236NP    240AM A DECAY                 1970GO42                  22NDS    202205
236NP  H TYP=FUL$AUT=Shaofei Zhu$CIT=NDS 182, 2 (2022).$CUT=1-Apr-2022$
236NP c  1970Go42: {+240}Am produced by reaction {+239}Pu(d,n) and chemically
236NP2c  separated. Measured E|a and I|a and T{-1/2} by Si surface barrier
236NP3c  detector with FWHM=20 keV.
236NP cA IA$From 1970Go42.
236NP cA HF$r{-0}({+236}Np)=1.5049 {I46}, unweighted average of
236NP2cA r{-0}({+238}Pu)=1.501258 {I57},  r{-0}({+236}Pu)=1.4947 {I17},
236NP3cA r{-0}({+234}U)=1.50745 {I13},  r{-0}({+236}U)=1.51631 {I11} from
236NP4cA 2020Si16.
236NP cL E$Deduced by evaluator using E|a and Q|a, except where noted.
236NP cL J(A)$Favored |a decay from  ((|p5/2[523])-(|n 1/2[631]))3- with I|a
236NP2cL and E|a in agreement with the rotational band built on this
236NP3cL configuration.
240AM  P 0            (3-)              50.8 H    3              5.71E+3  5
240AM cP J,T$From the Adopted Levels of {+240}Am (2008Si25).
240AM cP QP$From 2021Wa16.
236NP  N 1            1         1.9E-6 AP
236NP cN NR,BR$From the Adopted Levels of {+240}Am (2008Si25).
236NP  L 0            6(-)              1.55E+5 Y 1
236NP cL E,J,T$from Adopted Levels.
236NP  L 57        51 1(-)              22.5 H    4                          M
236NP cL E,J,T$from Adopted Levels.
236NP  L 241       50 (3-)                                                  A
236NP  A 5378      1 86.8    101.7     AP
236NP  L 283       50 (4-)                                                  A
236NP  A 5337      2 12.0    4 7.1     AP
236NP  L 334       50 (5-)                                                  A
236NP  A 5286      3 1.23    1034      AP