268DB    272BH A DECAY (10.5 S)        2004OG03,2013RU11,2013OG0119NDS    201902
268DB  H TYP=FUL$AUT=BALRAJ SINGH$CIT=NDS 156, 148 (2019)$CUT=31-Jan-2019$
268DB c  {+272}Bh produced in |a-decay chain:
268DB2c  {+288}Mc -> {+284}Nh -> {+280}Rg -> {+276}Mt -> {+272}Bh,
268DB3c  where {+288}Mc produced in {+243}Am({+48}Ca,3n)
268DB c  See {+272}Bh Adopted Levels for details of production and half-life of
268DB2c  the isotope.
268DB cA E,IA$From 2013Ru11
272BH  P 0                             10.5 S    +15-11         9300      50
272BH cP T$From {+272}Bh Adopted Levels
272BH cP QP$From 2017Wa10
268DB  N                       1.0     AP
268DB cN BR$Assumed %|a=100 for {+272}Bh decay
268DB  L 0                               28 H    3
268DB cL T$from Adopted Levels
268DB  A 9.07E3    1 75
268DB cA E$other: 9.02 MeV {I6} (2004Og03). Assumed as g.s. to g.s.
268DB2cA |a transition
268DB  L 140       AP
268DB  A 8.93E3    1 25
268DB  G 140       AP
268DB cG E$from 2013Ru11, based on E|a values. Authors mention that the
268DB2cG simulated |g-ray yield is marginal and consistent with an empty
268DB3cG spectrum from the Ge detector.
268DB cG M$M1 or E2 suggested by 2013Ru11, but no arguments are provided. It is
268DB2cG that the |g-ray would have been seen clearly if it were E1.