2127 0.81 6.11 0.21 1.10
?693,40 c 2715B30 c 2739.50 c 2754.20 c
2794.60 c 2817e20 c 2n3.70 c
17C5.70 C 0.96
1754050 C 0.82 2837,00 c 0.33 3879,OO c 0.52 4975.10 C 2e78 6259.00 c 0.12
Z = 22 ELEHEN: T I CRDSS SECT1 REFERENCES:
252.10 304 90 327.50 341 e70
~ 471.70 480.70 559.40 596.60 649.50 870.00
691r 70Ra -. . . . -. ._ C 0.26 1328.28 b C 0018 1437.28 b c 26.27 1450.98 c 0.20 2634.92 c C 0.26 1473.28 c
c 0,14 1381.48 a
c 0.21 1498.47 a c 0.27 1553.38 a c 0.30 1585.97 a
c 0.57 1761,85 a C 0.30 1675e17 b
0.36 2496,OO c 69.08 2511,80 c 0.70 2616,OO c
0.37 0.38 0 $73 0.30 0 t77 1 e03 0.80 2.53
3762.45 3870.30 3903 60 3920.96 3997.50 4031,80 4135.70
0.10 0.15 0.15 1.80 0.14 0.20 0.15 0.17
5541.30 5561.13 5637 18 5687.30 5755.10 5801.80 5967.40 610?,10 6150.00 6169.80
6139~70
kil:488 6418.35 6481 b60
0.18 0.36 0.73
7062.46 7082.45 71 68 8 49 7216.43 7333.41 7626 I 37 8010,S 8113.28 82Xi,26 8262.97
d 0.45 0.10 0.21 0.03 0.10 0.20
C ' C C b C C C C C C
C b a C P C C C C C
0.17 0.16 0.12 0.13
. . 0.20 2841.08 b 4.06 2944t53 b 1.28 2967e30 c 8.87 3027B04 b
0113 4222e40 0.35
0.19 0.18
. ~~
0,02 0.02 0.13
0.22 3083e20 b 5.64 . 3116e30 c
0.39 0.19
4355.20 4673.00
0.31 0.87
878.49 b 0105 089.09 b 0 1 901.99 b O;l$ 918.19 b 0.18 928969 b 0.08 943.69 b 0.19 983.48 a 2.56
3131,OO c 0.20 4714.83 b 1.03 C 0.14 8280.25 8389ejj 8409,
9388.14 10645e77
9208.08
d 0.01 a 8:tt d 0,13 c 0.09 c 0.03
32 1 10 c 3230:60 c 8:B 3307.10 c 0.19 3323.10 c 0.21 3475.68 b 1.75 3529.86 d 0.10 3543e86 d 0.44 3554e20 c 1.21 3709,60 c 0.69
l!iM b' 8::: 4920.10 c 0.11 4968.70 c 3e61 5092.00 c 0.15 5267.70 c 0.19 5394v50 c 0.14 5445.20 c 0118 54?6,60 c 0.15
6521.10 6556 I 50 b759 e78
~
1046.19 c 0.07 1121.11 b 0.92 1134.59 b 0.14
b 24.17 d 0.04 c 0,2?
6810 I 49 6882 * 00
1312.08 b 0.77 2371,30 c 0.44 3733,93 a 1.04 5498.50 E 0.17 6908.00 c 0,17
Enersr uncertainty a=less than 0.1 keVi b=betueen 0.1 and 1 keVi c=betueen 1 and 3 keVi d= greater than 3 koU,
Alornic Data and Nuclear Data Tables. Val 26. N~ 6 1 +-
126
TABLE 11. y-Rays Ordered b! Element and Energy See page 513 for Policier 27.; E.iplanation
'.
ENERSf IHT, ENERGY INT, ENERGk. INTO ke?' wioo Leu WlOO keV w100
ENERGY INT. keU N/100
Z = 23 ELEHENT: V
ENERGY INT, ENERGY INT, keV N/100 keV w o o
CROSS SECTION: 5.04EtGO BARNS REFERENCES: 70Ra
294.80 c 3.14 449.50 c 4.06 4~5.60 c 6*54 482.30 C 0.30 560.60 c 0.32 596020 c 0.62 645.90 C 11.13
1617,OO c 3,16 2622870 c 0.27 1664b20 c le92 2681.90 C 0.16 1693t90 c 1.02 2762.80 C 0.33
3733.86. c 0.23 4993.20 c O s 8 8 383!.29 c Oe13 5142.20 C 4.68' 325;.5$ C 0.30 5209090 C 5130 3?1S+?C c Oe16 5267.80 C 0.21 3976.0C c 0.36 5297060 C 0.15 4076.30 c 0.15 5445.70 C 0.10 4lii.30 c 2,39 5515.50 c 9.17
6461.80 c 6517.20 c 4555,60 c 6599.70 c 6625.90 c 6642e10 c 6676.00 c 670be20 c b873.90 c 6965.60 c
9.03 11,83 0,11 0.16 0.15 0*11 0.11 0.15 10.73 0115
1777080 C 1793180 C 1953*20 C 1960~10 C 2002100 c 2021,20 c 2051,oo c
5107 Oe62 1.77 0.71 0.77 OB76 0.51
2792.70 C 2827.30 C 2841050 C 2888.90 C 2962050 C
3101170 C 3034.00 C
0.26 0.28 0.94 OB61 0820 0.33 0.16
4133.40 C 0,io 425!*30 c 0.25 4 2 3 ~ B 3 4 C' 0.17
5551.40 c 0149 5577.60 C 0.39 5751.90 c 8e37
690.40 c 0.86 712e40 C 0.75 793.90 c 2.87
4452.50 c 4426.90 C 4533.05 c 4534.30 c 4568.30 c 4093.10 C 4750.30 C
4883.?0 C 4772.50 c
1-18 0*37 Oe14 0146 0.32 0121 0.19 0.42 1,54
5891.70 c 5944.50 c 6037110 c 6084.70 c 6253090 C 6278.40 E 6319.70 C 6342150 c b372*60 c
2.t3
0,c >
o*w2 0.09 0.15 O b 2 4 O l t 4 0.11
0.Cf 7069*10 c 7162.70 c 7291.50 c 7310e50 c
O.?b
2+30 4.02
13.34 823.50 c 4326 2082.70 c 0,57 3265870 c Oe26
2100.50 c le05 3333.60 C 0,32 2146.00 c 4108 3419060 C 0.14 2169.20 c 0.47 SO3050 C 0.77 2271.10 c 0.43 3534050 C 0.56 2350,OO c 0.51 3556080 C 0.35 2410.90 c 0.61 3579000 C 1026 2428.20 c 0.29 3669.20 C 0.24 2515,50 c 0.25 3717.20 C 0.34 CROSS SECTION: 3.10Et00 BARNS z = 24 ELEKNT: CR
REFERENCES: 7ORa 564.20 c 2.14 7i9.20 c 11e04 825.10 c 26.86 99S.50 c 0.45 1151.20 c 0.45 1585.20 c 1.49 1594e80 c 1125 1793.80 c 6.07
1994.70 c 2.55
2238.90 c Sa32
ime.50 c 4.27
4133890 C 4325.30 c 44?5,60 C 4955.40 C 4529.70 C 4626140 c 4847.20 c
5222.90 c 5269'53 c
4~2.80 c
0.42 0178 0655 0.47 0.21 0.18 1 e05 0633 0,68 1 e 2 6
5618.80 c 5706.60 c 5793.M) c 5857.90 c 5999.60 c 6136.30 c 6245.70 c 6282.40 C 6326.40 c 6372.10 c
3.87 0.80 0.38 0.78 2.54 1.85 0.29 1132 0.55 0~82
68YO010 c 7079170 c 7366.20 C 7939.30 c 6484.30 c 8512030 c W4.10 E 7720*30 c
1615 4*34 7052 12,75 4.54 6.15 26.57 10 97
2321000 c be07 3393.60 C 0.36 2349.00 C 0.75 3468090 C 0.15 2377.00 c 1.43 3488020 c 0.19 2558,20 c 0.92 3513000 c 0.51 2601.90 c 1.55 3596.70 C 0.40 2621.30 c 0.35 3617.70 c $88 ?67@040 C 1.28 3720.70 C re41 3022.30 c 1.59 Z785.20 c 0.18 3091,60 c 0.26 3862.70 c 0.49 3178.60 c 0.88 3928.10 c 0.40 3263.50 c 0151 4022.30 c Oa16
4".
,_ . .
5493.70 c 0,72 b645.50 C 5,91
Z = 25 ELWENT: W N CROSS SECTION: 1.33Et01 BARNS fiEFEREHCES: 70he 70Ra 71Va 75Co
2372.10 b 0.29 2396040 b 0.29 2405070 b 0.35 2428.60 b 0023 2443.10 b 0.21 24510%' b 0.29
2437.730 0.88
2471.30 a 0.50 2508.50 a 0.36 2515*00 b 0.33
200b.M) b 0.12 3172.50 b 0,17 3498.90 a 0166 2817b40 b 0012 3191050 b 0.08 3524070 b Ob15 2832.90 b 0.39 3195060 b 0.11 3527060 b 0020
2857e89 b 0.37 3213.70 b 0.06 3553092 b 0.30 2864.39 a 0.38 3222.40 b 0.02 3559.40 b 0010 2872.40 b 0.17 3231.M) b 0.03 3573090 b 2893.70 b 0.10 3242.50 b 0809 3588.50 b 0.08 2898170 b 0.18 3247.30 b 0.09 3601.50 b 0.09
2842010 b 0.08 3203090 a 0 0 3 3 3549020 b 0.27
2885.60 b 0.05 323b*80 b 0.04 3580.60 a 824
26.60 a 18.00 29.83 J 0.20
1140aOO C 0.66 1401.70 C! 0.88
m23.90 Ir 1.11 2044.70 a 2.46 2063.19 a 1.80 2090040 a 1.04 2122.50 b 0.52
215.13 a 0.88 229.87 a 0.38 231.60 a 0.05
274.28 a 0.46 314.40 a 4.76
242.34 b 0.07 271.17 a 4.48
2922.80 b 0.34 3259.90 b 0.18 3bO5.60 b 0.06 2926.89 b 0.42 3266.81 a 0.73 3626.80 a 0164 2937.60 b 0.t7 3271.80 b 0.32 3642.30 a 0.57
2991.40 b 0.14 3316.90 b 0.08 3716.20 b 0.04
295 a80 b O * L b 0012 3658.70 b 0104 2973.20 a OJ 338 b 0.12 3669078 b 0.19 2976.40 b 0.25 3301.40 b 0.17 3697,OO b 0112
2521.80 c 1.09 2534060 b Ob24 2545i70 b 0.06 2557.90 b 0 1 2582.00 b 0.30
2598160 b 0.37 2610.60 0.38 2622.69 b Ob78 2644~10 b 0.08
2561040 b Oil! 2594.49 a 0.69
26n.t.9 a 0.96 2696.40 a 0.37 274.40 b 0.32
~
3003.40 a 0.13 3321.10 c 0.22 372 .20 b 0.04 3021.70 b 0.29 3337.40 b 0.11 37d.40 b 0.02 3034.10 b 0.14 3346.90 a 0.63 3752.29 a 0.41
X5.54 a 0.50 340.99 a 0.59 354.11 a 0.62
2211s30 b lob2 2241.80 b 0.22 2254.80 b 0021 ZbloOO b 0 0 3 3
2286.20 b 00 1 2310.00 b 0.20 2294.79 a 137
30470% b 0.37 0.13 0.15 0.04 0.01 0.03 0.03 0.22 0.19 0.25
3363.50 b 3372.90 c 3387080 b 3399.60 b 3409.09 a 3418*10 b 3430.80 b 3437.40 b 3451.60 b 3458.69 b
0.4 0.65 0.20 0.39 3.54 0.19 0.16 0.08 0.04 0.15
3772.00 b 3783.60 a 3798170 b 3815.00 a 3820.40 b 3837.00 b 3846.00 b 3857.81 a 3873000 b 3883.70 b
0.12 0.29 0004 1.41 0.58 0.08 0.13 0.63 0.13 0m15
375.18 a OS9 454.30 a 2.22 459.72 a 1.60 486.47 2 0.21 499.66 i 0.25 504.72 a 0,61
3058022 b 3041 090 b 3072 0 70 b 3076 0 60 b 3089030 b 3098010 b 516.40 b 0.10
523.40 b 0.20 541.40 b 0.31 552.70 c Oo5;!
2320.20 b 0.30 2331.20 a 2078 2338.40 b 0070
2342*60 b 0.40 2368.41 b 0.57
2764.10 b 0.11 3116.10 b i769.20 b 0.09 2779.50 b 0.18
3124.70 b 3135060 b 3144.40 a 0.27 3473.30 b 0.10 3897.00 b 0.09 3159.60 b 0.11 3484040 b 0011 ?9O1070 b 0002
645.40 c 0.3'1 716.43 b 0,74
Er,e i - 9 ~ uncer taintr
2790.00 b 0.07 2802120 b 0.10
;=less than 0.1 keVi b=betueen 0.1 and 1 keVi cnbetveen 1 and 3 keVi 6: greater than 3 keV.
127
SI. A. LOSF.. It. A . LEAVIIT, and 1). A . I-IARRISON Prompi y's from rherrnal-Neutron Capture
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Esplnnation
ENERGY INT t keV W l O O
Z= 25 ELEHENT: PA 3927.12 b 0.66
ENERGY teV
(continued 1 4187e20 b
INT. wioo
0.05 0.04 On16 0.88 Oe36 t i l 0.04 0.11 O b 1 4
ENERGY I N T e keV HA00
ENERGY IN19
keV HI100 EHERGY IHT 9
keV W O O ENERGY INTI keV W O O
55'20.51 J 1.00 4567,12 b la73 4854,lO b 0.07 4875.18 a 0.75 4907.74 b 0.64 4935.16 b 0.24 4949842 J 1.68 448kJl d I;&? 5014.95 b 5.73 5035e44 b 0192 5068.24 b 2187
5404.54 b 0.41 5433909 b 1.44 5436199 b 1.27 5464870 b Os03 5485.50 b 0.06 &!?M ab 8:8t 5543*00 b 0.17 S63*90 b 0.03 5586.30 c 0.16
S955,OO b 0.05 3?61,70 b 060.5 3?71+60 b 0.23 3979640 a 0.37
' e 1 b !88?.28 b 1%
4191.60 b 419?,20 J
423,bO b 4$11+78 b 4293B50 b
42?3,49 a
4& 8.4 a
4588.65 b 0.36 4603e30 b 0.02 4613.90 b 0111 4618.50 b 0110 44@:l! R 8:i2
5976960 b 0 1 6050.62 b 0.52 6103s98 b 1 9 9 5
601920 b 0:Oj
WMS 1 8% 6553982 b gel8 4024.50 b 0.10
4035.60 b 0.16 4029.80 a 0.22
4670.60 b 0.08 4689.96 b 0.94 4709.08 a 0,14
4319t50 b 4324 * 10 b
6619660 b 0915 6624.W b 0.12
4G49.10
4FJ60.30 4076.00 4051 e50
1084 t 50 4089,50 41'230 68 4113e40 4127.70 4131.90
b b b b b b b b b b
O*OP 0.13 0.u- 0.04 0.04 0.27 0935 0.05 0.07
0,gg
433344G 4348.00 4564 I50 4390 $90 4398170 4415.38 4423.70 4446,OO 4469180 4473.10
0.00 0*3b 0.01 O S ? 0.14 0.24 0.06 1.0; 0.0b 0.10
4725.34 4739.40 4751 * 70 4764a10 4?68,00 4780.30 4793.75 4798.10 4816 170 4829 I 69
2. 50 0.07 0 ~ 0 2 0802 0.05 0.26 OeO7' 0.07 0.95
o.ia
5102,00 51 11 67 5129.50 5134.40 5181.59 5199.08 5245.30 52S4 30
5298.30 5mBX
0.35 0129 0.15 08 14 3m52 0,65 0.17 1.24 0.06 0.06
5i31.30 5625e30 5637.50 5678860 5707 e 00 5714950 5733890 5760 9 96 5794.80 5846.00
b b b b b b b b b b
O d 4 0.02 0,03 0.03 0.04 0913 0.02 1969 0.02 0.03
6783.39 bP28977 7338.70 7057.81 71 59969 7243 B 79 7270629
b 3.36 b 2.49 c 0.21 a 11,06 3 5.81 a 12.13 J 3.36
4173,PO b 0.04 4550*53 b 6451 4841800 b 0.63 5313.60 b 0.08 5S35,60 b 0.10
2 = 25 ELEHENT: FE CROSS SECT1 REFERENCES: 7ORa 78Sa 78St
277.30 c 0.14 2129.18 a 230.34 J 1.65 2109,90 c 314.20 c 0016 2153.40 c 352.18 b 11.73 2165q90 c 365.52 b 1.59 2191.40 c
011: 2s55E
0.36 0.08 0.14 0.11 0.11 c.10 0.11 G.i2 0.13 0.14
:+OO BARNS
3121.10 c 3170.52 b 3185.82 b 3225.74 a 3240.02 b
0.05 0.33 0.76 0.17 0.23 1.49 0.33 0.04 0.08 0.31
0.04 0.5 1.91 1.78 0.04 0.04 Os46 0.31 0 1 0 5 5
c 0.04 c 0980 c 0,05 c 0.04 c 0.17 b 0.12 c 0803 c 0913 c 0.04 c Ob04
c 0.04 c 0815 c 0 9 0 6 c 0.09 c 0910 c 0.03 c 0 9 0 5 c 0.05 c 0.06 c 0.03
s55.20 6507910 6573930 6599.70 6685.80 6762.30 bE13970 6988~00 7032070 7049D3(3
c 0.05 c 0.05 c 0.08 c 0*01
c 0.04 c 0.11 c 0.03 c 0.05 C 0.06
c OD08 411.30 c 0.74 2250Q90 c
n73.eo E 3267.39 a
3326.00 c 3292.50 c 3309e80 c 3357.73 b
479.10 c 1.91 .. - 57OeC4 b 0.47 2293.40 c 597,lO c 0.51 2?05.20 c 692.10 J 5.29 2366*90 c
2412,lO c 2425.70 c 2469120 b 2497b50 c 2526.53 b 2576,30 c 2617e70 c 2655+90 c 2682.56 b 2697,OS b
on11 0.20 0.53 0.09 0.48 0.26 0.10 0.14 0.52 0.23
1379.70 c
3413819 a 3436,65 b 3456.20 c 3470.10 c
3507.56 b 3540010 c 3564.30 c
3397.00 c
3486.74 b
4157.00 c 4218.39 a 4274976 b 4295.70 c 4324870 c 4367.60 c 4380010 c 4406.13 a ttss:w bc
5357.40 c 5386.70 c 5420.60 c 5452.90 c 5493.40 c 5511,70 c 5564,00 c 5580+30 c %m 'c
810+60 c 0.95 E98,20 1,eS 920.52 b 0.85 1019.03 a 2.47
0.12 4.26 0.45 0.04 0904 0.03 0813
0.13 Oe03 0.04 0.06 0.15 0*08 0.05
7091.70 c 7143830 c 7197990 c 7278#77 a 7391s40 c 7430.90 c 7517010 C
0.04 0910 0.04 5.33 0.04 0.04 0.04
1043.70 c 0.43 1139.30 c 0.66 12&0*63 J 2857 1358.58 b 1.11 1612.71 a 6.00 1368.80 c 0.1s 1725106 1759.00 1776.50 1842990 1859.70 1891 e30 1912.80 1972.30 2000 I O 0 321,60
a C C C C C C C C C
8.03 0.42 0.50 0.16 0.25 0.45 0 9 3 5 0.25 0.47 0.22
2721.33 J 1.67 3582.40 c 0.04 4532940 c 0.05 5633.10 c 0905 7631,13 a 28.51 3597.50 c 0.05 4552950 c 0.04 5745.00 c 0.15 769S945 a 24.13
3665.80 c 0.14 46409?0 c 0904 5826.50 c 0.05 8885*77 a 0074 3729.50 c 0.06 4743JO c 0.06 5920.31 a 9.02 lt046900 c 0.11 3745,bO c 0905 4809.96 a 1.80 6018.48 a 9*00
3614930 c 0.09 4563.40 C 0.03 5770970 C 0.08 8116900 c 0.05 3644930 c 0.08 4588.00 C 0.W 5786060 c 0112 8369.80 c 0.08
3717.90 c 0.04 4 6 m o c 0.3 ~ 8 ~ 5 ~ 5 0 c 0 ~ 0 6 9 2 ~ ~ 4 0 c 4.15
3778.21 b 0.19 4874.00 C 0.08 6051e40 c 0.05 3792821 b 0.17 4948986 J 0.83 6163.80 c 0.06
2751,lO c 0.17 2801.30 c 0.11 2813.70 c O s 0 5 2835.49 b 0.62 : . . -. 2873,68 a 0.48 2922.50 c 0.14 2953.90 b 0.45 373.40 c 0.n - 3033.50 c 0.05
?Ob6*0? b 0.69 20?1,40 C 0.23
3061t27 b 0.12 3845.10 c 0.29 5002020 C 0906 6267.50 E 0.11 3103.26 a 0.80 385423 a 1.33 5044.20 c O,OS 6380~s a 0874
CRES SECTIOM: 3972EtO1 BARNS Z = 2 7 ELEHEKT:M) REFERu(cEs: 70Ra
277.90 c 14.94 230.20 c 25.95 254.50 c 938
. - 317.e~ c 0.56 391180 c 2.59 435.40 c 1.22 447.30 c 6.81
4?7,00 c :BE! p' 556.40 c
717.70 c 785.70 c 710.50 c
928.20 c 944.00 c 1215.60 c
1.01 2.06 4843 13.05 0.84 0.86 5.19 1.01 2.21 0178
1291.50 c 1294,18 c 1516. c 1690.60 c 1802*10 c 1818.70 c 1831*00 c 1853,30 c 1890.00 c 2033+60 c
0.75
!:I30 0.81 1.98 0.84 6.21 1.31 1.16 1.09
2204.70 c %I:# p' 2308.10 c 2352.93 c 2370.60 c 2526.50 c 2569110 c 2606a50 c 2726.80 c
0.59
!:B 3.38 0.38 Oe30 0.27 0.41 0.34 0.29
274% 40. c Em r' 2893.10 c 2926.60 c 2953.50 c 2970.50 c 2995.00 c 3049.60 c 3097.70 c
0.33 00::z 0.35 0,49 0.38 0.34 0.31 0.25 0.26
3125.80 c iAU:;t8 : 3282.80 c 3334.00 c 3379.40 c 3446050 c 3561920 c 3609900 c 3613890 c
0.24
8% 0, i o 3.35 0.80 0516 0.19 0*20 0.35
460.60 c 0.61 463.00 c 0.42 473.50 c 0.81
E n e r a m r t a i n t v a=less than 0.1 keVi b=betueen 081 and 1 keUi c=betwen 1 and 3 keUi d= greater than 3 keV,
128 i
TABLE 11. ?-Rays Ordered by Element and Encrgy See page 513 for Policies and Explanation
ENERGY INT, keV N/lM
Z= 27 ELEKNT: C0 3663.70 c 0.16 3680,90 c 0.39 3701.90 c 0.13 3749.00 c 1.34 3814.90 C 0.34 3842.90 c 0.21 31399.50 c 0.59 3929.40 C 0.80 3966630 C 0.E 3m.70 c 0.24 4028.40 C 1.66 4128.20 c 0.11 4151,BO c 0.62
Z = 28 ELMNT: WI REFERENCES: 7GRa
252.30 c 0.71 270.10 C 0.241 283810 C 3.34 294.80 c O a O P 339.50 c 2.q 363.00 C 0.31 465.10 c 12,EI 481100 c 0.52
877.90 C 3*&5 846.90 c 1.0li
1189.00 c 1.05 1226.80 E 0.41 1301,bO c 1.313 1726.90 c 0.71 1316.60 C O a M 1841.80 c 0.40 1851.80 c 0.64 1950.30 c 1.35 2093.40 c 0.26 2123.43 c 0.81 2148.10 c 0.43
ENERGY keV
(continued) 4207.90 I: 4276.10 6 4329.10 I:
INT, N / l #
1.00 0.20 0.46
ENERGY I N T I ENERGY IHT, ENERGY I:NT* ENERGY IHTe keV !!/lo0 keV N/100 keV Hi100 keV MA03
4705.90 c Oe19 5212.60 C 0.40 5925.10 C 1.84 6876.80 c 8.21 4731.50 c 0.17 5269.60 E 1.23 5975.10 C 6.83 6948.10 0.73 4781e40 E O b 2 5 5357.90 C 0.44 6039.90 C 0.56 6984.90 c 2.97 4884.30 c 0.80 5370e50 C 0.42 6109~70 C Ob62 7055.60 E 1,8: 4905840 c 1.86 5509,70 C Oe54 6148.90 C 0.28 7213.70 c 4.72 5002e40 c 0.55 5602.30 c 1.17 6282e80 C 0 ~ 5 4 7490.80 c 2.99 5038e70 c 0.22 5613.60 c 0.99 6485.W C 6.42 5069,OO c 0127 5538e50 c 1.10 6537.50 c ' O * l O 5128.10 c On35 5659s70 c 7.20 6636,70 c OB11
5146,30 c 0.13 5702.90 C 0+51 6705,W E 7.43 5166850 c 0.38 5742.20 C 2e10 6751a60 C 0.19 5161s20 c 2.65 5849e50 c Oe33 6757.10 c 0.09
4921.50 c 1.01 5567.20 c 0.26 6275.X c 0,68 7433.60 c 0,28
4348,io er 0.20 4376.80 c 0.25 4394640 c 0.23 4471.00 C 0 , l l 4527.20 C 0.19 4546850 c 0.36 4607.10 c 0.85 4622890 c 0.20 4645180 c 0.35 4666s8O c 0.14
CROSS !iECTIDH: 4e43EtOO BARNS
2m.30 c 2497.10 c 2554.10 c 2577.80 c
0.25 0.28 1.30 0.22 0.46 0.22 1.13 0.14 0.35 0.19
3504.80 3561.90 3638 9 20 3675.50 371 1880 3779 130 3863.20 3930 e 00 3972 8 70 3988 a 0 0
C C C C C C C C C
I C
0.22 0.17 0.11 0 ~ 3 7 0.17 Oe15 Os09 0.32 0108 0,Ob
4746.30 c 4824.50 c 4858.60 C 4975110 c 5008*20 c 5067.50 c
5110*80 c 5145.50 c 5178.40 c
50~7.20 c
0.14 0.18 1.06 0.32 0.10 0.10 0.12 0.12 0.21 0.11
5973160 c 6034.10 c boblo90 c 6105.00 c 6144.00 c 6156.50 c
0.70 0.17 0.08 1,88 0.07 0.14 0.17 0.68 0.09 0.09 0.09 0.12 1.77 0110 0.16 0.22
10.79 0.10 0.10 0.10
7438.70 c 7537100 c 7696.80 I! 7818890 c ago6.10 c 8069.20 c 8120850 c 8330.10 c 8343.60 c 8533.40 c
0615 4.47 1 e23 8.19 0.14 0.14 3.14
0.15 16.98
0.13
2685.60 c 2766.30 C
6178810 c 6318.70 c 6368.30 c 6470.70 C
2842.0_0 c m.30 c 2893.60 C 2967r8b c
3026.50 c 0.16 0.16 0.14 0.12 0.25 0.19 0.15 0.10 Ob19 0.10
4030.30 C 4050.10 c 4141820 C 4263.66 c 4405,lO c 4419.80 c 4507.70 c 4588.80 C 4649+40 c 4675,bO c
0.24 0.30 0.12 0.36 0.13 0.07 0.17 4.18 0.17 Ob16
5227.00 c 5267.70 c 5312.30 c 5395.53 c 5436m c 5546.80 c 5695.40 C 5780,lO c 5816+80 c 5836170 c
0.07 0.44 1.01 0.07 0.50 0.09 0.92 0;07 2.12 0.62
6536.60 E 6555.70 c 6583.60 c 6653.29 c 6683.60 c 6716.80 c 6837.00 c 6E88t40 c 6901e80 c 6947.40 c
8790.70 c 8807.20 c 8820.60 c 8855.60 c 8998.80 c
0.13 0.14 0.13 0.16
3?.74
3042.10 E Z133.70 c 3151.50 C 3182.40 c 3221.00 c 3265.90 c 3296000 c 3349.00 c 5367,30 c
3383.00 c 0.34 4713.60 C 0.11 5924.10 C 0.09 6983.10 c 0.11
C R U S SE:CTION: 3.79EtOO BARNS
3834.30 c 0.67 3509,110 c 0.17 4320.80 c 1.3 si~~.oo c 1.18 6393.40 c 1.18 1853.30 c 0.84 3561.20 c 0.18 43~5.60 c 0.52 5214.90 c 0.54 6471.20 c 0 ~ 3 4 2136.10 c 0.46 3591.00 c 0.60 4477.40 c 0.63 5258.60 C 0.47 6575.60 C 0.15 2439180 c 0.30 3616.70 c 0.13 4502.90 c 0.90 5319.40 C 1.09 6599.50 c 2840 2465.50 c 0.39 3728.70 c 0.17 4562.10 c 0.43 5417.70 C 2.19 6617.50 c 0.77 2497.60 c 0.76 3735.50 c 0.25 4585.90 c 0.11 5449820 c 0.23 6678.00 c 4.24 2572.20 c 0.40 3777.70 c 0.21 4604.90 c 0.77 5527.70 c 0.16 6790.30 c 0.40 2656.90 c 0.42 5818.70 c 0.13 458.20 c 0.69 5556.00 c 0.31 6832.80 c 0.12 2699.90 c 0.35 3844.40 c 0.50 4690000 c 0.10 5614.60 c 0.30 6987.80 c 3025 2731.00 c 0.49 3885.50 c 0.15 4705.50 c 0.10 5635.20 C 0.33 7037.00 E 0.20
2 = 29 ELEENT: CU REFERENCES: 70Ra
203.10 c 7.21 278.30 c 32.b9 316.20 c O.EP 543.90 c 5.46 385.20 c 394.90 c 0.216 423.20 c 0042 449.40 C 1.11 466.20 c 5.D7 494.20 c 0.39 . .. . - e _ . . .
3900170 c 0.12 3920.80 c 0.64
473340 c 0.53 4781aOO c 0.37
5771.60 c 0.59 7063.60 c 0150 5849.60 c 0.11 7176.10 c 2.53 5893.90 c 08.13 7251.90 c 3.70 8M8 E' 6;fS !ill:$! E' 8% 6063.00 c 0.44 M71.30 c 1.54 6133.60 c 0.25 7636.60 c 15.71 6167.10 c 0.12 7755.30 c 1.40 6224.60 c 0.17 7766.00 c 0.22 6244.10 E 0.20 7914.50 c 30.82 6320.20 c 0.30 6349.40 c 0.11
579.80 c 2.91 608.90 c 8.152 619.10 c 0.84 548 4 c 2 662:98 c 1% 768.10 E OI'PI 878.10 c 1,:24 961.40 c 0.72
1138.60 c 1.16 1159.60 c 0.98
4032.86 c 0.15 4902.80 c 0.35 4902.80 C 0.14 5018.40 E 0.40 5043.80 C 1044 5084.00 c 0.44
iOiS,oO C o;ii 4114.60 C 0.24 4144.80 c 0.24 4201.50 c 0.37
15n.40 c 1126 1744.80 c 1.11
Z = 32 ELEHENT: M
3435.00 c 0.34 4285980 c 0.22 5139.80 c 0.12 3483.89 c 0.14 4297.30 E 0.11 5151.90 C 0.15
CROSS SECTION: l + l O E t O O B A R S REFERENCES: 70Ra
33b90 c 0.62 208.20 c 0.28 221e90 C 0.20
1077.40 c 18.93 1618.30 c 2.01 270.20 c 0.67 530.80 E 1.16 806e60 C 2.05 299.90 c 1.39 578.40 c 0.46 834160 c 2.73 308.90 c 0.55 580*00 c 0.40 909.50 c 1.07
1126.70 C 0.95 i674.20 C i 3 5 1262110 c 1.95 1746.30 c 1.07 1340.50 P 2.39 1883890 c 6.79 1354.50 c 0169 2212890 c 3.54
226.70 c 0828 251020 c 0.50
434.70 c 0.44 !i?b.u) c 0.73 932.80 c 0.70 457.00 c 0.16 752,lO E 1.59 1007.40 c 2.80
Energy uncertainty a=les!; than 0 , l keVi b=betueen 0+1 and 1 keUi c=betueen 1 and 3 k f f i d= greater than 3 keV.
129
M . A. LONE. I < . ,A. LEA\Jll"T.':itd D. A . HARRISON Pronipi y's from Thermal-Neutron Capiure
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
ENERGY IHT. keV N/100
Z= ?O ELEKEHI: ZN
ENERGY .-. INT. ENERGY INT, ENERGY INT. EHERGY IWT. EERGY I N T c N/100 keV W100 teV W100 Lev N/100 keV N/lOO keV
(continued 1 3331 e70 3340.10 3361,lO 3398,70 3458.20 37!7,90 3774 e80 3833850 3374e50
3556.70
C C C C C C C C C C
0.34 0.29 0.43 0.23 0.33 0.35 0.14 0.35 0.22 0.16
4164.10 4390.60 4425.40 4446180 4582.90 4653020 4750.90 4756.50 4783 t 90 4775800
C C C C C C C C C C
0.37 0.17 0.32 0.17 0,42 0.47 0.14 0.15 0.41 0.22
5035.30 5162 00 5206*40 5246.90 5287,80 5340.80 5404 Q 10 5473.60 5520 Q 20 5559.60
C C C C C C C C C C
0.17 0.17 0.19 0.39 0.25 0.25 0.13 3.35 0 $37 0.93
5762.20 5776.60 5786.60 5909 e 40 5982.60 6037 t 40 6262 170 6421.10 6481 * 60 6509 10
C C C C C C C C C C
0.36 1.14 0.41- 0.88 0.18 1 e07 O s 4 7 0.28 0.91 0.83
1.62 4% 1 e29 1.49 0.93 10.58 0.71 1 ,a9
3135e50 c 0.16 3231e60 c 0.25 3287a50 c 0.47
Z = 31 ELEhENT: GA REFERENCES: 70Ra
213460 c 1.96 230e90 c 2.17 250a90 c 9.46 267.60 c 0.69 277.50 c 0.92 303.60 c 2.14 319.00 c 3.50
393.70 c 6144 411a40 c 0.92 489,lO c 0858 549.70 c 0.26 560.40 c 1.56 588.10 C Oe33 651.00 c 4,19 659.90 c 1.25 671630 c 0.33 691670 C 11.27 710430 C' l*O? 759t39 C 1*3C
376,60 c 1.7?
869,30 c Oa8i
3957s30 c 0,15 4828e00 C 0.68 5647.20 C 0.39 66513.20 c la11 4028.20 c 0.28 4869.70 c 0.17 5661.70 C 0,17 6703.40 c 0.59 4137,OO c 1.60 4888*30 c 0.39 5685.40 c 0.12 6769.80 c 1.00
CROSS SECTION: 2.90Et00 BARNS
1552+10 c 1839e70 c 1888.80 c 1931,70 c
3876 2.19 2.48 1 e38 1 e06 1.67 1.03 O b 8 6 1.00 0.78
?755,40 c 2789.20 c 2852.00 c 2899.80 c 2919.40 c 3058.80 c 3111,20 c 3130,90 c 3158,lO c 3169,OO c
3236.70 c 3270.00 c 3300.60 c 3573.40 c 3420.50 c 3477.80 c 3500+70 c 3524.40 c 3556800 c 3b61670 c
0.55 0.70 0.48 0.64 0.60 0.52 1.00 2.25 0.48 0.57
~05.20 c 3842.90 c 3860,OO c 3894.80 c 3994.80 c 3975.90 c 3991.60 c 4013.50 c 4032.30 c 4071.00 c
0.25 0.30 1.45 0-52 0196 0.4i 0.92 0.39 0.38 0.35
4748.50 c 4757.40 c 4792050 c 4840.50 c 4869070 c 4890.70 c 5002,90 E 5018*50 c 5055.20 c 5159,lO c
0.30 0.61 1.22 3.40 2.42 1.28 0.49 0.24 0.67 1.69
5692.40 c 5718.70 c 5745.00 c 5779.60 c 5806*00 c 5886e20 c 5901 e40 c
bM)B.00 c 6111.40 c 6129.90 c 6193~10 c 6293t20 c 6318.40 E m.00 c 63 8 % ~
bS&bO c 6521.60 c 7002.70 c
5920.00 c
2.03 0.62 0.62 1e88 1.08 0.60 0.64 2.01 6.09 4.82 0.84 1 e51 0.31 2.55 12.78 3.20 0.29 0.31 1 e95
1?4?190 c 2015.20 c 2Ot2.50 c 2116~20 c 2126.10 c 2257*00 c 2269.60 c 2323.60 c 2342.50 c 2351.90 c
2407.40 c 2?96,20 c 2453.60 c
1 .oo 0.70 0.63 0:bP 3853 3.62 0.56 1.01 0 875
0.90
0.61 0.39 0.39 1.79 0.66 0.56 0,70 0.89 0.78 Oe76
4085.60 c 4136.30 c 4!?6.00 c 4311.80 c 4337.70 c 4358.10 c 4431.80 C 4479eOO c 4541180 c 4575.20 c
0.34 0141 1.23 0.70 0'59 1.96 1.60 0.23 1.95 0.43
51?5,00 c 5221.30 c 5234840 c s2:o.oc) c S301r00 c 5339.10 c 5370,40 C 5408.M) c 5464.40 c 5488.20 c
3.48 0.49 1 e46 0.37 0 1 3 3
7.04 0.42 0.31 0.29 2.81
2474.60 c ?552.01) c ?576,40 c 2603.90 c 0.86 3687.20 c 1,03 4595.70 c 1,13 5541.40 c 1.77
903e80 c 0.32 26?6*50 c 0.62 3746.30 c 0.66 4627.50 c 0.76 5577+80 C 0.47 999.30 C 0.38 ?640,20 c 0.84 3764.30 C 0.31 4652.20 c 0.30 5601.50 C 4.95 1140.60 C 1.53 2676.00 c 0.69 3777150 C 0.43 4698.90 C 0.95 5625.70 C 0.45 1173.60 c O A 269~10 c 0.70 3~4.10 c 0.29 4723.00 c 0.38 5651.30 c 0.70
Z = 32 ELEtiENT: GE REFERENCES : 70Ra
1?5+10 c 11.39 CROSS SECTION: 2e30Et00 BARNS
1940,X c 1965,bO c 2013,40 c 2430.70 c 2074.40 c 2292.20 c 2312.00 c 2532.70 c 2563.90 c 2643.00 c
2.02 0.37 0.84 0.26 0.80 0.18 0.25 0.35 0.19 0.14 0.41 0.18 39.00 0.24 0.12 0.15 0.29 0.16 0.14 0.09
3709110 c 3830.40 c 3847.90 c 3859.80 c 3895.20 c 3995.40 c 4009.20 C 4035.50 c 4077e40 E 4189e90 c 4220.60 c 42621 60 c 4307s60 c 4338.30 c 4367170 c 4389.20 c 4438.10 c 4463.40 c 4495840 c 4513.10 c
0.22 0.11 0.32 0.29 0.41 0.15 0.09 0.19 0.11 0.10
0.09 0.15 0126 0.39 0.10 0.38 0 . 28. 0.19 0.08 0.22
4685.60 c 4706.70 C 4770.50 c 4811.90 E 4~38~90 c 4881.40 c 4351.80 c 4972.60 c 4988850 c 5002V70 c 5063e60 c 5088.50 c 5161,lO c 5191.50 c 5235SO c 5266.40 c 5347170 c 5367.50 c 5385.20 c 5449.80 c
0.22 0 A 7 0.13 0.18 0.08 0.58 0.41 OB20 0 A2 0.26
5620.00 c M49.60 c 5668.40 c 5739.60 c 5?62,70 c 5816.80 c 6036.30 c 6092.00 c 6115.80 c 6172.00 c 6199.50 c 6225.50 c 6251,OO c 6274.10 c 6319.00 c 6361.20 c 6389.00 c 6418.20 c 6488.40 c 6505.50 c
0.13 0.23 0.15 0.43 0.21 0.95 1 e37 0.08 1.49 0.28 0.36 0.12 0.52 0.76 0.49 0.25 0.81 0.43 0.10 0.13
bb8Ot60 c 6707t80 c %@:938 'c 6915.50 c 7018t30 c
7260.00 c 7415.50 c 7500.50 c 7628.36 c 7725.30 c 8030.90 c 8499.90 c 8733.20 c
7090~40 c 7n1.60 c
0.21 1 e51 0 3 1.22 0.14 0.48 0.21 0.95 0.46 0.20 0.14 0.08 0.44 0.32 0.37
0%
185.90 c 0.70 253.50 c 4,55 262.93 c 0.62 Z3.50 c 0.97 297.40 c 1.24
_. 326.30 c 4.98 492.90 c 2.83 500.20 c 3.57 575.30 c 1.33
.. . - - .. . ..
1 . 596.40 c 33.10 2784 a80 c 2953.00 c 3028.00 c 3106e40 c 3210,90 c 3276150 c 3336.20 c 3373,70 c 3378n80 c 3478.70 c
0.35 608.90 c 7.40 702.00 c 0.90 704.00 c 0.90 709.10 c 2.00 868.40 c i4.j~ 960.80 c 4.60 1100.70 c 6.19 1470+00 c 2.06 1471.40 c 1.28 1511,60 c 1b26 1619,50 c 1.41
0.11 0.24 0.18 0.26 1 *Ob
3551.90 c Ob24 4573.60 c 0.08 5518.00 c le12 bS42,40 c 0.10 3583.30 c 0.26 4641e20 c 0.36 5560*80 C 0.42 6584.90 C 0.25
Enersr uncertainty a=less than 0.1 keVi kbetueen 0.1 and 1 keVi c=betwen 1 and 3 keVi d= greater than 3 LeV,
Ammic Dala and Nuclear Dala Tables. VoI 26. No. 6. November 1981
130
M . A. LONE, R . A. L B A V I b , and D. A. HARRISON Prompt y 's from Thcrmal-Nculron Cipccire
TABLE 11. y-Rays Ordered b!. Element and Energy See page 513 for Policies and Explanation
MERGY IN10 ENERGY INTO ENERGY X N T . keV WlOO keV Wl00 keV Wl00
ENERGY IWT. ENERGY INTO ENERGY INT, keV W/lOO keV HI100 keU NIlOO
2 = 33 ELEWU(T: AS CROSS SECTION: 4030EtOO 157.70 c 2.37 3275.90 c 0.13 164.60 c 16.82 3417000 c 0.13 177690 c 1.24 3626.40 C 0014 187.90 c 1.19 4013.00 d 0007
4041s00 d 0.06 4072.M d 0.10
REFERENCES: 68Jo 7ORa BARNS
4544100 d 0.14 4564050 c 0.13 4567031 b 0016 4587000 d 0.07 4599000 d 0005 4619.00 d 0.13
5119.00 d 0.13 6940.00 d 0007
5154*49 b 0836 5785.19 b 0.32 6529000 d 0.10 5178e00 d 0014 5806.00 d 0.14 6536.00 d 0.28 5208.00 d 0.13 5834*00 d 0.12 6585031 b 0.44 5233000 d 0.08 5854000 d 0015 6659.00 d 0.13 5270,OO d 0.12 5867010 b 0.36 6691oOO d 0921 5285.00 d 0.16 5884000 d 0.34 6705.00 d 0.09 5294,OO d 0.23 5974.00 d 0.19 6716000 d 0.11
5149.00 d 0119 %;% k "Ofl 6464831 b Ot20
5195.00 d 0.07 S8l6.M d 0012 6543.00 d 0.27 199140 C 1810 212.00 c Oe93 224.40 c 1.57 236.30 c 2.39 246.20 c 0.47 254.60 c 0.50
408i,h d 0007 4097.001 d 0007 4120,OO d 0005 4136000 d 0007
4649000 d 0.22 4660.00 d 0009 4693.83 0012 4730190 c 0.22 4760.41 c 0.11 5303.00 d 0.27 5985 28 b 0.18 6781884 c 0013
0113 6784000 d Ob11 0.15 6809e62 b 3.27 0.41 6830000 d 0.11 0052 6857000 d 0,12
264160 C 1.35 4775.00 d 0.12 4782.74 b 0.40 4810100 d 0014 4826053 b 0.17 4843040 b 0121 4060000 d 0.05 4877800 d 0015 4893.07 b 0.11
5325e00 d 0.05 5345.00 d 0.07 5360,M) d 0013 5374022 b 0.44 5399000 d 0112 5416814 b 0057 5443.00 d 0115 5452.00 d 0.14
6005,OO d 6016,00 d 6025079 b 6057.84 b bo96028 b 6129.00 d 6142066 b 6176000 d
0.22 6881.00 d 0.07 0.10 6926022 b 1.09 O e 2 9 6967100 d 0.06 0.23 6976040 b 0.24 0.09 7019.45 b 2.47 0042 7048.00 d 0.08
0.28 713OoOO d 0.03 1.21 7164800 d 0.13 OB50 7207.00 d 0.08 0.20 7240097 b 0.32 0.30 7282079 b 0.70 0116 0023 0.23 0062 0.44 0044
0.24 7063022 b 0.82
4917.66 b 0.17 4935000 d 0127 4943.41 c 0128 4959.22 b 0030 4978.00 d 0.16 4986.00 d 0.18 4995.74 b 0.42 5013100 d 0.17 5038.00 d 0.06 5057,OO d 0109 5066,lO b 0.20 5080071 b 0053 5093a00 d 0115
5024.00 d 0.18
5466.88 b 0.22 5494e00 d 0811 5509,OO d 0017 5528000 d 0108 5541.00 d 0.11 5569.00 d 0.16 5580.05 b 0028 5613.79 b Ob12 5629.52 b 0.11 5644,OO d 0.06 5661.03 b 0.29 5674.28 b 0.46
5697e00 d, On30 5688,17 a 0.28
6187.00 d 6200.78 b 6222114 b 6228.76 b 634$eOO d 6317000 d 6344000 d 6359000 d 6370.00 d 5382000 d 6392005 b 6401053 b 6418.66 b
m4.n b
559.90 c 1.U 595,50 c O.'M 4346.05 b 0.22 820,90 c 0,'24 4369000 d 0.12 1?01*40 c 1.45 4392.00 d 0.05
4406,00 d 0.08 - -. - - . - 1340.50 c 0.25 1498850 c 0.18 4424;45 0017 1534.30 c 7.18 4466,O d Os11 1594.00 c 0.92 4463.00 d 0.11
44?3,(!0 d 0.06
4417.00 d 0.06
2205+40 c 0,85 44990% C 0035 4515.00 d Ot14 4532.00 d 0011
2743.00 c 04.16 2860,oo c Olll
Z = 34 ELEHENT: SE REFERENCES: 70Rii
175.90 c Ob09 18 e60 c 0.10
199.40 c 1.50 238.90 c 89G6 249.80 c 1.08 281.00 c 0 0 2 5 36.10 c 0.60 297.40 c Ob67 332.70 c O e l l
183.40 c 0.08
CROSS SECTION: 1.17EfOl BARKS 2941090 C 0.09 1903880 c 0.36
!!!?:I8 c" 8:lf 3858.40 c 0.29 4926ebO C 0019 6244010 c 0015
298ff:p C O:f7 383.10 C 0017 496 0 9 0 C 01
3072.30 c 0.27 3902000 c 0 0 3 0 5026030 c 0071 6413.80 c 0.81 3175m80 c 0.08 3909.90 c 0.13 SO79070 C 0810 6438020 c 0.05
304 o c o 1 388 . o c 0~19 49d070 c old! fW8 E 8:62 3186.50 c 0.26 3215.10 C 0.11 3242.M) c 0.06 3331.80 c 0.06 3386.10 c 0.18 3413.10 c 0.11
3946.80 C 0.28 SOW070 C fl#:g ?:g 3969.90 c 0.38 5154040 C
4005,OO c OB19 5169080 c 0007 6762.90 c 0.06 4022020 c O t O e 5205130 C Ot16 6811~30 C 0011 4034.00 c 0.07 5243070 c 0005 6867000 c 0.08
367.00 c 0011 439.70 c 0.55 467080 c 0 0 2 2
484.30 c 0.83 510*00 c 5.88 568.40 c 0.36 574800 c 0.24 578990 c 0,68 595.60 c 0.12 613.90 C 7.46
4108,lO C 4174.90 c
0010 0824 0017 0.08 0.06 0.10 0011 0 020 0 0 0 6 0012
5276.90 c 5371030 C 5404800 c 5502040 C 5574870 c 5601010 c 5704.20 c 57750% C 5795.50 c 5807,50 c
0.06 6869150 c b905o60 c 6973090 c 7113r70 c 7179.30 c 7200540 c 7254170 c 7327.30 c 7418.70 c 7491.90 C
0.09 0 e05 0005 0.18 1012 0.23 0005 0008 3.12 0040
. . .- -... i7ii.40 c 0.45 1715,~) c 0.90 Siii.20 C o;o9 1772040 c 0.20 3467040 C 0811
3492.10 c Os31
3496.60 E 0.16 0.05 0.13 0.06 1.49
0~02 4ia6.00 C 4227110 c 4243.60 c 4338.80 c
1922970 c 0.29 1995.70 C 0.87 3517.30 c 0.11 2283.30 c 0.23 2392030 C 0019 2394040 C 0037 2520.80 c 0.14 2613.30 c 0 0 2 8 2674020 0.21 2721000 c 0025 2749820 C 0017 2764810 C 0 0 3 0 2770890 c 0.24 2810,80 C 0013 2873.40 c 0.42
3536.80 c 0.09 3551.70 c 0.18 3588090 C 0.18
4354120 c 4378.80 c 4412070 f 4435.50 c
0.18 0004 o o s 4 0.11 3601040 C 0.06
3624.20 c 0023 3655.50 c 0816 3646.90 c 0.06
4504.50 P 0.07 5812.30 c 0.10 7597.80 C 0.04 645140 c 0.27 661070 C 0008 695.70 C 1004 756,OO C 0034 817050 C 0 0 6 0 835.50 c 1.50
991.70 c 0.17 957.20 c 0.27
4526% C 0051 59OS.80 C ooio 76M1010 C 0003 4545.70 c 0.15 5968.50 C 0007 7734010 C 0 8 5 6 4565.20 c 0.93 5987.50 c 0.11 7360.40 c 0 ~ 0 7
4641160 c 0.13 6049.70 C 0.17 8501010 C 0 0 2 2 4608#90 c 0.35 Mx)7030 c 1090 8166810 c 0049
3681.60 c 0112 3688.70 c 0819 3702.20 C 0.17 3749.70 C 0009 5775.50 c 0014
4701090 c 0.11 m , m c 0.06 9181.60 c 0.71 4778e40 c 0.08 6232.30 C 0.77
Energy uncertainty amless than 0.1 keUi b=betwen 0.1 and 1 kpVi c-between 1 and 3 keVi d= greater than 3 heV,
Atomic Data ana Nuc.lear Dala Tables. Val. 26. NO 6. NovemDe: IFi
1 131
EiiERGY INT. EMRGY IHT, ENERGY I # T , EMRGY .x INT. EKERGY IKT, keC' WlOO keV NIlOC keV W O O keU !V!W ioV W100
Z = 35 ELMENT: BR L X M SECTION: 6.80Et00 BARHS
421&10 c 432.90 c 449.30 c 453.30 c 460860 c 482.50 c
5.10 0.49 0.12
0110 6.24 0.12
0.33
768e70 c 736t90 c 785.60 c
910e70 c 828,40 c 914.10 c
O a 4 6 4.13 C.l? let? Oe35 0,18 0. 15
2520.89 c 3~98,lO c i!60.30 c 4!65,60 C 4424.10 C 4436.56 C
0.05 0.13 ' . 3413 0.34 0,!1 0.!1 0.12
3a49.90 c 0.04 ?P5G*20 c 0.02 n976.66 c 6.13 493150 C 1025.60 c 4495,50 c - iO30.20 c 0.24 i076,40 c 0.31 7124.40 c 0.10
256,EO c 263,qO c 27 r lro c
3.24 s::? 571.20 58$;28 59 4
C C C C C C C C C C
1248.63 1318,40 14/4 e30
C C C C C C C C C C
C C C c C c C C C C
C L" C C C C C C C C
0.10
0.07 OtOb 0.10 0.30 0.12 0,Ob Oil9
M 7156.20 @,03
8: TI 0.05 0.34 0.07 0.63 0.09 0*02
288.70 c 298.10 c 326.40 c 532,oo c 345.00 c 367440 c 389,lO c
2.58 l * b 4 0.08 0.1s 1.67 1.51 Ov18
618.60 643140 660.20 665 e 90 688.20 691 *bO 5991 10
4.61 0,16 0.47 0.46 0.24 0.30 1 ,?6
1690.66 2066*80 2266~80 2321.00 2460150 27E6.10 3253.30
0.31 0.18 0.18 0117 0.11 0,37 0.05
0,06 0 +04
5255.00 5297 I 60 53 15 70 5393 8 50 5506.80 5533 t 70 5558.40 SJ50.40 5674 10
P . i i 0.oi Oe38 0.03 0.29 0.11 3,11
393.30 c 0.11 415.70 C Oe12
2 = 36 ELEKENT: IL9
720.50 c 0.46 731.96 c $e30
CRUSS SECTION: 2a50E 4 1059~99 c Ob41 1077,59 c 1t30
1124.4; C 1.20 1213119 b 37.0ir !228*59 c C.94 1293.29 c 0.66 1330.29 c 1.20 1442.67 c 0.61 1463.49 b 26.00
io8e.59 E o + a
3343.30 c 3490680 c
:to1 AM#S
2200e17 b 2544.36 b
2675.56 b 2581.06 b
c 0,11 c 0.07
72Ha 0.42 1.36 4225,59
4480,S 4494 I 4 7 4516,3?
4582.77 4590,27 471 5.56 4724a36
4557 ,a7
4752.96
b Ot58 b 0,ss b C,38 b 0,4? b Oe51 b 1.30 b le03 b !*20 b O s 0 1 b O a 4 2
359.20 5552.00 2725,09
680?,51 5680,70 6131.70 6962.70 70% 9 49 md3
b 2.60 b 5.50 b 2.20 t 1.20 c 0.22 b l e $ ( i c o., C 0.87 c Os31 c 0.17
0.n 0.79 0.25 1 J O
13,GO 3 2 0 0*53 1.30 O,kb
0.94 1 e50 3.50 5762.89
5792.59 5824 1 2 9 5840 * 09 5325.38 5941.98 5965 *&a
v a i I 19 b 0.14
271;0,a5 b
#:B bb 3110e74 b 3148.24 5 3323.03 b
I >43 6 i;iC b 1.30 b 1.40
1,10 1m10 1 .oo 1 a30 !.80
b 1.73 b 0.24 b 0.39
7430935 7478.65 7662.73
546800 c On80 1490.59 b 0.77 3367813 b b b b b b b b b b
1.30 4893.25 b b b b b b h b b b
0167 b b
0.45 0.68 0.72 0.59 0.20 0.98 1.90 1.10 1.90 0.58
7662.83 ??Ne03 7725.53 7749.92 7797862 7820.52 8174 . 68 8423.85 8618.93 9636942
0.12 0.09 604.70
611.40 638.00 694.30 ?05 e 90 714.40 ?38.10 E52s30 581 .eo
b 0.84 c 0.92 E 0.56
1542.49 b 1622.48 b 1655.98 b 1682.08 b 1799.48 b 1742.38 b 1?80+18 b 1813~88 b 1854838 b
1120 0.49 0.25 0.26
3420s 63 3466.72 3513.52 3!i?9*52 3617 * 32 3762171 3817.21 3990.30 4042.20
1.20 0.94 1.10 1 S O 1 B20 1.10 0.96 0.75 1.10
5057 64 5078 * 64 5099.44 5190603 5229163 5251 t93 5287 6 22 5312 * 92 5340182
i ,20 0.36 0.46 0.63 0.99
60% 67 6063.27 6123.16 6164.06 6218.3 6244.46 6281 e 4 5 6306.85 6328 e 85
h b b b b
0518 1.50 0.02 0.23 0.05 0.78
- c 0,29 c 0.47 b 0.43 b 0.84 b 4.60 b 84.00
o;3i 0.85 Oe69 0.65 o s 1
.... 1 ~ 3 0 0.89 0.9i
C C C
5 b b
0.06 0.28 1.20 1:
901.89 c 0,30 1978.69 b 1.10 4135.49 b Oe45 5352182 b 0.67 6352.55 b 0.22 993079 c Sa40 1897.58 b 8.10 4161039 b 0.45 5365.82 b Oe32 64i3.11 b 0.12 963.99 c 1.90 1960e98 c 1.20 4315828 b 0.97 5405832 b 0.74 M62.34 b 0.42
_._. ,_ 986.79 c 0.77 1979*28 b 4.90 4330.08 b 0.59 5479.71 b 1v70 6491.44 b 0.26
1046.19 c 0.38 2159.57 b 3.50 4395.18 b 1.10 5590960 b 0.83 6556,83 b 0.08 . 1016,09 b 3.20 2092.47 b 0.86 4354.38 b 0.92 5537.21 b 1.80 6519.13 b 3.50
2 = 37 ELE)IEWT: RB .REFERENCES: 70Ra
421190 C 1.69 436.60 C 0.15
-01 BARNS
1388.M) c 1404.20 c 1486940 c 1575,50 c 1587.20 c 1631a70 c 1660, k0 c 1714.60 c 1781.80 c 1806,lO c
0.82 1.11 0.97 0182 0.55 0.86 0.50 0.31 0.46
im4.60 2006,90 2037 30 2082.00 2130ebo 2149.70 2170.20 2176.80 2303.10 [email protected]
0.22 0.30 0825 0.14 0.34 0135 0.13 0.88
0.16 0.17
2759.20 2784.00 2797.00 2858.90 2877.40
2977 e bo 3054.50 3267.50 3106,OO
2924,ao
0.06 0.09 0.05
C C C C C C C C C C
C C C C C C c C C C
E C C C C C C C C C
Oalb 0.12 0.17 0.18 0 . 3 0.10 6.07
0e14 be20 be05 0.11 0.05 0.13 0.17
0*12 0.14 1104.50 c 0.92 Oa38 2642.30 0.68
539.?Q c G.56 1139.50 c 0.22 1857.00 c 0.42 2320.80 C 0.1s 2651e80 C 0.08 3130.20 c 0.08
709,?0 c 3a45 1183e70 c 0.23 1889*30 c 1.97 2352150 C 0.13 2708.20 C 0.18 3157.30 c 0.09 724.00 c O e 7 2 1305,bO c 1.27 1973.00 c 0~21 2364.00 C 0.13 2728040 c Oe05 3198.20 c 0.05
566,50 c O,?O 1162.10 c 0.20 1871,90 c 0120 234630 r 0110 2688.00 c 0.09 3136.20 c 0.05
Energy uncertainty a=less than 0,1 k d i b-between 0,1 and 1 keVi c=betueen 1 and 3 keVi d= greater than 3 keV,
Atomic Data and Nuclear Dala Tables. Vol. 26. No. 6. November 133,;
132
M. A. LONE. R. A. LEAVITT, and D. A. HARRISON Prompt y's froni 'l'herrn;ll-i\;clltron C';lpiiire
TABLE 11. y-Kays.Ordered by Element and Encrgy See page 513 for Policies and Explanation
ENERGY INT, ENERGY INTo ENERGY INTt ENERGY INTO M R G Y I N T O EWERGY INT. keV HI100 keV W I l O O keV HI100 keV HI100 keV WI100 keV hi100
2= 4598 e 60 4620 0 9 0
4641060 4656000 4690850 47508 4759.
0.14 0.16 0.21 0.05 0;07
0. 0.g
5353110 5384 0 30 5401050 5424 e 70 5473.10
5637850 5678 00 5697030
M 8
0.08 0 0 2 8 0 0 0 8 0008 0017 Os04 0.12 0005 0004 0.09 0.13 0 0 0 6 0.47 0.12 0.03 0010 0 0 2 5 0.07 0.31 0.03
6064 e 5 0 6086,lO 6 143 8 70 6187 90 6234 0 70
M:?8 6292 0 80 6352 A 0 6385 e 40 6418.40 M70070 6503alO 6520.20 6550840 6567 0 40 6601 030 6619090 6706 0 90 6831.40
C C C C C C C C C C
C C C C C C C C C C
C C C C C C C C C C
C C C C C C
C C C C C C C C C C
C C C C C C C C C C
0.26 0.05 0 0 0 5 0.28 0.04
6915180 6943.50 7151.00 7176010 ;;g 7306080 7345.80 74 15.30
0013 0516 0.05 0.13 0.03
8:85 6.11 0.25 0b24
C C C C C C C C C C
C C
8:8 0.06 0.12 0.15
5415.70 C 0.05 3431010 C 0.07 3485.60 C 0.08
4248.60 (! 4287880 E 4319000 I!
4784020 4344 I00 4875.30 4965100 4985.30
0004 0008 0.04
Oe05 0.20 0.18 0118 0.03 0018 0116 0.28 0.06 0.10
3542.40 C C C C C C C C C C
0.04 0.04 Oe65 0.07 0.06 0.05 0005 0005 0003 0.04
4360.70 4386.00
c c E E E I! E I! C! I!
5702 40 5728.20 5760 e 60 5800e20 5818.10 5841 e00 5885.90 5932.60 5980.70 6032.20
0.12 0.39 0.11 0.44 0.06 0.05 0005 0.12 0.04 0.46
7438.50 7544020 7624n10 7672.50 7790 30 8091e60 8650.90
0.04 0.09 1.48 0.05 0005 0.16 0.18
3602.10 36?0,70 3644.20 3659 10 3708,OO 3733 * 30 3762.70 3796.90 3808.10
4403120 4450.70
4515830 4532.00 4551 0 3 0 4570.90 4586.40
4497.20
5012870 5029.50 SO49030 5130,OO 5159020 5222 0 10 5255.80 5309.40
C C C c C C
C C C
2 . REF
: 38 ELEHENT: SR CROSS SECll 'ERE NCES : 6Pir 7'ORa
387.94 b 2.26 1718.20 b 401010 C 0018 1737.60 b 410040 C 0011 1761010 I! 418.20 c 0018 1774.40 E
ION: 1,21Et00 BARNS
4.00 2758.00 c 0079 ' 2766.60 C 0.96 2784850 c 0041 2802630 C 0087 2828.20 c 0028 2903.10 b 1038 2957.30 C
57.79 30090%a 1.16 3032.30 c 0.61 3 0 4 4 3 a
0.52 0.38 0.27 0.15 0011 0.20 0.43
38 6 80 3880.80 3888.85 3905010 3975832 3996.40 4020.45 4036 0 8 4054+70
3d7:00 'c 8:11 c 0 0 0 9 b 0.08 b 0809 b 0.25 c Ob09 3 Ot53 c 0.22 E 0012 b 0.20 c 0.14 c 0012 b 0.24 c 0.29 c 0.09 c 0.11 E 0 0 0 9 b 0004
bc !;!!I C 0013 c 0.05 c OB04 c 0.49 b Os33 C 0013 b 0.08 b 0.17
%!:id 6037 0 10 6101082 6136060
6231 8 15 6267014 6320 60 6343085
6182.00
8:t't c 0012 a 2.51 c 0.05 C 0014
423.20 c 0.13 in9.80 I! 434.18 b 1.32 1786.60 c 484.18 b 0.79 139.24 b b 0.14 553.50 c 9617 1836e09 i# 576.40 c 0 8 2 5 1881060 I! 585.51 a 2.13 1891060 I:
4.01 0.18 0124
a 4.23 c 0.14 b Oe08
596100 650.90 566 50 695.50 723 0 50 731.60 788.00 850.49 a 7 0 8 6 897.99
c 0.60 c 2.98 c 0.16 C 0040 c 0.45 c 0.30 C 0023
b 0049 J 27084
a 11.14
1902.50 19i0,25 1922.80 1934010 1953070 1969050 1982020 2053050 2081 0 6 0
2111040
c 0.58 a 0.46 I! 0021 I: 0.88 f! 1017 E 0.35 E 0022 E 0.17 b 0029 ID 1128
3058.80 3086.30 3090,80 3111.50 3135040 3139880 3219082 3277810 3302010 3318.10
c 0.08 4077.48 5102030 5115e85 5161e60 5mo.m
b 0010 b 0.13 b 0.85 c 0.11 c 0.09 c 0.17 c 0 0 0 9 0 0.28 a 0.36
6390030 6417800 6463050 6487000 607080 6544.70 6583075 6620.00 6660092 6671.50
c 0.15 c 0.12 c 0008 c 0.25
4102.10 4127 *BO 4156.10
c 0.10 c On14 c 0.06 c 0.08 c 0805 c 0.05 c 0.14 b 3075 c 0.69
C 0007 c 0016 b 0046 c 0.16 C 0009 c 0018
4174020 4196.80 4259.60 4264070 4276030 4287.70
Sii8.20 5242.20 5256030 5276082 5300.84
c 0.06 5322.50 . . _ _ E 0.13
918010 C 0.06 2141050 I! 0024 3337.40 C 0.22 4297.20 C 8.03 5361.52 J 0.25 6699.14 h O,h? 937.00 c 0023 2159030 o 0017 3356070 c 0.11 4305090 b 0016 5386020 b 0016 6760860 c U.12 961.90 b 6.15 2167.70 12 0.82 3371070 c 0.15 4323085 b 0.15 5391180 c 0.14 6812s70 c 0.14 974.80 c 0.06 2203.40 c 1044 3385080 c 0.07 4349015 C 0009 5397.50 C 0.05 6843.02 b 0.43
1039070 c 0112 2276048 b 2010 3426035 c 0024 4392020 C 0.11 5423046 b 0 0 6 6 6942062 b 3000 - - - . ._ 1058e10 c 0 0 3 6 2290080 c 0.14 3452.10 b 0014 4417050 b 0029 5451070 C 0 0 0 6 6963080 C 0.07
1150080 c 0.14 2298.80 c 0 0 3 5 3465005 b 0.08 4499860 b 0 0 2 2 5495.50 c 0 0 0 6 7117960 c 0006 1181.00 c la16 2315.90 c 0.27 3487.90 b 0850 4517.60 C 0804 S1805O c 0.12 7160.30 b 0.11
993.60 c 0.06 2252024 b 0046 3397.60 c 0.13 4371.90 a 0.08 5409.90 a 0.15 6885.26 a 2.45
. .
1218.52 a 2.05 2336.05 b 0.19 3522.88 b 0.22 4529.05 b 0.19 5529.60 c 0.12 7219.90 c 0.08
1304.60 C 0058 13a.70 C 0.76
1434090 C 1013 1442.10 C 1013 1474040 c 0.46 1492090 C 0 0 5 8
1382.88 b 0.92
t E W I!:@ lbbl090 c 0060
2354000 C 2365.20 c 2367060 c 2391.42 a 2457.90 c 2489030 C 2542.00 C 2550*60 c
2659.90 c
?677*73 b 2734.26 b
2577.02 a
0 0 2 9 0.20 0 0 2 9 2063 1.67 0.15 0.11
0.49 !:if
3541.15 b 3589 0 15 b 3614010 c
5638080 C 3654010 C 3686000 c
3620.50 c
##:58 r' 3756.90 c
3771.95 c 3805.30 c
0*30 0.10 0.12 0.09 0.16 0014 0014 0016 0.12 0.05
c.17 0.12
4552095 b 0812 4583.38 b 0 0 2 5 4604.92 b 0092
5559020 5578.40 5593.45 5611.10 5685.54 5706070 5750.50 5790.72 5823.70 5850.00
0 .os 0.09 0.14 0006 0.69 0 0 0 8 0.08
c 0.08 c 0009 c 0.14
4655.96 a 0.22 4671180 c 0004 4676000 c 0006 4700.50 c 0.09
c 0.08 b 0033 c 0.07 b 3078
s 9:99 b 1.12
4708eOO c 0 0
4724000 C 008 4743030 b 0.06
1.y 0.4 0.20
1677e65 b 0.46 1687.60 c 0.37
Energy uncertainty
0 2 5 0.52
0.1 I
4748n60 c 0004 4771.25 b 0.08
1 keVi c=betueen 1
5874.30 c 0.12 5906.50 c 0.09
and 3 keVi d= greater than 3 teVi b=betueen 0.1 and a=less than keVl
Alomic D a a and Nuclear Data Tablos. \'01 215, No. E. November 198'
133
M. A. LONE, R. A. LEAVITT. and D. A. HARRISON Prompt y'h Ttum I'hermal- Nctitron
INT, n/iw
0 4
0.42 5.77 0.27 1.58 0.35 0 129 0.40 Oil8
0.11 0.18 0827
0 3 7
0.33 0.57 0.37 0.33 0.60 0.73 0.45 Os47 0.67 0.56
0.28
Oe99 0.21 0.34 Ov41
i,n
O b 2 9
0.11 0.31 0.18 0161 0.11 0.34 1 e24 0.15 0.44
C:rpture
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
ENERGY INTt
2 = 39 CLMDIT: 1 REFERENCES: 70Ra
keV HA00 EHERGY INT* keV H/100
CROSS SECTION: 1428E
ENERGY keU
itOO BARNS
1814.60 C 1818.60 c 2254.50 c 2329.30 c 2340.10 c 2363.40 c 2405+70 c 2473.10 c 2503110 c 2546.50 c
IN1 8
N/lW
0.84 0.92
12.56 1.05 0.77 0.64 0.66 0155 0.97 1995
ENERGY INT, keV N/lW
ENERGY keV
3713.00 c 3869.90 c 4009.20 c 4106,70 C 42b3.20 c 4351.80 C 4490880 C 4613.10 c 4659030 C 4724,OO c
KNiRGY INT. keV N/100
2820 c 0.73
3015,lO c 0.32 3097.20 c 0930 3107s90 c 0.38 3162.70 c 1131 3230.50 c 0.23 3254.80 c 0.28 3283.00 c 0.73 3300,90 c 1.45
$? 23.80 c 0.85 W:# 'c 00::97 5558*00 c 0018 5607.30 c 0.49 5645.00 c le52 5902.80 c 0.47 6030.10 c 0.84 b079,W c 77849 6111e10 c 0.36 6623810 c 0,20
6751.40 c 1.30
386.50 c 0.72 1369.50 C 1.17 439.30 c 1.62 1372.80 C 0.70 574.60 c 12.60 1917.20 c 0881
595.90 c 1.47 1559.50 C 0 ~ 8 7 2565,bO C 0.55 3380.80 C 0.45 4734.10 c
776.80 c 30.03 1714.40 E 0.68 2818v30 C 0.36 3697.40 c 0142 5044.90 c 606.40 c 0.63 1711.60 c 0.87 2748.90 c 1.87 3544.00 c o ~ a m . 7 0 c
Z = 40 ELEHENT: 2R CROSS SECTIDN: 1.85E-01 BARNS
c 7% 623.80 c 0.37 1988.00 c 2.34 2937.30 c 0.73 3695.00 E 244130 c 7.63 668.40 C ' . 0.87 2041.50 C 1.12 3045.90 c 0.49 3857.80 c 250140 c 9.45 844100 c 2*30 2105*80 c 1.28 3109.50 c 0.47 3962.10 c 266130 c 0.95 903.00 C 6-82 2191.90 C 2.07 3146180 c 0.50 3998.30 c 312.30 c 0.45 912.70 c 3.20 2213.30 C 1.33 3176e50 c 0.37 4026.90 c 332.80 c 0.87 933.70 c 37.26 2329.00 c 1.10 3268.80 c 0.99 4090,80 c 336.10 c 0,57 990.50 c 1.47 2354.80 c 0.60 3296150 c 0.36 4120,OO c 342eM) c 0.85 1060,60 c 0.41 2437000 c 1.28 3342.10 c 0.93 4225.10 c 380850 c 0.45 1132.50 c 3176 2475120 C 0.99 33zl.50 c 1.05 4261.30 c 346.20 c 0.48 1404.60 c 7.95 2519,OO C 1.02 34~7.60 c 1131 4277.00 c
447e50 c 491170 c 540.90 c 561.40 c 596,70 c 502.50 c
1.80 0.72 0.31 8.55 0.87 0.26
1425,40 c 1617.90 c 1632e30 c 1642980 c 1847.70 c 1890.40 c
Os60 6102 2.31 1.88 3138 i e83
2531.50 c
2693.80 c 270?,70 c 2873.70 c 2932.70 c
2535.20 c 0.88 0.78 4.75 1 e83 0.62 0.81
3474.20 c 3501*40 c 3531.93 c 3579.30 c 3607.70 c 3637.30 c
1.32 1.03 1 e05
08 69 0.84
0.6i
4507.20 c 4529.60 E 4654.00 c 4?38.10 c 4803SO c 4986.00 c
6734.40 c 0.60 6760*40 c 0.25 77oo.w c 0.42 8634.70 c 0.82
Z = 41 ELEtBHT: NB CROSS SECTIDN: 1.15Et00 BARNS REFERENCES :
240.30 C 70Ra 71Ch
le60 735 60 746,30 750 s 90 775 90 835.90 878e80 882.40 896.10 911.20 936 b 7 0
C C C C C C C C C C
C C C C C C C C C C
oe22 0116 0.29 0.49 1 S O 0.83 0.85 1 e 3 4 0.75 0.16
2292.40 24?4,?0 2672,lO 2734.50 2965.80 3114,M) 3387 9 60 3430.80 3479.80 3506870
C C t C C C C C C C
C C C C C C C C C C
C C C C C C C C C C
C
0.43 0.41 0.27 0.15 0.15 0.24 0 ~ 4 6 0.13 0.18 0.22
4349aOO 4361e90 4396.90 4406 8 20 4433 I 10 4456 90 4467.60 4485 93 4504 ~ 6 2 4524.76
0.08 0.16 0.07 0.46 0.30 Oe29 0.28 0.18 0.32 0.18
4983.20 b 4997.20 c 5030.91 b 5052 e22 b 5070*16 b 5086,bd b 5096~68 b
5130.77 c 5180*?5 b 5104.32 a
5708.10 c 0.08 5726.70 c 0.10 5760.91 b Oe16 5770.82 b 0.30 5833.wc 0.08 5881.24 b 0.26 5895.95b 1.05 5907.42 c 0.06 5947.71 b 0.18 5955.93 b 0.13
C C C C C C C
bc b a b a
b
C
C
C
b' a
?C6,40 c 0.92 217,50 c 0.43 224.70 c 0.33 229.20 c 0.45 236.30 c 0.32 254.70 C 24.72 271.00 c 0.34 276110 c 0.43 282.20 C 0.32
293n50 c 4.66 310.20 C 4,!1
338.10 c 3.65 350150 c 0.24 357.90 c 0.28 362.90 c 0.24
328.30 c 0.35
- I . . ..
945,m 955 8 00 9581 10
1025890 1079e50 1119.10 1130,OO 1150~60 1239.10 1242140
1.88 0.31 0.40 0.21 0.15 0.52 0.63 0.21 0.19 0.12
3544810 3650e70 3678.20 3720,lO 3774.30 3811.10
3920.40 3978,90 3999,lO
3889.80
0.14 0.20 0.26 0.11 0.09 0.17 0.25 0.16 Ob24 0.19
4540.59 4558.22 4595.10 4607.32 4620.42 4632 ,OB 4648.05 4660.60 4673.20 4681.48
0.31 0.26 0.22 0.24 0.21 0.44 0.09 0.13
8:#
0.73 0.33 0.16 0.56 0.21 0.13 0.27 0.42 0.42 0.34
0.36 0.06 0.26 0.11 1.13 0.32 0.17 Irsl9 0848 0.25 0,12
5964.78 5979.50 5997.21 6059 e07 6069 n 91 6165.20 6291 e62 6332049
%lQs5:8! 6596.56 6832.60 6917.76 7110.70 7167.50 7188.56 7229.34
a
b b C b b b
b b
1
a
C C C
1
0.21 0.15 0.13 0. 18 0.21 0.06 0.24 0.13 0.12 0b19
0.16 1.19 0.23 0.09 0.07 0.54 0.08
5194941 b 5210.30 b 3247.36 b 5253.85 b
5300.38 b 5308 s 55 b 5283.32 a
368.20 C 0,34 373.60 c 0823 385.30 c 0.17
396,OO c 0.37 413e30 c 0.24 419.20 C 0+14
1265110 c 1353.00 c 1358.10 c 1392140 c 1404e10 c 1417.90 c 1447,OO c 1619*30 c 1725.50 c 1879e40 c 2121e30 c
0119 0.22 0.19 0.43 0.20 0.29 0,43 1 e92 1-36 O e 4 4 0.36
4004 +30 4014180 4089,bO 4130.50 4155.60 419 be 40 4207 50 4239 150 4260.20 4304 t40 4329.40
0.17 0.64 0.11 0.32 0.13 0.14 0.07 0.18 0.16 0.15 0.27
4711.65 b
4771 1 9 5 b 4784 s 70 b 4792 e 34 b 4813617 b 4829.00 b 4903 e 91 b 4913,31 a 4927,40 c
4949.53 c
4739.17 a 0.24 0.76 0.19 0.21 0.30 0.11 0.42 0.29 O e 4 4 Oa09 0.20
5401 .n 5424.00 5449.33 5460051 5497.04 5509.15 5533b28 5574119 5591.29 5608.23 5647 63
c 499.M : 520.20 c 540,50 c s2.90 c
457 t 90 482.60
i.iz 0.65 3.36 0.44 Ot18 1.54
5:5.00 c C.1?
695.30 c 0.:5
Energy uncertsintu a=less than 0 , l keVi b=betueen 0.1 and 1 keVi czbetueen 1 and 3 keVi d= w a t e r than 3 Lev,
Atomic Data and Nuclear Data Tables. VoI. 26. No. 6. November I98l
1
134
M . A. LONE, R . A. LEAVIlT , and D. A . HARRISON Prompt y's from Thermal-Neutron Capture
TAEiLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
ENERGY INT. ENERGY INT. ENERGY INT, ENERGY INT, ENERGY IHTe EMRGY INT, keV N/100 keV NA00 keV wioo keV N/l00 keV W100 keV h/100
2 = 42 ELEHENT: HO CROSS SECTION: 2~65EtM) BARNS
759.80 c 0.46 778.30 c 36.92 786.80 c 3.21 811870 c 0.31 848.80 c 14.52 968.20 c 0.44
2375.70 c 2400.80 c 2423.40 c 2451850 c 2506.80 c 2586.30 c 2645.10 E 2653.00 C 2663.90 C 275as40 c 2792.70 C
0.55 0.87 0.29
3645090 c 3672.30 c 3692.50 c 3736.60 c
0.24 0.09 0.41 0.27
4503.20 c 4529.80 c 4542.80 c 4613.70 E
0 8 4 7 0.02 0.23 0.24
5427 ~ 4 0 5531.10 5543.90 5602.00 5649860 5712.50 5738820 5818.70 5869 595i:300
C C C C C C C C C C
0.13 0.46 0.39 0.59 0.19
0.37 Os25 0.32 0.35 1 6 0 3
3750.90 c 3831140 C 3896.30 c 3915.20 c 3932.30 c 3953.40 c
0.08 0.24 0.15 0.13 0.24 0~13
4649.~) c 4660.20 c 4681.70 c 4741.20 c 4757.70 C 4767.60 c
0.06 0.09 0.38 0.40 0 7 0:?5
0.12 1.32 0.27 0.23 8:8
1091a20 c 3.80 1107130 c 0.57 1138.80 c 0.70 1200,90 c 3.69
304660 c 308.60 C 350.10 c 370180 c 405860 c 450.40 c 480810 c 550.80 c 569.70 c 573.70 c
0,30 0124 0.66 1.02 0.17 0.11 1 e26 0.18 1.13 1.25
1229.30 c 0.37 1.28 0.58 2.05 0.41 1 a34 0.50 O S 4 Ot5l 0.79
0.20 3971.10 C 3996.30 c 4018,SO c 4049.80 C 4071840 c 4179.20 c 4205060 c 4228810 c 4268.20 c 4294840 c
0.09 0.11 0*10 0.26 0.06 0807 0.12 0.08 0.07 0.15
4789.10 C 9806.60 C 4840.40 C 4880110 c 4925.00 c 4933880 c 4957.20 C 5031.10 C 5043.60 c 5078.00 c
Oil4 0.07 0.13 0827 0.26
6020840 c 6066850 C 6128.50 c 6180820 C 6364.40 c 6455800 c 6559850 c 6625.10 c 6673.80 c 6919.30 c
0.19 0.22 0.44 0109 0873
2795.40 c 2812050 c 346.70 c 2958.60 c 3009.20 c 3058.20 c 3132.70 c 3213830 c 3236.40 c
0.23 0.19 0.22 0835 0.20 0.16 0.29 0.13 0811
1318e10 c 1458.80 C 1497.80 c 1563110 c l'S56860 c 1559.40 c 1594b60 c
0.34 0.09 0.04 9.15 0804
0815 0.08 0.63 0.34 3.24
i6i8,io c 1702,50 c
580.20 c 1158 1762.80 c 0.60 3260.00 c 0.11 4308.90 c 0.06 5107.20 c 0.10 7414.70 c 0.05
670.80 c 0.31 1958.60 c 0.45 3473.50 c 0.09 4380.80 c 0812 5247,30 c 0.47 8373.70 c 0.54
737.40 c 1.91 2111860 c 0.46 3606,20 c 0.36 4493.40 c 0.46 5404890 c 0.12
592,lO c 0.65 1775,OO c 0.36 3300.30 c 0.25 4325.40 C 0.20 5117.40 C 0.05 7526.90 c 0.59 609.20 c 2141 1923.30 c 1.46 3329.10 c 0.16 4356.20 c 0.13 . 5218850 C 0.23 7642110 c 0.10 720.30 c 7135 2009.90 c le52 3490810 C 0.12 4442.90 c 0.46 5285810 c 0.19
2 = 43 ELEHENT: TC CROSS SECTION: 1*90Et01 BARNS REFERENCES: 79Pi
31.37 a 0.78 52,6? a 2.22 90.68 a 1.07 166.68 a 1.23 21S.20 a 1.76 299.48 a 11,49 z9.49 a 0.63 63.85 a 1.00 91.18 a 0.08 168.83 a 1.80 217,14 a 1845 43.29 a 0.39 71.60 a 0.22 91.41 a 3.69 172.15 a 48.79 223,47 a 4.91 43.56 a 0,79 75.53 a 2.40 92.02 a 0820 196.44 a 1.50 263.56 il 5.20 46.05 a 0,19 85.85 a 1.62 105.71 a 2.34 206.16 a 0.90 276,s a 3,10
P
2 = 44 ELEHENT: RU CROSS SECTION: 2,65€tOO BARNS REFERENCES:
160.30 174.80 211 2 0 250880 271.20 359.00 362.60 403.80 418810 975.10
70Ra c 2.23 c 5.47 c 0.17 c 0842 c 0.24 c 0.22 c 0.15 c 0849 c 0.12 c 6.84
711160 737840 823810 850.20 1046850 1103.70 1302 I 40 1342 . 10 1362.20 1620*00
C C C C C C C C C C
0.30 3321830 c 0828 0.22 0.21 0.34 0.25 0.32 0.32 0.38 0834 0.60
4828*20 4881.40 4886.20 5022 8 10 SQpl.40 5151.80 5300 . 70 5333.00 5567870 5586.30
C C C C E C C C C C
0813 0815 0.10 0.98 0.15 0.30 0.27
0.12 0.15 0~27
5893890 c 5910850 c 5941.60 c 6113880 c 6184.30 c 6208830 c 6273.50 c
0127 0.10 OIll 0847 0815 0831 0.82 0.13 0.80 0~21
6689 e 60 6753.60 6957.20
C C C C C C C C C C
0.22 0817 0.30
0.48 1803 0.28 0.62 1.34 0.31 0893 0.89 3.64
3656.10 c 3787.80 c 3947810 c 4007.80 C 4024840 c 4216.80 C 4269.80 C 4325.80 C 4350150 c
7102;eo 7177.00 7306.70 7506830 7610.10 7694 e 70 8113.20
0.47 0.53 0818 0.36 0.18 0814 0.11
540.00 c 10869 1627.40 c 0.75 4394870 c 0.43 5670.50 c 0.12 6371840 c 0819 8509080 c 0109 - - . . ,_ 591.90 c 0.19 1628.50 e 5888 4477830 c 0.28 5750.40 c 0.21 6416.20 c 0.08 9135620 E 0814
630880 c 3.60 1701e50 c 1.82 4586.20 c 0.15 5770.90 c 0.10 6507.50 C 0.15 664.50 c 0.11 1827.30 c l855 4627*00 c 0.72 5853.50 c 0.13 6561.80 c 0.18 687.40 c 4.01 2459870.c 0.42 4653.10 c 0819 5871.10 c 0.13 6626850 c 0843
. 2 = 45 ELEKNT: RH CROSS SECTIN: 1.5OEt02 BARNS ~EFERENCES;
201.90 c 217.20 c 23 00 c 2 3 h O c 249.30 c 254.20 c
70Ra 0.70 8.71 0.09 0.22 0.39 0.12 0.58 2.69 0.18 0.16
358820 c 375.20 E 387.00 c 421110 c 440.w c 469.90 c 482r00 c 537870 c 556.40 c 597.50 c
0.16 0847 0 8
0.75 0.77 0.74 0.81 1.49 0.44
0.3 818.40 c 033.90 c 950.80 'c 1007870 c 1052.20 c 1620890 c 2214.30 c 2722830 c 3483.20 c 3591.10 c
0.31 0123 0.48 0.18 Otld 1.64 0.90 0.42 0.26 0.13
4220890 c 4305.00 c 4327850 c 4359.60 c
0 8 2 0 0.20 0.09 0.17 0.16 0829 0.42 0.21 0.26 0.34
4861.20 c 4900840 c 4914890 c 4972840 c 5006830 c 5021.70 c 5134850 c 5154.40 c 5110.20 c
5203.90 c
0 8 1 1 0.10 0814 0814 0816 0811 0813 0.10 0.49 0.43
5461.70 c 5522.90 c
0~12 0852 0818 0.11 Otld 0.18 0829 0.20 0.97 0.68
5547.80 C 5601890 c 5617.50 c 4i47.80 c
44a2.80 c 5 6 7 3 8 8 0 c 57VbSO c 5812.10 c 6045.90 c 5916.80 c
~ - 4509870 c 4541850 c 4547890 c 4632.80 E
262.80 c 267.80 c 287800 c 289.20 c 306.30 c 0.97 645.40 c 1.70 3642880 c 0 8 2 8 4690800 c 0811 5266820 c 0893 6082850 c 0.57 324.90 c 1.92 752.60 c 0.22 3727.90 c 0.17 4696.90 c 0.09 5323110 c 0.10 6108*30 c 0 2 4
342.00 c 0.22 816.10 c 0.18 4022.40 c 0.14 4833.70 c 0816 5433.20 c 0820 6231820 c 0.66 334.70 c 2.38 789890 c 1.11 3968.60 c 0.26 4726.40 c 0.19 5346890 c 1.29 6171850 c 0.51
Enersr uncertaintr a-less than 0.1 keVi b=betueen 0.1 and 1 keVi c=betueen 1 and 3 keVVi d= Steater than 3 keV.
135
hi. A. LONE, R. A. LEAVlIk, and D. A. HARRISON Prompt y’s from ‘rhsrm;il-Neutron Cqiturc
TABLE 11. y-Rays Ordered by Element and Energ!. See page 513 for Policies and Explanation
ENERGY IHT. keU Wl00
Z= 45 ELEHENT: RH
2 = 46 E L W T : PD REFERENCES: 7ORa
6303,OO c 0.15
245,OO c 5.24 265.90 c 0.45 277.70 c 0.52 291b00 c 1.49 301,80 c 0,41 325.60 c 7.33 338.00 c 6.71 358.90 c 1.31 396.70 c 0021 414.90 c 0.28
430.40 c 3.75
ENERGY INT, ENERGY INT, keV W100 keV NA00
6353.90 c 0.37- 6419.40 c O s 1 4 (continued)
CROSS SECTION: 6.9OEtOO BWENS
ENERGY INTO keU N/lW
6785680 c 0.36
MERGY INT. k 4 w100
ENERGY IHT. keV H/l#
6997~90 c 0.07
657.60 c 717030 c 748.50 c 754.00 c 804,70 c 848.40 c
1048,lO c 1127.80 c 1200.60 c 1348.70 c
0.20 8.27 0.92 0.38 0.62 0.94 6.77 2.83 2.34 0.44
C C C C C C C C C C
0.66 0.64 0.14 0.35 0.13 0.26 0.19 0.14 0.13 0.13
4233.40 c 0.21
4410.10 c 0.15 4423.30 c 0.18
4312.20 c 0.19 5394860 c 0.04 5904.30 c 0104 5431030 c 0.15 5464130 c 0114
5518.50 C OiO9 5697.30 C 0.09 570?.60 c 0.22 5719.40 c 0.28 5741.90 C 0.12
5479.40 c 0.18
6330.70 c 0.07 5434120 c 0.12 6489,lO c 0.08 6590.10 c 0.69
4443.90 c ovi4 4509.70 c 0.16 4617050 c 0.10 4674.50 c 0.12 4752.50 C 0.19 4794.20 c 0.72
6624.80 C 0, iS 6652.20 C 0.16 6735840 c 0.24 6812.00 c 0.12 6986.10 c 0103 7061170 C 0108 7075.10 c 0.05 1396.30 C 0.91 3335.90 c 0.27 4920.00c 0.25
4999.90 c 0.M 5018.00 c 0.07 5099060 c 0.06 5179.00 c Os13 5198.40 c 0 0 0 6
%3f:4do ‘E 8;8 5310.70 c 0.07
5828,OO C 0.39 5886,bO C 0108 5917~20 C 0012 6017obO c ‘.0,18 6049.80 c 0.07 6168,30 c 0.05 6 4 O c b$i4:10 c 8:91 6294.40 c 0.05
463.60 c 0.19 475080 c 2.05 479.80 c 1.43 492,OO c 0.63 559.40 c 0.24 591.80 c 0.33 bola80 E 0.45 615e90 c 8.40
1422~90 c 0.33 3522,PO C 0.0s 1526920 c 0.19 3634.10 c 0.12 1572.60 c 1.71 3739.30 c 0.30 1573150 C 1.74 3776.00 c 0.19 1618.60 C 1.49 3909.30 c 0.14 f&% ‘E “0% 3958 4033% ‘c t:1’$ 1988.40 C 0.52 4064070 c 0.09
7122.20 C 0.09 7476000 c 0.08 7996030 c 0.05 8002.60 c 0.05 8331.20 c 0,11
2 = 47 ELMENT: AG REFERENCES: 7oR3
198440 c 23.88 205.90 c 8.67 215.00 c 0.85 235.70 c 12.22 259180 c 0.77 267.60 c 3.42 295.50 c 2.1G 300.30 C 1.51 330.20 c 0.51 350*80’~ Os40
360e60 c 1.81 369.20 c 0.40 380.80 c 3.29 397.50 c 0.30 409.30 c 0.26 464.90 c 0.51 495*80 c 1.09
2 = 48 ELEKNT: CD REFERENCES: 7ORa
368a30 c 0.11 427.20 c 0.17 462.70 c 0.22 477,OO C 0.26 539.20 c 0.89
575.80 c 2.31
707.50 C 1.37 724.90.~ 3.92 747.30 c 1.37 806e00 c 4.65
558.60 c n.n m . 3 0 c 13.90
MMSS SECTION: 6#36E+Ol BUNS
525.50 c 0.98 3003.30 c 0.15 537030 C 1.27 3310.50 c 0.13 549.80 E 1.03 3643860 E 0.17 588160 c 0.83 3760.30 c 0.08 664.80 c 0.37 3838.90 c 0.18 748.40 c On40 3993n30 c 3.31 751.50 E 0.43 4077040 c 0.18 852.40 c 0+25 4117.60 c 0.12 897.10 c 0.26 4139.30 c 0.24 929.10 c 0.20 4154.60 c 0.07
4724030 c 0.21 4812.90 c 0.42
5385060 c 0.24 5496.80 c 0.14 5549010 c 0.53 55770bO c 0.41 5611.60 c 0.27 5638060 c 0.19 5698.40 C 1.16 5740.00 c 0.08 5771.00 c 0.42
~ ~ 1 4 . 3 0 c 0.38
6055.50 c 1.00 6080e20 c 0.08 6100.30 E 0.12 4!57*80 c C . 2 0
6445a90 c 0.10 6538.30 c 0.45 6705060 c 0.14 6974.20 c 0.18 7063.50 c 0.19
7975.80 c 0.45 7268.40 C 0.48
6265.79 c 0.08
486o.06 C O X 9929.70 c 0.11 5001.20 c 0.18 5054.10 c 0.28 5074.50 c 0.31 5092.60 c 0.36 5111.90 C. 0;27 5138.86 c 0.11
5155120 c 0.21 5195990 c 0.12 5205.10 c 0.36
w
934.50 c 1011.70 c 1029.40 c 1106,90 c 1111.20 c 2206e70 c 2336.60 c
0122 0.58 0.46
0.82 0.23
$27”
4250.50 c 4347.40 c 4366,OO c 4447.50 c 4621.50 c 4652.20 c 4718130 c
0.22 0.19 0.18
0.11 0.23
$:4!
5792.90 c 1.01 5810e80 c 0.33 5893950 C 0.08
5995010 c 0.12 6019.10 c 0.31
ZM:+~ a;ii 5224.20 C 5240.00 c 8:ij 5351.90 c 0.07 5356180 c 0.14
CROSS SECTION: 2.45Et03 BARHS
1746.40 E 0.34 2582.30 C 0026
2610,40 C ov13 2659*80 c 2.84 2675.20 E 0113 2700&0 E loll 2739.50 c 0031 2753.20 c 0016 2767.30 C 1.31
2sw.m c 0.17
2799.90 c 0162
3273.40 c 0005 3331.00 c 0049 3377.wc 0.65
3994.20 c 0.23 4070090 C 0.13 4097.70 c O s 3 6 4124080 C 0.26 4140.50 c 0.05 4189000 c 0.07 4202.30~ 0.06 4mv40 c 0004 4235.30 c 0012 4286020 C 0.04
4683.70 c 0.06 i76i;oO C OAS 1803050 c 0.41 1826,OO c 0.70 1879040 c 0.77 1948.10 E 0 9 3 4 1995.00 c 0.23
4695.40 C 0.04 4728.60 C 0.04 4745.20 c 0.17 4772060 E 0104 4782050 c 0.07 4810,OO c 0.57
5428.4oi 0;s 3441.80 c 0.05 3459.40 c 0.05 3489.70 c 0.18 3501.10 C 0.05 3546,rnc 0.33
. - . . .. . .. zoz2;30 c o;26 2067.70 c 0.13 2083.40 c 0.30 2102150 E 0.83
4834.30 C 0 0 0 8
4899090 c 0.14
4936.50 c 0017 4 9 8 3 4 c 0.11
5070.40 c 0118 5109.20 c 0026 5152090 c 0076 5183070 c 0.04 5198.90 c 0.15 5221.50 c 0.47
4 a m o c 0.04
%I:% E 8:3
5 2 4 4 ~ 0 c 0.40
3581.40 c 0 0 0 4
3612.90 c 0.28 5637050 c 0006
%kt!: 8% 3728010 c 0.10
3779.70 c 0.20 3811.30 c 0.05 3825.10 c 0.17 3845.90 c 0.04 3855.60 c 0.06
3 m . m c 0.14
2811.90 c 0.18 2822.10 c 0008 %!:a ‘c 83 2973.50 c 0.06 3000~06 c le4b 3030e50 c 0.19 3052,bO c 0041 3068.90 c 0.10 3108e90 c 1.02 3150.40 c 0.09
4309.40 c 0.10 4331.20 c 0.05
4391000 c 0.11 4403.60 c 0.07 4483010 c 0.04
4514.00 c 0.05 4543.40 C 0.26
%k% ‘E 8%
4499.60 c 0.08
2124.30 c 0.44 ‘c 8;$
2 2 5 2 0 3 0 C 0.51 2314070 c 0.25 2353.40 C 0.62 2366110 c 0112 2380050 C 0.09 2397.70 c 0.99
89:88 E 8% 923.50 c 0.29 994.40 c 0.68
1209.40 C 3.61 1283.50 c 1.77 1302.60 c 1.47 1364e20 c 4.05 1399e30 C 3.17 2427.30 c 0.12 4556.70 c 0.06
4596.10 c 0.12 4612.40 c 0.04
4646.10 c 0.06 4626.70 c 0.20
1433.30 c 0.54 2455.80 c 4.12 1489e40 C 1.86 2501,80 c 0.12 1bbO.70 c 1.49 2530.90 c 0.18 1686*30 c OiZ9 2550.10 c 1.46
3182t70 C’ 0.05 3876080 c 0.09 3218.20 c 0.45 3912.10 c 0.29 3234,70 c O s 0 9 3927.70 c 0.05 3257.30 c 0009 3973.10 c 0014
5281120 c 0.08 5 3 0 0 0 9 0 c 0.11 5324.60 c 0.57 5384.20 c 0.18
E n e r g y uncertaintr a=less than 0.1 keUi b=betueen 0.1 and 1 keVi clbetueen 1 and 3 keVi d= steater than 3 keV.
136
M. A. LONE. R . A. LEAVITT: and D. A. H.4RRISON Prompt y's rrom Thermal-Neutron Capture
TABLE 11. y-Rays Ordered by Element and Energy See page 5 13 for Policies and Explanation
ENERGY IN18 IEHERGY k e EN€RGY IN. ENERGY M e ENERGY INT. EHERGY IN. keV WlOO keV N/100 keU WlOO keV W100 keV MI100 keU u/100
Z= 48 ELMNT: CD (cmtinued) 5431840 c 0899 5457e50 c 0.16 5491.10 c 0010 5536.20 c 0.04 5554.80 c On16 5598,OO c 0.09
Z = 49 ELEEEHT: I N ~ F E R E N C ~
203 e 214, 219, 232 4
i: 70Ra '0 c 0.47 IO c 0.24 ,o c 0.27 to c 0.05
236130 c Ob15 273.30 c 6.92 285.80 c 0 8 2 2 298.40 c 1.81 320.40 c 0.16 335.60 c 2.25 356.90 c 0.11
5633810 c 0.04 5878.30 c 0805 6254.70 c 0805 bM15810 c 0816 9043.40 c 0 8 2 5 5672.00 c 0.18 5934830 c 0.72 6292.50 C 0804 6823.30 c 0833 J721850 C 0.13 6042840 C 0.15 6461s80 C 0816 7734.70 C 0.25 >708.00 c 0820 5989,60 c 0806 6403860 c 0805 7677.70 c 0833 . 5782.80 0.60 62is.00 c 0.04 6517.20 c 0.11 m.10 c 0.15 58?!%90 C 2813 6230840 c 0807 6587.30 c 0.13 8482.40 c 0 8 3 6
1067.80 c 0.16 368.20 c 0.11 374.30 c 0.16 385.30 c 1.90 401.80 c 0,06 415.20 c 7,2i 434.00 c 1801 445.60 c 0.09 473150 c 1.50 491.30 c 0.61
1669.30 c 0023
. . ..
4 7 5 8 0 0 c 0.27 478.40 c 0.34 533.60 c 0.18 544.90 c 0.17 556.40 c 0 8 5 7 567.00 c 0.25 608130 c 0.21 626.80 C 0.20 652.70 c 0840 666.00 c 0.21 710.00 c 0.21
CROSS SECTION: 1e94EtO2 BARNS
CROSS SECTION: 6.3OE-01 BARNS
1752.80 c 1838 1981.80 c 0.25 1 8 4 ~ ~ 3 0 c 0826
ZoOi.00 C 08i6 2056,50 c 0826 2016.70 c 0.18
732880 c 0845 760.80 c 0.33 819890 c 0.27 869.40 c 0831 930.60 c 0.31 959890 c 0.37
1004820 c 0843 1040e20 c 0.44 1048.60 c 0.35
1069850 c 0829 1171830 c 7885 1229.50 c 6.84
973.20 c 1.19
1256.80 c 0.34 i27i;% C 0.43 1293830 c 12876 1506.30 c 0.63 1631870 c 0 8 5 4 1648.30 c 0841 1666.90 c 0.32 1726.90 c 0.90 1747840 c 0.49 1 7 8 1 8 8 0 C 0 8 2 9 1811.80 c 0.46 1826.90 c 0.30 1863870 c 0.36 1888850C 0 8 8 0
1944.50 C 0.29 1960830 C 0.17 1985.80 c 0.21
1 9 2 2 , ~ c 0821
2112.10 c 10.71 3267.60 c 0.06 4074,bO c 0.15 5103840 c 0.42 2160.00 c 0.17 3282.00 c O s 6 0 4121.70 c 0.04 5118490 c 0.05 2187.60 C 0824 3331840 C 0814 4134830 c 0.04 5141.10 c 0.40 2357.40 c 0.24 3351.00 c 0.18 4150.40 c 0.03 5172820 c 0.37 2378890 c 04 3353830 c 2405.20 c OX 3374850 c 8:E !#k% E kii Hk88 E 8:bd 2486.60 c 0811 3 4 0 0 e 0 0 c 0.06 4309830 C 0.08 5333.20 c O e l b 2 5 2 4 ~ 0 c 0812 3 4 2 ~ ~ 0 0 c 0807 4 3 2 3 ~ 0 c 0.18 m . 9 0 c 08v9 m8.70 c 0.09 3436.20 c 0805 4 3 ~ 2 ~ 7 0 c o m 5 3 8 4 , ~ c 0803 2sa.40 c 0.10 3 4 9 ~ ~ 2 0 c 080s 4420~80 c 0.06 5409~70 c 0.22 2579.90 c 0.15 3544.90 c 0.15 4441.60 c 0.06 5481850 C 0.04 2630.80 2647.10
2703.90 2743.40 2772.60 2824.70 2878870 2891890
2 ~ 6 2 ~ 4 0 0.08 0817 0.15 0.08 0.06 0.06 0.06 0805 0.06
3554.80 c 3596890 c 3610860 c
3716820 c 3740.80 c 3773. wc 3792800 c 3811.00 c
3703.20 c
0.07 0.04 0805 0.05 0.06 0.04 0.11 0810 0.06
4555.20 4580810 4613 10 4651840 4b84.60 4700850 4743 8 00 4774.90 4807.80
0.04 0.20 0 8 0 4
0 8 0 8 0803 0.16 0816 0.44 0.09
5499.10 5580.90 5712.50 5773800
5891.90 6047.40 6155820
5526.20
5 ~ 1 2 ~ ~ )
0.11 0805 0806 0803 0814 0.04' 0.60 0.04 0.03
2?27,90 c 0.35 3876.60 c 0823 4823.70 c 0807 5231.10 c 0.34 2969.10 c 0.B Z928.10 c 0.10 4849.70 c 0.06 6323820 c 0.07 3053.50 c 6808 3955850 c 0.03 4869.70 c 0.27 6411.40 c 0.11
3115840 c 0808 4006.90 c 0915 4969840 c 0.44 3161e00'C 0815 4045800 c 0.08 5005.20 c 0.18 3198820 c 0.10 4058.70 C 0.08 5032840 c 0.09
3081.40 c 0.06 3978.30 c 0.11 4913.20 c 0.41
2022.60 c 0.25 2?Z800 c 0.10 3421,lO c 0.06 4139.60 c 0 8 0 5 M42eOO c 0.85 2738.00 c 0.14 3436.90 c 0.06 4199.00 c 0.08
2096.90 c 0 8 2 9 2789.40 c 0.14 3474870 c 0806 4253.20 c 0.06 2112870 c 1.50 2818.00 c 0809 34 ~ 7 0 c 0.49 4294.00 c 0807
2150.00 c Oil9 2886.00 c 0109 3527.30 c 0807 4354880 c 0.04
2075.20 c 0.23 2774.50 c 0820 3459.20 c 0.55 4218,80 c 0.04
2125.80 c 0.14 ~ 4 3 ~ 9 0 c 0.51 &!.io c 08i9 4319m c 0.31
217i800 c 0814 2905.00 c 0.11 3546.20 c 0.w 4w.10 c 0.04 2179.00 c 1.14 2930~00 c 0.21 m.90 c 0.06 4389.20 c 0.03 2245.10 c 0.14 2961.00 C 0.39 3507.50 c 0.25' 4393400 c 0.07
2270.00 c 0.25 2986.30 C 0.09 3611.10 c 0.13 4410.40 C 0 8 0 6 2280.20 c 0811 3o00.00 c 0.32 3631tl0 c 0.08 44 830 c 0.06
2326,BO c 0840 3057,bO c 0821 3673.50 c 0.08 4483.50 c 0804
2367.60 c 0821 3121.90 c 0.08 3128,)o c 0.05 4600,80 c 0805
2292.10 c 0819 3018.00 e 0832 3648.20 c 0.06 44%50 c 0.06 2307.00 c 0812 3032.90 c 0.10 m.90 c 0.13 4457.20 c 0.05
2356.20 c 0.33 $&# E' tt77 3711.70 c ot42 4548.20 c 0.04 2353840 c 0.13 3696.00 c 0807 4513.70 C 0807
2400840 c O i l 1 3155.10 c 0.16 3778.70 c 0816 4612.40 c 0804 2417.50 c 0.19 3169.50 c 0.13 3793.10 c 0.04 4649.30 c 0.06
2438.70 2460860 2473.50 2487 e 80 2499.80 2559.60 2585.70
2651.70 2674880
2656.10
C C C C C C C C C C
0.23
0;09 0.41 0839 0.21 0842 0.11 0.57 0845
0821 3196.00 5230.20 3247.20 3269.10 3281.20 3292.20 3334.30 3355.00 3372.20 3389.20
C C C C C C C C C C
0816 0810 0.06 0.07 0.13 0.05 0.99 0 8 0 6 0 8 0 6 0.06
3809.50 3835840 3840.60 3870.10 3891 r70 3902.60 3927.10 3354800 3981 e 5 0 4012.50
C C C C C C C C C C
0.22 0.05 0.06 0.08 0.14 0.05 0.07 0.11 0814 0.04
4674.30 4696.50 4764.10
4810.50 4828.00 4867830 4892.80 4913.90 4936.50
4784.20
C C C C C C C C C C
0.04 0.36 0.06 0.41 0813 0.04 0.10 0 8 0 5 0.23 0808
2709.40 c 0.39 3403830 c 0.09 4127.80 c 0.M 4959890 c 0806
Energy uncertainty atless than 0.1 keVi bbetueen 0.1 and 1 keVi c=betuem 1 and 3 keVi d= gntater than 3 keV,
137
M. A. LONE, R. A. LEAVI’IT. and D. A. HARRISON Prompt y’s froin Thermal-Neutron Capture
TABLE 11. y-Rays .Ordered by Element and Energy See page 513 for Policies and Explanation
ENERGY IN11 ENERGY INT* ENERGY IN11 ENERGY INT, ENERGY IHT, ENERGY IN11 keU WlOO keV N/100 keV N/100 keV . W100 keV Wl00 keV N/100
7= 50 ELEENT: SN (continued) 4975620 c 5007*70 c 5043,70 c 5082.50 c 5114.50 c
0109 0.40 0.09 0.15
!i:i 0.16
5219130 c 5323160 c 5362.10 c 5392.50 c
5298~0 c 0.08 0.07 0.12 0133 0142 8:11 0.05
5517150 c 5562.50 c 5707100 c 5741.40 c 5822140 c
0.04 0107 0.05 0.05 0118
0106 831
5972.80 c 5992.40 c 6056.60 c 6094.50 c
0.07 0.09 0.13 0.06 0.03 8:85 0.43
6335160 c 6421.30 c 6443130 c 6460180 c bbO1.90 c 88:# c‘ 6916*50 c
0.16 0.08 0809 0.09 0.22
0.06 8:65
6970.90 c 7015.80 c 7114.40 c 7450.30 c 9326.10 c
0.07
0.15 0.34
k63 6150.90 w:88 ‘c
5171.20 c 1 = 51 ELEflEHT: SB CROSS REFERENCES: 70Ra 7OBht
201,bO c 1.35 213.00 c 0.16 218100 c 0.29 224110 c 0117 231.60 c 0190 233.80 c 1.03 247160 c 0146 253.60 c 0186 263.90 c 0.19 275.40 c 0.17
SECTION: 5 e 40Et00
332.80 c 351.60 c 356120 c 379.10 c 385.70 c 390.80 c 402.30 c 420.30 c 452.00 c 431.40 c
2.53 0130 0120 0.41 0.43 0.11 0115 1.07 0117 0.25
613190 C 631140 c 646160 c We60 c 724130 c 746110 c 773.70 c 905130 E 921110 c 1019.50 c
0119 0.80 O S 2 9 0.25 0114 0115 0117 0.16 0199 0.70
1688,40 c 1697.70 c 1703140 c 1722.30 c 1949150 c 2378.40 c 3235.80 c 4304100 c 4567.70 c 4602.60 c
0.24 0.37 0.26 0.22 0.42 0.48 0116 0.09 0.12 0.09
5126170 c 5158.30 c 5245-50 c 5336.60 c 5407e30 c 5467140 c 5562.60 c 5600*50 c 5619110 c
ssi8.m c
0015 0108 0.10 0009 0123 0105 Os04 0 152 0126 Os16
5885.40 c 6008.70 c
0.70 0.19 0.17 0.20 0.08 0119 0.34 0.60 0.33 0,95
6048.10 c 6082.20 c 6164160 c 6335100 c 6363.90 c 6379.50 c 6467.90 c 6523.40 c
283820 c 3024 310.90 c 0112 316s30 c 0.19 322.00 c 0.18
+Z = 52 ELEHENT: E MFEKNCES: 70Ra
203.70 c 0111 215.00 c 0.06
546.80 c 0121 IM6*80 C 0.36 4689~60 C 0.17 5675.90 c 0111 6727*60 c Os44 598110 c 0158 1355.60 c 0.19 4929140 C 0.12 5800~40 c 0.05 602140 c 0.45 1569.30 c Oe20 5004.90 C 0.09 5868130 c 0.38
558,40 c 3.25 1247dO c 0.32 4818.10 c 0.14 5683.90 c 0118 6804.80 c 0.17
CROSS SECTION: 4.70Et00 BMNS
1437930 c 1485180 c 1580.80 c
0129 0042 1 A 0 1.36 c.95 1.59 1.27 0.77 1.18 0.77
2797.30 2809 .00 2927 1 o@ m42.20 2973.50 2987160 3025.20 3092 1 00 3104180 3153 * 90
C C C C C C C C C C
0.12 0.26 013 0.23 0 127 0.14 0.15 0.32 0.19 0.43
3921 120 3Pb4.00 4043120 4079+80 4134 190 4153.40 4228.90 4253 70 4344 e 90
4103AO
C C C C C C C C C C
0.10 0.12 0109 0.22 9111 0.14 0.13 0. 10 0.09 0.13
0.08 0.22 0.11 0112 0.11 0114 0.08 0107 0.22 0.05
4981.90 c 4989.00 c 5045130 c 5100179 c
0.20 0.10 0.26 0.06 011s 0.15 0109 0.19 0.24 0.23
0114 Os33 0106 0105 0155
0161 0121 0117
00:8
6030 I60 6185~40 6210.40 6322180 b376.80 6480.90 6533.60 Mi4110 6734 8 00 7100.50
C C C C C C C C C C
0.17 3.14 0.53 1.60 0.08 0.05 0117 0.11 0 * / 7 0813
244.80 c 0611 251.70 c 0.15 297120 c 0.15 554.30 c 0.52 415.70 c 0.28 418.60 c 0.12 422.50 c 0124 557,OO c 0129
1619.40 c 1692140 c 1721*60 c 1918.20 c
5180110 C
5206*10 c 5227120 c 5250.30 c 5278110 c
5194.90 c 1998130 c 2039.20 c 2181.30 c
2286.40 c 2386.20 c 2443130 c 2490.70 c 2602150 c 2609150 c 2615e10 c 2635.80 c 2704190 c 2746190 c
0.57 0.72 OB31 0128 0138 I:$! O s 4 6 0122 2160
3222.50 c 3237100 c 3346130 c 3488160 c 3543;s c 35 110 c 3722100 c 3776.80 E 3815010 c
56El.90 c
0.26 0.20 0.45 0.08 0.71
0.56 0123 0.13
84
4388660 C 4433100 c 4509s70 c 4531890 c 4611*70 c 4658170 C 4673110 c 4684.20 C 4781.20 C
4491.30 c
5373140 c 5457.60 c 5560.50 c 5618.40 c 5667140 c 5712.M) c 5839110 c 5893.80 c 5971.60 c 5m1m c
0136 0.23 0.17 0.07 0.06
8:75
1325.90 c 0.16 2783.70 c 0.65 3884100 C Os14 4854,lO c 0.08 6025.70 c 0118
CROSS SECTION: 6120Et00 BARNS . .. . . - - . . . . ’1 !k 164115 193.54
%% 2061P4 224112 231027 235.81 248173 251.60
0121 0.66 0.30 0.12 0.11. 0.46 0.12 0112 0175 0.22
299 197 301 87 310170 314136 317143 325.10 331 100 335 1 03 344173 354 070
0.09 1 134 0108 OB31 0.08 0120
413.30 420 e 90 424.87 442.89 450177 458.01
0.49 1.19 0108 4.38 0108 0113
523 62 526.60 528.73 536 1 34 544152 557142 558 1 60 570060 573.56 582 1 23
0105 0125 0122 0112 0.09 0115 Os17 0.10 0107 0.12 Os06 0.39 0.21 0.15 0.08 0.08 On14 0.09
622 t 04 628.37
0.07 Ot20 0122 0.13 0118 0.07
634137 63b.16 638.60 640.35 643149 647.16 648195 6581bo
0113 0105 0159 0124
461 e21 462.36 464155 470130
0.16 0.09 0.14 0.08 0.06
-. -. 0108 0108 0112 0113
126.99 b 133.61 a 142.15 a 144.28 b 147.11 a
0119 8.43 0.84 0009 0.59
255S3 a 0.14 364.46 b 0.09 477 32 b 586185 b 589113 a 590146 b 533,27 598146 D 608182 b 613918 b 618145 b
660116 b 6 9 2 0 9 0 b 695109 b 690137 696.49 b b
705146 b 715.62 b 7OO179 a
0.06 0632 0.31 0.22 0.19 0.41 0.15 Oe13
258.99 a 264.83 a 268,30 a
290180 a
282.44 b 284 101 b
297 64 b
olii OB08 0.34 0.11 0014 0109 0108
369.37 b 374J6 a 585.39 a 392,26 a 398,bl a
389.07 a
409 a79 b
0.08 0.52 0.43 oe12 0.56 0.14 0.05
480690 b 403e94 b 500 s 08 b
504 e 37 b 518.49 b
492.94 a 502.63 a
0.08
0.07
0.05 0.14
0030 OeO7 0.09
153,02 a 156,53 a 160.74 a
1.14 0.59 1.05
Enerrtr unrertaintr a=less than 0.1 LeUi b=betueen 0.1 and 1 k&i c=betwen 1 and 3 keVi d. sreater than 3 keV.
138
M. A. LONE, K. A . LEAVITT, and 1). A. HARRISON Prompt y 's from l'hsrmal-Neutron Capture
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
'.
ENERGY INT. EHERGV IKIe ENERGY INT. ENERGY INT, ENERGY INT, W G Y INTO keU N/100 keV MA00 keV NA00 keV H/l00 keV N/lM keV N/lOC
2= 53 ELERENl 720.18 b 723.09 b 743143 b 744.98 b 747 45 b
': I 0.05
(con t inwd) 1006133 b 0007
0008 0007 0.06 0 0 0 8 0.06 O b 0 8 0.11
0.26 0.18 0031 0.11 0.09 0.19 0005 0.15 Oa15 0.07
4692011 b 4710004 b 4742.31 b 4749.61 b 4757.39 a 4771031 c 4781080 b 4788t80 c 4851.18 a 4804.21 a
0.05 5137114 b 5156050 c 5181.69 b
5209 0 07 b 5286088 C 5297.68 a 5338 0 52 b 5358848 b
5197.49 a 5272.08 a
0 0 0 8 0.041 0.06' 0.U
5725064 a 5734046 b 5740096 5793.78 a 5890.89 b 5909109 b 59180% C 5944.41 b
0045 0.06 0.24 0.15
0.12 0024 0.16
1008.77 b 1015012 b 1028094 b 1035.93 b 1045.09 b 1048.73 1051.96 b
4073.60 c 4102.20 C 4152080 C 4256080 c 1288060 C 4306040 c 4342050 C
0.14 0.08 0.05 0015 0005 0.08 0.06 0013 0 ;07
0824 0.05 0006 0.24
0.21 0014 0010 0.32
0017 0.07 0014 0.05
750045 b 778.04 b 782.89 b 790.20 b
. 0016 0.09
i063.66 c 1071 42 b
0012 0018 0.07
4392090 C 4407070 C
4425.70 E
0018 0.07
5960.15 b 5977005 b
0.05 0.08
0114 0.08 0005 0005 0009 ig 0 0 2 5 0.05 0016
811065 b 822.14 b 826052 b 839.24 b 841.32 b 857051 b 864.82 b 8 8 8 0 0 6 a 890020 b 898 I 62 J
0008 0.08 0007 0.06 0008 0108
oto7 0024
"013
1074013 b 1094.06 b 1133025 b 1141.71 b 1147.37 b 1151.23 b 1196.71 1394057 b 1618170 c
1321.76
0.11 4864.50 b 0.06 5361.40 c 0.08 0.07 00141 0.04 O o o q
ii 0008 0.18 O O O b
5984.96 b 5997.55 b 6015e50 c 6164.24 b 6213090 c g$; g 6390.15 J 6441.63 b 6450046 b 6481.30 c 6645.04 a 6682001 b 6691040 b 6696041 b 6740015 b
0.08 0.10 0016 0009 0011 o t 7 Oob 0008 1018
4504.05 a 4515.99 a
4570 7
4511022 C
4524 101 b 4542086 b 4585:51 t 4593.01 b 4601014 b
0.13 0.07 0.08 0.07
4872.50 b 4878.49 b 4892 e Ob b 4926.80 b 4937004 b 4949, 0 4955.40 5O00,OO a 5014.00 b
0.06 0.15 0.14 0.09 0018 0 5
0025 0.13 0: l!
5370.48 C 5384053 b 5408.38 b 5445058 b 5451098 C
:1&8 i: 5494 I 39 b 5522.60 a
0; ii 8:Pf 0 0 0 5 0 0 18 0.05 0.12 0011 0.07 0008 0 0 0 9
0.08 O G 13
932.00 c 0.16 1984 + 90 0042 0061 0.19 0012 oto7 0007 0011 0011
4612.91 b 4619.27 b 4624.51 b 4635 0 97 b 4640.81 b 4650001 b 4659.81 b 4668001 b
318024 b 5028 0 39 b 5032089 C 5042.85 b 5091 to9 b 5109,69 b 5119.39 b 5095.69 a
0.28 0010 0.06 0.15 0.32 0.25 0009 0 0 0 6
5551 07 b 5559.09 a 5573 0 95 b 5578.07 b 5 5 9 9 0 7 0 c 5646,77 b 5657 0 47 b 5722.66 b
2207.00 2937.60 3397 e 40 3417.90 3510080 3656040 3978.90
1.07 0.38 0022 0004 0 0 0 3 O O O C , 0.09
Z = 54 ELEiENT: XE ICROSS SECTIMI: 2045EtO1 SANS REFERENCES: 71Xa
383.20 c 0.64 401.70 E 1.04
1124010 b 1 0 6 0 1656.30 C 1139.50 b 3.04 1691.90 c 1156e70 c 2048 1698020 c 1173*00 c 2024 1715.00 C 1204860 b 3, 0 1725, 1261.30 c 1.b 17700% bc
0048 0080 0064 1012 2. 0 1 .!6 3.92
0114 On31 0.68 i; 0097 0017 0.30 0013
6709060 d 6749090 d 6784180 c
%:ii ! 71800% d 72040% C pi9090 C 7369820 c
0011 0015 0026 0.12
0 0 8 8 2t08 1.52
. . - . . - - - . - . 430.56 E 0.88
!W
8:36 0010 0018 0012 0011
571.10 E 1.04 1291.30 b 6.88 1804.20 b 1.60 0040 1028 0027
606.20 6 11.36 1297.b b 11092 1853040 C 631050 b 14064 1319090 b 12008 1861020 C 668.90 b 80000 1366830 d 0 0 7 2 1890.10 b 751080 c 1084 1379040 b lo60 1899.80 E 0.80 0 0 2 8
0036 0 0 2 2 0.29 0011 0052 0.26 0 0 2 0 0 0 2 2 0828
6063060 E 0017 C 760e90 773.90 812,70 832.10 848.30 869.90 895.30
1012 22.24 1.04 0.48
14020% 1417,70 1465.20 1473000 1484.80 1502,40 1522.70
0.88 1004 1092 0864 2080 1.92 3i28 1.12
1928.40 c 0064 1945190 C 1128 1957880 c lo68 197501O C 1.04 2030.60 b 1.44 2074040 C 0040 2094.80 b 1.52
19a7.40 c 2*56
6109o10 c 6167+20 d 6184010 d 6225090 d 6247010 d 6271.40 c 6318040 d 6380010 c
0 0 5 6 0028 0019 0016 0042 0.34 0 8 2 2
d d
0008 OtO6 0815 0.12 0 0 5 7 0.15 0014
0.64 3,28 1036
958.90 i.J6 ls60.80 1.19 0019 5060 0.13 8:8
0016 0002 0.27
- - . . _ _ 992eOO c 0.88 1598.20 c 1.28 1011,90 C 0048 1608.20 C 0088 1O31oSO b 4096 1617.40 b 2040
. 1072,OO c 0.64 1624,OO c 2.00 1098.90 b 1.84 1637840 c 1084
5236080 C 5268040 d 5340090 d 5389090 C 5403.80 d
6423090 d 6467050 c 6526030 d 659 0 d 662k!O E
8759040 9301 b40
it01 BARNS
145.86 a 149.52 a 173.79 a 174.31 a 176040 a 177002 a 179.02 a
142.n J
146042 a
150079 J
0037 0 0 0 9 0.05 0.15 0 0 0 9 0007 1071 10.32 0.11 0011
0.29 0010 0011 0.16 0016 3.77 0.44 5065 0027 0027
218835 219076 232018 234 * 34 240068 244055 245086 251040 253067 254 t76
1.14 1031 0045 3073 0011 0.08 2.31 0114 0 0 0 6 0.17
261818 263.85 269000 271035 272022 274096 277 0 65 27Ye 66 285000 290066
1023 0026 .O 0 65 0042 0021 0.05 0022 0021 0015 0 4 6
a a
a a a
a
a
a
a
a
a
a a
a a a
a a
J a
61.12 a 0.18 116.61 a 1.22 61.17 a 0.15 117.17 a 0.23 67.25 a 1.20 118.36 J 1.13 73.57 a 0.22 120.59 a 2026 74.05 a 2.24 127050 a 1.13 87n25 3 1.07 127.71 a 0.08 93.19 0.53 130.23 a 7043 97.56 a 0.13 131018 a 0005 113.76 a 4.59 132.76 J 0.09
114.33 a 0.26 133.59 a 0.14 180.08 a 0.34 211.32 a 0.74 256.64 a 0.71 293.29 a 0.46 115.34 a 0.05 137,76 a 0.11 186.84 a 1.09 211.92 a 0.07 260t58 b 0.07 295,44 a 0.55
Enersr uncertainty a=less than 0,l keVi b=betueen 0.1 and 1 keVi c=betueen 1 and 3 keVi d= gri?ater Um 3 keV,
139
hl. A. LONE. K. A. L E A V h . and D. A. HARRISON Prompt y's from Thermal-Neutron Capture
TABLE I I . y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
EHERGY INT, EHERGY INT, ENERGY INTI ENERGY IHT. ENERGY INT, WRGY INT. keU WlOO keV W/lOO keV W100 keV HI100 keV N / M O keV N/100
Z= 55 ELMUIT: CS (continued) 296.20 302.47 303.17 305,Ob 307.26 309.79 315.42 316.40
b a
a a a a a a a
a
0.07 0 8 2 9 0.37 0019 4015 0.64 0.15 0808
371.80 376.36 377833 381849 383894 384 I38 386 0 90 391.46
a a a a a
a
b
a
a
a
Os32 0809 0067 0.13 0808 0810 0.41 0.18 0.15 0.09
434.47 439.03 442885 444848 450031 451 844 454.09 458.89
b a a
0817
0.30 1.91 0 8 3 3
0.22 0024
8:# 0.20 08m
547840 b 558, b 622.17 b 624042 b 633012 b 638820 b 645084 b 648857 b 663828 b
5M8g a 0.19 0.47 0.27 0876 0 0 5 1 0.45 0837 0 8 5 5 0.57 0036
4589 I 8 0 4620890 4656860 4667.06
C C C C C C C C C C
C C
0.14 0012 os12 0810 0.12 0827 Os23 0.09
5570830
5729 .oo 5748.10 5730.10
5bJ;g
5802~00 swa.10
C C C C C C C C C C
C C C C C C C C C C
C
0883
0.18 0820 0823 0015 0.22
!::a a
a a a
a
b a
a a
C
b" a
. . - - . . . 4720800 4753.10 4770.20
517.08 322.70
0839 0.07 0.20
39Loi 402.41 403010 405.48 406078 408807
414~50 417033 421 802 421 063 426.40 429.80 432.45
4 1 2 ~ 0
~-...
461814 464846
4896000 49220% 4931 8 5 0
0.10 0829
5949.00 5976 I 00
o.i6 0813
329.04 a b 0.16 a 0.19 a 0,21 a 0 2 9
a 0.20
b 0 0 0 9 b 0807 b 0008 b 0807 b 0.08
a 0.20 b 0.10
485 6 05 487.44 489822 495.68 502889 519.29 524005 5 2 5 8 6 0 528 e 62 529.64
539.39 540.72
0 8 2 2 0 8 2 8 0126 0817 0.65 0 8 7 2 0041 0062 0833 0188
1 801 0830
6 8 2 0 5 0 b 708,bO b
1618090 c 1808.80 c 2214060 C 3597.60 e 3933890 c 4068840 c 487040 c 4522.30 c
4540.30 c 4563.00 c
0,44 0.48 1 8 5 0
0868 0.83 0026 0.10 0.16 0.21 0.11
0819 O b 1 1 0.22 0.77
6018s00 6051 e 3 0 6110e60 617S*00 6188830 6519090 6380.30 6419030 6439050 6696 e 80
Oa13 0.62 0.13 0873 0843 0.09 0814 0.11
0.39
0.18
0 ~ 2 6
336.07 338.02 a 344.79 a 345.38 a
336.47 b
347017 a 347.82 b. 349880 b 356.30 a
~
0.10 0007 0010 0.06 0818 0819 0805 0010 0894
4946.40 4967020 5020810
C C
0837
0833 0818 0052 0015 0049 0881
1 802 a b b
5269; 10 s ~ i 3 . m 5376080 5 4 3 5 4
365.93 a 367.88 a
0.31 0.44
0.23 0.m
5493010 5504 t 50
a a
6715.60
Z = 56 ELMNT: M CROSS SECTION: 1020Et00 BARNS REFERENCES: 7OGr 70Ra
0 0% 0.30
i9730 219.60 231 e40 253.50 284 * 00
340.60 352 e 00 357 30
3GO.20
453.80
_-. 2.30- 0.38 0.32 2.95 1.25 0.79 0871 0.29 0848 2.36
8.00 2.48 1.60 1667 1898 1.31
8091 5.33 0.99
2820
3434093 C 3490~00 d 3503140 c 3525.00 c 3641103 b
3715b80 c 3738.70 c
wa.80 c
4368877 b 4405800 d 4424000 d 4446.10 c 4497000 d 4535123 c 4590.08 b 4688.95 b
4760000 d 4n2.32 c
4 7 7 2 , ~ c
0843 0.10
~ 3 1 2 ~ 3 0 5583805 315884
5527 00 5558b73 5602000 5676.00 5713.60 57298 90
5447t39
C C C C C C C C C C
0062 0813 0.39 Os39 0.16 0822 0.19 0814 0 8 2 2 3859
6581 8 0 0
6614886 6623.13 6660000 6713,OO 6i38880 6885.00 6913.55 6969800 7028 e 00
0.10
0.19 8.06 0 ~ 1 2
1618860 1633.30 1835800 1891 e30 1898.36
0.65 0.14 4 e06 3'32 0078 0.16 0834 0.22
!:I! 0019 3.35 0.21 0.81 1 851 0.37
0.04 2024.00 2220.00 2241.10 2254 8 10 2537833
s C
....
0814 0.09 0.10
E C
3761830 C 3 8 0 0 0 3 0 c
0.04 0009 0.14 4b3800 c
490.90 c 558.20 c 596.10 c 627950 c 684.30 c 810.60 c
1040,OO d 1047.30 c 1435.32 b
1.19 0.38 0.30 1073
0.42 8878
12.28
2564.63 b 2593888 b 2639831 b 2663810 c
2828.30 c 2975.69 b 3045,OO d 3110.00 d 3179.30 c
m5.m c
0840 1 e40 1,31 0.53 0.49 Oe40 1600 0.24 0,23 Ot26
3922.60 c 0.m 0.37 0 to9 0.13 0.18 0.60 0.42 0.37 0.15 0810 0.13
5971833 c 6019,00 d 6027010 c 6058862 b 6061e40 c 6100eOO d 6111,bO c 6126000 d 6268000 d 6331800 d
0823 0057 0.74 0815 0.13 0807
0007 0.07 0.16
0 ~ 1 2
. __ . . - . . - - 3963.70 c 0.28 4057880 c 0036 4095157 b 11.28 4113sOO E 0.32
4880840 c 4897.30 c 4924.00 c 4966848 c 5095.00 d 5107.30 c 5177.22 b 5 2 2 0 8 0 0 d 5240e00 d
7414810 c X X ? e O O d 75Sbe00 d 7722810 c 8 2 9 0 8 8 0 c 8300.00 d
4167.52 C o . i i 4199195 b 11820 4242.62 b Os00 4250.40 c 0.32 4207~47 c 0.28
0 ~ 2 0 0.03 0034 0131
4 .m 0.89
14.05 8619800 d 9108890 c 9120e00 d
1444.80 C 2894 3338.14 b Os44 4323858 C 0163 5270888 b 0858 6395000 d 0007 1548.00 d 1.90 3360.00 d 0 2 0 4331.80 c 0 8 6 5 5304800 d 0845 6419.45 c 0829
Z = REFI
57 Elm: M CROSS SECTION: 981 TENUS: 70Ju 70Ra
20.54 a 0817 167J6 b 0,07 29.97 a 2.30 169.39 a 0,45
4E too BARNS 290091 a 304.85 a 310.13 a
. .. 0832 0.22 0 8 2 5 0.09 0.94 0816 0869 0828 0843 0819
553800 b 567830 a 574830 b 583870 c 594.90 b bole50 b 616870 c 623837 b 6 2 0 8 2 0 b 640,bO b
0.67 4033 0835 0808 1020 0053 0015
744.20 b 749840 c 766800 b 702890 b 786!70 c 797 857 b 803~20 c
0014 0.56 0808 0.38 0811 0.48 0 8 6 0
978.08 a 0851 0.11 0871 0.31 1833 0.10 0 0 2 0
0.29 0824 0087
986.90 b 991091 b
1006e40 b 1025820 b 1032.60 b 1037.60 b 1041e50 b lOS1840 c
10208W a
34.66 a 0.29 180.84 a 0.09 45.90 b 54.94 a 56.24 a 63.17 a
0818 2830 0817 4800 0824 0808 0.21
185885 b 189.90 c 203.09 b 215800 b 209,14 a
218.20 a 235.77 a
324.10 b 328.20 c 335.80 c 341.62 a 389,18 a 396,94 a 407~20 c
69,zO a 118.81 a 132.68 a
0.85 815.20 C 0.42 821870 b 0063 837180 c
0.40 0828 0 8 0 8
137.50 a 142.30 E 155.56 a 158.73 a 159.34 a 162.66 a 163.75 a 165.85 a 167.28 b
0814 8.25 2.40
237.66 a 25S805 a 258.83 a 272.30 a 270.36 b 279.93 a
3.80 0.24 0.31 6,97 0,15 0,75
' 4 2 2 8 6 3 a 426.30 a 443.25 b 477.92 a 485.90 c 495.80 a 528.60 b 543.20 b 548.92 a
5863 0845 0823 0.33 0.82 0.62 0820 0840 1.20
658.28 b 681~80 b 689870 c 697.76 b 710.40 b
737005 b
667.61 a
708.31 a
722.79 a
1.17 0.60 0.10
848890 b 8638 60 b 868.06 b
0.23 0019 1.10
1054840 b 1083r70 b 1088.00 b 1098.00 b 1101e80 b 1104890 b
0 ~ 2 1 0017 0.12 0038 0146 0.34
0.05 0.17 6800 0.09 0.15 0.07
0.05 0.32 2.03 0.65 2.84 0.37
882.27 b 888.80 b 892830 b 935880 c 939.40 b m a 0 b
0.48 0.25 0846 0817 0846 0.20
0.53 0.19 8.80
1117050 b 1125.50 b 1133.70 c
0.58 0.42 0.33
Enersr uncertaintr a=less than 0.1 keVi b = b e t m 0.1 and 1 keVi c=betYeen 1 and 3 k d r i 6- greater than 3 keV,
1 40
M. A . LONE. K. A. LEAVITT. and D. A . H A R R I S O N Prompt y ' z f r k i m 'I'l~crnial-Ncuirotl C;lpiurc
TAIBLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
ENERGY INTI ENERGY INT. ENfRGY INT. ENERGY I N T t ENERGY INle EKR6Y INT. keV N/100 keV WlOO keV W100 keV N/!OO keV WlOO keV W100
f= 57 ELEHENl 1142.70 c 1149.80 C 1153160 C 1157,SO b 1163.10 b 1176.90 C 1181.60 b 1188.90 c 1198.60 b 1225.20 b
.: LA (cont inoed) 1432.80 b 1447eB b 1452, b 1470a73 b 1476.90 b 1489.20 b 1495.70 b 1500+00 b 1552.00 C 1596~20 c 1630+70 c
Oe36 i::! Oe26 Oe23 0.45 O e 8 5 0.34 0.81 15.36
2195.10 c
2304190 c 2317e00 c 2346.70 c 2399e30 c 2423e80 c 2439e10 c 2457,OO c
%:8 c' 0.15 oo:# 0.15 0.15 0.21 0143 0.23 0154 0.13
2885e50 c
H:!8 c' 2961m40 c 2969e90 C 2988.40 c 3016*50 c 3036.40 c 3054110 c 3082ebO c
0.09
0.11 OeO8 Oe33 0.55 0.93 OB20 1.31
oo:13 3508e60 c
' i%:8 bb 3597.40 c 3607.80 b 3610e90 c 3630e30 c 3665.80 b 3680.05 a 3691e90 c
0.06
8:F O e 3 0 1 e23 OeEK) 0.06 1eM le79 0.110
4259e30 c I%:& b' 4416.55 a 4449e65 b 4468e10 c 4502.80 4559e15 a 4618150 C 4635.30 c
0.05
3.19 0e13 0.03 2.06 0.66 0106 0105
!:I$ . Oe10 0115 0.14 0.23 0.19 0.25 0.18 Oe21 0119 0.72
1233.10 b 133.74 b 1259e90 c 1276.60 c 1284*00 b 1291.90 b
0.50 0,70 0.73
2482.80 c 2519e90 c 2547.30 c 25b3e40 c 2583.90 c 2608+70 c 2620e50 c 2639.60 c 2668.50 c 2686140 c
3113.10 C 3142a90 c 3162.20 c 3176820 c 3189.40 c 3218.30 c 3265830 c 3281e70 c 3319.10 c 3342180 c
Ot60 0.43 0.23 0.07 0.69 0.32 Os49 0.40 0.29 0.08
3719eOO c 3727195 b 3739e10 c 3745e10 c 3820.75 b 2347.00 c 3864.50 c 3875e10 c 390120 b 3951175
0.70 0.M 0.88 0.04 0.26 OeM 0.06 Oe?O O+E4 Oe23
4648.90 C 4677.80 C 4709,s c 4747e20 c 4762e10 c 4797e00 c 4815e90 c 4888.70 b 4903.70 c 4842.75 a
0104 0103 0.45
0.63 2.14 Oe44 0.49
1676e50 c 1735.10 c 1778.40 c 1806.80 E 1822e40 C
0;93 Oe68 0.28 0163
1848.10 c 0.42 1867e50 c Oe77 1891.10 c 0.29
0.25
0.03 0.06 0e04 0.03 0e04 8.47 1.81 0104
12?6*90 b 1308.30 E 1330.46 b 1341.20 b
Oe41 1 e23 0198 Oe24 1914eOO C
1363670 b 0.17 1974.60 c 1.09 2700000 C 0.10 3358.30 C 0.17 3974.00 b 0.17 4997e60 b Oil3 1385e10 b 0.23 2045.00 c Oe42 2713.90 c 0.11 3372.50 C 0.08 4044.75 a Oe31 5046e80 c 0.04 1392e60 b 0115 2057e40 c 0.18 2736ebO c O e 3 6 3384.40 C 0.15 4060e95 b O e 3 2 5097.70 b 8e20 1406s40 b Oe29 2086.70 c Oe34 2765e30 c 1.14 3425.00 f 0 8 6 3 4106e20 b O e 3 3 5126145 a 1.48 1414.20 b Oe25 2126e00 c Oe20 2805e10 E 0.38 3440e50 C Oe38 4125.30 b OezZ 5160e90 b 1.08 1418,bO b Oe63 2149.40 c 0.14 2838.30 C 0.16 3460,30 C 0.15 4216ebO c 0.04 1426.30 b 0.19 2174.10 c 0113 2863e20 C Oe62 3477090 C 0.55 4239.20 c 0.10
2 = 58 ELEKENT: CE CROSS SECTION: bt30E-01 BMMS REFERENCES: SHa
225,OO c 0.99 235.90 c 2.89 242.60 c 2.37 255.50 c 4.93 265.30 c 1.50 271.50 c 0.79 278800 c 4.90 313.40 c le17 317040 c 1.22 334.80 c 95.98 404eOO c le63
Z = 59 ELMEWT: PR REFERENCES: 70Ra
178e40 c 11.72 230.20 c 0.11
439170 c S 4 e 3 8 712.90 C 447e50 c 1887 738.20 c 453.20 c 1.16 765.50 c 460120 c 1.23 780*90 C 465e10 c Oe97 871e90 C
4.57 12e83 le83 4e74 2e71 1OeM 2164 18e43 10.26 5eO8
1049150 C 3165 be16 4104 1.04 1 e42 3e44 19e67 4e09 5.99 le79 3e84
1957e40 c 2563e70 c 2802e40 c 3017e60 c 3090e80 c
3.2s le19 1.02 1.77 le12 Oe76 le42 0.94 9.11 4121
4486e40 c Oe47 4765170 c 16.0 4875e50 C 0.41 4924.80 C Oe97 518Oe10 c O e 5 0
1107.70 c 1118e90 c 1122.40 c 1141t00 c
... 475140 C 14e40 898.00 C 482e40 c 2.27 902.80 C 584e60 c 9037 943e30 C 595e20 c 1.17 961.80 c 662e40 c 26.40 977.30 C
676.60 c 2.22 997eOO C
CROSS SECTION: 1.15Et01 BARHS
1169.80 C 1186e40 c
3238e80 c 3619e60 c 3W0,20 c 4290e50 c 4336.10 c
5403.50 c 0.71 1262.60 c 1326e20 C 1371.40 c
1 *34 1712e60 c 4481eOO c 0.43
686*20 c 699180 c 747e30 c 790.90 c 803e00 C 848e60 c 865.60 c 920e00 c 942e10 c
716.90 c
Oe54 2e08 0.24 le15 0.37 Oe85 O e 1 oe31 Oe21 Oe24
1702e80 c 1796e60 c 1889*80 c 1943e30 c 2244ebO c 2257e60 c 2285e00 c 2288.50 c 2350e80 c 2355eM c
0.38 0.97 0.58 o e 2 a 0124 0113 Oe21 0.19
2 9 0 5 e 5 0 c 2946e30 c 2963.40 c 2977.00 c m e 6 0 c 3029e70 C 3053eOO c 3064.90 C 3134.80 c 3149.60 c
Oe13 0.54 0.07 Oe14 Oe53 Oe10 Oe11 0.11 0.17 O e 2 0
3534e10 c 3550e50 c 3601.60 c 3 6 3 0 e 3 0 c 3652.00 c
3773.50 c 3791.00 c 3811e70 c
3712~90 c 37420m c
0.47 0.27 0.58 0,26 le64 Oe67 0024 0.13 le55 0.11
4277e30 C 0.44 4306.90 c 0.04 4326.60 c 0.04 43484 c Oe23 4373.20 c 0.40 4440e40 C Oe09 4465e70 C OeO6 4496e80 c 1.01 4577130 c O e 0 6 .
4592140 C 0.17
244.50 C 0110 281.60 c Oe07 294.80 c Oe14 527.50 c 0116 336.00 c Oe27 338.60 c Oe19 350.50 c 0.13 361.30 c 0.28
.
Ot24 0.20
377.80 c 0110 956e40 c Oe93 2407.50 c 0.87 3167.40 c O e 2 0 382bebO c Oell 462Se10 c 0.06 384e40 c 0.17 991040 c Oe97 2436.10 c O S 4 3192.30 c OeJo 38S9.90 c 0119 4661e40 c 0.09 403e90 c O e 2 0 1006.60 P le41 2449e40 c Oe24 3221e40 C 0017 3 8 9 2 e 5 0 c O e 3 3 4692120 C 3027 %:!8 : 8:fi l8iM c' 8;H M?!! c' 8:fS %!J:!8 c' 8$# M:# c' 8;fj tiil:UI E' ki'! 439.90 c 0119 1149e50 c 0.30 25JOe80 c 0914 3268.50 c Oil4 3946e90 c 0124 4832090 c 0.06 461130 c 0.80 1177,90 c 0.57 2562e30 c O e 7 3 3285120 c 0109 3985e60 c 0106 4865930 C 0.20 528.60 c 0.46 1218e10 c Oe38 2582eOO c Oil1 3313.90 c 017 400SeW C 0.20 4320e10 C 0.04 546.50 c le20 1231e20 c Oe58 2597.70 c O e 5 7 3352110 c 0.d 4013e40 c 0.36 5005*00 C 0.06 559.70 c 1.65 1248.50 c 0.31 2619r40 c Oe21 3366.10 c 0.38 4036e90 c OeOb 5021000 c 0.21 573.10 c le45 1273850 c 0.47 2661e30 c 0114 3386,lO c 0.14 4072~90 c 0.07 5052eaO c 0.30 612.00 c Oe28 1318.30 c 0.70 268!?,50 c 0.20 3402160 c Oe26 4091e70 c Oe17 509S190 c 2e16 619.60 c 0.63 1328eM c Oe30 2713.70 c Oe16 3427110 C 0114 4134e80 C 0.38 514Oe20 C 3.94 632eOO c le30 1463e30 c 0.43 2727810 C 0.24 3451eOO c Oe11 4163e60 c Oe13 5205.30 c Oe41 645.80 c 2122 1577.70 E 2743.50 c 0.10 34 e70 c 0, 1 661.70 c 0.17 1683.80 c b b:# 2839.80 c 0.90 358.70 c 0$7 #!:I! 'c 8:!4 M:% 8:8f
Enerr(r uncertaintr a=less than 0.1 keVi b=betueen 0.1 wrd 1 keVi c=betueen 1 and 3 keVi d= $water than 3 keV,
141
M. A. LONE. R. A. LEAVITT. and I). A. HARRISON Prompt y's from Thermal-Neutron Capture
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
ENEF%Y IN7 8
keV N/lW
Z= 59 ELUENT: PR 5665+70 c 3.97
ENERGY INTt ENERGY INTi ENERGY INT. EKRGY INTO ENERGY IHI. keV H/100 keV H/100 keU N/iOO keU Wl00 keV n m
( cont inwed) 5770.20 c Os40 5825*20 C 0.30 5842890 c 1 8 3 8
CROSS SECTION: 5*05Et01 BARNS
981 120 1015*90 1034,50 1049800 1109t90 1138.00 1221 8 0 0
1341.30 1356.40 1377810
C C C C C C C C C C
C C C C C C C C C C
2834 0830 0 8 3 0 0.42 0.30 l l l 5 0.25 0.60 0838 1403
2404 8 9 0
2428.50 2504840 2527.20 2558.50 2654800 2685830 2695090 2711.40 2904 8 00
C C C C C C C C C C
C C C E C C C C C C
0.52 0 8 8 9 0.37 0.45 0.27 0.25 0.31 0.30 0.27 0823
3410880 34 17 8 30 3438.60 3456.30 3462830 3546880 3733 e 20
3788 8 90 3803 8 90
3774 m
C C C C C C C C C C
0834 0813 0.31 0.23 0.22 0.16 0.16 0.15 0.12 0.35
4257.10 4270.40 4323.40 4351 8 20 4356.30 4407.10 4421 $00 443b.M) 4501820
4534 8 8 0
4563850
4615800 4669180 4690130 4747810 4774 e 40 4790860 4817840
4515.20
4 5 9 4 m
C C C C C C C C C C
C E C C C C C C C C
0 8 4 0 0.26 0.21 0.33 0847 0.83 0651 0.53 0840 0.14 0.45 0855 0819 0.38 0.75 0 8 8 2 0143 0847 1814 0824
4949830 4980870 5100830 5211130 5222.70 5380880 5448840 5522.00 5638.M) 5706880
C C C C E C C E C C
C C C C C C C C C C
1007 0018 0 8 0 6 0817 0.18 QlPP 1 ,81 1534 0.42 0.49
0.11 0.13 0.16 0.12 0.36 3849 8.15 0.05 0.07 0.38
564.50 c 1842 576850 c 0 8 2 0 590.30 c 1.78 618890 c 29.01 671810 c 0.27 697.30 c 73.29 742870 c 7848
773.30 c 1887 795.60 c Os27
814.70 c 10815 864890 c 12.20
755.20 c 0.53
1414.10 1453.30 1481.90 1672.30 1910+00
2130,bO 2185.80 2185 8 40 2323.10
2072.10
3892 0.29 1.58 1832 0927 0.32 0 8 2 5 0851 0851 0.39
2936.10 2989810 3100*90 3125.40 3177870 3195010
3269.00 3312810 3333 8 50
3200~10
0841 0818 0.31 0 8 2 2 0 8 2 9 0821 0820 0.21 0.30 0.34
3833.70 c 3043840 c 3852.20 c 3892.10.~ 3942.20 c 4002850 c 4008*80 c 4077.50 c 4113.10 c 4122e30 c
0.21 0.24 0.18 0.46 0.21 0 8 3 7 0833 0.28 0.31 0.32
5723SO 5744.20 5787850 5822.30 6093*80 6255.30 6501 070 6581 8 3 0 6758*80 7111*00
2347870 c O s 2 0 3343840 C 0621 2372840 c 0876 33M800 C 0816
CROSS SECTION: 588OEt03 BARHS 320,RI) c 1.20 570810 c 0827 333.40 c 9a.Po w s o c 10.08
4130820 c 0.29 4214840 C 0820 483b.00c 0.56 5 4915.80 c 0.28
868.30 c 1897 898.83 c 0.29 909 0 c 941:h c k$!!
1016e10 C Os36 1048*00 c 2.57
1447830 c &;; f 4216880 c . 4676880 c 4810.80 c 4869.80 c 4913800 c 5078.00 c
Ob23 G 0 8 3 8 Ob10 0167 0810 0111 0112
5533.40 c ;;;; 5 5963.50 c 6019810 c 4034.40 c M19.40 c 6538030 c 6760*bO c
0.63
itli 0413 0154 0.10 0109 0.25 0.13
$61*40 c 7,850 c
381870 c 403.40 c 425.80 c 439840 c 459840 c 485SO c
0 1 0: 45 0.17 2.35 0.15
55.51 0.17 0.98
603 1 c 629:18 c 637.80 c 676.10 c 712.40 c 737.60 c 748.10 c 762.90 c
!;it 0.16 2876 4.55
11.04 2.09
' 0.37
1120,90 C 0.65 1170850 E 4.69 1194620 c 1.81 1247120 C Oe43
285980 c 0823 296860 c 0.63 305.40 c 0.13 313050 c 0.15
Z = 63 ELEENT: N REFERENCES: 70Ra
181830 c 0 8 2 8 191890 c 0 8 5 4 198a50 c 0.52 2 0 6 8 M ) c 2.44 221860 c 28 4 . .. 233SO c 0.b
2 64 ELEHEHT: 6D
505.90 c 17.92 772820 C 0.22 525.40 c 0845 831820 c 1.63 536.40 c 0.39 838080 C 0169 541.70 c 0,34 859800 C 1.46
CROSS SECTION: 4tbOEtO3 BARNS
1262110 C 0.41 1293.70 C 7.40 1323b60 c 0.89 1348890 c 1.67
5093850 c 0,12 7214920 c 0.91
5431880 c 0112 5521980 c 0112
sairm c 0.17
244.10 c 1.15 355820 c 0026 644840 c 0.29 262010 c 0.25 389850 C 0021 779880 C 0 ~ 2 7 286120 c 0135 424800 c 0828 1564040 C 0.40 296.10 c 0867 440.50 c 0923 3067870 c 0.18 30 810 c 0.48 4 840 C 0, 1 38570 0 c 0. 2 328.30 c 0.49 6%0 c 0,s 3873,!0 c O h
4286000 c 0.06 6418.70 c 0.05 5503.40 c O l l l 5597870 c 0.05 6069.70 c 0815 6229.80 c 0.10 6311.30 E Ot08
-..
CROSS SECTION: 4o90Et04 BARNS C C C C C C C C C C
70Ra 9.50 0.29 0 8 2 0 1 8 2 2
2.34 0.88 0.18 0.21 0842 0.33
868880 876.M) 897830 916860 944800 961880
988850 999.10
1004 90
977.20
c 1802 c 0.80 c 6851 c 1845 c 10.56 c 7842 C 4.13 C' 0031 c 1.61 c 1.74
1154.20 1186 050 1220830 1263.M) 1324840 1438850 1777.20 2135.M) 2291 8 10 2344.60
C C C C C C C C C C
1876 10883 0.49 lo99 2871 0844 0.68 0848 0847 0.31
2799810 c 08% 2901830 C 0815 3001890 c 0.25 3451010 c 0818
3849.40 c 0810 3871880 c 0.15 3972.70 c 0.07 3988.90 c 0.20 4058840.~ 0.15
3549D90 c 0814
4482 8 0 0 4490.70 4500820 4526140 4600.M) 47378M) 4875890 4924 8 30 4939.40 5025 I80
C C C C C C C C C C
0.09 0.09 0.13 08 15 0808 0811 0*24 0132 ' 0809 0,05
5505.20 5402,bO 5431 870 5543830 5582.30 5531.60 5609.10 5661*00 5676o10 5784 e 40
C C C C C C C C C C
0.06 0126 0t22 0820 0131 0.18 0.14 0.31 0.33 0e23
607.40 c 0172 625,bO c 0.27 780.70 c 3836 816860 C 0961 82.60 c 0.70 851.40 C 0.49
1040*10 c 0.38 2515130 C 0.26 4089,lO c 0.22 5057,lO c 0422 5902.80 c O,?S 1065,20 c 0.99 2534810 C 0.17 4220.40 c 0026 5110*10 c Ot06 5994.60 c 0.04 1096840 c 1.84 2577~30 c 0.25 4276,OO c 0.08 5155.70 c 0,14 6142.70 c 0#09 1107p30 c 4047 2597810 C 0.29 4292s70 C 0 6 0 9 5178.60 c Oe33 6319*60 c 0.03 1118840 c 3.25 2700090 c 0.50 4346.50 c 0.20 5237.70 c Oe14 6347.30 c 0,06 1142.40 1.51 2750.70 E 0.27 4 m , 4 0 c 0.08 3248,m c O J O 6418,ao 0.35
Ener3r uncertainty ,=less than 0 , l keUi b=betueen 0 , l and 1 keVi c=betueen 1 and 3 keUi d= 3reater than 3 keV,
Atomic Data and Nuclear Data Tables. VoI 26. NO. 6. November
142 I
M. A. LONE, F:. A. LEAVITT, and D. A. HARRISON Prompt 7’s from Thermal-Scutron C;ipltire
l’ABL.E 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
ENERGY IHTo ENERGY I N T O ENERGY keV W100 keV H/1100 keV
Z= 64 ELEtlENT: 6D (continued) 6428.90 C 0010 6748070 c 24125 7139.90 c 6671.30 c 0.12 6P11000 c Os13 7286070 c
INTI Nil00
0.02- 0 0 0 9
0.12 0.40 0.96 0022 0.53 0.60 0.48 0.14 0.07 0.16 0.30 0126 0026 Oel2 1 .00 0.29 0.15 0.10 0.50 0.09 0.52 0018 0.19 0.13 0.13 0.10 0.18 0.07 0.18 0.17 0.32 0031 oe22 0.69 0.08 0.07 i;g O e 19 0.40 0.12 0042 OD23 0.09 0013 0021 0 0 3 8 0.22 0.14 0.10
0.17 0007
0.20 0.53 0.29 0.20
I!:#
00:g
ORRGY INTI keV MI100
ENERGY IN1 I
keV HI100 EHERGY INTO keV hi100
Z = 65 ELMEHT: TB CRllSS SECTiON: 2055EtOl BARNS REFMfNCES: 70Ra 74Ke
22095 a 0. ;!64*85 b 0912 32.66 b 0.g ,!700fi a 0048 44579:% ba
W e 3 3 a 468.62 b 476.72 b 481018 a 484.06 a 487.80 b 490 ~ 9 4 b 497.42 b 499010 b 515e20 b 519088 b 521 17 b 525.63 527.45 b 529.00 b 531.48 b 532e95 a 538.30 b 541.53 P 545007 a 548e64 b 552.38 b 559.55 a 563.21 b 572.75 b 580.58 b 585.60 b 590164 b 591.45 b 593.35 b 598.38 b
611064 b 625097 b 628.60
600.22 a
bb 649.43 b 655.80 a 662.34 b 664055 b 666059 a 674070 b 679.48 b 683.55 b 684.85 b 688.54 b 692082 b 699.38 b 7040% b 708005 a 711095 b ;‘st; ; 753008 b 767.03 a 772.00 a 780.63 b
92.02 b 0, $96.12 a Os# \%.NE 8%
1778.00 c 0.24 1810.00 C Oe24 1906050 c 0.20 2O51030 C 0.15
33.lj b 0.90 817.69 0.a 826.27 b 0.13 832023 1 0.36
836.86 b 0.25 841.62 b 0012 843.94 b 0.12 848.60 b 0.13
834.87 a 0.45
:!75+70 a 0.59 278.10 b 0.26 ;!78,90 b 0.40 283,30 b Oe19 ;!34,25 b Ob42 288.14 J 0.66 ;!90,55 b 0.42 295*77 b 0026
io.30 b 0.52 41.88 b 4.80 51.20 b 3000 53.95 b 2.14 59070 a 3050 63.80 J 8.70 64060 b 1.40 75.07 a 10.80
2120.20 C o.is 2170050 c 0.12 2387000 E 0010
851.04 a 0.70 2405.50 c 0.13 2455.00 C 0.16 2514.20 c 0.11 2535080 C 0.09 2731e50 c 0.10 2744.w) C 0014 2843040 c 0.08 2878.10 c 0.06 2895e90 c 0.07 2911060 c 0.08
5323~06 b 0.04 78.20 b 0 0
79.10 b 1.00 83.80 b 0.23 79~10 b 1.8 858088 b 0.13
864099 b 0.17 871.15 b 0.14 874170 b 0.26
335051 C 0.0
5368e20 b 0.05 5373.10 b 0.08
8353.40 c O.O!
87.61 3 0083 89.30 b 0.52 93.26 a le24
319.86 a 0164 323.40 b O a l l J28.60 b 0+10
888.08 i oDii 899.90 b 0.13
539809O b 0.03 5415.00 b 0.05 5422120 b 0,05 5461815 b Oe10 5494080 C 0.03 5512010 b 0007 5516e40 b 0.07 5524004 b 0.13 5551.W b 0.10 5551D2G b 0.03 5583090 C 0.01 5606045 b 0014 5611,bO b 0.09 5645~09 b 0.01 5662.19 c 0.03
904~62 i 0,iP 912053 b 0.13 915117 b 0.32 917.42 b 0017 920.60 b 0027 926.95 b OD13 930.55 b 0.07
3OlltOO c 0013 3037.20 c 0.09 3076010 c 9005 3169ePO c 0.06 3195.30 E Os07 3248.10 c 0.07 3369070 E 0.05 3374000 C 0.07 3651.30 c 0007. 3665010 c 0.04 3759070 C 0108 3788.80 E 0.04 3856030 c 0 0 0 6 3912100 C Os06 4014t20 c 0.06 4104.20 c 0 0 0 5 4145e30 c 0.05
441P3:58 c‘ 8:8J 4256e40 C 0.06
108,80 b 0.16 112.41 b 0048 114110 b 0.11 117.81 a 0.12
934960 b OIC7 924.00 a 0.48 945.42 b 0027 951.59 b 0.22 971.35 b 0.07. 974~70 b 0.19
124.50 b 0.21 131.10 J 0.34 135656 a 2.10 i58.77 b o,i3 140140 b 0.53 141.25 b 0.53 150060 a 0.71 153.64 2.32 158.99 a 0.55 163.11 b 0.64 177008 b 0.31
976.76 b 0.27 988071 b 0008 991040 b 0027 993149 b 0 0 0 8 995062 b 0.07 990.70 b 0011 1001e00 b 0035 fW bb 8:1% 1018070 b 0.10
374~60 b 0156 2176.27 a O O 7 7 J78.76 a Oe82 2181.32 b 0.11 3 2 18 b d4:92 b 8$$ J91.20 b 0.17
178 88 a 184:61 a k# 186.00 b 0.15
;I92093 b 0 4 2 8 396.25 b 0.10 399041 a Om34 402.63 b OD27 409003 a Oe46 410.85 a 0140 404.65 a 0.49
5890061 b 0.59 5895.78 b 0.15 5953049 a 0031 5993071 b 0.36 6105.88 c 0103 6110r08 b 0.04 6138009 b O D 3 8 . 6206027 c 0.01 . 6218051 0062 6235.47 b 0014
413.29 a 0.21 414o63 a 0.57 420168 b 0.39
1052000 b 0013 4756.90 c 0.05 1058090 b Oell 4793030 E O i O 5 lob1016 0.25 4811.80 C OeOS
228.15 b 0.11 234050 b 0014 236.20 b 0.14 239025 b 0.09 242.00 b Oe19 243.15 a 1.11 248.10 a 1.50 254.25 b 0.34 255.70 b 0,30 257,90 b 0.14 ?62,50 b 0.06
4989070 C 0.08 6241089 b 0015 6269044 b 0116 6295077 b OeO2 6311.37 b 0.20 6316.30 c Oil3 6375.86 c Oe02
455e51 b 0.20 1656,lO c 0.28 5219.11 b 0,06
Enersr uncertainty a::less than 0,l LeVi b=betwen 0.1 and 1 keVi c=betueen 1 and 3 keUi d= greater than 3 keU.
Atomic Data and Nuclear Data Tables. VoI 26. No 6. November 1981
143
XI. .A. LONE. K . A. I.EAVl'r1'. iiiid I>. A. HARRISON Prompt y's f rom Thermal-Nctliron C;lpture
TABLE 11. y-Rays Ordered by Element and Energy Sec page 513 for Policies and Explanation
.-. EERGY INTO EHERGY INT. keV N l l O O keV w100
CRDSS SECTION: 9.3OEt02 BAIWS
ENERGY INT, keV HI100
Z = 66 ELENHT: DY REFERENCES: 70Ra
185, 0 c 20.54 20O0$0 c 0.44 208010 c 0.09 215.80 c 0.16 251690 c 0,58 259050 C 0.13 282.30 c Ob38 296.30 c 0.14 310060 c 316.60 c 8:!2:
333640 c 0.17
m R 6 Y I N T O keV nil00
E N W Y INT; kd Wl00
EIEEffiY 1111, keV W100
%I!% 'c b:9$ 671.70 c Oil8 688090 c 0030 697010 c 0017 754060 c 0067 762.00 c 0.34 787.40 c 0.19 795. eo7.8 'c !:E
1!%:58 'c 2019.00 c 2067040 c 2088.60 c 2114100 C 2140080 C 2lW.20 c 2268.5O c 2314.00 c
23t8030 C 23870% C 2410170 C 2427.60 C gig ; 2521.90 c 2536.10 c 2554.70 c
2592.60 c 2609.20 c 2660020 c 2703.40 c 2733060 c 2747.40 c 2755.30 c 2804060 c 27a3.20 c
8:8 0.42 0 0 9 2 0027 0 0 7 7
0023 0.32 0.42 0.60
0026 0054 0.19 0.16
iii! 0027 0018 0079 0046 0.37 0.63 2.48 1.25 0 0 0 9 0.22 O r S O 3014
0011 i;i 0012 0006 0017 0009 0 0 0 6 0012 0 0 0 9 0.07 0013 0010
0.30 3055 1001 i:; 0 0 5 8 0 0 4 0 2.51 0044
0 0 4 6 0.35 1.46 0 0 2 9 0.84 0096
ItW 8:86 4460.00 c 0.16 449802O C 0.04 458103 C 0003 4612040 C OoM 4b35.20 c 0009 4677.70 c 4782.80~
4 w a . ~ ) c 0007
863010 c 0.39 883030 c 2.67 912.10 c 2096 930.60 c 0059 979b20 c 1b52 t8k68 f' 8365 1059090 E. ..0+90 1071.50 c 0063 1093080 c 0.46
3035.70 c 0.66 3051060 c 0011 3071030 C 0039 3114880 c 0.28 3148070 C 0.15 ifM8 r' 8:PI 3176050 c 0.05 31?8*60 C 0013 3215050 C 0007
3732.00 c 0.08 3748.30 c 0.45 3772080c 0.34 3820.90 c 0.23 3841.40 c 0035 R#E' 8% 3%!4070C 0.04 3945020 e 0015 3961000 c 0126
350s70 c 2.95 360s40 c 0.61 367.20 c 0.17 386080 c 4.15 1:05:38 F a:&! 447030 C 2.01 465.80 c 2,72 477010 C 0.94 497060 c 4.60 1109,80 c 0.35 3239850 c 0.38 538.40 c 7.47 556070 c 9.25 569000 C 1.03 584010 C 1.52 596060 c 0.M) 611b80 c 0, 7 634000 c 0.20 622.40 c 0.h
1127040 c 0.67 1221.40 c 0.82 1257.70 c 0053 1274.70 c 0.73 1291.60 C 0041 1722010 c 0 0 5 6 1735.40 c 0.93 17bOe20~ 1 0 0 0
3275080 C 1.2 3316050 c 0.26 3349.50 C 0.26 3376090 c 0 0 0 6 3406070 C 0.07 3419.00 C 0 0
3469.10 c 0 0 0 5 Y44.70 c 1.8
2 = 67 ELEHENT: Ho REFERENCES: 7ORa
221070 C 3.01 239180 c 6.24 255,M) c 1.04 263.40 c 0.18 267080 C 0833 290030 C 3.35 305051) C 1.69 333.90 c 2.07 372.40 c 2002 392050 C 0070
CROSS ECTION: 6065EtOl BARNS 455.60 c 1005 3152.30 c 464.60 C 0023 3309.90 c 488070 C 1.05
613080 c 0032 5505080 c
634070 c 0 0 6 4 3896.40 c 638070 c 0061 3999.30 c
1326090 c 0039 4074.60 c 1379080 C 0030 4208070 C
1619060 c 0 0 6 3 4215,lO c
543.50 c 2.97 %k!8 E 615040 c 0027 m . 9 o c
4386.boc 0 0 0 5 4465080 c 0009
@&.:?ItEc 8bS 4639.80 c 0807 4674010 C 0005 4709060 c 0.06 4712.80 c 0.0s 4780030 C 0009 4796010 c 0011
4PM.10 c 0009 4?81130c 0 0 0 5
5052060c 0 0 0 5 5082120c 0.29 5106.50c 0.09 5128080C 0020 5157.40~ 0 0 0 6 5181.60 c 0.38
m.fi8; 8:85 5362.20 C 0003 5428.ooc 0.28
5580.60 c 0.05 5645.90 c 0.06 5651+30 c 0.07 5 6 8 4 0 2 0 C 0013 5762070 c 0037 5813910 c 0076 5870160 c 0 0 2 9
6051050 c 0.24
W58 'c 8:Pii
5mi.mC 0.09 4811050 c 0.08 5212030 c 0032 4827.80 C 0.17 5238070 C 0003 4854060 C 0015 529940 C 0003 4 8 6 6 0 0 0 C 0.07 m03O C 0012
402.40 c 0.89 411030 C 1.29 426070 c 3.73 442.60 c 0.32
Z = 68 ELEWENT: ER REfERENMS: 70Ra
198,OO c 14.89 217050 C 1035
. 254+30 c 0.39 269.80 c 0.33 284010 C 11080 329050 C 0019 346070 c 0.29 397000 C 0.58 422060C o.% 431050 C 0027,
2206.90 c 0.50 4239010 c 2957060 c 0010 4290090 c 2994.80 c 0 0 2 8 4349.50 c
CROSS SECTION: 1162EtO2 BW 542070 C 1018 898010 c 558010 C 0 0 6 6 914090 C 583000 C 0.43 930050 C 615050 c 0043 965.M) c 632.10 C 3.73 999040 C
676010 c 0.40 1166060 c
718000 C 1071 1278020 C 730080 C 4.36 1308070 C
741030 E 2029 1324.00 C
m o w c 0.56 1024.~0 c
699060 c 0.36 l1990)o c
.. - - . . 1863oM) C 0043 1979840~ 0.30 2031.70 c 0029 2647.30 c 0 0 2 5 3244090 C 0
4162020 c 0.14
4643.40 C Otl8
3674010 C 0%
4 ~ m o m c 0.13
4742.90 c 0.19 4 8 0 0 0 6 0 c 0010
6136090~ 0 0 3 3 6170.20 c 0.07
5638.30c 0 0 0 9 69!i1*40 c 0.03 766020 c O a 2 8 1332dO E 7 9 8 0 9 0 C 0 0 8 4 1352090 c 816000 c 40096 1599,M c 853*40 c 4.91 1834,80 c ~ 4 . 3 0 ~ 1.20 i 8 f s . w ~
Ertzrgy uncertainty a=less than 0.1 keVi &betwen 001 and 1 keVi c=ktueen 1 nd 3 keVi 6- *water than 3 keV,
Atomic Data and Nuclear Data Tables. VOI. 26. NO. 6. Nodember 19s'
1 144
M. A. LONE. R. A. LEAVITT, and D. A. HARRISON Prompt y's from Thermal-Neutron Captiire
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
ENERGY INTt ENERGY INT, ENERGY INT. keV W100 keV N/l00 keV WlMI
ENERGY I N T I keV HI100
ENERGY xwr. keV H/l#
ENERGY INT keV N/lM
2 = 69 ELEHENT: TH REFERENCES: 70Ra
211.20 c 0.16 250.80 c 0139 271.20 c 0.23 295.60 c 0.35 359.00 c 0.21 362.60 c 0.14 403.80 c 0.46
CROSS SECTION: 1.03EM2 BARNS
823.10 850.20 1046950 1103.70 1302.40 1342.10 1362.20 1627.40 1736.50 2176.60
C C C C C C C C C C
0.97 0.26 0159 1 e26 0.30 0.87 0.84 0.71 0.17 0.46
3222.50 c 3277.40 c 3337.40 c 3425.40 c 3589.30 C 3680.70 c 3735.00 c 3779.30 c 3915040 c 3966.00 c
4396.90 c 0.13 4461.20 c 0.03 4490.40 c 0.02 4548.10 c 0.02 4575.80 c 0.04 4613.50 c 0.03 4641.80 c 0.09 4658.20 c 0.03
4424.80 c 0.14
4670.50 c 0.04
5066.50 c 0.04 5075.70 c 0.10 5124.30 c 0.68 5151.00 c 0.16 5156.50 c 0.16 5238.00 c 0.04 5276.60 c 0.02 5292.00 c 0.04 !i310,80 c 0.03 5326.10 c 0.05
0.12 0.05 0.11 0.15 0.05 0.07 0.03 0014 0.09 0.11 0.04 0.06 0.07 0.11 0.02 0108
0.20 0.18 0.29 0.31 0.25 0.96 0.17 0.12 6.08 0.17 0.14 0.40 1026 0.20 0.54 0.35 0.24 0.19 0.24 0.61 0.35 0.20 0.12 0.31 0.24 i3 0.18 0.30
0042 0.19 0.04 0.07 "0% 0.04 0.12 0.08 0.06 0.06 0.07
5518080 C 0.10 5737.00 c 0.78 5809.50 c 0.03 5a57.30 c 0.18 58w.w c 0.19 5907.20 c 0.19 5941.80 C 0.&5 6000.90 C 0.54 6111090 C 0102 6355.60 c 0.24
418.10 c 0011 475.10 c 6.43 540.00 c 10.05 591.90 c 0.18 630.80 c 3139 664.50 c 0.10 687.40 c 3.77 711.60 c 0.28 737.40 c 0.45
Z = 7 0 ELRRNT:YB
2187.50 c 0.89 3988.00 C 4732.70 c 0.29 4773.50 c 0.03 4802.90 c 0.02 4834.50 c 0.03 4920.70 c 0,lO 4987.10 c 0.06
5354.20 c 0.05 5379.80 c 0.04 5404.30 c 0.07 5413.40 c 0.13 5423040 C 0.08 5449.70 c 0.03
6387.30 c 0.86 6442.30 c 0.17 6552960 c 0.46
~~ ~
2363.70 e 0.11 4020.60 c 2833.20 c 0.14 4133.00 C 2845.10 c 0.10 41S01O C 3048.00 c 0.05 4287140 C 3198.60 c 0.15 4358.30 C
CROSS SECTION: 3.66EtOl BARNS REF EREHMS: 70Ra
228.50 c 0.20 233.70 c 0.48 241.80 c 21.92 245.20 C 0095 251. 0 c 0.23 285.30 c 0.37 308.20 c 0.67 325.70 c 0.69 33.80 c 0.54
264.iO c 0.21
1037870 c 0.35 1073.70 c 1.18 1093.10 c 0.33 1095.40 C 0035 1116080 c 0.88 1129.90 c 0.56 1167.20 c 0.44 1216.30 c 0.55 1239.00 c 0.62 1378.50 c 0.45
2289.60 c 2302.30 c 2318.00 c 2331880 c 2349.70 c 2400.80 c 2439.80 c 2966.70 c 2482.60 c 2498.50 c 2516sOO c 2554.50 c 2585100 C 2628,50 c 2663.20 c 2685.40 c 2700,bO c 2729080 c 2734.80 c 2769.60 c 2787010 C 2813.50 c 2873880 c 2895.30 c 2308.50 c @# 2776.70 E 3001.80 c
3019.90 c 0.38 3051.70 c 0.76 3087.50 c 1.31 3117.10 c 0.07 3143.00 c 0.38 3164.90 c 0.25 3174e00 c 0.14 3189.00 c 0.07 3224.50 c 0.06 32489.20 c 0.18
3782.60 c 0.11 3805.40 c OaO5 3824.10 c 0.10 3841.10 C 0.10 3854.30 c 0.19 3884.90 c 2.71 3929.60 C 1.30 3949.10 c 0005 3979860 c 0. 399303C c8'5
5291.60 c 0.04 5305.60 C 0004 5392.90 c 0.08 5515050 C 0.06 5539.50 C 0.64 5640.80 c 0.06 5690XO c 0.11 5826.80 c 0.32 5857 . 590118 'c 00%
136.60 c 0.61, 1455.30 c 0.80 3262.70 c 0.11 3286.80 C 0.18 3305.90 c 0.33 3329.00 c 0.59 3356.60 c 0.70 3370.90 c 0.10 3387.30 c 0.82 3424.90 c 0.58 3463.40 E 0.13 3493.70 c 0 0 0 8
3504.30c 0.06
4335.20 c Od8 4194.00 c 0021 4223.60 c 0.04 4247.70 C 0.20 4273;lO c 0104 4302.00 c 0.10 4467.60 C 0*12 4523160 c 0.08 4656.10 c 0.05 4672.80 c 0.05 4699.60c 0104
5921300 c 0.M 5966.00 c 0.04 6009130 c 0.17
6168.46 c 0.06 6208.50 c 0.07 6228.70 c 0.04 6277.40 c 0104 6418.50 c 0.04 6542.30 c 0.04 6615.00 c 0.18 6780.10 6822190c c
0.04 0.43 6840.90 c 0.10 6977.60 c 0.06 7211.30 c 0.07
60~4.20 c 0.10
?a48 'c 8:85 8017960 c 0.06
341.90 c 7.19 360.70 c 2.12 392.80 c 0.25
425.60 c 0.80 433.10 c 0.59 475.40 c 2.71 531.60 c 0.92 569160 c 0.68
404.20 c 0.24
1588040 c' 0.73 1633150 E 0.49 1675,lO c 1.08 1716.60 c 0.42 1793.20 c 0.27 1853.30 c 0.37 1909.60 t! 0033
1812.30 e 0.36 1890.10 e OS6
589.40 C 0040 636.20 c 3.93 691.60 c 0.26 724.10 c 0.32 762080 c 0.24 809.30 c 2.62 822.91 c 8:$j 855.2 c 866.90 c 0.69 941.80 c 0.39 - - - . . ._ . .
Z = 71 ELENNT: LU
1914.70 c OS7 t934.20 I: 0.32 1961.70 c 0.20 1985.20 E 0.17 2023.70 t! 0.68
rii.20 E
0.15
2166.70 c 0.51 2259.30 c 0.21
1 6 4 0 1 ~ 3 0 c 8%
3510.10 C 0005 3568.20c 0.20 3590.00 C 0.39 3632.80~ 1.68 3659130 c 0.07
3754.80c 0.05 3768.50 c 0.05
mP8 'c 8R
4757.50c 0.29 4829.60 c 1.00 4878.30 c 0.06 4v26;Oo c 0;Os 5010.40 c 0.75
5080.40 C 0.05 5265070 C 5.78
%k58 'c 8:8i
CROSS SECTION: 7.73EtOl BARNS REFERENCES: 7ORa
198.40 c 1.34 208.90 c 1.05 227.70 C 0045 234.40 C 0154 245.4 c 0.29
269.20 c 3190 285.80 c 0.41 302;lO c 0.65 310.40 c 0.75
260.88 c 1.79
348.40 C 367.40 c 393,60 c 414.00 c 457. 0 c 550.50 c 762.00 c 877.00 c 8W,OO c 1063.20 c
0.73 2.92 0.30 0.69 6.95 1 t34 2.11 0.30 0.73 0019
1619.00 c 2292.40 c 3538.60 c 3852.50 c 32:# 'c 4000.20 c 4271.80 c 4368.10 c 4363.30 c
4457.60 c o m 4!i7Oa!%C 0.M 4524.70 c 0.05
5017.00 C 0.15 Jo21.90 c 0.14 5111.10 C 0.07 5165.90 c 0.16 5191. 0 C 0.06 5267.60 c 0.04 5319.80 E 0.21 5214.h c 0.09
5465.10 c 0.12 5569'50C 0.20 5601.60 c 0.25 460s;90 c o;w
4655.30c 0.4 4707.70 c 0.06 4799.80c 0.04
4689.70 c 0.83 5 7 2 8 s 6 0 c 0.13 5769.10 c 01 2 5983.30 c 0.05 6255.90 c 0.05 6437.50 c 0.09 6621.80 c 0.03 6803.60 c 0.27
5896.40 c 0.63
4869.30 C 0.ii 4902.30 c 0.05
5344.10 c ' 0.14 5365.70 c 0.04
319.80 c 3.49 336.60 c 0.35
1167,lO c 0026 4393.20 C 1366.60 c 0.53 4413.80 C
4941.3 c 0.06 4983.20 c 0.12
5395.40 c 0.03 5442.00 C 0.03
Energy uncertainty a-less than 0.1 keVi b=betwen 0.1 and 1 keVi c=betueen 1 and 3 keVi d= greater than 3 keV,
Atomic Oara and Nuclear Data Tables, VoI. 26. No. 6. November 1981
1 145
M. A. LONE, R. A. LEAVITT. :id D. A. HARRISOS Prompt y's from 'Thermal-Neutron Citpture
TABLE 11. ?-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
-. ENERGY INT, ENERGY INTO ENERGY INT. EMERGY IHT, ENERGY IIIT. ENERGY I W T o
N/ lM keV N/lOO keV W100 keV W100 keU N/100 keV NA00 keV z = 7 2 ELDIENT:HF REFERENCES: 70Ra
21 +OO c 54.91
234.80 c 0.16 245.20 c 0.22 257.60 c 0.32 268.20 c 0.45 276.20 C 0045 279.40 c Oe22 290.90 c 0.32 303.90 c 3.71
223.50 c 0.22
CROSS SECTION: 1.02E
559.90 c 0.42 566.80 c 0.19 581,lO c 0.19 655.30 c 0.25 691.70 c 0 0 2 5 743.00 c 0.47 812.80 c 0.25 832.40 c 0.39 967,OO c 0.67 971e30 c 0,57
It02 BARHS 1206.40 c 1215.70 c 1228.90 c 1268.80 c 1291.90 c 1309,M) c 1330t70 c 1421.30 c 1542s70 c 1720,60 c 1735,40 c
'0% 3.87 0.83 0.57 1 e47 0.89
p 3 7 e 90 ,748940 2924 e40 2947.50 3059.30 3080,70 3173.20
'c 00% c 0.25 c 0.29 c 0.22 C 0.23
'c 8% c 0.11 C 0.19 E 0.86 c 0.44 c 0.13
!#J!:d! 5505.60 5574.30 5609.30 5628.20 5649.60 5679.30 5694.40 5723.50
: 835 c Oe85 c 0.31
4282.30
4343.50 4372.90
4290.10 c 0 0 2 2 c 0.11 c 0.21 c 0.28 c 0.63 c 2.18
c 0.34 c 0.30 c 0.29 C 0.16
4392 80 1.15 0.79 1.39
3208*90 3332.90 3446.30
4487 e70 4507e80 4?30,50
c 0.13 c 0.13 c 0.13
325.80 c 6.11 976.30 c 0.67 1.48 0147 0.79 0.63 0.49
3538.20 c 0.18 0.21 0.18 0.15 0.38
4752.00 c 4851.50 c 4887.30 c 4916.10 c 4975.50 c 4993.80 c
5224010 c 5262.20 c
5 ~ 7 . 8 0 c
0.54 0.16 0.12 0.33 0.11 0.13 0.14 0.18 0.21 0.13
5762.70 c 5808.10 E 5909.10 c 6062.10 c 6112.30 c 6303~00 c 6356190 c
0.16 0.39 0.16 0.15 0.72 0.15 0.37
337.30 c 348.50 c 359.20 c 371.60 c 382.20 c 393.30 c 404.60 c 408060 c 426.80 c
0.86 0.42 0.16 0.19 0.42 0.19 0.29 0.16 0.89
986880 c 1020e40 c 1064e50 c 1080,30 c
0,74 0.32 0.64 2.81 2.36 0.71 0.39 0.39 1 *95
1863.60 c 1893.60 c 2064.90 c 2153.80 c
3525.50 c 3651.90 c 3709.40 C 3730.30 c
1102,80 c 1142.10 c 1150,80 c 1166s90 c 1175t40 c
2325.90 c 2341820 c 2378.80 c 2412e50 c 2428.50 c
0.37 0032 0.35 0.32 0.31
3790& c 3850.20 c 3895.20 c 3912.50 c
0% 0.16 0.13 0.21 0.12
0.24
3371.80 c 5311.90 c 482.80 c 0.25
Z = 73 RMENT: TA REFEREKES: 7oRa 7
346.80 c 2.16 360.60 c 4.34 377.80 c 2.38 380.70 c 2.10 402090 C 27.18 415.20 c 0.52 443.00 c 1.16 477.60 c 2.18 548.40 c 0.53 631.30 c 0.48
1184,20 c
CROSS SECTS '1He 79Vat
0.47
.w: 2.11
2468e50 c
LEN1 BARNS
4118.11 a
4157.91 a
421P.82 a
4138.44 b 4172170 b
9279.60 c 4315.56 b 4348.80 b 4366.03 b 4383.13 b
3979.20 C 5353 .70 C 0.32
0.a 0.12 0.15 OeC9 om15
3594.40 c 3644e60 c 3677920 c 371?.70 c 3738.30 E 3808.83 c 3814.80 c 3827e20 c 3854e80 c
0.09 0.13 0.14 0.20
4629 e70 4666.66 4673147 4691.66 4739.34 4756.40 4782126 4793.07 4802.87 4821e80
0.10 0.08 0.12 0.28 0.21 0.04 0.70 0.35 0.30 0.10
5034.57 5062.50 5075.80 5102.16 5123.04 5147.40 5152.83 5155040 5181 e43 5206.76
b b b b b b b b b b
0.13 0.04
5496.95 5515s65 5557.30 5583.79 MbSe50 5702.23 5769.93 5792.42 5812.60 5825.00
0109 0.14
0.04 01 13 0.08
0.07 0108 0.02 0.06 0.11 0.19
0.44 0.09 0.60 0.11 0.17 09.13
0.10 0108 0.11 Oe24 0.23
0.08 0.13 0.06 0.05 0.25
0.03 0.02 3882.68 a
910.10 c 0.93 3902,Ol b 0.17 4443a97 b 0120 4833.13 b 0.19 5227.70 b 0.06 5889.60 b OeO6 1087.80 c 0.29 3972.40 c 0110 4458.05 b 0.11 4890.63 a 0.04 5245.76 b 0.33 5912.10 b 0,03 1844.80 c 0.61 3981,96 b 0.34 4483*06 b 0.37 4912.61 a 0.20 5280.58 a 0.07 5948.58 b 0.10
3292.00 c 0.18 4033.10 b IE8 b' 8% 8 R B bb 8:R H ? M S 8 : t I I8W k 8% 3400.40 c 0.09 4086.90 e 0.08 4579,95 b 0.21 4980.15 b 0.19 5411.88 a 0.06 3526.30 c 0.17 4102.60 b 0,11 4617.96 b 0.32 5005.60 a 0.28 5434S4 b 0.07
2927.10 c 0.10 3989.60 c
3327.10 c 0.14 4045.71 a 0.10 4547120 C 0111 4943.30 b 0.07 5396.71 b 0.05 3348060 c 0.09 4053.90 b 0.26 4566.31 b Om16 4961.70 b 0.05 5402.70 b 0.04
z = 74 E L m T : Y REFERENCES: 70Ra 6
199.30 c 56.45 228.10 c 2.70 253tl0 c 1.26 273.20 c 3.58 291.60 c 1.42 304.20 c 0.25 314,lO c 0.58 355.70 c 0.23 424.20 c 0.27 430.00 c 0.27
CROSS SECT1 :ON: 1685Et01 BARNS IBat
$65170 c 891~80 c 902830 c 908020 C 979.50 c
1027e10 c 1067,50 c
0.30 2707170 c 1.68 2740.30 C 0.42 2760n10 c
0.37 0.63 0.26
3494.10 3510.30 3534 s 40 3561.50 3577.70 3596.70
0.23 0.21 0.78 0.44 0.28
4025.00 4063.70 4081.10 41 17 6 90 4136.40 4159~40 4202.00 4221 e60 4248870 4303.40
0.17 0.21 0.33 0.45 0.07
4649.20 4681.30 4719,00 4746.50 5016e10 5163.90 5237.90 5247.50 5261.30 m.90
0.38 1.41 0.18 0.08 0.11 2.01 0.12 0.18 4.41 2.09
C C C C C C C C C C
C C C C C C C C C C
C C C C C C C C C C
0.43 2843.50 c 0.32 2880130 c
0.69 0.32 0.34 0.41 On40 0.18 0.11
0.90 2900.50 c 0.38 2908050 C 0039 3054~00 C 0.16 3095810 c 0.32 3118.80 c
0.12 0.36 0.07 0.15 1 a45 0.23
3651 .50 3660.10 3686.30 3739 . 00
0.12 0.14 0.10 0.77
1081a20 c 1215.60 c 1386020 c
435.60 c 0.20 1438.70 c 0.39 3190.10 c 0.35 3760.00 C 0.21 4330.90 E 0.31 5795o00 c 0.11 551.60 c 4.04 1472.40 c 0.18 3206.40 c 0.33 3775.20 C 0.15 4369.40 C 0122 5938.30 c 0.04 577.90 c 1132 1618.60 c 1.75 3223e90 c Om15 3801.00 C 0.37 4383s30 C 0.71 6021.20 c 0830 656.80 c OS4 1633,90 c 1.10 3310.50 c 0.29 3817.40 c 0.18 4446.30 c 0.35 6143.90 c 1.73 660.60 c 0.30 M~OJO c 0.40 m , 9 0 c 0.09 3846.90 c 0.44 4489.70 c 0.14 6190.20 c 4.78 727.40 c 0.18 2324e20 c 0.57 3348.20 c 0.09 3865.50 C Om11 4518.00 c 0.36 6291.00 c 0,14 772,50 c 1.47 2346n60 c OB53 3359.10 c 0.12 3885.40 c 0.06 4558,lO c O m 2 8 6407.50 c 0.30 792.80 c 0.28 2452.70 c 0.22 3376110 c Oa33 3902*00 C O i l8 4562.50 C 0.30 7297.70 c 0.12 815,70 c 0.71 2510.40 c 0.26 3422.40 c 0.26 3963860 c 0121 4572.90 c 0.90 7410.70 c 0.55 840,OO c Oi66 2595.80 c 0.26 3470,40 C 1n07 4014,60 c 0.52 4626.20 c 1.09
Energy uncertainty a=less tnan 0.1 keVi brbetueen 0.1 and 1 keVi c=betwen 1 and 3 keVi d= greater than 3 keV,
Atomic Data and Nuclear D z a Tables. Vol. 26. No. 6. Novemts' '28:
M. A. LONE, 1R. A. LEAVITT,'and D. A. HARRISON Romp1 y's from Thermal-Neutron Capture
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
ENERGY keV
2 0 7 5 ELEM REFERENCES:
199.60 c
228.00 c 237030 c 256.00 c 274090 C 291.30 c
307140 c 317.60 c
209.30 C
301.20 c
IHT. H/100 m: fE 7bRa
0.41 8.10 1.09 1019 7.95 1.46 5012 0.36 0.18 3.66
ENERGY 1:NT o
keV n m o MtOSS SECTIoNlr 8.M
ENERGY keV
:to1 BARNS
1111. v1 00
ENERGY keU
IHT. W l 00
EMRGY INTO keV N/ lM
ENERGY keV
INTO W100
0.97 0.34 0.19
0.03 0. 12 0.03
5027.50 C 0.14 5048.90 c 0004 5073.70 c 0033 5136.80 c 0025
S@i:#: 88% 5224010 C 0005 5256.50 C 0.04 5277.00 C 0.17 5350.20 C 0023
C 0007 c 0.03 c 0.07
5643.80 5665.90 5687.70
5909.50 6004.50 6032.30 6078.90
g7lg.f 4859.90 c 0.04
0.03 0.11 0.07
0.20 0.07 0.05 0.06
. - . . . . - 4888040 c 4915.40 c 4936.40 c
340,s c 0.25 795.00 c 0.55 4501170 c 0.10 4946.30 c 0.07 5491r60 c 0.07 6119,20 c 0806 359.10 c 0.98 957.10 c 0.24 4635.30 C 0.08 5007040 C O t 2 2 5600,30 E 0.06
z = 76 ELRIENT: DS ams SECTION: i.mtoi BARNS REFEGE)ICES:
187.30 c 232.30 c 253.80 c 275.20 c 295.50 c 306.30 c 323.60 c 330.90 c 335140 c 362000 c
70RJ 15.23 0031 1.25 2.60 0.21 0.29 4.68 0.43 0.92 2132
689.90 E
775190 c 828.70 c
72s.90 c 2574.40 c 2588,OO c 2605.20 c 2620.90 c 2666.50 c 2815.80 c 2938.50 c 3021.90 c 3052150 c 3095070 t!
0.05 0.05 0.07 0.07 0.07 0.07 0.05 0.05 0.05 0.02
0007 0.02 0.02 0.03 0.03 0102 0.08 0.03 0.12 0.03
4977.80 c 5011.80 c 5036.90 E 3790% C 5097030 C 5146090 c 5170.90 c 5229060 c 5249010 C 5274.00 C
0003 0.10 0.03 0.02 0.05 0058 0.10 0.02 0.05 0.38
5933.00 c 5969.50 C My59090 C 6081 060 c 6157,OO c 6181060 C 6217000 c 6247.20 C 6321020 6357060 c
0.08 0.03 0.05 0002 0002 0.03 0.07 0.05 0002 0.02
a4s050 c
987.70 c
886190 c 899090 c 930120 c
1053.10 C
371.70 c 3.48 1175.70 c 1.20 3140.90 c 0.02 4355090 C 0002 5342010 c 0010 6411.20 c 0.07 386.60 c 0.28 1267.40 c 1.04 3156.40 c 0.05 4407.10 c 0.10 53 7 8 0 c 0.08 6558.50 c 0.0 397000 c 0049 1324010 C 1033 3176.80 C 0007 4460.70 C 0105 53k.00 c 0102 6!%708 c 0.13
412.70 c 0.58 1803070 c 0.15 3239.30 C 0.03 4530070 c 0.16 5447.M c 0 0 0 2 6785.70 c 0002 43 9 c
478030 c 11117 2130000 C 0.13 3361040 C 0.03 4615.70 E 0003 5530.60 C 0 0 0 8 7605.20 C 0002 rtlv ' 492.30 C 0 0 9 9 2160.40 C 0.08 33860% C 0.03 4675120 C 0.12 5571050 C o b 0 5 7792.60 C 0107
526.20 c 1152 2223030 c 25.02 3402.30 C 0.03 4716.30 c 0.07 5583.30 C 0.05 7834.40 c 0.07
409.50 c 0.48 1436ooo c 0.39 3225.20 c 0003 4508.00 c 0.02 s4i4.w c 0.12 ~ 2 0 . 5 0 c 0.03
43k98 8A #I$:% r' 8:1! IJt:f8 f' 8:83 44iR18 C' 8:85 #Ik% E' 8:81 9&:18 E 8:81
558.40 c 11020 2261.30 C 0.40 3465.90 C 0.07 4751.10 C 0.07 5640.40 C 0.03 7990.50 C 0 0 0 5 569.30 c 8.52 2285050 C 0021 3516020 C 0.03 4800.90 C 0003 5684.00 C 0.26 607050 c 0.61 2330040 c 0110 3571030 C 0002 4812080 c 0023 5702.60 C 0.03 6 3 h W c 16.88 2436.70 c 0.05 3677.00 c 0.03 484%40 c 0.05 5723.10 c 0.02 M6.70 c 0.41 2458.80 c 0.16 3748.90 c 0003 4920070 c 0003 5884020 c 0.08 669.10 c 0.64 2505020 c 0.13 3767040 c 0.02 4962020 C 0.03 5919.60 E 0002
Z = 77 ELEHEWT: IR (BOSS SECTIffl: 4e26Et02 BARNS REFERENCES:
200.40 217.40 225.40 229.50 247.80
70Ra c 6.27 C 1.79 c 1.36 C 1003 c 0.82
c om c 0071 c 4.65
: 897
450.80 c 4474.90 c 0.11 0.10 5385030 C 0.08' 5688.60 C C C C C E C c E C
0550 4507030 c 4531.10 c 4588030 C 4712.30 c 473 0 c 4&fO c 4808.80 C 4839010 c 4859.00 C
0.11 0.31 0017 0.14
0":8 0.13 0.14 0.56
5067050 C 5088.50 c 5129n00 c 5147030 c
5220010 c 5261.60 c 5283.00 c
#f:R c'
0.19 0.25 0016 0136
002s 0142 0042
8:#
0.17 0126 0010 0.41 0.10 0.28 0054 0076 0 0 2 5
0.48 0.19 0.70 0.11
8:31 0.34 0.16 1.28
' - #:& 263 e 20 338.50
--... . .
1618180 C 3965020 i! 551.90
401.50 c OB27 418.80 c 1014 422.50 c 0.45
78 ELEHEWT: PT
425/010 C 0014 4867000 C 4365060 c 0.17 4897.60 C 4401o10 c 0.22 4p81.70 c
I r n SECTION: l * O o E t O l BARNS
596.70 c 0.66 1645.10 c 673.20 C 0096 1654010 C 696.50 c 0096 1676.80 c 779.80 c 0.38 1695.90 C
1048.20 c 0.56 1713.20 c 1091080 C 0.69 1737070 C 1358.40 c 0.91 1803b70 C 1491.30 c 1.36 1804,OO C 1629.80 c 0056 1826030 C
a-less than 0.1 keVi bzbetueen
0045 0.29 0 0 3 4
5303090 c 5329.30 c 5356040 c
0019 0137 0.31
6003.50 6081 e 3 0
c 0.12 c 0.81
Z = REFl
~~ ~
:RENC€S: 70Ra 241.20 c 0.21 252.10 c 0.20 333.30 c 15.91
1875.60 t 1889.30 c 1913.50 c 1971.20 c 1978.70 c 2041.10 c 2067.80 c 2115.60 c 2150.30 c
1 keUi c=bt
0.26 0027 1.02 0.37
0.26 0063 0.29 0.95 1.36 0033 1 101
2184.00 c 0.50 2187.90 c O s 2 2 2311040 c 1.41 2334.80 c 0.20 2344.10 C O,1O 2376.00 c 0.25
2402000 c 0011 2429010 C 0027
2393.20 c 0.44
and 3 keVi 6- 3reat.t
2445.30 2469.60 2487 . 60 2506 e 50
2595.50 2614.30
2526.90
c 0.16 c 1014 c 0.10 c 0.16 c 0.53 C 0.09 c 0129 c 0.10 C 0.31
keV
356.10 C 27.61 393.10 c 0.40 430.40 c 0.21 481.90 c 0.24 558.40 c 0074 575.00 c 0031
Enem uncertaint
0.97 0.44 1 n32 0.93 0 0 8 9
0.1 and
2665.50 2735.30
!r than 3 .Y
Atomic Data and Nuclear Dala Tables, Vol. 26. NO. 6. ?!ovember 1981
147
M. A. LONE, R. A. LEAVfTT. n11d D. A. HARRISON ProtnpI y's from 'I'herni:il-Ncttiron (';tpliire
TABLE 11. y-Rays, Ordered by Element and Encrgy See page 513 for Policies and Esplanatiolj
ENERGY INTI ENERGY INT, keV N/100 keU N/100
Z= 73 ELEHENT: P i (continued)
ENERGY IN1 . keV W O O
..
ENERGY INT. keV NA00
ENERGY INT. keV N/100
E & l Y IMT , keU U/lM
2749.00 c 0.31 ?767,90 c 0.10 2798.40 C 0.07 ?0?4,40 E 0.60 2857.30 c 0.06 Bb2.30 c 0. 9
2696.20 C 0.17 2928130 c 0.08 2995.90 c 0.05
2876.00 c 0.97
3369.00 c 0.05 3387.30 c 0.04 3406.50 c 0.06 3425.90 c 0.14 3553.90 c Ot08
35W8 r' 8:fS 3623.20 c 0.06 3652.50 c 0.05 3685.90 c 0.23
4041110 c 4084.80 c 4121.60 c 4152.40 c 4167.90 c
1$8,!:8 r' 4223.20 c 4227.80 c 4256.30 c
4287.50 c 4312.20 c 4342.70 c 4368100 c 4401.50 c 4416.10 c 4431190 c 4442.40 c 4453180 c 4477r30 c
4481.70 c 4513.30 c 4546.20 c
0.05 0.18 0.07 0.06
i 3 0.05 0.05 0.12 0.11 0.22 0.14 0.47 0.15 0.05 0.07 0.06 0.05 0.09
Oa07 0.16 0.09
0.16 0.13 0.32 0.44 0.46 0.12 0.16 0.09 0.47 0.12 0.08 0.58 0.12 0.85 0.M
E! 0834 0.10 0.52
0.65 0.60 0.28 0.22 3.34 0.90 0.89 2.w 0.63 0.27
0.39 0.18 0.54 0.26 0.21
0.11 0.13
4557.30 c 0.04 4584.00 C Oe03 4614.60 c 0.12 4634950 c 0.13 4677.40 c 0.04 4 9 4 c 0 4#Okd c 0:11 4729.50 c 0015 4746170 c 0,07 4767.90 c 0.15
5078.10 c 0.09 5098.80 c 0.78 5116*80 c 0.05
5173.40 c le45 5i40.00 c 0.04
&?1:%8 c' 8:8% 5307,OO c 0.95
5795.70 C 0.26 5829.30 c 0.18 5847.40 C 0.24 5874.50 c O s 2 9 5910.50 C 0.34 3%m8 s 8:U 6003.90 E 0.37 6033.50 c O e 9 0 6074.10 c 0.24
5393.20 C o.8i 5417.20 c 0.06 5432.60 c 0.11 3322.60 c 0.24
3041.50 E 0.28 3747.60 c O s 1 1 3761.60 c 0.08
4791.80 C 0.19 6097850 c Ob06 6118*80 c 0 , l l 5451.30 c 0.29
5468.30 c 0.48 5499.60 c 0.14 5521.10 c 0.19 5546.70 c 0920
5611e40 C 0.85 5676.70 c 0.13 5692180 c 0.03
~ 7 6 . 7 0 c 0.12
4816.40 c 0.20 4839.60 c OB10 4858.60 c 0.03 4882.40 c 0.31 4899.40 c 0.37 4947.60 c 0856 4970.70 c 0.11 4989.90 C 0604 4995120 c 0.07
3i62.20 c 0.07 3084.30 c 0105 3117.30 c Oe07 3133.10 c 0.13 3145.40 c 0.08 3165830 c 0.07
3?76;56 C o.ii 3799.70 c 0.07 3815690 c 0.03 3848,50 c 0.03 3881.60 c 0.07 3927s90 c 0.09
6244.20 C 0.07 6319.10 c 0.08 6518.86 c 0.04 6560.40 c 0.11 6738.00 c 0.05 7232.90 c 0.47 3176.20 c 0.10
3230e00 c 0.08
3?51,50 c 0.17 3284.10 c 0.05 3311.70 c 0.13
2 = 79 ELMNT: AU
3946e90 c 01% 3962.10 c 0.10 7565.60 C O i l 5
7722.4oc 0.06
7920.90 c 0.33 3960.20 c Oe03 4007,bO c 0.10 4025t20 c 0.18
5033.30 c 0,03 5046,bO c Oe35 5060.90 c Os14
5721610 c 0.47 5738.50 C 0109 5759.30 C 0.31
CROSS SECTION: 9.88Et01 BARNS REFERENCES: 70Ra
214.90 c 9.88 236.20 c 4.22 24?.80 E 5-74
%
5204.90 c 0.31 5224.10 c 0.70 5279.30 c 0155 5307190 E 0.48 5354.90 E 0.51
612.60 869120
1201.80 1245.80 1712.00 2010.60 2302 . 10 2390.70 2458.90 25931 70
c 0.69 c 1.42 c 12.17 c 0.50 c 1.78 c 0.74 c 0.70 c 5.58 c 3.93 c 1.29
4025.80 c 4073.60 c 4123.80 c 4188.20 C 4279.80 c 430!,00 c 4321.60 c 4338.10 c 4369.60 c 4397860 c
4762.90 c 0.17 4770.50 c 0.18 4785.70 c 0.12 4799.50 c 1.06 4828.80 c 0.13 4851.90 c 0.52 4865.80 C 0.49 4886.60 c 0.51 4899.30 c 0.51 4904.50 c 0.54
5767.14 c 0.11 5786.20 c 0.07 5808.30 c C.29
261.10 c 5.n 278.10 c 0.52 291q60 c 1.75 307.50 c 0.29 342.90 c 0.86 349180 c 0.96 371.00 c 0.32 331.70 c 4.14 411.40 C 0.64 418.00 E 0.40 421.90 c 0.34 440.60 c 2.58 456.00 C 0.78 474,
528.90 c 2.10 597.00 c 1.66 601.80 c 0.69
477.g: !:ti
m . 4 0 c 0.33 5878~90 c 0.43 5940.00 c 0.57 5982.20 c 1.27 6057e80 c 0.17 6105960 c 0.59
5 3 6 4 b 6 0 c 0.23
5419.90 c 0.09
5385.90 c 0.21 5394420 E 0.19
5163.50 c 0.22 6148,M c 1.11
6165.10 c 0.15 6251.60 c 5.52 6266.00 C 0.30 6275.70 c 1.20 6318.90 c 3s28 6416.70 c 0.09 $8P:88 t:34
2596.70 2649.80 2653.60 2842.80 3186.60 32658 10 m;"$o 3692.90 3705.50
C C C C C C C C C C
0.96 1.68 0.21 1.97 0.11 ;;;; 0.08 0.29
4478.90 c 4510e60 c 4525.90 c 4543.40 c 4573.60 c 4587.70 c 46 2 c 468:1! c 4643.60 c 4688,70 c
4929a90 c 0.13 4957*40 c 0.90 4973.50 c 0.22 4998110 c 0.74 5038.00 c 0.39 5077850 c 0.54 8R;% 'c 9% 5140,80 c 0.49 5148.26 c 0.74
5473820 c 0.24 5493.40 c 0.n 5512.80 c 0.17 5523.80 E 1-01 5541.10 c 0.08 5594.00 c 0.58
5675.90 c 0.23 5710,lO c 1.65
%?68 'E 8% 4006,50 c 0.40 4733.20 c
CROSS SECTION: 3.76Et02 BARNS
5175.40 c 0.30 5723.80 c 0.49 2 = 80 ELWDlT: HG REFEREHCES: 70Ra
368.10 c 81.35 540110 c 0.39 579.40 c 1.96 661,lO c 4.47 851.50 c 0.77
.- . _. . . - - .. 1719.50
1862e40 2002 s 40 2214 a 00 2254.50 2259.20 2271.90
2619.40 2639150
2296.70
C C C C C C C C C C
2.71 0.97 7.32 1.20 0.57 0.67 1 ,eo 0.45 3.88
1.12
2984.30 c 3052870 c 3073.70 c 3125.30 c 3185.70 c 3216.20 c 3268.40 c 3288.60 c 3352.80 c 3425,30 c
3850.20 c 0.26 3868.10 c 0.51 3891.80 c 0.20 3950.20 c 0.56 4094.90 c 0.32 4114.80 c 0062 4243.10 c 0.26
4280.30 c 0.47 4351.20 c 0.27
4271.90 c 0.62
4604.00 E 0.25 4675.40 c 2.99 4739.10 c 7.27 4758.80 c 3.24 4799.50 c 0.21 4811.30 C 0.84 4841.80 C 5.00 4893150c 0.20 4904.70 c 0.12 4919.30 c 0.20
4953.60 c 1.04 4974.80 c 1.15 5049s80 c 5.02 5148.60 c 0.42 5387.60 c 3.82
5484.00 c 0.15 5566.00 c 0124 5657.70 c 6116 5731.20 c 0.41 5966.20 c 13.86 6229.90~ 0.28 6310,00 c 0171 6397.00 c 0.79 6457.50 c 5.20
885.60 c 2.59 1147.20 c 0.59 1225.70 c 2.15 1254,OO c 0.93 1263.00 c 2.23
1274.20 c 0.86 . 1349.20 c 0.76
1407.60 c 1.23 1571,40 c 7,27 1693.90 c 14.13
Z = 81 ELMENT: TL MFERENLES: .7Ma
15'5.30 c 0.54 241.60 c 0.11
2704.80 c 0.38 3499.40 c 2817.80 c 0.61 3601.50 c 2883.60 c 0.26 3633.60 c 2900*60 c 1.16 3748.40 c 2920120 C 1.29 3840.20 c
W S SECTION: 3.40Et00 BARKS
4312.30 c O b 5 8 4458.10 c 0.23 4536,OO c 0.24 4555.20 c 0.30 4574.30 c 1.02
253nOO c 0.25 270.20 c 265.60 c 0.17 275.80 c
292.80 t! OB87 319.50 c 1.75
331.00 c 0.41 338*50 c 0.26
348.70 c 2,58 396810 c 0,64
Enersv uncertainty a=less than 0.1 keVi b=betueen 0.1 and 1 keUi czbetueen 1 and 3 keVi d. freater than 3 keU,
AIomic Data and Nuclear Data Tables, VOC. 26. No. 6. November 1981
148
M. A. LONE, R. A. L E A V I h , and D. A. HARRISON Prompt y’s from Thermal-Neutron Capture
TABLE 11. y-Rays Ordered by Element and Energy See page 513 for Policies and Explanation
-. ENERGY INT. ENERGY INTe ENERGY IHTe ENERGY IwTe ENERGY INTe ENERGY INTI keV N/lW keV H/100 keV WlOO keV N/100 keV N/100 keV N/100
Z= 81 ELEHENT: n. 425e10 c O a 8 1 472.00 E 0 95 488.60 c 1:h
(cant inwtl ) 949eW c
1094e10 C 1109e80 c 1113010 C 1121.50 c 1143.70 C 1154,W C
1235.40 C 1293+30 c
1203.70 c
0.63 0.70 0.30 Oe17 0.55 Oe12 Oe46 1 e36 0.82 0.63
1741e10 c 1781eW c 1819080 C 2111120 c 2341.00 c 2397e40 c 2858.60 c 3942110 E 4016t60 c 4079.20 c
4403e90 4439e90 44M e70 4495.40 4540 ,80 4569.30 4601 0 9 0
4659.10 4687 60 4705.10
C C C C C C C C C
I C
O e O 6 O e 1 4 OeM Oe40 O e 3 0 0.19 O e 3 7 0005 l e 1 1 O e 6 8
5014e50 5128e60 5154e50 5180.20 5239.40 5261e70 528020 5404 e 10 5 4 5 O e 8 0 5503 e30
C C C C C C C C C C
0 0 5 8 0e48 9004
0e12 0 0 7 2 1080 1.22 0e67 0e18
1.38
5917e10
:%:3 6166.30 6182e70 6199e10 6222.40 6336000 6514e90 6 6 5 4 e 4 0
C C C C C C C C C C
0e75 0.19 0e17 1 e52 0.70 0.08 0557 0.17 1019 0009
0152 Oe47 0 0 3 5 O e O 5 Oe07 Oe03 0.09
562.00 c 0038 625.90 C 0050 627.90 c 0.61 632;90 c 0.34 679.30 c 0.46
713.80 c 0.49 136Oo30 c 0033 4114.40 C Oe13 4x2040 c 1039 5533.40 C 1 ~ 3 6 1459e50 c 0.51 4196.30 C 0.29 4805,lO c 0.15 5603t30 C 2041 1478000 c 0085 4225s70 c Oe51 4841.10 c 0.44 5641.50 c 2084
1601,bO c 0.43 4309s70 c 0.22 4913140 c 1.55 5866.00 c 0.06 1712e60 c 0.50 4343.50 C OeM 4380090 c Oe20 5889.10 C 0007
1582e20 c 0045 4287.00 c 0.04 4868.70 c 0.08 5853020 c 0.03
CROSS SECTIOH: 1e7OE-01 BARN
7367e701 c 94.06
CROSS SE:CTIOH: 3e3OE-02 BARNS
737.60 c 1083 764,bO c 0.57 873.20 c 1.83 310.90 C ioo8 931.10 c 0.53
Z = 82 ELEHENT: PB REFERENCES: 70Ra
6736.40 c 5eM
2 = 83 ELEMENT: It1 REFERENCES: 7 0 R a
4054e70 C %+‘I7 4101080 c 24.39 CROSS ST:CTIMI: 7A0E
5
2712.40 b 0.84 2716e70 b Oe37 2720e00b 0.95 2732e80 b O e 6 6 2739370 b Oe43 2744e80 b 0.49 2n9090 b 0 0 3 6 2771e60 b Oe34 2784e20 b O e 5 8 2790040 b Oe31
4171010 c :too BARNS 2891e40 b 2923eW b 2926e60 b 2944e30 c 2970030 b 2980.70 b 2 9 8 9 e 5 0 b 3009190 b 3045*10 b 3049060 b
%e84
Oe31 0035 0 e24 0112 G e 4 6 0.74 0.49 Oe23 Oe24 0 0 2 5
Z = 90 ELWT: liH REFERENCES: 74Ker
2485.70 b 0 0 M 2503e70 b 0,70 2524.80 b Oe!i9 2542040 b Oe49 Z 4 5 A b O.ti7
Z = 90 ELWT: liH REFERENCES: 74Ker
2485.70 b 0 0 M 2503e70 b 0,70 2524.80 b Oe!i9 2542040 b Oe49 Z 4 5 A b O.ti7
0.66 le14 0144 0.47 be22 0030 0115 Oe39 6090 0137 0176 le22 O e 3 4 le01 O e 3 8 l e 2 9 1 e47 1 r58 OB52
3184.90 b 3196050 b 3228e90 b 3231e60 b 32450% b 3261e20 b 3268090 b 3276.50 b 3288e05 b 3295.30 b
3473.M b 3503e10 b 3509e50 b 3523e10 b 3526.90 b 3530elO b 3548 e 10 b 3600eW b 36030% b 3615.30 b
4017 0e36 0e99 0e44 Q e 7 9 1e04 0e29 0 ~ 3 4 0e56 0.32
3862eOO b 5867e2Q b 3933e20 b 3946e40 b 3971 e80 b 4016e60 b 4045e10 b 4073eOO b 4104160 b 4174e80 b
0e45 0.09 0e12 1 e77 0.38 0e23 0e76 0056 0e15 0.08
2551e90 b O.tIO 2558e20 b 00417 2591eOO b OeIK) 259be90 b 0.79 2606e70 b Oe!U
2610eOO b Oe61 2630.10 b 0057 2636020 b O e 4 1 2641e20 b 0.79 2653e40 b 1.M 2659.50 b O e 9 8 2671s80 b 0066 2689elO b O e 4 5 2703.20 b 0084
2795030 b 2807e30 b 2815e60 b 2 8 2 2 e O O b 2824e90 b 2838e30 b 2841 e90 b 2850090 b 2880e90 b
0.40 0188 0127 0.68 1 e 0 2 Oe50 Oe36
0070 0.48
3055e70 b 3058e60 b 3 7 O e 6 0 b 3087eOO b 3118eOO b 3127ebO b 3132e70 b 3148e30 b 3174.00 b
0.45 0138 O e 3 8 0067 O e 4 1 Oe44 0.51 1160 Oe69
3326.60 b 3635e30 b 3 6 5 4 e 2 0 b 3712eM b 3725e20 b 373L60 b 3746e20 b 3755e10 b 3802e70 b 3839 e 2 0 b
0e42 0e20 0e32 0e59 0e73 0e62 be73 0e43 0.13
4202eOO b 0065 0.13 0e62 0039 0e10 0e05 0e33
334L70 b W e 7 0 b 3371.90 b
4213ew) b 4246e90 b 4450e40 b
339iIiO b 3398e30 b 3436e15 b 3448.50 b
4523e80 b 4758eOO b 4769.60 b
3461.60 b z = 9 4 EpENl:w REFERENCES, 7Mt 74Me
4739.60 C Oe10 4927.90 c Oe10 5097e10 c Oe13 5Y9.40 c 0.02 5673.94 C 0.07 4760.60 c Oe07 4996e10 c 0109 5123e85 b O e 3 4 5575.07 b OS9 5937e32 b Oel7 4904e30 c 0108 5009eW c OB03 5292,W b Oe23 5597e90 c 0117 M91e58 b 0018 9909.10 c 0.10 5047e60 c 0.09 5355e40 c Oe02 We20 c Oe07 6W.40 c 0.04
CROSS SECTION: 2o69EtO2 BM
. - ~. .. . . . . . .
E n e r f v uncertainty a=less than O e l keVi b=betueen 011 and 1 keVi c * ’ m 1 and 3 keVi d= greater than 3 keUe
Alomic Data and Nuclear Data Tables, Vol. 26. No. 6. November 1981
149
M. A. LONE, R. A. LEAVllT; and D. A. HARRISON Prompt y's from Thermal-Neutron Capture
68Jo
69E1
69J0
69Lu
69SAt
69Tr
70BHt
70Gr
70Ha
70JO
70 Ju
70He
70Ra
70%
7OSp
71Be
71Ch - . . ..
71He
71Ka
71Sc
71Va
721s
REFERENCES FOR TABLES
L.V. Johnson and T.J. Kennettr Nucl. Phrs. A 1 1 3 ~ 104 (1968)
P.H. Blichert-loft and KICI Tripathi, in Proceedings of Sraposiua on Neutron Capture G a m a Ray Spectroscopr, Studsvik(1AEA~ Vienna, 1969) p.173
L. Jonsson and R. Hardellr in Proceedings o f Symposium on Neutron Capture Garma Ray SPectroscoPY, Studsvik(1AEAr Viennar 1969) p.199
H, Lrcklana and T.J. Kennett? Nucl. Phrs. A 139, 625 (1969)
C. Sarvour et a1.r Nucl. Phrs. A 123s 581 (1969)
K.C. Tripathit P.H. Elichert-Toftr and S. Borevinrlt in proceedings o f Symposium on Neutron Capture Gamaa Ray Spectroscopur Studsvik(1AEAr Vienna? 1969) r.183
H.R. Ehat et a1.r Fhrs. Rev. C 29 1115 (1970)
L,V, Groshev et all, IZVI Akad. Nauk SSSR Ser. Fir 349 768 (1970)
R. iiardell and C. Beer, Phrsica Scripta -1s 85 (1970)
L.V. Johnson and T.J. Kennettr Can. J. Phrs. 48, 1109 (1970)
E.T. Jurner et a1.r Phrs. Rev. C 29 2323 (1970)
J. Hellera and HI Postrat Nucl. Phrs, A 159, 385 (1970)
N.C. Rasrussen et alar Gulf General Atoric Incorporated, Report DASA 25709 GA-10248 (1970)
E. Selinr Phrsica Scripta 2, 169 (1970)
A.H.J. Spits? A.H.F. OP Den KaaPr and H. GrupPelaarr Nucl. Phrs, A 145t 499 (1970)
D. Bellaanr Atorkernenersie 179 145 (1971)
R.E. Chrienr K. Rimauir and JIE, Gargr Phrs. Rev, C 39 2054 11971)
R.G. Helrer? R.C. Greenuoodr and C.U. Reichr Nucl. Fhrs.'h 168, 449 (1971)
E, Kardonr 1.E.A. tlanuabar P. Grozr Hundarian Academy o f Sciences Report KFKI-71-46 (1971)
L.A. Sthallerr J e Kernr and E( Hichaudi Nucl. Phrs. A 165? 415 (1971)
P.H.H. Van hssche et ale, Nucl. Phrs. A 1609 367 (1971)
A.F.H. Ishaor A. H e Colenbranderr and T.J. Kennettt Can. J. Fhrs, 501 2845 (1972)
Atomic Data and Nuclear Data Tables. Vol. 26. No. 6. November 1981
1 !
1 50
M. A. LONE, R. A. LEAVITT. and D. A. HARRISON Prompt y's from Thermal-Neutron Capture
.. .. , _. . _- - . .
72Ha
7201.
73%
74Gr
741.5
74Ju
74Ke
74Ker
74We
75A 1
75C,o
76:;~
77tlc
78Kr
7833a
788t
79Pi
79VAS
80Gr
REFERENCES FOR TABLES
C.G.-)lattsson, S.E. Arnell, and L. Jonssonr Phrsica Scripta 5, 58 (1972)
HI Ol.tmar et a1.t in Proceedings of Conference on Nuclear Structure Study uith Neutrons(Centra1 Research Institute for Physics, Budapest, 1972) p.88
L.L. Sokolovskr and A.E. Ignatochkin, in Proceedings of Symposium on Applications of Nuclear Data in Science and Technologr(1AEAv Vienna, 1973) p.431
R.C. Greenuood and R . G . Helmerr Nucl. Instrum. Hethod 121f 385 (19741
A.F.H. Ishaa et ale, Nucl. Instrur. nethod 21, 193 (1974)
E.T. Jurneri Reports to the UIS. Nuclear Data Cornmitee, USNDC-11, 152 (1974)
i4 Kern et a1.c Nucl. Phrst A 221, 333 (1974)
j, Kern and D e Ducr Phrs. Rev. C 10, 1554 (1974)
C. Ueitkampt P. Hatussekt and H e Ottrarc Neutron Cai'ture Gamala Ray Srectroscopr, edited b r K.Abrahams e€"al* (Reactor Centrum Nederlands, Petten, 1975) p.749
V.L. Alexzev e t a1.v Nucl. P ~ Y S Q A 2489 243 (1975)
A,H, Colenbrander and T.J. Kennettr Can. 4. Phrs. 53, 236 (1975)
A.H.J. Spits and J. KoPeckr, Nucl. Phrs. A 264, 63 11976)
A.B. HcDonald et al,, Nucl. Phrs. A 281, 325 (1977)
R.C. Greenuood and R,EI Chrien, Neutron Capture Gasma Ray Spectroscopr, edited br RQE.Chrien and UnR.Kane (Plenua Press, Neu Yorkv 1979) ~ ~ 6 2 1
S, Sakarotoi Neutron Capture Gamma Ray SPectroscoPYr edited b r R.E.Chrien and U.R*Kane(Plenur Press, Neu Yorkr 1979) p.737
H.L. St'elts and R.E. Chrien, Nuclr Instrum. Hethod 155r 2531 (1978)
-J.A, Pinston et ale, Nucl. Phrs. A 321, 25 (1979)
J.H. Van den Crurce et a1.t Phrs. Rev. C 20, 504 (1979)
R,CnGreenuood and R.E.Chrien, PhYsr Rev. C 21 (1980) 498
t References for ueaker lou energy gama-rays.
Atomic Data and Nuclear Data Tables. Vol. 26, No. 6. November 1981
t 151
BIBLIOGRAPHIC INFORMATION SHEET
Performing Org. Report No.
Sponsoring Org. Stamdard Report INIS Subject Report No. No. Code
I I I AERVTR-2123/'2002
'ublication Taejon Publisher KAERI Publication Place Date
Page 151 p. Fig. Rr Tab. Yes( 0 1, No ( 1 Size
Title / Subtitle Application of Prompt Gamma-ray Activation Analysis 2
2002. 3. 28
26 cm.
Yong Sam Chung (Applied Research and Development of Neutron Activation Analysis) Kwang Won Park, Jong Hwa Moon, Sun Ha Kim, Sung Rye1 Baek (Applied Research and Development of Neutron Activation Analysis)
Project Manager and Department
Researcher and Department
Classified Open( 0 >, Restricted( 1, - Class Document
Report Type Technical Report
This technical report is written for the promotion to utilization of prompt gamma-ray activation analysis facility to be installed in HANARO reactor. It is described for a practical aspects including experiment and equipments, methodology, current status of the research and development and its applications.
Research ReactodHANARO), Prompt Gamma-ray Activation Analysis, facility and equipment, Sensitivity, Detection Limit. ADdications of Activation Analysis
Subject Keywords (About 10 words)
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