253CF    257FM A DECAY                 1967AS02,1982AH01         13NDS    201309
253CF  H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 114, 1041 (2013)$
253CF2 H CUT=1-Mar-2012$
253CF DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
257FM  P  0.0         (9/2+)           100.5 D   2               6863.5   14
253CF  N 0.93      4           0.99790 4
253CF CN NR        From decay scheme.
253CF PN             1                                                      C
253CF2PN IA PER 100 A DECAYS OF PARENT
253CF CL E$ From least-squares fit to EG, unless otherwise noted
253CF CL J$ From adopted levels
253CF CA E,IA$  From 1982Ah01, unless otherwise noted
253CF CA HF        R0(253CF)=1.5091
253CF CA E(A),IA(A)$Recommended value from 1991Ry01 based on adjusted
253CF2CA measurements of 1967As02 and 1982Ah01
253CF CG           XK(CF)=58% 4 (from G spectrum, 1982Ah01); XK(CF)=53% 3
253CF2CG (from measured I(CEK), 1982Ah01)
253CF CG E,RI$ From 1982Ah01; other: 1967As02
253CF CG M,MR$ From I(CE) and RI of 1981Ah01; both intensities are given
253CF2CG in % A-DECAY
253CF  L 0.0          (7/2+)
253CF  A  6752     3  0.58   6  2.92E3 31                                   A
253CF  L 61.61     8  (9/2+)
253CF  A 6695      3  3.4    2   267   16
253CF CA IA$   weighted average of 3.2 3 (1967As02) and 3.5 3 (1982Ah01)
253CF CA HF        see 1982Ah01 for calculation of HF(6695A) including ^Coriolis
253CF2CA interaction between 7/2[613] and 9/2[615] bands.
253CF  G 61.6      1  1.45   8 M1+E2     0.27    2     47.4   19
253CFS G LC=35.1 14$MC=9.1 4$NC+=3.29 15
253CFS G NC=2.52 12$OC=0.64 3$PC=0.117 5$QC=0.00503 9
253CF CG M,MR$ EL12C=31 3, L12/L3=6.7 9, L:M:N+=51 7: 15.0 15: 6.7 7
253CF2CG (1982Ah01). Theory L12C=32.8 9, L12/L3=7.2 10, L:M:N+=51: 13.1 5: 5.1 2
253CF  L 136.62    9 (11/2+)
253CF  A 6622         1.2    LT  347   GT                                      S
253CF  G 75.0      1  0.200  17(M1)                    19.7
253CFS G LC=14.72 22$MC=3.62 6$NC+=1.318 20
253CFS G NC=1.004 15$OC=0.261 4$PC=0.0504 8$QC=0.00298 5
253CF CG M$ EL12C=16.5 29 (1982Ah01). Theory: L12C=15.8
253CF  G 136.7     2  0.06   2    [E2]                  5.59
253CFS G KC= 0.124$ LC=3.91$ MC=1.11$ NC+=  0.445
253CF  L 241.01    8  (9/2+)
253CF  A  6519.5   14 93.8   7  1.487  15                                   A
253CF  G 104.4     1  0.62   5 (M1)                    7.52
253CFS G LC=5.63 8$MC=1.386 20$NC+=0.504 8
253CFS G NC=0.384 6$OC=0.0997 15$PC=0.0193 3$QC=0.001136 17
253CF CG M$ EL12C=5.3 8 (1982Ah01). Theory: L12C=6.08
253CF  G 179.4     1  8.7    7 M1+E2     0.58    13    5.8    5
253CFS G KC=4.2 5$LC=1.182 17$MC=0.301 6$NC+=0.1095 19
253CFS G NC=0.0839 15$OC=0.0215 4$PC=0.00398 7$QC=0.000185 18
253CF CG RI$ absolute measurement in % of ALPHA decay.
253CF CG M,MR$  EKC=4.6 5, K:L12:M:^NO=40 3: 9.3 9: 2.6 3: 1.0 3 (1982Ah01).
253CF2CG Theory: KC=4.6 5, K:L12:M:^NO=40: 11.0: 2.81: 1.09
253CF  G 241.0     1  11.0   6 M1+E2     1.06    13    1.78   17
253CFS G KC=1.22 16$LC=0.419 14$MC=0.109 3$NC+=0.0396 10
253CFS G NC=0.0304 8$OC=0.00775 21$PC=0.00140 5$QC=5.4E-5 7
253CF CG M,MR$ EKC=1.31 13, K:L12:L3:M=14.4 12: 4.2 4: 0.53 18: 1.2 2.
253CF2CG Theory: KC=1.31 17, K:L12:L3:M=14.4: 4.4 3: 0.49 5: 1.27 3
253CF  L 321.21    22 (11/2+)
253CF  A 6441      3  2.0    2    29   3
253CF  G 80.2      2  0.085  9 (M1+E2)                 39     24
253CFS G LC=29 17$MC=8 5$NC+=2.9 18
253CFS G NC=2.2 14$OC=0.6 4$PC=0.09 5$QC=0.0014 10
253CF CG M$ intensity balance at the 321.2 level suggests M1+E2
253CF2CG multipolarity
253CF  L 417       5  (13/2+)
253CF CL E         calculated from EA
253CF  A 6346      5  0.3    1    68   23
253CF  G 96        5           [M1,E2]                 18     10 0.3      LE   S
253CFS G L/T=0.7 3$M/T=0.19 13$N+/T=0.07 5
253CFS G N/T=0.05 4$O/T=0.013 10$P/T=0.0022 16$Q/T=4.E-5 4
253CF CG TI        from intensity balance