141PR 141ND EC DECAY (2.49 H) 1973BU21 23NDS 202212
141PR H TYP=FUL$AUT=N. NICA$CIT=NDS 187,1 (2023)$CUT=12-Oct-2022$
141PR c Measured: |g, |g|g, ce, |b{++}
141PR2c (1973Bu21,1974HeYW,1969He10,1968Da14,1968Be28,1963Al11)
141PR c Except where noted otherwise, the presented data are from 1973Bu21
141PR cE I(K| x ray)=11120 {I430}, I(|g{+|+})=628 {I24}
141PR cE |e(K)/|b{++}=31.5 {I32} was derived from I(K| x
141PR2cE ray)/I(|g{+|+}) (1973Bu21); Others: 30.4 {I23} (1972Ev01), 28 {I1}
141PRxcE (1970Bi02), 22 {I8} (1968Be28), 32 {I3} (1966Gr05)
141PR cE E(|b{++}) to g.s.=802 {I3} (1976GaZI). Others: 794 {I8}
141PR2cE (1973Bu21), 790 {I20} (1963Bi19)
141PR cG |a(K)exp were normalized to |a(K)exp(145|g)=0.376 ({+141}Ce
141PRxcG |b{+-} decay)
141PR cG M$Adopted values
141PR cL E$From least-squares fit to E|g's
141PR cL J,T$Adopted values
141PR DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
141PR DG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
141PR2DG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
141ND P 0.0 3/2+ 2.49 H 3 1823.0 28
141ND cP QP$From 2021Wa16
141PR N 0.0080 3 1.0 1.0
141PR PN 4
141PR cN NR I(1127|g)=0.796% {I30} from I(K| x ray), I(|g{+|+}) and
141PR2cN |e/|b{++}(g.s.)=38.3 (theory)
141PR L 0.0 5/2+ STABLE
141PR E 1824 3 2.59 4 95.64 10 5.255 6 98.23 9
141PRS E EAV=367.0 13$CK=0.8232 3$CL=0.11720 5$CM+=0.03328 2
141PR cE E from 1976GaZI
141PR L 145.31 167/2+ 1.85 NS 3
141PR G 145.45 3030.0 30M1+E2 +0.069 7 0.449
141PR2 G %IG=0.240 26$
141PRS G KC=0.382 6$LC=0.0529 8$MC=0.01115 17
141PRS G NC=0.00249 4$OC=0.000401 7$PC=2.93E-5 5
141PR cG MR from {+141}Ce |b{+-} decay
141PR cG M |a(K)exp=0.376 ({+141}Ce |b{+-} decay) used for
141PRxcG normalization of |a(K)exp
141PR L 1126.96 173/2+ 188 FS GT
141PR E 0.82 3 6.456 18 0.82 3
141PRS E CK=0.8364$CL=0.12716 5$CM+=0.03645 2
141PR G 981.70 222.73 29(E2) 0.00221
141PR2 G %IG=0.0218 25$
141PRS G KC=0.00189 3$LC=0.000257 4$MC=5.41E-5 8
141PRS G NC=1.206E-5 17$OC=1.93E-6 3$PC=1.355E-7 19
141PR G 1126.91 20100 M1+E2 +0.47 6 0.002255
141PR2 G %IG=0.796 30$
141PRS G KC=0.00193 4$LC=0.000250 5$MC=5.23E-5 10
141PRS G NC=1.171E-5 22$OC=1.89E-6 4$PC=1.43E-7 3$IPC=9.30E-7 15
141PR cG M |a(K)exp=0.00167 {I33}
141PR L 1292.63 17(5/2)+ 0.33 PS +10-7
141PR E 0.77 6 6.23 4 0.77 6
141PRS E CK=0.8315 2$CL=0.13082 9$CM+=0.03768 3
141PR G 1147.30 2038.4 15E2 1.60E-3
141PR2 G %IG=0.307 17$
141PRS G KC=0.001365 20$LC=0.000182 3$MC=3.82E-5 6
141PRS G NC=8.52E-6 12$OC=1.365E-6 20$PC=9.82E-8 14$IPC=1.73E-6 3
141PR cG M |a(K)exp=0.00114 {I24}
141PR G 1292.64 2057.5 52E2+M1 0.0015125
141PR2 G %IG=0.46 5$
141PRS G KC=0.00128 21$LC=0.00017 3$MC=3.5E-5 6
141PRS G NC=7.8E-6 12$OC=1.26E-6 20$PC=9.4E-8 17$IPC=1.99E-5 4
141PR cG M |a(K)exp=0.00086 {I19}
141PR L 1298.61 211/2+ 0.34 PS +22-10
141PR E 0.127 15 7.00 6 0.127 15
141PRS E CK=0.8313 2$CL=0.13100 9$CM+=0.03774 3
141PR G 1298.60 2115.9 17E2 1.26E-3
141PR2 G %IG=0.127 14$
141PRS G KC=0.001064 15$LC=0.0001397 20$MC=2.93E-5 5
141PRS G NC=6.54E-6 10$OC=1.050E-6 15$PC=7.66E-8 11$IPC=2.08E-5 3
141PR cG M |a(K)exp=0.00081 {I24}
141PR L 1434.8 33/2+ 0.23 PS +8-5
141PR E 0.0154 17 7.64 5 0.0154 17
141PRS E CK=0.8235 3$CL=0.13681 17$CM+=0.03970 6
141PR G 1289.58 301.23 19(E2) 1.28E-3
141PR2 G %IG=0.0098 16$
141PRS G KC=0.001079 16$LC=0.0001418 20$MC=2.97E-5 5
141PRS G NC=6.64E-6 10$OC=1.066E-6 15$PC=7.77E-8 11$IPC=1.92E-5 3
141PR G 1434.6 5 0.7 AP(E2+M1) 0.0012518
141PR2 G %IG AP 0.00560 $
141PRS G KC=0.00103 16$LC=0.000132 19$MC=2.8E-5 4
141PRS G NC=6.2E-6 9$OC=1.00E-6 15$PC=7.5E-8 13$IPC=5.64E-5 12
141PR L 1452 (7/2)+ 0.31 PS +11-7 ?
141PR G 1306 1 0.04 LEM1+E2 0.0014824 ?
141PR2 G %IG=0.000320 12$
141PRS G KC=0.00126 21$LC=0.000163 25$MC=3.4E-5 6
141PRS G NC=7.6E-6 12$OC=1.23E-6 19$PC=9.2E-8 17$IPC=2.24E-5 5
141PR L 1456.1 5 9/2+ 0.26 PS +7-5
141PR E 0.0012025 8.69 9 0.00120 25
141PRS E CK=0.8217 3$CL=0.13817 20$CM+=0.04016 7
141PR G 1310.6 100.05 APM1+E2 0.0014724
141PR2 G %IG AP 0.000400$
141PRS G KC=0.00125 21$LC=0.000161 25$MC=3.4E-5 5
141PRS G NC=7.6E-6 12$OC=1.22E-6 19$PC=9.1E-8 16$IPC=2.34E-5 5
141PR G 1456.12 540.10 3(E2) 1.05E-3
141PR2 G %IG=0.00080 24$
141PRS G KC=0.000851 12$LC=0.0001105 16$MC=2.31E-5 4
141PRS G NC=5.17E-6 8$OC=8.31E-7 12$PC=6.13E-8 9$IPC=6.23E-5 9
141PR L 1580.18 225/2- 0.22 PS +6-4
141PR E 0.007 3 7.52 19 0.007 3
141PRS E CK=0.8033 7$CL=0.1519 6$CM+=0.04482 18
141PR G 1435.1 22.1 3E1 6.31E-4
141PR2 G %IG=0.0008 24$
141PRS G KC=0.000402 6$LC=4.99E-5 8$MC=1.039E-5 15
141PRS G NC=2.32E-6 4$OC=3.75E-7 6$PC=2.84E-8 4$IPC=0.000166 3
141PR G 1580.17 220.76 11(E1) 6.69E-4
141PR2 G %IG=0.0061 9$
141PRS G KC=0.000342 5$LC=4.23E-5 6$MC=8.81E-6 13
141PRS G NC=1.97E-6 3$OC=3.18E-7 5$PC=2.41E-8 4$IPC=0.000274 4
141PR L 1608.36 19 (3/2)+ 11.8 FS 7
141PR E 0.0184 25 6.97 6 0.0184 25
141PRS E CK=0.7954 10$CL=0.1578 7$CM+=0.04684 24
141PR G 1608.35 192.3 3(E2+M1) 0.0010613
141PR2 G %IG=0.0184 25$
141PRS G KC=0.00081 11$LC=0.000104 13$MC=2.2E-5 3
141PRS G NC=4.8E-6 7$OC=7.8E-7 11$PC=5.9E-8 9$IPC=0.000120 4
141PR L 1657.1 41/2+ 0.67 PS GT
141PR E 0.0009525 7.98 12 0.00095 25
141PRS E CK=0.7730 19$CL=0.1744 14$CM+=0.0526 5
141PR G 1657.04 400.12 3(E2) 9.10E-4
141PR2 G %IG=0.00096 24$
141PRS G KC=0.000666 10$LC=8.55E-5 12$MC=1.79E-5 3
141PRS G NC=3.99E-6 6$OC=6.44E-7 9$PC=4.80E-8 7$IPC=0.0001367 20