235U 239PU A DECAY 1993SC22 14NDS 201411
235U H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 122, 205 (2014)$
235U 2 H CUT=1-Feb-2014$
235U D Modified by E. Browne, BRICC conversion coefficients, IA from G-ray
235U 2D transition-intensity balances, new alpha hindrance factors
235U 3D (Dec. 11, 2013).
235U c The decay scheme is given as presented in 1993Sc22.
235U c For coincidence measurements information see 1971Ar47.
235U cA HF$Using r{-0}({+235}U)=1.5122, average of r{-0}({+234}U)=1.5075
235U 2cA and r{-0}({+236}U)=1.5168 (1998Ak04).
235U cA Others: 2013Fe03, 2012Ni16,1996Vi07, 1996Ra09,
235U 2cA 1996Pa22, 1996Ga19, 1996Co28, 1996Bu50, 1996Bo19, 1995Bo32, 1994Ra27,
235U 3cA 1994Sa63, 1993Ya17, 1993Ha30, 1992Ma04, 1992Ga25.
235U cA E$From 1968Ba25, 1971Ar47, 1981AhZV, unless otherwise
235U 2cA specified (E|a values in parentheses have been calculated from Q(|a)
235U 3cA and level energies). Other: 1999Sa15.
235U cA E(R)$Evaluated alpha-particle energies from 1991Ry01.
235U cA IA(X)$From 1993Ga28: values are combined results from measurements
235U 2cA at CIEMAT (Spain) and IRMN (Belgium).
235U cA IA From 1976BaZZ and 1971Ar47, unless otherwise specified.
235U DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
235U cG K|a{-2}| x ray={ 0.00417% {I4}}, K|a{-1}| x
235U 2cG ray={ 0.00652% {I9}}, K|b{-1}'| x ray={ 0.002387% {I17}}, K|b{-2}'| x
235U xcG ray={ 0.000216% {I15}}, L{-{Sl}} x ray={ 0.0996% {I11}}, L{-|a} x
235U 3cG ray={ 1.649% {I18}}, L{-|c} x ray={ 0.0566% {I10}}, L{-|b} x
235U xcG ray={ 2.30% {I2}}, L{-|g} x ray={ 0.568% {I6}}, L| x ray={ 4.67% {I5}}
235U xcG (1992Bl07,1994Mo36).
235U cG L{-{Sl}} x ray={ 0.1016% {I17}}, L{-|a} x
235U 2cG ray={ 1.648% {I36}}, L{-|c} x ray={ 0.0544% {I9}}, L{-|b} x
235U xcG ray={ 2.28% {I5}}, L{-|g} x ray={ 0.579% {I14}}, L| x
235U xcG ray={ 4.66% {I6}} (1994Le37).
235U cG K|a{-2}| x ray={ 0.00422% {I1}}, K|a{-1}| x
235U 2cG ray={ 0.00676% {I2}} (1976GuZN); L| x ray={ 6.7% {I10}} (1966Ah02).
235U cG |g rays at 313.5 and { 1057.3 keV} were reported in 1971GuZY
235U 2cG but not in 1976GuZN
235U cG E$E|g from (n,|g) (1979Al03) above { 600 keV} are
235U 2cG |?{ 0.1 keV} systematically higher than E|g from 1976GuZN.
235U 3cG Some |DE of multiply placed |g rays have been estimated by evaluators
235U 2cG on the basis of (n,|g) results.
235U cG E$From 1968Cl02, 1971GuZY, 1976GuZN, 1982He02, 1992Bl07.
235U cG RI$From 1976GuZN, unless otherwise
235U 3cG specified. Other measurements: 1966Ah02, 1966Ho09, 1968Cl02, 1971GuZY,
235U 4cG 1981UmZZ, 1982He02, 1984Iw02, 1992Ba08, 1997Bu23, 1992Co10, 1997Ko52.
235U cG RI(L)$From 1986LoZT
235U cG M,MR$From ce data in 1965Tr03 and adopted I|g, unless otherwise
235U 2cG specified. Some |d were deduced from |g-ray intensity balances using
235U 3cG experimental |a-particle intensities.
235U cG M(M) From (n,|g) results in 1979Al03
235U cG M(I) From intensity balance
235U cG M(C)$From Coul. ex.
235U cG E(E) |g placed more than once in the decay scheme
235U cG RI(X) Absolute |g-ray intensity measurement (1994Mo36).
235U cG E(Y) From (1994Mo36).
235U cG E(Q) Assignment to {+239}Pu |a decay is uncertain.
235U cL E$From a least-squares fit to |g-ray energies from {+239}Pu |a decay.
239PU P 0 1/2+ 24110 Y 30 5244.50 21
235U N 1.00E-6 1.00E-6 1
235U PN 3
235U cN NR Based on measurements in 1994Mo36.
235U G 14.22 3 5.5E3 4 X
235U 3 G FLAG=Y
235U cG Reported only in 1994Mo36
235U G 40.41 5 162 16 Q
235U cG Reported only in 1976GuZN
235U G 74.96 10 38 6 Q
235U cG From 1971GuZY. A { 74.88 {I7}} |g ray was reported in Coul.
235U 2cG ex. deexciting the { 608.1 {I11}}/2+ state; however, no strong |a
235U 3cG intensity from {+239}Pu decay to this level was detected.
235U G 184.55 5 2.1 7 [M1] 3.89
235U S G KC=3.09 5$LC=0.602 9$MC=0.1455 21$NC+=0.0507 8
235U S G NC=0.0392 6$OC=0.00954 14$PC=0.00184 3$QC=0.0001468 21
235U G 193.13 12 8.9 9
235U G 196.87 5 3.7 4
235U G 350.8 3 1.8 4
235U G 446.82 20 0.84 20
235U G 497.0 5 0.046 23
235U G 538.8 2 0.30 2
235U G 557.3 5 0.038 19
235U G 608.9 2 0.116 12
235U G 650.529 60 0.27 4
235U G 685.97 11 0.87 3 E1 M
235U S G CC=0.00736 11$KC=0.00599 9$LC=0.001043 15$MC=0.000248 4$NC+=8.59E-5 12
235U S G NC=6.66E-5 10$OC=1.606E-5 23$PC=3.04E-6 5$QC=2.25E-7 4
235U G 688.1 3 0.111 11
235U G 693.2 5 0.03 1 @
235U G 699.6 5 0.079 16
235U G 712.96 5 0.052 6
235U G 742.7 5 0.038 13
235U G 777.1 3 0.028 7
235U G 786.9 2 0.086 9 E2 0.01771 M
235U S G KC=0.01275 18$LC=0.00370 6$MC=0.000935 14$NC+=0.000324 5
235U S G NC=0.000252 4$OC=6.01E-5 9$PC=1.104E-5 16$QC=5.94E-7 9
235U G 788.5 3 0.035 7
235U G 796.9 3 0.015 3
235U G 803.2 2 0.064 5
235U G 826.8 3 0.018 6
235U G 828.9 2 0.133 8
235U G 837.3 2 0.019 4
235U G 895.4 3 0.0075 25
235U G 898.1 3 0.018 4
235U G 905.5 3 0.0075 25
235U G 911.7 3 0.014 4
235U G 931.9 3 0.013 4
235U G 982.7 3 0.011 3
235U G 1009.4 3 0.014 3
235U L 0 7/2- 7.04E+8 Y 1
235U A 5156.7 0.03 SY 6500 SY S
235U cA HF$alpha particles to g.s. were not detected. HF=6500 is based
235U 2cA on analogy with {+241}Cm |a decay.
235U cA IA$based on HF=6500 from {+241}Cm |a decay.
235U L 0.0765 4 1/2+ 26 M AP M
235U cL E$from Adopted Levels. 1971CuZU reported E={ 0.572 {I33}}
235U 2cL (calorimetry); This result does not agree with the value adopted here.
235U A 5156.59 14 70.77 14 2.76 R
235U 2 A FLAG=X
235U cA E$other value: { 5155.36 keV {I19}}, time-of-flight method (1992Fr04).
235U cA IA$other values: { 70.73% {I46}} (1992Bl13); { 73.3% {I8}} (1991Ry01).
235U cA IA${ 73.0% {I4}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 0.0765 4 E3 1E10 AP 99.9E+6
235U cG TI from |g-ray transition intensity balance
235U cG E from Adopted Gammas.
235U L 13.0401 21 3/2+ 0.50 NS 3
235U cL T$from 1970Ho02
235U A 5144.3 8 17.11 14 9.49 R
235U 2 A FLAG=X
235U cA IA$other values: { 17.56% {I28}} (1992Bl13); { 11.5% {I8}} (1991Ry01).
235U cA IA${ 15.2% {I4}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 12.975 10 3.41E049 M1+E2 0.02 497 18.4E+6 3 I
235U S G M/T=0.740 8$N+/T=0.258 5
235U S G N/T=0.200 4$O/T=0.0484 10$P/T=0.00925 19$Q/T=0.000710 15
235U cG RI$absolute intensity measurement (1994Mo36,1992Bl07).
235U cG CC$deduced by evaluator from |g-ray transition intensity balance at
235U 2cG 13.0-keV level and I|g={ 0.0341% {I9}} (1992Bl07,1994Mo36).
235U cG M,MR$deduced by evaluator from |a(exp)=538.6,
235U 2cG using |a(exp)(Theory, M1)=513.7 and |a(exp)(Theory, E2)=76830 from
235U xcG 1978Ro22.
235U L 46.20710 9/2-
235U A 5111 0.02 LT 5010 ?
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 46.21 5 72.1 11M1(+E2) 0.14 14 5.E1 3 I
235U 3 G FLAG=X
235U S G LC=40 19$MC=10 6$NC+=3.5 19
235U S G NC=2.7 15$OC=0.6 4$PC=0.12 6$QC=0.0081 4
235U cG RI$other value: I|g={ 737 {I14}} (1976GuZN).
235U L 51.7008 11 5/2+ 191 PS 5
235U cL T$from 1970ToZZ. Other: { 200 ps {I20}} (1970Ho02)
235U A 5105.5 8 11.94 7 7.76 R
235U 2 A FLAG=X
235U cA IA$other values: { 11.80% {I19}} (1992Bl13); { 11.5% {I8}} (1991Ry01).
235U cA IA${ 11.5% {I3}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 38.661 2 10.44E313M1+E2 0.48 3 298 24 I
235U 3 G FLAG=X
235U S G LC=219 17$MC=59 5$NC+=20.2 16
235U S G NC=15.9 13$OC=3.7 3$PC=0.62 5$QC=0.01231 24
235U cG RI$other value: I|g={ 10460 {I150}} (1992Bl07).
235U G 51.624 1 27.22E322E2 310 X
235U S G LC=226 4$MC=62.6 9$NC+=21.5 3
235U S G NC=16.97 24$OC=3.89 6$PC=0.630 9$QC=0.001600 23
235U cG RI$other value: I|g={ 27360 {I38}} (1992Bl07).
235U L 81.741 4 7/2+
235U A 5076 5 0.078 8 765 X
235U cA IA$other values: { 0.03% {I1}} (1992Bl13); { 0.036% {I3}}
235U xcA (1976BaZZ,1971Ar47).
235U cA IA${ 0.051% {I9}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 30.04 2 217 6 (M1) 156.7 I
235U S G LC=118.0 17$MC=28.7 4$NC+=10.00 15
235U S G NC=7.73 11$OC=1.88 3$PC=0.363 6$QC=0.0292 5
235U cG Other value: E|g={ 30.03 keV {I10}}, I|g={ 280 {I80}}
235U xcG (1994Mo36).
235U G 68.696 6 3.6E2 10E2 78.6 @
235U 3 G FLAG=X
235U S G LC=57.2 8$MC=15.86 23$NC+=5.45 8
235U S G NC=4.30 6$OC=0.987 14$PC=0.1605 23$QC=0.000475 7
235U L 103.036 10 11/2-
235U A 5054 5 0.047 13 9.3E2 X
235U cA IA$other value: { 0.025% {I5}} (1976BaZZ,1971Ar47).
235U cA IA${ 0.038% {I2}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 56.828 3 1152 13M1+E2 0.23 2 32.6 16 X
235U S G LC=24.3 12$MC=6.1 4$NC+=2.13 11
235U S G NC=1.66 9$OC=0.396 20$PC=0.073 4$QC=0.00427 7
235U cG RI$other value: I|g={ 1130 {I25}} (1976GuZN).
235U cG MR$from muonic {+235}U atom
235U G 103.060 30 215.6 54E2 11.58 X
235U S G LC=8.44 12$MC=2.34 4$NC+=0.805 12
235U S G NC=0.635 9$OC=0.1460 21$PC=0.0239 4$QC=9.80E-5 14
235U cG RI$other value: I|g={ 230 {I12}} (1976GuZN).
235U L 129.296110 5/2+
235U A 5028 3 0.009 3 3.3E3 X
235U cA IA$other value: { 0.005% {I1}} (1976BaZZ,1971Ar47).
235U cA IA${ 0.012% {I7}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 47.60 3 62.5 25(M1) 40.4 I S
235U 3 G FLAG=XY
235U S G LC=30.4 5$MC=7.37 11$NC+=2.57 4
235U S G NC=1.99 3$OC=0.483 7$PC=0.0932 14$QC=0.00749 11
235U G 77.592 14 380 5 M1(+E2) 0.5 5 17 11 X
235U S G LC=12 8$MC=3.2 22$NC+=1.1 8
235U S G NC=0.9 6$OC=0.20 14$PC=0.036 21$QC=0.0015 5
235U cG RI$other value: I|g={ 410 {I20}} (1976GuZN).
235U G 116.26 2 567 11 M1(+E2) 0.56 56 14 3
235U 3 G FLAG=X
235U cG RI$other value: I|g={ 597 {I9}} (1976GuZN).
235U S G KC=10 2 $LC= 3.0 8$MC= 0.77 25$NC+= 0.28 10
235U G 129.296 1 6310 40E1 0.275 X
235U S G KC=0.211 3$LC=0.0482 7$MC=0.01173 17$NC+=0.00400 6
235U S G NC=0.00313 5$OC=0.000734 11$PC=0.0001295 19$QC=6.71E-6 10
235U cG RI$other value: I|g={ 6310 {I60}} (1986LoZT).
235U L 150.46715 9/2+
235U A 5006 5 0.017 2 1.26E3 X
235U cA IA$other value: { 0.013% {I5}} (1976BaZZ,1971Ar47).
235U cA IA${ 0.023% {I2}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 68.74 CA 130 60 (M1+E2) 0.5 SY 30 @
235U 3 G FLAG=X
235U S G LC=20.45 $MC=5.35 $NC+=1.972
235U cG RI comparison with (n,|g) suggests that most of the intensity
235U 2cG de-excites the 81.8 level. I|g={ 485 {I6}} for doublet (1994Mo36).
235U 3cG Other value: I|g={ 410 {I5}} (1976GuZN)
235U G 98.780 20 1465 68E2 14.11 X
235U S G LC=10.28 15$MC=2.85 4$NC+=0.981 14
235U S G NC=0.774 11$OC=0.1779 25$PC=0.0291 4$QC=0.0001143 16
235U cG RI$other value: { 1220 {I40}} (1976GuZN).
235U L 170.70814 13/2-
235U G 67.674 12 151.7 23M1+E2 0.194 3 16.93 25 X
235U S G LC=12.68 19$MC=3.15 5$NC+=1.095 17
235U S G NC=0.850 13$OC=0.204 3$PC=0.0383 6$QC=0.00258 4
235U cG RI$other value: { 164 {I3}} (1976GuZN).
235U cG MR$from muonic {+235}U atom
235U G 124.51 3 68.1 18E2 5.06 X
235U S G KC=0.214 3$LC=3.53 5$MC=0.978 14$NC+=0.337 5
235U S G NC=0.266 4$OC=0.0611 9$PC=0.01005 15$QC=5.11E-5 8
235U cG RI$other values: { 61.3 {I25}} (1976GuZN).
235U L 171.388 5 7/2+
235U A 4987 3 0.013 2 1.21E3 X
235U cA IA$other value: { 0.007% {I2}} (1976BaZZ,1971Ar47).
235U cA IA I|a(170.7 + 171.4) (1966Ah02)
235U cA IA${ 0.004% {I5}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 41.93 5 146 15M1+E2 0.14 10 7.E1 3 I
235U F G FL=129.2961
235U 3 G FLAG=XY
235U S G LC=55 21$MC=14 6$NC+=4.8 20
235U S G NC=3.7 16$OC=0.9 4$PC=0.17 6$QC=0.0107 3
235U cG Other value: E|g={ 42.06 keV {I3}}, I|g={ 165 {I5}}
235U xcG (1976GuZN).
235U G 89.64 3 27 2 (M1+E2) 14 8 @
235U 3 G FLAG=XY
235U S G LC=10 6$MC=2.8 17$NC+=1.0 6
235U S G NC=0.8 5$OC=0.18 11$PC=0.030 16$QC=0.0007 5
235U cG Other value: E|g={ 89.73 keV {I4}}, I|g={ 30 {I6}}
235U xcG (1976GuZN).
235U G 119.70 3 21 10 (M1+E2) 10 4 @
235U 3 G FLAG=XY
235U S G KC=5 6$LC=3.1 11$MC=0.8 4$NC+=0.29 12
235U S G NC=0.23 10$OC=0.053 21$PC=0.009 3$QC=0.00028 23
235U cG Other value; E|g={ 119.72 keV {I3}}, I|g={ 22 {I10}}
235U xcG (1976GuZN).
235U G 125.21 10 56.3 15[E1] 0.296 X
235U S G KC=0.227 4$LC=0.0523 8$MC=0.01275 18$NC+=0.00434 7
235U S G NC=0.00340 5$OC=0.000797 12$PC=0.0001403 20$QC=7.20E-6 11
235U cG RI$other values: { 71.1 {I20}} (1976GuZN).
235U G 158.1 3 1.0 1 [E2] 1.86
235U S G KC=0.211 3$LC=1.204 20$MC=0.333 6$NC+=0.1147 19
235U S G NC=0.0904 15$OC=0.0208 4$PC=0.00345 6$QC=2.42E-5 4
235U G 171.393 6 110 2 [E1] 0.1414 L
235U S G KC=0.1103 16$LC=0.0235 4$MC=0.00570 8$NC+=0.00195 3
235U S G NC=0.001520 22$OC=0.000359 5$PC=6.45E-5 9$QC=3.62E-6 5
235U L 197.11914 11/2+
235U A 4960 5 0.007 1 1.52E3 X
235U cA IA$other value: { 0.006% {I3}} (1976BaZZ,1971Ar47).
235U cA IA${ 0.0048% {I7}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 46.68 3 46.5 25(M1) 42.7 I
235U 3 G FLAG=XY
235U S G LC=32.2 5$MC=7.81 11$NC+=2.72 4
235U S G NC=2.10 3$OC=0.512 8$PC=0.0988 14$QC=0.00793 12
235U cG Other value: E|g=46.69 keV, I|g={ 58 {I4}} (1976GuZN).
235U cG M$for pure M1 I|g<100 from |g-ray transition intensity balance.
235U G 115.38 5 462 50E2 6.87
235U S G LC=5.00 7$MC=1.388 20$NC+=0.478 7
235U S G NC=0.377 6$OC=0.0866 13$PC=0.01422 21$QC=6.60E-5 10
235U cG RI from 1976GuZN and corrected for x-ray component
235U L 225.422 8 9/2+
235U A 4934 3 0.0060 10 1.15E3 X
235U cA IA$other value: { 0.0040% {I10}} (1976BaZZ,1971Ar47).
235U cA IA${ 0.005% {I2}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 54.039 8 194.4 25M1(+E2) 0.1 1 30 7 I
235U 3 G FLAG=X
235U S G LC=23 5$MC=5.5 13$NC+=1.9 5
235U S G NC=1.5 4$OC=0.36 8$PC=0.069 13$QC=0.00512 14
235U cG RI$other value: I|g={ 197 {I3}} (1976GuZN).
235U G 96.14 3 37.9 18[E2] 16.02 X
235U 3 G FLAG=XY
235U S G LC=11.67 17$MC=3.24 5$NC+=1.114 16
235U S G NC=0.879 13$OC=0.202 3$PC=0.0330 5$QC=0.0001264 18
235U cG Other value: E|g={ 96.13 keV {I5}}, I|g={ 22.3 {I40}}
235U xcG (1976GuZN).
235U G 122.35 12 0.95 12[E1] 0.312 X ?
235U S G KC=0.238 4$LC=0.0555 8$MC=0.01354 20$NC+=0.00461 7
235U S G NC=0.00361 6$OC=0.000846 12$PC=0.0001486 22$QC=7.57E-6 11
235U cG RI$other value: I|g={ 3 {I2}} (1976GuZN).
235U cG From 1968Cl02
235U G 143.35 20 17.3 7 [M1+E2] 5 3
235U S G KC=3 3$LC=1.5 4$MC=0.41 11$NC+=0.14 4
235U S G NC=0.11 3$OC=0.026 7$PC=0.0046 8$QC=0.00017 14
235U G 173.70 5 3.1 8 [E2] 1.280
235U S G KC=0.190 3$LC=0.795 12$MC=0.220 3$NC+=0.0757 11
235U S G NC=0.0596 9$OC=0.01375 20$PC=0.00229 4$QC=1.85E-5 3
235U G 179.220 12 66 1 [E1] 0.1273 L
235U S G KC=0.0995 14$LC=0.0210 3$MC=0.00509 8$NC+=0.001741 25
235U S G NC=0.001359 19$OC=0.000321 5$PC=5.78E-5 8$QC=3.28E-6 5
235U G 225.42 4 15.1 5 [E1] 0.0747
235U S G KC=0.0589 9$LC=0.01191 17$MC=0.00288 4$NC+=0.000988 14
235U S G NC=0.000770 11$OC=0.000183 3$PC=3.33E-5 5$QC=2.00E-6 3
235U L 249.13012 15/2-
235U A 4912 5 0.0024 9 1.99E3 X
235U cA IA$other value: { 0.0005% {I3}} (1976BaZZ,1971Ar47).
235U cA IA${ 0.0030% {I16}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 78.43 2 154.2 22M1(+E2) 0.5 5 16 10 X
235U S G LC=12 7$MC=3.1 21$NC+=1.1 7
235U S G NC=0.8 6$OC=0.19 13$PC=0.034 20$QC=0.0014 5
235U cG RI$other value: I|g={ 141 {I6}} (1976GuZN).
235U G 146.094 6 119 3 E2 2.57 L
235U S G KC=0.223 4$LC=1.712 24$MC=0.474 7$NC+=0.1632 23
235U S G NC=0.1287 18$OC=0.0296 5$PC=0.00489 7$QC=3.07E-5 5
235U L 291.14419 11/2+
235U A 4871 5 0.0007 3 3.5E3
235U cA IA${ 0.0008% {I5}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 65.708 30 52.0 34M1(+E2) 0.23 20 20 9 I
235U 3 G FLAG=X
235U S G LC=15 7$MC=3.7 18$NC+=1.3 6
235U S G NC=1.0 5$OC=0.24 11$PC=0.044 18$QC=0.00279 25
235U G 119.7 AP 9.5 AP[E2] 6.00 @ ?
235U S G KC AP 0.199$LC AP 4.23$MC AP 1.172$NC+ AP 0.403
235U S G NC AP 0.318$OC AP 0.0732$PC AP 0.01202$QC AP 5.82E-5
235U cG RI$I|g={ 30.2 {I18}} for the doublet (1994Mo36). Intensity split
235U 2cG based on (n,|g). Other value: I|g={ 32 {I2}} (1976GuZN).
235U G 188.23 10 10.9 11[E1] 0.1135
235U S G KC=0.0889 13$LC=0.0186 3$MC=0.00450 7$NC+=0.001540 22
235U S G NC=0.001202 17$OC=0.000285 4$PC=5.13E-5 8$QC=2.95E-6 5
235U G 244.92 5 5.1 5 [E1] 0.0618
235U S G KC=0.0489 7$LC=0.00974 14$MC=0.00236 4$NC+=0.000808 12
235U S G NC=0.000629 9$OC=0.0001498 21$PC=2.74E-5 4$QC=1.676E-6 24
235U L 294.668 15 13/2+
235U A 4866 5 0.0019 7 1.24E3 X ?
235U cA IA$other value: { 0.02% {I2}} (1976BaZZ,1971Ar47).
235U cA IA${ 0.0017% {I5}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 97.6 3 M1+E2 0.5 3 7.0 19 7E2 5
235U S G L/T=0.65 13$M/T=0.17 6$N+/T=0.058 22
235U S G N/T=0.045 17$O/T=0.011 4$P/T=0.0019 7$Q/T=0.00010 3
235U cG Seen in ce only (1965Tr03)
235U G 144.201 3 283 6 E2 2.71
235U S G KC=0.225 4$LC=1.81 3$MC=0.502 7$NC+=0.1731 25
235U S G NC=0.1364 19$OC=0.0314 5$PC=0.00519 8$QC=3.20E-5 5
235U L 332.845 4 5/2+
235U A 4828 3 0.0024 7 5.4E2 X
235U cA IA$other value: { 0.0025% {I6}} (1971Ar47).
235U cA IA${ 0.00359% {I4}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 161.450 15 123 2 (M1) 5.67 L
235U S G KC=4.51 7$LC=0.880 13$MC=0.213 3$NC+=0.0742 11
235U S G NC=0.0574 8$OC=0.01395 20$PC=0.00269 4$QC=0.000215 3
235U G 203.550 5 569 3 M1 2.95 L
235U S G KC=2.35 4$LC=0.456 7$MC=0.1103 16$NC+=0.0385 6
235U S G NC=0.0297 5$OC=0.00723 11$PC=0.001394 20$QC=0.0001112 16
235U G 281.2 2 2.1 3 [M1+E2] 0.7 5
235U S G KC=0.5 5$LC=0.15 4$MC=0.037 8$NC+=0.013 3
235U S G NC=0.0099 21$OC=0.0024 6$PC=0.00044 13$QC=2.5E-5 20
235U G 319.68 10 4.8 5 [M1+E2] 0.5 4
235U S G KC=0.4 3$LC=0.10 4$MC=0.024 7$NC+=0.0085 24
235U S G NC=0.0066 19$OC=0.0016 5$PC=0.00029 11$QC=1.8E-5 14
235U G 332.845 5 494 3 E1 0.0313 L
235U S G KC=0.0250 4$LC=0.00476 7$MC=0.001145 16$NC+=0.000394 6
235U S G NC=0.000306 5$OC=7.33E-5 11$PC=1.356E-5 19$QC=8.87E-7 13
235U L 338.52 6 17/2-
235U A 4824 22E-6 2 5.34E4 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 89.7 AP 2 SY[M1] 6.33 @
235U S G LC AP 4.77$MC AP 1.156$NC+ AP 0.403
235U S G NC AP 0.312$OC AP 0.0758$PC AP 0.01462$QC AP 0.001170
235U G 167.81 5 2.9 7 [E2] 1.467
235U S G KC=0.198 3$LC=0.925 13$MC=0.256 4$NC+=0.0881 13
235U S G NC=0.0694 10$OC=0.01600 23$PC=0.00266 4$QC=2.04E-5 3
235U L 357.30 6 15/2+ ?
235U G 160.19 5 6.2 12[E2] 1.766 ?
235U S G KC=0.208 3$LC=1.136 16$MC=0.314 5$NC+=0.1082 16
235U S G NC=0.0853 12$OC=0.0196 3$PC=0.00326 5$QC=2.33E-5 4
235U cG E from Coul. ex. E|g={ 161.9 {I5}} deexciting the
235U xcG { 359.0 {I15}}/2+ level
235U L 367.069 8 7/2+
235U A 4795 4 0.0012 6 6.2E2 X
235U cA IA$other value: { 0.0007% {I2}} (1976BaZZ,1971Ar47).
235U cA IA${ 0.00095% {I1}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 141.657 20 32.0 7 [M1] 8.22
235U S G KC=6.52 10$LC=1.279 18$MC=0.309 5$NC+=0.1079 16
235U S G NC=0.0834 12$OC=0.0203 3$PC=0.00391 6$QC=0.000312 5
235U G 195.679 8 107 1 M1 3.30 L
235U 3 G FLAG=M
235U S G KC=2.62 4$LC=0.510 8$MC=0.1233 18$NC+=0.0430 6
235U S G NC=0.0332 5$OC=0.00808 12$PC=0.001558 22$QC=0.0001244 18
235U G 237.77 10 14.4 6 [M1] 1.91
235U S G KC=1.519 22$LC=0.295 5$MC=0.0712 10$NC+=0.0248 4
235U S G NC=0.0192 3$OC=0.00467 7$PC=0.000900 13$QC=7.18E-5 10
235U cG E from 1971GuZY, 1979Al03
235U G 285.3 2 1.9 4 [M1+E2] 0.7 5
235U S G KC=0.5 5$LC=0.14 4$MC=0.035 8$NC+=0.012 3
235U S G NC=0.0095 21$OC=0.0023 6$PC=0.00042 13$QC=2.4E-5 19
235U G 320.862 20 54.2 7 [E1] 0.0339
235U S G KC=0.0270 4$LC=0.00517 8$MC=0.001246 18$NC+=0.000429 6
235U S G NC=0.000333 5$OC=7.96E-5 12$PC=1.472E-5 21$QC=9.56E-7 14
235U G 354.0 5 0.73 30[E2] 0.1155
235U S G KC=0.0549 8$LC=0.0445 7$MC=0.01195 18$NC+=0.00413 7
235U S G NC=0.00324 5$OC=0.000756 12$PC=0.0001306 20$QC=3.11E-6 5
235U G 367.073 25 89 2 [E1] 0.0254
235U S G KC=0.0203 3$LC=0.00382 6$MC=0.000918 13$NC+=0.000316 5
235U S G NC=0.000246 4$OC=5.88E-5 9$PC=1.093E-5 16$QC=7.29E-7 11
235U L 393.225 6 3/2+
235U A 4769 5 0.0015 6 3.3E2 X
235U cA IA$other value: { 0.0008% {I3}} (1976BaZZ,1971Ar47)
235U cA IA${ 0.00115% {I5}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 263.95 3 26.5 10M1 1.428 M
235U S G KC=1.136 16$LC=0.220 3$MC=0.0531 8$NC+=0.0185 3
235U S G NC=0.01432 20$OC=0.00348 5$PC=0.000672 10$QC=5.35E-5 8
235U G 341.506 10 66.2 14M1 0.701
235U S G KC=0.559 8$LC=0.1076 15$MC=0.0260 4$NC+=0.00906 13
235U S G NC=0.00700 10$OC=0.001703 24$PC=0.000328 5$QC=2.62E-5 4
235U G 380.191 6 305 6 M1 0.523 M
235U 3 G FLAG=L$
235U S G KC=0.417 6$LC=0.0801 12$MC=0.0193 3$NC+=0.00674 10
235U S G NC=0.00521 8$OC=0.001267 18$PC=0.000244 4$QC=1.95E-5 3
235U G 393.14 3 348 30M1 0.477 M
235U S G KC=0.380 6$LC=0.0731 11$MC=0.01764 25$NC+=0.00615 9
235U S G NC=0.00475 7$OC=0.001155 17$PC=0.000223 4$QC=1.776E-5 25
235U cG RI$from I(392|g+393|g)={ 552.7 {I11}} (1976GuZN) and
235U 2cG I(392|g)/I(393|g)=0.59 from (n,|g) of 1979Al03.
235U L 414.77911 9/2+
235U A 4749 5 0.0006 AP 573
235U cA IA${ 0.00075% {I12}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 123.62 5 23.7 9 [M1] 12.08 X
235U S G KC=9.57 14$LC=1.89 3$MC=0.457 7$NC+=0.1595 23
235U S G NC=0.1232 18$OC=0.0300 5$PC=0.00578 9$QC=0.000462 7
235U cG RI$other value: I|g={ 19.7 {I12}} (1976GuZN).
235U G 189.360 10 83 1 [M1+E2] 2.3 14 L
235U S G KC=1.5 14$LC=0.553 10$MC=0.143 8$NC+=0.0496 25
235U S G NC=0.0387 23$OC=0.0092 4$PC=0.00164 8$QC=8.E-5 6
235U G 218.0 5 1.2 10 ?
235U cG E,RI$from 1965Tr03, 1981UmZZ
235U G 243.38 3 25.3 5 [M1+E2] 1.1 7
235U S G KC=0.8 7$LC=0.23 5$MC=0.059 8$NC+=0.021 3
235U S G NC=0.0161 20$OC=0.0038 6$PC=0.00070 15$QC=4.E-5 3
235U G 311.78 4 25.8 7 [E1] 0.0361 L
235U S G KC=0.0287 4$LC=0.00552 8$MC=0.001331 19$NC+=0.000458 7
235U S G NC=0.000356 5$OC=8.51E-5 12$PC=1.570E-5 22$QC=1.014E-6 15
235U G 368.554 20 88 2 [E1] 0.0252
235U S G KC=0.0202 3$LC=0.00378 6$MC=0.000910 13$NC+=0.000313 5
235U S G NC=0.000243 4$OC=5.83E-5 9$PC=1.083E-5 16$QC=7.23E-7 11
235U L 426.755 3 5/2+
235U A 4736 3 0.0051 8 55 X
235U cA IA$other value: { 0.0045% {I10}} (1976BaZZ,1971Ar47).
235U cA IA${ 0.00587% {I5}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 255.384 15 80 1 [M1] 1.565 L
235U S G KC=1.245 18$LC=0.241 4$MC=0.0583 9$NC+=0.0203 3
235U S G NC=0.01570 22$OC=0.00382 6$PC=0.000737 11$QC=5.87E-5 9
235U G 297.46 3 49.8 8 [M1] 1.025 L
235U S G KC=0.816 12$LC=0.1577 22$MC=0.0381 6$NC+=0.01328 19
235U S G NC=0.01026 15$OC=0.00250 4$PC=0.000481 7$QC=3.84E-5 6
235U G 345.013 4 556 5 M1 0.682 L
235U 3 G FLAG=M
235U S G KC=0.543 8$LC=0.1046 15$MC=0.0253 4$NC+=0.00881 13
235U S G NC=0.00681 10$OC=0.001655 24$PC=0.000319 5$QC=2.54E-5 4
235U G 375.054 3 1554 9 M1 0.543 L
235U 3 G FLAG=M
235U S G KC=0.432 6$LC=0.0832 12$MC=0.0201 3$NC+=0.00700 10
235U S G NC=0.00541 8$OC=0.001315 19$PC=0.000254 4$QC=2.02E-5 3
235U G 413.713 5 1466 11M1 0.415 L
235U 3 G FLAG=M
235U S G KC=0.331 5$LC=0.0636 9$MC=0.01534 22$NC+=0.00535 8
235U S G NC=0.00413 6$OC=0.001005 14$PC=0.000194 3$QC=1.544E-5 22
235U G 426.68 3 23.3 6 [E2] 0.0699
235U S G KC=0.0387 6$LC=0.0230 4$MC=0.00610 9$NC+=0.00211 3
235U S G NC=0.001653 24$OC=0.000387 6$PC=6.79E-5 10$QC=2.06E-6 3
235U L 445.71620 7/2+
235U A 4718.5 40E-6 1 5.18E3 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 316.41 3 13.2 4 M1 0.865 M
235U S G KC=0.689 10$LC=0.1329 19$MC=0.0321 5$NC+=0.01119 16
235U S G NC=0.00865 13$OC=0.00210 3$PC=0.000406 6$QC=3.23E-5 5
235U G 399.53 6 5.9 3 [E1] 0.0213
235U S G KC=0.01706 24$LC=0.00317 5$MC=0.000761 11$NC+=0.000262 4
235U S G NC=0.000204 3$OC=4.88E-5 7$PC=9.10E-6 13$QC=6.16E-7 9
235U G 445.72 3 8.8 6 E1 0.01698 L
235U 3 G FLAG=M
235U S G KC=0.01367 20$LC=0.00250 4$MC=0.000600 9$NC+=0.000207 3
235U S G NC=0.0001606 23$OC=3.86E-5 6$PC=7.21E-6 10$QC=4.98E-7 7
235U L 474.29713 7/2+
235U A 4691 3 0.0005 2 2.6E2
235U cA IA from 1966Ah02.
235U cA IA${ 0.00060% {I3}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 248.95 5 7.2 7 [M1] 1.680
235U S G KC=1.337 19$LC=0.259 4$MC=0.0626 9$NC+=0.0218 3
235U S G NC=0.01687 24$OC=0.00410 6$PC=0.000791 11$QC=6.31E-5 9
235U G 302.87 5 5.1 4 [M1] 0.976
235U S G KC=0.777 11$LC=0.1500 21$MC=0.0362 5$NC+=0.01263 18
235U S G NC=0.00976 14$OC=0.00237 4$PC=0.000458 7$QC=3.65E-5 6
235U G 323.84 3 53.9 7 M1 0.811 M
235U S G KC=0.646 9$LC=0.1246 18$MC=0.0301 5$NC+=0.01049 15
235U S G NC=0.00811 12$OC=0.00197 3$PC=0.000380 6$QC=3.03E-5 5
235U G 345.014 30 50 LT(M1) 0.682 ?
235U S G KC=0.543 8$LC=0.1046 15$MC=0.0253 4$NC+=0.00881 13
235U S G NC=0.00681 10$OC=0.001655 24$PC=0.000319 5$QC=2.54E-5 4
235U G 392.53 3 205 20M1 0.479 M
235U S G KC=0.382 6$LC=0.0734 11$MC=0.01772 25$NC+=0.00617 9
235U S G NC=0.00477 7$OC=0.001160 17$PC=0.000224 4$QC=1.784E-5 25
235U G 422.598 19 122 2 M1 0.392 L
235U 3 G FLAG=M
235U S G KC=0.313 5$LC=0.0600 9$MC=0.01447 21$NC+=0.00504 7
235U S G NC=0.00390 6$OC=0.000948 14$PC=0.000183 3$QC=1.457E-5 21
235U G 428.4 3 1.00 10[E1] 0.0184
235U S G KC=0.01481 21$LC=0.00272 4$MC=0.000653 10$NC+=0.000225 4
235U S G NC=0.0001749 25$OC=4.20E-5 6$PC=7.84E-6 11$QC=5.38E-7 8
235U G 461.25 5 2.27 2 [E2] 0.0575
235U S G KC=0.0334 5$LC=0.01772 25$MC=0.00467 7$NC+=0.001617 23
235U S G NC=0.001265 18$OC=0.000297 5$PC=5.24E-5 8$QC=1.743E-6 25
235U G 473.9 5 0.054 27[E1] 0.01501
235U F G FL=0
235U S G KC=0.01210 18$LC=0.00220 4$MC=0.000526 8$NC+=0.000182 3
235U S G NC=0.0001409 20$OC=3.39E-5 5$PC=6.35E-6 9$QC=4.43E-7 7
235U L 509.9217 (9/2+)
235U A 4655 2.8E-6 6 2.54E4 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 406.8 2 2.5 5 [E1] 0.0205
235U S G KC=0.01645 23$LC=0.00305 5$MC=0.000731 11$NC+=0.000252 4
235U S G NC=0.000196 3$OC=4.69E-5 7$PC=8.75E-6 13$QC=5.95E-7 9
235U cG E$not reported by 1971GuZY, not detected in Coul. ex.
235U G 463.9 3 0.28 3 [E1] 0.01566
235U S G KC=0.01262 18$LC=0.00230 4$MC=0.000551 8$NC+=0.000190 3
235U S G NC=0.0001475 21$OC=3.54E-5 5$PC=6.63E-6 10$QC=4.62E-7 7
235U L 533.22810 9/2+
235U A 4632 3 0.0007 2 69
235U cA IA from 1966Ah02.
235U cA IA${ 0.00087% {I3}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 242.08 3 7.3 5 [M1] 1.82
235U S G KC=1.445 21$LC=0.280 4$MC=0.0677 10$NC+=0.0236 4
235U S G NC=0.0182 3$OC=0.00444 7$PC=0.000856 12$QC=6.82E-5 10
235U G 307.85 5 5.5 4 [M1] 0.933
235U S G KC=0.743 11$LC=0.1434 20$MC=0.0346 5$NC+=0.01207 17
235U S G NC=0.00933 13$OC=0.00227 4$PC=0.000438 7$QC=3.49E-5 5
235U G 336.113 12 112 2 M1 0.733
235U S G KC=0.583 9$LC=0.1125 16$MC=0.0272 4$NC+=0.00947 14
235U S G NC=0.00732 11$OC=0.001779 25$PC=0.000343 5$QC=2.73E-5 4
235U G 361.89 5 12.2 6 [M1] 0.598
235U S G KC=0.477 7$LC=0.0918 13$MC=0.0222 4$NC+=0.00772 11
235U S G NC=0.00597 9$OC=0.001451 21$PC=0.000280 4$QC=2.23E-5 4
235U G 382.75 5 259 5 M1 0.513 L
235U S G KC=0.409 6$LC=0.0787 11$MC=0.0190 3$NC+=0.00662 10
235U S G NC=0.00511 8$OC=0.001244 18$PC=0.000240 4$QC=1.91E-5 3
235U G 430.08 10 4.30 13[E1] 0.0183
235U S G KC=0.01469 21$LC=0.00270 4$MC=0.000648 9$NC+=0.000223 4
235U S G NC=0.0001734 25$OC=4.16E-5 6$PC=7.77E-6 11$QC=5.34E-7 8
235U G 451.481 10 189.4 16M1(+E2) 1.0 10 0.19 14 L
235U S G KC=0.15 12$LC=0.035 16$MC=0.009 4$NC+=0.0030 13
235U S G NC=0.0023 10$OC=0.00056 24$PC=0.00010 5$QC=7.E-6 6
235U G 481.66 12 4.6 2 [E2] 0.0517 L
235U S G KC=0.0309 5$LC=0.01538 22$MC=0.00404 6$NC+=0.001399 20
235U S G NC=0.001095 16$OC=0.000257 4$PC=4.55E-5 7$QC=1.590E-6 23
235U G 487.06 10 0.265 21[E1] 0.01421
235U S G KC=0.01147 16$LC=0.00208 3$MC=0.000497 7$NC+=0.0001714 24
235U S G NC=0.0001330 19$OC=3.20E-5 5$PC=6.00E-6 9$QC=4.21E-7 6
235U L 608.09 5 11/2+
235U A 4559 12E-6 5 1.11E3 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 411.2 3 6.8 34[M1] 0.422
235U S G KC=0.337 5$LC=0.0646 10$MC=0.01560 22$NC+=0.00544 8
235U S G NC=0.00420 6$OC=0.001022 15$PC=0.000197 3$QC=1.570E-5 23
235U G 457.61 5 1.49 2 [M1] 0.316
235U S G KC=0.252 4$LC=0.0483 7$MC=0.01165 17$NC+=0.00406 6
235U S G NC=0.00314 5$OC=0.000763 11$PC=0.0001471 21$QC=1.173E-5 17
235U G 526.4 4 0.057 19[E2] 0.0419
235U S G KC=0.0262 4$LC=0.01160 17$MC=0.00303 5$NC+=0.001048 15
235U S G NC=0.000819 12$OC=0.000193 3$PC=3.44E-5 5$QC=1.322E-6 19
235U L 633.17 6 (5/2)-
235U A 4534 2.82E-6 5 3047 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 633.15 6 2.53 3 M1(+E2) 0.5 LT 0.122 11 M
235U F G FL=0
235U S G KC=0.097 9$LC=0.0187 14$MC=0.0045 4$NC+=0.00157 12
235U S G NC=0.00122 9$OC=0.000296 21$PC=5.7E-5 5$QC=4.5E-6 4
235U L 637.82 5 3/2-
235U A 4529.6 3.19E-63 2483 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 586.3 3 0.153 15[E1]
235U S G CC=0.00990 14$KC=0.00802 12$LC=0.001420 20$MC=0.000339 5$NC+=0.0001171
235U S G NC=9.08E-5 13$OC=2.19E-5 3$PC=4.13E-6 6$QC=2.98E-7 5
235U G 624.78 5 0.437 20[E1] &
235U S G CC=0.00877 13$KC=0.00712 10$LC=0.001252 18$MC=0.000299 5$NC+=0.0001032
235U S G NC=8.00E-5 12$OC=1.93E-5 3$PC=3.64E-6 5$QC=2.66E-7 4
235U cG Doublet
235U G 637.7 2.56 3 [E1] &
235U F G FL=0.0765
235U S G CC=0.00844 12$KC=0.00685 10$LC=0.001202 17$MC=0.000287 4$NC+=9.91E-5 14
235U S G NC=7.68E-5 11$OC=1.85E-5 3$PC=3.50E-6 5$QC=2.56E-7 4
235U cG Doublet
235U G 637.8 2.56 3 E2 0.0273 &
235U 2 G FLAG=M
235U F G FL=0
235U S G KC=0.0185 3$LC=0.00655 10$MC=0.001683 24$NC+=0.000583 9
235U S G NC=0.000455 7$OC=0.0001078 15$PC=1.95E-5 3$QC=8.96E-7 13
235U cG Doublet
235U L 658.97 4 1/2-
235U A 4510 20 0.000083 68
235U cA IA${ 0.0000266% {I5}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 265.7 3 1.6 3 [E1] 0.0514
235U S G KC=0.0408 6$LC=0.00802 12$MC=0.00194 3$NC+=0.000665 10
235U S G NC=0.000518 8$OC=0.0001234 18$PC=2.26E-5 4$QC=1.412E-6 20
235U G 645.94 4 15.2 3 E1 M
235U S G CC=0.00824 12$KC=0.00669 10$LC=0.001172 17$MC=0.000280 4$NC+=9.66E-5 14
235U S G NC=7.49E-5 11$OC=1.81E-5 3$PC=3.41E-6 5$QC=2.50E-7 4
235U G 658.86 6 9.7 2 E1 M
235U S G CC=0.00794 12$KC=0.00645 9$LC=0.001128 16$MC=0.000269 4$NC+=9.29E-5 13
235U S G NC=7.20E-5 10$OC=1.737E-5 25$PC=3.29E-6 5$QC=2.41E-7 4
235U L 664.54123 (5/2)-
235U A 4503 5.37E-6 9 921 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 493.08 5 0.87 3 ?
235U G 582.89 10 0.615 18[E1] 0.01001
235U S G KC=0.00811 12$LC=0.001437 21$MC=0.000343 5$NC+=0.0001185 17
235U S G NC=9.19E-5 13$OC=2.21E-5 4$PC=4.17E-6 6$QC=3.01E-7 5
235U G 612.83 3 0.95 5 E1 M
235U S G CC=0.00910 13$KC=0.00738 11$LC=0.001300 19$MC=0.000310 5$NC+=0.0001072
235U S G NC=8.31E-5 12$OC=2.00E-5 3$PC=3.78E-6 6$QC=2.75E-7 4
235U G 618.28 6 2.04 6 (E2) 0.0292 M
235U S G KC=0.0196 3$LC=0.00716 10$MC=0.00184 3$NC+=0.000639 9
235U S G NC=0.000499 7$OC=0.0001180 17$PC=2.13E-5 3$QC=9.53E-7 14
235U G 664.58 5 1.66 3 E2 0.0251 M
235U S G KC=0.01721 25$LC=0.00583 9$MC=0.001493 21$NC+=0.000517 8
235U S G NC=0.000403 6$OC=9.57E-5 14$PC=1.736E-5 25$QC=8.25E-7 12
235U L 670.99 4 (7/2)-
235U A 4497 3E-8 LE 1.47E5 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 624.78 3 0.437 20(M1) 0.1369 & ?
235U S G KC=0.1094 16$LC=0.0208 3$MC=0.00501 7$NC+=0.001745 25
235U S G NC=0.001349 19$OC=0.000328 5$PC=6.33E-5 9$QC=5.05E-6 7
235U cG Doublet
235U G 670.99 4 0.009 [M1+E2] 0.07 5 & ?
235U 2 G FLAG=E
235U F G FL=0
235U S G KC=0.05 4$LC=0.011 6$MC=0.0028 14$NC+=0.0010 5
235U S G NC=0.0008 4$OC=0.00018 9$PC=3.5E-5 18$QC=2.5E-6 17
235U cG Doublet
235U L 701.02 3 (7/2)-
235U A 4467.4 6.9E-6 1 375 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 550.5 2 0.42 3 [E1] 0.01117
235U S G KC=0.00904 13$LC=0.001613 23$MC=0.000385 6$NC+=0.0001331 19
235U S G NC=0.0001032 15$OC=2.48E-5 4$PC=4.68E-6 7$QC=3.35E-7 5
235U G 597.99 5 1.67 5 [E2] 0.0314
235U S G KC=0.0208 3$LC=0.00789 11$MC=0.00204 3$NC+=0.000706 10
235U S G NC=0.000551 8$OC=0.0001304 19$PC=2.35E-5 4$QC=1.019E-6 15
235U G 619.21 6 1.21 8 [E1]
235U S G CC=0.00892 13$KC=0.00724 11$LC=0.001274 18$MC=0.000304 5$NC+=0.0001050
235U S G NC=8.14E-5 12$OC=1.96E-5 3$PC=3.71E-6 6$QC=2.70E-7 4
235U G 649.32 6 0.71 5 [E1]
235U S G CC=0.00816 12$KC=0.00662 10$LC=0.001160 17$MC=0.000277 4$NC+=9.56E-5 14
235U S G NC=7.41E-5 11$OC=1.79E-5 3$PC=3.38E-6 5$QC=2.48E-7 4
235U G 654.88 8 2.25 3 (E2) 0.0258 C
235U S G KC=0.01767 25$LC=0.00607 9$MC=0.001558 22$NC+=0.000540 8
235U S G NC=0.000421 6$OC=9.98E-5 14$PC=1.81E-5 3$QC=8.50E-7 12
235U G 701.1 2 0.512 16 [M1+E2] 0.06 4
235U F G FL=0
235U S G KC=0.05 4$LC=0.010 6$MC=0.0025 12$NC+=0.0009 5
235U S G NC=0.0007 4$OC=0.00016 8$PC=3.1E-5 16$QC=2.2E-6 15
235U L 703.758 19 3/2-
235U A 4464.7 115E-7 4 214 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 652.05 2 6.6 2 E1 M
235U 3 G FLAG=L
235U S G CC=0.00809 12$KC=0.00657 10$LC=0.001151 17$MC=0.000274 4$NC+=9.48E-5 14
235U S G NC=7.35E-5 11$OC=1.773E-5 25$PC=3.35E-6 5$QC=2.46E-7 4
235U G 690.81 8 0.90 25E1 M
235U S G CC=0.00727 11$KC=0.00591 9$LC=0.001029 15$MC=0.000245 4$NC+=8.47E-5 12
235U S G NC=6.57E-5 10$OC=1.584E-5 23$PC=3.00E-6 5$QC=2.22E-7 4
235U cG RI from 1981UmZZ
235U G 703.68 5 3.95 2 E1 M
235U S G CC=0.00702 10$KC=0.00571 8$LC=0.000993 14$MC=0.000236 4$NC+=8.17E-5 12
235U S G NC=6.33E-5 9$OC=1.529E-5 22$PC=2.90E-6 4$QC=2.15E-7 3
235U L 720.25 3 (9/2)-
235U A 4448.5 2.13E-6 9 859 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 617.10 10 1.34 7 [M1] 0.1415
235U S G KC=0.1130 16$LC=0.0215 3$MC=0.00518 8$NC+=0.00180 3
235U S G NC=0.001394 20$OC=0.000339 5$PC=6.54E-5 10$QC=5.22E-6 8
235U G 674.05 3 0.515 16[M1] 0.1118
235U S G KC=0.0893 13$LC=0.01694 24$MC=0.00408 6$NC+=0.001422 20
235U S G NC=0.001099 16$OC=0.000267 4$PC=5.16E-5 8$QC=4.12E-6 6
235U cG Doublet
235U G 720.3 5 0.0285 CA @
235U F G FL=0
235U cG RI$from 1976GuZN I|g(720.3)=0.0485 and using Branching for 891 level
235U xcG in (n,|g)
235U L 750.07 16 (9/2-)
235U A 4419 33E-8 3 3.23E3 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 579.4 3 0.086 17[E2] 0.0337
235U S G KC=0.0220 3$LC=0.00866 13$MC=0.00224 4$NC+=0.000777 11
235U S G NC=0.000607 9$OC=0.0001434 21$PC=2.57E-5 4$QC=1.086E-6 16
235U G 599.6 2 0.20 2 [E1]
235U S G CC=0.00948 14$KC=0.00769 11$LC=0.001358 19$MC=0.000324 5$NC+=0.0001120
235U S G NC=8.68E-5 13$OC=2.09E-5 3$PC=3.95E-6 6$QC=2.86E-7 4
235U G 668.2 5 0.039 13 [E1]
235U S G CC=0.00773 11$KC=0.00628 9$LC=0.001097 16$MC=0.000262 4$NC+=9.04E-5 13
235U S G NC=7.01E-5 10$OC=1.690E-5 24$PC=3.20E-6 5$QC=2.35E-7 4
235U L 761.05 5 (1/2)-
235U A 4408 10E-8 2 8.7E3 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 123.228 5 0.0016 4 [M1] 12.19 S
235U S G KC=9.66 14$LC=1.91 3$MC=0.461 7$NC+=0.1609 23
235U S G NC=0.1244 18$OC=0.0303 5$PC=0.00584 9$QC=0.000467 7
235U cG RI from (n,|g)
235U G 747.4 5 0.081 16E1
235U S G CC=0.00629 9$KC=0.00512 8$LC=0.000885 13$MC=0.000211 3$NC+=7.28E-5 11
235U S G NC=5.64E-5 8$OC=1.362E-5 20$PC=2.58E-6 4$QC=1.93E-7 3
235U L 769.27 6 1/2+
235U A 4380 AP 25E-6 8 30
235U cA IA from 1963Bj03.
235U cA IA${ 27|*10{+-6}% {I4}}, deduced by evaluator from |g-ray transition
235U 2cA intensity balance.
235U G 639.99 10 8.7 2 [E2] 0.0271 L
235U S G KC=0.0184 3$LC=0.00648 9$MC=0.001666 24$NC+=0.000577 8
235U S G NC=0.000450 7$OC=0.0001067 15$PC=1.93E-5 3$QC=8.90E-7 13
235U G 756.4 2 2.8 5 [M1+E2] 0.05 4 @
235U S G KC=0.04 3$LC=0.008 5$MC=0.0020 10$NC+=0.0007 4
235U S G NC=0.0005 3$OC=0.00013 7$PC=2.5E-5 13$QC=1.8E-6 12
235U cG The I|g has been split based on the (n,|g) decay scheme. The
235U 2cG measured intensity of the doublet is 3.47 with 0.4% uncertainty.
235U G 769.15 8 5.1 10 M1+E0 2.0 2
235U F G FL=0.0765
235U S G KC=1.6 2$ LC=0.4 1
235U cG E and |a are from (n,|g).
235U 2cG I|g(769.37)={ 11.9 {I2}} is from {+239}Pu |a decay(1986LoZT) and
235U 3cG |g-ray branchings in (n,|g).
235U L 769.5 3 3/2-
235U A 4400.3 10.3E-613 73 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 718.0 5 2.8 2 E1 L
235U 3 G FLAG=M
235U S G CC=0.00677 10$KC=0.00551 8$LC=0.000955 14$MC=0.000227 4$NC+=7.86E-5 11
235U S G NC=6.09E-5 9$OC=1.471E-5 21$PC=2.79E-6 4$QC=2.07E-7 3
235U G 756.4 4 0.67 20[E1] @
235U S G CC=0.00615 9$KC=0.00501 7$LC=0.000865 13$MC=0.000206 3$NC+=7.12E-5 10
235U S G NC=5.51E-5 8$OC=1.331E-5 19$PC=2.53E-6 4$QC=1.89E-7 3
235U G 769.37 50 6.8 12E1
235U F G FL=0.0765
235U 3 G FLAG=M
235U S G CC=0.00596 9$KC=0.00486 7$LC=0.000837 12$MC=0.000199 3$NC+=6.89E-5 10
235U S G NC=5.34E-5 8$OC=1.289E-5 19$PC=2.45E-6 4$QC=1.83E-7 3
235U cG The intensities are split based on the (n,|g) level scheme;
235U 2cG I|g of doublet is { 11.9 {I2}} (1986LoZT)
235U L 777.5919 (11/2)-
235U A 4392 7.07E-7 23 912 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 606.9 2 0.120 12 M1(+E2) 1 LT 0.12 3 C
235U S G KC=0.094 25$LC=0.019 4$MC=0.0045 9$NC+=0.0016 3
235U S G NC=0.00123 24$OC=0.00030 6$PC=5.7E-5 12$QC=4.3E-6 12
235U G 674.4 5 0.515 16(M1) 0.1116
235U S G KC=0.0892 13$LC=0.01692 24$MC=0.00408 6$NC+=0.001420 20
235U S G NC=0.001098 16$OC=0.000267 4$PC=5.15E-5 8$QC=4.11E-6 6
235U cG Doublet
235U L 779.51 3 3/2+
235U A 4390 1.0E-6 1 622 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 697.8 5 0.074 15
235U G 727.9 2 0.124 6 M1 0.0911 M
235U S G KC=0.0728 11$LC=0.01379 20$MC=0.00332 5$NC+=0.001157 17
235U S G NC=0.000894 13$OC=0.000217 3$PC=4.20E-5 6$QC=3.35E-6 5
235U G 766.47 3 0.13 2 E0+M1 4.0 4
235U 2 G FLAG=M
235U cG Doublet
235U cG RI$from (n,|g). I|g(doublet)=0.275 in {+239}Pu |a decay.
235U S G KC=3.0 3$ LC=0.6 2
235U G 779.4 0.136 8 M1 0.0760 M
235U F G FL=0.0765
235U S G KC=0.0607 9$LC=0.01148 16$MC=0.00276 4$NC+=0.000963 14
235U S G NC=0.000744 11$OC=0.000181 3$PC=3.49E-5 5$QC=2.79E-6 4
235U cG E from (n,|g). Reported as 779.61 by 1976GuZN
235U L 805.73 6 3/2-
235U A 4364.5 83E-9 6 4.62E3 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 172.560 8 0.003 CAM1 4.70 S
235U S G KC=3.73 6$LC=0.728 11$MC=0.1761 25$NC+=0.0614 9
235U S G NC=0.0475 7$OC=0.01155 17$PC=0.00223 4$QC=0.0001777 25
235U cG E from (n,|g).
235U cG From (n,|g)
235U G 412.3 CA 0.018 [E1] 0.02006 S
235U S G KC=0.01611 $LC=0.00298 $MC=0.00071 $NC+=0.00025
235U G 792.9 3 0.020 4 (E1) M
235U S G CC=0.00565 8$KC=0.00460 7$LC=0.000791 11$MC=0.000188 3$NC+=6.51E-5 10
235U S G NC=5.04E-5 7$OC=1.218E-5 17$PC=2.31E-6 4$QC=1.741E-7 25
235U G 805.9 3 0.027 4 E2 0.01688 M
235U F G FL=0
235U S G KC=0.01223 18$LC=0.00348 5$MC=0.000877 13$NC+=0.000304 5
235U S G NC=0.000237 4$OC=5.65E-5 8$PC=1.038E-5 15$QC=5.67E-7 8
235U L 821.25 4 5/2+
235U A 4349 3.0E-7 4 9.6E2 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 596.0 5 0.039 20[E2] 0.0317
235U S G KC=0.0209 3$LC=0.00797 12$MC=0.00206 3$NC+=0.000713 11
235U S G NC=0.000557 8$OC=0.0001317 19$PC=2.37E-5 4$QC=1.026E-6 15
235U G 670.8 5 0.009 & ?
235U 2 G FLAG=E
235U cG Doublet
235U G 769.54 4 (E0) 0.08 2 M S
235U S G K/T=0.8$ L/T=0.15
235U G 808.4 2 0.121 6 M1 0.0689 M
235U S G KC=0.0551 8$LC=0.01041 15$MC=0.00251 4$NC+=0.000873 13
235U S G NC=0.000675 10$OC=0.0001642 23$PC=3.17E-5 5$QC=2.53E-6 4
235U G 821.3 2 0.050 11 @
235U cG Possible doublet
235U F G FL=0
235U L 843.85910 (1/2)+
235U A 4327 23E-8 1 818 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 714.71 14 0.079 8 E2 0.0215 M
235U S G KC=0.01512 22$LC=0.00477 7$MC=0.001215 17$NC+=0.000421 6
235U S G NC=0.000328 5$OC=7.80E-5 11$PC=1.423E-5 20$QC=7.15E-7 10
235U G 843.780 10 0.134 7 M1(+E0) 0.09 1 M
235U S G KC=0.075 10$ LC=0.015 2
235U cG E from (n,|g). Reported as 844.0 by 1976GuZN
235U L 845.310(7/2+) ?
235U A 4326 4.18E-8 3 4379 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 763.6 CA 0.022 CA E0(+M1) 0.9 GT
235U cG RI from 1976GuZN I|g(763.7)=0.032 and from Branching from 892
235U 2cG level in (n,|g)
235U 3 G FLAG=M
235U L 865.3518 3/2+
235U A 4306 10E-8 1 1.25E3 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 693.2 5 0.02 CA(E2) 0.0229 @
235U S G KC=0.01597 23$LC=0.00518 8$MC=0.001324 19$NC+=0.000459 7
235U S G NC=0.000358 5$OC=8.49E-5 12$PC=1.546E-5 22$QC=7.60E-7 11
235U cG RI from (n,|g)
235U G 736.5 5 0.030 10M1+E2 1.2 2 0.048 7 M
235U S G KC=0.037 5$LC=0.0081 9$MC=0.00198 20$NC+=0.00069 7
235U S G NC=0.00053 6$OC=0.000129 13$PC=2.4E-5 3$QC=1.73E-6 24
235U G 813.7 2 0.045 5 M1 0.0677 M
235U S G KC=0.0542 8$LC=0.01023 15$MC=0.00246 4$NC+=0.000858 12
235U S G NC=0.000663 10$OC=0.0001613 23$PC=3.11E-5 5$QC=2.49E-6 4
235U L 891.8915 5/2+
235U A 4280 19E-8 1 398 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 720.3 CA 0.020 CA @
235U cG RI from (n,|g)
235U G 762.6 CA 0.010 CA
235U cG RI from (n,|g)
235U G 840.4 2 0.048 5 M1(+E0) 0.14 2 M
235U S G KC=0.11 2$ LC=0.025
235U G 879.2 3 0.036 4 [M1+E2] 0.035 21
235U S G KC=0.027 17$LC=0.006 3$MC=0.0014 7$NC+=0.00047 23
235U S G NC=0.00036 18$OC=9.E-5 5$PC=1.7E-5 9$QC=1.3E-6 8
235U G 891.0 3 0.075 8 [E2] 0.01385
235U S G KC=0.01024 15$LC=0.00270 4$MC=0.000677 10$NC+=0.000235 4
235U S G NC=0.000182 3$OC=4.36E-5 7$PC=8.07E-6 12$QC=4.68E-7 7
235U L 968.45120 3/2+
235U A 4204.5 61E-9 4 281 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 955.6 2 0.031 3 M1+E2 0.6 2 0.036 5 M
235U S G KC=0.028 4$LC=0.0055 6$MC=0.00133 14$NC+=0.00046 5
235U S G NC=0.00036 4$OC=8.7E-5 9$PC=1.67E-5 18$QC=1.30E-6 16
235U G 968.37 2 0.028 CAM1+E2 0.6 3 0.035 6 M S
235U S G KC=0.027 5$LC=0.0053 8$MC=0.00128 19$NC+=0.00045 7
235U S G NC=0.00035 5$OC=8.4E-5 12$PC=1.61E-5 24$QC=1.26E-6 22
235U L 970.5222 (5/2,7/2) ?
235U A 4202 4.0E-8 5 412 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 918.7 3 0.0084 30
235U G 957.6 3 0.032 3
235U L 986.65 17 (13/2-)
235U A 4187 7.6E-8 7 158 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 816.0 2 0.024 4 [M1+E2] 0.04 3
235U S G KC=0.033 21$LC=0.007 4$MC=0.0016 8$NC+=0.0006 3
235U S G NC=0.00044 22$OC=0.00011 6$PC=2.0E-5 11$QC=1.5E-6 10
235U G 940.3 3 0.050 5 [E2] 0.01248
235U S G KC=0.00932 13$LC=0.00237 4$MC=0.000591 9$NC+=0.000205 3
235U S G NC=0.0001594 23$OC=3.82E-5 6$PC=7.08E-6 10$QC=4.23E-7 6
235U L 992.7222 (5/2+)
235U A 4181 56E-9 7 190 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U 2cA I|a does not include possible contribution from 767and 821 |g rays.
235U G 767.29 4 0.14 AP @ ?
235U cG Doublet
235U cG RI$from (n,|g). I|g(doublet)=0.275 in {+239}Pu |a decay.
235U G 821.3 2 0.01 LT @ ?
235U cG Possible doublet
235U G 979.7 3 0.028 5 [M1+E2] 0.026 15
235U S G KC=0.021 13$LC=0.0042 21$MC=0.0010 5$NC+=0.00035 17
235U S G NC=0.00027 13$OC=7.E-5 4$PC=1.3E-5 7$QC=1.0E-6 6
235U G 992.7 3 0.027 4
235U F G FL=0
235U L 1057.5813 (7/2)
235U A 4117 93E-9 8 31 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 832.5 2 0.0296 23
235U G 1005.7 3 0.018 3
235U G 1057.3 2 0.0457
235U F G FL=0
235U L 1116.2020 (5/2-) ?
235U A 4059 21E-9 4 41 S
235U cA IA$deduced by evaluator from |g-ray transition intensity balance.
235U G 986.9 2 0.021 4 E1 M
235U S G CC=0.00383 6$KC=0.00313 5$LC=0.000529 8$MC=0.0001255 18$NC+=4.34E-5 6
235U S G NC=3.36E-5 5$OC=8.14E-6 12$PC=1.552E-6 22$QC=1.196E-7 17