167RE    171IR A DECAY (3.2 S)         2013AN10,2010AN01         23NDS    202309
167RE  H TYP=FUL$AUT=Balraj Singh and Jun Chen$CIT=NDS 191, 1 (2023)$
167RE2 H CUT=22-Aug-2023$
167RE c  2013An10, 2010An01: {+171}Ir from |a decay chain of {+179}Tl produced
167RE2c  in two reactions. First reaction E(p)=1.4 GeV at ISOLDE. Target=50
167RE3c  g/cm{+2} {+238}U. {+179}Tl ionized to 1+ charge by the Resonance
167RE4c  Ionization Laser Ion Source (RILIS) and mass separated by the High
167RE5c  Resolution (HRS) and General Purpose (GPS) Separators. Second reaction
167RE6c  E({+40}Ca)=232 MeV provided by the UNILAC at GSI. Target|?350
167RE7c  |mg/cm{+2} {+144}Sm. Separated by the velocity filter SHIP. Measured
167RE8c  E|g, I|g, E|a, I|a, T{-1/2}, yield using a single Miniball Ge cluster
167RE9c  and a PSSD. Deduced J|p, and |a branching ratio.
167RE cA HF$The nuclear radius parameter r{-0}({+167}Re)=1.5595 {I50}
167RE2cA is deduced from interpolation (or unweighted average) of radius
167RE3cA parameters of the adjacent even-even nuclides (2020Si16)
171IR  P 0.0          (1/2+)           3.2 S     +13-7          5997      12
171IR cP E,J,T$From {+171}Ir Adopted Levels in the ENSDF database (June 2018
171IR2cP update), where half-life is based on measurements by 2002Ro17
171IR cP QP$5997 {I12} from systematics (2021Wa16)
167RE  N                       0.15    2
167RE cN BR$%|a=15 {I2} from {+171}Ir Adopted Levels in the ENSDF database
167RE2cN (June 2018 update), where data are from 2013An10
167RE  L 0.0          (1/2+)            3.4 S    4
167RE cL E,J,T$from the Adopted Levels
167RE  A 5734      9  100        2.6   12
167RE cA E$from 2013An10. Statistical uncertainty of 7 keV and systematic
167RE2cA uncertainty of 5 keV added in quadrature. Statistical uncertainty from
167RE3cA Gaussian fit of |a-decay peak. Systematical uncertainty of about 5 keV
167RE4cA from calibration procedures used at SHIP and ISOLDE.