56CO 56NI EC DECAY 1990SU13,1974HO25,1974HEYW11NDS 201105
56CO H TYP=FUL$AUT=HUO JUNDE, HUO SU, YANG DONG$CIT=NDS 112, 1513 (2011)$
56CO2 H CUT=29-Oct-2009$
56CO c Sources produced generally by {+54}Fe(|a,2n), {+56}Fe({+3}He,3n) or
56COxc {+58}Ni(|g,2n).
56CO c 1990Su13: measured I|g, I|b{++}, and T{-1/2}.
56CO c 1974Ho25: measured E|g, I|g, and |g|g(|q) with Ge(Li).
56CO c 1973Sa11: measured E|g, I|g, |g|g-coin and |s(|q).
56CO c 1974HeYW: measured E|g and I|g.
56CO c 1965Oh01: measured E|g, I|g, |g|g-coin, |g|g(|q) and |a(exp).
56CO c 1963We06: measured T{-1/2}, E|g, I|g and |g|g(|q).
56CO c 1964Je03: measured E|g, I|g, |a(K)exp, |a(L)exp and |a(exp).
56CO c 1996La20: measured E|g, I|g.
56CO c 1999Za08, 1999Za19: measured E|g, I|g, |g|g-coin.
56CO c See also 1991FuZW.
56CO c Decay scheme from 1974Ho25.
56CO cE IE,IB From 1990Su13.
56CO tG |g|g-angular correction coefficients
56CO2tG E|g A{-2} A{-4}
56CO3tG -------- --------- -------------------
56CO3tG 158-1562 -0.083 {I9} 0.0 15(1974Ho25)
56CO4tG -0.055 {I26} -0.03 {I4} (1965Oh01)
56CO5tG -0.049 {I37} 0.00 {I6} (1963We06)
56CO6tG 158-750 0.055 {I4} -0.011 {I8} (1974Ho25)
56CO7tG 0.041 {I13} 0.029 {I19}(1965Oh01)
56CO8tG 158-270 -0.002 {I4} -0.002 {I8} (1974Ho25)
56CO9tG 0.006 {I22} 0.04 {I3} (1965Oh01)
56COAtG 158-480 -0.083 {I4} -0.005 {I8} (1974Ho25)
56COBtG -0.021 {I14} 0.027 {I20}(1965Oh01)
56COCtG 158-812 0.043 {I4} -0.004 {I6} (1974Ho25)
56CODtG 0.046 {I13} 0.006 {I18}(1965Oh01)
56COEtG 0.038 {I16} 0.O14 26(1963We06)
56COFtG 480-270 -0.003 {I7} -0.003 {I12}(1974Ho25)
56COGtG 0.025 {I15} 0.012 {I21}(1965Oh01)
56COHtG 0.053 {I22} (1963We06)
56COItG 812-750 0.064 {I8} 0.012 {I14}(1974Ho25)
56COJtG 0.080 {I12} 0.001 {I17}(1965Oh01)
56COKtG 0.08 {I4} -0.02 {I6} (1963We06)
56COLtG 812-270 -0.015 {I10} 0.014 {I17}(1974Ho25)
56COMtG 0.006 {I13} -0.014 {I18}(1965Oh01)
56CONtG 812-480 -0.068 {I14} -0.032 {I24}(1974Ho25)
56COOtG -0.049 {I16} -0.011 {I22}(1965Oh01)
56COPtG -0.015 {I3} 0.06 {I5} (1963We06)
56CO cG E From 1974HeYW.
56CO cG RI Based on relative intensities from 1973Sa11, 1974HeYW, and
56CO2cG 1974Ho25 plus intensity balances assuming I(|e)=100% to
56CO3cG 1720 level.
56CO cG M,MR From |g|g(|q) (1974Ho25).
56CO cL E From E|g and decay scheme by using least-squares fits
56CO cL J From adopted levels; |g|g(|q) (1974Ho25) support
56CO2cL adopted J|p values.
56CO cL T From |g|g(t). Values from 1963We06, except as noted.
56NI P 0.0 0+ 6.075 D 10 2136 12
56CO N 1.0000 4 1 1
56CO L 0.0 4+
56CO E 6.0E-5LT 2.2E-5LT 12.5 GT 6.0E-5 LT
56COS E EAV=478 5 $CK=0.236 6 $CL=0.0254 6 $CM+=0.00442 11
56CO L 158.38 33+ 0.1 NS LT
56CO E 5.8E-5LT 4.8E-4LT 11.4 GT 5.8E-5 LT
56COS E EAV=408 5 $CK=0.332 8 $CL=0.0358 9 $CM+=0.00622 15
56CO cE IB %|b{++}<6.3|*10{+-5} (1999Za08, 1999Za19).
56CO G 158.38 3 98.8 10M1+E2 +0.016 6 C
56CO3 G EKC/ELC=11 2 (1965Oh01)$ ECC=0.012 1 (1964Je03)
56COB G BM1W>0.055$BE2W>0.29
56CO L 970.24 42+ 0.1 NS LT 1.2E-3 LT
56CO E 1.2E-3LT 0.77 LT 7.4 GT
56COS E EAV=65 5 $CK=0.8860 $CL=0.09584 $CM+=0.01668
56CO G 811.85 3 86.0 9 M1(+E2) -0.02 2 C
56CO3 G EKC+ELC=0.00020 4$ ECC=0.00026 (1965Oh01)
56COB G BM1W>0.00041
56CO L 1450.69 50+ 1.58 NS 6
56CO cL T weighted average of 1.57 ns {I7} (1974Ho25) and 1.61 ns {I10}
56CO2cL (1963We06).
56CO E 0.50 LT 7.1 GT
56COS E CK=0.8865 $CL=0.09669 $CM+=0.01685
56CO G 480.44 2 36.5 8 E2 C
56CO3 G ECC=0.00150 15 (1964Je03)
56COB G BE2W=1.10 5
56CO L 1720.19 51+
56CO E 100 4.4
56COS E CK=0.8851 $CL=0.09781 $CM+=0.01707
56CO G 269.50 2 36.5 8 M1 C
56CO3 G ECC=0.0034 2 (1964Je03)
56CO G 749.95 3 49.5 12M1(+E2) 0.00 3 C
56CO3 G EKC+ELC=0.00014 4$ECC=0.00031 (1965Oh01)
56CO G 1561.80 5 14.0 6 E2 C