236U 236NP EC DECAY (155E+3 Y) 1983AH02,1981LI30 22NDS 202205 236U H TYP=FUL$AUT=Shaofei Zhu$CIT=NDS 182, 2 (2022).$CUT=1-Apr-2022$ 236U c 1983Ah02: Activity from {+238}U(d,4n), E=21 MeV, chemically purified 236U 2c from other reaction products. Measured |g, ce, K| x ray, |g|g. 236U c 1981Li30: Activity from {+235}U(d,n), E=16 MeV, chemically purified 236U 2c from other reaction products. Measured |a, |g, |g|g, ce, 236U 3c mass-spectrometric measurement for {+235}U/{+236}U ratio to determine 236U 4c T{-1/2}. 236U c Relative to I|g(160.3|g)=100, the measured x-ray intensities: 236U 2c I(K|a{-1})=99 {I3}; I(K|a{-2})=61 {I2}; 236U 3c I(K|b{-1})+I(K|b{-3})+I(K|b{-5})=38 {I2}; I(K|b{-2})+I(K|b{-4})=13.1 236U 4c {I7} (1983Ah02). 236U cG RI$From 1983Ah02, unless otherwise noted. 236U cG $Normalization factor=0.316 {I10} from I|g(160.3|g)=36 {I1} per 100 |e 236U 2cG decay (1983Ah02) and |e branching=0.878 {I2}. 236U cL E$From a least-squares fit to |g-ray energies. 236U cL J,T$From Adopted Levels. 236U c $Decay scheme beyond 309.79-keV, 6+ state from 1981Li30. 236U cE IE,TI$From intensity balances. 236U cG E,M$From Adopted Gammas, unless otherwise noted. 236U D CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr. 236NP P 0 6(-) 1.55E+5 Y 1 9.3E+2 5 236NP cP QP$From 2021Wa16. 236U N 0.36 1 0.878 2 236U cN BR$From {+236}Np Adopted Levels. 236U PN 0.316 10 1 3 236U L 0 0+ 2.342E7 Y 4 236U L 45.243 3 2+ 236U G 45.243 2 0.4 1 E2 589 8 236U S G LC=429 6$MC=118.6 17$NC=32.1 5$OC=7.36 10$PC=1.191 17$QC=0.00285 4 236U cG RI$from 1983Ah02. 236U L 149.480 5 4+ 236U G 104.237 4 23 1 E2 10.99 15 236U S G LC=8.00 11$MC=2.220 31$NC=0.603 8$OC=0.1385 19$PC=0.02268 32$ 236U S G QC=9.41E-5 13 236U cG E,RI$from 1983Ah02; 236U cG M$from |a(exp)=12 {I1} and (L1+L2)/L3|?2 (1983Ah02) 236U L 309.788 6 6+ 236U G 160.308 3 100 4 E2 1.761 25 236U S G KC=0.2079 29$LC=1.132 16$MC=0.313 4$NC=0.0850 12$OC=0.01958 27$ 236U S G PC=0.00325 5$QC=2.327E-5 33 236U cG M$from |a(exp)=1.8 {I2} and (L1+L2)/L3|?2 (1983Ah02). 236U E 87 4 14.1 1 87 4 236U S E CK=0.726 8$CL=0.201 5$CM+=0.0729 22 236U cE LOGFT$the large value for log| {Ift} is the result of high 236U 2cE K-hindrance. 236U L 687.55 4 1- 3.78 NS 9 236U cL E$populated from the decay of 848-keV level fed by |e (1981Li30). 236U G 538.09 7 0.001 E3 0.20 8 236U X G EKC=0.11 5 236U cG RI$deduced from Adopted decay branch ratios with I|e=0.1% (1981Li30). 236U cG CC,EKC$from Adopted Gammas. 236U G 642.23 7 0.08 E1(+M2+E3) 0.15 2 236U X G EKC=0.111 10$ELC=0.031 9 236U cG RI$deduced from Adopted decay branch ratios and I(|g+ce) balance with 236U 2cG I|e=0.1% (1981Li30). 236U cG CC,EKC,ELC$from Adopted Gammas. 236U G 687.59 6 0.02 E1 0.31 2 236U X G EKC=0.219 14$ELC=0.069 9 236U cG CC,EKC,ELC$from the Adopted Gammas. 236U cG RI$deduced from Adopted branching ratios with I|e=0.1% (1981Li30). 236U L 744.2 8 3- 236U cL E$populated from the decay of 848-keV level fed by |e (1981Li30). 236U G 56.6 8 0.0016 [E2] 199 14 S 236U S G LC=145 11$MC=40.1 29$NC=10.9 8$OC=2.50 18$PC=0.405 29$QC=0.00107 7 236U cG RI$deduced from I(|g+ce) balance (1981Li30). 236U L 847.6 13 5- 236U cL E$assuming the observed 642.4|g and 687.6|g are from the decay of 236U 2cL this level fed by |e (1981Li30). 236U G 103.4 0.0254 (E2) 11.41 16 S 236U S G LC=8.31 12$MC=2.305 32$NC=0.626 9$OC=0.1438 20$PC=0.02355 33$ 236U S G QC=9.69E-5 14 236U cG RI$deduced from I(|g+ce) balance with I|e=0.1% (1981Li30). 236U E 0.100 1014.5 12 0.100 10 236U S E CL=0.6 4$CM+=0.4 4 236U cE IE$from 1981Li30.