101RH    101RH IT DECAY (4.34 D)       1971SI16,1985VA15         ENSDF    200610
101RH  H TYP=FUL$AUT=JEAN BLACHOT$CIT=ENSDF$CUT=1-Jul-2006$
101RH cG RI$Relative to I|g(307|g,{+101}Ru)=100
101RH cG M         Deduced from K/L, L-subshell ratios, and |a(K)exp data
101RH cG           |a(K)exp=ce(K)/I|g normalized to
101RH2cG |a(K)(307|g,{+101}Ru)=0.01364 (M1+1% E2 theory)
101RH cL J,T$From adopted levels
101RH  P 157.32      9/2+              4.34 D    1
101RH  N 11.953    8 11.2    8 0.0720  25
101RH cN NR        from I|g(157|g,M4) and |a=29.7
101RH cN BR$from I|g(157|g)/I|g(307|g,{+101}Ru)={ 0.00280 {i5}} (1985Va15)
101RH PN                                                                     3
101RH  L 0.0         1/2-              3.3 Y     3
101RH  L 157.32      9/2+              4.34 D    1                           M1
101RH cL T         4.34 d {i1} (1966Ar05), 4.39 d {i8} (1968Li08), 4.43 d {i6}
101RH2cL (1965Ev04). Others: 1948Li03, 1952Sc11, 1956Ka25
101RH cL           g-factor=+{ 1.22 {i2}} (1973Ka28); fits empirical g-factor
101RH2cL syst of regional g9/2 proton states
101RH  G 157.41    4 0.280   5 M4                      29.2
101RHS G KC=21.1 3$LC=6.61 10$MC=1.332 19$NC+=0.218 3
101RHS G NC=0.211 3$OC=0.00642 9
101RH cG E         from 1965Ev04, 1971Si16 ce s. Others: { 157.26 {i3}}
101RH2cG (1966De06), { 157.42 {i5}} (1974HeYW), { 157.41 {i4}} (1985Va15)
101RH cG RI$from 1985Va15. Others: 0.29 {i2} (1971Si16) 0.31 {i8} (1974HeYW),
101RH2cG 0.27 {i1} (1970Ph04)
101RH cG           I(ce(K) 157|g)/I(ce(K) 307|g,{+101}Ru)=4.22 {i15} (1971Si16),
101RHxcG 4.5 (1965Ev04)
101RH cG           K/L={ 3.17 {i5}}, L1/L3+L2={ 1.16 {i4}}, L3/L2>2 (1971Si16)
101RH cG           |a(K)exp=19.9 {i16} (1971Si16). Other: 21.6 {i10} (1970Ph04)
101RH cG           |a(exp)={ 30 {i2}} (1970Ph04)
101RHB G BM4W=2.25 11