153ER    153TM EC DECAY (1.48 S)       1989KO02,1988SCZV         20NDS    202012
153ER  H TYP=FUL$AUT=N. NICA$CIT=NDS 170, 1 (2020)$CUT=16-Aug-2020$
153ER c  Source produced in {+92}Mo({+64}Zn,n2p){+153}Yb(|e) and ({+64}Zn,3p)
153ER2c       followed by mass separation. Measured event-mode coincidence of
153ER3c       particles, |g rays, x rays and |b+'s tagged with time.
153ER cE           Values given are calculated from the intensity balances at
153ER2cE      each level.  However, this decay scheme is very incomplete, so it
153ER3cE      should be expected that the actual I(|e+|b{++}) are less than
153ER4cE      those given here, and that the actual log{Ift} values are larger.
153ER cG E,RI      From 1989Ko02.
153ER cL           Since the decay energy is over 6 MeV, this decay scheme
153ER2cL      with only a few |g rays is certainly not complete.
153ER cL J         From Adopted Levels.
153ER DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
153ER DG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
153ER2DG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
153TM  P 0.0         (11/2-)           1.48 S    1              6495      13
153ER  N  0.712    23           0.09    3 1.0
153ER cN NR$Calculated by assuming zero g.s. |e+|b{++} branching (1989Ko02).
153ER cN BR        From {+153}Tm Adopted Levels and from 1989Ko02.
153ER PN                                                                     3
153ER  L 0.0         (7/2-)
153ER cL           From log{Ift} systematics (1998Si17), for |DJ=2, no feeding
153ER2cL      log{Ift} > 10.6, so I(|e+|b{++}) < 6x10{+-5}%.
153ER  L 299.3     1 (9/2-)
153ER  E                53        12        4.8                 65
153ERS E EAV=2369.2 62$CK=0.1481 9$CL=0.02244 14$CM+=0.00665 4
153ER  G 299.3     1  100.01 1 [M1,E2]                 0.102  33
153ER2 G %IG=6.4 21
153ERS G  KC=0.082 31$LC=0.0155 12$MC=0.00352 16
153ERS G  NC=0.00081 5$OC=0.000112 13$PC=4.8E-6 22
153ER  L 765.8     2 (11/2-)
153ER  E                4.0       1.1       5.8                 5.1
153ERS E EAV=2149.7 61$CK=0.1842 12$CL=0.02795 18$CM+=0.00828 6
153ER  G 765.8     2  30      3[E2]                    0.00594
153ER2 G %IG=1.9 7
153ERS G  KC=0.00490 7$LC=0.000809 12$MC=0.000181 3
153ERS G  NC=4.20E-5 6$OC=5.88E-6 9$PC=2.78E-7 4
153ER  L 971.0     3 (13/2+)
153ER  E                5.4       1.7       5.5                 7.1
153ERS E EAV=2053.5 61$CK=0.2034 13$CL=0.03087 20$CM+=0.00915 6
153ER  G 205.2     2  9.6     9[E1]                    0.0486
153ER2 G %IG=0.62 21
153ERS G  KC=0.0409 6$LC=0.00605 9$MC=0.001337 19
153ERS G  NC=0.000308 5$OC=4.27E-5 6$PC=2.03E-6 3
153ER  L 1011.9     4
153ER  E                3.5       1.1       5.7                 4.6
153ERS E EAV=2034.4 61$CK=0.2075 14$CL=0.03150 21$CM+=0.00934 6
153ER  G 712.6      3 6.5     8
153ER2 G %IG=0.42 15
153ER  L 1110.5     4(13/2-)
153ER  E                4.7       1.7       5.5                 6.4
153ERS E EAV=1988.3 61$CK=0.2177 14$CL=0.03306 22$CM+=0.00980 7
153ER  G 811.2     3  8.9    10[E2]                    0.00523
153ER2 G %IG=0.57 20
153ERS G  KC=0.00433 6$LC=0.000702 10$MC=0.0001571 22
153ERS G  NC=3.64E-5 6$OC=5.11E-6 8$PC=2.46E-7 4
153ER  L 1132.7     5
153ER  E               1.57      0.561      6.0                 2.13
153ERS E EAV=1977.9 61$CK=0.2201 15$CL=0.03343 22$CM+=0.00991 7
153ER  G 833.4      4 3      AP
153ER2 G %IG AP 0.192
153ER  L 1731.1     4
153ER  E                5.9       3.3       5.1                 9.2
153ERS E EAV=1699.4 61$CK=0.2967 20$CL=0.0452 3$CM+=0.01339 9
153ER  G 965.3      3 12.9   15
153ER2 G %IG=0.83 29