140CE 140PR EC DECAY 1982AD02 18NDS 201812
140CE H TYP=FUL$AUT=N. NICA$CIT=NDS 154, 1 (2018)$CUT=20-Nov-2018$
140CE c Measured: |g (1982Ad02,1970Ja10,1970Ka18,1968Ab17),
140CE2c ce (1982Ad02,1984Ju01,1969Hi03,1968Ab17), |g|g, |g|g(|q) (1964Hi03),
140CE3c |b{++} (1968Ab17); |g{+|+} (1989Fo03)
140CE cE ce(K)(1903|g)/|b{++}=0.00152 {I3},
140CE2cE ce(K+L+M)(1597|g)/|b{++}=9.9|*10{+-6} {I12} (1968Ab17);
140CE3cE |b{++}/I(1597|g)=102.5 {I75} (1982Ad02). Others: 102.5 {I100}
140CExcE (1970Ja10), 105.5 {I30} (1968Ab17), 160 {I25} (1969Hi03)
140CE cE |eK(exp)/|b{++}=0.729 {I30} (1977Ca12). Others: 0.74 {I3}
140CE2cE (1970Bi02), 0.90 {I8} (1972Ev01), 0.897 (1960Br29)
140CE cG E From 1982Ad02
140CE cG RI E|g(I|g): 109.0 (|?7), 174 (|<0.5) from 1968Ab17,
140CE2cG 618.2 (|<0.14), 867.8 (|<0.2), 936 (|<0.2), 950.7 (|<0.2),
140CE3cG 1630.5 (|<0.08), 2533 (|<0.03) were not observed in 1982Ad02
140CE cG TI I(ce) were normalized to I|g(1596|g)=100 (1982Ad02)
140CE cG M |a(K)exp were normalized to |a(K)(1597|g)=0.000696 for E2
140CE cG M From adopted |g's
140CE DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
140CE cG MR$If no value given it was assumed |d=1.00 for E2/M1,
140CE2cG |d=1.00 for E3/M2 and |d=0.10 for the other multipolarities
140CE cL E$From fit of |g's to levels
140CE cL J$Same as in Adopted Levels
140PR P 0.0 1+ 3.39 M 1 3388 6
140PR cP E,J,T$from {+140}Pr Adopted Levels
140PR cP QP$from 2017Wa10
140CE N 0.0049 40.0049 41.0 1.0
140CE cN NR |SI(|g+ce)(g.s.)+I(|e+|b{++})(g.s.)=100% with
140CExcN I(|g{+|+})/I(1596|g)=205 {I15}
140CE PN 5
140CE L 0.0 0+ STABLE
140CE E 3388 6 51.0 3 48.4 3 4.419 4 99.39 6
140CES E EAV=1067.1 28$CK=0.4136 17$CL=0.05727 23$CM+=0.01613 7
140CE L 1596.15 182+
140CE E 0.0067 8 0.26 3 6.12 5 0.27 3
140CES E EAV=352.7 27$CK=0.8257 6$CL=0.1164 1$CM+=0.03288 3
140CE G 1596.1 2 100 E2 8.98E-4
140CES G KC=0.000676 10$LC=8.63E-5 12$MC=1.79E-5 3
140CES G NC=3.97E-6 6$OC=6.45E-7 9$PC=4.92E-8 7$IPC=0.0001128 16
140CE cG M K/L=4.9 {I16} and |g|g(|q) (1964Hi03)
140CE L 1903.1 50+
140CE E 0.0009616 0.26 4 5.96 7 0.26 4
140CES E EAV=218.3 27$CK=0.8427 2$CL=0.11978 5$CM+=0.03386 2
140CE G 306.9 5 30 3E2 0.0454
140CES G KC=0.0365 6$LC=0.00697 11$MC=0.001498 23
140CES G NC=0.000327 5$OC=4.98E-5 8$PC=2.42E-6 4
140CE cG M |a(K)exp=0.024 {I6}; K/L=5.5 {I13}, |g|g(|q) (1964Hi03)
140CE G 1903.5 E0 21 4
140CE cG M |a(K)exp>172 (I|g|<0.1, ce(K)=17.2 {I4}) (1982Ad02),
140CE2cG K/L=5.55 {I15} (1968Ab17). Others: K/L=7.40 {I34}, M/L=0.24 {I3}
140CE3cG (1962Ba57), K/L=6.20 {I14} (1964Hi03); ce(K)(1903|g)/|b{++}=0.00152
140CExcG {I3} (1968Ab17)
140CE L 2347.9 42+
140CE E 0.039 5 6.47 6
140CES E CK=0.8430$CL=0.12230 4$CM+=0.03468 2
140CE G 751.8 5 6.4 6M1+E2 0.0048 10
140CES G KC=0.0041 9$LC=0.00055 9$MC=0.000114 18
140CES G NC=2.5E-5 4$OC=4.1E-6 7$PC=3.0E-7 7
140CE cG M |a(K)exp=0.0063 {I9};
140CE G 2347.8 5 1.45 15E2 8.45E-4
140CES G KC=0.000333 5$LC=4.15E-5 6$MC=8.60E-6 12
140CES G NC=1.91E-6 3$OC=3.11E-7 5$PC=2.42E-8 4$IPC=0.000460 7
140CE cG M |a(K)exp=0.00051 {I13}
140CE L 2521.4 42+
140CE E 0.038 5 6.31 6
140CES E CK=0.8411$CL=0.12371 6$CM+=0.03515 2
140CE G 925.3 5 5.2 5E2+M1 0.0029 6
140CES G KC=0.0025 5$LC=0.00033 6$MC=6.9E-5 12
140CES G NC=1.5E-5 3$OC=2.5E-6 5$PC=1.9E-7 4
140CE cG M |a(K)exp=0.0044 {I6}
140CE G 2521.4 5 2.6 3E2 8.81E-4
140CES G KC=0.000293 5$LC=3.65E-5 6$MC=7.55E-6 11
140CES G NC=1.676E-6 24$OC=2.73E-7 4$PC=2.13E-8 3$IPC=0.000542 8
140CE cG M |a(K)exp=0.0004 {I1}
140CE L 2547.14 181+
140CE E 0.00014 7 8.72 22
140CES E CK=0.84079 9$CL=0.12397 7$CM+=0.03524 3
140CE G 950.987 260.24 14M1(+E2) +0.01 7 0.00327 S
140CES G KC=0.00282 4$LC=0.000361 5$MC=7.52E-5 11
140CES G NC=1.669E-5 24$OC=2.72E-6 4$PC=2.12E-7 3
140CE cG $|g from Adopted Levels, Gammas
140CE cG RI$from I|g(2547.5|g) and relative branching ratio
140CE2cG from Adopted Levels, Gammas
140CE G 2547.5 7 0.047 23M1 9.62E-4
140CES G KC=0.000318 5$LC=3.97E-5 6$MC=8.24E-6 12
140CES G NC=1.83E-6 3$OC=2.99E-7 5$PC=2.36E-8 4$IPC=0.000593 9
140CE L 2899.7 42+
140CE E 0.0003212 7.86 17
140CES E CK=0.8319 3$CL=0.13064 21$CM+=0.03746 7
140CE G 1303.5 40.025 13 S
140CE cG $|g from Adopted Levels, Gammas
140CE cG RI$from I|g(2899.61|g) and relative branching ratio
140CE2cG from Adopted Levels, Gammas
140CE G 2900 1 0.04 2E2 9.79E-4
140CES G KC=0.000230 4$LC=2.84E-5 4$MC=5.88E-6 9
140CES G NC=1.305E-6 19$OC=2.13E-7 3$PC=1.668E-8 24$IPC=0.000714 10
140CE L 3016.8 50+
140CE E 0.0064 12 6.30 9
140CES E CK=0.8247 6$CL=0.1360 4$CM+=0.03927 13
140CE G 1420.7 5 1.3 2E2 1.03E-3
140CES G KC=0.000846 12$LC=0.0001089 16$MC=2.27E-5 4
140CES G NC=5.02E-6 7$OC=8.13E-7 12$PC=6.15E-8 9$IPC=5.17E-5 8
140CE cG M |a(K)exp|<0.00053
140CE G 3016.3 12 E0 0.00029 42
140CE cG TI pairing conversion is neglected
140CE cG M |a(K)exp|>0.03
140CE cG ce(K)=0.35 {I15} (if ce(K)(1597|g)=100)
140CE L 3119.0152+
140CE E 0.0008312 6.87 7
140CES E CK=0.8122 12$CL=0.1454 9$CM+=0.0424 3
140CE G 3119.0 150.17 2(E2) 1.04E-3
140CES G KC=0.000203 3$LC=2.50E-5 4$MC=5.17E-6 8
140CES G NC=1.149E-6 17$OC=1.87E-7 3$PC=1.471E-8 21$IPC=0.000808 12
140CE L 3320.0202+
140CE E 5E-5 4 6.4 4
140CES E CK=0.53 8$CL=0.36 6$CM+=0.117 21
140CE G 3320 2 0.011 8(E2) 1.10E-3
140CES G KC=0.000182 3$LC=2.24E-5 4$MC=4.64E-6 7
140CES G NC=1.030E-6 15$OC=1.680E-7 24$PC=1.322E-8 19$IPC=0.000892 13