150SM 150PM B- DECAY (2.68 H) 1970BA16 13NDS 201306
150SM H TYP=FUL$AUT=S. K. Basu, A. A. Sonzogni$CIT=NDS 114, 435 (2013)$
150SM2 H CUT=1-Apr-2013$
150SM c |g-ray transitions following the |b decay of {+150}Pm were studied
150SM2c using Ge(Li) detectors (resolution=2.7~keV FWHM at 1332~keV). Because
150SM3c of the short half-life of {+150}Pm, coincidence information was
150SM4c obtained by means of a well-type Ge(Li) detector using summing
150SM5c techniques. A total of 140 |g rays were observed and 117 of these were
150SM6c placed in a proposed decay scheme with 34 levels. In constructing the
150SM7c decay scheme the authors referred to an earlier publication (1968Ku10)
150SM8c on the decay of 12.8-h {+150}Eu.
150SM cB $The |b-decay branch to each level was deduced from the |g-ray
150SM2cB intensity imbalance at each level. I|b(g.s.)<3% (1962Go04) and 10% {I2}
150SM3cB (1972GrYP). The evaluators adopt I|b(g.s.)<10%
150SM cG RI$Normalized to 100 for the 2+ to g.s. |g-ray transition.
150SM cG M$From adopted gammas.
150PM P 0.0 (1-) 2.698 H 15 3454 20
150SM N 0.68 4 1.0 1.0
150SM cN NR$Assuming |S\ I|g(g.s.)=95% {I5}.
150SM G 218.1 8 0.01 AP
150SM G 259.3 10 0.01 AP
150SM G 600.8 10 0.02 AP
150SM G 627.9 10 0.02 AP
150SM G 812.1 8 0.14 3
150SM G 1120.8 8 0.13 2
150SM G 1269.3 10 0.10 3
150SM G 1296.1 8 0.10 3
150SM G 1358.5 8 0.09 2
150SM G 1865.2 10 0.10 2
150SM G 1874.1 10 0.10 2
150SM G 1893.2 10 0.07 2
150SM G 2371.0 8 0.11 3
150SM G 2453.1 10 0.02 1
150SM G 2546.1 7 0.05 2
150SM G 2623.5 6 0.06 2
150SM G 2651.7 10 0.03 1
150SM G 2699.8 5 0.08 3
150SM G 2855.8 8 0.010 5
150SM G 2883.3 8 0.04 2
150SM G 2932.2 10 0.003 AP
150SM G 2941.0 10 0.003 AP
150SM G 3187.8 20 0.005 AP
150SM L 0. 0+
150SM B 10 LE 8.8 GE
150SMS B EAV=1426.7 92
150SM L 333.95 1 2+
150SM G 333.92 3 100 E2 0.0405 C
150SMS G KC=0.0320 5$LC=0.00665 10$MC=0.001476 21$NC=0.000329 5$OC=4.57E-5 7$
150SMS G PC=1.750E-6 25$NC+=0.000377 6
150SM B 9.4 18 8.62 9
150SMS B EAV=1273.3 92
150SM L 740.42 4 0+
150SM G 406.51 3 8.2 5 E2 0.0227 C
150SMS G KC=0.0183 3$LC=0.00343 5$MC=0.000756 11$NC=0.0001691 24$OC=2.39E-5 4$
150SMS G PC=1.031E-6 15$NC+=0.000194 3
150SM B 1.5 6 9.17 18
150SMS B EAV=1087.6 91
150SM L 773.35 1 4+
150SM G 439.38 7 1.13 8 E2 0.0182 C
150SMS G KC=0.01482 21$LC=0.00268 4$MC=0.000588 9$NC=0.0001317 19$OC=1.87E-5 3$
150SMS G PC=8.42E-7 12$NC+=0.0001512 22
150SM L 1046.14 1 2+
150SM G 272.8 10 0.09 3
150SM G 305.7 2 0.16 3 E2 0.0530
150SMS G KC=0.0414 6$LC=0.00908 13$MC=0.00202 3$NC=0.000450 7$OC=6.21E-5 9$
150SMS G PC=2.23E-6 4$NC+=0.000515 8
150SM G 712.22 4 6.4 4 E2+E0+M1 0.007119 C
150SMS G KC=0.0060 16$LC=0.00085 18$MC=0.00018 4$NC=4.1E-5 9$OC=6.1E-6 14$
150SMS G PC=3.7E-7 11$NC+=4.8E-5 10
150SM G 1046.12 8 0.52 6 (E2) 0.00226
150SMS G KC=0.00192 3$LC=0.000269 4$MC=5.76E-5 8$NC=1.302E-5 19$OC=1.93E-6 3$
150SMS G PC=1.142E-7 16$NC+=1.507E-5 21
150SM B 1.3 4 9.02 14
150SMS B EAV=949.2 91
150SM L 1071.40 1 3-
150SM G 297.9 2 0.17 3 E1 0.01498
150SMS G KC=0.01277 18$LC=0.001735 25$MC=0.000370 6$NC=8.33E-5 12$
150SMS G OC=1.224E-5 18$PC=7.02E-7 10$NC+=9.63E-5 14
150SM G 737.50 8 3.31 23 E1 0.00187 C
150SMS G KC=0.001605 23$LC=0.000209 3$MC=4.44E-5 7$NC=1.005E-5 14$
150SMS G OC=1.499E-6 21$PC=9.24E-8 13$NC+=1.164E-5 17
150SM L 1165.75 2 1-
150SM G 425.33 7 0.71 8 C
150SM G 831.85 4 17.5 7 (E1) 1.47E-3 C
150SMS G KC=0.001262 18$LC=0.0001634 23$MC=3.47E-5 5$NC=7.86E-6 11$
150SMS G OC=1.174E-6 17$PC=7.28E-8 11$NC+=9.10E-6 13
150SM G 1165.77 6 23.3 9 E1 7.92E-4
150SMS G KC=0.000670 10$LC=8.56E-5 12$MC=1.82E-5 3$NC=4.11E-6 6$OC=6.16E-7 9$
150SMS G PC=3.88E-8 6$NC+=1.83E-5 3
150SM B 25.9 14 7.63 3
150SMS B EAV=895.3 90
150SM L 1193.81 2+
150SM G 420.1 5 0.16 3 (E2) 0.0207 ?
150SMS G KC=0.01674 24$LC=0.00309 5$MC=0.000679 10$NC=0.0001520 22$
150SMS G OC=2.15E-5 4$PC=9.46E-7 14$NC+=0.000174 3
150SM G 453.48 16 0.21 4 (E2) 0.01671
150SMS G KC=0.01362 20$LC=0.00243 4$MC=0.000532 8$NC=0.0001192 17$
150SMS G OC=1.695E-5 24$PC=7.76E-7 11$NC+=0.0001369 20
150SM G 859.95 4 5.0 3 E2+M1(+E0) 0.004511 C
150SMS G KC=0.0039 10$LC=0.00053 12$MC=0.000114 24$NC=2.6E-5 6$OC=3.9E-6 9$
150SMS G PC=2.4E-7 7$NC+=3.0E-5 7
150SM G 1193.87 6 7.1 4 E2 1.73E-3
150SMS G KC=0.001469 21$LC=0.000201 3$MC=4.31E-5 6$NC=9.75E-6 14$
150SMS G OC=1.452E-6 21$PC=8.75E-8 13$NC+=1.635E-5 23
150SM B 0.6 7 9.2 5
150SMS B EAV=882.7 90
150SM L 1255.50 2 0+
150SM G 209.45 12 0.09 2 [E2] 0.179
150SMS G KC=0.1302 19$LC=0.0379 6$MC=0.00858 13$NC=0.00190 3$OC=0.000253 4$
150SMS G PC=6.52E-6 10$NC+=0.00216 3
150SM G 921.61 16 1.25 10 E2 0.00296 C
150SMS G KC=0.00250 4$LC=0.000359 5$MC=7.71E-5 11$NC=1.740E-5 25$OC=2.57E-6 4$
150SMS G PC=1.486E-7 21$NC+=2.01E-5 3
150SM L 1417.33 1 2+
150SM cL $371.08 |g not included as it is not adopted
150SM G 251.60 10 0.26 4 E1 0.0231
150SMS G KC=0.0197 3$LC=0.00269 4$MC=0.000575 8$NC=0.0001294 19$OC=1.89E-5 3$
150SMS G PC=1.066E-6 15$NC+=0.0001493 21
150SM G 345.93 8 0.64 7 E1 0.01031
150SMS G KC=0.00880 13$LC=0.001187 17$MC=0.000253 4$NC=5.70E-5 8$OC=8.40E-6 12$
150SMS G PC=4.89E-7 7$NC+=6.59E-5 10
150SM G 1083.33 8 0.26 4 M1+E0(+E2) 0.00276
150SMS G KC=0.0023 5$LC=0.00031 6$MC=6.6E-5 13$NC=1.5E-5 3$OC=2.2E-6 5$
150SMS G PC=1.4E-7 4$NC+=1.7E-5 4
150SM L 1504.53 1 3+
150SM G 458.4 2 0.05 1 E2 0.01622
150SMS G KC=0.01323 19$LC=0.00235 4$MC=0.000514 8$NC=0.0001153 17$
150SMS G OC=1.640E-5 23$PC=7.55E-7 11$NC+=0.0001324 19
150SM G 731.06 16 0.41 7 E2 0.00498
150SMS G KC=0.00417 6$LC=0.000630 9$MC=0.0001362 19$NC=3.07E-5 5$OC=4.49E-6 7$
150SMS G PC=2.46E-7 4$NC+=3.54E-5 5
150SM G 1170.9 3 1.56 18 E2(+M1) 0.00235 C
150SMS G KC=0.0019 4$LC=0.00026 5$MC=5.5E-5 11$NC=1.25E-5 24$OC=1.9E-6 4$
150SMS G PC=1.2E-7 3$NC+=1.8E-5 3
150SM L 1658.41 4 2(-)
150SM G 241.5 4 0.02 AP
150SM G 465.1 6 0.07 1
150SM G 492.56 8 0.50 6
150SM G 587.02 8 1.97 14 C
150SM G 612.25 8 1.37 10
150SM G 1324.51 6 25.7 10 C
150SM B 19.4 12 7.34 4
150SMS B EAV=676.5 88
150SM L 1684.21 2 3- ?
150SM G 911.0 6 0.10 2 E1 1.23E-3
150SMS G KC=0.001058 15$LC=0.0001365 20$MC=2.90E-5 4$NC=6.56E-6 10$
150SMS G OC=9.81E-7 14$PC=6.12E-8 9$NC+=7.60E-6 11
150SM G 1350.7 5 0.13 2 E1 7.04E-4 & ?
150SMS G KC=0.000516 8$LC=6.57E-5 10$MC=1.393E-5 20$NC=3.15E-6 5$OC=4.73E-7 7$
150SMS G PC=3.00E-8 5$NC+=0.0001079 16
150SM B 0.089 25 9.65 13
150SMS B EAV=665.2 88
150SM L 1713.27 6 1
150SM G 547.4 8 0.06 2
150SM G 667.3 3 0.23 4
150SM G 972.2 8 0.14 2
150SM G 1379.32 6 4.63 32 C
150SM G 1713.31 12 0.52 6 C
150SM B 3.5 3 8.03 5
150SMS B EAV=652.5 88
150SM L 1786.2 1 ( LE 3)
150SM G 620.8 4 0.18 3
150SM G 1452.9 10 0.19 5
150SM B 0.16 4 9.30 11
150SMS B EAV=620.7 88
150SM L 1963.72 3 1-
150SM G 917.44 16 0.70 10
150SM G 1223.28 6 4.16 29 C
150SM G 1629.79 4 1.17 8 C
150SM G 1963.71 8 2.16 15
150SM B 5.5 3 7.57 4
150SMS B EAV=544.2 86
150SM L 2070.23 2 2(-)
150SM G 565.70 3 1.93 14
150SM G 652.84 9 0.49 6
150SM G 876.41 4 10.7 5 C
150SM G 904.46 8 1.34 9 C
150SM G 999.0 10 0.09 3 ?
150SM G 1024.13 6 1.08 8
150SM G 1736.40 8 10.2 5 C
150SM B 17.5 8 6.95 4
150SMS B EAV=498.9 85
150SM L 2259.92 4 (1-)
150SM G 842.55 12 0.60 7
150SM G 1004.44 12 1.18 8
150SM G 1066.00 16 0.66 7
150SM G 1093.5 8 0.11 2
150SM G 1213.72 8 1.52 11
150SM G 1519.53 12 0.39 7 C
150SM G 1926.04 8 0.50 10
150SM G 2259.8 8 0.10 3
150SM B 3.26 17 7.44 4
150SMS B EAV=419.4 83
150SM L 2367.4 1 (3+)
150SM G 1201.8 5 0.11 2
150SM G 2033.46 8 1.42 10 C
150SM B 1.04 9 7.78 5
150SMS B EAV=375.3 82
150SM L 2507.3 6 (1-,2+)
150SM G 848.1 5 0.02 AP ?
150SM G 1340.9 5 0.08 2
150SM G 1436.6 4 0.39 7 C
150SM G 1766.7 3 0.28 5 &
150SM G 2173.7 8 0.08 3
150SM G 2507.3 6 0.08 3
150SM B 0.58 7 7.82 7
150SMS B EAV=319.1 80
150SM L 2529.2 3 1,2+
150SM G 1789.8 8 0.02 1
150SM G 2195.6 6 0.13 3
150SM G 2529.2 3 0.49 6
150SM B 0.44 5 7.90 6
150SMS B EAV=310.4 80
150SM L 2550.5 3 1,2+
150SM G 1810.5 6 0.06 2
150SM G 2216.5 3 0.35 6
150SM G 2550.5 5 0.18 4
150SM B 0.39 5 7.92 7
150SMS B EAV=302.0 79
150SM L 2602.0 10
150SM G 532.3 8 0.04 2 & ?
150SM G 889.2 5 0.21 4 C
150SM G 1097.1 10 0.05 2
150SM B 0.20 3 8.11 8
150SMS B EAV=281.9 78
150SM L 2679.5 6
150SM G 1485.6 8 0.07 2
150SM G 1906.3 6 0.11 2
150SM G 2679.5 6 0.07 3 & ?
150SM B 0.11 3 8.23 13
150SMS B EAV=252.1 77
150SM L 2812.9 3 (1-,2)
150SM G 1128.6 8 0.10 2 &
150SM G 1154.64 16 1.00 7
150SM G 1647.20 25 0.37 6
150SM G 1766.7 3 0.28 5 &
150SM G 2478.6 2 0.55 6 C
150SM B 1.42 10 6.83 6
150SMS B EAV=202.1 74
150SM L 2893.1 5 (1-,2+)
150SM G 633.5 6 0.10 2
150SM G 1179.6 6 0.15 3
150SM G 1726.9 6 0.28 5 C
150SM G 1821.9 8 0.05 3
150SM G 2893.1 5 0.31 5
150SM B 0.61 6 7.00 7
150SMS B EAV=173.1 72
150SM L 3012.8 10
150SM G 1507.1 6 0.1 AP ?
150SM G 1848.0 10 0.005 AP ?
150SM G 1940.6 3 0.10 2
150SM G 2679.5 6 0.07 3 &C
150SM B 0.19 3 7.15 10
150SMS B EAV=131.4 69
150SM L 3022.7 15 1,2+
150SM G 761.3 8 0.16 3
150SM G 1364.1 8 0.03 1 ?
150SM G 2691.0 8 0.010 5 ?
150SM G 3022.7 20 0.04 1
150SM B 0.163 24 7.19 10
150SMS B EAV=128.1 68
150SM L 3038.2 7 1,2+
150SM G 225.0 8 0.01 AP ?
150SM G 358.8 8 0.05 2
150SM G 2704.6 7 0.06 3
150SM G 3037.8 10 0.02 1
150SM B 0.10 3 7.35 15
150SMS B EAV=122.8 68
150SM L 3050.1 8 1,2+
150SM G 237.4 6 0.06 1
150SM G 499.4 10 0.02 AP
150SM G 542.9 8 0.06 2
150SM G 2003.4 10 0.04 2
150SM G 2716.1 8 0.010 5
150SM G 3049.7 10 0.02 1
150SM B 0.143 22 7.15 10
150SMS B EAV=118.9 67
150SM L 3080.5 15 1,2+
150SM G 572.8 8 0.02 AP ?
150SM G 1915.9 6 0.11 2 ?
150SM G 3079.8 10 0.02 1
150SM B 0.102 16 7.18 11
150SMS B EAV=108.8 67
150SM L 3090.0 15 1,2+
150SM G 276.5 5 0.14 5
150SM G 1128.6 8 0.10 2 & ?
150SM G 1670.7 5 0.13 2
150SM G 1833.3 10 0.04 3
150SM G 3090.5 10 0.01 AP
150SM B 0.29 4 6.69 10
150SMS B EAV=105.7 66
150SM L 3137.8 8 1,2+
150SM G 1350.7 5 0.13 2 &
150SM G 2804.2 5 0.07 3
150SM G 3137.3 10 0.003 AP
150SM B 0.14 3 6.81 13
150SMS B EAV=90.3 64
150SM L 3212.5 10 1,2,3
150SM G 532.3 8 0.04 2 &
150SM G 1499.6 6 0.11 2
150SM G 2017.8 8 0.06 2
150SM G 2878.7 8 0.04 2
150SM B 0.17 3 6.35 15
150SMS B EAV=67.0 62