ENSDF decay dataset

 60FE    60MN B- DECAY (1.77 S)        2010HO13,1978NO03         13NDS    201312
 60FE  H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 114, 1849 (2013)$
 60FE2 H CUT=31-Dec-2012$
 60FE c  2010Ho13: {+60}Mn formed in {+238}U({+64}Ni,X) reaction at
 60FE2c  E=430 MeV beam provided by ATLAS facility at Argonne. Target=
 60FE3c  55 mg/cm{+2}. Measured E|g, I|g, |g|g, |g|g(|q) using
 60FE4c  GAMMASPHERE array of 100 Compton-suppressed HPGe detectors.
 60FE5d  Comparisons with shell-model calculations using {Ipf} and {Ipfg} basis
 60FE6d  space. Comparison with level structures of {+54}Fe, {+56}Fe , {+58}Fe
 60FE7d  and {+64}Fe.
 60FE C  Others:
 60FE C  1988Bo06: {+60}Mn from W({+76}Ge,^X), E=11.5 MeV/nucleon,
 60FE2C  mass separation, measured EG, RI, BG COIN, T.
 60FE C  1985Ru05: {+60}Mn from W({+82}Se,^X), E=11.5 MeV/nucleon,
 60FE2C  mass separation, measured EG, RI, BG COIN, T.
 60FE C  1978No03: {+60}Mn from {+48}Ca({+18}O,|apn), E=56 MeV.
 60FE2C  Measured T, EG, RI, EB, GG COIN, BG COIN, Enriched target
 60FE3C  (96.8%). Ge(Li) detectors, plastic scintillators. Discovery
 60FE4C  of {+60}Mn.
 60FE CB IB$ Deduced by evaluators from G-ray transition intensity balance
 60FE2CB at each level.
 60FE3cB These should be considered limits since the decay scheme
 60FE4cB may not be complete
 60FE cB LOGFT$ Values deduced by evaluators.
 60FE CG E,RI$From 2010Ho13, unless otherwise specified.
 60FE CG M$ M1 transitions are expected to be M1+E2.
 60FE CL E$ Deduced by evaluators from least-squares fit to G-ray energies.
 60MN  P  271.21   24 4+                1.77 S    2              8444      4
 60MN cP QP$From 2012Wa38.
 60MN cP E,J,T$From Adopted Levels for {+60}Mn.
 60FE  N  0.851    9            0.885  8
 60FE cN NR$Deduced by evaluators from I|g(823.8)+I|g(2299.7|g)=88.5% 8.
 60FE cN BR$%|b{+-}=88.5 {I8} in {+60}Mn Adopted Levels
 60FE PN                                                                     3
 60FE  G 1150.2    4 1.6     4
 60FE CG E,RI$From 1985Ru05.
 60FE  L 0.0          0+               2.62E+6 Y 4
 60FE CL T         From Adopted Levels, Gammas.
 60FE  L 823.83     9 2+
 60FE  G 823.8     1  100         E2
 60FES G CC=0.000319 5$KC=0.000287 4$LC=2.75E-5 4$MC=3.78E-6 6$NC+=1.740E-7 25
 60FES G NC=1.740E-7 25
 60FE  L 2114.60   12 4+
 60FE  B              2.4    11            6.4
 60FES B EAV=3036.4 20
 60FE  G 1290.8    1  15.7   11   E2
 60FES G CC=0.0001356 19$KC=9.84E-5 14$LC=9.36E-6 14$MC=1.289E-6 18$NC+=2.65E-5
 60FES G NC=5.98E-8 9$IPC=2.65E-5 4
 60FE CG RI$Weighted average of 16.4 8 (2010Ho13) and 13.9 13 (1978No03).
 60FE cG $(1291|g)(824|g)(|q): A{-2}=+0.17 {I7}, A{-4}=+0.05 {I9}
 60FE  L 2299.67   11
 60FE CL           JPI=2+ from 1476G M1 to 2+, and 2300G E2 to 0+. However,
 60FE2CL LOGFT=6.0 to 2300-keV level is not consistent with B- DECAY from
 60FE3CL 60MN(4+) to 60FE(2+).
 60FE  B              5.0    15            6.0
 60FES B EAV=2946.0 20
 60FE  G 1475.8    1  14.0   7    M1
 60FES G CC=0.0001331 19$KC=6.70E-5 10$LC=6.35E-6 9$MC=8.74E-7 13$NC+=5.89E-5 9
 60FES G NC=4.08E-8 6$IPC=5.88E-5 9
 60FE CG RI$Weighted average of 13.8 7 (2010Ho13) and 14.6 14 (1978No03).
 60FE cG $(1476|g)(824|g)(|q): A{-2}=-0.18 {I7}, A{-4}=+0.4 {I1}
 60FE  G 2299.7    2  17.5   12
 60FE CG RI$Weighted average of 17.4 12 (2010Ho13) and 17.6 20 (1978No03).
 60FE CG M$E2 from DJPI not consistent with B- decay
 60FE  L 2792.68   11 3+,4+
 60FE  B              73     3             4.7
 60FES B EAV=2705.2 20
 60FE  G 493.0     1  24.9   13   (M1)
 60FES G CC=0.000697 10$KC=0.000628 9$LC=6.02E-5 9$MC=8.29E-6 12$NC+=3.84E-7 6
 60FES G NC=3.84E-7 6
 60FE CG RI$Weighted average of 26.2 20 (2010Ho13) and 24.4 13 (1978No03).
 60FE  G 678.1     1  3.5    4    (M1)
 60FES G CC=0.000348 5$KC=0.000314 5$LC=3.00E-5 5$MC=4.13E-6 6$NC+=1.92E-7 3
 60FES G NC=1.92E-7 3
 60FE CG RI$Weighted average of 3.6 4 (2010Ho13) and 3.0 7 (1978No03).
 60FE  G 1968.8    1  69.0   34   (M1)
 60FES G CC=0.000285 4$KC=4.00E-5 6$LC=3.78E-6 6$MC=5.21E-7 8$NC+=0.000241 4
 60FES G NC=2.43E-8 4$IPC=0.000241 4
 60FE CG RI$Weighted average of 67.2 34 (2010Ho13) and 71.1 36 (1978No03).
 60FE cG $(1969|g)(824|g)(|q): A{-2}=-0.22 {I4}, A{-4}=-0.02 {I5}
 60FE  L 3072.01   23  4+
 60FE  B              3.2    5             5.9
 60FES B EAV=2568.9 20
 60FE  G 279.6     7  0.3    2    M1
 60FES G CC=0.00260 4$KC=0.00234 4$LC=0.000226 4$MC=3.11E-5 5$NC+=1.431E-6 22
 60FES G NC=1.431E-6 22
 60FE  G 957.5     3  1.3    2    M1
 60FES G CC=0.0001708 24$KC=0.0001540 22$LC=1.464E-5 21$MC=2.02E-6 3
 60FES G NC=9.39E-8 14
 60FE  G 2248.0    3  2.7    6    E2
 60FES G CC=0.000471 7$KC=3.35E-5 5$LC=3.17E-6 5$MC=4.36E-7 7$NC+=0.000434 6
 60FES G NC=2.03E-8 3$IPC=0.000434 6
 60FE CG RI$Weighted average of 2.4 4 (2010Ho13) and 4.0 8 (1985Ru05).
 60FE  L 3193.51   24
 60FE  B              2.2    3             6.1
 60FES B EAV=2509.6 20
 60FE  G 401.0     10  0.2   2                                                 ?
 60FE  G 1078.9    2   2.9   4
 60FE  L 3352.9     6
 60FE  B              0.53   23            6.6
 60FES B EAV=2431.9 20
 60FE  G 1238.3    5  0.7    3
 60FE  L 3486.02   24
 60FE  B              2.7    3             5.9
 60FES B EAV=2367.0 20
 60FE  G 1371.4    2  3.6    4
 60FE  L 3498.6    10 4+
 60FE  B              0.4    4              6.1  GT
 60FES B EAV=2360.8 21
 60FE  G 1384.0    10  0.5   5   M1
 60FES G CC=0.0001201 17$KC=7.55E-5 11$LC=7.15E-6 10$MC=9.86E-7 14$NC+=3.65E-5 6
 60FES G NC=4.60E-8 7$IPC=3.64E-5 6