136BA 136LA EC DECAY (9.87 M) 1969ME18 NDS18 201810
136BA H TYP=FUL$AUT=E.A. MCCUTCHAN$CIT=NDS 152, 331 (2018)$CUT=1-Apr-2018$
136BA c 1969Me18: {+136}La activity from {+136}Ba(p,n) reaction with E(p)=14
136BA2c MeV. Measured E|g, |g, |g(t) using Ge(Li) detector.
136BA c 1987PaZS: {+136}La activity from 9.2 MeV protons on BaCO{-3} targets.
136BA2c Measured E|g, I|g, Ece, Ice; deduced E0/E2 transition probabilities.
136BA c Others: 1968Ju02, 1959Gi50
136BA cL E$From a least-squares fit to E|g, by evaluator.
136BA cL $Levels at 2333 (1514|g,2333|g), 2285 (1466|g), and 2607 (1791|g)
136BA2cL suggested by 1969Me18 are not confirmed in any other experiment.
136BA3cL Evaluator has not included these level here and their corresponding
136BA4cL depopulating transitions are given as unplaced |g's.
136BA cL J$From the Adopted Levels
136BA cE $I|g(|g{+|+})=3090 {I430} if I|g(818|g)=100 (1968Ju02) compared to
136BA2cE 3090 {I180} from decay scheme
136BA cE IB,TI,IE(A)$See comment on I|g normalization
136BA cG E(C)$From 1987PaZS
136BA cG E(B)$Expected if placement of 1955|g is correct
136BA cG M,MR$From the Adopted Gammas.
136BA D CC$FROM BrIcc v2.3 (29-Mar-2013) 2008Ki07, "Frozen Orbitals" appr.
136LA P 0.0 1+ 9.87 M 3 2.85E+3 5
136BA N 0.0230 8 0.0230 8 1.0 1.0
136BA cN NR,NT$from I|g(818.5|g)/I|g(|g{+|+})=0.032 {I6} (1968Ju02), |SI|g(to
136BA2cN 818), |SI|g(1+|a)(to g.s.), and theoretical |e/|b{++} ratios
136BA PN 3
136BA G 541.5 1 0.20 8
136BA G 767 1 0.16 8 ?
136BA G 894 0.2 ?
136BA G 1466 1 0.12 5
136BA G 1514.5 2 0.10 4
136BA G 1791.4 3 0.29 8
136BA G 2286 2 0.02 1 ?
136BA G 2332.5 10 0.1 1
136BA L 0.0 0+
136BA E 35.2 2062.4 204.55 3 97.61 9
136BAF E FLAG=A
136BAS E EAV=822 23$CK=0.545 17$CL=0.0743 24$CM+=0.0207 7
136BA cE E$other: 2870 {I70} (1959Gi50).
136BA L 818.52 4 2+
136BA G 818.51 4 100 E2 0.00283
136BAS G KC=0.00242 4$LC=0.000327 5$MC=6.75E-5 10$NC=1.450E-5 21$OC=2.19E-6 3$
136BAS G PC=1.495E-7 21
136BA E 0.115 191.44 6 5.89 4 1.55 6
136BAF E FLAG=A
136BAS E EAV=456 22$CK=0.788 11$CL=0.1083 15$CM+=0.0302 5
136BA L 1551.14 9 2+
136BA G 732.6 1 0.48 6 M1+E2 -1.00 4 0.00443
136BAS G KC=0.00380 6$LC=0.000500 8$MC=0.0001029 16$NC=2.22E-5 4$OC=3.38E-6 6$
136BAS G PC=2.40E-7 4
136BA G 1551.2 2 0.48 6 E2 8.37E-4
136BAS G KC=0.000640 9$LC=8.03E-5 12$MC=1.644E-5 23$NC=3.55E-6 5$OC=5.43E-7 8$
136BAS G PC=3.98E-8 6
136BA E 0.019 3 7.37 8 0.019 3
136BAS E CK=0.8476 3$CL=0.1187 3$CM+=0.03319 8
136BA L 1579.02 5 0+
136BA G 760.50 4 12.55 25 E2 0.00337
136BAS G KC=0.00287 4$LC=0.000393 6$MC=8.11E-5 12$NC=1.742E-5 25$OC=2.63E-6 4$
136BAS G PC=1.769E-7 25
136BA G 1579.0 E0 0.00035 CA
136BAF G FLAG=C
136BAX G K/T=0.89$L/T=0.11
136BA cG $B(E0)/B(E2 to 2+, 818 level)=0.173 {I15} (1987PaZS); B(E2 to 2+,
136BA2cG 1551 level)/B(E2 to 2+, 818 level)|?0 (1987PaZS)
136BA E 0.290 106.17 4 0.290 10
136BAS E CK=0.8476 1$CL=0.11884 25$CM+=0.03323 8
136BA L 2080.63 8 2+
136BA G 1262.10 9 1.30 9 M1+E2 -1.00 5 1.31E-32
136BAS G KC=0.001114 18$LC=0.0001405 22$MC=2.88E-5 5$NC=6.21E-6 10$
136BAS G OC=9.53E-7 15$PC=7.03E-8 12
136BA G 2080.60 15 0.84 5 E2 7.61E-4
136BAS G KC=0.000370 6$LC=4.56E-5 7$MC=9.33E-6 13$NC=2.01E-6 3$OC=3.09E-7 5$
136BAS G PC=2.30E-8 4
136BA E 0.049 3 6.49 7 0.049 3
136BAS E CK=0.8433 9$CL=0.1223 7$CM+=0.03437 21
136BA L 2128.97 6 2+
136BA G 1310.41 7 4.31 17 M1(+E2) +0.005 9 1.37E-3
136BAS G KC=0.001166 17$LC=0.0001456 21$MC=2.98E-5 5$NC=6.44E-6 9$
136BAS G OC=9.92E-7 14$PC=7.44E-8 11
136BA G 2129.00 8 2.04 8 E2 7.67E-4
136BAS G KC=0.000355 5$LC=4.37E-5 7$MC=8.94E-6 13$NC=1.93E-6 3$OC=2.96E-7 5$
136BAS G PC=2.21E-8 3
136BA E 0.150 105.95 8 0.150 10
136BAS E CK=0.8425 10$CL=0.1229 8$CM+=0.03457 24
136BA L 2141.52 5 0+
136BA G 1322.99 4 11.50 35 E2 1.04E-3
136BAS G KC=0.000872 13$LC=0.0001109 16$MC=2.27E-5 4$NC=4.90E-6 7$
136BAS G OC=7.49E-7 11$PC=5.42E-8 8
136BA G 2141.5 [E0]
136BAF G FLAG=C
136BA cG $B(E0)/B(E2 to 2+, 818 level)=0.125 {I15} (1987PaZS); B(E2 to 2+,
136BA2cG 1551 level)/B(E2 to 2+, 818 level)|?0 (1987PaZS)
136BA E 0.260 205.69 8 0.260 20
136BAS E CK=0.8423 10$CL=0.1231 8$CM+=0.03462 25
136BA L 2315.44 10 0+
136BA G 1496.91 9 1.86 8 E2 8.71E-4
136BAS G KC=0.000685 10$LC=8.62E-5 12$MC=1.766E-5 25$NC=3.81E-6 6$OC=5.83E-7 9$
136BAS G PC=4.26E-8 6
136BA E 0.043 3 6.21 10 0.043 3 ?
136BAS E CK=0.8380 19$CL=0.1263 14$CM+=0.0357 5
136BA L 2485.60 13 2+
136BA G 906.8 2 0.05 LE [E2] 0.00490
136BA G 935 1 0.09 7
136BA G 1666.9 2 0.48 6 M1+E2 +0.24 4 9.30E-414
136BAS G KC=0.000680 10$LC=8.43E-5 13$MC=1.726E-5 25$NC=3.73E-6 6$OC=5.74E-7 9$
136BAS G PC=4.32E-8 7
136BA G 2485.4 3 0.14 2 E2 8.38E-4
136BAS G KC=0.000269 4$LC=3.29E-5 5$MC=6.73E-6 10$NC=1.452E-6 21$OC=2.23E-7 4$
136BAS G PC=1.674E-8 24
136BA E 0.018 3 6.23 16 0.018 3
136BAS E CK=0.829 5$CL=0.133 4$CM+=0.0379 12
136BA L 2532.1 7 3- ?
136BA G 981.3 0.005 LE E1+M2 +0.11 2 0.000863 ?
136BAS G KC=0.00074 3$LC=9.2E-5 4$MC=1.88E-5 7$NC=4.05E-6 15$OC=6.20E-7 23$
136BAS G PC=4.56E-8 17
136BA G 1713.2 0.01 LE E1+M2 +0.010 8 6.76E-4 ?
136BAS G KC=0.000257 4$LC=3.11E-5 5$MC=6.34E-6 9$NC=1.368E-6 20$OC=2.10E-7 3$
136BAS G PC=1.573E-8 22
136BA E 2.0E-4 207.6 6 2.0E-4 20 1U
136BAS E CK=0.76 3$CL=0.183 22$CM+=0.055 8
136BA L 2640.5 5 (1+) ?
136BA G 1822.0 5 0.15 6 D+Q 0.1 +50-1 ?
136BA E 0.0040 206.3 4 0.0040 20 ?
136BAS E CK=0.806 21$CL=0.150 16$CM+=0.044 6
136BA L 2772.6 3 2+ ?
136BA G 1221.4 3 0.04 2 S
136BAF G FLAG=CB
136BA G 1955 1 0.07 2 M1+E2 +0.65 25 8.17E-418 ?
136BAS G KC=0.000466 13$LC=5.76E-5 16$MC=1.18E-5 4$NC=2.54E-6 7$OC=3.92E-7 11$
136BAS G PC=2.94E-8 9
136BA E 0.0020 105.5 15 0.0020 10 ?
136BAS E CK=0.6 7$CL=0.3 5$CM+=0.09 21