90PD ADOPTED LEVELS 20NDS 202005 90PD H TYP=FUL$AUT=S. K. Basu, E.A. MCCUTCHAN$CIT=NDS 165, 1 (2020)$ 90PD2 H CUT=1-Mar-2020$ 90PD Q 1140 SY-2360 SY 2017WA10 90PD cQ $|DS(p)=540; |DQ(|a)=570 (2017Wa10) 90PD cQ $S(2p)=-50 (syst) {I500}; Q(|ep)=11260 (syst) {I500} (2017Wa10) 90PD c First identification of {+90}Pd nuclide. 90PD c 2016Ce02: {+90}Pd nuclide produced and identified at RIBF-RIKEN 90PD2c facility in {+9}Be({+124}Xe,X) reaction at E=345 MeV/nucleon. 90PD3c Separation of ions based on B|r-tof-|DE measurements using the 90PD4c BigRIPS separator and Zero Degree spectrometer (ZDS). Nuclei were 90PD5c implanted in a wide range silicon-strip stopper array for ion and |b 90PD6c particle detection (WAS3ABi), consisting of three highly-segmented 1 90PD7c mm thick double-sided silicon detectors and a stack of ten segmented 1 90PD8c 1 mm thick single-sided silicon strip detectors. Deduced existence of 90PD9c {+90}Pd. 90PD L 0 0+ 90PD2 L %EC+%B+=100$%ECP=?$%2P=? 90PD cL %EC+%B+$expected decay modes assigned by the evaluators. Systematic 90PD2cL values suggest {+90}Pd is bound to 1 proton emission 90PD3cL (S(p)=1140 syst {I540}) 90PD4cL but potentially unbound (S(2p)=-50 {I500}) to 2p emission (2017Wa10). 90PD cL $A total of two events were assigned by 2016Ce02 to {+90}Pd 90PD cL T$> 760 ns from time-of-flight (2016Ce02) through the BigRIPS 90PD2cL fragment separator and ZDS spectrometer (2016Ce02). Theoretical 90PD3cL calculations predict a T{-1/2} of 73 ms (2019Mo01).