152GD 152TB EC DECAY (4.2 M) 1980ZO02 13NDS 201311
152GD H TYP=FUL$AUT=M. J. MARTIN$CIT=NDS 114, 1497 (2013)$CUT=31-Aug-2013$
152GD c J|p({+152}Tb (4.2 min))=8+
152GD cE TI Deduced from level scheme with |SI(|g+ce)(g.s.)=100%. There
152GD2cE are some intensity imbalances at some low-spin levels, indicating
152GD3cE perhaps, that there are some missing low energy gammas in this decay
152GDxcE scheme.
152GD cG E,RI$From 1980Zo02, unless otherwise noted. The I|g are normalized to
152GD2cG I|g=1000 for the 283|g in Tb IT decay
152GD cG E(B),RI(B)$The authors report E|g=440.3~{I2} doubly placed from the
152GD2cG 1668 and 2302 levels with I|g=6.7~{I25} and 5.8~{I29} from these two
152GD3cG levels, respectively, determined by |g|g. The evaluator gives E|g
152GD4cG values deduced from the decay scheme
152GD cG M,MR$From Adopted Gammas. |a(K)exp values determined in this work are
152GD2cG given in comments. Except where noted otherwise, the values are from
152GD3cG 1980Zo02 based on relative I|g and Ice(K) intensities and normalized to
152GD4cG |a(K)exp(344|g E2)=0.0310.
152GD cG E(E) Assignment to {+152}Tb |e decay is tentative.
152GD cL 1980Zo02, 1971Bo12: measured: |g, ce, |g|g
152GD cL 1974Zo01: measured ce
152GD cL The decay scheme is that proposed by 1971Bo12 with additions
152GD2cL by 1980Zo02
152GD cL E From 1980Zo02
152GD cL J From adopted levels
152TB P 501.74 19 8+ 4.2 M 1 3990 40
152GD N 0.282 0.211 6 4.739
152GD PN 3
152GD cN NR$From |SI(|g+ce)(g.s.)=100%
152GD G 1041.0 42.3 4
152GD L 0.0 0+
152GD L 344.27 7 2+
152GD G 344.26 7 336 17E2 0.0397
152GDS G KC=0.0310 5$LC=0.00678 10$MC=0.001527 22$NC+=0.000398 6
152GDS G NC=0.000346 5$OC=4.97E-5 7$PC=1.99E-6 3
152GD cG E from 1971Bo12
152GD L 615.27 23 0+
152GD G 271.0 3 1.3 8 E2 0.0827
152GDS G KC=0.0621 9$LC=0.01603 24$MC=0.00365 6$NC+=0.000944 14
152GDS G NC=0.000824 12$OC=0.0001160 17$PC=3.81E-6 6
152GD L 755.38 11 4+
152GD G 411.1 1 304 15E2 0.0238
152GDS G KC=0.0190 3$LC=0.00374 6$MC=0.000837 12$NC+=0.000219 3
152GDS G NC=0.000190 3$OC=2.77E-5 4$PC=1.246E-6 18
152GD cG M$|a(K)exp=0.0204~{I15}
152GD L 930.47 14 2+
152GD G 315.2 3 2.3 5 (E2) 0.0518
152GDS G KC=0.0399 6$LC=0.00924 14$MC=0.00209 3$NC+=0.000543 8
152GDS G NC=0.000473 7$OC=6.74E-5 10$PC=2.52E-6 4
152GD G 586.2 2 23.0 19E2+M1+E0 0.0242 11
152GD cG M$|a(K)exp=0.023~{I3}
152GD cG CC from adopted gammas
152GD G 930.4 3 4.6 4 (E2)
152GDS G CC=0.00321 5$KC=0.00270 4$LC=0.000397 6$MC=8.64E-5 13$NC+=2.30E-5 4
152GDS G NC=1.98E-5 3$OC=3.02E-6 5$PC=1.87E-7 3
152GD L 1109.0 3 2+ ?
152GD G 764.6 4 0.2 2 E
152GD G 1109.3 4 0.5 4 E2 E
152GDS G CC=0.00222 4$KC=0.00188 3$LC=0.000267 4$MC=5.80E-5 9$NC+=1.589E-5 23
152GDS G NC=1.329E-5 19$OC=2.04E-6 3$PC=1.304E-7 19$IPC=4.23E-7 9
152GD L 1123.2 3 3-
152GD G 778.9 3 1.2 8 E1
152GDS G CC=0.00184 3$KC=0.001576 22$LC=0.000208 3$MC=4.47E-5 7$NC+=1.195E-5 17
152GDS G NC=1.026E-5 15$OC=1.585E-6 23$PC=1.054E-7 15
152GD L 1227.28 14 6+
152GD G 471.9 1 198 10E2 0.01627
152GDS G KC=0.01317 19$LC=0.00242 4$MC=0.000539 8$NC+=0.0001416 20
152GDS G NC=0.0001227 18$OC=1.81E-5 3$PC=8.78E-7 13
152GD cG M$|a(K)exp=0.0145~{I12} gives mult=E2(+M1) with |d>1.9
152GD L 1282.17 14 4+
152GD G 351.7 1 30.5 20E2 0.0373
152GDS G KC=0.0292 4$LC=0.00630 9$MC=0.001418 20$NC+=0.000369 6
152GDS G NC=0.000321 5$OC=4.63E-5 7$PC=1.88E-6 3
152GD cG M$|a(K)exp=0.031~{I4}
152GD cG MR$|d>1.8 from |a(K)exp
152GD G 526.8 2 27.5 20M1+E2+E0 0.094 8
152GD cG M$|a(K)exp=0.076~{I9}
152GD cG CC from adopted gammas
152GD L 1433.95 16 3+
152GD G 678.6 3 3.2 4 E2+M1 +4.1 +17-11
152GDS G CC=0.00680 25$KC=0.00566 22$LC=0.00089 3$MC=0.000196 6$NC+=5.19E-5 15
152GDS G NC=4.47E-5 13$OC=6.76E-6 21$PC=3.90E-7 17
152GD G 1089.7 2 11.3 8 E2+M1 +22 +13-6
152GDS G CC=0.00231 4$KC=0.00195 3$LC=0.000278 4$MC=6.04E-5 9$NC+=1.611E-5 23
152GDS G NC=1.385E-5 20$OC=2.13E-6 3$PC=1.354E-7 20
152GD L 1470.47 20 5-
152GD G 715.0 2 9.8 7 [E1]
152GDS G CC=0.00219 3$KC=0.00187 3$LC=0.000248 4$MC=5.34E-5 8$NC+=1.425E-5 20
152GDS G NC=1.224E-5 18$OC=1.89E-6 3$PC=1.249E-7 18
152GD cG M D from adopted gammas
152GD L 1549.98 21 4+
152GD G 441.2 5 3 2 [E2] 0.0195
152GDS G KC=0.01571 23$LC=0.00299 5$MC=0.000666 10$NC+=0.000175 3
152GDS G NC=0.0001515 22$OC=2.22E-5 4$PC=1.040E-6 15
152GD cG E$Assignment considered tentative by the authors, but it is confirmed
152GD2cG in 17.5-h Tb |e decay, with I|g/I|g(794|g)=0.261~{I10}, and thus an
152GD3cG expected I|g of 0.81~{I13}. In 13-y Eu |b{+-} decay, this ratio is
152GD4cG 0.50~{I7} which leads to an expected I|g of 1.6~{I4}
152GD G 794.3 3 3.1 5 D(+Q) -0.4 +7-12
152GDS G CC=0.0075 20$KC=0.0064 18$LC=0.00088 21$MC=0.00019 5$NC+=5.1E-5 12
152GDS G NC=4.4E-5 10$OC=6.8E-6 17$PC=4.6E-7 14
152GD G 1205.9 5 1.0 4
152GD L 1668.06 15 6+
152GD G 197.4 3 4.9 4 [E1] 0.0470
152GDS G KC=0.0398 6$LC=0.00565 9$MC=0.001220 18$NC+=0.000322 5
152GDS G NC=0.000278 4$OC=4.18E-5 6$PC=2.43E-6 4
152GD G 385.9 1 55 3 E2 0.0285
152GDS G KC=0.0226 4$LC=0.00461 7$MC=0.001033 15$NC+=0.000270 4
152GDS G NC=0.000234 4$OC=3.40E-5 5$PC=1.468E-6 21
152GD cG M$|a(K)exp=0.031~{I12}
152GD G 440.8 6.7 25(M1+E2) 0.027 8
152GD2 G FLAG=B$
152GDS G KC=0.023 7$LC=0.0036 6$MC=0.00078 12$NC+=0.00021 4
152GDS G NC=0.00018 3$OC=2.7E-5 5$PC=1.6E-6 6
152GD L 1746.69 16 8+
152GD E 0.2 LT 0.7 LT 6.4 GT 0.9 LT
152GDS E EAV=778 18$CK=0.679 10$CL=0.1009 15$CM+=0.0292 5
152GD G 519.4 1 79 6 E2 0.01263
152GDS G KC=0.01030 15$LC=0.00182 3$MC=0.000403 6$NC+=0.0001061 15
152GDS G NC=9.18E-5 13$OC=1.360E-5 19$PC=6.93E-7 10
152GD cG M$|a(K)exp=0.0114~{I18} gives mult=E2(+M1) with |d>2.3
152GD L 1807.6 5
152GD G 1052.2 4 1.2 6
152GD L 1861.51 14 5+
152GD G 311.4 4 1.3 5 [M1,E2] 0.070 17 E
152GDS G KC=0.057 16$LC=0.0100 4$MC=0.00221 5$NC+=0.000585 20
152GDS G NC=0.000505 14$OC=7.5E-5 5$PC=4.0E-6 14
152GD G 427.6 2 15.6 9 E2 0.0213
152GDS G KC=0.01708 24$LC=0.00330 5$MC=0.000736 11$NC+=0.000193 3
152GDS G NC=0.0001674 24$OC=2.45E-5 4$PC=1.126E-6 16
152GD cG M$|a(K)exp=0.017~{I8} gives mult=E2(+M1) with |d>0.9
152GD G 579.2 3 3.7 3 [M1,E2] 0.014 4
152GDS G KC=0.011 4$LC=0.0017 4$MC=0.00037 8$NC+=9.8E-5 21
152GDS G NC=8.4E-5 18$OC=1.3E-5 3$PC=8.E-7 3
152GD G 634.2 2 15.8 12[M1,E2] 0.011 4
152GDS G KC=0.009 3$LC=0.0013 3$MC=0.00029 7$NC+=7.7E-5 18
152GDS G NC=6.7E-5 15$OC=1.02E-5 25$PC=6.5E-7 22
152GD G 1106.2 2 47 3 E2
152GDS G CC=0.00223 4$KC=0.00189 3$LC=0.000269 4$MC=5.83E-5 9$NC+=1.594E-5 23
152GDS G NC=1.338E-5 19$OC=2.06E-6 3$PC=1.311E-7 19$IPC=3.76E-7 6
152GD cG M$|a(K)exp=0.0019~{I9} gives mult=E2(+M1) with |d>0.5
152GD L 1880.2 4 7-
152GD E 0.052 7 0.29 3 6.71 6 0.34 4
152GDS E EAV=656 7 $CK=0.739 3 $CL=0.1102 5 $CM+=0.03191 14
152GD G 652.9 3 5.7 4 E1
152GDS G CC=0.00264 4$KC=0.00226 4$LC=0.000301 5$MC=6.47E-5 9$NC+=1.726E-5 25
152GDS G NC=1.483E-5 21$OC=2.29E-6 4$PC=1.502E-7 21
152GD L 1997.79 20 6+
152GD G 447.7 4 1.6 4 [E2] 0.0188
152GDS G KC=0.01511 22$LC=0.00285 4$MC=0.000636 9$NC+=0.0001668 24
152GDS G NC=0.0001446 21$OC=2.12E-5 3$PC=1.002E-6 15
152GD G 770.4 3 2.6 4
152GD G 1242.6 4 1.7 3
152GD L 2138.7 3 8+
152GD E 0.03 LT 0.3 LT 6.6 GT 0.3 LT
152GDS E EAV=604 18$CK=0.761 8$CL=0.1136 12$CM+=0.0329 4
152GD G 470.7 5 8 3 E2 0.01638
152GDS G KC=0.01326 19$LC=0.00244 4$MC=0.000543 8$NC+=0.0001428 21
152GDS G NC=0.0001237 18$OC=1.82E-5 3$PC=8.84E-7 13
152GD L 2173.33 21 6-
152GD E 0.002 LT 0.09 LT 8.4 GT 0.09 LT 1U
152GDS E EAV=604 18$CK=0.8129 22$CL=0.1265 6$CM+=0.03688 16
152GD G 946.0 2 8.0 6
152GD L 2301.72 19 7+
152GD E 0.008 LT 0.2 LT 6.7 GT 0.2 LT
152GDS E EAV=532 18$CK=0.786 6$CL=0.1178 10$CM+=0.0341 3
152GD G 303.7 4 1.0 5 [M1,E2] 0.075 18 E
152GDS G KC=0.061 17$LC=0.0108 3$MC=0.00240 4$NC+=0.000632 15
152GDS G NC=0.000547 10$OC=8.1E-5 5$PC=4.3E-6 15
152GD G 440.2 6 3 [E2] 0.0197
152GD2 G FLAG=B$
152GDS G KC=0.01580 23$LC=0.00301 5$MC=0.000671 10$NC+=0.0001760 25
152GDS G NC=0.0001526 22$OC=2.24E-5 4$PC=1.046E-6 15
152GD G 1074.5 2 11.1 8
152GD L 2394.11 14 7+
152GD E 0.84 12 17.0 12 4.75 5 17.8 13
152GDS E EAV=491 18$CK=0.798 5$CL=0.1197 9$CM+=0.03472 25
152GD G 92.4 2 4.9 5 [M1,E2] 2.9 5
152GDS G KC=1.8 4$LC=0.9 6$MC=0.21 15$NC+=0.05 4
152GDS G NC=0.05 4$OC=0.006 4$PC=0.00011 5
152GD G 220.7 3 7.3 6 [E1] 0.0350
152GDS G KC=0.0297 5$LC=0.00418 6$MC=0.000904 13$NC+=0.000239 4
152GDS G NC=0.000206 3$OC=3.11E-5 5$PC=1.84E-6 3
152GD G 255.4 3 6.1 5 M1,E2 0.123 24
152GDS G KC=0.10 3$LC=0.0189 13$MC=0.0042 4$NC+=0.00110 8
152GDS G NC=0.00096 8$OC=0.000141 5$PC=6.9E-6 24
152GD cG M$|a(K)exp=0.096~{I24}
152GD G 396.4 3 2.2 5 [M1,E2] 0.036 10
152GDS G KC=0.030 9$LC=0.0048 7$MC=0.00106 12$NC+=0.00028 4
152GDS G NC=0.00024 3$OC=3.7E-5 6$PC=2.1E-6 8
152GD G 532.6 1 72 4 E2 0.01184
152GDS G KC=0.00967 14$LC=0.001689 24$MC=0.000374 6$NC+=9.85E-5 14
152GDS G NC=8.52E-5 12$OC=1.265E-5 18$PC=6.52E-7 10
152GD cG M$|a(K)exp=0.0099~{I12} gives mult=E2(+M1) with |d>2.3
152GD G 647.4 2 72 5 M1 0.01321
152GDS G KC=0.01124 16$LC=0.001546 22$MC=0.000334 5$NC+=8.98E-5 13
152GDS G NC=7.70E-5 11$OC=1.199E-5 17$PC=8.18E-7 12
152GD cG M$|a(K)exp=0.0102~{I12} gives mult=M1(+E2) with |d<0.86
152GD G 726.0 2 53 3 M1
152GDS G CC=0.00995 14$KC=0.00847 12$LC=0.001161 17$MC=0.000251 4$NC+=6.74E-5 10
152GDS G NC=5.78E-5 8$OC=9.00E-6 13$PC=6.15E-7 9
152GD cG M$|a(K)exp=0.0077~{I7}
152GD G 1166.9 2 62 4 M1
152GDS G CC=0.00317 5$KC=0.00270 4$LC=0.000365 6$MC=7.87E-5 11$NC+=2.41E-5 4
152GDS G NC=1.81E-5 3$OC=2.83E-6 4$PC=1.95E-7 3$IPC=2.92E-6 5
152GD cG E from 1971Bo12
152GD cG M$|a(K)exp=0.0025~{I7}