ABSTRACT
Mb 14.28 ± 0.04d32P "Cl 3.06*105y (n,y) <10b "Cl 24.23 (n,y) 428 ± 5 mb 213 ± 9mb*
310±60mb* 37.14±0.04m"«CI (n,y) 5 ± 3 m b 0.77 ± 0.05 sec 38C1
18 "•' Ar (n,y) 678 ± 9mb 420 ± 50mb "Ar 0.34 (n,y) 5 ± l b 2.5 ± 0.5 b 35.06 ± 0.18d "Ar
(n,o) 5.5 ± O. lmb MAr 0.07 (n,y) 800 ± 200mb 400 ± 100mb 269±3y"Ar 39
Ar 269y (n,y) 600 ± 300 b 40Ar 99.59 (n,y) 510±25mb 410±30mb 1.83 ± 0.02y 41Ar 41
Ar 1.83h (n,y) 500 ± 100mb 200mb 32.9 ± l . lg"Ar 19 ~'K (n,y) 2.10±0.10b 1.0±0.1b
"K 93.3 (n,y) 1.96±0.15b 900 ± 100 b (1.266±0.007xlO'y <0K (n,o) 4.3 ± 0.5 mb (3.06±0.02)x)05y 16C1
<0K 1.226xlO'y (n,y) 30 ± 8 b and 0.0118%
(n,p) 4.4 ± 0.3 b (n,o) 390 ± 30mb
"K 6.7 (n,y) 1.46 ± 0.03 b 1.42 ± 0.3 b 12.36 ± 0.01h"K 20 "°'Ca (n,y) 430 ± 20mb 200 ± 20mb*
1879mb* <0ca 96.94 (n,y) 400 ± 50mb 180 ± 30mb (10.3±0.4)xl04y 41Ca
(n,tt) 2.5 ± l . l m b 35.06±0.18d 37Ar "Ca 0.65 (n,y) 650 ± 10mb 290 ± 50mb "Ca 0.14 (n,y) 6.2 ± 0.6 b 5 .5±1 .5b
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
" c -2.08 (n,y) 1.0±0.1b 560 ± 40 mb 165.1 ± 0.7d4SCa
"Ca 0.0032 (n,y) 700 ± 200 mb 320 ± 120mb 4.535 ± 0.004d47Ca "Ca 0.19 (n,y) l . l ± 0 . 2 b 900± 10mb* 8.717 ± 0.015m 4'Ca
500mb21 -Sc" 100 (n,y) 9.6 ±1 .Ob 18.7 sec-'""Sc
(n,y) 16.9±1.0b 11.3±1.0b 84.34 ± 0.13d 46«Sc (n,y) 26.5±1.0b 11.3±1.0b Cum "Sc1"*1"
46Sc 84.34 (n,y) 8.0 ±1 .Ob 3.345 ± 0.003 d 47Sc 22 "'Ti (n,y) 6.1 ± 0.2 b 3.0b
46Ti 8.0 (n,y) 600 ± 100mb 400 ± 200mb "Ti 7.5 (n,y) 1.7±0.2b 1.8±0.4b 4<Ti 73.7 (n,y) 7.8±0.3b 3.7±0.3b "Ti 5.5 (n,y) 2.2 ± 0.3 b 1.5±0.3b s °Ti 5.3 (n,y) 179±3mb 1 1 8 ± l l m b * 5.80± 0.10 min s 'Ti
4400 ± 400 mb* 23 "'V (n,y) 5.04 ± 0.04 b 2.7±0.1b
S °V 0.25 (n,y) 70±33b 6 7 ± 1 5 b
"V 99.75 (n,y) 4.88±0.04b 2.7±0.1b 3.76± 0.02 m !!V 24 "'Cr (n,y) 3.1±0.2b 1.7±0.2b
s °Cr 4.35 (n,y) 15.9±0.2b 7.6±0.4b* 27.701 ± 0.006 d 51Cr
1 1 . 1 b' "Cr 83.79 (n,y) 760 ± 60 mb 600 ± 50mb "Cr 9.50 (n,y) 18.2 ± 1.5 b 8.85±1.00b 54Cr 2.36 (n,y) 360 ± 40mb 180 ± 40mb 3.6±0.2m"Cr
25 ""Mn" 100 (n,y) 13.3 ± 0.2 b 14.0 ± 0.4 b 2.576± 0.004H 56Mn "Mn 3.9xlO'y (n,y) 66 ± 7 b 312.6 ± 0.8 d 54Mn !4Mn 312.6d (n,y) < lOb
26 —Fe (n,y) 2.55 ± 0.03 b 1.4±0.2b "Fe 5.8 (n,y) 2.25 ±0.18 b 1.2±0.2b 2.72 ±0.03y "Fe "Fe 91.7 (n,y) 2.63 ± 0.21 b 1.4±0.2b
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
"Fe 2.19 (n,y) 2.48 ± 0.30 b 1 .3±0 .2b "Fe 0.31 (n,y) 1 .15±0.2b 1 .2±0.1b 44.75 ± 0.04 d s'Fe
27 ™'Cos'100 (n,y) 1 7 ± 2 b 39 ± 2 b 5. 283 ± 0.008 y M
«Co (n,y) 2 0 ± 2 b 36.5 ± 0.5 b 10.40 ± 0.10 m 60™Co (n,y) 37. 2 ± 0.2 b 75 .5±1 .5b Cum '"Co™*"
""Co 9.10h (n,y) 136,000 ± 10,000 b ""Co 70.81 d (n,y) 1880±120b 6890 b '"Co 10.40m (n,y) 58 ± 8 b 230 ± 50 b 1.58 ± 0.3 h "Co 6 °«Co 5.283y (n,y) 2 .0±0.2b 4.3±1.0b 1.58 ± 0.3 h 6'Co
28 — Ni (n,y) 4.43 ±0. 16 b 2.2 ± 0.2 b "Ni 67.88 (n,y) 4.6 ± 0.3 b 1.00><10sy"Ni
(n,a) 680 ±36 Mb 2.72 ± 0.03 y "Fe
(n,p) 1650 b Cum '"Co1-"1 "Ni 1.00xl05y (n,y) 66 ± 5 b * 1 3 8 ± 8 b
92 ± 4 b* (n,o) 13.7 ± 1.2 b
60Ni 26.23 (n,y) 2.8 ± 0.2 b 1 .5±0.2b "Ni 1.19 (n,y) 2 .5±0.8b 1.6 ± 0.4 b
(n,o) 47 ± 21mb "Ni 3.66 (n,y) 14.2 ± 0.3 b 6.8 ± 0.2 b 100.1 ± 2.0 y"Ni "Ni 100.1 y (n,y) 25.7±3.0b "Ni 1.08 (n,y) 1.49±0.03b l . l ± 0 . 2 b * 2.521 ± 0.005 h 65Ni
0.87 ± 0.03 b* "Ni 2.521 h (n,y) 24.3 ± 2.0 b l l ± 2 b 54.6 ± 0.5 h "Ni
29 — Cu (n,y) 3. 79 ± 0.03 b 3 .6±0.4b "Cu 69.1 (n,y) 4 .5±0 .1b 6 .1±0.3b* 12.700 ± 0.002 h "Cu
4.9±0.4b* (n,p) 3.1±0.5mb 100.1 ± 2.0y "Ni
"Cu 30.9 (n,y) 2.17 ± 0.03 b 2.4 ± 0.3 b 5 .2±0.1m"Cu
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
66Cu 5.2m (n,y) 1 3 5 ± I O b 60b 61.88 ± 0.14 h "Cu 30 — Zn (n,y) 1.10±0.04b 2.3 ± 0.3 b
"Zn 48.9 (n,y) 780 ± 20 mb 1 .4±0.1b 244.52 ± 0.07 "Zn (n,p) < 12 f*b 12.700 + 0.002 h"Cu (n,a) 15±10^b
"Zn 27.8 (n,y) 850 ± 200mb 800 ± 200mb (n,a) <20^<b 100.1 ± 2.0 y"Ni
"Zn 4.1 (n,y) 6 .9±1.4b 2 0 ± 4 b (n,a) 6 ± 4 f * b
"Zn 18.6 (n,y) 80 ± 10mb 230 ± 20mb 13.9 ± 0.2 h """Zn (n,y) 1.0±0.1b 3 .1±0.3b 58.5 ± 1.2 m 69«Zn (n,y) 1.08 ± 0.10 b 3 .3±0.3b Cum "Zn'"*'1 (n,o) <20 M b
™Zn 0.62 (n,y) 83 ± 5 mb 940 ± 20mb 2 .3±0 .1m"«Zn (n,u) 8. 7 ± 0.5mb 40mb 3.5±0.5h"-Zn
31 ~'Ga (n,y) 2.9 ± 0.1 b 18.7 ± 1.5 b "Ga 60.0 (n,y) 1.68 ± 0.07 b 13. 65 ± 2.0 b 21.15 ± 0.06 m 70Ga "Ga 40.0 (n,y) 150 ± 50mb 36 ± 1 msec "~Ga
(n,y) 4.71 ± 0.23 b 13.945 ±0.005 h "'Ga (n,y) 4.86±0.256 31. 2± 1.96* Cum "Ga(m*"
13.6 ±0.36* 256'°'
"Ga 13.945 h (n,y) 25. 7 b 4.86 ± 0.03 h "Ga 32 ""Ge (n,y) 2.3 ± 0.2 b 6 .1±1.0b
'°Ge 20.7 (n,y) 280 ± 70mb 21.5 ± 0.4 msec ""Ge (n,y) 3.15±0.16b 11.15 ± 0.15 d "«Ge (n,y) 3.43 ± 0.2 b 2.4 ± 0.7 b Cum "Ge(""«>
"Ge 27.5 (n,y) 980 ± 90 mb 880 ± 220mb "Ge 7.7 (n,y) 1 5 ± 2 b 65 ± 6 b 101
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
"Ge 36.4 (n,y) 143 ± 14mb 349 ± 10mb 47.7 ± 0.5 sec ""Ge (n,y) 240 ± 60mb 381 ± 30mb 82.78 ± 0.04m "'Ge (n,y) 383 ± 70mb 730 ± 30mb* Cum 7 2 Ga<™*«'
430 ± 70 mb* 900mb'°> 1300mb""
"Ge 7.7 (n,y) 92 ± 10mb 775 ± 50 mb 55.5 ± 1.0 sec ""Ge (n,y) 60 ± 20mb 1 1.30 ± 0.1 h "«Ge (n,y) 2.0 ± 0.4 b Cum "Ge1"*"
"Ge 11.3h (n,y) 7.01 b 1.467 ± 0.016 h "Ge 33 ""As'MOO (n,y) 4 .3±0 .1b 50±10b 26.6 ± 0.2 h "As
"As 26.6 h (n,y) 216. I b 38.83 ± 0.05 h "As "As 38.83H (n,y) 68.25 b 8 9 ± l m " A s
34 -'Se (n,r) 11.7±0.2b 1 3 ± 2 b "Se 0.87 (n,y) 53.4 ± 2.0 b 424±17b 120.1 ± 0.2 d "Se "Se 9.0 (n,r) 21 ± 1 b 16.0 ± 0.2 b 17.5 ± 0.2 sec "~Se
(n,y) 64 b 28 ± 5 b (n,y) 85 ± 7 b 44 ± 5 b
"Se 7.5 (n,y) 42 ± 4 b 34 ± 4 b "Se 23.5 (n,y) 330±40mb 3.7b 3.9± 0.1 m ™~Se
(n,y) 100mb I b 65,000 y '"Se (n,y) 430 ± 100mb 4.7±0.6b Cum "Se1"'*"'
34 MSe 49.8 (n,y) 80 ± 10mb 400 ± 100mb 57.28 ± 0.05 m ""Se (n,y) 530±40mb 1.4b 71.9±0.5 m81"Se (n,y) 610 ± 45mb 1.8±0.2b Cum »>Se""""
"Se 9.2 (n,y) 5. 8 ± 0.4mb 70.4 ± 0.3 sec ""Se (n,y) 39 ± 3mb 22.6 ± 0.2 m !"Se (n,y) 45 ± 3 mb 50 mb Cum "Se"-1"
Element of isotope
""Br "Br
""Kr "Kr
•°Kr
Isotopic abundance (%)
or halflife
50.69
49.31
0.35
2.25
11.6
11.5 57.0
10.715 y 17.3 76.4m
32.77 d
Reaction
(n,y) (n,y) (n,y)
(n,y) (n,y) (n.y) (n,y) (n,r) (n,y) (n,y) (n,y) (n,y) (n.y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n.y) (n,y) (n,y) (n.y) (n,y) (n,y) (n.p) (n,<r)
Thermal cross section
6.8 ±0.1 b 2.6 ± 0.2 b 8.5 ± 0.3 b
Epicadmium resonance
integral
90±6b 34.5 ± 4.0 b 92 ± 10 b* 148 ± 4 b* 132.5±10.0b 41 b 5b 46.7 ±5. 5 b 5 3 ± 7 b
5.3±2.3b
56.1±5.6b
200 ± 40 b 230 ± 30 b
2.7 ± 0.7 b 1.8± I .Ob 30 ± 30 mb
6.0 ± 0.5 b
Radioactive product, if any
4.42 ± 0.01 h """Br 17.68 ± 0.02 m«°«Br
Cum 8»Br""*«' 6.10±0.05m""Br 34.45 ± 0.05 h "«Br Cum 8iBr'""!l
50 ± 3 sec "-Kr 35.0 ±0.1 h'"Kr
13.294 ±0.056 sec 8 '"Kr 2.13x 105y81«Kr Cum "Kr1"4" 1.83±0.02h""-Kr 8J
'Kr Cum "Kr1"""1
4.480 ± 0.008 h s s"Kr 10.715 ± 0.008 y85 'Kr Cum »5Kr""*"
76.4 ± 1.0m" 7Kr 2.805±0.025h"«Kr
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
37 15Rb 72.17 (n,y) 50 ± 5 mb 1.16±0.03b 61.2 ± 1.0 sec ""Rb (n,y) 410 ± 20mb 3. 65 ± 0.20 b 18.74 ± 0.03 d "6<Rb (n,y) 460 ± 20mb 7 .5±0.5b Cum »«Rb<"*«>
!7Rb 27.83 120 ± 30mb 2.0 ± 0.5 b 17.8 ± 0.1 m 88Rb 4.88 x 10""(n,y)
"Rb 17.8m (n,y) 1.0 ± 0.2 b* 1.9 ± 0.1 b 15.2 ± 0.1 m s"Rb 0.12b*
38 — Sr (n,y) 1 .2I±0.06b 14 ±3 b "Sr 0.56 (n,y) 550 ± 40mb 4.59 ± 1 . 5 b 67.7 min "5Sr
(n,y) 810 ± 70mb 23 ± 2.9 b* Cum "<Sr""*«> 10.6± 1.1 b* 7.5 b»
86Sr 9.9 (n,y) 840 ± 60 mb 4.8 ± 0.3 b 2.83 + 0.01 h "-Sr (n,y) 4 ± l b 8"Sr
"Sr 7.0 (n,y) 16±3b 120±12b 88Sr 82.6 (n,y) 5. 8 ± 0.4mb 50 ± 20mb 50.75 ± 0.25 d"'Sr "'Sr 50.75 d (n,y) 420 ± 40 mb 28.15 ± 0.10 y'°Sr '°Sr 28.15y (n,y) 900 ± 500 mb 9.48 ± 0.1 h "Sr
39 -Y" 100 (n,y) 1.28±0.02b 1.0±0.2b Cum '»¥'•"*«' (n,y) 1.0±0.2mb 880±80mb 3.1 ± 0.1 h »"™Y (n,y) 1.28±0.02b 120 ± 20mb 64.4 ± 0.4 h ™"Y
'°Y 64.4 h (n,y) <6.5b Cum"Y""*«' "Y 58. 9d (n,y) 1.4±0.3b 3.53 ± 0.02 h '2Y
40 ™'Zr (n,y) 185 ± 3mb 1.10±0.15b "°Zr 51.46 (n,y) 100 ± 70mb 200 ± 30mb "Zr 11.23 (n,y) 1.03±0.52b 6.5 ± 0.8 b "Zr 17.11 (n,y) 260 ± 80 mb 540 ± 120mb 9.5xl05y"Zr "Zr 9 .5x lO s y (n,y) 2.65 ±1 . 3 b 33 b "Zr 17.40 (n,y) 56 ± 4 mb 380 ± 20 mb 64.01 ± 0.06 d 9SZr "Zr 2.80 (n,y) 17 ± 3mb 5.0 ± 0.4mb 16.8 ± 0.4 h "Zr
Element of isotope
-Mb"
100Mo "Tc "Tc ""Ru "Ru "Ru »'Ru '°°Ru 101Ru ">'Ru 103Ru 104Ru 10!Ru ,MRu
Isotopic abundance (%)
or halflife
2.22 x io-y 34.97 d
15.0
9.0 15.8
16.6 9.5 24.4
9.6 105-10'y 2.13xl05y
5.5 1.9 12.72 12.62 17.07 31.61 39.35d 18.58 4.43 h 367 d
Reaction
(n.y) (n.y) (n,y) (n,y) (n,y) (n.y) (n,y) (n.y) (n.y) (n,a (n.y) (n.y) (n.y)
(n,y) (n.y) (n.y) (n.y) (n.y) (n.y) (n.y) (n.y) (n.y) (n.y) (n.y) (n.y) (n.y) (n.y)
Thermal cross section
1. 15 ±0.05 b 150 ± 100mb 13.6± 1.5b < 7 b 2.65 ± 0.08 b < 6 m b ~45 mb 16mb 14.5 ± 0.5 b 32 ± 4 pb 1.0 ± 0.6 b 2 .2±0 .7b 130 ± 6mb
199 ± 3mb 2.6± 1.3 b 1 9 ± 2 b 2.56 ± 0.13 b 230 ± 30 mb 8 ± 2 b 5.0 ± 0.5 b 5.8 ± 0.6 b 3.1 ±0.9b 1.30 ± 0.5 b
Epicadmium resonance
integral
2 2 ± 2 b
520 ± 110mb 570 ± 130mb 105 ± 7 b
2 0 ± 5 b 1 3 ± 3 b 1.3±0.1 b* 6.2 ± 0.3 b* 3. 98 ±0.20
195±50b 1 1 . 2 ± l . l b 85 ± 12 b 4.1 ±0 .4b 66 b 5.6± I . O b 5.1 b 2.6 ± 0.6 b* 1 b'01
Radioactive product, if any
2.22 x 10'y M"Nb 6. 26 ±0.01 m'4"Nb Cum "Nb1"""1 23.4 h "Mb
6.95 ± 0.05 h "™Mo 3000 ± 600 y"«Mo
66. 16 ± 0.30 h "Mo
14.61 ± 0.07m '"'Mo Cum"'Tc'"""' 17.1 ±0.8sec'°°Tc
2.71 ±0 .3d"Ru
39.35 ± 0.05 d ' O J Ru
4. 43 ± 0.02 h 105Ru 367 ± 1 d 10*Ru 4.0m ""Ru
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
45 ""RhIM 100 (n,r) 1 5 0 ± 5 b 1100±50b Cum ">-Rh '"'*«' (n,r) l l ± l b 610±24b 4.41 m """"Rh (n,y) 139 ±7b l lOOb 42.8 ± 0.5 sec '"""Rh
104 -Rh 4.41m (n,y) 800 ± 100 b 35.9 ± 0.1 h 105"Rh
105Rh 35.9 h (n,y) 4700 ± 1200 b 2.18h"""Rh (n,y) 1 1, 250 ± 1500 b 28.0 ± 0.2 sec """Rh (n,y) 16,000 ± 1500 b 15,800 ± 1500 b Cum 106Rh""*»
46 ""Pd (n,y) 6.9 ± 0.4 b 90 ± 5 b ">2Pd 0.96 (n,y) 4.8 ±1 . 5 b 16.961 ± 0.016 d ""Pd 104Pd 10.97 (n,y) 10 b*
22.9 b* losPd 22.23 (n,y) 14 b 90±10b 106Pd 27.33 (n,y) 13 ± 2mb 22 ± 1 sec """'Pd
(n,y) 292 + 29mb 6 b (6.5 ± 0.3)* 10'yll""Pd (n,y) 300 ± 30mb 5. 73 ± 0.57 b Cum ""Pd™"1
1G8Pd 26.71 (n,y) 200 ± 40 mb 2.26 ± 0.04 b 4.77 ± 0. 10 m """"Pd (n,y) 1 2 ± 2 b 1 9 0 ± l l b 13.427 ± 0.014 h """Pd (n,y) 1 2 ± 2 b 250±30b Cum ""Pd"""1
"°Pd 11.8 (n.y) 20±15mb 400±10mb 5.5h n ""Pd (n,y) 200 ±60* 2. 55 ± 0.3 b 23.4 ± 0.2 m 1 M«Pd
400mb* 47 "-Ag (n,y) 63.6 ± 0.6 b 747 ± 20 b
""Ag 51.82 (n,y) 3 . 0±1 .5b 127y"1"™Ag (n,y) 35 b 2.32 ± 0.05 m ")a«Ag (n,y) 37 .2±1 .2b 94 ± 8 b* Cum 10"Ag
143 ± 6 b* '""Ag 48.18 (n,y) 4.6 ± 0.2 b 48. 3 ± 1 . Ob* 252±3d"""Ag
81.1 ±2.2 b*
Element of isotope
"°-Ag '"Ag ""Cd ""Cd ""Cd ""Cd "°Cd
"'Cd '"Cd
" 3Cd
" 4Cd
" 6Cd
'-"In "'In
Isotopic abundance (%)
or halflife
1.2 0.9 454.5 d 12.39
12.75 24.07
12.3 28.8
4.28
Reaction
(n,y)
(n,y) (n,y) (n,y) (n,y) (n,y) (n,r) (n,r) (n,r) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y)
(n,y) (n,y)
(n,y) (n, y) (n,y) (n,y) (n,y) (n.y)
Thermal cross section
8 9 ± 4 b
91 ±3b 82 ± 1 1 b 3 ± 2 b 2450 ±20b ~1 b 1.1 ±0 .3b 650 ± 100 b 11 ± 1 b 100 ± 30mb 11 ± 1 b 24.3 ± 3.0 b 30mb 2.2±0 .5b 19,910 ± 300 b 36 ± 7mb 300 ± 15mb 340 ± 20 mb 8± 1 mb* 27 ± 5 mb* 43 ± 2mb
Epicadmium resonance
integral
1112±68b* 1600 b* 1425 ± 40 b
105±20b
1 5 ± 3 b 390 b 16.6 b 3.4 ± 0.2 b 2 0 ± 2 b
1.29b* 0.2 b* 3200 ± 50 b
2 8 2 ± 3 0 b
Radioactive product, if any
24. 42 ±0 .1 4 sec """Ag
7 .4±0 .1 d "'Ag 3.14±0.05d '"Ag
6.7 h ")7Cd 454. 5 ±5 . 5 d ""Cd
Cum '"Cd""*"1 48. 6 ± 0.4m """Cd
14. 6 ±0.5 y "'"'Cd
4 2 ± 2 d "5l"Cd 2.23 ±0.01 d "5«Cd Cum "'Cd1'"*-" 3 . 4 ± 0 . 2 h "7"'Cd
2.67 ±0.17 h ""Cd Cum '"Cd""*«>
44 ± 2 msec "4"'2ln 50.0 ± 0.3d "J""ln Cum "•'in1™1*"1" 71. 9 ±0 .1 sec "4"ln Cum ""In """"
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
" 5In 95.72 (n,y) 9 2 ± 1 4 b 2.16 ± 0.20 sec '"""2In
(n,y) 6 5 ± 5 b 54.14 + 0. 10m """"In (n,y) 1 5 7 ± 1 5 b 21 14 ± 23 b* Cum "6In'""""2>
3500 b' (n,y) 4 5 ± 4 b 14 ± 1 sec "6«ln (n,y) 202±2b 3300 ± 100 b Cum ""In'""*'"2"'
50 ""Sn (n,y) 630 ± 10mb 8 .5±2 .0b "
2Sn 0.96 (n,y) 350 ± 80mb 2 0 ± l m ' " - " S n (n,y) 800 ± 100mb 115.1 ± 0.3 d "'"Sn (n,y) 1150± 150mb 27 ± 5b* Cum '"Sn1"'*-1
4 2 ± 2 b * "
4Sn 0.66 (n,y) 1.2 ± 0.6 b "
sSn 0.35 (n,y) 50 ± 20 b 23 ± 9 b ""Sn 14.3 (n,y) 6 ± 2 mb 490 ± 20 mb 14.0 ± 0.5 d "7"'Sn
(n,y) 11 ±3 b '"Sn 7.61 (n,y) 2 .6±1 .0b 1 6 ± 5 b ""Sn (n,y) 16 ± 6mb* 293.0 ± 1.3 d """'Sn
8 ± 2 mb* (n,y) 7 ± 2 b
50 '"Sn 8.58 (n,y) 2 .3±1 .0b 3.5±1.0b 1MSn 32.85 (n,y) 1 ± 1 mb 76.3 ± 6.6 y 12""Sn
' 22Sn 4.72 (n,y) 1.0 ±0.5* 830 ± 20 mb 40.1 ± 0.2 m '"'"Sn
1 50 ± 20mb* (n,y) 180 ± 50mb 120.0 ± 0.5 d '"«Sn (n,y) 600 ± 180mb
'"Sn 5.94 (n,y) 130 ± 30mb 8.7±0.4b 9.6 ± 0.1 m 125"'Sn (n,y) 4 ± 2 m b 9.63 ± 0.03 d 125«Sn (n,y) 134±30mb 6.9±1.0b Cum '"Sn(""«'
Element of isotope
™'Sb 121Sb
'"Sb
°Te
'"Te
'"Te '"Te
125Te ' 26Te
128Te
ijoTe
Isotopic abundance (%)
or halflife
57.25
42.75
60.20
0.089
2.46
0.87 4.61
6.99 18.71
31.79
34.48
Reaction <n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n.y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y)
Thermal cross section
5.4±0.6b 55 ± 10mb 6.2 ± 0.2 b 6.26 ± 0.2 b 13 ± 3mb 35 ± 20 mb
4.28 ±0.166 6.5 ± 1.5b 4.7 ±0.1 b 340 ± 60 mb 2.0 ± 0.3 b 1.1 ±0.5 b 1.7±0.8b 2.8±0.9b 406 ± 30 b 40 ± 25 mb 6.4± 1.3b 6.8± 1.3 b 1.55±0.16b 135 ± 23mb 900 ± 150mb 1035 ± 150mb 15 ± 1 mb 177 ± 22mb 192 ± 22mb 20 ± 10 mb 270 ± 60 mb 290 ± 65 mb
Epicadmium resonance
integral 175 ± lOb 1.80±0.09b 125 ±6b 159±30b
166±60b
5 4 ± 3 b
8 0 ± 5 b 5630 ± 300 b
7 ± 2 b 2 0 ± 4 b
8.0 ± 0.6 b 10±2b 80mb 1.59±0.06b 1.5±0.1 b 270 ± 200 mb 340 ± 30 mb 610 ± 200mb
Radioactive product, if any
4. 2 ± 0 .2m 122'"Sb 2. 74 ±0.01 d '"«Sb Cum l22Sb""*" 20.2 ± 0.2m '"'"2Sb 94 ± 12 sec '"""Sb 60 ± 0.03d 124«Sb Cum '"Sb1""*'"2"" 2. 76 ± 0.05 y '"Sb
150 d 12""Te 17 d '2"Te 1 19.7 ± 3.0 d 121"'Te (1.24±0. 10) x 10"ym'Te Cum '"Te"""
57.40 ±0. 15 d 12s"'Te
Cum '"Te""*"
109 ±2d '""'Te 9.35 ±0. 02 h 127'Te Cum '27Te'™*" 34.1 ± 0 . 2 d 12""Te 71 m '""Te Cum '"Te""*"> 30 h i:!""Te 25 ± 1 m '-"«Te Cum '"Te1"""' 109
Isotopic Epicadmium Element of abundance (Vo) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
53 —I1" 100 (n,r) 6.2 ± 0.2 b 147 ±6b '"I 59.50 d (n,y) 894±90b 13,730 ± 2000 b 12.7 ± 0.2 d 1 2 6 '"I 12.7 d (n,y) 5960 b 40,600 b '"1 1.97xlO'y (n,y) 1 8 ± 2 b 9.2m'3 0"'I
(n,y) 9 ± l b 12.36 ± 0. 1 h "°«I (n,y) 2 7 ± 3 b 3 6 ± 4 b
1] °I 12.36 h (n,y) 1 8 ± 3 b 173. 3 b 8.021 ± 0.001 d '"I
'"I 8.021 d (n,y) ~ 0.7 b ~ 8 b 2.285 ± 0.001 h "2I 54 ""Xe (n,y) 24.5 ±1 . O b 300 b
'"Xe 0.096 (n,y) 23.6 ± 2.5 b 60 ± 4 sec '2 5™Xe (n,y) 120.4 b 16.8 ± 0.2 h 125«Xe (n,/) 144 ± l i b 3600 ± 500 b Cum '"Xe""*"
'"Xe 16.8 h (n,y) < 5600 b U6Xe 0.090 (n,y) 435 + 150mb 70sec'"'"Xe
(n,y) 3835mb 36.41 ± 0.02 d '""Xe (n,y) 4.27 ± 0.60 b 38.0 ±3. 8 b Cum 127Xe""*«'
'"Xe 1.92 (n,y) 290 ± 120mb 8.87 ± 0.03 d 12"mXe (n,y) 5 ± l b (n,y) 5.29 ±1. 2 b 1 2 ± 3 b * Cum '"Xe"'*'"
HOb* 129Xe 26.44 (n,y) 1 8 ± 7 b 250* 25 b l30Xe 4.08 (n,y) 495 ± 170mb 1 1.84 ± 0.02 d 13""Xe
(n,y) 6 . 0 ± l . l b (n,y) 6 .5±1.2b 17.3 b*
< 14 b* 131Xe 21.18 (n,y) 9 0 ± I O b 870 ± 40 b 132Xe 26.89 (n,y) 30 ± 5 mb 2.19 ± 0.01 d '""Xe
(n,y) 41 5 ± 45mb 5.242 ± 0.006 d "'«Xe (n,y) 445 ± 50mb 800mb Cum '"Xe1"1*"
Element of isotope
'"Xe l34Xe
' 3SXe '"Xe — Cs1"
'"Cs '"Cs 1]6Cs
'"Cs — Ba '"Ba
'"Ba
1JSBa
' J6Ba
'"Ba 1J
"Ba
Isotopic abundance (%)
or halflife 5.242 d 10.44
2.052 y 2.15><10 6 y 13d
29.98y
0.101
0.095
2.42
6.59
7.81
11.32 71.66
Reaction (n,r) (n.y) (n.y) (n,y)
(n.y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y)
(n,y) (n,y) (n,y) (n.y) (n.y) (n.y) (n,y) (n.y) (n.y) (n,y) (n.y) (n.y) (n.y) (n.y) (n.y) (n.y)
Thermal cross section
190±90b 3.0 ± 0.3mb 262mb 265 ± 20 mb
(2.65±0.20)xlO"b 130 ± 15mb 29.0 ± 1.5b 2.5±0.2b 26.5 ± 1.5b 140 ± 12 b 8.7±0.5b 1.3b
1 10 ± 33mb 1.2*0.1 b 2 . 5 ± 0 . 3 b 8b 11 ±3b 680mb 7.8 ± I . O b 8.5 ± I . O b 158 ± 24mb 2.0 ± 1.6b 13.9±0.7mb 5.8±0.9b 10± 1 mb 400 ± 400 mb 5.1 ±0.1 b 365 ± 150mb
Epicadmium resonance integral
320mb* 4.604 mb* 7634 120mb 424 ± 26 b 29.2 ±6.2 359±90b
62 b 76 b* 15.55b* 414mb 7.5 ± I . O b
2 1 9 ± 6 0 b 3 .8±0 .2b
24. 2 ± 1 . 2b 2 3 ± 5 b 500mb 100±50b 725 ± 25mb 1.3±0.3 b 4± 1 b 200 ± 100mb* 330 ± 20mb*
Radioactive product, if any
15.45 m "5Xe 9.09±O.OI h "5Xe Cum '-"Xe""*"
3.81 ± 0.10m '"Xe Cum 1-"Cs<'"*'" 2.95 ± 0.02 h '"'"Cs 2.052 ± 0.012 y "4«Cs (215±0.20)xlO"y "5"Cs 13d"6"Cs 29.98 ± 0.06 y '"Cs
32. 3 ±0 .1 m ""Cs
14.6 ± 0 .2m """Ba 11 .8±0 .3d '•"«Ba Cum '"Ba1"'*" 41 ±2 h """Ba 10.74 ±0. 10 y '"'Ba Cum '"Ba""*"1 28. 7 h '"'"Ba Cum '"Ba""*"1 303 ± 2 m i l l i s e c """Ba Cum "*Ba""'"! 2.55 ± 0.0021m "7"'Ba Cum '"Ba""'"'
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
13 'Ba 82.9m (n,y) 6 ± l b 12.80 ± 0.05 d 140Ba
140Ba 12.80d (n,y) 1 .6±0.3b 13.6 ± 1.4 b 18.25 ± 0.7 m ""Ba 57 ""La (n,y) 9.2 ± 0.3 b 12.0 ± 0.6 b
'"La 0.089 (n,y) 57. 2 ± 5.7 b 1.6 x 10"y
'"La 99.91 (n,y) 9.0 ± 0.3 b 11 .7±0.5b 40.232 ± 0.067 h 140La l40La 40.232 h (n,y) 2.7 ± 0.3 b 3.85 ± 0.5 h ""La
58 ""Ce (n,y) 630 ± 150mb 3.0±0.8b '"Ce 0.193 (n,y) 950 ± 250mb 34.3 ± 0.5 h '""Ce
(n,y) 6 .3±1 .5b 8 .9±0 .3h 13"Ce (n,y) 7.25±1.6b 70 ± 7 b Cum '"Ce11"*"
1J8Ce 0.26 (n,y) 15 ± 5mb 1.21±0.13b 55.6 ± 1.0 sec '""'Ce (n,y) l . l ± 0 . 3 b 137.61 ± 0.13d """Ce (n,y) l . l ± 0 . 3 b
l40Ce 88.48 (n,y) 570 ± 50mb 623 ± 127mb 32.51 ± 0.05 d ""Ce '"Ce 32.51 d (n,y) 29 ± 3 b 0.486*
28.73b* 142Ce 11.07 (n,y) 950 ± 50 mb 730±40mb* 33.31 ± 0.32 h 141Ce
1 100 ± 69mb* 143Ce 33.31 h (n,y) 6.0 ± 0.7 b 284.3 ± 0.7 d l44Ce 144Ce 284.3d (n,y) 1 .0±0.1b 2.6±0.3 2.178 ± 0.080 m 14sCe
59 "«pr'4' 100 (n,y) 11.5±0.3b 14.1±0.2b* Cum '4iPr'"'"" 21. 4± 1.8b*
(n,y) 3.9 ± 0.5 b 14.6 ± 0.5 m 142>"Pr (n,y) 7.6 ± 0.4 b 19.2 ± 0.1 h 142"Pr
17. 30 ± 0.5m l44«Pr
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
60 — Nd (n,y) 50.5 ± 2.0 b 45 ± 5 b 14JNd 27.11 (n,y) 18. 7 ± 0.7 b 9 ± l b l4JNd 12.17 (n,y) 325±10b 140±30b
(n,a) 17.4 ± 1.5mb 144Nd 23.85 (n,y) 3 .6±0.3b 5.0 ± 0.5 b
2.4*10 l sy 145Nd 8.30 (r-y) 4 2 ± 2 b 240 ±35 b
vi,a) < 100 ^ ib '"Nd 17.22 (n,y) 1.4±0.1b 2 .71±0.2b 1 1.02 ± 0.06 d 147Nd 147Nd 11.02d (n,y) 440±150b ""Nd 5.73 (n,y) 2.5 ± 0.2 b 1 9 ± l b 1.73 ± 0.01 h 149Nd "°Nd 5.62 (n,y) 1 .2±0.2b 17.4 + 3.1 b 12.44 ± 0.07 m l s 'Nd
61 146Pm 5.53y (n,y) 8400 ± 1680 b 2.620 ± 0.005 y ""Pm 14
'Pm 2.620 y (n,y) 85 ± 5 b 1026 ± 280 b 41.29 ± 0.22 d '4"™Pm (n,y) 96.0 ±1 . 8 b 1274 ± 66 b 5.39 ± 0.06 d 148«Pm (n,y) 181 ± 7mb 2300 ± 300 b Cum '""Pm""*1"
u "~Pm 41.29d (n,y) 22,000 ± 2500 b 3600 ± 2400 b 53.07 ± 0.10 h ""Pm
14I 'Pm 5.39d (n,y) 2000 ± 1000 b 53.07 ± 0.10 h 14"Pm
14 "Pm 53.07 h (n,y) < 700 b 2.698 ± 0.150 h ls°Pm
7. 52 ± 0.10m ls"Pm 62 -Sm (n,y) 5800 ± 100 b 1400* 200 b
" 4Sm 3.1 (n,y) ~0.7b 375 d 145Sm
' 4sSm 375 d (n,y) ~110b
147Sm 15.0 (n,y) 64 ± 5 b 687 ± 50 b (n,o) 750 ± 50mb
62 ""Sm 11.2 (n,y) 2.7 ± 0.6 b 2 7 ± 1 4 b ""Sm 13.8 (n,y) 41, 000 ± 2000 b 3183b
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
• ! 'Sm 93 y (n,y) 15,000 ± 1800 b 3300 ± 700 b
'"Sm 26.7 (n,y) 206 ± 6 b 3014 ± 200 b 46.7 ± 0.2 h '"Sm '"Sm 22.8 (n,y) 5 . 5 ± l . l b 25. 5 ±5. 5 b 22.4 ± 0.3 m ls!Sm
63 '"Eu (n,y) 4600 ± 100 b 2430 ± 200 b 151Eu 47.8 (n,y) 4.0 ±2 . O b 96 ± 5 m 15i""Eu
(n,y) 3300 ± 200 b 2764 ± 136 b* 9.32 ± 0.04 h '"•"iEu 1790± 140 b*
(n,y) 5900±200b 5564 ± 278 b* 13.10 ± 0.15 y "2«Eu 8304 b*
(n,y) 9200 ± 100 b 3300 ± 300 b Cum '"Eu1""4"'2*" (n,o) 9 ± 2 ^ b 5.39d'««Pm
'"~Eu 9.32 h (n,y) < 3 b '"«Eu 13. l y (n,y) 2300±1000b
(n,p) 1.5 Mb
'"Eu 52.2 (n,y) 390 ± 30 b 1567 ± 200 b 8.57 ± 0.07 y 1!4«Eu (n,o) < 1 Mb
'""Eu 8.57y (n,y) 1500±400b 1240b 4.62 + 0.15 y '"Eu '"Eu 4.62 y (n,y) 4040 ± 125 b 1223 b 15.19 ± 0.17 d 156Eu
64 —Gd (n,y) 49,000 ± 1000 b 390±10b '"Gd 0.2 (n,y) 1100±100b 234±9d'"Gd
(n,o) 7mb '"Gd 2.2 (n,y) 49 ± 15mb 31 ± 1 ^ sec '»"Gd
(n,y) 8 5 ± 1 2 b 215±20b Cum '«Gd'"*«' 64 '"Gd 14.9 (n,y) 61,000 ± 500 b 1550 ± 50 b
(n,a) 89 ±7 ^ "'Gd 20.6 (n,y) 1 .5±1.2b 95 ± 5 b '"Gd 15.7 (n,y) 254,000 ± 2000 b 730±20b
(n,cr) < 550mb ls "Gd 24.7 (n,y) 2.5 ± 0.5 b 89 ± 40 b 18.56 ± 0.08 h ls"Gd
160Gd 21.7 (n,y) 770 ± 20 mb 5. 35 ± 2.0 b 3.73 ± 0.10 m ""Gd
Element of isotope
'"«Dy ""Ho"5
"•"Er '"Er
" 4Er
Isotopic abundance (%)
or halflife
3.73m 100 72.3d
0.06
0.10
18.9
25.5 24.9
28.2
2.356 h 100
0.14
Reaction
(n,y) (n,y) (n,y) (n,y) (n,y) (n,a) (n,y) (n,a) (n,y) (n,«) (n,y) (n,o) (n,y) (n,y) (n,«) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n,y) (n.ff) (n,y) (n,y) (n,») (n,y) (n,»)
Thermal cross section
31, 000 ± 12,000b 25. 5 ± 1.1 b 525 ± 100 b 930 ± 20 b 33 ±3 b < 9 m b 43 ±6 b < 6 m b 61 ±6 b < 0.3mb 585 ± 30 b <30 M b 180±20b 130± lOb <20pib 1700±250b 1000 ± 150 b 2700 ± 300 b 3900 ± 300 b 66.5 ±3. 3 b 3 .5±0 .5b 63.0 ±3. 3 b <20nb 162±8b 1 9 ± 2 b < 11 mb 1 3 ± 2 b < 1.2mb
Epicadmium resonance
integral
423 ± H O b
1600 ± 100 b 960 ± 80 b
120±20b
1 160+ 130 b
1060 ± 80 b
2730 ± 270 b 1680 ± 150 b
442 ± 20 b 340 ± 55 b 356 ± 44 b 22,000 ± 3000 b 700 ± 20 b
643 ± 93 b
740 ± 10 b 480 ± 50 b
105 ± 10 b
Radioactive product, if any
9.3± 1.1 m'"Gd 72.6 ± 0.4 d"°Tb 6.88 ±0. 10 d 161Tb
8.35±0.25h'"Dy 234±9d'"Gd 144.5 ± 9.0 d 159Dy
1. 257 ± 0.006m '""Dy 2. 356 ± 0.008 h "5«Dy Cum '"Dy1"*"1 81. 5 ± 0.3 h "6Dy
1200± 180y"6"Ho 26.86 ± 0.24 h 166«Ho
7 4 ± 2 m '"Er 144.5 ± 9.0 d 15vDy 10.37 ± 0.05 h '"Er
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
166Er 33.4 (n,y) 1 5 ± 2 b 2.230 ± 0.050 sec ""™Er (n,y) 5 b (n,y) 2 0 ± 2 b 100±20b Cum '<"Er'""" (n,a) <70^b
"'Er 22.9 (n,y) 670 ± 30 b 2970 ± 70 b (n,o) <70nb
"«Er 27.0 (n,y) 1.95 ± 0.05 b 36 ± 7 b 9.40 ± 0.02 d '""Er (n,a) <90jjb
"°Er 15.0 (n,y) 5 .7±0.2b 23 ± 4 b 7.80± 0.15 h "'Er '"Er 7.80h (n,y) 280 ± 30 b 49.8 ± 1.0 h 17iEr
69 •""Tm"" 100 (n,y) 103 ± 3 b 1634 ± 56 b 131.4 ± 0.8 d "°Tm (n,a) <10fjb
"°Tm 131.4d (n,y) 9 2 ± 4 b 460 ± 50 b 1.92 ± 0.02 y "'Tm "'Tm 1.92 y (n,y) 4.5 ± 0.2 b 118 ±6 b 63.6 ± 0.3 h "Tm
70 -'Yb (n,y) 36.6 ± 2.0 b 182±10b ""Yb 0.14 (n,y) 3470 ± 100 b 27,020 ± 2000 b Cum 46 ± 2 sec """Yb pi
30.6 ± 0.2 d 1M«Yb + (n,o) < 4 m b
70 "°Yb 3.0 (n,y) 1 0 ± l b 300±30b (n,o) <40^b
'"Yb 14.3 (n,y) 50 ± 4 b 332±30b (n,o) <40pb
" 2Yb 21.9 (n,y) 1 .3±0.8b 24 ± 3b
(n,o) <30^b '"Yb 16.2 (n,y) 19 ± 2 b 390 ± 40 b "-Yb 31.8 (n,y) 46 ± 4 b 68.7 ± 1 .O^sec "s"'Yb
(n,y) 1 9 ± 6 b 4.2 ± 0.1 d "5«Yb (n,y) 6 5 ± 5 b 35.4 ±4b (n,o) <20^b 7 .80±0.15h '"Er
Element of isotope
l81Ta
Isotopic abundance (%)
or halflife 12.7
97.4
0.17 5.2 18.5
27.2
13.8
35.1
43.44d
0.012 99.988
Reaction (n.y)
(n.y) (n.y) (n,y) (n,y) (n,«) (n,y) (n.y) (n,y) (n,«) (n.y) (n,y) (n.y) (n.y) (n,y) (n,y) (n.y) (n.y) (n.y) (n.y) (n.y) (n,y) (n,a) (n.y)
Thermal cross section
2.4 ± 0.2 b* 5.5 ± 1.0 b*
7 7 ± 3 b 16.4±0.9b 7± 1 b 23.5 ±2 .0b <60^b 7 ± 2 b 315±60b 1959 ± 75 b < 2 M b 102 ± 2 b 390 ± 55 b 3 8 ± 6 b 0.1 /^b 1.1 ±0.1 b 368 ± 23 b 53 ±6b 3 3 ± 8 b 8 6 ± 7 b 340 ± 30 mb 4 5 ± 5 b 12.6 ± 0.7 b 500 ± 100 mg 40 ± 30 b
21.1 ±7.0b 700±200b 10.3 ±2. 5 b
Epicadmium resonance integral
5. 75 ± 0.5 b* 14.4 ± 1.2 b* 9.2± 1.8b* 900 ± 50 b 669 ± 240 b
890 ± 50 b
1114±70b
2000 ± 100 b 385±55b 700 ± 50 b
710±20b 600 ± 200 b 280 ± 10mb
Radioactive product, if any
Cum6.4±0.1 sec '"™Yb -f 1.88±0.10h "7«Yb
3. 66 ± 0.04 h 1 7 '™Lu (4.08±0.24)xl01(>y "6«Lu Cum "'Lu'-"'
160.7 ± 0.2 d '"-2Lu 160 ± 10^sec'""',Lu 6. 75 ± 0.05 d "'"Lu 7.78±0.5h '"Tm
70 d 175Hf
81 ± 1 y"""2Hf 4. 8 ±0.4 sec """'Hf Cum "«Hf""2*'""" 18. 9 ±2.0 sec l7 '",Hf
Cum '"Hf'""*«' 5.5 h """'Hf Cum ""Hf""*"1 43. 44 ± 0.20 d '"Hf
C u m 6 5 ± 5 m '"-Hf + (9±2)x 10*y '"'Hf
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
(n,y) 21 .0±0.7b 618±115b 1 14.74 ± 0.08 d ""'Ta (n,o) 150 ±30 Mb
'"Ta 1 14.74 d (n,y) 8200 ± 600 b 1000 ± 100 b 5.0 ± 0.4 d 181Ta 74 — W (n,y) 18. 5 ± 0.5 b 352 ± 30 b
"°W 0.13 (n,y) 3.5 b 200b 120.95 ± 0.02 d "'W ' 82W 26.3 (n,y) 20.7 ± 0.5 b 590±90b '"W 14.3 (n,y) 10.2 ± 0.3 b 345 ± 50 b "<W 30.7 (n,y) 2.0 ± 1.0mb 1.62 ± 0.05 m "S"W
(n,y) 1.8±0.2b 1 4 ± 2 b * 75.14± 0.63 d 18S«W 22.0 ± 0.9 b*
'•'W 28.6 (n,y) 37.8±1.5b 455 ± 47 b 23.90 ± 0.30 h '"'W 187W 23.90 h (n,y) 64±10b 2760 ± 550 b 69.4 ± 0.5 d 1S'W
75 —Re (n,y) 88 ± 4 b 830 ± 50 b '"Re 37.5 (n,y) 1 1 2 ± 3 b 1574 ± 77 b 3.860± 0.390 d "6«Re
(n,y) 300 ± 100mb 2x 10!y '86-Re(8 + ) '"Re 62.5 (n,y) 1.73 ±0.30 b 7.0±0.6b 18.7 ± 0.2 m 188"Re
(n,y) 7 3 ± 4 b 3 1 1 ± 3 0 b 16.98 ± 0.02 h '8"«Re (n,y) 7 5 ± 4 b 300 ± 20 b
""Re 16.98 h (n,y) <2b 23.6 ± 0.4 h '"'Re 76 —Os (n,y) 15. 3 ± 0.7 b 210±10b
'"Os 0.018 (n,y) 3000 ± 150 b 94.0 ± 0.5 d "sOs (n,o) <10mb 120.95 ± 0.02 d ""W
"'Os 1.60 (n,y) 80±20b (n,o) < 100 Mb
187Os 1.64 (n,y) 336±17b 890±100b (n,o) < 100 »4b
188Os 13.3 (n,y) 4.3 ±1 . O b 135±35b (n,») OO^b
"»Os 16.1 (n,y) 260±30Mb 13.0 ± 1.3mb 9.85 ± 0.14 m """Os (n,y) 2 3 ± 4 b 750±50b Cum "°Os'""«'
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any "°Os 26.4 (n,y) 9 .1±0 .5b 24.0±0.5b 13.0 ± 0.2 h """Os
(n,y) 6 ± 3 b 7 .7±0.5b 15.3 ± 0.3 d ""«Os (n,y) 13.0 ± 0.3 b 30. 4 ±1.5 b (n,a) <20 M b 23.90 ± 0.30 h '"W
<"Os 41.0 (n,y) 2.0±0.1b 5.0±0.6b 31.1 ± 0.5 h '"Os '"Os 31. I h (n,y) 31 ± 5 b 5.9 + 0.2 y "4Os
77 ""Ir (n,y) 426 ± 4 b 2250 ± 200 b '"Ir 37.4 (n,y) 380 ± 170mb 241 ± 9 y '""2lr
(n,y) 300±30b 1200b 1.44 ±0.03 m '"""Ir (n,y) 624±60b 4500 b 74.02 ± 0.18 d ""'Ir (n,y) 924±53b 3356 ± 350 b Cum '"Ir1""*"1
"Mr 74.02 d (n,y) 1100±400b "Mr 62.6 (n,y) 5.8±2.0b 3 1 ± 2 ^sec """" I r
(n,y) 1 1 0 ± 1 5 b 19.42 ± 0.03 h "4«lr (n,y) 1 12.5 ±7. 5 b 1350 ± 150 b
'""Ir 11.9d (n,y) > 35 mb 171 d "4"';lr 78 — Pt (n,y) 10.0±0.2b 140±6b
"°Pt 0.0127 (n,y) 150 ± 150 b 800±70b 3.03d"'Pt (n,») <8mb
"»Pt 0.78 (n,y) 2.2 ± 0.8 b 4.1 ± 0.5 d '""'Pt (n,y) 1 0 ± 3 b 83±10b 50±9y" '«Pg (n,o) < 0.2mb
" 4Pt 32.9 (n,y) 90 ± 13mb 3.8 ± 0.3 d "5"'Pt
(n,y) 1.2±0.9b 4 ± 2 b Cum "5Pt"""" (n,cr) < 5 M b 15. 3 ± 0.3d ""Os
" 5Pt 33.8 (n,y) 27 ± 2 b 355±50b
(n,a) < 5 M b 31.1 ±0.5 h '"Os "'Pt 25.3 (n,y) 55 ± 10mb 94.4 ± 0.8 m """Pt
(n,y) 775 ± 90mb 18h '» '«Pt (n,y) 830 ± 100mb 6.6 ± 2.0 b Cum "'Pt 119
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any
"»Pt 7.2 (n,y) 27 ± 3 mb 450 ± 10mb 13.3 ± 0.2 sec "9™Pt (n,y) 3.7 ± 0.2 b 48.1±3.2b 29.47 ± 0.02 m "'«Pt
"'Pt 29.47m (n,y) 15±10b 12.6± 0.3 h J"°Pt 79 — Au1" 100 (n,y) 98. 8 ± 0.3 b 1560 ± 40 b 2.694 ± 0.005 d ""Au
"•Au 2.694d (tt.r) 25,450±750b 3.148 ± O.OlOd "'Au '"Au 3.148d (n,y) 3 0 ± 1 5 b 50±2m 2 °°Au
80 ""Hg (n,y) 375 ± 5 b 7 3 ± 1 0 b "
6Hg 0.15 (n,y) 1 1 6 ± 1 5 b 52.9 ± 2.4 b 23.8 ± 0.1 h '"-Hg (n,y) 3011±200b 4 1 3 ± 1 5 b * 64.14 ± 0.05 h "7«Hg
1230 ± 120 b* "«Hg 10.1 (n,y) 1 8 ± 4 m b 1.8±0.3b 42.6 ± 0.2 m '""Hg
(n,y) I . O b 70±30b Cum """'Hg1™*'1 "'Hg 16.9 (n,y) 2300 ± 1000 b 153±30b *>°Hg 23.1 (n,y) <60b ! °'Hg 13.2 (n,y) < 60 b
102Hg 29.7 (n,y) 4.95 ± 0.05 b 4 .4±0.2b 46.15 ± 0.15 d JWHg ""Hg 6.8 (n,y) 430 ± 100mb 850 ± 60 mb 5.4 ± 0.3 m 205Hg
81 "-T1 (n,y) 3.4 ± 0.5 b 1 2 ± l b *»T1 29.5 (n,y) 11.0±0.5b 39. 5 ± 2.0 b 3.791 ± 0.020 y M4T1
(n,o) < 25 mb 2MT1 3.791 y (n,y) 21. 6 ± 2.0 b 86±17b «»T1 70.5 (n,y) 100 ± 30 mb 700 ± 200mb 4.27 ± 0.05 m M"T1(0-)
82 ™'Pb (n,y) 170 ± 2mb 160 ± 40mb ! °-Pb 1.4 (n,y) 661±70mb 1.7±0.5b (1.51 ±0.35) x )0'y 20s'Pb
105Pb l . S l x l O ' y (n,y) 3.8±0.4b 206Pb 24.1 (n,y) 30.5 ± 0.8mb 200 ± 100mb "'Pb 22.1 (n,y) 709 ± 10mb 400 ± 200mb '°"Pb 52.4 (n,y) 487 ± 30 ^ib* 10mb 3.30 ± 0.01 h M'Pb
20 ± 10mb' (n,a) 8 ± l ^ b
J10Pb 22.23 y (n,y) 500 ± 500mb 36.1m2"Pb
Isotopic Epicadmium Element of abundance (%) Thermal cross resonance Radioactive product,
Z isotope orhalflife Reaction section integral if any 83 -Si*" 100 (n,y) 33 ± 4 mb 530mb* Cum ""Si1"""
1 90 ± 30mb* (n,y) 19 ± 2mb (3.55 ± 0.12) x I06y !10"Bi (n,y) 14 ± 3mb 5.001 ± 0.003d
210 «Bi(RaE)
(n,a) 150±20Mb 4.27 ± 0.05 m 2°6"TI 21
°Bi 3.55xlO'y (n,y) 54 ± 5 mb 2.130± 0.015 m 2"Bi 84 21°Po 138. 39 d (n,y) < 30 mb 0.52 sec ""Po
(n,y) < 0.5mb 25sec2""Po (n,o) < 2 mb
86 "°Rn 51. 5 sec (n,y) < 200 mb 2 5 ± 2 m 2 2 1 R n ! "Rn 3. 8235 d (n,y 720 ± 70 mb 43 ± 5 m "3Rn
88 !"Ra 11.4352d (n,y) 1 2 5 ± 1 5 b 3.665 ± 0.038 d 2"Ra (n, fission 700 ± 300 mb Fission products
2 "Ra 3.665 d (n,y) 12.0 ± 0.5 b 14.8d22sRa
226Ra 1608y (n,y) 11 .5±1 .5b 2 2 2 ± 1 5 b 42.2 ± 0.5 m "7Ra (n, fission) < 7 ^ b
228Ra 6.7 y (n,y) 36 ± 5 b 4.05 ± 0.3 m 2"Ra (n, fission) < 200 mb
89 227Ac 21. 7728 y (n,y) 762 ± 29 b 1017 ± 103 b (n, fission) <350jjb
90 22'Th 18. 7176 d (n, fission) 200 ± 20 b Fission products !2