146GD 146TB EC DECAY (8 S) 1989KLZY,1982NO08,1983AL0616NDS 201609
146GD H TYP=FUL$AUT=Yu. KHAZOV, A. RODIONOV AND G. SHULYAK$
146GD2 H CIT=NDS 136, 163 (2016)$CUT=14-Jul-2016$
146GD c 1989KlZY: {+146}Tb(1+) |e decay [from Gd({+3}He,xn){+146}Dy(0+) |e
146GD2c decay, E=280 MeV]; measured E|g, E|g, |g|g, |g(X-ray) coin. {+146}Gd;
146GD3c deduced levels, J|p, |e branchings, log| {Ift}. ISOCELE-II on-line
146GD4c mass-separator.
146GD c 1995GoZV,1996GoZZ: {+146}Tb(1+) |e decay [from Ta(p,X), E=660 MeV];
146GD2c E|g, I|g, ce, |e branching. {+146}Gd; deduced level, J|p.
146GD3c Synchrocyclotron, |b spectrometer on-line YaSNAPP-2 facility.
146GD c The {+146}Gd level scheme is from 1989KlZY, constructed on the basis
146GD2c of measurement of |g|g and |g(X-ray) coincidences and of using the
146GD3c (p,t) (1989Ma28) and (|a,2n) (1986Ya06,1987Ya13) results.
146GD c Measured: |g(t) (1993VaZW,1983Al06,1982No08,1981StZO,1980To06), |b{++}
146GDxc (1983Al06)
146GD cG E,TI$From fig. 1 of 1989KlZY. |DI(|g+ce)=10% is assumed by evaluators.
146GD cG E(A)$Placed from energy fit in 1989KlZY
146GD cG M$From ce and |g measurement at ISCELE II on-line mass-separator
146GD2cG (1989KlZY)
146GD cL E$From 'Adopted Levels'.
146GD cL J$From 1989KlZY
146GD DG CC$FROM BrIcc v2.3a (10-Sep-2014) 2008Ki07, "Frozen Orbitals" appr.
146TB P 0.0 1+ 8 S 4 8320 40
146TB cP $from 2012Au07, 2012Wa38; T{-1/2} from I|g(t) {+146}Dy |e decay
146TB2cP (1982No08).
146GD N 0.106 15 1.0
146GD cN NT$from 84% {I2} |e-feeding to {+146}Gd ground state (1989KlZY)
146GD PN 1
146GD L 0.0 0+ 48.27 D 9
146GD cL T$from 'Adopted Levels'
146GD E 79 2 4.6 1 5.03 22 84 2
146GDS E EAV=3391 24$CK=0.0458 9$CL=0.00666 13$CM+=0.00192 4
146GD L 1579.55 153-
146GD E 1.4 6 0.17 7 6.3 3 1.6 7 1U
146GDS E EAV=2634 24$CK=0.0875 20$CL=0.0128 3$CM+=0.00369 9
146GD G 1579.40 5 E3 0.00216 32
146GD2 G EKC=0.00177 13 (1995GoZV)
146GDS G K/T=0.001773 25$L/T=0.000261 4$M/T=5.69E-5 8
146GDS G N/T=1.307E-5 19$O/T=2.01E-6 3$P/T=1.276E-7 18
146GD cG $IPC/T=4.63E-5 {I7}
146GDS G KC=0.001777 25$LC=0.000262 4$MC=5.71E-5 8
146GDS G NC=1.310E-5 19$OC=2.01E-6 3$PC=1.278E-7 18$IPC=4.64E-5 7
146GD L 1972.02 7 2+
146GD E 7.8 16 1.1 2 5.41 24 8.9 18
146GDS E EAV=2448 24$CK=0.105 3$CL=0.0153 4$CM+=0.00442 11
146GD G 392.6 1
146GD G 1972.1 E2 1.01E-3 95
146GDS G K/T=0.000628 9$L/T=8.34E-5 12$M/T=1.80E-5 3
146GDS G N/T=4.13E-6 6$O/T=6.41E-7 9$P/T=4.35E-8 6
146GD cG $IPC/T=0.000274 {I4}
146GDS G KC=0.000629 9$LC=8.35E-5 12$MC=1.80E-5 3
146GDS G NC=4.13E-6 6$OC=6.42E-7 9$PC=4.36E-8 7$IPC=0.000274 4
146GD L 2164.72 120+
146GD E 2.5 3 0.40 6 5.83 23 2.9 4
146GDS E EAV=2356 24$CK=0.115 3$CL=0.0168 5$CM+=0.00485 12
146GD G 192.5 E2 0.252 7
146GDS G K/T=0.1386 17$L/T=0.0487 7$M/T=0.01125 16
146GDS G N/T=0.00253 4$O/T=0.000346 5$P/T=7.89E-6 12
146GDS G KC=0.1736 25$LC=0.0610 9$MC=0.01409 20
146GDS G NC=0.00317 5$OC=0.000433 6$PC=9.88E-6 14
146GD cG TI$I(2165,E0)/I|g(193,E2)=4.5 {I9} (1989KlZY). If I(2165,E0)=20,
146GD2cG I(|g+ce) of 193|g, calculated by the evaluators, equals 5.6 (in fig. 1
146GD3cG this value stated as 7).
146GD G 2164.6 E0 20
146GD L 2986.4 2 2+
146GD E 0.29 7 0.077 19 6.42 25 0.37 9
146GDS E EAV=1969 24$CK=0.175 5$CL=0.0256 7$CM+=0.00740 21
146GD G 1407 3 LTA
146GD G 2986.4 2 A
146GD L 3185.95 102+
146GD E 0.98 14 0.29 4 5.80 23 1.27 18
146GDS E EAV=1875 24$CK=0.195 6$CL=0.0286 8$CM+=0.00825 23
146GD G 1213.9 2 AP
146GD G 1606.5 9
146GD G 3186.1 1 A
146GD L 3232.5 4 2+
146GD E 0.53 8 0.16 3 6.05 23 0.69 11
146GDS E EAV=1853 24$CK=0.200 6$CL=0.0293 9$CM+=0.00847 24
146GD G 1261 1 APA ?
146GD G 1653.3 5
146GD G 3233 1 LTA ?
146GD L 3484.93 210+
146GD E 0.27 8 0.10 3 6.2 3 0.37 11
146GDS E EAV=1735 24$CK=0.230 7$CL=0.0337 10$CM+=0.0097 3
146GD G 1512.9 3 AP
146GD G 3485 1 LT