133LA    133CE EC DECAY (97 M)         1978HE16                  11NDS    201104
133LA  H TYP=FUL$AUT=YU. KHAZOV AND A. RODIONOV, F.G. KONDEV$
133LA2 H CIT=NDS 112, 855 (2011)$CUT=31-Oct-2010$
133LA c  1978He16: {+133}Ce |e (97 min) [from Ba(|a,xn)]; measured E|g, I|g,
133LA2c  |g|g, ce; deduced levels, |a(exp), log| {Ift}. Ge(Li)
133LA3c  detectors, Compton-suppressed system, magnetic spectrometer
133LA c  1984Gr30: {+133}Ce |e (97 min) [from Gd(p,X), E=660 MeV]; measured ce;
133LA2c  deduced |a(exp), |d. Magnetic spectrograph
133LA c  Others: 1966Ab05, 1968Ge01
133LA cG E,RI$From 1978He16. I|g's are relative to I|g(97.261|g)=1000
133LA cG M,MR$From |a(exp) and |d in 1984Gr30, Ice's are normalized by
133LA3cG evaluators in accordance with the calculated |a(K)=1.964 for 76.9|g,
133LA4cG whose multipolarity M1+0.32%E2 is deduced from L-subshell ratios in
133LA5cG 1984Gr30
133LA cL E$From a least-squares fit to E|g's
133LA cL J,T$From 'adopted levels'
133CE  P 0.0         1/2+              97 M      4              3071      30
133LA  N 0.0455     8          1.0       1.0
133LA cN NR$ from  |S(I(|g+ce) to g.s.)=100 and by assuming that there is no
133LA2cN direct feeding to g.s.
133LA PN                                                                     5
133LA  G 376.7     3 20      APM1,E2                   0.026  3
133LA2 G CEK=0.5 2$EKC AP 0.026 (1984Gr30)
133LAS G KC=0.022 3$LC=0.00327 6$MC=0.000684 10$NC+=0.000175 3
133LAS G NC=0.0001495 23$OC=2.38E-5 8$PC=1.6E-6 3
133LA  G 557.7     3 250     50(E2)                    0.00769
133LA2 G CEK=1.6 3$CEL=0.26 3$EKC=0.0066 16 (1984Gr30)$
133LAS G KC=0.00647 10$LC=0.000964 14$MC=0.000202 3$NC+=5.15E-5 8
133LAS G NC=4.40E-5 7$OC=6.98E-6 10$PC=4.63E-7 7
133LA  L 0.0         5/2+              3.912 H   8
133LA  L 97.261    10 3/2+             0.4 NS    LT
133LA  E                18   7    29   10  5.95  16             47        17
133LAS E EAV=878 15$CK=0.520 11$CL=0.0715 15$CM+=0.0201 4
133LA  G 97.261    10100E+1  15M1+E2     0.157   17    1.195  18
133LA2 G CEK=110E+1 10$CEL1=140 13$CEL2=17.5 18$CEL3 LT 6$EKC=1.10 10 (1984Gr30)
133LAS G KC=1.007 15$LC=0.149 4$MC=0.0311 8$NC+=0.00799 20
133LAS G NC=0.00682 17$OC=0.001092 25$PC=7.78E-5 11
133LA cG MR$from M1+(2.4 {I5})%E2 in 1984Gr30
133LA  L 174.1     4 1/2+              0.83 NS    18
133LA  E                19   3    34   5   5.86   7             53        8
133LAS E EAV=843 15$CK=0.545 11$CL=0.0750 15$CM+=0.0211 5
133LA  G 76.9      5 350     50M1+E2     0.057   +10-192.31   6
133LA2 G CEK=685 67$EKC=1.96$
133LA cG $L1:L2:L3=8.6 {I8}:0.90 {I9}:0.24 {I3} (1984Gr30)
133LAS G KC=1.96 5$LC=0.272 8$MC=0.0567 16$NC+=0.0146 4
133LAS G NC=0.0124 4$OC=0.00202 5$PC=0.000153 4
133LAS G L1C=0.244 6$L2C=0.0215 11$L3C=0.0071 12
133LA cG MR$calculated by evaluators from M1+(0.32 {I+14-18})%E2 (1984Gr30)
133LA  G 174.0     5 9       2 E2                      0.286  5
133LA3 G CEK=1.94 30$EKC=0.22 6 (1984Gr30)
133LA cG $L2:L3=0.17 {I2}:0.16 {I2}
133LAS G KC=0.214 4$LC=0.0570 11$MC=0.01237 23$NC+=0.00305 6
133LAS G NC=0.00265 5$OC=0.000391 8$PC=1.293E-5 22