51CR 51MN EC DECAY 1973FE12,1966GL02,1974FEZS17NDS 201709
51CR H TYP=FUL$AUT=Wang Jimin and Huang Xiaolong$CIT=NDS 144, 1 (2017)$
51CR2 H CUT=1-Mar-2016$
51CR c Sources generally produced by {+50}Cr(d,n).
51CR c 1973Fe12,1974FeZS: measured E|g, I|g and T{-1/2}
51CR2c with Ge(Li). Deduced decay scheme.
51CR c 1966Gl02: measured E|g, I|g, |b|g(t), |g|g-delayed coincidence.
51CR c Decay scheme constructed by identifying which of the known levels
51CR2c are fed in {+51}Mn decay.
51CR cL All data from 1973Fe12, except as noted.
51CR cL E From E|g's and decay scheme, using least-squares fit to data
51CR cL J,T From Adopted Levels, except as noted.
51CR cE IB,IE,TI$ Values deduced from |g-intensity balance at each level.
51CR cG All data from 1973Fe12, except as noted.
51CR cG RI Relative photon intensities normalized to
51CR2cG I|g(749|g)=100; I|g(511.0(|g{+|+}))=73330 {I1760} (1973Fe12).
51CR cG M,MR From Adopted Gammas.
51CR N 0.00265 7 1.0 1.0
51CR cN NR Based on I|g/I|g|+.
51CR PN 0.00265 7 1.0
51MN P 0.0 5/2- 46.2 M 1 3207.5 3
51CR L 0.0 7/2- 27.704 D 4
51CR E 96.86 3 2.73 3 5.2967 10 99.591 12
51CRS E EAV=963.72 19$CK=0.02447 2$CL=0.002548 2$CM+=0.0004415 3
51CR L 749.10 9 3/2- 7.6 NS 3
51CR cL T from |g|g(t) (1973Fe12).
51CR2cL Other: 7.5 ns {I6} (1966Gl02).
51CR E 0.207 7 0.0213 8 7.173 16 0.228 8
51CRS E EAV=619.05 19$CK=0.08337 7$CL=0.008691 7$CM+=0.001506 2
51CR G 749.07 9 100 E2 3.28E-4
51CRS G KC=0.000297 5$LC=2.76E-5 4$MC=3.63E-6 5$NC+=1.352E-7 19
51CR L 1164.47 239/2- 0.7 NS LE
51CR cL T from |g|g(t) (1966Gl02).
51CR G 1164.4 3 28.5 11M1+E2 -0.19 +4-2
51CR L 1353.2 5 5/2-
51CR E 0.014 3 0.0086 19 7.32 10 0.023 5
51CRS E EAV=351.39 28$CK=0.3333 6$CL=0.03480 6$CM+=0.006032 10
51CR G 603.8 5 5.8 18M1+E2 +0.40 +8-4 3.79E-415
51CRS G KC=0.000343 13$LC=3.18E-5 13$MC=4.19E-6 16$NC+=1.57E-7 6
51CR G 1353.9 8 3.0 5 M1(+E2) +0.06 +4-9
51CR L 1557.40 187/2-
51CR E 0.0075 12 0.012 2 7.09 7 0.019 3
51CRS E EAV=263.94 19$CK=0.5401 5$CL=0.05642 6$CM+=0.00978 1
51CR G 808.19 215.6 9 E2 2.67E-4
51CRS G KC=0.000242 4$LC=2.25E-5 4$MC=2.95E-6 5$NC+=1.101E-7 16
51CR G 1557.5 3 1.5 2 M1+E2 -0.38 11 1.40E-43
51CRS G KC=4.82E-5 8$LC=4.44E-6 7$MC=5.84E-7 10$NC+=8.67E-5 22
51CR L 1899.45 253/2-
51CR E 0.000243 0.0062 9 7.16 7 0.0064 9
51CRS E EAV=121.56 20$CK=0.8573 2$CL=0.08971 3$CM+=0.015556 4
51CR G 1899.41 252.4 3 E2 3.04E-4
51CRS G KC=3.61E-5 5$LC=3.32E-6 5$MC=4.37E-7 7$NC+=0.000264 4
51CR L 2001.39 125/2-
51CR E 0.00026315 0.0368 21 6.315 25 0.0371 21
51CRS E EAV=79.87 18$CK=0.8843$CL=0.09260$CM+=0.01606
51CR G 2001.35 1214.0 7 M1+E2 -0.09 6 2.87E-45
51CRS G KC=3.06E-5 5$LC=2.81E-6 4$MC=3.70E-7 6$NC+=0.000253 4
51CR L 2312.54 207/2-
51CR E 0.091 5 5.662 24 0.091 5
51CRS E CK=0.8903$CL=0.09351$CM+=0.01622
51CR G 1148.0 3 29.5 12[M1]
51CR G 2312.52 234.9 4 [M1] 4.12E-4
51CRS G KC=2.40E-5 4$LC=2.20E-6 3$MC=2.90E-7 4$NC+=0.000385 6
51CR L 2828.77 193/2-
51CR E 0.0069 6 6.03 4 0.0069 6
51CRS E CK=0.8886$CL=0.09488$CM+=0.01649
51CR G 2079.62 162.6 2 M1(+E2) +0.09 +30-253.18E-410
51CRS G KC=2.87E-5 5$LC=2.64E-6 5$MC=3.47E-7 6$NC+=0.000287 10