239NP 239U B- DECAY 1969CL12,1996SA23,2006WO0314NDS 201411
239NP H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 122, 293 (2014)$
239NP2 H CUT=30-Jun-2013$
239NP c Includes 2008GrZS
239NP D Updated 8/15/2013, E. Browne.
239NP c Other: 1986LoZT
239NP D The evaluator has removed some G rays and levels from the decay scheme
239NP2D proposed by 1971Ar47 because of energy inconsistencies. A level at
239NP3D 865.89 keV was proposed by 1975Vo01 and assigned J=9/2+. However, such
239NP4D a level is not likely to be directly populated in {+239}U decay
239NP5D (second-forbidden |b{+-}).
239NP cB E From 1964Bl11
239NP cB IB$From |g-ray transition intensity balances.
239NP2cB |b- branches with I|b<0.5% are tentative because of unplaced |g rays.
239NP cB IB(F)$Experimental value deduced by measuring absolute |g-ray
239NP2cB intensities from {+239}U |b-decay and {+239}Np |b-decay in
239NP3cB equilibrium (1996Sa23).
239NP DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
239NP dG For possible additional weak unplaced |g rays see 1971Ar47.
239NP cG E,RI From 2006Wo03, unless otherwise specified.
239NP2cG Uncertainties in |g-ray intensities given in 2006Wo03 do not include
239NP3cG the contribution from the detector efficiency. Evaluators have
239NP4cG corrected the uncertainties given here as suggested in 2006Wo03 by
239NP5cG combining them with fractional uncertainties as follows: 15% for
239NP6cG E|g<150 keV; 10% for 150 keV500 keV.
239NP2cG Other: 1968Ma06.
239NP cG E(X),RI(X)$From 2003Br12, 1971Ar47, 1969Cl12
239NP cG E(Y),RI(Y)$From 2006Wo03.
239NP cG M$From ce data of 1964Bl11, 1957Ho07, 1969En02 and from {+243}Am |a
239NP2cG decay.
239NP cL J$All J|p are from adopted levels. J|p assignments for
239NP2cL Levels with E >200 keV are tentative and based
239NP3cL on ({+3}He,d) in 1975Vo01.
239NP cL E$Deduced by evaluator from a least-squares fit to
239NP2cL |g-ray energies.
239U P 0 5/2+ 23.45 M 2 1261.5 16
239NP N 0.00532 17 1.0 1.0
239NP PN 3
239NP cN NR From weighted average of I|g(74)=49.2% {I12} (1996Sa02) and
239NP2cN I|g=53.9% {I5} (2008GrZS).
239NP G 134.71 13 0.41 9
239NP G 196.85 10 0.44 X
239NP G 236.28 14 0.20 4
239NP G 262.89 19 0.18 7
239NP G 265.44 17 0.20 7
239NP G 321.71 15 0.24 X
239NP G 343.74 10 0.39 X
239NP G 348.23 18 0.16 6
239NP G 361.83 8 0.97 9
239NP G 363.1 2 0.17 X
239NP G 393.01 18 0.14 5
239NP G 400.55 15 0.20 5
239NP G 404.84 18 0.19 7
239NP G 445.81 12 0.24 3
239NP G 452.17 12 0.34 6
239NP G 478.13 19 0.12 5
239NP G 479.55 14 0.22 5
239NP G 506.80 14 0.22 5
239NP G 541.32 10 0.63 7
239NP G 575.27 5 2.85 15
239NP G 585.49 14 0.27 5
239NP G 599.13 15 0.16 4
239NP G 602.68 4 0.98 X
239NP G 604.85 16 0.21 6
239NP G 607.96 15 0.29 7
239NP G 614.53 17 0.14 5
239NP G 618.03 16 0.16 4
239NP G 629.00 11 0.58 8
239NP G 649.79 19 0.20 8
239NP G 668.76 18 0.12 4
239NP G 670.88 20 0.13 6
239NP G 691.01 6 1.61 9
239NP G 692.61 13 0.36 6
239NP G 700.93 8 0.42 X
239NP G 701.21 10 0.52 5
239NP G 714.22 9 0.81
239NP G 727.52 10 0.56 6
239NP G 730.92 4 2.5 X
239NP G 730.95 6 2.05 11
239NP G 764.04 11 0.56 7
239NP G 768.15 11 0.44 5
239NP G 791.3 1.8 X
239NP G 795.13 15 0.18 4
239NP G 829.59 17 0.10 3
239NP G 831.86 4 0.71 X
239NP G 831.89 9 0.45 5
239NP G 840.3 3 0.93 X
239NP G 869.57 9 0.35 3
239NP G 913.68 9 0.41 3
239NP G 948.88 19 0.05 2
239NP G 970.07 14 0.20 4
239NP G 988.51 14 0.097 21
239NP G 1002.40 13 0.11 2
239NP G 1005.27 13 0.14 2
239NP G 1078.88 15 0.32 X
239NP G 1101.99 16 0.067 19
239NP G 1161.4 2 0.20 X
239NP G 1204.9 2 0.32 X
239NP L 0 5/2+
239NP B 1285 18.7 24 6.6 F
239NPS B EAV=418.6 6
239NP cB IB$%I|b=13 {I4}, from |g-ray transition-intensity balance.
239NP L 31.1309 12 7/2+
239NP B 9.4 19 6.9 F
239NPS B EAV=406.8 6
239NP cB IB$%I|b=8.5 {I22}, from |g-ray transition-intensity balance.
239NP G 31.131 2 13.0 14M1+E2 0.18 1 263 13 X
239NPS G LC=195 10$MC=50 3$NC+=17.6 10
239NPS G NC=13.7 8$OC=3.28 17$PC=0.59 3$QC=0.0286 4
239NP cG MR$from |a(exp)=274 {I11}; Average of |a(exp)=284 {I45}, deduced
239NP2cG by evaluator from a |g-ray transition intensity balance in {+239}U
239NP3cG |b{+-} decay, and |a(exp)=273 {I11}, also deduced by evaluator from
239NP4cG |g-ray transition intensity balance in {+243}Am |a decay.
239NP cG RI$from 0.064% {I7} (1996Sa23); Other: 0.068% {I10} (1986LoZT).
239NP L 71.13 3 9/2+
239NP G 71.2 [E2] 72.0 S
239NPS G LC=52.3 8$MC=14.58 21$NC+=5.06 7
239NPS G NC=3.98 6$OC=0.927 13$PC=0.1516 22$QC=0.000464 7
239NP cG E From 2003Br12, 1971Ar47, 1969Cl12.
239NP L 74.664010 5/2-
239NP B 1211 69.0 14 5.9 F
239NPS B EAV=390.3 6
239NP cB IB$%I|b=77.0 {I25}, from |g-ray transition-intensity balance.
239NP cB Other result: I|b(1211)/I|b(1285)=3.5 {I7} (1964Bl11)
239NP G 43.533 1 827 15E1 1.143
239NPS G LC=0.856 12$MC=0.215 3$NC+=0.0722 11
239NPS G NC=0.0570 8$OC=0.01304 19$PC=0.00205 3$QC=6.88E-5 10
239NP cG E$From 1979Bo30.
239NP cG RI$from 4.07% {I11} (1996Sa23); Other: 4.16% {I11} (1986LoZT).
239NP G 74.664 1 1.0E+4 E1 0.276
239NPS G LC=0.207 3$MC=0.0512 8$NC+=0.01740 25
239NPS G NC=0.01364 20$OC=0.00319 5$PC=0.000540 8$QC=2.23E-5 4
239NP cG E$From 2003Br12, 1971Ar47, 1969Cl12.
239NP cG RI$from 49.2% {I12} (1996Sa23);
239NP2cG others: 48.1% {I10} (1986LoZT);
239NP3cG I|g=48% {I2} if I|g(277.6|g)=14.1% {I4} in {+239}Np |b{+-} decay
239NP4cG (1976GlZY). I|g=59.3% (1969Cl12)
239NP L 117.715 20 7/2-
239NP B 1.96 24 7.4 F
239NPS B EAV=374.1 6
239NP cB IB$%I|b=0.15 {I3}, from |g-ray transition-intensity balance.
239NP G 43.1 M1+E2 0.38 154.4 S
239NP cG MR$From |a(M)exp=31 in {+243}Am |a decay.
239NPS G LC=113.7 16$MC=30.2 5$NC+=10.51 15
239NPS G NC=8.22 12$OC=1.95 3$PC=0.336 5$QC=0.01016 15
239NP cG E From 2003Br12, 1971Ar47, 1969Cl12.
239NP G 86.72 7 10.8 12E1 0.186
239NPS G LC=0.1401 20$MC=0.0344 5$NC+=0.01175 17
239NPS G NC=0.00920 13$OC=0.00216 3$PC=0.000371 6$QC=1.620E-5 23
239NP cG E From 2003Br12, 1971Ar47, 1969Cl12.
239NP cG RI$from 0.053% {I6} (1996Sa23); Other: 0.052% {I6} (1986LoZT).
239NP G 117.66 3 28 4 E1 0.0841
239NPS G LC=0.0633 9$MC=0.01549 22$NC+=0.00531 8
239NPS G NC=0.00415 6$OC=0.000984 14$PC=0.0001730 25$QC=8.35E-6 12
239NP cG E From 2003Br12, 1971Ar47, 1969Cl12.
239NP cG RI$from 0.14% {I3} (1996Sa23); Other: 0.13% {I4} (1986LoZT).
239NP DG E$from {+243}Am |a decay scheme this E|g should be 117.84 keV {I2}.
239NP2DG Possibly x-rays interfered with the measurement.
239NP L 122.510(11/2+) ?
239NP L 173.086 18 9/2-
239NP G 50.6 S
239NP cG E From 2003Br12, 1971Ar47, 1969Cl12.
239NP G 55.18 0.017 M1+E2 0.6 2 9.E1 3 X S
239NPS G LC=63 20$MC=17 6$NC+=5.9 20
239NPS G NC=4.6 16$OC=1.1 4$PC=0.19 6$QC=0.0043 5
239NP cG MR from {+243}Am |a Decay.
239NP G 141.97 2 0.34 [E1] 0.224
239NPS G KC=0.1721 25$LC=0.0391 6$MC=0.00954 14$NC+=0.00328 5
239NPS G NC=0.00255 4$OC=0.000609 9$PC=0.0001085 16$QC=5.55E-6 8
239NP L 241.312 22(11/2-)
239NP G 169 S
239NP cG E From 2003Br12, 1971Ar47, 1969Cl12.
239NP L 257.63 25
239NP L 260.81 3(3/2-)
239NP G 142.93 0.45 [E2] 3.03
239NPS G KC=0.211 3$LC=2.05 3$MC=0.571 8$NC+=0.199 3
239NPS G NC=0.1561 22$OC=0.0365 6$PC=0.00606 9$QC=3.63E-5 5
239NP G 186.15 4 6.3 6 [M1+E2] 2.6 16
239NPS G KC=1.7 16$LC=0.645 10$MC=0.167 11$NC+=0.059 4
239NPS G NC=0.046 3$OC=0.0109 5$PC=0.00197 8$QC=9.E-5 7
239NP G 260.86 9 0.67 7 [E1] 0.0549
239NPS G KC=0.0434 6$LC=0.00869 13$MC=0.00211 3$NC+=0.000729 11
239NPS G NC=0.000566 8$OC=0.0001365 20$PC=2.51E-5 4$QC=1.503E-6 21
239NP L 347.33 23
239NP L 359.1 2
239NP L 438.79 5(11/2+)
239NP G 197.28 120.53 9 [E1] 0.1038
239NPS G KC=0.0812 12$LC=0.01709 24$MC=0.00415 6$NC+=0.001434 21
239NPS G NC=0.001115 16$OC=0.000268 4$PC=4.86E-5 7$QC=2.72E-6 4
239NP G 407.70 5 0.71 [E2] 0.0830 X
239NPS G KC=0.0433 6$LC=0.0292 4$MC=0.00781 11$NC+=0.00272 4
239NPS G NC=0.00213 3$OC=0.000505 7$PC=8.88E-5 13$QC=2.42E-6 4
239NP L 448.15 3(3/2-)
239NP G 187.28 8 1.22 14[M1+E2] 2.6 16
239NPS G KC=1.7 16$LC=0.631 12$MC=0.164 10$NC+=0.057 3
239NPS G NC=0.045 3$OC=0.0107 4$PC=0.00193 8$QC=9.E-5 7
239NP G 330.14 14 0.15 3 [E2] 0.1494
239NPS G KC=0.0638 9$LC=0.0626 9$MC=0.01697 24$NC+=0.00592 9
239NPS G NC=0.00463 7$OC=0.001093 16$PC=0.000189 3$QC=3.89E-6 6
239NP G 373.51 4 5.37 40[M1+E2] 0.35 25
239NPS G KC=0.26 22$LC=0.07 3$MC=0.017 6$NC+=0.0058 21
239NPS G NC=0.0045 16$OC=0.0011 4$PC=0.00021 9$QC=1.3E-5 10
239NP G 448.19 6 1.97 15[E1] 0.01733
239NPS G KC=0.01392 20$LC=0.00258 4$MC=0.000620 9$NC+=0.000215 3
239NPS G NC=0.0001668 24$OC=4.06E-5 6$PC=7.63E-6 11$QC=5.09E-7 8
239NP L 452.76 4 (5/2+,7/2-)
239NP G 191.97 6 0.56 X
239NP G 378.06 6 2.2 2
239NP G 381.27 16 0.14 4
239NP L 474.43 5 ?
239NP G 399.13 13 0.34 6
239NP2 G FL=74.6640
239NP G 474.5 1 0.38 5
239NP L 517.98 3(7/2-) ?
239NP G 486.87 3 13.5 9 [E1] 0.01469
239NPS G KC=0.01182 17$LC=0.00217 3$MC=0.000520 8$NC+=0.000181 3
239NPS G NC=0.0001400 20$OC=3.41E-5 5$PC=6.43E-6 9$QC=4.35E-7 6
239NP G 518.01 9 0.98 9 [E1] 0.01301
239NPS G KC=0.01048 15$LC=0.00191 3$MC=0.000457 7$NC+=0.0001591 23
239NPS G NC=0.0001231 18$OC=3.00E-5 5$PC=5.67E-6 8$QC=3.88E-7 6
239NP L 530.21 8 ?
239NP G 455.26 18 0.18 7
239NP G 499.1 1 0.45 6
239NP G 530.5 2 0.24 X
239NP L 563.87 5 (5/2+,7/2)
239NP G 111.0 2 4.1 X
239NP G 492.76 7 1.09 9
239NP G 532.86 10 0.50 6
239NP G 564.09 20 0.09 4
239NP L 579.34 7(9/2-) ?
239NP G 504.76 8 1.14 9 [E2] 0.0488
239NPS G KC=0.0293 5$LC=0.01434 20$MC=0.00377 6$NC+=0.001318 19
239NPS G NC=0.001027 15$OC=0.000245 4$PC=4.38E-5 7$QC=1.534E-6 22
239NP G 547.99 16 0.43 9 [E1] 0.01166
239NPS G KC=0.00941 14$LC=0.001700 24$MC=0.000408 6$NC+=0.0001418 20
239NPS G NC=0.0001097 16$OC=2.67E-5 4$PC=5.06E-6 7$QC=3.49E-7 5
239NP L 662.261 15(5/2-)
239NP B 0.30 2 7.3
239NPS B EAV=179.1 6
239NP G 544.48 9 0.79 7 [M1+E2] 0.13 9
239NPS G KC=0.10 8$LC=0.022 11$MC=0.005 3$NC+=0.0019 9
239NPS G NC=0.0015 7$OC=0.00036 18$PC=7.E-5 4$QC=5.E-6 4
239NP G 587.63 5 4.2 2 [M1+E2] 0.11 7
239NP3 G FL=74.6640
239NPS G KC=0.08 6$LC=0.018 9$MC=0.0044 21$NC+=0.0016 8
239NPS G NC=0.0012 6$OC=0.00029 15$PC=6.E-5 3$QC=4.E-6 3
239NP G 631.10 3 14.7 7 [E1]
239NPS G CC=0.00892 13$KC=0.00722 11$LC=0.001283 18$MC=0.000307 5$NC+=0.0001069
239NPS G NC=8.26E-5 12$OC=2.02E-5 3$PC=3.83E-6 6$QC=2.70E-7 4
239NP G 662.26 2 37 2 [E1]
239NPS G CC=0.00815 12$KC=0.00660 10$LC=0.001168 17$MC=0.000279 4$NC+=9.73E-5 14
239NPS G NC=7.52E-5 11$OC=1.84E-5 3$PC=3.49E-6 5$QC=2.48E-7 4
239NP L 695.10 4(7/2-)
239NP B 0.049 4 8.0
239NPS B EAV=168.0 6
239NP G 220.52 4 6.2 6
239NP2 G FL=474.43
239NP G 522.12 10 0.53 6 [M1+E2] 0.14 10
239NPS G KC=0.11 9$LC=0.025 13$MC=0.006 3$NC+=0.0022 10
239NPS G NC=0.0017 8$OC=0.00041 19$PC=8.E-5 4$QC=5.E-6 4
239NP G 577.15 14 0.3 LE[M1+E2] 0.11 8 &
239NPS G KC=0.09 7$LC=0.019 10$MC=0.0047 22$NC+=0.0016 8
239NPS G NC=0.0013 6$OC=0.00031 15$PC=6.E-5 3$QC=4.E-6 3
239NP G 624.11 7 1.35 8 [E1]
239NPS G CC=0.00910 13$KC=0.00737 11$LC=0.001312 19$MC=0.000314 5$NC+=0.0001093
239NPS G NC=8.45E-5 12$OC=2.06E-5 3$PC=3.92E-6 6$QC=2.76E-7 4
239NP G 664.17 9 1.17 10[E1]
239NPS G CC=0.00811 12$KC=0.00657 10$LC=0.001162 17$MC=0.000278 4$NC+=9.67E-5 14
239NPS G NC=7.47E-5 11$OC=1.83E-5 3$PC=3.47E-6 5$QC=2.47E-7 4
239NP G 695.18 8 0.79 6 [E1]
239NPS G CC=0.00745 11$KC=0.00604 9$LC=0.001064 15$MC=0.000254 4$NC+=8.85E-5 13
239NPS G NC=6.84E-5 10$OC=1.671E-5 24$PC=3.18E-6 5$QC=2.28E-7 4
239NP L 781.85 7 ?
239NP G 707.38 9 0.48 5
239NP L 784.96 5 ?
239NP G 332.06 14 0.25 6
239NP G 710.35 15 0.25 X
239NP L 819.209 18(7/2)
239NP B 0.27 1 6.9
239NPS B EAV=127.5 6
239NP G 240.00 15 0.19 5
239NP G 255.71 12 0.25 5
239NP G 558.46 17 0.13 5
239NP G 577.15 14 0.3 LE &
239NP2 G FL=241.312
239NP G 646.26 10 0.63 6
239NP G 748.09 3 19.4 10
239NP G 788.19 7 1.06 7
239NP G 819.19 2 28.1 14
239NP L 844.072 15 (5/2,7/2) ?
239NP B 0.26 1 6.8
239NPS B EAV=119.5 5
239NP G 326.21 7 0.95 10
239NP G 602.79 2 1.05 7
239NP G 769.52 17 0.09 3
239NP G 772.94 9 0.64 6
239NP G 812.89 3 15.0 8
239NP G 844.05 2 30.3 15
239NP L 849.45 4 (7/2-)
239NP G 490.33 13 0.15 3 Y
239NP G 502.12 17 0.13 4 Y
239NP G 588.70 8 1.19 8 Y
239NP G 591.82 19 0.20 8 Y
239NP G 727.52 10 0.56 6 Y
239NP2 G FL=122.5
239NP G 774.77 4 3.3 2 Y
239NP G 849.44 9 0.44 4 &
239NP2 G FLAG=Y
239NP L 863.43 9 3/2,5/2,7/2 ?
239NP G 201.09 18 0.11 4
239NP G 746.06 11 0.93 12
239NP G 862.56 18 0.09 3
239NP L 959.17 3
239NP G 174.07 6 2.1 2
239NP G 296.93 13 0.31 LE &
239NP G 395.19 11 0.45 6
239NP G 841.48 12 0.54 8
239NP G 884.45 5 1.87 10
239NP G 887.83 10 0.51 5
239NP G 928.00 6 1.12 6 ?
239NP G 959.48 6 1.69 10
239NP2 G FL=0
239NP L 964.208 17(7/2-)
239NP B 0.24 1 6.4
239NPS B EAV=82.4 5
239NP G 301.64 15 0.24 6 [M1+E2] 0.6 5
239NPS G KC=0.5 4$LC=0.13 4$MC=0.032 9$NC+=0.011 3
239NPS G NC=0.0088 23$OC=0.0021 6$PC=0.00040 13$QC=2.3E-5 18
239NP G 703.63 10 0.51 6 [E2] 0.0235
239NPS G KC=0.01622 23$LC=0.00537 8$MC=0.001377 20$NC+=0.000481 7
239NPS G NC=0.000374 6$OC=9.00E-5 13$PC=1.651E-5 24$QC=7.84E-7 11
239NP G 722.85 4 5.89 30[E2] 0.0222
239NPS G KC=0.01547 22$LC=0.00499 7$MC=0.001277 18$NC+=0.000446 7
239NPS G NC=0.000347 5$OC=8.35E-5 12$PC=1.535E-5 22$QC=7.44E-7 11
239NP G 791.33 6 1.63 9 [M1+E2] 0.05 3
239NPS G KC=0.04 3$LC=0.008 5$MC=0.0020 10$NC+=0.0007 4
239NPS G NC=0.0005 3$OC=0.00013 7$PC=2.5E-5 13$QC=1.8E-6 12
239NP G 846.39 4 6.8 4 [M1+E2] 0.04 3
239NPS G KC=0.032 21$LC=0.007 4$MC=0.0016 8$NC+=0.0006 3
239NPS G NC=0.00044 22$OC=0.00011 6$PC=2.1E-5 11$QC=1.5E-6 10
239NP G 889.49 4 4.56 23[M1+E2] 0.036 22
239NPS G KC=0.029 18$LC=0.006 3$MC=0.0014 7$NC+=0.00050 25
239NPS G NC=0.00039 19$OC=0.00010 5$PC=1.8E-5 10$QC=1.3E-6 9
239NP G 933.09 3 5.7 3 [E1]
239NPS G CC=0.00439 7$KC=0.00358 5$LC=0.000614 9$MC=0.0001462 21$NC+=5.10E-5 8
239NPS G NC=3.94E-5 6$OC=9.64E-6 14$PC=1.85E-6 3$QC=1.370E-7 20
239NP G 964.30 5 19.7 10[E1]
239NPS G CC=0.00415 6$KC=0.00338 5$LC=0.000579 8$MC=0.0001377 20$NC+=4.80E-5 7
239NPS G NC=3.71E-5 6$OC=9.08E-6 13$PC=1.742E-6 25$QC=1.296E-7 19
239NP L 966.53 6 (7/2,9/2-)
239NP G 304.17 10 0.35 X
239NP G 514.1 3 0.14 X
239NP G 793.55 8 0.61 X
239NP G 849.44 9 0.44 5 & ?
239NP2 G FL=117.715
239NP G 895.15 15 0.18 4
239NP L 992.05 3(7/2-)
239NP B 0.027 2 7.2
239NPS B EAV=74.0 5
239NP G 296.93 13 0.31 LE[M1+E2] 0.7 5 &
239NPS G KC=0.5 4$LC=0.13 4$MC=0.034 9$NC+=0.012 3
239NPS G NC=0.0092 23$OC=0.0022 6$PC=0.00042 14$QC=2.4E-5 19
239NP G 874.22 7 0.72 5 [M1+E2] 0.038 23
239NPS G KC=0.030 19$LC=0.006 4$MC=0.0015 8$NC+=0.0005 3
239NPS G NC=0.00041 20$OC=0.00010 5$PC=1.9E-5 10$QC=1.4E-6 9
239NP G 917.40 8 0.58 4 [M1+E2] 0.034 20
239NPS G KC=0.026 17$LC=0.005 3$MC=0.0013 7$NC+=0.00046 23
239NPS G NC=0.00036 18$OC=9.E-5 5$PC=1.7E-5 9$QC=1.2E-6 8
239NP G 920.95 8 0.56 4 [E1]
239NPS G CC=0.00450 7$KC=0.00366 6$LC=0.000629 9$MC=0.0001497 21$NC+=5.22E-5 8
239NPS G NC=4.03E-5 6$OC=9.87E-6 14$PC=1.89E-6 3$QC=1.401E-7 20
239NP G 960.99 5 2.28 12[E1]
239NPS G CC=0.00417 6$KC=0.00340 5$LC=0.000582 9$MC=0.0001385 20$NC+=4.83E-5 7
239NPS G NC=3.73E-5 6$OC=9.14E-6 13$PC=1.753E-6 25$QC=1.304E-7 19
239NP G 992.00 7 0.61 4 [E1]
239NPS G CC=0.00395 6$KC=0.00322 5$LC=0.000550 8$MC=0.0001308 19$NC+=4.56E-5 7
239NPS G NC=3.52E-5 5$OC=8.63E-6 12$PC=1.656E-6 24$QC=1.236E-7 18
239NP L 1013.41 6 ?
239NP B 0.013 1 7.4 ?
239NPS B EAV=67.7 5
239NP G 231.70 10 0.62 X
239NP G 351.33 15 0.16 4
239NP G 560.63 7 1.27 9
239NP G 752.39 14 0.28 6
239NP G 938.59 16 0.067 18
239NP L 1040.39 4 (5/2-,7/2-)
239NP B 0.035 2 6.8
239NPS B EAV=59.8 5
239NP G 258.80 16 0.16 4
239NP G 345.13 8 0.85 10
239NP G 567.88 18 0.09 3
239NP2 G FL=474.43
239NP G 587.63 5 4.2 2
239NP G 779.57 14 0.14 3
239NP G 867.11 10 0.165 20
239NP G 922.83 13 0.132 24
239NP G 965.58 10 0.44 X
239NP G 1009.38 18 0.065 2
239NP G 1040.19 9 0.245 22
239NP L 1049.45 5(9/2-) ?
239NP G 876.14 7 0.41 [M1+E2] 0.038 23 X
239NPS G KC=0.030 19$LC=0.006 4$MC=0.0015 8$NC+=0.0005 3
239NPS G NC=0.00041 20$OC=0.00010 5$PC=1.9E-5 10$QC=1.4E-6 9
239NP G 931.97 7 1.16 8 [M1+E2] 0.032 19
239NP2 G FL=117.715
239NPS G KC=0.025 16$LC=0.005 3$MC=0.0013 7$NC+=0.00045 22
239NPS G NC=0.00034 17$OC=8.E-5 5$PC=1.6E-5 9$QC=1.2E-6 8
239NP G 974.91 14 0.087 17[E2] 0.01229
239NPS G KC=0.00917 13$LC=0.00234 4$MC=0.000585 9$NC+=0.000204 3
239NPS G NC=0.0001584 23$OC=3.84E-5 6$PC=7.20E-6 10$QC=4.19E-7 6
239NP G 1018.14 13 0.22 LE[E1] X
239NPS G CC=0.00377 6$KC=0.00308 5$LC=0.000525 8$MC=0.0001248 18$NC+=4.35E-5 6
239NPS G NC=3.36E-5 5$OC=8.24E-6 12$PC=1.581E-6 23$QC=1.183E-7 17
239NP L 1096.98 5 (7/2+)
239NP B 0.013 1 6.8
239NPS B EAV=43.7 5
239NP G 48 S
239NP G 312.05 3 1.1 X
239NP G 434.44 13 0.25 4 [E1] 0.0185
239NPS G KC=0.01481 21$LC=0.00276 4$MC=0.000663 10$NC+=0.000230 4
239NPS G NC=0.0001782 25$OC=4.33E-5 6$PC=8.14E-6 12$QC=5.40E-7 8
239NP G 644.12 14 0.42 9
239NP G 658.5 4 0.12 [E2] 0.0269 X
239NPS G KC=0.0182 3$LC=0.00646 10$MC=0.001664 24$NC+=0.000582 9
239NPS G NC=0.000452 7$OC=0.0001087 16$PC=1.98E-5 3$QC=8.94E-7 13
239NP G 1065.76 12 0.13 2 [M1+E2] 0.023 13
239NPS G KC=0.018 11$LC=0.0037 18$MC=0.0009 5$NC+=0.00031 15
239NPS G NC=0.00024 12$OC=6.E-5 3$PC=1.1E-5 6$QC=8.E-7 5
239NP G 1096.92 8 0.36 3 [M1+E2] 0.022 12
239NPS G KC=0.017 10$LC=0.0034 17$MC=0.0008 4$NC+=0.00029 14
239NPS G NC=0.00022 11$OC=6.E-5 3$PC=1.1E-5 6$QC=8.E-7 5
239NP L 1197.14 10 ?
239NP B 0.0032 1 6.2 ?
239NPS B EAV=16.5 5
239NP G 535.01 14 0.27 X
239NP G 1122.8 3 0.14 X
239NP G 1196.90 15 0.19 X