131PR 131ND EC DECAY 1996GE12,1993GEZZ 06NDS 200612
131PR H TYP=FUL$AUT=YU. KHAZOV, I. MITROPOLSKY, A. RODIONOV$
131PR2 H CIT=NDS 107, 2715 (2006)$CUT=17-Jul-2006$
131PR c 1996Ge12: {+131}Nd |e decay [from {+94}Mo({+40}Ca,2pn), E=255 MeV];
131PR2c measured E|g, I|g, ce, |g|g, x|g, ce|g(t), x|g(t). He-jet transport,
131PR3c magnetic selector, Ge, Si(Li) detectors.
131PR c Others: 1996Gi08, 1983ViZU
131PR CE IE$From net feeding of each level assuming no feeding to g.s.
131PR cG $All data from 1996Ge12, except as noted
131PR cG E(X)$Assigned to {+131}Nd |e decay by 1983ViZU on the basis of
131PR2cG partial T{-1/2}<30 s
131PR CG M$From ECC
131PR cL E$From least-squares fit to E|g's
131PR cL J$As in 1996Ge12: from multipolarities of |g's, level scheme and
131PR2cL systematics
131ND P 0.0 (5/2+) 26.0 S 11 6510 60
131PR N 0.169 17 1
131PR cN NR from |SI{-|g}(1+ce)=100 to g.s.
131PR PN 5
131PR G 460.5 3 64 20 X
131PR G 641.5 4 54 12 X
131PR G 668.0 2 84 16 X
131PR G 1118.0 5 48 24 X
131PR G 1183.4 64 AP X
131PR L 0.0 3/2+ 1.51 M 2
131PR cL T$from adopted levels
131PR L 87.57 12 5/2+
131PR E 17 10 1.5 9 5.6 3 19 11
131PRS E EAV=2490 29$CK=0.0693 21$CL=0.0096 3$CM+=0.00271 9
131PR G 87.6 2 180 20 M1 1.93
131PR2 G ELC=0.26 9$ K/L=8 2
131PRS G KC=1.64 5$LC=0.226 7$MC=0.0474 15$NC+=0.0130 4
131PR L 251.69 15 7/2+
131PR E 7.7 13 0.75 13 5.91 8 8.5 14
131PRS E EAV=2412 29$CK=0.0752 24$CL=0.0104 4$CM+=0.00294 10
131PR G 164.2 2 100 M1,(E2) 0.35 3
131PR2 G EKC=0.24 6$ K/L=9 4
131PRS G KC=0.272 5$LC=0.061 23$MC=0.013 6$NC+=0.0035 14
131PR G 251.6 4 14.0 15
131PR L 261.9513 (5/2, 7/2)+
131PR E 15.2 17 1.49 18 5.61 6 16.7 19
131PRS E EAV=2407 29$CK=0.0756 24$CL=0.0105 4$CM+=0.00296 10
131PR G 174.5 2 76 3 M1,E2 0.289 15
131PR2 G EKC=0.23 7$ K/L=4 2
131PRS G KC=0.227 7$LC=0.049 17$MC=0.010 4$NC+=0.0028 10
131PR G 261.9 2 24 2
131PR L 448.5118 9/2+
131PR E 5.9 9 0.64 10 5.95 8 6.5 10
131PRS E EAV=2318 29$CK=0.083 3$CL=0.0115 4$CM+=0.00326 11
131PR G 196.7 3 26 3
131PR G 360.8 3 22 2
131PR L 450.1117 7/2+
131PR E 9.4 11 1.02 12 5.75 6 10.4 12
131PRS E EAV=2317 29$CK=0.083 3$CL=0.0115 4$CM+=0.00326 11
131PR G 188.4 3 2.5 5
131PR G 198.5 5 6.5 15
131PR G 362.6 3 46 2
131PR G 450.0 3 8 1
131PR L 515.7419 (3/2, 5/2, 7/2)+
131PR E 4.0 6 0.46 7 6.08 8 4.5 7
131PRS E EAV=2286 29$CK=0.086 3$CL=0.0119 4$CM+=0.00337 11
131PR G 253.8 4 4.5 6
131PR G 428.2 2 11 2
131PR G 515.6 4 11 2
131PR L 556.9319 (5/2, 7/2, 9/2)+
131PR E 6.9 8 0.80 10 5.84 6 7.7 9
131PRS E EAV=2266 29$CK=0.088 3$CL=0.0122 4$CM+=0.00345 12
131PR G 305.2 2 21 2
131PR G 469.4 2 24.5 15
131PR L 571.9621
131PR E 3.3 4 0.39 5 6.15 7 3.7 5
131PRS E EAV=2259 29$CK=0.089 3$CL=0.0123 4$CM+=0.00348 12
131PR G 310.0 4 5.0 5
131PR G 484.4 2 17 1
131PR L 668.8720 (7/2, 9/2)+
131PR E 3.3 5 0.41 7 6.11 8 3.7 6
131PRS E EAV=2213 29$CK=0.093 3$CL=0.0130 5$CM+=0.00366 13
131PR G 220.5 2 5 1
131PR G 406.8 4 3.7 10
131PR G 417.1 4 8.0 15
131PR G 581.1 3 5 1
131PR L 679.6 3 11/2+
131PR E 1.05 19 0.131 24 6.60 9 1.18 21
131PRS E EAV=2208 29$CK=0.094 4$CL=0.0130 5$CM+=0.00368 13
131PR G 427.9 2 7 1
131PR L 680.9721
131PR E 2.2 4 0.28 5 6.28 8 2.5 4
131PRS E EAV=2207 29$CK=0.094 4$CL=0.0130 5$CM+=0.00369 13
131PR G 419.5 5 1.8 8
131PR G 593.3 3 7 1
131PR G 680.9 3 6 1
131PR L 724.0717
131PR E 2.8 4 0.36 6 6.15 8 3.2 5
131PRS E EAV=2187 29$CK=0.096 4$CL=0.0133 5$CM+=0.00377 13
131PR G 462.1 2 4.2 4
131PR G 636.5 3 4 1
131PR G 724.1 3 11 1
131PR L 772.6 5
131PR E 0.60 11 0.079 15 6.81 9 0.68 13
131PRS E EAV=2164 29$CK=0.099 4$CL=0.0137 5$CM+=0.00388 13
131PR G 685.0 4 4.0 6
131PR L 787.5021
131PR E 2.5 4 0.33 5 6.19 7 2.8 4
131PRS E EAV=2157 29$CK=0.100 4$CL=0.0138 5$CM+=0.00391 14
131PR G 525.4 3 1.5 4 @
131PRF G FL=261.95
131PR cG RI$from level scheme in authors' fig.5; I(tot)=3.4 {I4} in Table 2
131PR2cG (1996Ge12)
131PR G 535.9 3 3.0 5
131PR G 700.0 3 12.0 15
131PR L 799.0 4
131PR E 2.1 4 0.28 5 6.25 8 2.4 4
131PRS E EAV=2151 29$CK=0.100 4$CL=0.0139 5$CM+=0.00393 14
131PR G 547.3 3 14.0 15
131PR L 828.5825
131PR E 2.6 4 0.35 5 6.16 7 2.9 4
131PRS E EAV=2137 29$CK=0.102 4$CL=0.0141 5$CM+=0.00400 14
131PR G 576.8 3 7 1
131PR G 741.1 3 10 1
131PR L 892.5 4
131PR E 1.33 20 0.19 3 6.41 8 1.52 23
131PRS E EAV=2107 29$CK=0.106 4$CL=0.0146 5$CM+=0.00414 15
131PR G 804.9 3 9 1
131PR L 923.6422
131PR E 2.8 3 0.41 5 6.07 7 3.2 4
131PRS E EAV=2092 29$CK=0.107 4$CL=0.0149 6$CM+=0.00421 15
131PR G 835.8 3 8.0 8
131PR G 923.9 3 11 1
131PR L 975.29 19 (9/2+)
131PR E 0.88 20 0.13 3 6.56 11 1.01 23
131PRS E EAV=2068 29$CK=0.111 4$CL=0.0153 6$CM+=0.00434 15
131PR G 525.4 3 1.5 4 @
131PRF G FL=450.11
131PR cG RI$from level scheme in authors' fig.5; I(tot)=3.4 {I4} in Table 2
131PR2cG (1996Ge12)
131PR G 526.7 1 2.5 5
131PRF G FL=448.51
131PR G 724.0 3 2 1
131PR L 1075.9918
131PR E 0.87 20 0.14 3 6.51 11 1.01 23
131PRS E EAV=2020 29$CK=0.117 5$CL=0.0162 6$CM+=0.00460 17
131PR G 627.5 3 2.0 6
131PR G 824.3 1 4 1
131PR L 1239.7 7
131PR E 1.41 18 0.25 3 6.23 7 1.66 21
131PRS E EAV=1943 29$CK=0.129 5$CL=0.0179 7$CM+=0.00505 19
131PR G 1152.0 8 4.5 5
131PR G 1240 1 5.3 5