132PR 132ND EC DECAY (94 S) 1995BU11 05NDS 200504
132PR H TYP=FUL$AUT=YU. KHAZOV, A.A. RODIONOV AND S. SAKHAROV, BALRAJ SINGH$
132PR2 H CIT=NDS 104, 497 (2005)$CUT=10-Feb-2005$
132PR c 1995Bu11 (also 1994Bu18): measured E|g, I|g, |g|g(t), X|g(t), ce,
132PR2c ce|g(t), T{-1/2}({+132}Nd isotope)
132PR c Others: 1977Bo02 (measured T{-1/2} of {+132}Nd g.s.)
132PR cG RI(A)$Weak transition
132PR cL J$From adopted levels. Possible allowed |e+|b{++} feedings from 0+
132PR2cL suggest 1+ for most levels. However, log| {Ift} values are not
132PR3cL considered (by the evaluators) as definitive when feedings
132PR4cL are low (<10%)
132ND P 0.0 0+ 94 S 8 3790 60
132PR N 0.588 10 1.0 1.0
132PR cN NR$|SI(|g+ce) of |g's to g.s.=100; assuming no |e+|b{++} feeding to
132PRxcN {+132}Pr g.s.
132PR PN 5
132PR L 0.0 (2)+
132PR cL E$probably the g.s. of {+132}Pr, however the relative spacing
132PR2cL between this state and a possible (5+) isomer is unknown
132PR L 147.72 11 1+
132PR E 19 1 14 1 4.7 33 2
132PRS E EAV=1184 28$CK=0.365 15$CL=0.0509 21$CM+=0.0144 6
132PR G 147.7 2 100.0 15 M1 0.436
132PR2 G EKC=0.36 4$ ELC=0.068 3$ EMC=0.015 3
132PRS G KC=0.372$LC=0.0509$MC=0.0107$NC+=0.00292
132PR L 284.53 13 (1,2)-
132PR E 0.85 LT 0.75 LT 6.0 GT 1.6 LT ?
132PRS E EAV=1121 28$CK=0.399 16$CL=0.0557 23$CM+=0.0158 7
132PR G 136.9 2 13.5 5 E1 0.106
132PR2 G EKC=0.070 10$ ELC=0.016 4
132PRS G KC=0.091$LC=0.0124$MC=0.00259$NC+=0.00068
132PR G 284.5 2 8.8 5 E1 0.0149
132PR2 G EKC=0.016 5
132PRS G KC=0.0128$LC=0.00169$MC=0.00035
132PR L 288.16 12 (0:3)+
132PR cL J$1+ (1995Bu11)
132PR E 1.1 6 0.9 6 5.9 2.0 12
132PRS E EAV=1119 28$CK=0.400 16$CL=0.0558 23$CM+=0.0158 7
132PR G 140.6 2 11.3 9 M1 0.501
132PR2 G EKC=0.44 7$ ELC=0.075 13
132PRS G KC=0.427$LC=0.0585$MC=0.0123$NC+=0.00336
132PR G 288.2 2 6.2 8 M1,E2 0.064 7
132PR2 G EKC=0.09 3
132PRS G KC=0.053 8$LC=0.0087 6$MC=0.00186 16$NC+=0.00050 4
132PR L 342.90 13 (0:3)+
132PR cL J$1+ (1995Bu11)
132PR E 2.6 5 2.5 5 5.4 5.1 9
132PRS E EAV=1094 28$CK=0.414 17$CL=0.0579 23$CM+=0.0164 7
132PR G 195.2 1 8.3 11 M1,E2 0.204
132PR2 G EKC=0.22 5$ ELC=0.038 10
132PRS G KC=0.163 9$LC=0.032 9$MC=0.0070 21$NC+=0.0019 6
132PR G 342.8 3 1.2 6
132PR L 387.20 18 (0:3)+
132PR cL J$1+ (1995Bu11)
132PR E 2.2 3 2.3 3 5.5 4.5 5
132PRS E EAV=1074 28$CK=0.426 17$CL=0.0595 24$CM+=0.0169 7
132PR G 99.1 2 1.6 2 M1 1.35
132PRS G KC=1.15$LC=0.158$MC=0.0332$NC+=0.0091
132PR2 G EKC=1.26 12
132PR cG $|a(L)exp|<0.15
132PR G 102.4 3 0.8 2 [E1] 0.237
132PRS G KC=0.201$LC=0.0283$MC=0.00588$NC+=0.00153
132PR G 239.6 3 2.6 4 (M1,E2) 0.110 6
132PRS G KC=0.090 9$LC=0.016 3$MC=0.0034 7$NC+=0.00092 16
132PR cG $|a(K)exp=0.096 {I24} for 239.6+237.8
132PR L 405.82 16 (0:3+)
132PR G 117.9 2 1.2 5
132PR G 122.0 4 A
132PR L 501.34 16 (0:3)+
132PR cL J$1+ (1995Bu11)
132PR E 2.8 2 3.3 3 5.3 6.1 4
132PRS E EAV=1022 28$CK=0.458 18$CL=0.0640 25$CM+=0.0181 7
132PR G 96.0 3 A
132PR G 213.3 2 4.2 1 M1,E2 0.156
132PR2 G EKC=0.124 17
132PRS G KC=0.126 10$LC=0.024 6$MC=0.0051 13$NC+=0.0014 4
132PR G 352.8 3 4.2 3
132PR G 501.4 3 1.4 4
132PR L 526.15 17 (0:3)+
132PR E 1.5 1 1.8 1 5.5 3.3 2
132PRS E EAV=1011 28$CK=0.465 18$CL=0.0651 25$CM+=0.0184 7
132PR G 121.0 5 A
132PR G 183.2 4 A
132PR G 237.8 3 1.3 1 (M1,E2) 0.113 6
132PRS G KC=0.092 9$LC=0.016 3$MC=0.0035 7$NC+=0.00094 16
132PR cG $|a(K)exp=0.096 {I24} for 239.6+237.8
132PR G 378.6 2 5.0 2 M1,E2 0.030 5
132PR2 G EKC=0.027 7
132PRS G KC=0.025 5$LC=0.00379 17$MC=0.00080 3$NC+=0.00022 1
132PR L 567.49 20 (0:3+)
132PR E 0.4 1 0.5 1 6.1 0.9 2
132PRS E EAV=992 28$CK=0.477 18$CL=0.067 3$CM+=0.0189 8
132PR G 419.7 2 3.3 2
132PR L 587.44 24 (0:3)+
132PR cL J$(1+) (1995Bu11)
132PR E 0.47 13 0.63 17 6.0 1.1 3
132PRS E EAV=983 28$CK=0.483 18$CL=0.068 3$CM+=0.0191 8
132PR G 299.0 3 1.8 4 M1 0.0642
132PR2 G EKC=0.056 15
132PRS G KC=0.0549$LC=0.00738$MC=0.00155$NC+=0.00042
132PR L 630.42 24 (0:3+)
132PR E 0.66 21 0.9 3 5.8 1.6 5
132PRS E EAV=963 28$CK=0.496 18$CL=0.069 3$CM+=0.0197 8
132PR G 224.6 3 1.3 2
132PR G 482.7 3 2.8 LT
132PR L 714.94 15 1+
132PR E 8.9 6 14 1 4.6 23 1
132PRS E EAV=925 28$CK=0.521 19$CL=0.073 3$CM+=0.0207 8
132PR G 310.0 4 A
132PR G 372.0 4 0.7 2
132PR G 426.8 2 2.6 2
132PR G 430.4 2 13.2 9 E1
132PR2 G EKC=0.0076 21
132PRS G CC=0.00533$KC=0.00458$LC=0.00059$MC=0.00012
132PR G 567.0 2 21.7 4 M1 0.0126
132PR2 G EKC=0.013 2
132PRS G KC=0.0107$LC=0.00141
132PR L 724.83 16 (LE 3)
132PR E 1.6 3 2.6 5 5.3 4.2 8
132PRS E EAV=920 28$CK=0.524 19$CL=0.073 3$CM+=0.0208 8
132PR G 137.1 3 A
132PR G 199.1 3 0.9 2
132PR G 319.0 4 A
132PR G 382.2 4 1.9 3
132PR G 440.0 3 2.3 6
132PR G 725.2 3 2.6 11
132PR L 854.9 3 (0:3+)
132PR E 0.3 0.5 1 6.0 0.8 1
132PRS E EAV=861 28$CK=0.564 19$CL=0.079 3$CM+=0.0224 8
132PR G 449.0 4 A
132PR G 707.2 3 1.3 1
132PR L 861.23 22 (0:4-)
132PR E 0.53 8 1.1 1 5.7 1.6 2
132PRS E EAV=859 28$CK=0.566 19$CL=0.079 3$CM+=0.0225 8
132PR G 455.0 4 A
132PR G 576.8 2 2.8 3
132PR L 981.85 17 (0+:3+)
132PR E 2.2 2 5.4 5 4.9 7.6 6
132PRS E EAV=804 27$CK=0.603 19$CL=0.085 3$CM+=0.0240 8
132PR G 257.4 3 0.6 2
132PR G 414.2 3 1.7 2
132PR G 693.7 3 1.9 8
132PR G 834.2 3 2.7 2
132PR G 981.3 4 6.1 4
132PR L 1330.1 3 (0:3+)
132PR E 0.77 11 3.8 3 4.9 4.6 4
132PRS E EAV=648 27$CK=0.705 17$CL=0.0993 24$CM+=0.0282 7
132PR G 1041.7 4 2.4 4
132PR G 1045.7 4 3.4 4
132PR G 1182.5 4 2.0 3
132PR L 1440.7 6 (0:3+)
132PR E 0.2 LT 1.1 LT 5.4 GT 1.3 LT ?
132PRS E EAV=599 27$CK=0.733 15$CL=0.1034 22$CM+=0.0293 7
132PR G 1293.0 5 2.2 LT