Post on 27-Feb-2023
INTERNATIONAL ATOMIC ENERGY AGENCYXA0101528
INDC(CPR)-054Distr: G+PG
I N D C INTERNATIONAL NUCLEAR DATA COMMITTEE
Thermal-Neutron Capture for A = 26-35
*Z. ChunmeiChina Nuclear Data Centre
China Institute of Atomic EnergyP.O. Box 275 (41), Beijing 102413
People's Republic of China
**R.B. FirestoneIsotopes Project, MS 50A -1148
Lawrence Berkeley National LaboratoryUniversity of California
1 Cyclotron RoadBerkeley, CA 94720
USA
•Research carried out under the IAEA Contract No. 10693/CPR••Research carried out under the IAEA Contract No. 10696/USA
CRP on Development of a Database for Prompt y-ray Neutron Activation Analysis
3 2 / 33 June 2001
IAEA NUCLEAR DATA SECTION, WAGRAMER STRASSE 5, A-1400 VIENNA
Table of Contents
26Mg(n,y) E=thermal 1
27Al(n,7) E=thermal 3
28Si(n,7) E=thermal 14
29Si(n,7) E=thermal 17
30Si(n,7) E=thermal 23
31P(n,7) E=thermal 25
32S(n/y) E=thermal 34
33S(n,7) E=thermal 40
34S(n,7) E=thermal 52
35Cl(n,7)E=thermal 55
References of Thermal-Neutron Capture Data for A=26-36 70
Thermal-Neutron Capture Data for A = 26-35
ZHOU CHUNMEI
China Nuclear Data CenterChina Institute of Atomic Energy
P. O. Box 275 (41), Beijing 102413. People's Republic of China
R.B. FIRESTONEIsotopes Project, MS 50A -1148
Lawrence Berkeley National LaboratoryUniversity of California, 1 Cyclotron Road
Berkeley, CA 94720, USA
Abstract: The prompt gamma-ray data of thermal- neutron captures for nuclear massnumber A=26-35 had been evaluated and published in "ATOMIC DATA ANDNUCLEAR DATA TABLES, 26, 511 (1981)". Since that time the manyexperimental data of the thermal-neutron captures have been measured andpublished. The update of the evaluated prompt gamma-ray data is very necessaryfor use in PGAA of high-resolution analytical prompt gamma-ray spectroscopy.Besides, the evaluation is also very needed in the Evaluated Nuclear StructureData File, ENSDF, because there are no prompt gamma-ray data in ENSDF. Thelevels, prompt gamma-rays and decay schemes of thermal-neutron captures fornuclides (26Mg, 27Al, 28Si, 29Si, 30Si, 3IP, 32S, 33S, 34S, and 35C1) withnuclear mass number A=26-35 have been evaluated on the basis of allexperimental data. The normalization factors, from which absolute promptgamma-ray intensity can be obtained, and necessary comments are given in thetext. The ENSDF format has been adopted in this evaluation. The physical check(intensity balance and energy balance) of evaluated thermal-neutron capture datahas been done. The evaluated data have been put into Evaluated Nuclear StructureData File, ENSDF. This evaluation may be considered as an update of the promptgamma-ray from thermal-neutron capture data tables as published in "ATOMICDATA AND NUCLEAR DATA TABLES, 26, 511 (1981)".
Cutoff Date: March 2001; all references entered into the Nuclear Science ReferencesFile, NSRF, and private communications have been considered.
l527
15
26Mg(n,y) E=thermal 92WaO6
Other: 82HuO2.Target Jit=O+.92WaO6: measured Ey, Iy with a Ge(Li)-NaI(Tl) in Compton-suppressed mode and pair spectrometer mode; deduced neutron
separation energy S(n)=6443.4O keV 5.Other measured S(n)=6443.39 keV 55 (82HuO2).Evaluated S(n)=6443.35 keV 4 (95AuO4).Measured thermal-neutron capture cross section, c(n,y)*39.0 mb 8 (92WaO6).
27Mg Levels
E(level)' Comments
0.0984.921698.631940.353476.333491.473561.563787.394828.14
5028.585925.93(6443.35
3586133641518
4)
1/2 +3/2 +5/2 +5/2 +1 /2 +(3/2,5/2)+3/2-3/2 +(1/2,3/2)-1/2 +
1/2 +
9000
<7<10<7
<17<7
*3035
.458
.98
.98
.76fsfsfsfsfsfsf s
m i n 12ps 7ps 8ps 14
30
%8"-100.
E(level): from evaluated s(n) (95Au04).Jjt: from s-wave neutron capture.Observed deexcitation intensity is 101% of g.s. feeding.
t From adopted levels, except as noted.' From Ey's using least-squares fit to data, except as noted.
T("Mg)
All data are from 92Wa06, except as noted.Iy normalization: renormallzed from assuming Iy(to g.s.)»100.
Ey E(level) Mult.*
241 .6517.3713.7®955.45984.911040. 7*1266.651336.801351.861414.951467. 3
(1537.2)1552.81615.281621.2*1698.581792.8§1846.951862.931939.62088.66(2490.7)2506.572576.502655.862881.672887.6®2951 .42966.77
3129.3®
43
83
1820818
5
75
531810
411
23664
422
1940.35(6443.35)1698.631940.35984.92
4828.144828. 144828. 144828.14(6443.35)5028.585028.585028.58
(6443.35)3561.561698.633491.473787.393561.561940.353787.393476.333491.473561 .56(6443.35)(6443.35)4828.14(6443.35)(6443.35)4828. 14
0.080.62
<0.080.6715.8<0.080.900.440.850.440.08
38
88
86863
-0.025840.05
17.1<0 .082. 870.080.671 .400.231 . 060.050.393.513.72
66.2<0.080.262 . 20
<0 .08
38
18381168362118
21
61$
(Ml)
M1+E2M1+E2
(Ml)(El)(El)
(El)
Ml
(E2+M3)
M1+E2(El)(E2+M3)
(El)
-0.08 6+0.22 2
-0.0
-0.0 3
-0.0
<j(n,y)-0.03 mb 1o(n.y)-0.24 mb 3o(n.y)<0.03mb.
o(n,y)=0.26 mb 3o(n,y)=6.1 mb 3.<j(n.y)<0.03 mb.o(n,y)-0.35 mb 3,o(n.y)-0.17 mb 2.a(n,y)-0.33 mb 3.<j(n,y)-0.17 mb 2.o(n,y)-0.03 mb /.a(n,y)»0.01 mb.o(n,y)=0.02 mb ;.a(n,y)=6.6 mb 3.o(n,y)<0.03 mb.a(n,y) = l.llmb 7.a(n,y)-0.03 mb /.a(n,y)-0.26 mb 3.<j(n.y)=0.54 mb 5.a(n,y)=0.09 mb 2.o(n,y)=0.41 mb 3.<j(n,y)=0.0Z mb /.<j(n.y)=0.I5 mb 2.cr(n.y) = 1.36 m b 8.O(n,y)»1.44 m b 7.a(n,y)=25.6 m b 8.a(n,y)<0.03 mb.o(n,y)=0.10 m b 2.<r(n,y)-0.85 m b 6.o(n,y)<0.03 mb.
Comments
Continued on next page (footnotes at end of table)
15
26Mg(n,v) E=thermal 92WaO6 (continued)
y(27Mg) (continued)
E(level) ITT* Mult.* Comments
3476.3490.3561 .3787.3843.3985.4043.4827.4940.5457.5924.6442.
19931050156675§82950
964158636315
46
347634913561378748285925502848285925(64435925(6443
.33
. 47
.56
.39
. 14
. 93
.58
. 14
.93
.35)
.93
.35)
30
60180050209
.02
. 26
. 7
.78
. 1
. 10
.23
. 7
. 10
. 51
.36
. 3
1651816
536
43186
5
MI
(El)
(El)
<j(n.Y)-1.17cj(n.Y)-0.10o(n,Y) = 23.5<j(n,Y)=0.69o(n,Y)-3.14o(n.Y)-0.04o(n,Y)-0.09o(n.,Y)-2.20o(n.Y)=0.04o(n.Y)-0.97o(n.Y)-0.14o(n.Y)=3.59
mbmbmbmbmbmbmbmbmbmbmbmb
6.2.7.6.16.1.2.131.7.2.17.
* Absolute intensities per 100 neutron captures. For y-ray cross section In mb, multiply by 0.3906 per 100 neutron captures.
* From adopted gammas.
§ Presence deduced from the known level energies and brnching ratios.
* For intensity per 100 neutron captures, multiply by 1.
® Placement of transition in the level scheme is uncertain.
Level Scheme
Intensities: I(y+ce) per 100 parent decays
(6443.35)
5925.93
9.458 min
2 8 A II3A11
2 8 A I13A115
27Al(n,T) E=thermal 82Scl4
Other: 90H05. 82shO27, 81PrO4.
Target Jit-l/2 + .
82Scl4: measured Ey, ly with a Ge(Li) detector, a curved crystal spectrometer GAMS, and a pair spectrometer applying
a self- consistent energy calibration. Deduced neutron separation S(n) = 7725.t8 keV 8.
Other measured S(n)-7725.20 keV 6 (80Is02).
Evaluated S(n)=7725.05 keV «(95AuO4).
28A1 Levels
E(level)* Comments
0
30
972
1013
1373
1620
1623
2139
2201
2271
2486
2565
2582
2656
2987
3296
3347
3465
3591
3670
3709
3875
3901
3935
4244
4461
4596
4691
4765
4903
5015
5134
5177
5377
5442
5741
5797
5860
6019
6198
6316
6419
6441
6623
6651
6756
6893
7176
7269
(7725
. 0
.8268 7
.483
.695
.045
.438
.006
.005
. 586
.817
.256
.80
.06
. 172
.66
.486
.280
.342
. 529
.883
.282
.842
.044
.658
.52
.96
.601
. 191
.010
.615
.525
.932
.03
.860
.414
.243
.636
.868
. 706
.932
.862
.94
.481
.20
.282
.766
.796
. 542
. 545
.05
14
4
9
24
8
5
18
8
11
5
15
17
5
8
7
5
4
20
9
6
15
7
5
5
17
3
5
5
12
5
3
24
6
9
9
15
13
7
6
4
8
3
22
22
11
21
24
6)
3 +
2 +
0 +
3 +
1 +
1 +
2 +
2 +
1 +
4 +
2 +
( 1 . 2 . 3 + )
5 +
4 +
(1 . 3 ) +
3 +
2 +
4-
3-
3 +
(2.3)+
2-
(1.3.5)+
2 +
2 +
(2.4)+
1 +
3-
2-
2-
3 +
3-
(1+.2.3+)
(1+ to 4+)
2-
(1 to 4+)
2-
(2.3)+
(1+ to 4+)
(2+ to 4+)
2 +
( 1 . 2 ) +
(3+,4)
( 1+ to 4 + )
(0+ to 3+)
(2+,3)
(2+.3)
(1+ to 3+)
(2+ to 4+)
2+,3 +
2
233
105
220
85
85
55
45
20
70
370
3560
100
100
62
70
130
185
55
185
<40
40
160
35
35
39
28
28
. 2414 min 12 %B"=100.
.07
ps
fs
fs
fs
fs
fs
fs
fsf s
fs
fs
fs
fs
fs
fs
f s
fs
fs
fs
fs
fs
fs
fs
fs
fs
fs
fs
fs
ns 5
2
20
35
40
40
14
25
10
15
40
14
55
20
35
8
15
40
20
15
30
20
85
9
9
6
7
7
E(level): 1E(levet): from evaluated s(n) (95Au04).
JTU: from s-wave neutron capture.Observed deexcltation Intensity is 101% of g.s. feeding.
From adopted levels, except as noted.From 82Scl4 (only the statistical error is given; to obtain the total errors an additional systematic error of llppm has to be
added), except as noted.
2 8 A 113A115
283
27Al(n,Y) E=thermal 82Scl4 (continued)
y(28Al)
All data are from 82Scl4, except as noted.
ly normalization: renormalized from assuming Iy(to g.s.) = 100.
E(level) IYtS Mult.* Comments
30.8282 7(310.2)400.573 22455.70 5548.69 4647.94 5831.464 20(863.24)865.84 5941.72 3945 . 34 7968.49 S982.968 231013.605 251073.99 51102.08 41125.266 141173.440 91 193.500 23
(1283.54 7)1283.70* 31305.30 121342.280 181364.62 141372.917 181408.346 9(1437.40)(1513.75)1526.258 12(1570.24)1589.64 51592.235 18(1620.26)1622.871 181642.41 31673.411 221705.52 41720.0* 3
1864.33 31927.56 3
"1963.68 201968.452 191975.2* 5
1983.990 132047.77 42108.192 //2128.70 32138.828 92170.74 32247.39 32255.36 52271.667 162276.7* ;/
"2279.1 7
30.82682582.061373.045
(7725.05)(7725.05)1620.438
(7725.05)2486.2562486.256972.483
2565.80(7725.05)1013.6951013 .695
(7725.05)(7725.05)2139.0054765.0103465.342
2656.172(7725.05)(7725.05)1373.0452987.661373.045(7725.05)3709.2822486.256(7725.05)3709.282
1620.4381623.0061620.4381623.0062656. 1723296.486(7725.05)5015.5256316.8626623.20(7725.05)
(7725.05)
3591.5292987.663347.2804461.965442.414(7725.05)3670.8832139.0056893.7962139.0052201.5864903.6153875.8422271 .8173901.0444765.0105741.243
2 7.9 CA0.003 10.63 70.29 70.23 30.07 41.3 20.10 50.54 71.3 ;0.24 70.42 64.4 52.7 30.57 70.7 20.38 70.39 90.6 11.1 /i.i*;0.19 51 .0 10. 38 60.15 83. 1 30.27 6
0.05 i1.820.19 61.6 20. 36 50. 14.650.30 50. 23 30. 39 50.08* 50.08* 50.08* 50.46 71.220.05 10.10/0.025* 80.025* 80.025* 80.025* 81.1 /0.07 /2.8 /0.34 22.2 /0.45 30 . 040 60.55 42.1 10.04* 30.04* 30.04* 30.08 3
Ml (+E2)(Ml)Ml
Ml
E2
M1+E2(Ml)
(El)
M1+E2
(E2)
MI+E2
(Ml)
(El)
El
+0.001 6
+0.13 5
-0.14 9
+0.18 9
If: not measured. Value from intensity balance.
Continued on next page (footnotes at end of table)
f|Al,528
27Al(n.y) E=thermal 82Scl4 (continued)
•y(28Al) (continued)
E(level) IYtS Mult.* Comments
2282.804 15"2299.94 102312.56 52347.27 4
"2380.34 5"2384.3 32419.22 3
2451 .554 182455.42 32486.058 192502.71 42534.92 162548.09 52552.060 102563.32 3
"2567.8 32577.696 132581.90 192590.212 172625.866 23
"2656.34 72690.65 52709.62 4
"2717.4 42725.206 13
"2728.27 5"2733.64 32743.51 32821.454 72862.000 112876.44 //2880.73 72887.208 25
"2893.87 17
2903.24 32921.795 172954.38 182960.099 102973.42 72987.41 73017.75 33020.235 153024.89 133033.904 6
"3053.6 4
3068.00 3"3075.65 93128.48 3"3142.22 6"3191.20 12"3208.27 73222.73 43230.59 83254.736 233263.06 83265.544 173303.153 9
3316.341 123346.975 12
"3375.08 243391.74 53409.26 53448.06 8
(7725.05)
3935.658(7725.05)
4691.1913465.3422486.2562486.2563875.8422565.80(7725.05)4691.1914765.010
3591.5292582.06(7725.05)4765.010
5177.03(7725.05)
6316.862
5015.525(7725.05)3875.8425442.4146756.7663901.044
3875.8423935.6586419.94(7725.05)4596.6012987.666893.7966316.8627269.545(7725.05)
4691.191
(7725.05)
6893.7964244.525741.243(7725.05)3296.4865442.4143347.2803347.280
4765.0106756.7664461.96
4.7 20.12 /0.035 60.16;0.21 10.034 60. 14 10.39 20.036 70.18 I0.16 10.084 80.15 10.094 80.10 J0. 70 /2.2 10. 05 14.2 21 .37 70.16 ;0.029 S0.69 40.021 50.021 60.27 10.38 20.045 63.9 20.038 60.116 80.027 50. 23 ;0.049 60.011 50.28 ;0.23 39.6 50.024 30.32 40.06 20.07 20.05 28.8 40.021 50.081 30.083 60.24 10. 16 10.048 30.092 60.049 30.027 30.022 3
0. 10 /0.42 31.14 6
0.025 30.50 30.026 30.57 30.023 30.032 5
(El)(El)
E2El
(El)
(El)(E2)
(El)
(El)
(El)
Iy: 3.9 2(90Is05).
ly: 9.2 4 (9OIsO5), 9.0 14 (82Sh27). 9.63 19 (81PrO4).
Iy: 8.7 4 (90Is05). 7.28 11 (82Sh27), 8.99 /S(81PrO4).
Continued on next page (footnotes at end of table)
2 8 A I13A i1
2 8 A ,13A115
27Al(n,y) E^thermal 82Scl4 (continued)
Y(28A1) (continued)
Ey E(level) ITtS Mult.* Comments
3465.063 7"3472.3 33480.54 123560.567 7
"3569.9 33591.201 63598.46 103623.88 73635.24 83639.88 43659.06 3
"3671.22 83678.32 3
"3702.22 73708.953 IS3721.60 3
"3725 . 1 33750.83* 18
3754.62 43768.82 93789.322 ;/3803.74 53821.67 83823.908 243849 .114 7
3859.1 3"3865.7 4
3875.495 10"3881.8 43889.659 123900.701 243904.653 143926.816 193935.287 11
"3949.8 44001.49 84015.655 10
"4023.21 54044.716 224054.09 44059.647 144069.007 194085.17 84100.26 154 119.9* 4
"4125.09 224133.406 64162.4* 5
4169.347 19
"4175.06 23"4185.23 104213.43 84218.04 74237.43* 10
4259.539 64270.14 54280.58 IS
"4330.75 124377.624 12
3465.342
(7725.05)3591.529
3591.5297269.5454596.6016623.203670.8835860.868
3709.282
3709.2825860.868
4765.0106316.8625377.8606756.766(7725.05)5177.035442.414(7725.05)(7725.05)
6441.481
3875.842
4903 .6153901 .0443935 . 6586198.9323935.658
5015.525(7725.05)
6316.862(7725.05)6198.9325442.4146651.2826756.7665134.9325741.243
(7725.05)5134.9325177.036441.481
4244.526419.945860.8686893.796(7725.05)6756.7666419.94
(7725.05)
7.0 40.06 10.12 10.93 50.036 64.7 ^0.15 /0.086 60.010 30.073 50.064 50.070 50.31 20.078 5
0.45 20.030 30.024 30.035* 30.035* 30.043 30.013 20.87 40.011 30.033 80.56 33.1 20.046 60.027 62.7 /0.027 60.23 10.23 /0.20 /0.023 30.33 20.014 20. 135 80. 73 4
0.138 80.023 20.143 80.030 30.157 80.008 20.016 50.040* 80.040* 80.088 96.9 30.019* 50.019* 50.122 70.030 30.064 50.056 30.027 30.060* 50.060* 56.8 30.054 70.17 10.052 30.43 2
(El)
(El)
(El)
Ml
Iy: 7.1 3 (90Is05). 7.25 15 (81PrO4).
Iy: 4.7 2 (90Is05). 4.86 10 (81PrO4).
Iy: 7.0 3 (9OIs05). 7.53 113 (82Sh27). 7.37 15 (81PrO4).
Iy: 7.0 3 (90Is05), 6.16 95 (82Sh27). 7.37 15 (81PrO4).
Continued on next page (footnotes at end of table)
2 8 A I 2 8A1
27Al(n,y) E=thermal 82Scl4 (continued)
y(28Al) (continued)
E (level) Mult.* Comments
"4384.1 4
4396.32 44424.221 204428.418 12
"4447.27 194461.54 84484.52 54511.86 44565.47 34575.555 17
"4582.21 //4596.11 34612.98 6
"4617.77 124621.53 34660.046 54690.678 54733.846 74737.17 184754.35 64764.479 8
"4769.61 154783.485 18
"4812.54 17"4868.80 94903.113 6
"4965.8 44984.308 17
"4996.64 75005.504 245014.940 21
"5031.51 175068.60 35103.702 75130.06 115134.334 7
5142.6 45176.45 55184.74 3
"5203.54 21"5209.30 24"5213.4 5"5228.4 45238.478 19
"5269.91 65277.68 55302.632 12
•5315.14 125343.87 65377.25 45411.077 75427.257 135441.70 75446.90 75452.84 4
"5459.39 185523.13 7
"5564.6 55585.667 23
"5594.7 45709.852 13
"5719.14 IS
"5729.6 4
60195797(7725
44616756665145966198
45967269
6893469146914765(772568934765
5797
4903
5015
60195015
(77255134
72695134(77255177
6198
(7725
66516316
631653775442644154426419(7725
(7725
(7725
5741
. 706
. 636
.05)
.96
.766
.282
.601
.932
. 601
.545
.796
.191
.191
.010
.05)
.796
.010
.636
.615
. 525
.706
.525
.05)
.932
.545
.932
.05)
.03
.932
.05)
.282
.862
.862
.860
.414
.481
.414
. 94
.05)
.05)
.05)
.243
0.010 20.058 30.36 20.81 40.019 20.042 30.071 50.084 50.027 2
0.30 i0.041 30.124 70.016 20.082 60.19 /2.6 14.6 25.5 30.45 20.38 20.91 50.113 90.011 30.031 20.058 33.1 20.009 /0.113 60.064 30.048 30.003 /0.017 /0.173 90.39 20.107 9
3.0 /0.015 20.070 30.030 20.017 ;0.022 20.009 20.008 10. 26 /0.057 30.021 10. 47 20.031 20.017 /0.080 52.0 /0.087 50.015 20.035 20.168 90.021 20.064 30.007 /1.10 50.009 10.56 30.022 20.008 1
(El)(El)(El)
(El)
(El)
E2
(El)
(El)
I7: 2.6 ; (90U05).IY: 4.8 2(90Is05). 4.99 10 (81PrO4).
I7: 3.3 2(90Is05).
ly: 3.2 2 (90Is05), 3.26 6 (81PrO4).
Continued on next page (footnotes at end of table)
2 8 A1 2 8 A I13 A 1 15
27Al(n,Y) E=thermal 82Scl4 (continued)
Y(28A1) (continued)
E(level) Comments
"5748.2 14"5760.57 245766.272 175796.904 175802.89 55829.49 45860.12 35879.42 3
X5882.6 6"5923.42 7"5969.54 155988.284 236018.92 36101 .54 5
"6109.6 7"6121.3 56162.13 46198. 141 /;
"6210.8 36255.10 S
"6289.6 86316.031 12
"6329.5 86351 .45 4
"6390.2 J6419.06 126440.651 /;
"6449.5 5"6459.69 226591.61 46619.69 46622.24 9
"6628.4 56710.692 76725.16 56751.93 8
"6800.7 5"6823.03 116862.16 3
"6894.27 17"6936.97 5"7135.24 127175.50 47237.83 107268.46 5
"7342.25 //"7377.0 3"7407.73 ;/7693.407 •*7724.036 4
579757977176586058606893
60196019(7725
71766198
7269
6316
(7725
64 196441
662366516623
(77256756(7725
6893
717672697269
(7725(7725
. 636
. 636
. 542
. 868
.868
. 796
. 706
.706
.05)
. 542
.932
. 545
.862
.05)
.94
.481
. 20
.282
.20
.05)
.766
.05)
.796
. 542
.545
.545
.05)
.05)
0 .0020. 0230.380.1240. 0350.0130 . 1550.0260.0090.0430.0230.0230 . 1872.6 /0.0100.0110.0130.670.0130.0140.0032.0 10. 0080. 1090.0080. 0060. 660. 0070.0160. 1640.240.190.0110. 900.0860. 0580.0220.0550. 1730 .0310. 1240.0540. 1330.0870 .0380.0600.0210.0653.3 2
26.8 /
2227218222229
222
3111
2611
3119
222553239273452325
Iy: 2.7 / <90Is05). 2.71 6 <81PrO4).
Iy: 0.70 3{90Is05}.
Iy: 0.71 3 (90Is05).
Iy: 3.6 2 (90Is05), 5.8 (82Sh27).Iy: 29.5 7{90Is05). 25.1 67 (82Sh27), 32.1 5(81PrO4).
t Absolute intensities per 100 neutron captures.* From adopted gammas.§ For intensity per 100 neutron captures, multiply by 1.* Multiply placed; undivided Intensity given.x y ray not placed In level scheme.
28
27AI(n,y) E=thermal 82Scl4 (continued)
Level Scheme
Intensities: I(y+ce) per 100 parent decaysSc Multiply placed; undivided Intensity given
4*t*£fe^S*&*tt*^^
(2 + to 4*)(1+ to 3+)
(0 + to 3-0to 44-)
(1.2U
(2t to 4t)(It to 4t)(2.3)4-
_2_-(1 to 4*)2 -(14- tO 44-)
(14-2,3+)
3 -
2 -
3 -
(2,4)4
(1,3,5)4
2 -
(2-3)t34-
3-
34-
(1,3)44*
54-
Z-t-
4 +
It24-
2 t14-
34-04-
(7725.05)
7269.5457176.542
6893.7966756.7666651.282
\ 6623.201 6441.481\ 6419.94\ 6316.862I 6198.932[ 6019.706
5860.8685797.6365741.243
\\ 5442.41-1^5377.860p\ 5177.03«\ 5134.932^5015.525WU903.615WL 4765.010A\ 4691.191
\ 4596.601U461.96U244.52\ 3935.658\ 3901.044\ 3875.842\ 3709.28213670.883i 3591.529\ 3465.342U347.280\ 3296.4861 2987.66[ 2656.172
M 2582.06M 2486.256W\ 2271.817\\ 2201.586-A 2139.005\ 1623.006
"A 1373.045
1013.695-/972.483
30.8268Inn
28 fs
28 fs
39 fs35 fs35 fs160 fs
40 fs<40 fs185 fs55 fs185 fs130 fs70 fs62 fs100 fs100 fs60 fs35 fs370 fs70 fs20 fs45 fs55 fs85 fs220 fs105 fs33 ps
2.07 ns2.2414 min
13A115
28*113A 11
28A 113A115
27Al(n,Y) E=thermal 82Scl4 (continued)
Level Scheme (continued)
Intensities: I(Y+-ce) per 100 parent decays& Multiply placed: undivided intensity given
(24- tO 44-)
(14- tO 34-)
(24-.3)
1^4-, JJ(04- tO 34-)(14- tO 44-) /
(1.2)4- //
2. /
(1+ to 4+)
3
2 -
2 -
14-
24-
2-34-
4 -
2+
34- /
(1.3)4-
4 +
(1 2 3-4) \
2+ 14 +
24- /
1 +
14-
3 +
0, \
2-f
3+ \ '
m, • # $ $
4^ ^
la-'st
a-
$ <$
rvJ *
% ?c
—s
(
7269.5457176.542
1
—i
ism
r /
i
ty ^ 6893.796
5;J>« 6651.2825 ^ \ 6623.20
I1\\ 6419.94\ 6316.862
5377.860
5134.932
4903.6154765.010
4596.601
4244.52
3875.8423670.883
3465.3421^47 5an
\ 3296.486
2987.662656.172
/ 2582.06n / 25B5.SO
2271.81712201.586\ 2139.005
1620.438
1373.045
1013.695/ 972.483
30.8268In n
28 fs
39 fs35 fs160 fs
40 fs
55 fs130 fs70 fs62 fs100 fs100 fs60 fs35 fs370 fs
70 fs20 fs45 fs55 fs
85 fs
220 fs
105 fs33 ps
2.07 ns2.2414 min
28 A 1
10
28
27Al(n,Y) E=thermal 82Scl4 (continued)
Level Scheme (continued)
Intensities: I(y+ce) per 100 parent decays& Multiply placed; undivided intensity given
.2+.3 + (77.25.05)
(14- to 3+) 7176.542
(2f,3) 6893.796
(2+ to 4+) •<(1+ to 4+)( 2 . 3 ) + V" • "•
2 - *
(1 to 4+) 1
2 -
(1+ to 4+) *
(1 + .2.3+)
3 - /3+ /
2 - " /
(2.4)+
2 +
2
3 +
4 -
3+
(1.3)+
4 +
(1.2.3+1 \
4 +
1+ *
2+ /
2 +
1+ \
1 +
3 +
0+ \
2+
<
1
y
ft
1
— ^
s516198.9326019.706
LS'Q«•«
s
' 5860.868' 5797.636
" \ 6741.243§> o? 5442.414V»"V^ ' 5377 860^ < S ^ Q • " " ' " " "
^?& 5177.03V \ 5134.932^ \ 5015.525
\ 4903.615
4461.96
4244.52
3670.883
3465.3423296.486
2987.66
2656.172
2271.817' 2201.586\ 2139.005
1623.006H620.438
1373.045
1013.6951 972.483
30.8268/ 0 0
28 fs
28 fs
40 fs
55 fs130 fs
62 fs100 fs
6 0
35
70204555
8585
fs
fs
fsfsfsfs
fsfs
220 fs
105 fs33 ps
2.07 ns2.2414 min
28 >iI 3 A i I 5
11
28Ai13A11
28A 113 r t l1
27Al(n,y) E=thermat 82Scl4 (continued)
Level Scheme (continued)
Intensities: I(v+ce) per 100 parent decays
& Multiply placed; undivided intensity given
2 + .3 .(7725.05)...
(It to 3+)
(2+,3)
(1+ to 4+)
(12) +
(2+ to 4+)
(1+ to 4+)
(1 to 4+)
7176.542
6893.796
6623 20
«4ia <u
6198.932
6019.706
5741.243
5134.932
•>-
3- U^1 +
(2.4)+
2 +
2 +
(1.3.5)+ \
2 - tt=
(2.3)+
3+ /,
3- 1Z4- /P3+ /
2 +. 1
1+ \-j V
2 +
1+ \
1 +
3 +
0+ \
2+
3+ \ "
i <s%cr§ _r 1 —
A
-9"1
« « nin
^ V / \ /
?s
; ;
1/
v
4596.601
f
t
I /
ri
,
4461.96
c.
?
4244.52
'3935.658
/ 3901.044
p$-. '/ 3875 842
* O * W 3709.282
'•5>'b> \ 3670.883
'i? A 3591.529v V1\ 3465 342
U 3347.280
\ 3296.486
2486.256/
/ 2201.586
1623.006
/ 1620.438
1373.045
1013.695
i 972.483
30.8268
/o.O
28 fs
35 fs35 fs160 fs
40 fs<40 fs185 fs55 fs185 fs130 fs70 fs62 fs100 fs100 fs
70 fs20 fs45 fs55 fs
85 fs85 fs
220 fs
105 fs33 ps
2.07 ns2.2414 min
28 A 113AI15
12
28A1
27Al(n,y) E=thermal 82Scl4 (continued)
Level Scheme (continued)
Intensities: I(7+ce) per 100 parent decays& Multiply placed; undivided tntensity given
.20 + (77.2.5.05).,
(1+ to 3+)
(2+3)
(1 2) +
(2+ to 4+)
(1+ to 4+)
(1+ to 4+)
3-
2-
3-
(2.4)+
2+
2 '
3 i
7176.542
6893.796
66?3 20
Rdto. ai
6198.932
6019.706
5377.860
5134.932
4903.615
4691.191
4461.96
4244.52
3875 842
28 fs
39 fs
35 fs
40 fs
55 fs
130
2.07 ns2.2414 min
13A115
13
29c,14O115
2gSi(n,y) E^thermal 92Ral9,9OIsO2
Others: 90Is02, 9OIsO5.
Target Jit-O+.
92Ral9: measured Ey. ly with a Ge(Li)-NaI(Tl) In Compton-suppressed mode and pair spectrometer mode. Deduced neutron
separation energy S(n)=8473.56 keV 4.
Other measured S(n)=8473.61 keV 4 (90Is02).
Evaluated S(n)=8473.55 keV 3 (95AuO4).
Measured thermal-neutron capture cross section, a(n.y) = 169 mb 4 (92Ral9), 207 mb 4 (9OIsO2.9OIsO5).
29Si Levels
E(level)* Comments
0.0
1273.375 222028.04 72425.86 33066.98 44840.34 74934.389 226380.575 246712.9 56908.52 67058.00 97523.19 137996.9 3(8473.55 3)
1 12*3/2 +5/2 +3/2 +5/2 +1/2 +3/2-1/2-3/2(1 /2+.3/2)1/2 +(1/2.3/2)3/2-1/2 +
s t2903061832<300
<15<15
ablfsfs.4fsfs.48.36
f sfs
e1010
ps 112
fs 12fs ;;
E(level): from evaluated S(n) (95AuO4).
Jn: from s-wave neutron capture.
Observed deexcltatlon Intensity is 100% of g.s. feeding.
t From adopted levels, except as noted.
* From Ey's using least-squares fit to data, except as noted.
y(29Si)
All data are from 92Ral9. except as noted.
Iy normalization: renormalized from assuming Iy(to g.s.) = 100. a(n,y)=0.177 5.
Ey E(level) Iyt* Mult.' Comments
397.7476. 6
43
(641.25)754 . 2950.33
1038.89"1071 .01152.461273.331415.541446.141540. 181564.99
1760 . 41793.51
1867.29
2027.98
2092.89
2123.82425.73
2508.24
41310
S63946S
54
5
9
3
64
13
2425.86(8473.55)3066.982028.04
(8473.55)3066.98
2425.861273.375
(8473.55)6380.5756380.575(8473.55)
(8473.55)3066.98
4934.389
2028.04
(8473.55)
7058.002425.86
4934.389
0.018 60.059 120.017 90.030 120.071 12
0.136 180.047 120.528 2416.9 90.213 240 . 7 9 30.35 30 . 5 2 *
0.042 120.66 4
0.77 4
0 .44 5
19.6 8
0.024 63.00 12
0.25 3
(Ml)
M1+E2
M1+E2
M1+E2M1+E2
(Ml)(El)
M1+E2
(El)
E2 (+M3)
El§
(El)M1+E2
-0
+ 0
+ 0+ 0
+ 0
-0
-0
. 03
.04
. 009
. 197
. 26
. 0
. 32
3
2
89
2
7
o(n,y)=0.03 m b / (92Ral9).o(n,y)=0.10 m b 2 (92Ral9).o(n,y)-0.029 m b 15.o(n,y)-0.05 m b 2 (92Ral9).a(n.y)=.0.12 m b £(92Ral9).o(n.y)=0.23 m b 3 (92Ral9).o(n.y)=0.08 m b 2(92Ral9).a(n,y)=0.89 m b 4(92Ral9).<r(n.y)=28.5 m b /•* (92Ral9).<j(n,y)=0.36 m b 4 (92Ral9).<j(n.y) = 1.34 m b 5(92Ral9).o(n,y)=0.59 m b 5(92Ral9).Iy: 0.52 13 (9OIsO2).a(n,y)=0.87 m b 5(92Ral9).o(n.y)=0.07 m b £(92Ral9).Iy: 0.55 8 (90Is02).o(n.y) = 1.12 m b 6 (92Ral9).ly: 0.84 *(90Is02).cr(n.y) = 1.30 m b 6 (92Ral9).Iy: 0.80 5(90Is02).cr(n,y)=0.74 m b 7(92Ral9).Iy: 19.67 20 (90Is02).<r(n.y)=33.0 m b 12 (92Ral9).<j(n,y)-0.04 m b 1 (92Ral9).Iy: 3.02 5 (90Is02).<j(n.y)=5.06 m b 20 (92Ral9).Iy: 0.21 2 (90Is02).o(n.y)=0.42 m b 5 (92Ral9).
Continued on next page (footnotes at end of table)
14
28Si(n,y) E=thermal 92Ral9,90Is02 (continued)
y(29Si) (continued)
E(level) Iyt# Mult.* 8* Comments
29063538
356636333660
38413954
4482
46324839
4880
4933
50965106
5405
5634
57846046
6379
6444
6711
69077056
7199
7521
7994
8472
.2 5
.98 4
. 5 5
.0®
.80 6
.4 6
.44 5
. 1 4
.3 7
.6 4
.2 5
.98 3
. 4 7
. 74 6
. 4 9
. 4 4
.7 7
.91 16
.80 4
.9 5
.4 9
. 6 7
.9 4
.20 5
.8 9
.9 9
.2223 5
4934
(8473.
4840(8473.4934
6908.6380.
6908.
7058.4840.
6908.
4934.
7523.6380 .
(8473.
6908.
7058.(8473.
6380 .
(8473.
6712.
6908.7058.
(8473.
7523.
7996.
(8473.
.389
.55)
3455).389
52575
52
0034
52
389
19575
55)
52
0055)
575
55)
9
5200
55)
19
9
55)
0.042 1270.3 22
0.036 12<0.0714.09 18
0.042 122.61 18
0.11 3
0.024 12
0.24 3
0.18 3
65.7 21
0.042 123.68 18
0.036 12
0.125 18
0.018 60.33 4
11.3 6
0.119 24
0.030 12
0.059 180.16 3
7.13
0.012 6
0.018 6
2.17 12
El§
(El)
(El)
Ml
El (+M2)
(El)
E2§
El
E2§
Ml
o(n,y)=0.07 mb 2 (92RaI9).Iy: 69.74 70 (9OIsO2).c(n.y)=118.5 mb 36 (92Ral9).cr(n,y)=0.06 mb ^(92Ral9).o(n,y)<0.12 mb (92Ral9).Iy: 4.05 4 (90U02).o(n,y)=6.9 mb 3 (92Ral9).<j(n,y)=0.07 mb 2(92Ral9).Iy: 2.40 3 (90Is02).cr(n.y)=4.4 mb 3 (92Ral9).Iy: 0.11 / (90Is02).o(n.Y)-0.18 mb 5(92Ral9).<r(n.y)-0.04 mb 2 (92RaI9).IY: 0.24 2 (90Is02).o(n.y)-0.40 mb 5 (92Ral9).IY: 0.15 2(90Is02).o(n,Y)=0.30 mb 5 (92Ral9).
- 0 . 0 5 10 IT- 62.49 65 (9OIsO2).
o(n.Y)-110.8 mb 34 (92Ral9).c(n,Y)-0.07 mb 2 (92Ral9).Iy: 3.55 4 (9OIsO2).a(n,y)=6.2 mb 3 (92Ra(9).ly: 0.020 3 (90Is02).<j(n,y)-0.06 mb 2 (92Ral9).Iy: 0.11 / (90Is02).o(n.Y)-0.2l mb 3 (92Ral9).a(n.y)=0.03 mb / (92Ral9).Iy: 0.30 ; (90Is02).<j(n,y)-0.55 mb ff(92Ral9).Iy: 11.04 13 (90Is02).o(n,y) = 19.0 mb 10 (92RaI9).IY: 0.13 / (90Is02).o(n,y).0.20 mb 4 (92Ral9).Iy: 0.040 5 (9OIsO2).o(n,y)=0.05 mb 2 (92Ral9).o(n,y)-0.10 mb 3 (92Ral9).Iy: 0.15 1 (9OIsO2).o(n.y)-0.27 mb 5(92Ral9).Iy: 6.81 7 (90Is0Z).o(n,y) = 11.9 mb 5(9ZRal9).Iy: 0.020 3 (90Is02).<r(n.r)=0.02 mb / (92Ral9).Iy: 0.020 4 (90IsO2).o(n.y)=0.03 mb / (92Ral9).Ey: from 97Ro26.Iy: 2.12 2 (90Is02).o(n.y) = 3.66 mb 20 (92RaI9).
t Absolute Intensities per 100 neutron captures. For y-ray cross section In mb (92Ral9), multiply by 1.6892 per 100 neutron captures.
* From adopted gammas, except as noted.5 From 92Ral9.* For Intensity per 100 neutron captures, multiply by 1.® Placement of transition in the level scheme is uncertain.* y ray not placed in level scheme.
15
29ci14O 115 1 4 a l 1 5
28Si(n,Y) E=thermal 92Ral9,90Is02 (continued)
Level Scheme
Intensities: I(y+ce) per 100 parent decays
stable29c.14311
29Si(n,Y) E=thermal 92Ral9,90Is02
Others: 90Is02, 9OIsO5.
Target JK*> 1/2 + .
92Ral9: measured Ey, If with a Ge(Li)-NaI(Tl} in Compton-suppressed mode and pair spectrometer mode. Deduced neutron
separation energy S(n) = 106O9.24 keV 5.
Other measured S(n) = 10609.2 1 keV 4 (90Is02).
Evaluated S(n) = 10609.18 keV 3 (95AuO4).
Measured thermal-neutron capture crass section. o(n.7)-119 mb 3 (92Ral9). 120 mb 3 (90Is02.90IsO5).
30Si Levels
E(level)* Jitt T,,,t Comments
0.0
2235.308
3498.51
3769.47
3787.70
4810.34
4830.84
5231 .55
5280.0
5372.2§
5487.55
5614.01
6641 . 19
6744.06
6914.78
7507.86
7667.2 4
8104.8 3
8154.8 3
8163. 18
8898.07
8936.5*
23
4
4
5
;;
4
7
6
6
12
6
3
19
4
4
10
3
0 +
2 +
2 +
1 +
0 +
2 +
3 +
3 +
0 +
3-
2 +
2-
1-
2 +
2-
(1.2)+
2 +
(1 - to
1-
1-
2 +
4 + )
stable
248
58
36
8.
107
94
55
60
49
<14
23
0.
<24
<25
<14
<25
fs
fs
fs
3
fs
rsfs
fs
fs
fs
fs
6
fs
fs
fs
fs
12
5
9
ps 5
14
17
14
20
14
8
fs 2
Continued on next page (footnotes at end of table)
16
29Si(n,y) E=thermal 92Ral9,90Is02 (continued)
30Si Levels (continued)
E(level)* Comments
8953.29 129103.72 49308.07 69597.17 99619.76 69792.34 610202.08 810275.8 3
(10609.18 3)
(1 ,2+)(0 to 2 ) -(0 t o 3+)
1-I -1-(0+ to 4+)0+ , 1 +
<25 fs<25 fs
0.13 fs 50.07 fs 20.05 fs 3
E(level): from evaluated S(n) (95AuO4).Jn: from s-wave neutron capture.Observed deexcitatton intensity is 77% of g.s. feeding.
T From adopted levels, except as noted.' From Ey's using least-squares fit to data, except as noted.§ y-rays feeding this level were sought but not observed.* y-ray deexciting this level were sought but not observed.
All data are from 92Ral9. except as noted.17 normalization: renormallzed from assuming Iy(to g.s.) = 100.
E? E(level) irr# Mult.*
Y(30Si)
5*
271.0®289.2®
"295.7 4'326.0 4333.3 3
"355.80 8400.9 4407.14 7421.0 5
"646.8 3"692.5 5(782.0)(803.6)816.87 5989.45 5998.9 3
1012.05 91022.6®1027.1®1040.9®1061.3®1153.61 13
(1248.0)1263.18 61301.12 51311.80 141332.48 161390.3 51409.6®1462.0
•1469.2 4
1505.46 41534.12 4
1552.36 41602.8 91655.89 121672.7 31711.3 3
1733.00 10
3769.473787.70
(10609.18)
5231.55(10609.18)5231 .55
5614.015614.01
(10609.18)(10609.18)9103.72
(10609.18)4810.346641.194810.344830.846641.198163. 183498 .51
(10609.18)4810.344830.848898.076641.195231 .55
(10609.18)3769.473787.705372.2
(10609.18)(10609.18)(10609.18)5231.55
<0.04<0. 040.034 90.084 170. 1 I 30.29 30.050 17
0.31 30.059 170.101 170.084 170.029 100.010 51 .09 51 .06 50.25 30.82 5
<0. 03<0.03<0.03<0.030.45 40.13 65.51 17I .52 50.40 40.29 40.059 17
<0.03<0.030.14 33.79 125.52 173.61 //0.08 30. 70 50.27 34.2 9
1.11 5
(Ml)
M1+E2
(Ml)
M1+E2
M1+E2M1+E2
M1+E2E2MI
M1+E2
+ 0.
+ 0.
-0.+ 0.
-0.
+ 0.
20
18
177
09
12
11
4
55
3
6
Comments
o(n.Y)<0.05 mb (92Ral9).o(n,Y)«0.05 mb (92Ral9).o(n.Y>=0.04 mb / (92Ral9).a(n,Y)=0.10 mb 2 (92Ral9).o(n.y).0.13 mb 3 (92Ral9).<5(n.Y>>0.34 mb 3 (92Ral9).c(n,r>=0.06 mb 2 (92Ral9).o(n.y)=0.37 mb 3 (92Ral9).o(n,y)=0.07 mb 2(92Ral9).o(n.Y)-0.12 mb 2(92Ral9).<j(n,y)=0.10 mb 2 (92Ral9).a(n.Y)=0.035 mb 12.a(n.y)=0.012 m b 6.o(n.y) = 1.30 mb 6(92Ral9).o(n,y) = 1.26 mb 6 (92Ral9).o(n.y)-0.30 mb 3 (92Ral9).<j{n.y)-0.98 mb 5 (92Ral9).o(n.y)<0.04 mb (92Ral9).o(n,y)<0.04 mb (92Ral9).o(n,Y)<0.04 mb (92Ral9).o(n,y)<0.04 mb (92Ral9).o(n.Y)=0.54 mb 4 (92Ral9).<j(n,Y)=0.15 mb 7.<j(n,y)=6.56 mb 20 (92Ral9).<j(n,y)-1.81 m b 6 (92Ral9).<j(n,Y)-0.48 mb 4 (92Ral9).o(n,y)=0.34 mb 4 (92Ral9).o(n.Y)=0.07 mb 2 (92Ral9).o(n.Y)<0.04 mb (92Ral9).a(n.Y)<:0.04 mb (92Ral9).o(n.y)=0.17 mb 3 (92Ral9).a(n,y)a4.51 mb /4(92Ral9).a(n.y)=6.57 mb 20 (92Ral9).o(n,r)H.30 m b iJ(92Ral9).CT(n.Y)=0.10 mb 3 (92Ral9).a(n.Y)=0.83 mb 5 (92Ral9).o(n,y)=0.32 mb 3 (92Ral9).a(n,y)«5.0 mb 10 (92Ral9).a(n,y) = 1.32 mb 6 (82Ral9).
Continued on next page (footnotes at end of table)
17
29Si(n,Y) E=thermal 92Ral9,90Is02 (continued)
Y(30Si) (continued)
30Si
E(Ievel) IYt# Mult.* Comments
1810.42 221830.6 41844.40 161893.6 51933.9 51989.02 72020.33 232 154.3 62235.23 3
2256.7 42276.22 82359.57 4
2445.94 3
2454.5 32504.3®2574.8 52595.39 4
(2667)2667.0 62676.87 6
"2747.6 52871.6 32941.9 5
2956.25 122996.2 93101.19 3
3136.6 73142.5®3 14 5. 1®3252.00 9
3283.8 33294.9 93378.68 253415.7 73498.33 5
3693.8®3694.2 33738.20 18
3769.22 5
(3787.6)3864.89 3
3967.78 9
4009.09 21
4087.6 54168.4®4375.18 154393.43 234405.56 8
664166415614750767445487750788982235
889875079103
(10609
(10609(10609
48104830
815493087507
6641(10609
67445231
(10609
5372664169145487
88988104561469 143498
9308(10609
7507
3769
3787
(10609
(10609
7507
8898766781638163664 1
. 19
. 19
.01
.86
.06
. 55
.86
. 07
.308
.07
.86
.72
• 18)
.18)• 18)
. 34
. 84
.8
.07
. 86
. 19
. 18)
.06
.55
. 18)
. 2
. 19
.78
.55
.07
.8
.01
.78
.51
. 07
. 18)
. 86
.47
.70
• 18)
. 18)
. 86
. 07
.2
. 18
. 18
. 19
0 .450.230. 520.16
0.181 . 061 .270.12
45.6
0.211 .243.52
7. 9
0. 25<0. 030.132.81
44544553
14
4611
3
3
49
0.050 170.132.18
0.110.340. 181 .090.12
23.7
0.13<0.O6<0.05I . 10
0.36
410
35363
8
4
5
50.050 170.380.135. 42
<0.081.101.71
4.70
5417
69
15
0.0101 1729.8
3.95
0 . 93
0. 34<0.051 . 220.712.91
10
13
5
4
5510
(El)(El)M1+E2
El (+M2)
E2
El§
M1+E2M1+E2
(El)
(El)
El§
E2
El (+M2)
M1+E2
E2
(El)
Ml
E0El§
(El)
o(n.y) = 0.54 mb 4 (92Ral9).<j(n.y)=0.27 mb 4 (92Ral9).
+ 0.11 5 a(n.Y)=0.62 mb 5(92Ral9).o(n,y)=0.19 mb 4 (92Ral9).a(n.y)-0.22 mb 4 (92Ral9).
-0.02 7 O(n.y)-1.26 mb 6(92Ral9).o(n,y)-1.51 mb 6(92Ral9).o(n.Y)-0.14 mb 3 (92Ral9).IY: 62.4 75(90Is02).o(n,Y) = 54.3 mb 16 (92Ral9).a(n.Y)-0.25 mb 4 (92Ral9).<j(n,y) = 1.48 mb 7(92Ral9).IY: 6.3 12 (90Is02).d(n.Y)=.4.19 mb 13 (92Ral9).IY: 10.5 8 (90Is02).o(n,y)>=9.4 mb 3 (92Ral9).o(n,y)=0.30 mb 3 (92Ral9).a(n.y)<0.04 mb (92Ral9).
-0.5 2 /; o(n.Y)=0.15 mb 4 (92Ral9).+ 0.73 9 Iy: 1.9 S (9OIsO2).
o(n.Y)-3.35 mb 7O(92Ral9).o(n.Y)-0.06 mb 2.<j(n.y)-0.16 mb •* (92Ral9).Iy: 2.6 7(90Is02).o(n.y)=2.59 mb // (92Ral9).o(n,y)=0.13 mb 3 (92Ral9).o(n,y)-0.40 mb 5 (92Ral9).o{n.y)-0.22 mb 3 (92Ral9).a(n.y)=.1.30 mb 7(92Ral9).CT(n.y)-0.14 mb 3 (92Ral9).Iy: 29.2 7 (90IsO2).(J(n,y) = 28.2 mb 9 (92Ral9).CT(n,y) = 0.15 mb 4 (92Ral9).o(n.y)<0.07 mb (92Ral9).o(n,y)<0.06 mb (92Ral9).
-0.04 5 Iy: 1.3 5 (9OIsO2).a(n,y).1.31 mb 6 (92Ral9).o(n,y)=0.43 mb 5(92Ral9).o(n,y)=0.06 mb 2 (92Ral9).
-0.29 4 o(n,y)=0.45 mb 5 (92Ral9).o(n.y)=0.16 mb 4 (92Ral9).Iy: 7.6 5 (90Is02).<j(n,y).6.45 mb 20 (92Ral9).o(n.y)<0.10 mb (92Ral9).o(n.y) = 1.31 mb 7(92Ral9).ly: 2.1 £(90Is02).o(n,y)=2.04 mb 10 (92RaI9).Iy: 5.9 J(9OIsO2).o(n.y)«5.59 mb /7(92Ral9).
Iy: 35.o(n,y) =Iy: 5.2o(n.y).Iy: 0.8
o(n,y).o(n,y)<o(n.y) =o(n.y) =ly: 4.4o(n,y) =
5 (90Is02).35.5 mb 11 (92Ral9).3 (90Is02).4.70 mb 15 (92Ral9).J(90Is02).1.11 mb 5(92Ral9).0.40 mb 4 (92Ral9).0.06 mb (92Ral9).1.45 mb 6 (92Ral9).0.84 mb 5(92Ral9).J(90Is02).3.46 mb / i (92Ral9).
Continued on next page (footnotes at end of table)
18
29Si(n,y) E=thermal 92Ral9,90Is02 (continued)
Y(30Si) (continued)
E Y E(Ievel) Iyt# Mult.' Comments
4508 .64 17
(4656)4664
4679476647864810
49945128
5272
539854315538
586859205927
60046098(643164876640.6662.
6717 .6743.
6820.
6838.
6913.7071 .7109 .
7507 .(7666)"7944.7965.8162.
8372.
8896.
8951 .
9618.
9790.
10200.
10607.
. 36 12
.2 3
. 7 7
. 5 8
.0 3
. 9 7
.18 IT
.09 7
.8 4
.5 6
.05 24
.8 7
. 2 7
.24 15
. 4 9
.0 37).0 7.7 900 25
3 822 4
7 4
83 15
7 58 782 7
4 «
5 98 901 11
7 3
7 3
9 5
20 25
5 3
6 6
1644 5
6744,
8154.8163
6914.9597.9597.4810.
(10609.8898.
7507.
8898.7667.9308.
8104 .8154.8163.
9792.9597.10202.10275.6641 .
8898.
8953.6744.
(10609.
(10609.
6914.9308.
(10609.
7507.7667.
10202.8163.
(10609.
8898.
8953.
9619.
9792.
10202.
(10609.
,06
8. 18
78171734
18)07
86
07
207
8818
34170881907
2906
18)
18)
780718)
862
0818
18)
07
29
76
34
08
18)
0
01
0000
01
15
000
001
00000I
0.30.
1.
3.
0.0.5.
0.0.0.0.2.
0.
0.
0.
1.
0.
0.
6.
.66 5
.059 17
.13 5
. 43 4
.10 3
.08 3
.45 4
.27 5
.64 7
.8 5
.40 5
.17 4
.80 5
. 18 4
. 13 4
.34 7
.07 3
.53 5
. 14 4
. 10 3
.14 ;,04 5
24 57 10
03 8
68 14
34 515 402 16
14 4020 7059 17
059 1793 10
68 5
50 5
27 4
02 5
93 5
24 3
73 21
(El)
M1+E2
E2
(El)
(El)
M25
El
E2
El
El
El
MlS
- 0 . 6 3 14
Iy: 1.7 3(9OIsO2).o(n,Y)=0.79 mb 5 (92Ral9).<j(n,y)=0.07 mb 2.Iy: 0.8 *(90Is02).tf(n,y) = 1.35 mb 5<92Ral9).o(n.Y) = 0.51 mb 4 (92Ral9).o(n.y)=0.12 mb 3 (92Ral9).a(n,y)=0.10 mb 3(92Ral9).ry: 1.2 4(90Is02).a(n.y)-0.54 mb 4 (92Ral9).a(n.y)=0.32 mb 5 (92Ral9).Iy: 1.9 1 (90Is02).a(n,y) = l.95 mb 8 (92Ral9).Iy: 19.8 3 (9OIsO2).o(n.Y)-18.8 mb 6 (92Ral9).o(n.7)«0.48 mb 6 (92Ral9).o(n,y)=0.20 mb 4 (92Ral9).Iy: 1.1 1 (9OIsO2).a(n,y)=0.95 mb 6 (92Ral9).o(n,y)-0.21 mb 4 (92Ral9).o(n,y)=0.16 mb 4 (92Ral9).Iy: 1.4 / (9OUO2).o(n.y) = 1.60 mb 8 (92Ral9).o(n,y)=0.08 mb 3 (92Ral9).o(n,Y)>0.63 mb 6 (92Ral9).o(n,y)-0.17 mb 4.o(n,Y)=0.12 mb 3 (92RaI9).<j(n.y)-0.17 mb 5 (92Ral9).Iy: 1.2 / (90Is02).o(n,Y) = 1.24 mb 6 (92Ral9).o(n,Y)-0.29 mb 5(92Ral9).Iy: 37.0 4<90Is02).O(n,y)-36.6 mb 11 (92Ral9).Iy: 0.9 / (90Is02).o(n.y) = 1.28 mb 9 (92Ral9).ly: 4.2 2 (90Is02).o(n,y)-4.38 mb iS(92Ral9).o(n,r)=0,40 mb 6 (92Ral9).<5(n.y)=0.18 mb 4 (92Ral9).ly: 5.7 2 (90Is02).a(n,Y) = 5.98 mb 18 (92Ral9).o(n.y)-0.17 mb 4 (92Ral9).o(n.Y)=0.024 mb *.o(n.y)-0.07 mb 2 (92Ral9).o(n,y)>0.07 mb 2 (92Ral9).Iy: 3.4 2 (90Is02).a(n,y)=3.49 mb 12 (92Ral9).Iy: 0.9 1 (90Is02).a(n,y)=0.79 mb 6 (92Ral9).Iy: 0.7 1 (90Is02).<r(n.y)=0.60 mb 6 (92Ral9).Iy: 0.4 / (90Is02).O(n.y)-0.32 mb 4 (92Ral9).Iy: 1.2 / (90Is02).<T(n.y)=I.22 mb S (92Ral9).Iy: 1.2 ; (90IsO2).o(n.y)=l.H mb 6 (92Ral9).Iy: 0.3 1 (9OIsO2).O(n,y)=0.28 mb 3 (92Ra!9).Ey: from 97Ro26.Iy: 7.7 2 (90Is02).o(n,y)=8.01 mb 25 (92Ral9).
Footnotes continued on next page
19
30c:14O11
29Si(n,7) E^thermal 92Ral9,90Is02 (continued)
y(30Si) (continued)
t Absolute Intensities per 100 neutron captures. For y-ray cross section In mb (92Ral9), multiply by 1.1905 per 100 neutron
captures.
* From adopted gammas, except as noted.
§ From 92Ral9.
* For Intensity per 100 neutron captures, multiply by I.
® Placement of transition in the level scheme is uncertain.x y ray not placed in level scheme.
Level Scheme
Intensities: I(y+ce) per 100 parent decays
1 i l 11 0.0
248 fs
stable
20
30S1 30CJ14°M6
29Si(n,y) E=thermal 92Ral9,90Is02 (continued)
fO to 3+)
2 +
3 -
0 +
3 +
3 +
2 +
0+
It2<-
Level Scheme (continued)
Intensities: I(Y+ce) per 100 parent decays
0+.1 +1 -
1-
(10609.18)10202.08
9619.76
^ iiltfe
9308.07
^6641.19
5614.01
J 5487.555372.2
0.05 fs
0.13 fs<25 fs
<25 fs
<14 fs<25 fs<24 fs0.6 fs23 fs
<14 fs49 fs60 fs55 fs94 fs107 fs8.3 ps36 fs58 fs
f s
stable
2235.308
I I I I 0.0
30c .14O116
2 1
30c: 30c,ir'i
29Si(n,y) E=thermal 92Ral9,90Is02 (continued)
Level Scheme (continued)
Intensities: I(y+ce) per 100 parent decays
0+.I +
1 -
(0 to 3+)
? +
2 -
2 -
(10609.18)
... i n?n?O8
9619.76
9308.07
RK<IK m
a i n j x
7507.86
6641.19
0.05 fs
0.13 fs<25 fs
<25 fs
23 fs
5614.01 fs55 fs
_48UL34 1 Q 7 f s
36 fs•«£ 3-±mi 58 fs
248 fs
stableI II
30Sl(n,Y) E=thermal 92Ral9,9OIsO2
Others: 90Is02. 9OIsO5.Target Jit«O+.92Ral9: measured Ey, Iy with a Ge(Li)-NaI(T]} in Compton-suppressed mode and pair spectrometer mode. Deduced neutron
separation energy S(n) = 6587.40 keV 5.Other measured S(n) = 6587.32 keV 20 (90Is02).Evaluated S(n)=6587.40 keV J (95AuO4).Measured thermal-neutron capture cross section. o(n.Y)=107 mb 3 (92Ral9). 107 mb 2 (90Is02.90IsO5).
31Si Levels
E(Level)* Comments
0
7 5 2
16942316
. 0
. 23
. 9 2
. 9 4
3
4
10
3 /2 +1/2 +5/2 +3 /2 +
1 5 7
5 3 0
5 7 0
3 8
. 3
f s
f sp s
mln 3100
110
IS
Continued on next page (footnotes at end of table)
22
I4Sl17
30Si(n,y) E=thermal 92Ral9,90Is02 (continued)
31Si Levels (continued)
E(level)*
2788.033532.924382.375281.365873. 155957.92
(6587.40
6344719
5)
5/2 +3/2-3/2-1/2 +(1/2
1 /2 +
.(3/2)+
.3/2)-
T,,2t
<30 fs< 10 f s
Comments
E(level): from evaluated S(n) (95AuO4).Jx: from s-wave neutron capture.Observed deexcltation inrenslty Is 101% of g.s. feeding.
t From adopted levels, except as noted.* From Ey's using least-squares fit to data, except as noted.
All data are from 92Ral9, except as noted.Iy normalization: renormalized from assuming Iy(to g.s.) = lOO.
Y(3 1Si)
Ey E(level) Iyt* Mult.* Comments
622.19629.43714.22745. 1752.22849.45898.6943.2
1216.0*1305.991564.21594.301694.871748.381837.92
(2036.2)2065.62204.95
2316.802493.2®2687.352780.56
2787.902964.263054.33
3532.743586.2®3629.90
3640.23 7 9 8.2
4270. 1»4382.044528.77
4892. 1®
5280.95834.25872.37
20196
931577
446565
e3
14
83
12183
8
4
98
144
6618
2316.94
(6587.40)(6587.40)
3532.92752.23
4382.375281.361694.923532.92(6587.40)2316.944382.371694.925281.363532.922788.034382.37(6587.40)
2316.945281.364382.373532.92
2788.035281.36(6587.40)
3532.925281.364382.37
5957.92(6587.40)(6587.40)4382.375281.36
(6587.40)5281.36(6587.40)5873. 15
0.12 30.20 30.87 60.028 10
88 30.41 50.065 190.037 10
<O.O4717.0 60.15 40.96 63.70 191 . 28 72.05 120.056 19
0.11 312.7 5
0.67 6<0.0751.54 10
67.0 23
1 .08 90.67 7
68.1 22
1.66 10<0.0937.6 3
0.037 190.13 4
<0.0651.73 13
14.7 5
<0.0930.22 40.23 40.81 9
(Ml)
(Ml)
Ml§
M1+E2
ElS
(El)
ElS
(El)
Ml
+ 4 . 4 7
c=(n.y)=0.13 mb 3 (92Ral9).o(n.y)=0.21 mb 3 (92Ral9).<j(n.y)=0.93 mb 6 (92RaI9).o(n,y)=0.03 mb / (92RaI9).o(n.y)=94.4 mb 30(92Ral9).o(n.y)=0.44 mb 5 (92Ral9).<j(n.y)«0.07 mb 2 (92Ral9).o(n.y)=0.04 mb / (92Ral9).o(n,r)<0.05 mb (92Ral9).o(n.Y) = 18.2 mb 6 (92Ral9).<j(n,Y)=0.16 mb 4 (92Ral9).c(n,Y) = 1.03 mb 6 (92Ral9).o(n.Y) = 3.96 mb 20 (92Ral9).cr(n.Y) = 1.37 mb 7(92Ral9).<j(n,Y) = 2.19 mb 12 (92Ral9).<j(n,Y)=0.06 mb 2.o(n,Y)-0.12 mb 3 (92Ral9).Iy: 13.0 19 (90Is02).a(n,y)-13.6 mb 5 (92Ral9).ct(n,y)=0.72 mb 6 (92Ral9).a(n,y)<0.08 mb (92Ral9).o"(n.y) = 1.65 mb 10 (92Ral9).Iy: 69.6 14 (90Is02).CT(n.y)-71.7 mb 24 (92Ral9).o(n.y) = 1.16 mb 9 (92Ral9).o(n,y)=0.72 mb 7(92Ral9).ly: 71.3 12 (90Is02).<j(n,y)=72.8 mb 23 (92Ral9).<t(n.y)-1.78 mb 10 (92Ral9).<j(n.Y)<0.10 mb (92Ral9).Iy: 7.5 7(90rs02).o(n,y)=8.1 mb J(92Ral9).o(n.y)=0.04 mb 2 (92Ral9).o(n.y)=0.14 mb 4 (92Ral9).o(n,y)<0.07 mb (92Ral9).o(n.y)-1.85 mb 14 (92Ral9).Iy: 14.3 5(90Is02).o(n,y) = 15.7 mb 5(92Ral9).ff(n.y)<0.10 mb (92Ral9).a(n,y)-0.24 mb 4 (92Ral9).a(n.y)=0.25 mb 4 (92Ral9).Iy: 0.9 3 (90Is02).o(n,y)=0.87 mb 9 (92Ral9).
Continued on next page (footnotes at end of table)
23
31c,14al17
30Si(n,Y) E=thermal 92Ral9,9OIsO2 (continued)
y(31Si) (continued)
E(level) I7t# Comments
5956 . 9 8 5957 . !)26586.6457 5 (6587.40)
0.11 3 <5(n,y)=.0.12 mb 3 (92Ral9).
1 .47 13 IT: 1.5 ,?(90Is02).
o(n.Y) = 1.57 mb 14 (92Ral9).
t Absolute intensities per 100 neutron captures. For y-ray cross section in mb (92Ral9). multiply by 1.0707 per 100 neutron
captures.
+ From adopted gammas, except as noted.
§ From 92Ral9.
* For intensity per 100 neutron captures, multiply by 1.
Placement of transition in the level scheme is uncertain.
Level Scheme
Intensities: Ky+ce) per 100 parent decays
.(6S87.40).
(1/2 3/2)- \ _
1/2 +
3/2-
3/2-
5/2 + ,(3/2) +
3/2 +
5/2 +
1/2 +
3/2+ i
4 i
•
•v<v
1
1
V
p
^ c y **Si Co ° y
1 ; 1V
A
Vr 1
1
?•
?
; 5957.92/s«7S IS
5281.36
_<»• ^ " j - 4382.37
£•,>"& 3532.92
^ y " "^ 2788.03
*«f S 2316.94
* KV" 1694.92
r 1 0.0
<10 fs<30 fs38 ps570 fs
530 fs157.3 min
24
32p15*17
32p15M7
31P(n,y) E=thermal 89Mil6,89Ze02,85Kell
Target JJC=1/2+.89M116: measured Ey. Iy with a HpGe detector and a pair spectrometer. Deduced neutron separation energy
S(n)-7935.74 keV 16.89ZeO2: measured Ey, Iy with a Ge(Li) and a HpGe dectector. Deduced neutron separation energy S(n)=7936.65 keV 8.Other measured S(n) = 7935.7O keV 4 (85Kell).Evaluated S(n)=7935.65 keV 4 (95AuO4).Measured thermal-neutron capture cross section, o(n,y)-173 mb 6 (89ZeO2).
32P Levels
Ed
0.78.
512.1149.1322.
1755.2177.
2217.2229.2313.2579.2657.
2740 .3073.3263.
3444.3791 .
4009.4035.
4549.4661 .4710.4877 .5072.5307.5325 .
5349.5509.
5696.
5701 .
5778.6062.6196.6332 .6510.6557.
6581 .6783.
(7935.
level)*
0060 18703 20384 20
830 25
01 428 575 673 345* 812* 1464 5
46 590?§* 13998 23
37 4
40* 1200 557 322* 13
53 458 1745 453 858?S* ;/99?§* 14
65 441 5
22?e 649 7
73 314 536 554* 1936§* 2499?§* /.?89 669* IS65 4)
1 +
2 +Ot
1 +2 +
3 +3 +2 +1 +
(1 +(02 +1 +
(1 +2-
(1.1 +
2-
1-1 +
2-1 +
1-0 +
(1.
2-
1-
(1.1 _
1-
1-(0.
(0 +(0 +(0 +0+.
to 3+)to 2)
to 3+)
2 + )
2) +
2)-
1) +
to 3 + )to 3 + )to 3t)
1 +
14
2781
175324
46043150
25
<7
50
90
2550
T,,2
.262
ps.83fs
fsfsfsfsfs
fs
fs
fs
fs
fs
t
d 1412ps 6
612
3582514
30
20
1030
Comments
%p--ioo.
E(level): from evaluated S(n) (95AuO4).JJC: from s-wave neutron capture.Observed deexcltation Intensity is 93% of g.s. feeding.
t From adopted levels, except as noted.I From Ey's using least-squares fit to data, except as noted.§ Not seen In 85Kell.* Not seen In 89Ze02.9 Seen In 89ZeO2 and 85Kell.
25
32p15M7
32p15r17
'Pfn.y) E=thermal 89M116,89Ze02,85Kel 1 (continued)
All data are from 89M116. except as noted. Errors include systematic errors of 25% for 0.4<EyS2 MeV; 15% for2<EyS3 MeV; 5% for Ey>3 MeV.
I7 normalization: renormaliaed from assuming I(7+ce)(to g.s.) = 100.
E(level) Mult.* 5* Comments
78.099(432. 15(434.63(512.69
558.51636.670
"724.25745.04754.52771.51
"837.0 5895.10902.65907.07
1034.316
(1068.381071.2701 149.3311152.12*
"1198.981208.92
"1211.391214.561217.65
"1222.311229.441244.7641256.24*
M265. 73"1269.79"1272.971314.351318.94*
1322.8501340.641353.831377.83*
"1401 . 761425.331429.89*
1432.661473.721509.0171587.361613.74*
1676.9921739.40
(1754.941800.42®1805.701808.491873.5341921.68
1 25
11)•O
3)
81 282851012
13182541
12)334218
9293393925193919
1116161921
3820612
212437
341044
1912
455
U)25
353349
29
78.1755.512 .512 .
2313.1 149 .
4009 .6062.4035 .
2217 .2657.2229.3263.2217.1149.1149.5701 .(7935.
6557 .
3444 .4661 .
5778.1322.2579 .6581 .
5349.3073 .6196.1322 .5349.(7935.4035.{7935.
(7935.2579.4009.4877.5509.3263.4661 .3791 .4877.1755 .
(7935.1755.6510.4035.4549.(7935.4661 .
06001703703
45384
001457
756473998753843844965)
99?
3753
738301289
6590?368306565)5765)
65)120045419985340450165)0136572265)53
36.69 25
0.061 30.061 3
5 0 CA
0.62 1521.2 530.119 300.80 200.37 90.29 70.088 220.28 70. 189 47
0.135 341.43 360.10 316.9 422.5 60.24# 60.24* 60.51 130.154 390. 135 340.51 130.100 250.148 370.197 492.4 60 . 197* 490.197* 490.70 170.39 100.26 60.21 50. 192* 480.192* 483.8 90.37 90.84 21
0.37* 90.37* 90.20 50.172 430.125* 310.125* 310.137 340.44 112.3 60.32 80.35* 90.35* 92.9 71 . 48 370.064 160.160 400.73 180.34 92.2 50. 143 36
(Ml)M1+E2
Ml
Ml
Ml(+E2)(Ml)(Ml)(El)
M1+E2
(El)
MUE2
E2(+M3)
-0.12 10
0.0 5
+0.14 7
-0.79 8
0.0 3
I7: from Intensity balance. a=0.00938.
Not observed.Obscured by the 511-keV annihilation line.If. from Intensity balance. 37.9 8 (89ZeO2).
I7: 7.40 £(89ZeO2).
I7: 1.67 2 (89ZeO2).
I7: 0.30 3 (89Ze02).
Iy: 1.72 ^(89ZeO2).
Iy: 3.83 4 (89ZeO2).I7: 0.55 2 (89ZeO2).I7: 0.56 5(89ZeO2).
I7: 1.80 3 (89ZeO2).
IY: 2.38 / (89ZeO2).I7: 1.07 9(89ZeO2). 1.37 7(85Kel l ) .
Iy: 1.91 «(89ZeO2). 1.9 ; (85Kell).
Continued on next page (footnotes at end of table)
26
32pJ5*17
32p15*17
31P(n,r) E=thermal 89Mil6,89Ze02,85Kell (continued)
Eyt E(level) It*
Y(3ZP) (continued)
Mult.* 8*
1941.160 492099.67 122114.483 412136.62 24(2139.65 12)2151.621 412156.954 41(2177. 1 3)
2217.52 92227.80 92229.86 302234.12 7
"2266.71 212276.34 272348.16 172426.30 52431.87 15
"2445.50 222514.68 62579.20 352586.008 482609.23* 21
2657.55 62685.99 48
"2702.4 52712.76 252740.38 ;;2842.85 282863.15 112886.09 6(2931.50 5)"2933.65 17"2953.72 83058.174 473119.86 203185.76 63196.9 73224.92 19
"3240.6 53263.41 20
"3267.53 143274.055 453338.84 293366.21 103387.4* 6
3444.27 103482.89* 36
"3504.01 473511.58 283518.75 43522.708 443548.74 103554.38 143560.5* 5
3713.86 44<3774.6 53899.946 473922.90 103926.48 10
326321773263487722172229(79352177221727402229(7935
53494661(79354661
57782657(79355349(793526574009
40352740.5072(793540353444 .
(7935.5349.3263.5509.(7935.
3263.
(7935,4661 .3444.4710.(7935.3444.5701 .6062.
4661 .5696.4035.5778.4877.4710.5778 .3791 .
(7935.5072.
(7935.
.998
. 28
.998
. 45
. 75
. 73
.65)
.28
.75
.46
.73
.65)
.65
.53
.65)
.53
.73
.64
.65)
.65
.65)
.64
.00
. 5746
.53
.65)
.57
.37
65)65.9984165)
998
65)53375865)374914
5322?577345587340
65)5365)
3.0 80.324 498.1 120.259 39
0.14 36.7 108.5 130.032 30.53 81.61 240.41 60 . 84 130.217 330.227 340.281 421.90 290.33 50.228 341.19 180.68 106.3 100.144* 220. 144* 222.02 300.103 150.096 140.297 45
0.52 80.170 252.05 314.1 60.35 60. 33 50.96 146.97 350.390 191.99 100.081 40.342 170.113 60.406 200.648 325.14 260.230 120.683 340.121* 60.121* 60.726 360.160* 80.160* 80.150 70.248 12
13.3 7
0.860 430.527 260.145* 70.145* 70.174 90.109 517.8 91.86$2.24 11
El (+M2)M1+E2El (+M2)
E2 (+M3)M1+E2Ml
M1+E2
Ml
(El)
E1+M2
M1+E2
Ml
+ 0 . 1 7 3
- 0 . 1 0 3
+ 0 . 6 5
Comments
- 0 . 1 8 ly: 2.60 7 (89ZeO2), 2.6 1 (85Kel 1).
+ 0. 14 3 Iy: 0.36 2(85Kel l ) .
+ 0 . 0 1 3 ly: 7.68 7 (892eO2). 7.5 4 (85Kell).
ly: 6.3 11 (89ZeO2), 7.3 4 (85Kell).
Iy: 8.37 8 (89ZeO2), 8.6 4 (85Kell).
- 0 . 0 9 ; /
-0.5 2 ly: 0.10 if (89ZeO2).
Iy: 0.44 8 (89ZeO2).
Iy: 179 7(89ZeO2). 1.83 9 (85Kell).
Iy: 0.49 /0(89ZeO2). 0.30 2(85Kell) .
Iy: 0.45 14 (89ZeO2). 0.45 2 (85Kell).
Iy: 5.73 10 (89ZeO2). 6.0 3 (85Kel 1).
Iy: 0.19 1 (85Kell).
ly: 1.55 18 (89ZeO2), 1.79 S(85Kell) .
Iy: 0.18 3 (89ZeO2), 0.19 1 (85Kell).
Iy: 0.31 2 (85KeU).
Iy: 0.55 6 (89ZeO2), 0.63 6 (SSKell).
Iy: 0.18 S(89ZeO2).
Iy: 2.39 6 (89ZeO2). 2.4 1 (85Kel 1).
Iy: 4.7 8 (89ZeO2). 4.3 2 (85Kell).
ly: 6.51 / / (89ZeO2), 7.2 4 (85Kell).
Iy: 0.29 5(89ZeO2).
Iy: 1.99 6 (89ZeO2), 2.1 / (85Kell).
Iy: 0.30 6 (89ZeO2), 0.32 2 (85Kel 1).
Iy: 0.32 7 (89ZeO2). 0.26 1 (85Kell).
Iy: 5.51 13 (89ZeO2). 5.4 3 (85Kel 1).
Iy: 0.15 / (85Kell).Iy: 0.60 10 (89ZeO2). 0.75 4 (85Kell).
Iy: 0.77 7 (89ZeO2), 0.77 4 (85Kell).
Iy: 0.10 4 (89ZeO2), 0.18 1 (85Kell).
ly: 0.38 5 (89ZeO2). 0.45 2 (85Kel 1).
Iy: 0.46 2 (85Kell).
Iy: 14.57 26 (89ZeO2). 14.4 7(85Kell) .
Ty: 0.69 ; / (89ZeO2), 0.92 J(85Kell) .
ly: 0.34 17 (89ZeO2). 0.52 3 (85Kell).
Fy: 0.12 1 (85Kell).
Iy: 17.34 14 (89ZeO2), 19.2 70(85Kell) .Iy: 1.69 5 (89ZeO2), 1.75 9 (85Kel 1).Iy: 2.59 8 (89ZeO2). 2.5 / (85Kell).
Continued on next page (footnotes at end of table)
27
32p15r17
32p15r17
31P(n,r) E=thermal 89M116,89Ze02,85Kell (continued)
y(32P) (continued)
Eyt E(level)
3930.19 193945.9 93956.97 114003.3* 8
4008.66 94026.6 104035.6* 11
4043.2 8"407 1.92 194125.73 314142.75 264199.92 64246.4 18
"4278.3 74359.83 94364.45 5
"4410.37 154456.26 27
"4466.2 94491.07 64551.6 7
"4579.8 94629.08 274632.0 9
"4644 . 1 54661.11 64671.39 54738.80 38
"4766.10 224792.9 114799.56 304811.2 10
4860.5 94876.78 /;4912.30 11
"5067.9 175071.4 13
"5114.3 9"5122.3 55180.9 85182.91® 135194.92 75228.0 85265.47 75277.73 75306.7 95326.8 9
"5340.5 165349.03 205355.2 95359.8 10
"5366.9 13"5379.2 55431.35* 24
"5437.9 14"5452.4 5"5474.85 295508.2 65549.27 305622.17# 37
4009570140355325658140095349403545496783
6783(793553496557
55094877
5778
(79355701
57784710
4661(79356062
530748775325(793548776062
5072
63325696(793553075778(793553075325
5349(79356510
55096581
550960625701
.00
.49
.57
.99?
.89
.00
.65
.57
. 22
.69
.69
.65)
.65
.99?
.41
.45
.73
.65)
. 49
.73
. 58
.53
.65)
. 14
. 58?
.45
.99?
.65)
.45
. 14
. 53
.54
.22?
.65)
.58?
.73
.65)
.58?
. 99?
.65
.65)
.36
.41
.89
. 41
. 14
.49
0. 6580.0670.633
33332
0.069* 30.069* 30.7420 . 049
372
0.045* 20.045* 20.0640. 2790.2370. 2083. 120.0360. 069I . 194.440.3870. 1960. 0542.010. 0660.0560.4480. 1390.1013.5211 .8 60.2130. 2460.0480. 1860.0640.0760.6340. 6860.0450.0520.0510. 0860.042
1 .29
0. 0443.071.120.0440. 0400 . 0260.2370. 0670.0610.0380. 081
3141210
162
3622191031033227518
11
122
934323423342
62ISS22112312
40. 162* 80.162* 80. 0260.0650. 1180.0580. 142
1
3637
0.095* 5
Mult.* 8*
M l
El(+M2) + 0 . 0 4 7
Comments
ly: 0-69 4 (89ZeO2), 0.70 4 (85Kell).
Iy: 0.20 10 (89ZeO2). 0.56 3 (85Kell).
Iy: 1.07 7(89ZeO2). 0.81 •* (85Kell).Iy: 0.06 ; (85Kell).
Iy: 3.53 9(89ZeO2). 3.4 2 (85Kel l ) .
Iy: 1.84 10 (89ZeO2). 1.09 6 (85Kell).Iy: 4.36 12 (89ZeO2), 4.7 2 (85Kel 1).
Iy: 0.10 4 (89ZeO2). 0.21 / (85KeU).
Iy: 2.56 10 <89ZeO2). 2.2 1 (85Kell).Iy: 0.05 1 (85Kell) .
Iy: 0.67 9 (89ZeO2), 0.50 3 (85Kell).Iy: 0.15 / (85KeIl).
Iy: 4.52 15 (89Ze02), 3.7 2 (85Kel 1).Iy: 13.42 31 (89ZeO2), 12.8 6(85Kel l ) .Iy: 0.10 5 (89ZeO2), 0.19 1 (85Kel 1).
ly: 0.21 1 (85Kell), 0.21 1 (85Kell).
Iy: 1.03 ,?O(89Ze02). 0.70 4 (85Kell).ly: 0.74 10 (89ZeO2). 0.77 4 (85Kel 1).
Iy: 0.09 / (85Kell).
Iy: 0.10 4 (89ZeO2), 0.21 1 (85Kel 1).Iy: 1.86 6 (89ZeO2), 1.37 7(85Kel l ) .
Iy: 3.34 14 (89ZeO2), 3.2 2 (85Kell).Iy: 1.61 6(89ZeO2). 1.25 S(85Kel l ) .
Iy: 0.12 4 (89ZeO2). 0.19 1 (85Kell).
Iy: 0.10 1 (85Kell) .
ly: 0.04 / (85Kell).Iy: 0.14 ; (85Kell).Iy: 0.13 ; (85Kell).
Continued on next page (footnotes at end of table)
28
32p15r17
32pI5r17
31P(n,y) E=thermal 89Mil6,89Ze02,85Kel 1 (continued)
Y(3ZP) (continued)
Ey? E(ievel) Comments
5622.17# 375634.8 75683.20 125700.31 145705.40 75717.55 13
"5745.5 7"5751.89 475758.05 55778.13 85983.4 6
"6050.5 7
6061.40 12"6091.60 466117.63 326179.4 76195.87 136252.8 10
"6275.1 6"6281.45 39"6287.5 5"6294.25 266332.01 19
"6397.5 24"6419.57 406478.2 19
"6496.7 ;!26503.17 276508.7 30
"6517.4 76556.2 96581.02 216612.02 40
"6671.0 12"6676.9 14"6759.3 86785.48 7
"6823.9 7"6836.4 8"6860.73 39"7018.4 8"7058.09 47"7160.5 6"7179.25 24"7244.72 44"7302.1 18"7336.48 247422.05 8
"7769.7 67856.65 9
"7914.98 487934.68 11
(7935.6783.6196.5778.(7935.(7935.
(7935.5778.6062.
6062.
6196.(7935.6196.6332.
6332.
6557.
6581 .6510.
6557.6581 .(7935.
(7935.
(7935.
(7935.
(7935.
.65)69367365)65)
65)7314
14
3665)3654
54
99?
8936
99?8965)
65)
65)
65)
65)
0.095* 50.0470. 3870.6102. 570.3970.0630. 1070.0850.9590.0640.0520.4220. 1480. 1440.0550. 362
0.0360.0830. 1520.1120. 1830.2230.0390. 1750.0180.02 70.3030.0200.0560.0410.2020.0810.042
0.0360.05014.7 70.0620.0520. 1000.0510.0830 .0680. 1860.0900.0400. 184
21930
13203544833217731824869112911151
32104222
33S3439529
4.89 240.0480.8750.0340.369
244221
Iy: 0.86 6 (89ZeO2), 0.40 2 (85Kel 1).Iy: 0.54 6 (89ZeO2), 0.67 3 (85Kell).Iy: 2.91 /9(89ZeO2), 2.7 1 (85Kell).Iy: 0.22 5 (89ZeO2), 0.42 2 (85Kell).
I7: 0.014 3(85Kel l ) .Iy: 1.27 5 (89ZeO2), 0.93 5 (85Kell).Iy: 0.05 1 (85Kell).
lX- 0.30 S(89ZeO2). 0.44 2 (85Kell).
Iy: 0.10 3(89ZeO2), 0.14 ; (85Kell).Iy: 0.05 / (SSKell).Iy: 0.37 i0(89ZeO2), 0.37 2(85Kel l ) .
Iy: 0.16 3(89ZeO2), 0.28 / (85Kell).
Iy: 0.22 4 (89ZeO2), 0.21 / (85Kell).Iy: 0.08 / (85Kell).
Iy: 15.56 22 (89ZeO2), 15.5 8 (895kel I).
Iy: 5.56 22 (89ZeO2), 4.9 3 (85Kell).
Iy: 1.05 7(89ZeO2), 0.91 5(85Kel l ) .
Iy: 0.35 5 (89ZeO2), 0.40 2(85Kel l ) .
t The given errors include systematic errors of 20ppm for 0< EyS2 MeV: ISppm for 2<Eys3 MeV; lOppm for Ey>3 MeV.
* From adopted gammas, except as noted.§ For intensity per 100 neutron captures, multiply by 0.944.* Multiply placed; undivided intensity given.@ Placement of transition in the level scheme is uncertain.x y ray not placed In level scheme.
29
32p15*17
32p15r17
31P(n,y) E=thermal 89Mil6,89Ze02,85Kell (continued)
Level Scheme
Intensities: I(y+ce) per 100 parent decays& Multiply placed; undivided intensity given
0+.1 +
(0+ to 3+)
jflv tn .1-t-l \/
(0.1)+ /I- /1- /1 -
(1,2)- ,1 -
2 -
0 +
1 -
1 +
1+ /
1-
7- \
1 +
(1.2*)
2 -
[1+ to 3+)
1 +2+ \
(1+ to 3+)I, ^
3+ /
3+
2 +
1 +
0 +
2 +I
\
1
.
9
1
<yJ(V
°
1
?c•V I <\ 1
(7935.65}
^ • ^ ^ 6783.69*<?«? '6581.89^ /6557 99£• \6510.36
\BI9B.3B\6062.14
5778.731 5701.495509.415349.65
'^5325.995072.534877.454710.58
\ 4549.22
4035.57/4009 00
3791.40
3444.37
3263.998
3073.90
2740.46/ 2657.64
2313.4512229.73
\2177.28
1755.01
1322.830
1149.384
512.703
78.060/
50 fs
2590
50<7
25
fsfs
fsfs
fs150 fs43 fs
460 fs
324 fs175 fs
1.83 ps
278 ps14.262 d
3 2 p15*17
30
32pISr17
32pI5M7
31P(n,y) E=thermal 89Mil6,89Ze02,85Kel 1 (continued)
Level Scheme (continued)
Intensities: Hy-fce) per 100 parent decays& Multiply placed; undivided intensity given
+ ..1+ (793.5.65)...
6783.69
6510.36
1 -
1 \
JLSh \V '
i -
2 -
[1 9\ +
0+ /
1- /
1 +
1 -
1 +
(1.2+)
2 -
(1+ to 3+J
1 +
(0 to 2) *(14- tO 34-) '
14- \
24- V3+ /
3 +
24-
1 +
0+
24-
1 4 - S 1
< 6'
y
l
$
4V
?
(
1
r
1
1
%
? 85*mA%*%
Riac IK
..-76062.14
i
c
'5778 73? ^ /S7D1.J9
^.V? 5509.41l # ^ 5349.65
\5072.53\ 4877.45
4549.22
4035.57/4np9 nn
3791.40
3444.373263.9983073.90
2740.46'2579 12'"313 45/ 2229.737 2217.75\ 2177.28
1755.01
1322.8301149.384
512.703
78.060'0.0
50 fs
25 fs90 fs
50 fs
25 fs150 fs43 fs
460 fs
324 fs175 fs
1.83 ps
278 ps14.262 d
32p15M7
31
32p15*17
32p15*17
31P(n,y) E=thermal 89Mil6,89Ze02,85Kel 1 (continued)
Level Scheme (continued)
Intensities: I(Y+ce} per IOO parent decays& Multiply placed; undivided Intensity given
O + . U X7.935-.65}
10* to 3+)
6510.36
6332.54
6062.14
..5696,. 22 .
5509.41
5307.58
1-\
2- ^
1+ ,
1-•>- \
1 +
(1.2+)
2-
(1+ to 3+)
1*
2+ \
(0 to 2)(1+ to 3+)
1, \
3 +
2+
1 +
0+
2 +
a-<&
mI
4877.45
'4661.5 3
.4549.22
ii
•V1
• f
4035.57
/anno nn
3791.40
_<? 3444.37
•C? 3263.998
O ^ 3073.90
* 2740.46
* # / 2657.64
<^ 2579.12
"?' 2313.45
1 1 2229.73
1755.01
1322.830
1149.384
512.703
78.060
50 fs
25 fs90 fs
50 fs<7 fs
25 fs43 fs
460 fs
324 fs175 fs
1.83 ps
278 ps14.262 d
3 2 p15*17
32
32p15*17
32p15*17
31P(n,Y) E=thermal 89Mil6,89Ze02,85Kel 1 (continued)
Level Scheme (continued)
Intensities: I(y+ce) per 100 parent decays& Multiply placed; undivided intensity given
.9.+..!+ (793.5.65!.
(0+ to 3+)
(0,1)+
1-
1-
[1 °)i
0+
1-
1 +
1 +
2_
1 +
(1.2+)
2-
(1+ to 3+J
6783.69
6332.54
6062.14
5696.22
5509.41
. _ .. 5307.58
5072.53
4877.45
4710.58
4549.22
4009 00
3791.40
3444.37
3263.998
<S ## 3073.90
' « « •
0.0
50 fs
25 fs90 fs
324 fs175 fs
1.83 ps
278 ps14.262 d
32p15M7
33
33S
16°I733c16° 17
32S(n,y) E=thermal 85RA1S.85KE08,
Target Jlt-O + .
85Ral5: measured Ey. Iy with a Ge(Li)-NaI(Tl) in Compton-suppressed mode and pair spectrometer mode. Deduced neutron
separation energy S(n)=8641.912 keV 23.
85KeO8: measured Ey. IywLth a Ge(Ll)-NaI(Tl). Deduced neutron separation energy S(n)-8641.60 keV 3.
Other measured S(n)=8641.912 keV 53(83RaO4). 8641.60 keV 7(80Is02).
Evaluated S(n)-8641.58 keV 3 (95AuO4).
Measured thermal-neutron capture cross section. cf(n,y)«=518 mb 14 (85Ral5).
33S Levels
E(level)* Comments
0.0
840.995 12
1967.17 4
2313.439 14
2867.708 23
2935,18 20
2968.6 1
3220.746 14
3832.1 9
3934.93 6
4055.51 18
4144.49 6
4210.92 3
4423.81 13
4918.079 19
5286.1 3
5480.1 3
5613.11 5
5711.051 18
5888.58 3
6425.09 3
6676.97 4
7187.96 3
7416.13 3
7488.47 16
7506.56 3
7616.00 4
8368.33 4
(8641.58 3)
3/2 +
1/2 +
5/2 +
3/2 +
5/2 +
7/2-
7/2 +
3/2-
5/2 +
3/2 +
1/2 +
5/2
3/2-
(1/2 +
1 12-
( 1/2 .
1/2 +
1/2 +
1/2-
3/2-
(1/2.
(1/2 +
3/2-
(1/2.
(1/2.
(1/2.
(1/2 +
(1/2,
1 /2 +
.3/2)
3/2.5/2+)
3/2)-
to 5/2+)
3/2)-
3/2.5/2+)
3/2,5/2+)
, 3/2,5/2 + )
3/2.5/2+)
s t
1
104
107
19
28
62
28
31
24
12
24
32
19
90
abl
. 17
fs
ps
fs
fs
ps
fs
fs
fs
fs
fs
fs
fs
fs
e
ps 3
14
17
8
2
11
8
6
5
8
5
5
9
25
E(Ievel): from evaluated S(n) (95AuO4).
Jrc: from s-wave neutron capture.
Observed deexcitatlon intensity is 101% of g.s. feeding.
From adopted levels, except as noted.
From EY'S using least-squares fit to data, except as noted.
Y(33S)
All data are from 85Ral5. except as noted.
ly normalization: renormallzed from assming I(y+ce)(to g.s.)-100.
Ey E(level) Mult.® Comments
97.90 4
273.559 24
346.19 14
353.034 19
707.07 16
840.974 14
"856.44 17
862.55 19
907.315 20
923.48 24
967.91 32
970.0 6
983.20 7
571 1
(8641
2313
3220
4918
840
4918
3220
4144
2935
5888
4918
.051
.58)
.439
.746
. 079
.995
.079
. 746
.49
. 18
.58
.079
0.0181
0.067
0.028
0.28 3
0.022
68.0 70
0.037
0.022
0. 28 3
0.023
0.020
0.012
0. 055
20
8
6
4
6
4
6
5
6
8
El
M1+E2
EI ( +M2 )
0.151 4
<r(n,y)=0.092 mb 10 (85Ral5).
cr(n.y)-0.34 mb 4 (85Ral5).
cr(n.y)=0.141 mb 27 (85Ral5).
a(n,y) = 1.41 mb 14 (85Ral5).
a(n,y)=0.11 mb 2 (85Ral5).
a(n.y)=345 mb 32 (85Ral5).
a(n.y)=0.19 mb 3 (85Ral5).
a(n.y)=0.11 mb 2 (85Ral5).
a(n.y) = 1.42 mb 13 (85RaI5).
a(n.y)-0.117 mb 26 (85Ral5).
a(n.y)=0.104 mb 21 (85Ral5).
o(n,y)=0.06 mb 3 (85Ral5).
o(n,y)=0.28 mb 4 (85Ral5).
Continued on next page (footnotes at end of table)
34
33e16^17
33o16^17
32S(n,Y) E=thermal 85RA15,85KE08, (continued)
y(33S) (continued)
E(level) IT** Mult.8 Comments
10251067
xl 092(112611351153
"1164120912251253145314721500151816211677
1697
174418971964
1967
19672110.2214.2216.
2280.2313.
2379.
2456.2465.2490.
2532.2667.
2753.
2867.
2930.
2935.2973.
3020.
3029.3093.3161 .
3220.
3355.3369.
.874 31
.it 3
.48 15
.16)
.314 17
.40§ 16
.71 23
. 23 27
.744 15
.59 4
.900 19
.411 13
.15 13
. 7t 20,4t 3
.96a 10
.296 14
. 06 7
.48 4
.841 31
.13 6
,6t 3.3 400 8729 18
54 15401 23
657 11
12 248 4 / 4221 14
07 2S72 15
26 6
54 5
71 7
0t 6
0 9
35 3i
1 57 ' 3
60 34
59 5
35 3478 6
(8641.3934 .
1967,(8641.(8641.
4144.(8641.3220(8641 .2313.5711.
3832.3934.5613.5888.4918.
5888.4210.(8641.
1967 .
3934.4423.6425 .(8641.
6425 .2313.
3220.
4423.6676.5711 .
6676.5888.
(8641 .
2867 .
(8641.
2935.5286.
5888.
(8641.3934.(8641.
3220.
(8641.4210.
,58)93
1758)58)
4958).74658)4390511
931158079
589258)
17
93810958)
09439
746
8197051
9758
58)
708
58)
181
58
58)9358)
746
58)92
0.160 160.006t 4
0.063 100.0099 200.49 50.039§ 120.028 80.026 50.67 8
0.189 200.56 61.81 180.039 8
O.OlOt 40.0039' 200.081a 120.081a 122.7 3
0.195 220.42 4I.40 14
0.81 10
0.012' 60.024 80.47 62.62 24
0.112 200.77 8
45 5
0.063 100.075 142.7 3
0.051 80.75 10
5.7 6
0.95 10
17.1 18
0.017' 40.14 3
0.21 5
0. 18 40.016' 60.15 3
24.4 24
0.16 4
5.3 6
M1+E2
M1+E2
(El)
M1+E2
M1+E2
El(+M2)
M1+E2
M2+E3
EI (+M2)
El (+M2)
- 0 . 3 5 3
- 0 . 2 3 10
- 0 . 5 6 3
-33 +73-67
0.00 2
+0 .114 9
- 0 . 1 5 2
0 . 0 0 9
- 0 . 0 0 5 18
a(n.y)-0.81 mb 8 (85Ral5).a(n.y)-0.03 mb 2 (85Ral5).o(n.y)-0.32 mb 5 (85Ral5).o(n.y)=0.05 mbl.o(n,y)=2.48 mb 23 (85Ral5).o(n,y)=0.20 mb 6 (85Ral5).o(n,Y)=0.14 mb 4 (85Ral5).o(n,Y)=0.134 mb 21 (85Ral5).o(n,Y)-3.4 mb 4 (85Ral5).o(n,y)-0.96 mb 10 (85Ral5).o(n.y>=2.83 mb 26 (85Ral5).c(n,y)=9.2 mb 9 (85Ral5).<j(n.r>=0.20 mb 4 (85Ral5).o(n.y)=0.05 mb 2 (85Ral5).o(n,Y)-0.02 mb 1 (85Ral5).o(n,Y)-0.41 mb 6 (85RaI5).o(n.y)=0.41 mb ff(85Ral5).IY: 2.18 15 (85Ke08).o(n.Y) = 13.5 mb 13 (85Ral5).a(n,y)=0.99 mb 11 (85Ral5).a(n.Y)=2.11 mb 20(85Ral5).Iy: 1.14 11 (85KeO8).a(n,y)=7.1 mb 7(85Ral5).Iy: 0.69 8 (85KeO8).o(n,y)-4.1 mb 5 (85Ral5).o(n.y)=.0.06 mb 3 (85Ral5).a(n.y)=0.12 mb 4 (85Ral5).o(n.y)=2.40 mb 29 (85Ral5).Iy: 1.9 / (85KeO8).<r(n,y) = 13.3 mb 12 (85Ral5).O(n.y)-0.57 mb 10 (85Ral5).Iy: 0.73 9 (85KeO8).a(n,y)=3.9 mb 4 (85Ral5).Iy: 42.9 7(85KeO8).o{n.y)=230 mb 21 (85Ral5).o(n.y)-0.32 mb 5 (85Ral5).o(n.y)=0.38 mb 7(85Ral5).Iy: 2.52 IS (85KeO8).o(n,y) = 13.5 mb 13 (85Ral5).o(n,y)-0.26 mb 4 (85RaI5).Iy: 0.73 9 (85Ke08).<j(n,y)-3.8 mb 5 (85Ral5).Iy: 5.7 2 (85Ke08).o(n.y)-28.7 mb 28 (85Ral5).Iy: 0.82 9 (85KeO8).o(n,y)=4.8 mb 5(85Ral5).Iy: 17.0 4<85Ke08).o(n,y)-87 mb 9(85Ral5).o(n.y)-0.088 mb 19 (85Ral5).IT- 0.11 2(85KeO8).a(n,y)-0.70 mb 15 (85Ral5).IT- 0.19 3(85KeO8).o(n.y) = 1.05 mb 23 (85Ral5).a(n,y)=0.93 mb 20 (85Ral5).a(n.y)=0.08 mb 3 (85Ral5).IT 0.08 / (85KeO8).o(n,y)=0.74 mb 15 (85Ral5).Iy: 24.8 5 (85Ke08).o(n,y)-124 mb 12 (85Ral5).o(n,y)-0.81 mb /S(85Ral5).IT 5.5 2(85KeO8).<j(n,y)=26.7 mb 26 (85Ral5).
Continued on next page (footnotes at end of table)
35
32S(n,Y) E=thermal 85RA15.85KE08, (continued)
Y(33S) (continued)
Ey E(level) Mult." Comments
3397
3455
3582
3723
3809
3831392039344055
40764144
4217
4363
44234430
4444
46384708
4771 .
4869.
4917.
5047.
5420.
5479.5583.
5648 .
5710.
5773.
5835 .
5888.
6327.
6345 .
6424 .
6574.
6664.
.51 8
.75 25
.74 29
. 68 4
. 2 5
.9 9
. 99 22
.7 12
. 2 5
. 2 7
.36 14
. 53 21
.14 13
.5 5
. 75 5
. 1 5
.8* 8
.7 5
. 1 4
.56 4
. 7 6
14 4
58 4
7 868 8
4 6
40 25
8 5
61 20
09 8
79 23
8 9
72 2«
93 22
82 75
5711.
6676.
4423.
(8641 .
6676.
3832.5888.3934 .4055 .
4918.4144 .
(8641 .
6676.
4423.(8641.
5286 .
5480 .6676.
5613.
5711 .
4918 .
5888 .
(8641 .
5480.6425 .
7616 .
5711.
(8641.
6676.
5888 .
(8641 .
7187 .
6425 .
74 16.
7506.
05 1
97
81
58)
97
1589351
07949
58)
97
8158)
1
197
1 1
051
079
58
58)
1
09
00
051
58)
97
58
58)
96
09
13
56
1 .
0.
0.
2.
0.
0.0.0.0.
0 .0.
0.
0.
0.5 .
0.
0 .0.
0.
12 .
0.
3.
59
0.1 .
0.
0.
0.
0.
0.
0.
0 .
0.
0.
0.
10 12
19 4
071 18
7 3
065 16
033 10136 18057 14
057 16
069 2028 4
22 3
31 4
18 40 5
16 6
12* 3100 22
14 4
8 12
11 3
2 3
6
022 848 16
059 16
18 3
071 14
162 22
75 8
126 16
017 5
110 18
118 18
23 3
El
El
Iy: 1.06 10 (85KeO8).o(n.y) = 5.6 mb S(85Ral5).ly: 0.19 3(85KeO8).a(n,y)-0.96 mb 75(85Ral5).Iy: 0.07 1 (85KeO8).a(n,y)-0.36 mb 9 (85Ral5).Iy: 2.72 16 (85KeO8).a(n,y) = 13.5 mb 13 (85Ral5).Iy: 0.061 S(85KeO8).<T(n.y)-0.33 mb tf (85Ral5).o(n.y)=0.17 mb 5 (85Ral5).o(n,y)=0.69 mb 9 (85Ral5).o(n,y)=0.29 mb 7(85Ral5).Iy: 0.049 7 (85Ke08).o(n,y)=0.29 mb 8 (85Ral5).o(n.y)=0.35 mb 10 (85Ral5).ly: 0.30 •* (85KeO8).o(n,v) = 1.41 mb JS(85Ral5).ly: 0.22 3 (85KeO8).o(n,y) = 1.14 mb i J (85Ra l5 ) .Iy: 0.31 5 (85KeO8).o(n.y)-1.57 mb 18 (85Ral5).<j(n.y)=0.90 mb 20{85Ral5).Iy: 5.0 2(85KeO8).<j(n.y)«25.2 mb 23 (85Ral5).Iy: 0.13 2(85KeO8).ff(n.y)=0.80 mb 28 (85Ral5).<j(n.y)=0.63 mb 14 (85Ral5).Iy: 0.093 14 (85KeO8).o(n.y)=0.51 mb 11 (85Ral5).Iy: 0.12 2 (85KeO8).O(n,y)=0.73 mb 16 (85Ral5).Iy: 12.7 4 (85KeO8).o(n,y)-65 mb 6 (85Ral5).Iy: 0.12 2 (85KeO8).c(n.y)-0.56 mb 13 (85Ral5).ly: 3.2 £(85KeO8).o(n,y) = 16.2 mb ;5(85Ral5) .Iy: 60.0 8 (85KeO8).o(n,y)-302 mb 27(85Ral5).o(n,y)-0.11 mb 4 (85Ral5).Iy: 1.6 1 (85KeO8).o(n,y)=7.5 mb 8 (85Ral5).Iy: 0.054 8 (85KeO8).o(n,y) = 0.30 mb 8 (85Ral5).ly: 0.20 3(85KcO8).o(n.y)-0.91 mb J3(85Ral5) .Iy: 0.09 / (85KeO8).n(n,y)-0.36 mb ?(85Ral5).Iy: 0.15 2(85KeO8).O(n.y)=0.82 mb / ; (85RaI5).Iy: 0.80 9 (85KeO8).a(n.y) = 3.8 mb 4 (85Ral5).Iy: 0.12 2(85KeO8).O(n.y)=0.64 mb 8 (85Ral5).Iy: 0.017 3 (85KeO8).<y(n,y)=O.O84 mb 24 (85Ral5).Iy: 0.13 2 (85Ke08).o(n,y) = 0.56 mb 9 (85Ral5).Iy: 0.12 2 (85KeO8).o(n.y)=0.60 mb 9 (85Ral5).ly: 0.22 3 (85KeO8).a(n,y) = 1.15 mb 13 (85Ral5).
Continued on next page (footnotes at end of table)
36
6676.13 13
X6958.3 57187.19 15
7415.31 15
7487.6 97505.6 4
7528.2 9"7614.9 67799.77 12
8366.8 68640.45 12
EOevel)
6 6 7 6 . 9 7
7187.96
7416. 13
7488.477506.56
8368.33
(8641.58)
8368.33(8641.58)
32S(n,Y) E=thermal 85RA15.85KE08, (continued)
y(33S) (continued)
0.31 4
0.045 100.30 4
0.44 5
0.035 80.162 22
0.020 60.051 102.7 3
0.030 61.81 18
Iy: 0.23 3 (85KeO8).<j(n,y) = 1.58 mb /6(85Ral5).a(n,y)-0.23 mb 5 (85Ral5).Iy: 0.33 S(85KeO8).<T(n.Y)=1.54 mb /7(85Ral5).Iy: 0.47 7(85KeO8).O(n,y) = 2.25 mbd(n.y) = 0.18 mbIy: 0.12 (85KeO8).o(n,y)=0.82 mb // (85Ral5).<l(n.y)«0.10 mb 3 (85Ral5).o(n.y)-0.26 mb 5(85Ral5).Iy: 2.89 /7(85KeO8).a(n.y)=13.7 mb 14 (85Ral5).o(n,y)=0.!5 mb 3 (85Ral5).Iy: 2.02 14 (85Ke08).<j(n,y)=9.2 mb 9(85Ral5).
Comments
t Not observed but inferred from the known level branching ratios.* Not observed but inferred from the Intensity baiance requirement and the known branching ratio.§ After corrections due to a y-iay of similar energy in the 33S(n.y)34S recation.* Absolute intensities per 100 neutron captures. For y-ray cross section in mb (85Ral5), multiply by 5.076 per 100 neutron
captures.® From adopted gammas, except as noted.& For intensity per 100 neutron captures, multiply by 1.a Multiply placed: undivided intensity given." y ray not placed in level scheme.
37
33q1631
33c
32S(n,y) E=thermal 85RA15.85KED8, (continued)
Level Scheme
Intensities: I(7+ce) per 100 parent decays& Multiply placed; undivided intensity given
1/2 +
(1/2,3/2.5/2+)
(1/2.3/2,5/2+) \(1/2,3/2.5/2+) \d/2.3/2)- r—•3/2
J.I/2 + to 5/2+)
(1/2.3/2)-
3/2-
1/2- '1/2+ V
1/2 +(1/2.3/2,5/2+)
1/2-
(1/2+.3/2)
3/2- '5/2 *
5/2 +
3/2-
3/2+
5/2 +
1/2 +
3/2 +
i
4?? ?? 1 V '4\
i
4%
(V
mm
1
i
(8641.58)
8368.33
7616.00/7506.56/ 7488.47
^ ~
J*
I^ ^
\ 7416.137187.96
6676.97
'•9<s<v 6425.09
*• 5888.58
'5711.051'5613.11,5480.15286.1
4918.079
4423.81
4210.92' 4144.49
3832.1
3220.746
2313.439
1967.17
840.995
0.0
19 fs32 fs24 fs
31 fs
28 fs
19 fs
107 ps
104 fs
1.17 ps
stable
33S
16S17
3 8
32S(n,y) E=thermal 85RA15.85KE08, (continued)
Level Scheme (continued)
Intensities: I(y+ce) per 100 parent decays& Multiply placed; undivided intensity given
33c16°1
1/2+
(1/2,3/2,5/2+) 8368.33
(1/2 + .3/2.5/2+)
3/2-
(1/2+ to 5/2+)
7616.00
7187.96
6676.97
(1/2,3/2)- 6425.09
1.17 ps
stable
39
34c 34c16^18 le^i
33S(n,y) E=thermal 85Ral5
Target Jic=3/2 + .
85Ral5: measured Ey. Iy with a Ge(Li)-NaI{Tl) in Compton-suppressed mode and pair spectrometer mode. Deduced neutron
separation energy S(n) = U417.217 keV 46.
Other measured S(n)-H417.12 keV /<?(83RaO4).
Evaluated S(n) = l 14 16.94 keV 5(95AuO4).
Measured thermal-neutron capture cross section, o"(n,y)=»454 mb 25 (85Ral5).
34S Levels
E(level)' Jit' T, , , ' Comments
0.02127.5663304.2163916.4104074.6694114.8154624.4104688.98
4876.8464889.7585228.1785322.525380.995679.9325755.8825847.535998. 10612 1.566168.876251.236251.686342.536421.35
6428. 136478.7736685.346828.836847.906954.227110.467164.477219.297248.057367.437467.747552.707629.9127730.807781.227974.728036.318138.098174.9 48185.468205.418294.408385.418506.788615.748702.358727.648805.638874.029026.319158.729208.04
13
13
21
14
2316
4242223
3
417
21
3
8
10319910
8822
318
7
3417711101082115616
14
7
1389
64413824
6
6
3
6
0 +
2 +
2 +
0 +
1 +
2 +
3-4 +
3-f
2 +
0 +
2-1 +
(2.
1 —
0 +
2 +
2 +
3-
4 +
(I .
1-
4-2 +
(1 .(02 +
(1.2-3-
(0 +
1-
2 +
(1.
(0 +
(1
3-(0 +
1-
(1.(1-1-
(1.1 +
(1-(0 +
1-
1-
(2.
(1(1-(1.(1-(1.(1 .(1.
3)-
3)-
2)-t 0
2 + )
to
2) +
to
t 0
t 0
2 + )
. 2 +
2 + )
t 0
t 0
3 + )
t 0
. 2 +
2+)
to
2 + )
2 + )
2 + )
3 ) -
3 + )
3 + )
3-)
3 + )
)
4+)
3-)
3+)
)
3 + )
s t a
325135
1 .
<20709085
<50<30
17
<50
265
<7
<50<9270
0.<25<7
<45
<?
0.14
14
0.
0.
0.
0 .
ibl
fsfs1 1
fsfsfsrsfsfs
f s
fsf s
fsfsfsfs42fsfs
fs
fs
33fs
fs
52
6
928
e910ps 18
101010
7
45
55ps +49-21
fs 106
8
fs 8
fs 2
fs 3fs 6
Continued on next page (footnotes at end of table)
40
34o16^1
33S(n,r) E=thermal 85Ral5 (continued)
34S Levels (continued)
E(level)* Comments
9546.099598.429665.759801.899836.709933.3710092.2110179.6010212.1610311.5410650.1310840.6211024.95(11416.94
784
1061215653191511
5)
(1
(1
1-
(1(12 +
3-1-1 +
.2 + )
,2 + )
,2.3),2,3)
. 2 + E(level): from evaluated S(n) (95Au04).Jx: From s-wave neutron capture.Observed deexcitatlon Intensity is 85% of g.s. feeding.
From adopted levels, except as noted.From Ey's using least-squares fit to data, except as noted.
All data are from 85Ral5. except as noted.Iy normalization: renormalized from assuming Iy(to g.s.)-100.
E(level) Mult."
Y(34S)
8* I(Y+ce)®
"95.45"229.71281.34306.63334.21392.28516.86571.7 t576.80612.16631. 13672.00698.18722.95725 . 25
"743.50748.43
"752.30767.20770.428789.1 6798.92803.103
181624161511
12
195610131422201482120
1027
846.1 13925.79929.436941.59982.68989.08 &
"1029.23"1035.821055.4911105.6731 113.271121 .33
1421
e928
8172021
99
71 1064289208
(1141687026251
(11416391664789546532264789933
10840
(11416407456796478567961688036
66857110959871107467
5679(11416
52285998
.46
.13
.04
.94)
.35
.68
.94)
.410
.773
.09
.52
.773
.37
.62
.94)
.669
.932
.773
.932
. 87
.31
.34
.46
.42
. 46
. 74
.932
.94)
. 178
. 10
0.0026 70.0119 22
0.0051 180.020 50.0092 220.0270.0700.0180.0320.0580.0620.0330 . 0220.0390.0250.0220.0280. 0490.0220.610.0860.0640.2510.060.0380. 2350.0900.041
5/;757753554464
6169254522116
0.017 & 50.017 & 50.0700.0241 .540.330.0900.077
971631411
E2
(Ml)
(El)
(El)
El
(Ml)
Comments
o(n,7)=0.012 mb 3 (85Ral5).o(n,T)=0.054 mb ;0(85Ral5).o(n.Y)=0.023 mb 8 (85Ral5).o(n,y)-0.089 mb ^<?(85Ral5).<j(n,7)=0.O42 mb 10 (85Ral5).<j(n,Y)-0.124 mb 20 (85Ral5).o(n.r)=0.32 mb 5 (85Ral5).o(n,Y)=0.08 mb 3 (85Ral5).o(n,Y)=0.146 mb 21 (85Ral5).o(n,r)=0.263 mb 2£(85Ral5).o(n.Y)=0.283 mb 31 (85Ral5).o(n.Y)=0.I52 mb £0(85Ral5).<j(n.Y)-0.101 mb 14 (85RaI5).o(n.Y)=0.175 mb 22(85Ral5).a(n.Y)-0.115 mb 19 (85Ral5).o(n,Y)=0.098 mb /5(85Ral5).o(n,Y)=0.127 mb /7(85Ral5).<j(n.Y>=0.222 mb 26(85Ral5).o(n.Y)-0.098 mb 16 (85Ral5).o(n.Y)=2.75 mb 25 (85Ral5).o(n.Y)-0.39 mb 7(85Ral5).<j(n.Y)-0.29 mb 4 (85Ral5).<j(n.Y)-1.14 mb 11 (85Ral5).o(n,Y)-0.28 mb 18 (85Ral5).cr(n.Y)=0.171 mb 21 (85Ral5).o(n.Y)-107 mb /0(85Ral5).o(n.Y)=0.41 mb 5(85Ral5).<j(n,Y)=0.187 mb 27 (85Ral5).<j(n.Y)=0.079 mb 23(85RaI5).o(n.Y)=0.079 mb 23 (85Ral5).o(n,Y)=0.32 mb •* (8SRal5).o(n,Y)-0.108 mb 31 (85Ral5).o(n,Y)=7.0 mb 7(85Ral5).o(n.Y)-1.49 mb 14 (85Ral5).o(n,-y)=0.41 mb 6 (85Ral5).a(n.Y)»0.35 mb 5(85Ral5).
Continued on next page (footnotes at end of table)
4 1
34c;16^1
34c
le^i
33S(n,y) E=thermal 85Ral5 (continued)
BY
1 1 5 3 . 4 9 2 20
1 1 5 6 . 3 9 7
" 1 1 6 4 . 8 3 25
1 1 7 6 . 6 5 0 20
1 2 0 5 . 0 5 4
1 2 1 0 . 0 4 13
1 2 3 7 . 6 1 5
1 2 4 4 . 3 2 21
1 2 4 7 . 9 2 6
1 2 6 6 . 11 5
1 2 7 4 . 3 0 4
" 1 2 7 7 . 8 1 18
1 3 2 0 . 1 6 9 20
1 3 2 5 . 2 2 26
1 3 5 3 . 4 6 16
1 3 6 4 . 4 4
1 3 7 4 . 3 4 20
" 1 4 3 5 . 0 0 / ;
" 1 4 4 3 . 0 5 10
1 4 6 9 . 6 7 24
1 4 7 9 . 7 3 15
1 4 8 4 . 0 6 19
" I 4 8 6 . 7 8
1 5 2 5 . 3 9 6
1 5 4 4 . 4 1 & 10
1 5 6 2 . 3 5
1 5 6 4 . 8 5
1 5 7 2 . 5 7 ' 5
1 5 8 0 . 5 0 6
1 5 8 5 . 5 1 0 20
L 6 0 2 . 0 6 15
1 6 1 5 . 2 4 10
1 6 1 7 . 0 0 12
1 6 2 7 . 2 10
1 6 3 1 . 6 4 1 25
1 6 4 0 . 7 10
1 7 3 2 . 2 9 11
1 7 3 9 . 3 2 9
175 1 . 4 3 1 29
1 7 7 2 . 8 2 4
1 7 8 8 . 7 9 4 20
1 7 9 5 . 2 8 & 30
( 1 7 9 6 . 9 7 )
1 8 1 8 . 9 6 14
1 8 4 0 . 5 2 ' 12
1 8 5 4 . 2 8 4
L 8 7 1 . 0 4 8
' 1 8 8 7 . 6 6 4
1 9 2 2 . 9 2 22
1 9 2 5 . 9 4 17
1 9 4 7 . 0 6 0 20
1 9 5 1 . 7 7 19
1 9 5 9 . 6 7 17
" 1 9 8 0 . 1 5 12
" 1 9 8 4 . 2 4
1 9 8 7 . 1 9 3
1 9 9 8 . 3 4
" 2 0 4 6 . 2 9 5
2 0 5 3 . 9 4 14
2 0 7 6 . 8 9 8
2 1 2 7 . 4 9 9 2 0
E(level)
5 2 2 8 . 1 7 8
6 4 7 8 . 7 7 3
3 3 0 4 . 2 1 6
( 1 1 4 1 6 . 9 4 )
7 5 5 2 . 7 0
( 1 1 4 1 6 . 9 4 )
8 8 7 4 . 0 2
5 3 2 2 . 52
5 3 8 0 . 9 9
6 9 5 4 . 2 2
4 6 2 4 . 4 10
( 1 1 4 1 6 . 9 4 )
7 7 8 1 . 2 2
1 0 0 9 2 . 2 1
6 2 5 1 . 2 3
7 4 6 7 . 7 4
6 1 6 8 . 8 7
( 1 1 4 1 6 . 9 4 )
6 8 4 7 . 9 0
6 1 6 8 . 8 7
6 4 2 1 . 3 5
6 2 5 1 . 2 3
5 6 7 9 . 9 3 2
4 8 7 6 . 8 4 6
( 1 1 4 1 6 . 9 4 )
4 8 8 9 . 7 5 8
6 4 7 8 . 7 7 3
( 1 1 4 1 6 . 9 4 )
8 7 2 7 . 6 4
6 2 5 1 . 6 8
6 9 5 4 . 2 2
5 7 5 5 . 8 8 2
6 4 2 1 . 3 5
6 4 2 8 . 1 3
( 1 1 4 1 6 . 9 4 )
5 8 4 7 . 5 3
3 9 1 6 . 4 1 0
8 1 3 8 . 0 9
9 9 3 3 . 3 7
6 4 2 1 . 3 5
( 1 1 4 1 6 . 9 4 )
9 2 0 8 . 0 4
6 4 7 8 . 7 7 3
( 1 1 4 1 6 . 9 4 )
5 9 9 8 . 10
1 0 3 1 1 . 5 4
4 0 7 4 . 6 6 9
8 2 9 4 . 4 0
9 2 0 8 . 0 4
4 1 1 4 . 8 1 5
I 1 0 2 4 . 9 5
6 1 6 8 . 8 7
5 3 8 0 . 9 9
2 1 2 7 . 5 6 6
, * •
2 . 2 0 20
0 . 3 5 4
0 . 0 4 6 13
1 6 . 5 16
0 . 1 3 4 14
0 . 0 3 6 5
0 . 1 1 4 14
0 . 0 2 6 6
0 . 1 3 0 16
0 . 1 4 5 16
0 . 2 5 7 25
0 . 0 4 2 6
8 . 4 9
0 . 0 7 3 16
0 . 0 8 4 ; /
0 . 0 7 0 20
0 . 0 8 1 18
0 . 0 6 6 11
0 . 0 8 1 11
0 . 0 5 1 9
0 . 0 5 8 7
0 . 0 7 3 11
0 . 0 4 0 / ;
0 . 2 4 9 25
0 . 5 7& 5
0 . 5 7& 5
0 . 1 8 5
0 . 2 0 5
1 . 2 3 ' 14
0 . 1 4 5 16
0 . 5 5 5
0 . 0 9 5 16
0 . 5 0 6
0 . 4 3 6
0 . 0 4 2 16
0 . 6 3 6
0 . 0 3 7 22
0 . 0 9 7 14
0 . 1 0 6 14
0 . 3 2 3
0 . 3 1 3
1 7 . 4 18
0 . 0 4 2 & 11
o . 0 4 2 & ; ;0 . 0 6 2 70 .084 140 . 1 2 3 ' 200 . 2 8 30 . 4 5 50 .39 40 . 134 250 . 0 6 2 186.4 60 . 1 1 7 250 .194 250 . 1 4 1 200 . 1 1 31.43 160 . 0 3 1 / /0 . 3 9 40 . 130 200 . 3 3 4
70 7
Mult.*
Ml
M1+E2
( E l )
E1 ( +M2)
( E l )
MltE2
E1 ( +M2 )
( E l )El (<-M2)
( E l )M1+E2
E1 ( +M2 )
Ml
(Ml)
M1+E2
M1+E2
E2
V(34S)
- 0
- 0
- 3
+ 0
0
- 0
0
+ 1
- 0
(continued)
5* I(Y«<
.16 2
.02 4
.7 +7-26
.04 5
. 00 6
. 09 4
.0 2
.3 +9-32
.47 10
i)® Comments
<r(n,Y) = 10.0 mb 9 (85Ral5).o(n,Y) = 1.57 mb 18 (85Ral5).c(n.Y)-0.21 mb 6 (85Ral5).o(n,Y)=75 mb 7(85Ral5).o(n,Y)=0.61 mb 6 (85Ral5).o(n,Y)=0.162 mb 22 (85Ral5)o(n,Y)=0.52 mb 6 (85Ral5).o(n.Y)-0.t20 mb 2«(85Ral5)<j(n.Y)=0.59 mb 7(85Ral5).<j(n,Y)-0.66 mb 7 (85Ral5).o{n,Y) = 1.17 mb ; ; (85RaI5).o(n,Y) = 0.190 mb 26 (85Ral5)a(n,Y) = 38 mb 4 (85Ral5).a(n.y) = 0.33 mb 7(85Ral5).o(n,y) = 0.38 mb 5 (85Ral5).o(n.y) = 0.32 mb 9 (85Ral5).cr(n,Y) = 0.37 mb 8 (85Ral5).a(n,Y)-0.30 mb 5(85Ral5) .o(n.Y)=0.37 mb 5 (85Ral5).o(n,y)=0.23 mb 4 (85Ral5).o(n,Y)=0.263 mb 32 (85Ral5)o(n,Y)=0.33 mb 5 (85Ral5).o(n,Y)-0.18 mb 5 (85Ral5).o(n.Y)-I.13 mb 11 (85Ral5).o(n,Y)=2.58 mb 24 (85Ral5).d(n.Y)=2.58 mb 24 (85RaI5).o(n,Y) = 0.80 mb 20 (85RaL5).o(n.Y)=0.91 mb 20(85Ral5).o(n.Y) = 5.6 mb 6 (85Ral5).o(n.y) = 0.66 mb 7(85Ral5).a(n.Y) = 2.52 mb 23 (85Ral5).o(n.Y)=0.43 mb 7(85Ral5).a(n,Y)-2.25 mb 27 (85Ral5).a(n.Y) = 194 mb 25 (85Ral5).a(n.y)=0.19 mb 7(85Ral5).o(n.y)=2.88 mb 27 (85Ral5).o(n.Y)=0.l7 mb 70(85Ral5).o(n,Y)-0.44 mb 6 (85Ral5).o(n.Y)-0.48 mb 6 (85Ral5).o(n,Y) = 1.44 mb 14 (85Ral5).o(n,Y)-1.40 mb 14 (85Ral5).o(n.Y)-79 mb 8 (85Ral5).a(n.Y)-0.19 mb 5 (85Ral5).a(n.Y)=0.19 mb 5(85Ral5) .a(n,Y) = 0.28 mb 3.a(n,Y)-0.38 mb 6 (85Ral5).a(n,y)=0.56 mb 9(85Ral5) .o(n,y)»1.28 mb 73(85Ral5).o(n,Y) = 2.04 mb 22(85Ral5).o(n.y) = 1.78 mb ;7(85Ral5) .(j(n.y)-0.61 mb 11 (85Ral5).o(n.Y)=0.28 mb 8 (85Ral5).o(n.Y)=29.2 mb 26 (85Ral5).o(n.Y)=0.53 mb 11 (85Ral5).o(n,Y)-0.88 mb 11 (85Ral5).o(n,Y)«0.64 mb 9 (85Ral5).o(n.Y)=0.50 mb 14 (85Ral5).o(n.Y)-6.5 mb 7(85Ral5).o(n.Y)-0.14 mb 5 (85Ral5).o(n,Y)-1.78 mb IS (85Ral5).o(n,Y)=0.59 mb 9 (85Ral5).o(n.Y)-1.48 mb ;6(85Ral5) .o(n.y)-318 mb 29 (85Ral5).
Continued on next page {footnotes a t end of table)
42
34c16a1
34
33S(n,y) E=thermal 85Ral5 (continued)
Y(34S) (continued)
Ey
2152.41 232173.55 212209.10 62230. 14 t 142233.49 42258.430 23
"2282. 17 4
2290.26 152326.2 & 10
2328.8 52353.06 212363.97 8(2371.12)2375.657 202390.82 62404.04 6
"2441.31 42451.557 20
"2475.15 42490.6* 132496.726 202530.25 102543.13* 10
2558.82 132561.36 52611.7 4(2623.54)2689.50 102714.50 192749.24 52753.3* 132762.10 82801.33 5
'2810.3 32817.76 & 25
2839.3 42843.7 62864.56 42910.28 52919.7 52940.42 312945.8 & 10
2989.9 72995.8 63005.39 53022.0 103031.69 83038.18 32
"3051.83 263089.53 263122.65 15
"3149.29 153174.37 53183.9t 73194.74 53211.69 93231.89 203241.9 53253.21 6
E(level)
9933.3710311.54
(11416.94)7552.707110.46
(11416.94)
8138.098805.639546.097219.296428. 138615.747248.055679.932
(11416.94)6478.773
5755.882
7367.434624.4107219.295847.53
(11416.94)7248.054688.98
(11416.94)7248.05
(11416.94)(11416.94)
4876.8466828.834889.758
(11416.94)
6121.569665.75
6954.2210311.546168.87
(11416.94)10650.137629.9128174.98702.359836.707110.467629.9128702.35
(11416.94)6342.53
7164.47(11416.94)
6478.7738506.785322.52
(11416.94)(11416.94)(11416.94)
5380.99
I*.
0.037 110.035 110.189 200.176* 22l.io ;;
0.81 90.37 40.059 110.010 & 100.010 s 100.031 90.05 1 90.46 250.01985.7 6
0. 29 30.235 250.39 41.14 110.38 40.14* 4
3.4 30.112 162. I* 22. 1 & 20.27 30.79 90. 26 70.02420.48 60.62 111.54 160.20* 50. 66 72.22 220.19 30. 19& 30.19& 30.22 40.13 32.40 252.20 220.095 250.23 40.066* 200.066& 200.040 200.081 222.20 220.035 20l.OI 140. 28 4
0.14 30.123 250.59 90. 20 32.31 220.026t 181.63 180.52 50.185 250.079 160.84 9
Mult.*
(El)
(El)
(El)
El (+M2)
E2
E2(+M3)
M1+E2
M1+E2
E1+M2
(El)
(El)
E1+M2
8*
+ 0 .02
0. 00
- 0 . 11
-0.09
-0.23
-0. 17
4
1
3
4
7
6
KY+ce)® Comments
o(n,y)=0.17 mb 5(85Ral5).a(n.Y)=0.16 mb 5 (85Ral5).o(n,Y)-0.86 mb 9 (85Ral5).o(n,Y)-0.80 mb ;0(85Ral5).o(n,Y)-5.0 mb 5 (85Ral5).o(n,y)=3.7 mb 4 (85Ral5).o(n,Y)-1.70 mb ;6(85Ral5).<j(n,y)=0.27 mb 5 (85Ral5).o(n,y)-0.05 mb 4 (85Ral5).o(n,y)=0.05 mb 4 (85Ral5).<j(n,y)-0.14 mb 4 (85Ral5).o(n,y)=0.23 mb 4 (85Ral5).o(n,y)=2.1 mb ; / (85Ral5).o(n,Y)=0.09 mb.o(n.Y)-26.0 mb 24 (85Ral5).o(n.y) = 1.33 mb 14 (85Ral5).a(n,y)-1.07 mb 11 (85Ral5).a(n,y) = 1.75 mb i7(85Ral5).<j(n.y) = 5.2 mb 5 (85Ral5).<r(n,y)=1.71 mb 27(85Ral5).a(n,y) = 0.62 mb 76(85Ral5).o(n.y) = 15.4 mb 14 (85Ral5).c(n,y)=0.51 mb 7(85Ral5).<j(n,y)=9.6 mb 9 (85Ral5).<j(n.y)=9.6 mb 9 (85Ral5).
a(n.y) = 3.6 mb 4 (85Ral5).<j(n,y) = 1.2 mb 3 (85Ral5).a(n.y)=0.11 mb.a(n,y)=2.16 mb 24 (85Ral5).<s(n,y) = 2.8 mb 5 (85Ral5).o(n.y)»7.0 mb 7 (85Ral5).O(n.y)-0.93 mb 23 (85Ral5).o(n.y) = 3.0 mb 3 (85Ral5).o(n.y) = 10.1 mb 10 (85Ral5).cr(n,y)=0.87 mb 13 (85Ral5).o(n.y)=0.84 mb 13 (85Ral5).o(n,y)=0.84 mb 13 (85Ral5).o(n,y) = 1.00 mb 26 (85Ral5).o(n,y)=0.59 mb 13 (85Ral5).o(n,y) = 10.9 mb 11 (85Ral5).o(n.y)«10.0 mb 10 (85Ral5).O(n.y)-0.43 mb 11 (85Ral5>.a(n.y) = 1.05 mb 25(85Ral5).o(n.y)=0.30 mb 9 (85Ral5).0(n,y)=O.3O mb 9 (85Ral5).o-(n.y)-0.18 mb 9 (85Ral5).o(n.y)=0.37 mb 10 (85Ral5).a(n,y) = 10.0 mb 10 (85Ral5).a(n.y)=0.16 mb 9 (85Ral5).o(n.y)=4.6 mb 6 (85Rai5).CT(n,y) = 1.27 mb 17 (85Ral5).o(n.Y)=0.64 mb 22(85Ral5).o(n,y).0.56 mb 11 (85Ral5).o(n,y)=2.7 mb 4 (85Ral5).o(n,y)=0.89 mb 22(85Ral5).o(n,y) = 10.5 mb 10 (85Ral5).a(n.y)-0.12 mb 8 (85Ral5).o(n.Y)-7.4 mb S(85Ral5).o(n.y).2.36 mb 23 (85Ral5).o(n,y)=0.84 mb /2(85Ral5).o(n,Y)-0.36 mb 7 (85Ral5).o(n,Y)-3.8 mb 4 (85Ral5).
Continued on next page (footnotes at end of table)
43
34c
le^i34cI6°18
33S(n.?) E=thermal 85Ral5 (continued)
Y(34S) (continued)
Ey E(level) Mult.* 8*
3278.79 113304.031 203311.6 53392.86 243442.24 25
3451.5 93476.95 183500.3 53515.07 113552.08 43581.2 43628.10 43635.83 83644.8 83649.88 123664.8 43719.68 163738.69 IT3787.096 20
3812.0 53864.25 11
3870.51 31(3916. 17)3949.27 123990.7 73994.8 84040.63 294049.68 154074.418 20
4114.52 44197.69 54248.28 214252.38 224306.44 64325.397 304350.85 94391.77 29(4426.27)4462.44 204499.7 104532.6 74540.68 154568.9 44588.37 26
4624.2 54670.1 64731.37 104758.79 274799.11 284826.0 54889.30 84903.4* 54938.06 34982.44 204988.6 45036.4 75043.3 45074.79 255084.2 5(5120.07)5202.06 65239.8 45247.94 4
(11416 .94)3304.2169158.727467.74
(11416.94)7367.439598.428727.647629.9125679.9328205.415755.882
(11416.94)9026.316954.2210092.215847.538615.74
(114 16.94)8702.35
(11416.94)5998.103916.410
(11416.94)8615.746121.566168.87
(11416.94)4074.6694114.815
(11416.94)7552.70
(11416.94)(11416.94)7629.9126478.7738506.787730.80
(11416.94)10179.6010212.168615.74
(11416.94)(11416.94)4624.4107974.72
(11416.94)8874.028874.026954.224889.75811024.95(11416.94)7110.461031 I.547164.479158.72
(11416.94)
9158.727248.058506.787367.43
(11416.94)
0.70 913.9 140.136 250.35 50.22 40.077 220. 156 220. 106 250.31 43.81 40.081 163.9 41.14 140.106 220.68 70.103 220.42 50.26 45.8 60.055 140. 37 40.123 18
0.34 40.064 160.055 160.119 180.26 36.9 71.89 200.66 90.35 40.27 41.83 182.8 31 .36 160.097 20
1.74 180.051 160.051 160.37 50. 066 140. 130 220.046 ;/0.024 140. 35 40.101 180.114 180.024 //0.59 60.062t 184.9 50.29 30.139 200.055 140. 35 60.092 180.031 110.07920.66 70.143 202.60 25
E2
(El)
E2
E0
E1+M2
MlE2
(El)
(El)
E3
E2
E1+M2
(El)
0 . 0 0 6 6
- 0 . 4 3 16
+0.21 17
Comments
o(n,y)=3.2 mb 4 (85Ral5).d(n.7).63 mb 6 (85Ral5).a(n.y)-0.62 mb 11 (85Ral5).a(n.y)-1.57 mb 19 (85Ral5).<j(n,y) = 1.02 mb 16 (85Ral5).a(n.y) = 0.35 mb /0(85Ral5).cr(n,Y)-0.71 mb /0(85Ral5).er(n,Y)«0.48 mb ; ; (85Ral5).<j(n.y)-l.43 mb 16 (85Ral5).tr(n.y)«17.34 mb 17 (85Ral5).a(n.y) = 0.37 mb 7(85Ral5).a(n.y) = 17.6 mb ifi(85Ral5).o(n,y) = 5.2 mb 6 (85Ral5).o(n,y)=0.48 mb ;O(85Ral5).CT(n,y)-3.11 mb 31 (85Ral5).o(n.y)=0.47 mb /O(SSRalS).o(n,y)-1.91 mb 20(85Ral5).o(n.y) = 1.18 mb /7(85Ral5).o{n.y)=26.5 mb 25 (85Ral5).o(n.y)=0.25 mb 6 (85Ral5).<j(n.7) = 1.68 mb /7985ral5).O(n.y)=0.56 mb #(85Ral5).o(n,y) =0.030 mb 5.<j(n.y)=1.54 mb ;7(85Ral5).o-(n.y)-0.29 mb 7(85Ral5).a(n.y)-0.25 mb 7 (85Ral5).a(n.y) = 0.54 mb 8 (85Ral5).o(n.y).1.17mb 13 (85Ral5).o(n.y) = 31.3 mb 29 (85Ral5).o(n,y) = 8.6 mb 9 (85Ral5).O(n.y)=3.0 mb 4 (85Ral5).c(n,y) = 1.59 mb ;#(85Ral5).o(n,Y)-1.23 mb i5(85Ral5).o(n,y)=8.3 mb S(85Ral5).o(n.y)-12.7 mb ;2(85Ral5).o(n.y)=6.2 mb 7(85Ral5).o(n,y)=0.44 mb 9 (85Ral5).
a(n.y) = 7.9 mb «(85Ral5).O(n,y) = 0.23 mb 7(85Ral5).a(n.y)-0.23 mb 7(85Ral5).<y(n.Y)»1.70 mb 20 (85Ral5).<J(n.Y)-0.30 mb S(85Ral5).O(n.y)-0.59 mb 10 (85Ral5).O(n.y)-0.21 mb 5(85Ral5).o(n.y) = 0.11 mb 6(85Ral5).<j(n,y)-1.58 mb ;0(85Ral5).<j(n,y)=0.46 mb 8 (85Ral5).<T(n,y)=0.52 mb S(85Ral5).o(n,y)=0.11 mb 5(85Ral5).o(n.y)=2.68 mb 2fi(85Ral5).a(n,y)-0.28 mb «(85Ral5).o(n.y)-22.2 mb 21 (85Ral5).a(n.y) = 1.31 mb 14 (85Ral5).O(n.y)=0.63 mb 9 (85Rat5).o(n,y)=0.25 mb 6 (85Ral5).O(n,y) = 1.59 mb 26 (85Ral5).a(n.y)=0.42 mb 8 (85Ral5).a(n.y)=0.14 mb 5 (85Ral5).a(n.y)-.0.36 mb.o(n,y) = 3.00 mb 29 (85Ral5).o(n.y)=0.65 mb 9 (85Ral5).o(n.y) = 11.8 mb 11 (85Ral5).
Continued on next page (footnotes at end of table)
44
34c16Di8
34c
33S(n,y) E=thermal 85Ral5 (continued)
1
5268
52945311538055015569560256605736575558475884.5997.6010 .6035.(6057.6077 .6094.6152.6166.6188.6236.
6241 .6341 .6487 .6496.6526 .6539.6573.6600.6727.6745.6792.(6828)6846.7218.7302.7341 .7499.7536.7675 .7708.7780.7973.8036.8051 .8083.8111 .8136.8173.8184.8384.8505.8726.
8804.9024.9206.9288.9544.9932.11415.
E
.9* 6"
.94 24
. 10 15
.59 9
.4 5
. 30 5
.78 15
.78 6
.76 4
. 5 5
.4 5
.6 6
. 30 31
.3 3
.68 731)27 124 41 524 1345 63 110 558 3248 662 2384 666 166 41 75 964 1610 3
37 3248 132 867 690 52 70 832 3022 704 5 256 71 <>49 3199 998 178 970 2428 968 /078 244 49 5 / 765 2628 JS83 2S1 6IT 11
E(level)
10650.1311024.95
(11416.94)8615.745380.998805.63
(11416.94)
7730.80(11416.94)(11416.94)
5755.882
7974.729801.895998. 108138.09
(11416.94)8185.468205.41
(11416.94)10840.628294.40
(11416.94)1031 1 .54
9546.096342.538615.749801.89
(11416.94)(11416.94)
8702.358727.64
(11416.94)8874.02
(11416.94)6828.836847.907219.29
(11416.94)(11416.94)(11416.94)
9665.759801.899836.707781.227974.728036.31
10179.6010212 . 16
(11416.94)8138.098174.98185.468385.418506.788727.64
8805.639026.319208.04
(11416.94)9546.099933.37
f11416.94)
0000001
04
9000000
0000I000
001
0.00.0.0.5,
0.0.0.8.
13.0.0.0.0.0.0.0.0 .1.
0.0.0.0.1.0.0.0.0.0.0.0.1.
IyS®
.059* IS
.O59& 15
.092 18
.176 22
.43 5
.101 20
.23 14
.25 3
.0 4
.5 9
.112 18
.055 14
.059 14
.075 14
.110 18
.97 11
.26 3
.046 ;;
.040 ;;
.34 4
.91 20
.042 11
.099 16
.099 18
.79 9
.123 16
.21 /•*
.22 3
.24 5,051 //015 960 73 5
123 1660 7062 110 76 14097 22035 9097 1684 11092 14040 9057 //103 1634 1631 4035 7141 1675 803 ;/097 14053 9176 20077 //24 3084 11018 556 16
Mult.*
Ml
El
E2
El
E2
El
El
ElEl
El
Y(34S) (continued)
<T(n.y)-0.27 mb 7(85Ral5).a(n.y)-0.27 mb 7(85Ral5).<F(n.y)=0.42 mb 8 (85Ral5).o(n.y)=0.80 mb 10 (85Ral5).O(n,y) = 1.97 mb 20(85Ral5).<j(n,y)=0.46 mb 9(85Ral5).o(n,y)-5.6 mb 6(85Ral5).o(n,Y) = 1.15 mb 14 (85Ral5).o(n,y)-18.4 mb 18 (85Ral5).
a(n,y)=43 mb 4 (85Ral5).c(n,y)-0.51 mb *(85Ral5).o(n,y)=0.25 mb 6~{85Ral5).o(n,y)=0.27 mb 6"(85Ral5).o(n.y)=0.34 mb 6 (85Ral5).o(n.y)=0.50 mb 8 (85Ral5).O(n.y)=4.4 mb 5(85Ral5).
o(n.y) = l.l9 mb 13 (85Ral5).o(n.y)»0.21 mb 5 (85Ral5).a(n.y)-0.18 mb 5(85Ral5).a(n.y)=.1.55 mb J7(85Ral5).o(n,y)=8.7 mb 9 (85Ral5).o(n,y)=0.19 mb 5(85Ral5).a(n,y)=0.45 mb 7(85Ral5).<j(n,y)=0.45 mb 8 (85Ral5).CT(n.y)=3.6 mb 4 (85Ral5).o(n,y)=0.56 mb 7(85Ral5).c(n,y)=5.5 mb 6" (85Ral5).<j(n.y)=0.99 mb /2(85Ral5).o(n.y) = 1.09 mb 19 (85Ral5).o(n.y)=0.23 mb 5 (85Ral5).o(n,y)*0.07 mb 4 (85Ral5).o(n,y) = 2.71 mb 30(85Ral5).a(n.y)=24.2 mb 23 (85Ral5).
o(n.y)=0.56 mb 7(85Ral5).c(n,y)=2.71 mb 2#(85Ral5).o(n.y)=0.28 mb 5(85Ral5).o(n,y)=36.5 mb 34 (85Ral5).<j(n,y) = 62 mb 6 (85Ral5).o(n,y)=0.44 mb 10 (85Ral5).o(n.y)=0.16 mb 4 (85Ral5).O(n,y)-0.44 mb 7(85Ral5).o(n.y)»3.8 mb 5 (85RaI5).<5(n,Y)»0.42 mb «(85Ral5).<j(n,y)=0.18 mb 4 (85Ral5).ej(n,y)=0.26 mb 5(85Ral5).o(n,y)=0.47 mb 7(85Ral5).o(n,y)-6.1 mb 7 (85Ral5).o(n.y)=1.40 mb 16 (85Ral5).o(n.y)-0.157 mb 31 (85Ral5).o(n,y)=0.64 mb 7(85Ral5).a(n.y)=3.43 mb 33 (85Ral5).o(n.y)=4.7 mb 5(85Ral5).<j(n,y)-0.44 mb 6(85Ral5).o(n,y)-0.24 mb 4 <85Ral5).a(n,y)-0.80 mb 9{85Ral5).a(n.Y)=0.35 mb 5 (85Ral5).o(n.y)-1.10 mb 12 (85Ral5).o(n,y)>0.38 mb 5 (85Ral5).o(n,Y)=0.082 mb 19 (85Ral5).o(n,Y)=7.1 mb 7 (85Ral5).
Comments
Footnotes continued on next page
45
34c 34o16^18 16^18
33S(n,y) E=thermal 85RaI5 (continued)
y(34S) (continued)
t After corrections due to a y-ray of similar energy in 34S{n,y)35S reaction.
* After corrections due to a y-ray of similar energy in 32S{n,y)33S reaction.
§ Absolute intensities per 100 neutron captures. For y-ray cross section in mb (85Ral5), multiply by 4.54545 per 100 neutron
captures. From the difference between the intensities feeding the ground state and emerging from the capturing state, it is noted
that «75 mb of intensity ( 17% of the total capture cross section) is contained in numerous unobserved ( and fewer unplaced or
misplaced) primary transitions. Whenever either the intensity in or Intensuty out exceeds 10 mb. the Intensity balance is
satisfactory {<20% imbalance) for all levels, except the 4115-keV, 2+- state. This agreement is not contrived but emerges naturally
from a skeleton level scheme eschewing the weaker transitions.
* From adopted gammas, except as noted.
® For intensity per 100 neutron captures, multiply by I.
& Multiply placed; undivided intensity given.x y ray not placed in level scheme.
46
34c16^1
33S(n,y) E=thermal 85Ral5 (continued)
Level Scheme
Intensities: I(y+ce) per 100 parent decays& Multiply placed: undivided intensity given
47
34o16° 18
33S(n,y) E=thermal 8SRalS (continued)
Level Scheme (continued)
Intensities: I(v+ce) per 100 parent decays& Multiply placed: undivided intensity given
.0.1416.94).
I I 1 I"27-566 325 f s
stable34c16^1
48
34c16^1
33S(n,y) E=thermal 85Ral5 (continued)
Level Scheme (continued)
Intensities: I(Y+ce) per 100 parent decays& Multiply placed: undivided intensity given
1+.2+
1-
3-
2 +
(1 2+)
(11416.94)
11024.95
10840.62
10650.13
10311.54
9801 89
(1.2+)
1 J _ III 1 1 1
9546.09
0.28 fs0.9 fs
0.6 fs
0.52 fs
2 1 2 7 5 6 6 325 fs
stable34
6
49
34ole^i
34c16^18
33S(n,y) E=therraal 85Ral5 (continued)
Level Scheme (continued)
Intensities: I(y+ce) per 100 parent decays& Multiply placed: undivided intensity given
1+.2 +
I-
3-
2+
(1.2+)
(1 2+)
(1.2+)
(1.2+)
(1,2+)
1-
(11416.94)
11024.95
10840.62
10650.13
10311.54
9801 89
9208.04
9026.31
8805.63
8385.41 0.9 fs
14 fs0.33 fs
<7 fs
<45 fs
265 fs17 fs<30 fs<50 fs85 fs90 fs70 fs<20 fs135 fs
0.0
325 fs
stable3 4 S
50
34q16°18
33S(n,y) E=thermal 85Ral5 (continued)
Level Scheme (continued)
Intensities: I(y+ce) per 100 parent decays& Multiply placed: undivided intensity given
1+.2 +
3-
2+
(1 2+)
11.2+)
(1.2+)(1.2+)
(1,2+)
-L=
(1,2+)
(0+ to 3+)
(1.2)+
(11416.94)
11024.95
10840.S2
10650.13
10311.54
9801 89
9546.09
9208.04
9026.31
8805.63
8385.41
7974.72
7730.80
7367.43
(0+ to 3+) 7164 ,47
1 1 I I Hi II 0.0
0.9 fs
325 fs
stable34c16a18
51
35cle-3
35c16°19
34S(n,Y) E=thermal 8SRal5,85KeO8
Target Jjt=O+.
85Ral5: measured Ey, Iy with a Ge(Li)-NaI(Tl) in Compton-suppressed mode and pair spectrometer mode. Deduced neutron
separation energy S(n)=6986.089 keV 14.
85KeO8: measured Ey, Iy with a Ge(Li)-NaI(Tl). Deduced neutron separation energy S(n) = 6985.84 keV 5.
Other measured S(n)=6986.089 keV 44 (83RaO4).
Evaluated S(n)-6985.84 keV 4 (95AuO4).
Measured thermal-neutron capture cross section. <r(n.y) = 5l8 mb 14 (85Ral5).
35S Levels
E(level)* Jxt Comments
0
1572
1991
2347
2716
2938
3558
3801
4 105
4 189
4477
4903
4963
5752
6018
6078
6293
6354
6419
6629
6761
(6985
.0
. 373 6
.28 5
.781 7
.991 20
.64 5
.074 24
.955 14
. 6 7
.256 15
. 60 7
.355 13
.073 15
.5 8
. 8 6
.471 20
.92 6
. 88 23
.9 11
. 42 9
.0 12
. 84 4)
3/2 +
1/2 +
7/2 +
3/2-
5/2 +
3/2 +
(3/2-3/2-
( 1/2 .
1/2-
(1/2.
1/2-
3/2-
(1/2
(1/2
(1/2 ,
(1/2
(1/2
(1/2
1 /2 +
.5/2)
3/2.5/2)+
32
to
t 0
,5/2)+
7/2) +
5/2 + )
3/2)-
to
to
to
5/2 + )
5/2 + )
5/2 + )
87
2
1
0
70
25
<55
.51
.3
.02
.89
fs
fs
fs
d 12
ps 3
ns 5
ps 12
25
18
E(level): from evaluated S(n) (95AuO4).
Jit: from s-wave neutron capture.
Observed deexcitatlon Intensity is 45.7% of g.s. feeding.
From adopted levels, except as noted.
From Ey's using least-squares fit to data, except as noted.
All data are from 85Ral5, except as noted.
Iy normalization: renormalized from assuming Iy(to g.s.)=100.
Ey E(level) Mult.*
Y(35S)
5* Comments
356.66&
368.5 4
619.23
631.32 &
X663.41
692 . 16
775.398
"803.81
863.28
9
19
24
7
5
6
9
28
907.607* 14
1084.79
1101.92
1144.591
1161.05
(1166.9)
1210.28
1250.61
"1381.67
15
31
20
20
4
5
24
2347.781
(6985.84)
2716.991
3558.074
4189.256
(6985.84)
(6985.84)
2347.781
3801.955
(6985.84)
3801.955
4903.355
2716.991
4963.073
4105.6
3558.074
4189.256
0.037& 4
0.037& 4
0.020 7
0.041 8
0.060& 9
0.060s 9
0.090 ;;
0.132 17
15.6 17
0.092 14
0.034 ;;
0.61* ;;
0.054 ;/
0.033 8
0.55 6
0.055 9
0.0068
0.25 3
0.214 24
0.024 9
(El)
(El)
(El)
(El)
o(n.y)-0.110 mb ;2(85Ral5).
o(n.y)=0.110 mb J2(85Ral5).
o(n,y)=0.06 mb 2 (85Ral5).
o(n,y)=0.122 mb .?£(85Ral5).
o(n.y)-0.175 mb £5(8SRal5).
o(n,y).0.175 mb 25 (85Ral5).
o(n,y)-0.266 mb 30(85Ral5).
o(n,y)«0.39 mb 5(85Ral5).
o(n,y)=46 mb 5(85Ral5).
a(n,y)=0.27 mb 4 (85Ral5).
o(n.y)-0.10 mb 3 (85Ral5).
o(n.y)=1.79 mb 30(85Ral5).
o(n.y)-0.16 mb 3 (85Ral5).
c(n,y).0.096 mb 23 (85Ral5).
O(n,y)=1.63 mb J6(85Ral5).
o(n.y)-0.161 mb 24 (85Ral5).
o(n,y)=0.02 mb.
c(n,y)=0.74 mb 8 (85Ral5).
o(n.y)-0.63 mb 7(85Ral5).
c(n.y)=0.070 mb 24 (85Ral5).
Continued on next page (footnotes at end of table)
52
35c16a1 35c
le^i
34S(n,y) E=thermal 85Ral5,85Kc08 (continued)
y(35S) (continued)
Ey E(level) Mult.* 8» Comments
140414541566157217601841196419912022
2082
(212922292347
250825552615261627162796
2905.2938.2972.3139 .3183.
3330.
3390.
3558.3801 .
4105.4188.
4268.4637.
4902.
4962.
5752.6018.6077.6293 .6355.6419 .6628.6760.6985.
.967 24
.09t 4
.7 3
.333 7
.55 11
.426 15
.8t 2
.27 5
.954 9
.681 12
.75)
.510 16
.701 ;/
. 39 8
.492 14
. 2* 28t 3
.99 16
. 73 4
1 458 110 49 594 4
80 4
55 5
1 574 3
3 896 4
65 1491 4
96 4
63 5
0 «2 ff
87 y;
2 4
0 63 /;5 63 /27 10
49633801355815724477418949031991
(6985
(6985
447738012347
(69854903496341892716(6985
4477293849636078.(6985.
4903.
4963.
3558.3801 .
4105.4189.
(6985.(6985.
4903.
4963.
5752.6018.6078.6293.6354.6419.6629.6761.(6985.
.073
.955
.074
.373
.60
.256
.355
.28
.84)
.84)
.60
.955
.781
.84)
.355
.073
.256
.991
.84)
.60
.64
.07347184)
355
073
074955
6256
84)84)
355
073
584719288942084)
000
35020011
15
02
50
03100
5
0000.6.
7.
5.
0.3.
0.2.
0.5 .
3.
2.
0.0.0.0.0.0.0.0.0.
.60 6
.45* 11
.47 94
• 146 21
. 14 21
.37t 11
.54 6• 4 //
.6 17
. 146
.8 35
• 38 4
. I 3
.08* //
.24t 7
.30 5
.4 5
. 14 4
.89 10
. 18 6
.078 24
.2 6
4 8
5 5
085 171 3
047 177 3
34 45 5
7 4
9 3
018 5020 7
36 4064 14046 7016 5030 6019 8036 *
M2+E3
(El)El (+M2)
El
El
(El)
(El)
<j(n.y)-1.76 mb /7(85Ral5).<j(n,y) = 1.33 mb 32 (85Ral5).o(n.y)-1.38 mb 25 (85Ral5).o(n,y)=103 mb 10 (85Ral5).a(n,y)-0.43 mb 6 (85Ral5).o(n.y)=6.3 mb 6(85Ral5).o(n,y) = l . l mb 3 (85Ral5).
- 0 . 1 9 8 o(n.y) = 1.59 mb /5(85Ral5).IT- II 1 (85Ke08).O(n,y)=33.6 mb 30 (85Ral5).Iy: 17 2(85KeO8).<j(n.y) = 46 mb 5 (85Ral5).c(n,y)=0.43 mb.c(n,y) = 8.4 mb «(85Ral5).
- 0 . 0 Iy: 49 4 (85ke8).o(n.y) = 148 mb ;5(85Ral5).cr(n,y) = l . l l mb /2(85Ral5).o(n.y)=9.1 mb 9 (85RaI5).o(n.y)=3.2 mb 3(85Ral5).o(n,y)=0.7 mb 2(85Ral5).a(n.y)=0.89 mb 13 (85Ral5).ly: 4.3 4 (85KeO8).<j(n.y) = 15.9 mb 15 (85Ral5).o(n,y>=0.41 mb 11 (85Ral5).o(n,y)=2.62 mb 27 (85Ral5).o(n,y)-0.54 mb i7(85Ral5).<j(n,y)=0.23 mb 7(85Ral5).Iy: 5.7 6 (85KeO8).<j(n,y) = l8.2 mb /7(85Ral5).ly: 7.7 8 (85Ke08).o(n.y)«21.8 mb 21 (85Ral5).Iy: 5.7 6 (85KeO8).o(n,y) = 16.2 mb 15 (85Ral5).o(n,y)=0.25 mb 5 (85Ral5).Iy: 2.3 2 (85KeO8).<j(n,y)=9.1 mb 9{85Ral5).o(n,y)=0.14 mb 5 (85Ral5).Iy: 24 2(85KeO8).o(n,y)=8.0 mb 8 (85Ral5).o(n,y) = 1.00 mb 12 (85Ral5).Iy: 59 5(85KeO8).<j(n.y)-16.3 mb 15 (85Ral5).Iy: 4.3 4 (85KeO8).o(n.y) = 11.0 mb / / (85Ral5).Iy: 2.9 3 (85KeO8).o(n.y)=8.6 mb 8 (85Ral5).O(n.y)-0.052 mb /5(85Ral5).o(n,y)=0.06 mb 2 (85Ral5).a(n,y)-1.06 mb 11 (85Ral5).o(n.y)-0.19 mb 4 (85Ral5).o(n.y)-0.136 mb 20 (85Ral5).or(n.y)=O.O48 mb 15 (85Ral5).a(n.y)-0.089 mb 16 (85Ral5).o(n.y)-0.056 mb 22 (85Ral5).o(n.y)-0.106 mb 23 (85Ral5).
* After corrections due to a y-ray of similar energy in the 32S(n,y)33S recatlon.* Peak observed at 2615.49 keV 4 with intensity 3.94 4 was reanalyzed as a doublet.§ Absolute intensities per 100 neutron captures. For y-ray cross section in mb (85Ral5). multiply by 2.9412 per 100 neutron
captures.* From adopted gammas, except as noted.® For intensity per 100 neutron captures, multiply by 1.& Multiply placed; undivided intensity given." y ray not placed in level scheme.
53
Level Scheme
Intensities: I(y+ce) per 100 parent decays
& Multiply placed; undivided intensity given
1/2 (6985.84),
<55 fs
25 fs
70 fs
0.89 ps
1.02 ns
2.3 ps
MII
ft
3
00in
IDeso
os5'cA0.
87.51 dC/)
17C119 17C119
35Cl(n,7) E=thermal 82Krl2,81Ke02,96Col6
Target J*=3/2+.82Krl2: measured Ey, Iy with curved crystal spectrometers GAMSl and GAMS2/3 and Ge(Li)-NaI(Tl) in Compton-suppressed
mode and pair spectrometer mode. Deduced neutron separation energy S(n)-8579.68 keV 9.81KeO2: measured Ey, Iy with a Ge(Li)-NaI(Tl) pair spectrometer. Deduced neutron separation energy
S(n)=8579.83 keV 2.96Col6: measured Ey, ly with HpGe detector.Evaluated S(n)=8579.70 keV 7(95AuO4).
36C1 Levels
E(level)'
07881 1641601195119592468249225182676281028632896299431003332347035993634366039413962.4031 .4061 .4138.4205.4299.4315.4410.4496.4525.4551 .4598.4754.4757.4829.4997.5018 .5079.5150.5204 .5246.5263.5329.5463.5473.5517.5563.5578.5604.5703.5734.5778.5956.6042.
.0
.441 3
. 886 3
.113 4
. 197 3
.406 4
. 278 3
.319 5
.416 6
.429 13
.596 5
.951 6
.341 5
.687 7
.720 4
.312 6
.03 3
.550 5
.977 14
.366 24
.27 4
.929 17
.95 3470 19976 1664 470 464 802 370 3187 1943 749 336 4996 1852 422 310 313 4644 £256 364 401 415 6498 2070 5692 15583 i9480 2027 3051 25045 /455 4686 24405 27
2 +
3 +
1 +
1 +
2-2 +
3-2 +
5-
1 +
4-3 +
3-
(l.4-2-
(1.3-1-
(1.(1*2-(0.
(1.(2.(1.04-
(1.
(1 +
2-1 +
(1.3-
(1.3-
(1 +
(2.
(1-(1 .
(1 .
2-
(1 +
(1.(0
(1.(0 +
3-(2-
(1.
2 +
(0 +
(2,
(1 +
(1.2-
JitT
2)-
2) +
2.3)• to 3+-)
1.2)-2)-3 ) -
2) +
2 . 3 ) -
to 3 + )
2) +
2 ) -
to 4.)
3)-to 4+)
2.3>-
2.3)-
to 3 + )
2)-to 3+)
2 ) -
to 3 + )
.3)
2)-
to 4 + )
3)-to 4 + )
2)*
3136
6501
40I
401
<72
<106006015073
<254020
<20
T
.OlxlO5 y 2
.8
.4fs
.8fs.04fs.61
fs.8fsfsfsfsfsf s
fsfs
f s
ps 12ps 640
ps 211ps 1211ns 8
ps 6
100124014
1511
Comments
B"=98.10 10: %e+%B*=1.90 10.
Continued on next page {footnotes at end of table)
55
36n 36
35Cl(n,Y) E=thermal 82Krl2,81Ke02,96Col6 (continued)
36C1 Levels (continued)
E(level)' Comments
6089.866184.956253.586268.1606339.896344.346354.926379.4886423.3986487.716538.286544.9746604.376642.6536773.206836.516952.617082.707559. 17(8579.70
45
417
44
520
184317
3
22544457)
(0- to 3)(1.2)+(1.2)-(2-.3)(1.2.3)-(0+ to 4+)2 +
(1.2)+(2.Si-ll .2.3)-(0- to 3+)
(1.2)+(1- to 3)1-
(0 to 4)+(0- to 3)(1.2.3)(0 to 3)+(0+ to 4+)1+ , 2 + E(Level): 8579.70 keV 7 from evaluated S(n) (95Au04).
Jic: from s-wave neutron capture.
Observed deexcitation intensity is 99.7% of g.s. feeding.
From adopted levels, except as noted.
From Ey's using least-squares fit to data, except as noted.
All data are from 82Krl2. except as noted.
Iy normalization: normalized from assuming Iy(to g.s.) = 100.
Y(36C1)
E(level) IYt# Muk.§ Comments
85 . 743
"89.838
"90.028
"108.740
Mil .546"115.424"133.558"137.195"151.159204.373
"212.726225.526
236.710"241.334"272.760"279.435292.178302.751
"308.722337.617
"340.27
342. 31 1
"343.038
358.288
369.281
371.562
376.425"422.060"427.534
716
19
32
17
287
30288
10
36
40
76
4242474
24
5
15
4785
2921
25
3013
2896.341
3100.720
4525.1876268.1603100.720
2810.5963634.977
3332.312
2810.596
1959.4063470.034031 .951164.886
0.00760.00300.00200.00400.005O0.00300.00700.00300.00300.01190.00900.00540.00370.00590.00400.00700.00900 .2630.00680.03700.05860.00500.01750.00800.2200.0620.00440.0410.00400.0130
15
11
10
12
13
11
23
21
21252417
15
2021
3233
40
36
8290312942
36
1511
11
12
28
(Ml)
(Ml)
(El)
Ml (+E2)(Ml)
(Ml)
(Ml)
(Ml)
(E2)
+0.03 3
Continued on next page (footnotes at end of table)
56
35Cl(n.Y) E=thermal 82Krl2,81Ke02,96Col6 (continued)
7(36C1) (continued)
Ey E(level) ITt# Mult.§ Comments
427.855428.239435.969436.222
"441.00"444.490"447.848455.67
"455.968459.57
"462.253463.699465.27466.06466.625468.359468.765478.69
"485.868495 .891502.309503.985508.866517.077532.906537.667539.60576.417582.324
"590.495"595.84 J"602.839616.152619.040
"622.940"628.941630.556632.438640.330656.000
"659.653"661.707"663.429665.636696.499703.204
"712. 107717.025
"723.105"727.999729.106735.578760.365780.66 I786.305788.432812.608
"832.080841.901
"848.449859.420864.021
"865.395
4873102
12
13121116117218
24159933014352124632144118604268154331624831312338415117728237
94253327812051>82322222355128
73
5578289633321601
5473
4598
4525449654635018333244104138
6538299441382468.24682492 .7082.4138.6354.3100.
6089.4757.
3962.3100 .3634.3332.
3660.4757.3599.
2676.
4061 .3599.5778.6253.1951 .788.
1601 .
6544.
2810.3332.
.480
.341
.312
. 113
. 70
.49
. 187
.70
.498
. 10
.312
.02
.976
. 28, 687.976,278, 2783197097692720
86996
929720977312
366996550
429
47055055581974411 13
974
596312
0.03190.01270. 164
5322
25
1.05 160.0270.0330.00700.01400.00700.02960.0170.00640.01300.01630.0330.0890.00990.0880.01000.00950.01780.01570. 350
131023672396
20529747161328
5043284531
5324.3* 140.1100.00870.03690.00420.01020.00400.00400.00400.0860.00590.00600.00900.01060.3190.01560.00680.01300.02100.00500.0730.01410.1140.00500.01700.01600.02200.00640.03630.02380.012 .10.52* ;16.32* .0.068 .
183059113112121220
1813422248
291628511316321813373852
16685815353611
0.100 240.03840.03000.106 .
847518
0.122 20
0.0200 50
(Ml)(Ml)
(El)
(El)
(El)M1+E2(Ml)
(Ml)
(Ml)M1+E2(Ml)(El)
(Ml)
(Ml)
(El)
(El)M1+E2(E2)
E2(+M3)(Ml)
+0.03 1
+0.07 2
+ 1.1 2
-0.01 4
ly: 23.4 J5(82Krl2).
Iy: 11.2 i7(82Kr!2).Iy: 16.9 25 (82Krl2). 15.0 (81KeO2).
Continued on next page (footnotes at end of table)
57
3 6 r i
35Cl(n,y) E^thermal 82Krl2,81Ke02,96Col6 (continued)
7(36C1) (continued)
E(level) Mult.S Comments
870.484"884.87"886.795904.508
"912.881936.921945.131
"946.297958.559968.173975.74979.615
"989.634
998.8011020.4971034.261
"1035 . 125"1035.8921043.4731066.723
"1068.721076.7231086.6621089.43
"1095.72"1127.811131.2471162.7851164.8741170.9221201.981230.8461258.0281264.601265.421327.4181372.855
1381.981425.431496.7021510.751515.6261517.0561524.991526.261528.611601.082
"1605.99 .1623.32 .1626.9851640.1161648.3051657.2541679.7611683.8081709.831729.9351731.155
1743.148"1786.18 .1788.0591806.4211828.501
681260251651485285312505694512325922463
134736172920516419
125259
13111026
211177
158080
2047157
1520431715292932
34505043
10
606918
6604.
2863.
2896.2896.
3634.3962.5734 .5734.
4598.(8579.4997.
2994.3962.
5018.6604 .5150 .
3599.
1951 .1 164 .1959.5517.5263.6836.3941 .6344.2492.3332.6379.4757.(8579.3470.5150.6042.6604 .6544.5734.1601 .
4299.(8579.3599.3599.4757 .2468.3634.3660.2518.3332.(8579.
4598.(8579.5463.
37
951
34 1341
977929045045
4970)22
687929
1037644
5501978864066920151273431931248899670)0364440537974045I L3
7070)55055099627897736641631270)
4970)498
0.0156 300.019CO.O170
1 761 65
0.0469 760.0960.5890.1390.02400.0570.03170.017Z0.03370.0410.03340.0730.3230 . 1230 .0590.0990 .0880.0390.03170.0690.03310.01700. 0381.911*
228824i 7911
' 68'. 39' 6813\ 6011
502714161612' 651298651156
2.29 3427.20*0.5100.1160. 1010.0600.0670.083
72
761816121515
1 . 27 190.3840.04130 . 0710.1710. 1500.0770 .0770.0800. 1330.1213.484*0.0610 . 1050.2980.4270.5240.2360. 2010.2250.2090.3440.2190.2490.2170.3740. 1590.368
59861227
25151515262089
1213314353242123224030263541
1837
(El)
(El)(Ml)
(Ml)
(Ml)(El)M1+E2
Ml +E2(El)
(Ml)
Ml
(El)
M2+E3(El)
Iy: 1.91 29 (82Krl2).
-0 .32 6 \r- 27.7 «(82Krl2) .
- 0 . 1 0 7
Iy: 3.48 35 (82Krl2), 3.82 45 (81KeO2).
- 0 . 1 1
Continued on next page (footnotes at end of table)
58
3 6 n17 W 1 1
36ri17U11
35Cl(n,y) E=thermal 82Krl2,81Ke02,96Col6 (continued)
•y(36Cl) (continued)
E(level) ITt# Mult.§ 8§ Comments
1858.0891936.9611951.1451959.3581975.61
"1996.3302003.4462011.7602022.0982034.6342041 . 15
2075.5472091.8912110.2472133.22
2156.2132179.5292200.1182224.684
2229.9662231 .3122235.3632239.7132246.2132254.2582265.79
2282.8612289.8872311.4062326.0252342.27 .2355.892364.652382.712394.6362407.284
'2418.5532429.5382467.72 .2469.8792489.850(2492.233)"2494.831(2518.327)2524.67 ,
2527.944
2920814
295336631616
13284075
1818251953505048384670
11476019382014
161152333090124669
I
801
U50
2537.255® 50
2549.81 .2567.462
1587
2569.88 212622.8802639.057
2488
2647.60 352653.49 J2662.91 J
2676.3002682.3982698.62 J2711.618
<2727.887
<9'22087<29866
2740.62 322753.01 13
6268(857919511959
(8579
396239622810(8579(85792863(8579
40614997(85794138(8579(857975595563(8579(857942055150475763444757(8579(8579.6642.4315 .4315.5246.(8579.6042.
6089.2468.3634.
(8579.2492.
2518.6487.5204.4496.
(8579.5018 .6773.5246.(8579.4598.4598.5517 .6604 .2676.5150.4299.6773.
5604 .
5563.
. 160
.70)
. 197
.406
.70)
.929
.929
.596
.70)
.70)
.951
.70)
.470
.22
.70)
.976
.70)
.70)
. 17
.583
.70)
.70)
.64
.644
.996
.34
.996
.70)70)65364646470)405
8627897770)319
41671567070)10206470)4949692374296447020
27
583
0.2890.430
19.39*12.56*0.6940.2420.2030.1160.5180.7480.5930.3690.2060.2020.05910.6790.2660.3910.1650.06150.3480. 1900.2420. 1940.2370.06240. 1400.4831 .09 10.2340.04170.1170.05850. 1490. 1560. 1950.5510. 1660.2870.7310.4550.14 40.2070.0190. 1100.2460.437®0.437®0.2910. 1720. 0700.6330. 1550.2780.0720.1111.572*0. 1580.05670.08650. 1350. 1270.111
294357 El(+M2)2870362113 (El)52 E1+M27563402121. 9268273918i 80402025202588155312485168118172079203676 (El)52
312 E3(+M4 )132646464919126418291114381874 MI99
154914
-0 .10 10
- 0 . 1 4 3
Ir- 20.2 20 (82Krl2). 20.39 76 (81Ke02).Iy: 12.9 ;3(82Krl2), 13.41 58 (81Ke02).
IT- 0.99 9 (81KeO2).
= 0 . 0
y: 1.91 J9(82Krl2), 2.06 11 (81Ke02).
Continued on next page (footnotes at end of table)
59
36p, 36
35Cl(n,Y) E=thermal 82Krl2,81Ke02,96Col6 (continued)
Ey E(Ievel) IYt#
Y(36C1) (continued)
Mult.§ Comments
2797.986
2800.8462811.01 12845.4982863.8152867. 16
*2871.4072876.6402896.2322941 .3312953.232955 . 122975.2352994.7073001.0673015.9853025.243040.233061.8653067.843086.283105.763116.216(3134.66)3135.333151.79
<32O3.793210.593244.363250.357
'3255.703271.483291.883295.853311.713316.3633333.093349.7473374.8953385.533428.863
'3435.89
3457.443458.403470.063489.733500.3783504.1663512.213526.853558.233561.2583566.61 13581.903589.2343599.2513604.1123612.623621.673627.273634.4803645.58
95
71351216
309655168810103162119
314222
2029
16
43
152427201677
441725282347
109446
4229
12
2020148757861212247973
1650658218191873
34
39626268
(8579
3599(857928634031
(85792896604264235473(85792994(8579(857955174205(857965385578(8579(8579429956043941
570344 10(8579
6604695252465263(8579(85794138(85794551(8579
6268635434706354(857968365463642355 17(85795517(857947543599556355634410557836345246
.929
. 160
.70)
. 550
.70)
.951
.95
.70)
. 341
. 405
. 398
.70
.70)
. 687
.70)
.70)
. 692
. 64
.70)
. 28
. 480• 70)
.70)
.70
. 27
.27
.051
. 02
.70)
.37
.61
. 64
.01
.70)
.70)
.976
.70)
.43
•70)
. 160
.92
.03
.92
.70)
. 51
.498
.398
.692
.70)
.69270).36.550.583. 583.02.480.977.64
0.2940.2940.8270.482
33338649
1.27 135.77*0.6150.3110. 5630.5530.1290.06350.07171.046*
118748615614• 82
8825
0.91 110 .6971.1310.05940.04423.521*0.1760.0880.1690.9940.03 20.11580.05830.07500.05840.09880. 2550.03700.10050.0940.0920.04350. 2570.8270. 2380.6000.04210.8950 . 1340.05120.03280.10030.01180. 3300. 1990.07720.07480. 1720.6930.3100. 1330. 6050.5390.4010. 1090.1170. 1270.3340.0404
365895976617131655
9973977788157298141449
14441633824612
8684795818135959
254218143431251111
122167
(El)
(El)
(El)
(El)
Ml
(El)
(El)
Iy: 122 7(81KeO2).Iy: 6.55 66 (82Krl2). 6.63 21 (81KeO2).
Iy: 1.21 12 (82Krl2).Iy: 0.90 6 (81KeO2).Iy: 0.71 5(81KeO2).Iy: 1.13 7(81KeO2).
Iy: 3.88 20 (82Krl2), 4.01 14 (81KeO2).
Iy: 1.05 6 (81Ke02).
Iy: 0.84 5 (81KeO2).
Iy: 0.64 4 (81KeO2).
Iy: 0.90 5 (81KeO2).
Iy: I) 24 2(81KeO2).
Iy: 0.48 3 (81KeO2).Iy: 0.51 5(8IKeO2).Iy: 0.39 3 (8IKcO2).
Iy: 0.31 ^(81KeO2).
Continued on next page (footnotes at end of table)
60
3 6 n
35Cl(n,y) E=thermal 82Krl2,81Ke02,96Col6 (continued)
Y(36C1) (continued)
E(level) I f f Muk.§ Comments
3660.23 163707.824 6/3728.20 203736.541 563743.77 113749.905 44(3751.74:3809.633821 .58:3825.53
"3860. 183916.373962.603977.243981.06'3997.144028.05<4041.084054.22f4061.04i4082.6644086.624091.504097.904111.764138.456
)28
1 42
36111715281 46291 9318> 411 831 4250554012i 76
"4148.6 114164.174169.204173.79
"4192.304205.144264.014294.584298.3844308.284355.004413.594416.11
4420.604440.3994458.20
'4473.334518.124524.8664547.4734551.41
"4558.084586.602
"4591.85
4597.504616.4364637.594652.90
"4683.514728.966
"4747.144753.314757.484791.444815.2974829.0644884.85
2339842813365167
4110254850231130104569
228866
35263571291631
301614317764
12
36604496532945255703(857957034598(8579(8579
55173962
5578(8579
5956(8579
4829(85794061
(8579708260425263 ,6604 .
6089.
5329.
(8579.6642.
4205.(8579.6253.5463.5473.5956.5578.5204.6379.(8579.
5246.
(8579.
4525.(8579.4551 .
6538.
4598.(8579.(8579.
6253.
5517.
6354.4757.5956.5604 .4829.6836.
.366
.70
. 15
. 187
.051
.70)
.051
.49
.70)
.70)
.692
.929
.480
.70)
.686
.70)
.52
.70)
. 470
.70)
. 70,4050137
86
1570)653
6470)58498706864805648870)64
70)18770)43
28
4970)70)58
692
92996686275251
000000001000001000000000000.0000 .0.0.0.0.0.0.0.0.0.1.
0.0.0 .0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.
.209
. 182
.0431
. 197
.oast
.309
2211i 54111 6817
.08 2
.050!
.095
.842
. 1070.0685.367. 126.028.0687. 193.0845.626. 242.785.063.0302. 0285. 1003.3720110,0767.0576.02050270123203070424389042714591751220363047*10580270155459453131015027204800483682013902970580702036012351365028015421940928
t 78584688
i 5736 (El)
1755' 8613
HZ33154111615177
225076746442784594
227294
3329712373421024261351156552
354740583644909539921164
f: 0.34 3 (81KeO2).
ly: 108 5(81Ke02).Iy: 0.84 4 (81KeO2).
Iy: 0.41 3 (81Ke02).
Iy: 1.04 5(8keO2).
Iy: 0.65 3(81KeO2).
Iy: 0.32 2(81KeO2).
T: 0.42 3(81Ke02).
Iy: 1.085 55 (82Krl2). 1.11 4 (81KeO2).
IT 0.47 J(81KeO2).Iy: 0.47 3(81KeO2).
T 0.71 3 (81KeO2).
Iy: 0.73 3(81KeO2).
y: 0.21 2 (SlKeOZ).
Continued on next page (footnotes at end of table)
61
36pi 36
35Cl(n,y) E=thermal 82Krl2,81Ke02,96Col6 (continued)
Y(36C1) (continued)
Ey E{level) Comments
4944.3354945.195
"4950.854979.7134989.965000.555017.7265078.8185088.055109.255122.82
"5142. 125150.1955204.2305246.1895246.9095262.765372.355473.345517.2025584.6175603.8675634.385702.635715.1875733 . 485777.455902.7005956.294
"6051 . 166086.7446110.8486184.336252.996267.8106339.726343.886378.9456422.8456487.0406544.1126619.6386627.7516641.986951.8076977.847'7377.387413.9537558 . 217790.3258578.59
5050
1925
12345465
2213301667665050
172520263852
24142616342793
264338131846
2936715682814459
467447
4165
4364
11
(8579.5734.
(8579.5778.6952 .5018.5079.6253.(8579.7082.
5150.5204.5246.(8579.5263.6538.5473.5517 .(8579.5604 .6423 .5703 .(8579.5734.5778.(8579.5956.
(8579.(8579.6184.6253.6268.6339.6344 .6379.6423.6487.6544.(8579.(8579.6642.6952.(8579.
(8579.7559 .(8579.(8579.
70)
045
70)556110135870)70
644566470)01287069270)2739805170)0455570)686
70)70)955816089344883987197470)70)6536170)
70)1770)70)
1 . 1070.6350.1593.616*0.3090.04590. 4650.15200.03770.08660.03460.07200.2020.205
756016961973
25864065457011
120.27 100.27 100.09850.04940.08571.689*0. 5360.3580.05700 . 4315.31*0.5100. 1231 . 104*0.1910.04200.844
20.58*0.08180.07480.4410 . 07260.05970. 1990.2780.13730.15357.83*4.69*0. 1860.15782.290*0.031010.52*0.02308.31*2.739*
76517442
281957
301537173111
4544655962
23868211
158087161132
88644324351957
Iy: 1.19 4 (81Ke02).
y: 3.60 18 (82Krl2). 3.95 10 (81KeO2).
IY: 0.52 3 (81KeO2).lY: 0.16 1 (81KeO2).
I7: 0.09 / (81KeO2).
lY: 0.23 2 (81KeO2).lY: 0.22 2(81KeO2).
I7: 0.59 3 (81Ke02).
IY: 1707 87 (82Krl2). 1.75 5 (81KeO2).IY: 0.52 2(81KeO2).Iy: 0.36 2 (81Ke02).
IY: 0.39 2 (81KeO2).IY: 5.60 28 (82Krl2). 5.68 12 (81KeO2).IY: 0.46 2 (81Ke02).17: 0.15 1 (81Ke02).lY: 11.132 57 (82Krl2). 1.18 4 (8IKe02).IY: 0.20 / (81KeO2).
IY: 0.94 J{81KeO2).IY: 20.2 10 (82Krl2). 20.96 33 (81Ke02).IY: 0.10 / (81KeO2).
IY: 0.43 2(81KeO2).
IY: 0.21 / (8IKe02).IY: 0.29 2(81KeO2).IY: 0.13 1 (81KeO2).IY: 0.14 ; (81Ke02).IY: 7.80 39 (82Krl2), 8.31 16 (81KeO2).IY: 4.83 24 (82Krl2). 4.74 10 (81KeO2).
lY: 0.15 1 (81KeO2).Iy: 2.32 12 (82Krl2), 2.40 6 (81KeO2).
Iy: 10.36 52 (82Krl2). 10.69 19 (81KeO2).
Iy: 8.48 42(82Krl2), 8.69 ;6(8lKeO2).Iy: 2.78 14 (82Krl2). 2.84 7 (81Ke02).
t Absolute intensities per 100 neutron captures.* From 96Col6.§ From adopted gammas.* For intensity per 100 neutron captures, multiply by@ Multiply placed: undivided intensity given." t ray not placed in level scheme.
62
I7C119
35Cl(n,Y) E=thermal 82Krl2,81Ke02,96Col6 (continued)
Level Scheme
Intensities: I(y+ce) per 100 parent decays& Multiply placed; undivided Intensity given
11 lirTTTTrrrii T IT I TTTTT'ffCi'rrn'rni'nTTT'fni'riTi'i
17^*1
63
36n 36 r 117O1I
35Cl(n,T) E=thermal 82Krl2,81Ke02,96Col6 (continued)
Level Scheme (continued)
Intensities: I(yi-ce) per 100 parent decays
& Multiply placed; undivided intensity given
mm&&&M4$s$&frt*$&.
3.01xl05 y36riI7O11
64
3 6 n17UI1
36r)
35Cl(n,Y) E=thermal 82Krl2,81Ke02,96Col6 (continued)
Level Scheme (continued)
Intensities: I(y+ce) per 100 parent decaysSi Multiply placed; undivided intensity given
. 1+.2+
(0+ to 4*)
(8579.70).
7559.17
3+
6952.61
6773.20
6354.926344.346339.896268.160
A 6253.58Ul84.95\ 6089.8616042.405\ 5956.686\ 5778.55J5734.04515703.051\ 5604.2715578.480\ 5473.70J5150.644\ 5079.13\ 5018.10U757.996U754.36U525.18714410.02U205.64UO61.47O13660.366\ 3634.977\ 3470.03^3100.72012896.341U863.951\ 2810.59612492.319[ 2468.278. 1959.406i 1951.197
1601.113
1164.886
788.441
0.0
20 fs<25 fs150 fs600 fs<10 fs2.8 ps40 fs1.04 ps40 fs1.8 ps
650 fs
6.4 ps
13.8 ps
3.01xl05 y
65
36 r t
35Cl(n,T) E=thermal 82Krl2,81Ke02,96Col6 (continued)
Level Scheme (continued)
Intensities: I(Y+ce) per 100 parent decays
& Multiply placed; undivided Intensity given
U.2+
(0+ to 4+)
(0 to 3)t
(0- to 3)
(1.2.3)-
(8579.70)
7559.17
7082.70
6836.51
6642.653
6487.71
13.8 ps
3.01xl05 y
66
36pi17O11
36ri
Jl.2)-
3sCl(n,y) E=thermal 82Krl2,81Ke02,96Col6 (continued)
Level Scheme (continued)
Intensities: I(?+ce) per 100 parent decays& Multiply placed; undivided Intensity given
I+.2+
(0+ to 4+)
(0 to 3)<-
( 0 - to 3)
1 -
( 1 . 2 . 3 ) -
(0+ to 4+)
(8579.70)
7559.17
7082.70
6836.51
6642.653
6487.71
1 "—-~ ' 5703 051
5463.498
«^^»^^i^
3.01xl05 y36 r i
67
35Ct(n,Y) E=thermal 82Krl2,81Ke02,96Col6 (continued)
Level Scheme (continued)
Intensities: I(Y+ce) per 100 parent decays& Multiply placed; undivided intensity given
1.4-.2 +
(04- tO 44-)
(8579.70)
7559.17
(0 to 3)+
(0- to 3)
(1.2.3)-
(1.2)4-
U.2I +
(O-i- to 4-1-)
(0-f to 34-)
(0 to 3+)
(1.2.3)-(2 3)-
7082.70
6642.653
5956.686
5473.705329.15
5150.644
• - - W " ^ A>J?_A>: i ' * I I | • . , ,-&£=%&
\^ \ \ \ \ ^ K * W
17C 119
3.01xl05 y
68
2 -
( 1 . 2 ) -
2 +
2 -
35Cl(n,Y) E=thermal 82Krl2,81Ke02,96Col6 (continued)
Level Scheme (continued)
Intensities: I(y+ce) per 100 parent decays& Multiply placed; undivided intensity given
.!+,?.+
(0+ to 4+)
(0 to 3)+
(0- to 3)
(1,2)+
(0+ to 4+)
(0 to 3+)
(1,2.31- — '
(2 3)
(1,2)-
0+
(2.3)-
(8579.70)
7559.17
7082.70
6836.51
6642.653
6487.71
5956.686
• — 5703 051
5329.15
— — 4997 22
4754.36
4496.70
4299.70
4138.976
0.0 3.01X105 y
69
References of Thermal-Neutron Capture Data for A=26~35
80Is02 M. A. Islam, et al., Can. J. Phys., 58, 168 (1980)81KeO2 T. J. Kennett, et al., Can.J. Phys., 59, 93 (1981)81PrO4 W. V. Prestwich, Nucl. Sci. Eng., 78, 182 (1981)
82HuO2 P. Hungerford, et al., Nucl. Instr. Methods, 192, 609 (1982)82Krl2 B.Krusche, et al., Nucl. Phys., A386, 245 (1982)82Scl4 H. H. Schmidt, et al., Phys. Rev., C25, 2888 (1982)82Sh27 Shi Zongren, et al., Chin. J. Phys., 4, 88 (1982)
83RaO4 S. Raman, et al., Phys. Rev., C27, 1188 (1983)85KeO8 T. J. Kennett, et al., Z. Phys. A322, 121 (1985)85Kell T. J. Kennett, et al., Phys. Rev., C32, 2148 (1985)
85Ral5 S.Raman, et al., Phys. Rev., C32, 18 (1985)89Mil6 S. Michaelsen, et al., Nucl. Phys., A501, 437 (1989)89ZeO2 X. Zeng, et al., Chin. J. Phys., 11, No. 2, 43 (1989)90Is02 N. A. Islam, et al., Phys. Rev., C41, 1272 (1990)90Is05 N. A. Islam, et al., Nucl. Instr. Methods Phys. Res., A287, 460 (1990)92Ral9 S. Raman, et al., Phys. Rev., C46, 972 (1992)92WaO6 T. A. ffalkiewicz, et al., Phys. Rev., C45, 1597 (1992)95AuO4 G.Audi, et al., Nucl. Phys., A595, 409 (1995)
96Col6 C. Coceva, et al., Nucl. Intr. Methods Phys. Res. A378, 511 (1996)96FiZY R. B. Firestone, et al., Table of Isotopes (8-th edition) (1996)97Ro26 S. Roffger, et al., IEEE Trans. Instr. & Meas., 46, 560 (1997)97VeO3 L. Venturin, et al., Appl. Radiat. Isot. 48, 493 (1997)
70
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