ENSDF decay dataset

137LA    137CE EC DECAY (34.4 H)       1975HE20                  07NDS    200709
137LA  H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 108,2173 (2007)$
137LA2 H CUT=1-Oct-2006$
137LA D  Modified by E. Browne (New ICC from BRICC, decay-scheme normalization
137LA2D  and EC branching have been recalculated, Feb. 15, 2007).
137LA C  Measured: G, CE (1975He20,1975ArYT), GG (1982Ko05,1964FrZZ), CEG
137LA2C  (1980ZhZY) CE (1975Mo12), G(THETA,TEMP) (1964FrZZ), GAMMA (1982Ko05)
137LA C  Decay scheme is that from 1975He20, except for the 781 level and its
137LA2C  decaying transitions which have been seen by 1982Ko05;
137LA CG E,RI$From 1975He20.
137LA CG $EKC normalized so that KC(825G)=0.0025 (E2, theory)
137CE  P 254.29     511/2-             34.4 H    3              1222.1    16
137LA  N    0.057                0.0079 4
137LA CN NR$SUMOF TI(254G in 137CE (34.4 H) ^IT Decay) and SUMOF TI for G rays
137LA2CN to GS or 10.6-keV level in 137LA=100
137LA CE IE        Absolute intensity per 100 decays.
137LA  L 0.0         7/2+
137LA  L 10.61      55/2+
137LA  G 10.61     5           M1                      117.6  24
137LAS G LC=93.2 19$MC=19.4 4$NC+=5.01 10
137LAS G NC=4.26 9$OC=0.690 14$PC=0.0528 11
137LA CG M         M1:M2:M3=23.4 16:2.87 24:1 (1975Mo12); M1:M2:M3:M4+=
137LA2CG 100:10 1:2.6 7:0.50 15, MR LT 0.008 (1975ArYT)
137LA  L 762.30    1011/2+
137LA  E                         0.197 14  8.17  4
137LAS E  CK=0.8405 $CL=0.1242 $CM+=0.03525
137LA  G 762.30    10435     20E2                      0.00352
137LAS G KC=0.00300 5$LC=0.000416 6$MC=8.66E-5 13$NC+=2.22E-5 4
137LAS G NC=1.89E-5 3$OC=3.04E-6 5$PC=2.18E-7 3
137LA CG M         EKC=0.030 3, ELC=0.0004 1, K/L=7.4 12
137LA  L 835.36    8 9/2+
137LA  E                         0.08  3   8.5   2
137LAS E  CK=0.8390 $CL=0.1254 $CM+=0.03564
137LA  G 824.82    121000      E2                      0.00293
137LAS G KC=0.00250 4$LC=0.000342 5$MC=7.11E-5 10$NC+=1.82E-5 3
137LAS G NC=1.556E-5 22$OC=2.50E-6 4$PC=1.82E-7 3
137LA CG M         EKC=0.00247 19 if KC(254G)=5.54 (M4), K/L=7.9 7
137LA  G 835.38    12234     10E2                      0.00285
137LAS G KC=0.00243 4$LC=0.000331 5$MC=6.89E-5 10$NC+=1.769E-5 25
137LAS G NC=1.508E-5 22$OC=2.43E-6 4$PC=1.772E-7 25
137LA CG M         EKC=0.0022 3
137LA  L 917.44    119/2+
137LA  E                         0.007 3   9.4   2
137LAS E  CK=0.8367 $CL=0.1271 $CM+=0.03621
137LA  G 906.84    166.3     11
137LA  G 917.45    1729       5
137LA  L 1004.61   8 11/2-             0.41 NS   7
137LA CL T         from 1967Va21
137LA  E                         0.51  4   7.38  4
137LAS E  CK=0.8334 $CL=0.1296 $CM+=0.03705
137LA  G 87.2       220       3
137LA  G 169.26    4 995     60E1                      0.0550
137LAS G KC=0.0471 7$LC=0.00625 9$MC=0.001290 18$NC+=0.000328 5
137LAS G NC=0.000281 4$OC=4.46E-5 7$PC=3.07E-6 5
137LA CG M         from 1964FrZZ
137LA  G 993.81    214.5      6
137LA  G 1004.49   2051       6M2(+E3)   0.8     LT    0.0061 6
137LAS G KC=0.0052 5$LC=0.00071 5$MC=0.000147 11$NC+=3.8E-5 3
137LAS G NC=3.24E-5 23$OC=5.3E-6 4$PC=4.1E-7 4
137LA CG M,MR$EKC=0.0056 9 (1975He20)
137LA DG CC        E3 CC(THEORY)'S MULT. BY 0.975 10 (Cf. 1990Ne01)