141PM 141SM EC DECAY (22.6 M) 1972EP01 23NDS 202212
141PM H TYP=FUL$AUT=N. NICA$CIT=NDS 187,1 (2023)$CUT=12-Oct-2022$
141PM c Measured: |g, |g|g, |g(t), |g{+|+}|g{+|+}|g coin (1972Ep01,1977Ke03),
141PMXc ce, |b|g (1977Ke03)
141PM c Isomeric transition was observed by 1976Ke06 (0.31% {I3}); 1972Ep01
141PM2c report an upper limit |<0.2% for IT decay
141PM cE $|e+|b{++} feeding was determined from |g intensity balances and I|g
141PMXcE normalization assuming no |e+|b{++} feeding to g.s. of {+141}Pm
141PM cE 1977Ke03 measured E|b+=1600 {I70}, 1670 {I70}, 2090 {I210},
141PM2cE F-K analysis; other measurements: 1969He10, 1970ArZQ, 1970Ar17
141PM cG |a(K)exp were normalized to |a(K)(196.6)=0.200 (M1)
141PM cG M |a(K)exp from 1977Ke03
141PM cL E$From least-squares fit to E|g data
141PM cL J,T$Adopted values
141PM cG M$Adopted values
141PM DG CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
141SM P 175.9 311/2- 22.6 M 2 4589 16
141SM cP QP$From 2021Wa16
141PM N 0.41 4 0.9969 3 1.0031
141PM CN NR |SI(|g+ce)(g.s.)=99.69% {I3} assuming no |e or |b{++} to g.s.
141PM PN 3
141PM G 764.3 3 0.4 1
141PM2 G %IG=0.16 4
141PM G 768.2 5 0.4 1
141PM2 G %IG=0.16 4
141PM G 882.0 3 0.4 1
141PM2 G %IG=0.16 4
141PM G 974.1 5 0.5 1 ?
141PM2 G %IG=0.20 5
141PM G 1380.9 6 0.5 2
141PM2 G %IG=0.20 8
141PM G 1979.6 2 0.99 12
141PM2 G %IG=0.40 6
141PM L 0.0 5/2+ 20.90 M 5
141PM L 196.86 127/2+ 0.23 NS 3
141PM E 4 LT 1 LT 7.2 GT 5 LT
141PMS E EAV=1612.4 75$CK=0.2248 23$CL=0.0319 4$CM+=0.00913 9
141PM G 196.6 3 184 18(M1) 0.2322 34
141PMS G KC=0.1974 29$LC=0.0274 4$MC=0.00585 9
141PMS G NC=0.001318 19$OC=0.0001991 29$PC=1.264E-5 18
141PM2 G %IG=74.5 6
141PM CG M |a(K)exp=0.214 {I15} normalized to |a(K)=0.0914 for 661|g M4
141PM2CG in {+137}Cs; |d|?+0.1 from (432|g)(196|g)(|q) A{-2}=-0.056 {I40},
141PM3CG A{-4}=-0.040 {I56} (1970ArZQ)
141PM L 628.70 9 11/2- 0.63 US 2 M
141PM E 7.2 20 3.8 10 6.62 12 11 3
141PMS E EAV=1411.7 75$CK=0.294 3$CL=0.0417 5$CM+=0.01195 13
141PM G 431.8 1 100 5M2 0.0999 14
141PMS G KC=0.0832 12$LC=0.01311 18$MC=0.00284 4
141PMS G NC=0.000642 9$OC=9.63E-5 14$PC=5.90E-6 8
141PM2 G %IG=41 4
141PM CG M |a(K)exp=0.082 {I8}
141PM G 628.7 1 6.6 2 E3 0.0173324
141PMS G KC=0.01368 19$LC=0.00286 4$MC=0.000633 9
141PMS G NC=0.0001409 20$OC=2.003E-5 28$PC=8.52E-7 12
141PM2 G %IG=2.7 3
141PM L 804.72 22
141PM E 0.07 12 0.04 7 8.5 8 0.11 19
141PMS E EAV=1330.4 74$CK=0.328 4$CL=0.0466 5$CM+=0.01335 14
141PM G 607.9 2 2.5 3
141PM2 G %IG=1.01 15
141PM L 837.10 209/2+
141PM E 2.2 2 1.5 2 6.99 5 3.7 4
141PMS E EAV=1315.4 74$CK=0.335 4$CL=0.0476 5$CM+=0.01363 14
141PM G 837.1 2 8.9 3E2 0.00348 5
141PMS G KC=0.00294 4$LC=0.000423 6$MC=9.06E-5 13
141PMS G NC=2.033E-5 28$OC=3.02E-6 4$PC=1.757E-7 25
141PM2 G %IG=3.6 4
141PM L 974.06 1611/2+ 1.0 NS LT
141PM E 3.2 6 2.4 5 6.75 9 5.6 11
141PMS E EAV=1252.3 74$CK=0.364 4$CL=0.0518 6$CM+=0.01485 15
141PM G 777.4 3 50.3 20E2 0.00411 6
141PMS G KC=0.00347 5$LC=0.000508 7$MC=0.0001088 15
141PMS G NC=2.440E-5 34$OC=3.61E-6 5$PC=2.067E-7 29
141PM2 G %IG=20.4 20
141PM CG M |a(K)exp=0.0024 {I9} (1977Ke03), (777|g)(196|g)(|q):
141PM2CG A{-2}=-0.09 {I4}, A{-4}=-0.07 {I9} (1970ArZQ)
141PM L 1108.29 149/2+
141PM G 911.3 3 22.8 6E2 0.00288 4
141PMS G KC=0.002444 34$LC=0.000346 5$MC=7.39E-5 10
141PMS G NC=1.659E-5 23$OC=2.471E-6 35$PC=1.463E-7 21
141PM2 G %IG=9.2 9
141PM CG M |a(K)exp=0.0019 {I7}
141PM G 1108.4 2 3.1 3
141PM2 G %IG=1.26 17
141PM L 1166.95 13(9/2)-
141PM E 1.6 4 1.5 4 6.91 12 3.1 8
141PMS E EAV=1163.7 74$CK=0.410 4$CL=0.0584 6$CM+=0.01674 17
141PM G 538.5 3 20.9 14M1 0.0164823
141PMS G KC=0.01408 20$LC=0.001893 27$MC=0.000403 6
141PMS G NC=9.08E-5 13$OC=1.375E-5 19$PC=8.87E-7 12
141PM2 G %IG=8.5 10
141PM CG M |a(K)exp=0.0145 {I14}
141PM L 1313.18 1413/2-
141PM E 1.4 5 1.5 5 6.86 15 2.9 10
141PMS E EAV=1096.8 74$CK=0.448 5$CL=0.0638 7$CM+=0.01829 18
141PM G 684.6 2 19.6 15M1+E2 -0.87 8 0.0075620
141PMS G KC=0.00643 17$LC=0.000893 20$MC=0.000191 4
141PMS G NC=4.29E-5 10$OC=6.43E-6 15$PC=3.97E-7 11
141PM2 G %IG=7.9 10
141PM CG M$|a(K)exp=0.0049 {I13}; |d from (p,2n|g) (1980Pi03). Other:
141PM2CG |d=3.4 {I15} (from |a(K)exp)
141PM L 1414.69 12(9/2-)
141PM E 3.11E+3 21 2.5 4 3.1 5 6.52 7 5.6 8
141PMS E EAV=1050.5 73$CK=0.475 5$CL=0.0677 7$CM+=0.01942 19
141PM G 247.9 2 1.9 4 [M1,E2] 0.112 12
141PMS G KC=0.091 15$LC=0.0165 20$MC=0.0036 5
141PMS G NC=0.00080 10$OC=0.000115 9$PC=5.4E-6 14
141PM2 G %IG=0.77 18
141PM G 577.8 3 2.2 6 [E1] 0.00299 4 ?
141PMS G KC=0.00256 4$LC=0.000334 5$MC=7.08E-5 10
141PMS G NC=1.590E-5 22$OC=2.382E-6 33$PC=1.480E-7 21
141PM2 G %IG=0.9 3
141PM G 785.9 1 16.9 10(M1+E2) -0.19 8 0.0064112
141PMS G KC=0.00549 11$LC=0.000730 13$MC=0.0001550 27
141PMS G NC=3.50E-5 6$OC=5.30E-6 10$PC=3.43E-7 7
141PM2 G %IG=6.8 8
141PM CG M$|a(K)exp=0.0030 {I10}; |d from (p,2n|g) (1980Pi03). Other:
141PM2CG |d=0.0 {I5} (from |a(K)exp)
141PM CG M |a(K)exp=0.0030 {I10}, |d from (p,2n|g) (1980Pi03)
141PM L 1794.8 3
141PM DL E LEVEL ENERGY HELD FIXED IN LEAST-SQUARES ADJUSTMENT
141PM G 820.7 3 0.4 1 ?
141PM2 G %IG=0.16 4
141PM L 1834.1 4
141PM E 0.59 9 1.4 2 6.75 7 2.0 3
141PMS E EAV=860.4 73$CK=0.594 5$CL=0.0851 7$CM+=0.02440 20
141PM G 725.7 5 3.6 6
141PM2 G %IG=1.5 3
141PM G 995.8 5 0.9 2 ?
141PM2 G %IG=0.36 9
141PM G 1029.6 6 1.3 3
141PM2 G %IG=0.53 13
141PM L 1983.27 159/2-
141PM E 2690 70 3.6 4 11.2 11 5.81 5 14.8 15
141PMS E EAV=793.2 72$CK=0.637 5$CL=0.0913 7$CM+=0.02619 19
141PM G 149.1 3 0.7 2 ?
141PM2 G %IG=0.28 9
141PM G 875.0 1 3.1 1
141PM2 G %IG=1.26 12
141PM G 1009.1 4 7.2 6
141PM2 G %IG=2.9 4
141PM G 1786.4 4 27.1 11
141PM2 G %IG=11.0 11
141PM L 2063.47 15
141PM E 0.99 13 3.5 5 6.29 6 4.5 6
141PMS E EAV=757.2 72$CK=0.659 5$CL=0.0946 7$CM+=0.02713 19
141PM G 648.7 3 0.9 2
141PM2 G %IG=0.36 9
141PM G 750.3 3 3.9 6
141PM2 G %IG=1.6 3
141PM G 896.5 1 3.6 4
141PM2 G %IG=1.46 21
141PM G 955.4 5 1.7 1
141PM2 G %IG=0.69 8
141PM G 1434.9 4 0.9 3
141PM2 G %IG=0.36 13
141PM L 2091.66 1411/2-
141PM E 3.5 4 13.2 14 5.70 5 16.7 18
141PMS E EAV=744.6 72$CK=0.667 5$CL=0.0957 7$CM+=0.02745 19
141PM G 108.5 3 0.5 1 [M1,E2] 1.46 23
141PMS G KC=1.00 5$LC=0.36 21$MC=0.08 5
141PMS G NC=0.018 11$OC=0.0024 13$PC=5.4E-5 13
141PM2 G %IG=0.20 5
141PM G 676.8 3 3.4 5
141PM2 G %IG=1.38 24
141PM G 924.7 1 5.7 8
141PM2 G %IG=2.3 4
141PM G 983.3 3 18.0 8E1 1.01E-3 1
141PMS G KC=0.000873 12$LC=0.0001114 16$MC=2.352E-5 33
141PMS G NC=5.29E-6 7$OC=7.98E-7 11$PC=5.11E-8 7
141PM2 G %IG=7.3 7
141PM CG M |a(K)exp|<0.0008
141PM G 1117.6 2 8.0 6
141PM2 G %IG=3.2 4
141PM G 1463.4 6 4.5 8
141PM2 G %IG=1.8 4
141PM L 2119.05 12(9/2,11/2,13/2)-
141PM E 2620 70 4.6 5 18.5 20 5.55 5 23.1 25
141PMS E EAV=732.3 72$CK=0.674 5$CL=0.0968 7$CM+=0.02777 19
141PM G 704.2 3 1.1 2
141PM2 G %IG=0.45 9
141PM G 805.9 1 8.8 16
141PM2 G %IG=3.6 7
141PM G 952.1 2 2.2 1
141PM2 G %IG=0.89 9
141PM G 1145.1 2 21.6 8
141PM2 G %IG=8.7 9
141PM G 1490.3 1 22.9 15
141PM2 G %IG=9.3 10
141PM L 2702.43 22
141PM E 0.10 3 1.7 5 6.36 12 1.8 5
141PMS E EAV=473.5 71$CK=0.7973 23$CL=0.1154 4$CM+=0.03314 11
141PM G 583.4 3 0.7 2 ?
141PM2 G %IG=0.28 9
141PM G 1287.6 4 0.7 3 ?
141PM2 G %IG=0.28 13
141PM G 1898.0 100.94 15
141PM2 G %IG=0.38 7
141PM G 2073.7 2 3.5 12
141PM2 G %IG=1.4 5