236U 236PA B- DECAY 1984MI02 22NDS 202205
236U H TYP=FUL$AUT=Shaofei Zhu$CIT=NDS 182, 2 (2022).$CUT=1-Apr-2022$
236U c $Decay scheme proposed in 1984Mi02. Others: 1968Tr07, 1973Ka10 and
236U 2c 1973Or06.
236U cB IB$From |g-ray intensity balance.
236U cG E,RI$From 1984Mi02, unless otherwise noted.
236U cG E(H)$Assignment to {+236}Pa |b{+-} decay is uncertain.
236U cG M,MR$From Adopted Gammas.
236U cL E$Deduced by the evaluator from a least-squares fit to |g-ray
236U 2cL energies.
236U cL J,T$From Adopted Levels.
236U D CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
236PA P 0 1(+) 9.1 M 1 2889 14
236PA cP QP$From 2021Wa16.
236U N 1.0 1.0
236U cN NR$From measurement of absolute |b-ray (4|p gas counter) and absolute
236U 2cN |g-ray (a calibrated Ge(Li) detector) rates (1984Mi02).
236U G 68.8 0.3 LE
236U F G FLAG=H
236U G 349.7 2 0.23 4
236U G 453.4 5 0.5 LT
236U F G FLAG=H
236U G 587.0 2 0.2 LT
236U F G FLAG=H
236U G 626.9 2 0.23 5
236U G 696.3 2 0.19 4
236U G 740.8 2 0.33 5
236U G 990.9 2 0.55 6
236U G 1155.9 1 0.40 5
236U G 1283.7 1 1.14 7
236U G 1517.8 1 1.25 7
236U G 1587.0 2 0.66 6
236U G 1749.0 2 0.33 4
236U G 1773.5 3 0.30 3
236U G 1907.5 1 0.60 8
236U G 1917.2 2 0.06 2
236U G 1948.1 2 0.91 9
236U L 0 0+ 2.342E7 Y 4
236U B 10 AP 7.8 AP
236U S B EAV=1075.7 58
236U cB IB$intensity balance results in I|b(0+)+I|b(2+)=20.7 {I8}. I|b|?10
236U 2cB from 1968Tr07.
236U L 45.2431 20 2+
236U G 45.243 2 0.117 AP E2 589 8
236U S G LC=429 6$MC=118.6 17$NC=32.1 5$OC=7.36 10$PC=1.191 17$QC=0.00285 4
236U cG E$from Adopted Gammas
236U cG RI$estimated from I|b(0+)+I|b(2+)=20.7 {I8} and I|b(0+)|?10.
236U B 10 AP 7.7 AP
236U S B EAV=1057.0 58
236U cB IB$I|b(2+)|?10 from I|b(0+)|?10 (1968Tr07) and I|b(0+)+I|b(2+)=20.7
236U 2cB {I8}.
236U L 149.480 5 4+
236U G 104.237 4 0.15 LE E2 10.99 15
236U S G LC=8.00 11$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$from Adopted Gammas.
236U L 687.56 4 1- 3.78 NS 9
236U G 538.09 7 0.58 9 E3 0.20 8
236U X G EKC=0.11 5
236U cG E,CC,EKC$from the Adopted Gammas.
236U G 642.23 7 37.0 20E1(+M2+E3) 0.15 2
236U X G EKC=0.111 10$ELC=0.031 9
236U cG E,CC,EKC,ELC$from the Adopted Gammas.
236U G 687.59 6 9.9 5 E1 0.31 2
236U X G EKC=0.219 14$ELC=0.069 9
236U cG E,CC,EKC,ELC$from the Adopted Gammas.
236U B 48 3 6.64 3
236U S B EAV=793.0 57
236U L 744.17 7 3-
236U G 56.6 8 0.017 1 (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$QC=0.00107 7
236U cG E$from Adopted Gammas. Not observed in {+236}Pa |b{+-} decay.
236U cG RI$deduced by the evaluator by assuming negligible |b{+-} decay to
236U 2cG the 744-keV level (J|p=1- to J|p=3-) and using |a(E2)=199 for this |g
236U 3cG ray.
236U G 594.5 3 0.32 5 [E1] 0.0096414
236U S G KC=0.00781 11$LC=0.001381 19$MC=0.000330 5$NC=8.83E-5 12$
236U S G OC=2.128E-5 30$PC=4.01E-6 6$QC=2.91E-7 4
236U L 919.225 20 0+
236U G 873.98 2 0.51 5 [E2] 0.0143920
236U S G KC=0.01060 15$LC=0.00283 4$MC=0.000711 10$NC=0.0001917 27$
236U S G OC=4.58E-5 6$PC=8.47E-6 12$QC=4.85E-7 7
236U B 0.52 5 8.42 5
236U S B EAV=699.1 57
236U L 957.99 18 2+
236U G 958.0 2 0.84 9
236U B 0.26 11 8.69 19
236U S B EAV=683.4 57
236U L 966.58 9 (1-)
236U G 222.4 1 0.21 LT ?
236U F G FLAG=H
236U G 279.0 1 0.53 3
236U G 921.2 2 0.4 1 (E1) 0.004326
236U S G KC=0.00353 5$LC=0.000599 8$MC=0.0001423 20$NC=3.81E-5 5$OC=9.22E-6 13$
236U S G PC=1.757E-6 25$QC=1.345E-7 19
236U G 966.8 2 0.91 8 (E1) 0.003976
236U S G KC=0.00325 5$LC=0.000549 8$MC=0.0001302 18$NC=3.49E-5 5$OC=8.44E-6 12$
236U S G PC=1.610E-6 23$QC=1.239E-7 17
236U B 1.85 14 7.83 4
236U S B EAV=680.0 57
236U L 987.65 8 2-
236U G 243.6 2 0.23 3 M1+E2 1.5 4 0.81 21
236U S G KC=0.51 19$LC=0.216 13$MC=0.0564 23$NC=0.0153 6$OC=0.00360 17$
236U S G PC=0.00064 4$QC=2.6E-5 9
236U G 300.0 1 0.15 3 [M1+E2] 0.6 4
236U S G KC=0.4 4$LC=0.12 4$MC=0.030 7$NC=0.0081 20$OC=0.0019 5$PC=3.6E-4 11$
236U S G QC=2.1E-5 16
236U G 942.4 2 0.87 6 (E1) 0.004156
236U S G KC=0.00339 5$LC=0.000575 8$MC=0.0001365 19$NC=3.66E-5 5$OC=8.85E-6 12$
236U S G PC=1.686E-6 24$QC=1.294E-7 18
236U B 1.11 15 8.04 6
236U S B EAV=671.5 57
236U L 1110.66 8 (2-)
236U G 366.6 1 0.78 9 0.577 8
236U G 423.1 1 0.95 5 0.391 5
236U G 1065.0 2 0.32 4
236U B 2.18 18 7.64 4
236U S B EAV=622.2 56
236U L 1271.09 7 (1-,2,3)
236U G 526.7 2 0.31 3
236U G 583.5 2 0.2 LT S
236U F G FLAG=H
236U G 1225.9 1 0.80 6
236U B 0.35 10 8.28 13
236U S B EAV=558.5 56
236U L 1604.80 7 (1-,2+)
236U G 333.7 1 0.82 4 0.054 23
236U G 617.1 2 0.21 4
236U G 860.6 1 0.76 2
236U G 917.0 3 1.37 8
236U G 1559.6 1 2.2 2
236U G 1604.9 2 0.4 1
236U B 4.7 3 6.79 4
236U S B EAV=428.4 54
236U L 1662.36 8 (1,2+)
236U G 674.5 2 0.21 7
236U G 975.0 2 0.19 5
236U G 1617.1 1 0.91 8
236U G 1662.4 2 0.60 6
236U B 1.91 14 7.11 4
236U S B EAV=406.4 54
236U L 1807.88 7 (1,2+)
236U G 1762.7 1 6.0 3
236U G 1807.8 1 2.24 12
236U B 8.2 4 6.28 3
236U S B EAV=351.5 53
236U L 1865.39 15 (1,2+)
236U G 1177.7 2 0.36 5
236U G 1865.5 2 0.24 3
236U B 0.60 6 7.33 5
236U S B EAV=330.2 52
236U L 1972.62 9 (1,2+)
236U G 1006.3 5 0.15 LT ?
236U F G FLAG=H
236U G 1927.0 2 1.02 7
236U G 1972.7 1 1.02 9
236U B 2.04 12 6.64 4
236U S B EAV=290.8 51
236U L 1979.15 8 (1-,2)
236U G 1234.9 1 1.09 7
236U G 1291.6 1 1.09 7
236U G 1934.1 2 1.07 7
236U B 3.25 13 6.42 3
236U S B EAV=288.5 51
236U L 1981.06 16 (1,2+)
236U G 870.4 2 0.69 6
236U G 1023.1 3 0.58 5
236U G 1981.0 3 0.51 5
236U B 1.78 10 6.68 4
236U S B EAV=287.8 51
236U L 2086.54 9 1(-)
236U G 2041.3 1 1.67 9 (E1) 1.66E-32
236U S G KC=0.000929 13$LC=0.0001512 21$MC=3.57E-5 5$NC=9.57E-6 13$
236U S G OC=2.325E-6 33$PC=4.48E-7 6$QC=3.64E-8 5
236U G 2086.5 2 0.93 8 (E1) 1.65E-32
236U S G KC=0.000896 13$LC=0.0001458 20$MC=3.44E-5 5$NC=9.22E-6 13$
236U S G OC=2.242E-6 31$PC=4.32E-7 6$QC=3.52E-8 5
236U B 2.60 12 6.33 4
236U S B EAV=249.9 50
236U L 2155.40 12 (0,1,2)
236U G 550.6 1 1.08 6
236U G 884.0 2 0.15 LT ?
236U B 1.08 6 6.58 4
236U S B EAV=225.6 49
236U L 2226.9 3 (0,1,2)
236U G 2078.5 5 0.09 LT ?
236U G 2181.6 3 0.18 5
236U B 0.18 5 7.21 13
236U S B EAV=200.8 49