195HG    195HG IT DECAY (41.6 H)       1973VI09                  14NDS    201408
195HG  H TYP=FUL$AUT=Huang Xiaolong and Kang Mengxiao$CIT=NDS 121, 395 (2014)$
195HG2 H CUT=1-Mar-2014$
195HG  P   176.07   413/2+             41.6 H    8
195HG c  Others: 1957An53, 1961Ju06, 1966Ha47, 1969Ba42, and 1971Fr03.
195HG c  1973Vi09: measured E|g, I|g, I(ce)/1|*10{+4}(|e+IT decay) isomer
195HG2c  decays; magnetic spectrometer and Si(Li) or Ge(Li).
195HG c  Sources produced by {+197}Au(p,3n) (1970Ca07,1963Ti02) and
195HG2c  {+194}Pt({+3}He,2n) (1971Fr03).
195HG  N 0.0187    6 0.0187  6 0.542   20
195HG cN BR$%IT=54.2 {I20} from I|g(37|g)/I|g(560|g)=0.247 {I14}
195HG2cN (1966Ha47,1973Vi09). Other %IT: 54.5 {I21} from
195HG3cN Ice(122.8|g)/Ice(56.8|g)=1.21 {I7} (1973Vi09), 49 (1970Ca07),
195HGxcN 47.8 {I5} (1967Fr05), 51 (1971Fr03).
195HG PN                                                                     3
195HG cL E$From E|g and decay scheme using least-squares fit to data.
195HG cL J$From adopted levels.
195HG cG           All data are from 1973Vi09, except as noted.
195HG cG RI        Relative intensity normalized to I|g(E|g=122.7 keV)=2.90 {I8}
195HG  L 0.0         1/2-              10.53 H   3
195HG  L   37.088  253/2-              50 PS     LT
195HG cL T         deduced from (123|g)(16|g)(t) and (123|g)(37|g)(t) (1969Ba42)
195HG  G 37.09     3 190     6 M1+E2     0.021   4     26.4
195HGS G LC=20.2 3$MC=4.72 7$NC+=1.424 21
195HG cG RI        from I(ce(L1))=3540 {I110} and |a(L1)exp=18.7, and
195HG2cG measured total I(ce)=5155 {I204} (1973Vi09)
195HG cG M         from |a(L1)exp:|a(L2)exp:|a(L3)exp:|a(M1)exp:|a(M2)exp:|a(M3)
195HG2cG exp:|a(N)exp:|a(O+...)exp= 100 {I3}:11.4 {I6}:1.5 {I2}:21.9 {I11}:2.7
195HGxcG {I3}:0.33 {I4}:6.3 {I4}:1.50 {I8}
195HG cG MR        from |a(L2)exp/|a(L1)exp=0.114 {I7} (1973Vi09), 0.112 {I12}
195HG2cG (1969Ba42), 0.115 (1961Re12) and |a(M2)exp/|a(M1)exp=0.125 {I13}
195HG3cG (1973Vi09). |a(L3)exp/|a(L1)exp and |a(M3)exp/|a(M1)exp ratios deviate
195HGxcG below theory possibly because of penetration effect
195HG  L   53.292  255/2-              0.72 NS   3
195HG cL T         0.72 ns {I3} (1969Ba42) (ce(L3) 123|g)(ce(M) 16.2|g)(t) and
195HG2cL 0.73 ns {I3} (1969Ba42) (ce(L3) 123|g)(ce(L) 37|g)(t).
195HG3cL Other: 0.79 ns {I7} (1961Re12) (ce(L) 123|g)(ce(L) 37|g)(t)
195HG  G 16.207    3016.5    21M1+E2     0.020   3     315    7
195HGS G LC=240 5$MC=57.1 13$NC+=17.2 4
195HG cG RI        derived from I(ce(M))=1129 {I130} (1973Vi09) and |a(M)=61
195HG cG M         from |a(M1)exp:|a(M2)exp:|a(M3)exp:|a(N1)exp:|a(N2)exp:|a(O+.
195HG2cG ..)exp= 100 {I10}:13.5 {I14}:4.1 {I7}:25 {I2}:3.6 {I6}:6.2 {I5}
195HG3cG (1973Vi09). Other |a(M1)exp:|a(M2)exp:|a(M3)exp=100:14.2 {I29}:7.1
195HG3cG {I19} (1969Ba42), 100:15 {I6}:5 {I2} (1961Ju06).
195HG cG MR        based on M-subshell ratios of 1973Vi09
195HG  G 53.29     3 0.94    7 E2                      99.8
195HGS G LC=74.8 11$MC=19.5 3$NC+=5.62 8
195HG cG RI        calculated from I(ce(L2))=38 {I3}, I(ce(L3))=32 {I2}
195HG2cG (1973Vi09), and |a(L2)=37.5, |a(L3)=37.0
195HG cG M         from |a(L1)exp:|a(L2)exp:|a(L3)exp:|a(M2)exp:|a(M3)exp=<7:119
195HGxcG {I9}:100 {I6}:24 {I4}:30 {I5}
195HG  L   176.07   413/2+             41.6 H    8                           M
195HG2 L %IT=54.2 20$
195HG cL T$from |g(t) measurement (1973Vi09). Others: 43 h {I5} (1961Ju06),
195HG2cL 42 h {I3} (1954Br56), 40.0 h {I5} (1953Hu44), and 38.0 h (1951Mo55).
195HG  G 122.78    3 2.90    8 M4                      1.84E3
195HGS G KC=159.3 23$LC=1179 17$MC=385 6$NC+=118.0 17
195HG cG RI        calculated from I(ce(L3))=2400 {I70} and |a(L3)=828,
195HG2cG and measured total I(ce)=5535 {I280} (1973Vi09)
195HG cG M$from |a(K)exp:|a(L1)exp:|a(L2)exp:|a(L3)exp:|a(M1)exp:|a(M2)e
195HG2cG xp:|a(M3)exp:|a(M4)exp+|a(M5)exp:|a(N)exp= 19.3 {I13}:40.2 {I16}:8.2
195HG3cG {I6}:100.0 {I3}:11.8 {I8}:3.2 {I4}:30 {I18}:2.3 {I2}:13.3. Others:
195HGxcG |a(K)exp:|a(L1)exp:|a(L2)exp:|a(L3)exp=15.0 {I24}:41 {I2}:9.7
195HGxcG {I12}:100 (1969Ba42,1961Ju06).