246CM 246AM B- DECAY (25.0 M) 1976MU03 24NDS 202410
246CM H TYP=FUL$AUT=C.D. Nesaraja$CIT=NDS 198, 449 (2024)$CUT=31-Jul-2022$
246CM c 1976Mu03: {+246}Pu was produced by double neutron capture on {+244}Pu.
246CM2c at the Oak Ridge National Laboratory high flux reactor. Gamma rays
246CM3c from the |b decay sequence of {+246}Pu |){+246}Am |) {+246}Cm were
246CM4c investigated with Ge(Li) planar, coaxial and Compton-suppressed Ge(Li)
246CM5c detectors. Conversion-electron spectra were measured with a Si(Li)
246CM6c detector (FWHM=2 keV). Measured E|g, I|g, |g|g, Ice, and conversion
246CM7c coefficients.
246CM c 1971Mu05: {+246}Pu was produced from the debris of a heavy element-
246CM2c production underground nuclear detonation. It was then followed by
246CM3c a series of chemical separation processes. |g-ray singles measurements
246CM4c from the |b decay sequence of {+246}Pu |){+246}Am |) {+246}Cm
246CM5c was performed using several Ge(Li) detectors.
246CM c 1966Or01: {+246}Pu was produced from the underground explosion,
246CM2c and was chemically separated. |g-ray singles measurements
246CM3c from the |b decay of {+246}Am |) {+246}Cm
246CM4c was performed using |g-scintillation spectrometers, and Ge(Li)
246CM5c detectors. A Au-surface-barrier electron detector was used to measure
246CM6c the electron spectrum. Measured, |g singles, |g|g- coin, E|g,
246CM7c I|g and conversion-electron data.
246CM c Others: 1965St10,1956Sm85
246CM cB IB$From level scheme intensity balance. The evaluator notes that
246CM2cB several unplaced |g rays may affect the value of I|b deduced
246CM3cB from intensity balance.
246CM cB E(B)$The Fermi plot of |b-spectrum from {+246}Pu+{+246}Am
246CM2cB equilibrium source shows three groups: 2.10 MeV {I7}%, 1.60 MeV {I14}%
246CM3cB and 1.31 MeV {I79}% (1956Sm85).
246CM cB IB(A)$I|b(g.s.+43 level)|?7 (1956Sm85)
246CM cG E,RI$From 1976Mu03
246CM cG E(B),TI(B)$I(|g+ce) deduced from coincidence measurements. E|g from
246CM2cG E(level) difference
246CM cG E(F)$|g-ray placed by the evaluator on basis of good energy fit.
246CM cG M$From conversion electron data in 1976Mu03, 1966Or01, except as noted.
246CM2cG These multipolarities are provided in the Adopted Gammas.
246CM3cG 1976Mu03 normalized the |a(K)exp (E1) for 1036, 1062 and 1079 |g rays
246CM4cG to the weighted average of the three theoretical values by Hager
246CM5cG Seltzer. The evaluator deduced the re-normalization value using BrICC
246CM6cG and considered the correction factor to be negligible (0.997) for
246CM7cG the conversion electron data in 1976Mu03.
246CM8cG 1966Or01 normalized the 800 |g ray to |a(K)exp(E1) =0.00524.
246CM9cG The evaluator deduced the re-normalization factor using BrICC and
246CMacG considered it to be negligible (0.998) for the conversion electron
246CMbcG data for E|g= 798.80{I4} in 1966Or01.
246CM cG M(J)$From Adopted Gammas.
246CM cG M(D)$From Adopted Gammas. |a(K)exp used for normalization of |g-
246CM2cG and ce-spectra. See general comments for multi
246CM cG M(E)$|a(K)exp=0.009 {I2} for the 1123+1124 peak (1976Mu03);
246CM2cG |a(K)exp=0.007 {I2} (1966Or01). |a(K)exp indicates that both |g rays
246CMxcG are predominantly E2.
246CM cG M(G)$|a(K)exp=0.050 {I10} for the 505.61+507.10 multiplet
246CM2cG (1976Mu03)
246CM cG M(H)$|a(K)exp=0.0045 {I14} for the 1529.00+1530.7 doublet
246CM2cG (1976Mu03).
246CM cG M(I)$|a(K)exp=0.17 {I6} for the 554.4+554.68 doublet (1976Mu03).
246CM cL E$From least squares fit to E|g data by the evaluator.
246CM cL J,T$From Adopted Levels
246CM CL BAND(A)$g.s. rotational band
246CM CL BAND(B)$K|p=2- octupole vibrational band
246CM CL BAND(C)$K|p=1- octupole vibrational band
246CM CL BAND(D)$K|p=2+ |g vibrational band
246CM CL BAND(E)$K|p=0+ band
246CM CL BAND(F)$K|p=0- band
246CM CL BAND(G)$second K|p=0+ band
246CM CL BAND(H)$second K|p=1- band
246CM CL BAND(I)$K|p=1+ band
246CM CL BAND(J)$K|p=3- octupole vibrational band head
246CM CL BAND(K)$second K|p=2- band
246CM CL BAND(L)$third K|p=1- band
246CM CL BAND(N)$second K|p=1+ band
246CM DG CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
246AM P 0.0+X (2-) 25.0 M 2 2377 SY
246AM cP E$x=30 {I10} (1984So03). X=0 is assumed for log{Ift} calculation
246AM cP QP$2377 {I18} (syst,2021Wa16)
246CM N 0.0248 110.0248 111.0
246CM PN 4
246CM cN NR$From |SI(|g+ce)(to 0.0+43 level)= 93% {I4}.
246CM2cN (I(|g+ce)(42.852|g) not included in this sum), since I|b{+-}(g.s.) +
246CM3cN I|b(42-keV state)=7% {I4} (1956Sm85). Uncertainty was not provided by
246CM4cN the authors (1956Sm85), but was assigned by the evaluator
246CM G 150.81 14 0.32 6
246CM2 G %IG=0.0079 15
246CM G 227.4 2 0.6 2
246CM2 G %IG=0.015 5
246CM G 302.96 5 0.28 3
246CM2 G %IG=0.0069 8
246CM G 329.87 14 0.13 4
246CM2 G %IG=0.0032 10
246CM G 522.53 5 1.85 8 (M1) 0.312 4
246CMS G KC=0.2463 34$LC=0.0497 7$MC=0.01212 17
246CMS G NC=0.00332 5$OC=0.000847 12$PC=0.0001666 23$QC=1.187E-5 17
246CM2 G %IG=0.0459 29
246CM cG M$|a(K)exp=0.22 {I6} (1976Mu03).
246CM G 776.3 3 0.16 5
246CM2 G %IG=0.0040 13
246CM G 810.2 3 0.25 11
246CM2 G %IG=0.0062 28
246CM cG M$|a(K)exp=0.4 {I2} (1976Mu03).
246CM cG $1976Mu03 suggests that this is a M1+E0 |g deexciting to the
246CM2cG 1289 {I0}+ level. However, in that case, the |g must have pure
246CM3cG multipolarity.
246CM G 1045.66 6 0.73 12
246CM2 G %IG=0.0181 31
246CM G 1102.5 2 0.14 4
246CM2 G %IG=0.0035 10
246CM G 1105.0 5 0.03 2
246CM2 G %IG=7E-4 5
246CM cG $Assigned by 1976Mu03 as sum peak
246CM G 1113.6 2 0.27 5
246CM2 G %IG=0.0067 13
246CM G 1148.62 6 0.74 6
246CM2 G %IG=0.0184 17
246CM G 1203.2 2 0.20 7
246CM2 G %IG=0.0050 18
246CM G 1303.20 11 0.35 4
246CM2 G %IG=0.0087 11
246CM G 1379.3 4 0.07 4
246CM2 G %IG=0.0017 10
246CM G 1497.0 4 0.024 15
246CM2 G %IG=6E-4 4
246CM G 1526.30 15 0.55 11
246CM2 G %IG=0.0136 28
246CM cG $Assigned by 1976Mu03 as sum peak
246CM G 1540.6 2 0.03 2
246CM2 G %IG=7E-4 5
246CM G 1545.0 5 0.09 4
246CM2 G %IG=0.0022 10
246CM G 1550.0 2 2.1 10
246CM2 G %IG=0.052 25
246CM cG M$|a(K)exp<0.01 (1976Mu03).
246CM G 1552.22 16 2.1 10
246CM2 G %IG=0.052 25
246CM cG M$|a(K)exp<0.01 (1976Mu03).
246CM G 1601.8 3 0.11 5
246CM2 G %IG=0.0027 13
246CM G 1690.15 16 0.05 2
246CM2 G %IG=0.0012 5
246CM G 1769.47 7 0.079 14
246CM2 G %IG=0.0020 4
246CM G 1801.53 6 0.38 4
246CM2 G %IG=0.0094 11
246CM G 1944.79 15 0.014 7
246CM2 G %IG=3.5E-4 18
246CM G 1953.6 5 0.004 2
246CM2 G %IG=1.0E-4 5
246CM G 1974.2 3 0.012 4
246CM2 G %IG=3.0E-4 10
246CM G 2000.3 5 0.005 3
246CM2 G %IG=1.2E-4 8
246CM G 2058.18 6 0.058 4
246CM2 G %IG=0.00144 12
246CM G 2065.0 2 0.017 4
246CM2 G %IG=4.2E-4 10
246CM G 2068.69 8 0.061 4
246CM2 G %IG=0.00151 12
246CM G 2083.1 2 0.013 3
246CM2 G %IG=3.2E-4 8
246CM G 2091.4 3 0.008 2
246CM2 G %IG=2.0E-4 5
246CM G 2123.66 7 0.105 7
246CM2 G %IG=0.00260 21
246CM G 2140.2 3 0.009 2
246CM2 G %IG=2.2E-4 5
246CM G 2149.5 2 0.019 3
246CM2 G %IG=4.7E-4 8
246CM G 2156.05 17 0.014 3
246CM2 G %IG=3.5E-4 8
246CM G 2168.33 7 0.044 4
246CM2 G %IG=0.00109 11
246CM G 2184.79 15 0.011 2
246CM2 G %IG=2.7E-4 5
246CM G 2203.4 5 0.003 1
246CM2 G %IG=7.4E-5 25
246CM G 2234.4 3 0.006 2
246CM2 G %IG=1.5E-4 5
246CM G 2259.2 4 0.004 2
246CM2 G %IG=1.0E-4 5
246CM G 2287.0 6 0.002 1
246CM2 G %IG=5.0E-5 25
246CM L 0 0+ 4706 Y 40 A
246CM B 3.5 AP 9.6 AP A1U
246CMS B EAV=807.3 70
246CM L 42.835 17 2+ 123.2 PS 23 A
246CM B 3.5 AP 8.4 AP A
246CMS B EAV=835.1 73
246CM G 42.9 2 2 APE2 1058 28 J
246CMS G LC=766 21$MC=216 6
246CMS G NC=60.0 16$OC=14.5 4$PC=2.37 6$QC=0.00582 14
246CM2 G %IG AP 0.05
246CM L 141.986 24 4+ A
246CM B 0.42 28 10.4 3 1U?
246CMS B EAV=752.5 70
246CM G 99.2 2 6.7 5 E2 19.43 33 J
246CMS G LC=14.05 24$MC=3.97 7
246CMS G NC=1.105 19$OC=0.268 5$PC=0.0444 7$QC=0.0001817 29
246CM2 G %IG=0.166 15
246CM L 294.88 17 6+
246CM B 0.008 7 10.9 4
246CMS B EAV=734.3 72
246CM G 152.9 2 0.18 6 [E2] 2.88 4 F
246CMS G KC=0.1739 24$LC=1.957 30$MC=0.551 8
246CMS G NC=0.1534 23$OC=0.0373 6$PC=0.00627 9$QC=4.00E-5 6
246CM2 G %IG=0.0045 15
246CM L 841.668 20 2- B
246CM B 16.4 9 7.06 3
246CMS B EAV=519.6 70
246CM G 798.80 4 1000 E1 0.00648 9 C
246CMS G KC=0.00523 7$LC=0.000941 13$MC=0.0002259 32
246CMS G NC=6.17E-5 9$OC=1.560E-5 22$PC=3.01E-6 4$QC=2.016E-7 28
246CM2 G %IG=25
246CM cG M$|a(K)exp=0.0052 {I2}, K/L=5.6 {I11} (1976Mu03).
246CM L 876.431 22 3- B
246CM B 7.0 6 7.40 5
246CMS B EAV=506.2 70
246CM G 34.76 (M1,E2) 1.5E+3 14 216 20B
246CMS G L/T=0.7 5$M/T=0.20 23
246CMS G N/T=0.06 7$O/T=0.014 17$P/T=0.0022 28$Q/T=1.4E-5 13
246CMS G LC=1.1E+3 10$MC=3.1E+2 29
246CMS G NC=9.E1 8$OC=21 19$PC=3.5 31$QC=0.021 7
246CM cG M$As given in the Adopted Gammas
246CM G 734.41 4 47.1 14 E1 0.0075211 C
246CM2 G %IG=1.17 6
246CM cG M$As given in the Adopted Gammas
246CMS G KC=0.00606 8$LC=0.001100 15$MC=0.000264 4
246CMS G NC=7.22E-5 10$OC=1.825E-5 26$PC=3.52E-6 5$QC=2.327E-7 33
246CM cG M$|a(K)exp<0.007, K/L<0.3 (1976Mu03). E1 |a(K)exp is in agreement
246CM2cG with the BrIcc value of 0.00606 {I9}, however disagrees with the
246CM3cG ratio of 5.51 {I11} from BrIcc
246CM G 833.60 4 72 2 E1 0.00601 8 C
246CMS G KC=0.00485 7$LC=0.000870 12$MC=0.0002088 29
246CMS G NC=5.70E-5 8$OC=1.442E-5 20$PC=2.79E-6 4$QC=1.876E-7 26
246CM2 G %IG=1.79 9
246CM cG M$|a(K)exp=0.0043 {I8} (1976Mu03)
246CM L 923.297 28 4- B
246CM G 46.87 [M1,E2] 3.8E+2 31 3.5 8 B
246CMS G L/T=0.7 4$M/T=0.20 21
246CMS G N/T=0.06 6$O/T=0.014 16$P/T=0.0023 26$Q/T=2.1E-5 20
246CMS G LC=2.7E+2 23$MC=8.E1 6
246CMS G NC=21 18$OC=5 4$PC=0.9 7$QC=0.008 4
246CM G 81.63 [E2] 48.4 7 5.5 12B
246CMS G L/T=0.708 7$M/T=0.2001 35
246CMS G N/T=0.0557 11$O/T=0.01348 26$P/T=0.00223 4$Q/T=7.85E-6 15
246CMS G LC=35.0 5$MC=9.90 14
246CMS G NC=2.75 4$OC=0.666 9$PC=0.1102 15$QC=0.000388 5
246CM G 781.28 6 6.8 5 [E1] 0.00674 9 C
246CMS G KC=0.00544 8$LC=0.000980 14$MC=0.0002355 33
246CMS G NC=6.43E-5 9$OC=1.626E-5 23$PC=3.14E-6 4$QC=2.094E-7 29
246CM2 G %IG=0.169 15
246CM L 1078.844 20 1- C
246CM B 37.5 20 6.44 4 B
246CMS B EAV=429.0 68
246CM G 237.23 4 5.8 3 [M1,E2] 1.6 11 C
246CMS G KC=1.1 10$LC=0.37 7$MC=0.095 13
246CMS G NC=0.0263 33$OC=0.0066 10$PC=0.00122 26$QC=6.E-5 5
246CM2 G %IG=0.144 10
246CM G 1036.00 4 512 15 E1 0.00412 6 DC
246CMS G KC=0.00334 5$LC=0.000588 8$MC=0.0001409 20
246CMS G NC=3.84E-5 5$OC=9.75E-6 14$PC=1.893E-6 27$QC=1.306E-7 18
246CM2 G %IG=12.7 7
246CM cG M$|a(K)exp|<0.003 (1966Or01); |a(K)exp=0.0035 {I1} (1976Mu03).
246CM G 1078.86 4 1120 40 E1 0.00385 5 DC
246CMS G KC=0.00312 4$LC=0.000548 8$MC=0.0001311 18
246CMS G NC=3.58E-5 5$OC=9.07E-6 13$PC=1.764E-6 25$QC=1.222E-7 17
246CM2 G %IG=27.8 16
246CM cG M$|a(K)exp|<0.003 (1966Or01); |a(K)exp=0.00294 {I13}
246CM2cG (1976Mu03).
246CM L 1104.854 23 2- C
246CM B 14.3 8 6.83 4 B
246CMS B EAV=419.2 69
246CM G 263.17 5 1.35 9 [M1,E2] 1.2 8
246CMS G KC=0.9 8$LC=0.26 7$MC=0.067 13
246CMS G NC=0.019 4$OC=0.0047 10$PC=8.7E-4 24$QC=4.4E-5 35
246CM2 G %IG=0.0335 27
246CM G 962.9 4 0.02 2 [M2] 0.1366 19 C
246CMS G KC=0.1039 15$LC=0.02438 34$MC=0.00609 9
246CMS G NC=0.001679 24$OC=0.000427 6$PC=8.37E-5 12$QC=5.79E-6 8
246CM2 G %IG=5E-4 5
246CM G 1062.04 4 691 14 E1 0.00395 6 DC
246CMS G KC=0.00320 4$LC=0.000563 8$MC=0.0001348 19
246CMS G NC=3.68E-5 5$OC=9.33E-6 13$PC=1.813E-6 25$QC=1.254E-7 18
246CM2 G %IG=17.1 9
246CM cG M$|a(K)exp|<0.003 (1966Or01); |a(K)exp=0.0033 {I1} (1976Mu03).
246CM L 1124.257 24 2+ D
246CM B 0.25 5 8.56 9
246CMS B EAV=411.9 69
246CM G 982.73 15 0.7 2 [E2] 0.0142720
246CMF G FL=141.986
246CM2 G %IG=0.017 5
246CM cG E$ poor fit.
246CMS G KC=0.01041 15$LC=0.00287 4$MC=0.000726 10
246CMS G NC=0.0001998 28$OC=5.01E-5 7$PC=9.50E-6 13$QC=4.99E-7 7
246CM G 1081.40 6 13.8 14 E2 0.0119017 JC
246CMS G KC=0.00884 12$LC=0.002286 32$MC=0.000575 8
246CMS G NC=0.0001581 22$OC=3.98E-5 6$PC=7.57E-6 11$QC=4.17E-7 6
246CM2 G %IG=0.34 4
246CM cG RI$Calculated from I|g(1081)/I|g(1124)=1.32 {I13} in {+246}Bk |e
246CM2cG decay (1976Ah03). 1976Mu03 measured I|g|?10
246CM G 1124.29 4 10.5 4 E2 0.0110715 EC
246CMS G KC=0.00827 12$LC=0.002090 29$MC=0.000524 7
246CMS G NC=0.0001441 20$OC=3.63E-5 5$PC=6.92E-6 10$QC=3.88E-7 5
246CMS G IPC=2.327E-7 33
246CM2 G %IG=0.260 15
246CM L 1128.009 25 3- C
246CM B 1.87 19 7.68 5
246CMS B EAV=410.5 68
246CM G 251.50 10 0.11 2 [M1,E2] 1.4 10
246CMS G KC=1.0 9$LC=0.30 7$MC=0.078 13
246CMS G NC=0.0216 35$OC=0.0054 10$PC=0.00101 25$QC=5.E-5 4
246CM2 G %IG=0.0027 5
246CM G 986.03 4 38.6 12 (E1) 0.00449 6 C
246CMS G KC=0.00364 5$LC=0.000642 9$MC=0.0001539 22
246CMS G NC=4.20E-5 6$OC=1.064E-5 15$PC=2.065E-6 29$QC=1.417E-7 20
246CM2 G %IG=0.96 5
246CM cG M$|a(K)exp<0.009 (1976Mu03), |a(K)exp<0.008 (1966Or01).
246CM G 1085.15 6 61.6 19 E1 0.00381 5 C
246CMS G KC=0.00309 4$LC=0.000542 8$MC=0.0001297 18
246CMS G NC=3.54E-5 5$OC=8.98E-6 13$PC=1.746E-6 24$QC=1.210E-7 17
246CM2 G %IG=1.53 8
246CM cG M$|a(K)exp=0.0024 {I10} (1976Mu03).
246CM L 1165.473 32 3+ D
246CM G 289.3 2 0.19 5 [E1] 0.0470 7 &
246CMS G KC=0.0369 5$LC=0.00763 11$MC=0.001860 26
246CMS G NC=0.000507 7$OC=0.0001268 18$PC=2.362E-5 33$QC=1.314E-6 18
246CM2 G %IG=0.0047 13
246CM G 1023.44 7 1.6 2 [E2] 0.0132118
246CMS G KC=0.00971 14$LC=0.00260 4$MC=0.000657 9
246CMS G NC=0.0001807 25$OC=4.54E-5 6$PC=8.62E-6 12$QC=4.63E-7 6
246CM2 G %IG=0.040 5
246CM G 1122.64 6 4.0 2 E2 0.0111016 EC
246CMS G KC=0.00829 12$LC=0.002097 29$MC=0.000526 7
246CMS G NC=0.0001446 20$OC=3.64E-5 5$PC=6.94E-6 10$QC=3.89E-7 5
246CMS G IPC=2.167E-7 31
246CM2 G %IG=0.099 7
246CM L 1174.72 4 0+ E
246CM B 0.017 5 10.29 14 1U
246CMS B EAV=374.7 62
246CM G 1131.88 7 0.44 5 [E2] 0.0109315
246CMS G KC=0.00817 11$LC=0.002058 29$MC=0.000516 7
246CMS G NC=0.0001419 20$OC=3.57E-5 5$PC=6.81E-6 10$QC=3.83E-7 5$IPC=3.19E-7 5
246CM2 G %IG=0.0109 13
246CM G 1174.72 E0 0.99 4
246CM cG M$no |g observed; K/L=4.2 {I5} (1976Mu03)
246CM cG TI$From experimental I(ce(K))+I(ce(L)) of 1976Mu03.
246CM2cG K/L(E0) = 4.82 (theory) (2020Do01)
246CM L 1210.52 5 2+ E
246CM B 0.024 11 9.47 20
246CMS B EAV=379.6 67
246CM G 1167.74 5 1.01 6 E0+(M1,E2) 0.023 13
246CMS G KC=0.018 10$LC=0.0038 19$MC=9.E-4 4
246CMS G NC=2.5E-4 12$OC=6.5E-5 31$PC=1.3E-5 6$QC=9.E-7 5$IPC=2.5E-6 13
246CM2 G %IG=0.0251 19
246CM cG M$|a(K)exp=0.71 {I15}, K/L=4.2 {I11} (1976Mu03).
246CM G 1210.35 9 0.45 7 [E2] 0.0096514
246CMS G KC=0.00728 10$LC=0.001767 25$MC=0.000441 6
246CMS G NC=0.0001213 17$OC=3.06E-5 4$PC=5.85E-6 8$QC=3.38E-7 5$IPC=3.44E-6 5
246CM2 G %IG=0.0112 18
246CM L 1219.87 8 4+ D
246CM G 925.0 3 0.37 13[E2] 0.0160222 F ?
246CMS G KC=0.01155 16$LC=0.00332 5$MC=0.000845 12
246CMS G NC=0.0002327 33$OC=5.83E-5 8$PC=1.101E-5 15$QC=5.60E-7 8
246CM2 G %IG=0.0092 33
246CM G 1177.2 2 0.15 4 [E2] 0.0101614
246CMS G KC=0.00764 11$LC=0.001882 26$MC=0.000471 7
246CMS G NC=0.0001294 18$OC=3.26E-5 5$PC=6.23E-6 9$QC=3.56E-7 5
246CMS G IPC=1.528E-6 23
246CM2 G %IG=0.0037 10
246CM L 1249.766 22 1- F
246CM B 0.48 19 8.12 18
246CMS B EAV=365.1 67
246CM G 171.02 11 2.0 8 [M1,E2] 4.4 25 C
246CMS G KC=2.8 26$LC=1.15 4$MC=0.304 32
246CMS G NC=0.084 9$OC=0.0209 19$PC=0.00379 7$QC=1.5E-4 12
246CM2 G %IG=0.050 20
246CM G 373.36 5 0.84 5 [E2] 0.1251 18
246CMS G KC=0.0549 8$LC=0.0512 7$MC=0.01397 20
246CMS G NC=0.00388 5$OC=0.000952 13$PC=0.0001682 24$QC=3.64E-6 5
246CM2 G %IG=0.0208 16
246CM G 407.99 6 0.41 4 [M1,E2] 0.36 26
246CMS G KC=0.26 22$LC=0.068 30$MC=0.017 7
246CMS G NC=0.0047 19$OC=0.0012 5$PC=2.3E-4 10$QC=1.3E-5 10
246CM2 G %IG=0.0102 11
246CM G 1206.96 4 6.0 2 E1 0.00319 4
246CMS G KC=0.00258 4$LC=0.000450 6$MC=0.0001076 15
246CMS G NC=2.94E-5 4$OC=7.46E-6 10$PC=1.452E-6 20$QC=1.017E-7 14
246CMS G IPC=1.208E-5 17
246CM2 G %IG=0.149 8
246CM cG M$|a(K)exp<0.005 (1976Mu03).
246CM G 1249.79 4 6.0 2 [E1] 0.00302 4 C
246CMS G KC=0.002438 34$LC=0.000424 6$MC=0.0001013 14
246CMS G NC=2.77E-5 4$OC=7.02E-6 10$PC=1.368E-6 19$QC=9.61E-8 13
246CMS G IPC=2.379E-5 33
246CM2 G %IG=0.149 8
246CM cG M$|a(K)exp=0.018 {I4} (1976Mu03) is in disagreement with an E1
246CM2cG assignment. |g is possibly a doublet.
246CM L 1289.32 26 0+ G
246CM G 1289.4 E0 0.08 1
246CM cG M$|g not observed (1976Mu03)
246CM cG TI$deduced from I(ce(K))=0.07 {I1} (1976Mu03)
246CM2cG with K/L(E0) = 4.82 (theory) (2020Do01)
246CM L 1300.429 34 3- F
246CM B 0.022 13 9.4 3
246CMS B EAV=346.4 67
246CM G 377.2 2 0.11 4 [M1,E2] 0.44 32
246CMS G KC=0.33 27$LC=0.09 4$MC=0.022 8
246CMS G NC=0.0059 22$OC=0.0015 6$PC=2.8E-4 12$QC=1.6E-5 13
246CM2 G %IG=0.0027 10
246CM G 423.4 5 0.16 7 [M1,E2] 0.32 23 &
246CMS G KC=0.24 20$LC=0.061 28$MC=0.015 6
246CMS G NC=0.0042 17$OC=0.0011 5$PC=2.0E-4 9$QC=1.2E-5 9
246CM2 G %IG=0.0040 18
246CM G 1158.47 6 0.50 4 [E1] 0.00341 5
246CMS G KC=0.00277 4$LC=0.000483 7$MC=0.0001156 16
246CMS G NC=3.16E-5 4$OC=8.01E-6 11$PC=1.559E-6 22$QC=1.087E-7 15
246CMS G IPC=3.52E-6 5
246CM2 G %IG=0.0124 11
246CM G 1257.62 6 1.57 10 [E1] 0.00299 4
246CMS G KC=0.002413 34$LC=0.000419 6$MC=0.0001002 14
246CMS G NC=2.74E-5 4$OC=6.94E-6 10$PC=1.353E-6 19$QC=9.51E-8 13$IPC=2.62E-5 4
246CM2 G %IG=0.0389 30
246CM L 1317.56 5 (2)+ G ?
246CM B 0.276 15 8.26 4 ?
246CMS B EAV=340.1 67
246CM G 1274.72 4 10.8 3 M1 0.0285 4
246CMS G KC=0.02252 32$LC=0.00446 6$MC=0.001084 15
246CMS G NC=0.000297 4$OC=7.58E-5 11$PC=1.491E-5 21$QC=1.069E-6 15
246CMS G IPC=2.91E-5 4
246CM2 G %IG=0.268 14
246CM cG M$|a(K)exp=0.028 {I10}, K/L1=5.0 {I23} (1976Mu03)
246CM L 1340.18 5
246CM B 0.038 4 9.09 6
246CMS B EAV=331.8 66
246CM G 1198.19 6 1.24 6 F ?
246CM2 G %IG=0.0308 20
246CM G 1297.34 9 0.42 5 F ?
246CM2 G %IG=0.0104 13
246CM L 1348.860 22 1- H
246CM B 5.42 29 6.93 4
246CMS B EAV=328.7 66
246CM G 244.03 3 27.5 10(M1) 2.534 35 C
246CMS G KC=1.991 28$LC=0.408 6$MC=0.0996 14
246CMS G NC=0.0274 4$OC=0.00697 10$PC=0.001371 19$QC=9.79E-5 14
246CM2 G %IG=0.68 4
246CM cG M$|a(K)=2.9 {I20} (1966Or01).
246CM G 270.07 3 41.2 13M1+E2 0.36 +10-131.73 10 C
246CMS G KC=1.34 9$LC=0.292 9$MC=0.0720 20
246CMS G NC=0.0198 5$OC=0.00502 14$PC=0.000979 33$QC=6.6E-5 4
246CM2 G %IG=1.02 6
246CM cG M,MR$|a(K)exp=1.34 {I6}, |a(L)exp=0.34 {I10} (1976Mu03);
246CM2cG |a(K)exp=2.2 {I16} (1966Or01).
246CM G 472.33 5 1.47 7 [E2] 0.0676 9
246CMS G KC=0.0366 5$LC=0.02272 32$MC=0.00610 9
246CMS G NC=0.001688 24$OC=0.000417 6$PC=7.50E-5 10$QC=2.159E-6 30
246CM2 G %IG=0.0365 24
246CM G 507.10 5 2.70 12 G
246CM2 G %IG=0.067 4
246CM G 1306.8 2 0.25 4 [E1] 0.00283 4 F ?
246CM2 G FL=42.835
246CM2 G %IG=0.0062 10
246CM cG E$ poor fit.
246CMS G KC=0.002263 32$LC=0.000392 5$MC=9.38E-5 13
246CMS G NC=2.56E-5 4$OC=6.50E-6 9$PC=1.267E-6 18$QC=8.94E-8 13$IPC=4.28E-5 6
246CM G 1348.81 4 4.84 17 (E1) 0.00270 4 C
246CMS G KC=0.002147 30$LC=0.000372 5$MC=8.88E-5 12
246CMS G NC=2.424E-5 34$OC=6.15E-6 9$PC=1.201E-6 17$QC=8.49E-8 12
246CMS G IPC=6.09E-5 9
246CM2 G %IG=0.120 7
246CM cG M$|a(K)exp<0.005 (1976Mu03).
246CM L 1366.619 24(2-) H
246CM B 1.12 27 7.58 11
246CMS B EAV=322.2 66
246CM G 238.64 3 5.9 3 [M1,E2] 1.6 11 C
246CMS G KC=1.1 10$LC=0.36 7$MC=0.093 13
246CMS G NC=0.0258 33$OC=0.0064 10$PC=0.00120 26$QC=6.E-5 5
246CM2 G %IG=0.146 10
246CM G 261.73 5 6.3 2 [M1,E2] 1.2 9 C
246CMS G KC=0.9 8$LC=0.27 7$MC=0.069 13
246CMS G NC=0.019 4$OC=0.0047 10$PC=8.9E-4 24$QC=4.E-5 4
246CM2 G %IG=0.156 9
246CM G 287.78 3 5.20 18(M1) 1.601 22 C
246CMS G KC=1.259 18$LC=0.257 4$MC=0.0628 9
246CMS G NC=0.01724 24$OC=0.00439 6$PC=0.000864 12$QC=6.16E-5 9
246CM2 G %IG=0.129 7
246CM cG M$|a(K)exp=1.5 {I12} (1966Or01).
246CM G 443.25 18 0.14 4 [E2] 0.0792 11
246CMS G KC=0.0408 6$LC=0.0281 4$MC=0.00758 11
246CMS G NC=0.002098 30$OC=0.000517 7$PC=9.26E-5 13$QC=2.477E-6 35
246CM2 G %IG=0.0035 10
246CM G 524.92 4 2.95 11 M1+(E2) 0.4 5 0.27 8 C
246CMS G KC=0.21 7$LC=0.045 10$MC=0.0109 24
246CMS G NC=0.0030 6$OC=0.00076 17$PC=0.000149 34$QC=1.03E-5 31
246CM2 G %IG=0.073 4
246CM cG M$|a(K)exp=0.22 {I6} (1976Mu03).
246CM G 1323.77 8 1.0 2 [E1] 0.00277 4
246CMS G KC=0.002215 31$LC=0.000384 5$MC=9.17E-5 13
246CMS G NC=2.504E-5 35$OC=6.36E-6 9$PC=1.240E-6 17$QC=8.76E-8 12
246CMS G IPC=4.96E-5 7
246CM2 G %IG=0.025 5
246CM L 1379.21 7 (4+) G
246CM B 0.017 11 9.9 3 1U?
246CMS B EAV=305.6 60
246CM G 1237.2 2 0.29 4 [M1,E2] 0.020 11
246CMS G KC=0.016 9$LC=0.0033 16$MC=8.E-4 4
246CMS G NC=2.2E-4 10$OC=5.6E-5 27$PC=1.1E-5 5$QC=7.E-7 4$IPC=1.2E-5 6
246CM2 G %IG=0.0072 11
246CM G 1336.38 7 0.74 5 [E2] 0.0080511 &
246CMS G KC=0.00614 9$LC=0.001419 20$MC=0.000352 5
246CMS G NC=9.68E-5 14$OC=2.442E-5 34$PC=4.69E-6 7$QC=2.82E-7 4
246CMS G IPC=1.752E-5 25
246CM2 G %IG=0.0184 15
246CM L 1451.882 32 1+ I
246CM B 0.112 17 8.45 8
246CMS B EAV=291.4 65
246CM G 277.0 2 0.08 3 [M1] 1.780 25
246CMS G KC=1.399 20$LC=0.286 4$MC=0.0698 10
246CMS G NC=0.01918 27$OC=0.00488 7$PC=0.000961 14$QC=6.86E-5 10
246CM2 G %IG=0.0020 8
246CM G 327.81 17 0.12 4 [M1,E2] 0.6 5
246CMS G KC=0.5 4$LC=0.13 5$MC=0.033 10
246CMS G NC=0.0092 28$OC=0.0023 8$PC=4.4E-4 17$QC=2.4E-5 19
246CM2 G %IG=0.0030 10
246CM G 609.98 9 1.8 3 E1 0.0105515
246CM2 G %IG=0.045 8
246CM cG M$|a(K)exp<0.012 {I6} (1976Mu03).
246CMS G KC=0.00847 12$LC=0.001568 22$MC=0.000378 5
246CMS G NC=0.0001032 14$OC=2.60E-5 4$PC=4.99E-6 7$QC=3.21E-7 4
246CM G 1409.12 8 1.35 7 (M1) 0.0218131
246CMS G KC=0.01719 24$LC=0.00340 5$MC=0.000826 12
246CMS G NC=0.0002267 32$OC=5.77E-5 8$PC=1.137E-5 16$QC=8.16E-7 11
246CMS G IPC=9.37E-5 13
246CM2 G %IG=0.0335 23
246CM cG M$|a(K)exp=0.037 {I14} (1976Mu03).
246CM G 1451.91 4 1.83 8 (M1) 0.0201628
246CMS G KC=0.01586 22$LC=0.00314 4$MC=0.000762 11
246CMS G NC=0.0002091 29$OC=5.33E-5 7$PC=1.048E-5 15$QC=7.53E-7 11
246CMS G IPC=0.0001217 17
246CM2 G %IG=0.0454 28
246CM cG M$|a(K)exp=0.019 {I9} (1976Mu03).
246CM L 1478.42 4 (2+) I
246CM B 0.092 22 8.49 11
246CMS B EAV=281.9 65
246CM G 228.71 7 1.5 3 [E1] 0.0789 11
246CMS G KC=0.0613 9$LC=0.01322 19$MC=0.00324 5
246CMS G NC=0.000882 12$OC=0.0002195 31$PC=4.04E-5 6$QC=2.124E-6 30
246CM2 G %IG=0.037 8
246CM G 267.3 5 0.2 1 [M1,E2] 1.2 8 &
246CMS G KC=0.8 7$LC=0.25 7$MC=0.064 13
246CMS G NC=0.0177 35$OC=0.0044 10$PC=8.3E-4 23$QC=4.2E-5 34
246CM2 G %IG=0.0050 25
246CM G 636.72 12 0.48 11 [E1] 0.0097514 &
246CMS G KC=0.00783 11$LC=0.001443 20$MC=0.000348 5
246CMS G NC=9.49E-5 13$OC=2.396E-5 34$PC=4.60E-6 6$QC=2.98E-7 4
246CM2 G %IG=0.0119 28
246CM G 1336.38 7 0.74 5 [E2] 0.0080511 &
246CMS G KC=0.00614 9$LC=0.001419 20$MC=0.000352 5
246CMS G NC=9.68E-5 14$OC=2.442E-5 34$PC=4.69E-6 7$QC=2.82E-7 4
246CMS G IPC=1.752E-5 25
246CM2 G %IG=0.0184 15
246CM G 1435.59 6 1.04 10[M1,E2] 0.014 7
246CMS G KC=0.011 5$LC=0.0022 10$MC=5.4E-4 24
246CMS G NC=1.5E-4 7$OC=3.8E-5 17$PC=7.4E-6 34$QC=5.1E-7 26$IPC=7.E-5 4
246CM2 G %IG=0.0258 27
246CM L 1509.26 5 (3+) I
246CM B 0.0140 LT 9.3 GT
246CMS B EAV=270.9 64
246CM G 289.3 2 0.19 5 [M1,E2] 0.9 7 &
246CMS G KC=0.7 6$LC=0.19 6$MC=0.049 12
246CMS G NC=0.0136 34$OC=0.0034 9$PC=6.4E-4 21$QC=3.4E-5 27
246CM2 G %IG=0.0047 13
246CM G 381.0 3 0.06 2 [E1] 0.0264 4 &
246CMS G KC=0.02089 29$LC=0.00413 6$MC=0.001002 14
246CMS G NC=0.000273 4$OC=6.86E-5 10$PC=1.294E-5 18$QC=7.65E-7 11
246CM2 G %IG=0.0015 5
246CM G 1367.9 2 0.63 11[M1,E2] 0.016 8
246CMF G FL=141.986
246CM2 G %IG=0.0156 28
246CM cG E$ poor fit.
246CMS G KC=0.012 6$LC=0.0025 12$MC=6.2E-4 28
246CMS G NC=1.7E-4 8$OC=4.3E-5 20$PC=8.E-6 4$QC=5.8E-7 31$IPC=4.6E-5 23
246CM G 1466.33 6 0.30 4 [M1,E2] 0.013 6
246CMS G KC=0.010 5$LC=0.0021 9$MC=5.1E-4 23
246CMS G NC=1.4E-4 6$OC=3.6E-5 16$PC=7.0E-6 32$QC=4.9E-7 25$IPC=9.E-5 4
246CM2 G %IG=0.0074 11
246CM G 1509.0 4 0.030 15[M3] 0.0681 10 ?
246CMS G KC=0.0510 7$LC=0.01271 18$MC=0.00320 4
246CMS G NC=0.000885 12$OC=0.0002249 32$PC=4.39E-5 6$QC=2.95E-6 4
246CMS G IPC=1.938E-5 28
246CM2 G %IG=7E-4 4
246CM L 1525.917 24 3- J
246CM B 1.74 9 7.14 4
246CMS B EAV=265.0 64
246CM G 306.0 3 0.05 3 [E1] 0.0417 6
246CMS G KC=0.0328 5$LC=0.00671 10$MC=0.001635 23
246CMS G NC=0.000446 6$OC=0.0001115 16$PC=2.084E-5 30$QC=1.174E-6 17
246CM2 G %IG=0.0012 8
246CM G 360.39 4 2.29 9 E1+M2 1.1 +8-4 1.4 6 C
246CMS G KC=1.0 4$LC=0.30 13$MC=0.078 33
246CMS G NC=0.022 9$OC=0.0055 23$PC=0.0011 5$QC=7.1E-5 30
246CM2 G %IG=0.0568 34
246CM cG M,MR$|a(K)exp=1.0 {I4} (1976Mu03). M1 given by 1976Mu03 but disagrees
246CM2cG with assignment in level scheme.
246CM G 398.14 12 0.33 5 [M1,E2] 0.38 27
246CMS G KC=0.28 23$LC=0.073 32$MC=0.018 7
246CMS G NC=0.0050 20$OC=0.0013 5$PC=2.4E-4 11$QC=1.4E-5 11
246CM2 G %IG=0.0082 13
246CM G 401.68 3 10.7 3 E1 0.0236833 C
246CMS G KC=0.01879 26$LC=0.00368 5$MC=0.000894 13
246CMS G NC=0.0002438 34$OC=6.12E-5 9$PC=1.157E-5 16$QC=6.91E-7 10
246CM2 G %IG=0.265 14
246CM cG M$|a(K)exp<0.03 (1976Mu03).
246CM G 421.08 5 0.89 7 [M1,E2] 0.33 24
246CMS G KC=0.24 20$LC=0.062 28$MC=0.015 6
246CMS G NC=0.0043 17$OC=0.0011 5$PC=2.1E-4 10$QC=1.2E-5 9
246CM2 G %IG=0.0221 20
246CM G 446.8 5 0.05 4 [E2] 0.0776 11
246CMS G KC=0.0402 6$LC=0.0273 4$MC=0.00737 11
246CMS G NC=0.002041 30$OC=0.000503 7$PC=9.01E-5 13$QC=2.435E-6 35
246CM2 G %IG=0.0012 10
246CM G 602.54 6 9.4 5 E2+M1 3.2 +21-8 0.054 10 C
246CMS G KC=0.037 8$LC=0.0127 14$MC=0.00327 32
246CMS G NC=0.00090 9$OC=0.000225 23$PC=4.2E-5 5$QC=1.9E-6 4
246CM2 G %IG=0.233 16
246CM cG M,MR$|a(K)exp=0.037 {I8} (1976Mu03).
246CM G 649.48 4 14.8 5 E2+M1 1.96 +31-230.062 6 C
246CMS G KC=0.045 5$LC=0.0124 9$MC=0.00315 20
246CMS G NC=0.00087 6$OC=0.000218 14$PC=4.14E-5 29$QC=2.24E-6 24
246CM2 G %IG=0.367 21
246CM cG M,MR$|a(K)exp=0.045 {I5} (1976Mu03)
246CM G 684.28 5 23.6 8 (E2+M1) 1.24 +11-100.077 5 C
246CMS G KC=0.059 4$LC=0.0139 7$MC=0.00345 17
246CMS G NC=0.00095 5$OC=0.000240 12$PC=4.63E-5 24$QC=2.86E-6 20
246CM2 G %IG=0.585 33
246CM cG M,MR$|a(K)exp=0.060 {I4}, |a(L)exp=0.012 {I2} (1976Mu03).
246CM G 1383.94 17 0.22 4 [E1] 0.00261 4
246CMS G KC=0.002058 29$LC=0.000356 5$MC=8.50E-5 12
246CMS G NC=2.319E-5 32$OC=5.89E-6 8$PC=1.150E-6 16$QC=8.15E-8 11
246CMS G IPC=7.87E-5 11
246CM2 G %IG=0.0055 10
246CM G 1483.09 9 0.83 7 [E1] 2.39E-3 3
246CMS G KC=0.001837 26$LC=0.000316 4$MC=7.55E-5 11
246CMS G NC=2.062E-5 29$OC=5.24E-6 7$PC=1.023E-6 14$QC=7.29E-8 10
246CMS G IPC=0.0001354 19
246CM2 G %IG=0.0206 20
246CM L 1573.74 5 (1+)
246CM B 0.074 7 8.42 6
246CMS B EAV=248.1 64
246CM G 1530.7 5 1.0 2 (M1) 0.0175625 H
246CMS G KC=0.01376 19$LC=0.00272 4$MC=0.000661 9
246CMS G NC=0.0001812 25$OC=4.62E-5 6$PC=9.09E-6 13$QC=6.53E-7 9
246CMS G IPC=0.0001792 25
246CM2 G %IG=0.025 5
246CM G 1573.74 5 1.95 8 (M1) 0.0163423
246CMS G KC=0.01277 18$LC=0.002521 35$MC=0.000613 9
246CMS G NC=0.0001681 24$OC=4.28E-5 6$PC=8.43E-6 12$QC=6.06E-7 8
246CMS G IPC=0.0002136 30
246CM2 G %IG=0.0484 29
246CM cG M$|a(K)exp=0.014 {I5} (1976Mu03).
246CM L 1593.693 23 2- K
246CM B 1.76 9 7.01 4
246CMS B EAV=241.1 63
246CM G 227.4 2 0.6 2 [M1,E2] 1.8 12 F ?
246CMS G KC=1.3 12$LC=0.43 7$MC=0.110 11
246CMS G NC=0.0304 30$OC=0.0076 9$PC=0.00141 26$QC=7.E-5 5
246CM2 G %IG=0.015 5
246CM G 244.9 2 0.25 15[M1,E2] 1.5 10 C
246CMS G KC=1.0 9$LC=0.33 7$MC=0.086 13
246CMS G NC=0.0236 35$OC=0.0059 10$PC=0.00110 26$QC=5.E-5 4
246CM2 G %IG=0.006 4
246CM G 293.37 15 0.18 5 [M1,E2] 0.9 6 &
246CMS G KC=0.6 6$LC=0.19 6$MC=0.047 12
246CMS G NC=0.0130 33$OC=0.0033 9$PC=6.2E-4 20$QC=3.2E-5 26
246CM2 G %IG=0.0045 13
246CM G 343.93 4 1.04 4 [M1,E2] 0.6 4
246CMS G KC=0.42 35$LC=0.11 4$MC=0.029 10
246CMS G NC=0.0079 26$OC=0.0020 7$PC=3.8E-4 15$QC=2.1E-5 17
246CM2 G %IG=0.0258 15
246CM G 465.61 5 1.03 8 [M1,E2] 0.25 18
246CMS G KC=0.19 15$LC=0.046 22$MC=0.012 5
246CMS G NC=0.0032 14$OC=8.E-4 4$PC=1.5E-4 7$QC=9.E-6 7
246CM2 G %IG=0.0255 23
246CM G 469.71 8 0.41 5 [E1] 0.0173524
246CMF G FL=1124.257
246CM2 G %IG=0.0102 13
246CM cG E$ poor fit.
246CMS G KC=0.01383 19$LC=0.00265 4$MC=0.000641 9
246CMS G NC=0.0001750 25$OC=4.40E-5 6$PC=8.37E-6 12$QC=5.15E-7 7
246CM G 488.82 4 3.70 14M1+E2 0.25 20 0.356 35 C
246CMS G KC=0.280 29$LC=0.057 4$MC=0.0140 10
246CMS G NC=0.00384 28$OC=0.00098 7$PC=0.000192 15$QC=1.35E-5 14
246CM2 G %IG=0.092 6
246CM cG M$|a(K)exp=0.280 {I20}, K/L=5.0 {I17} (1976Mu03).
246CM G 514.79 4 3.48 15 M1+(E2) 0.4 4 0.29 7 C
246CMS G KC=0.23 6$LC=0.047 9$MC=0.0115 20
246CMS G NC=0.0032 6$OC=0.00080 14$PC=0.000157 30$QC=1.09E-5 27
246CM2 G %IG=0.086 5
246CM cG M$|a(K)exp=0.23 {I6} (1976Mu03).
246CM G 670.1 2 0.33 12[E2] 0.0306 4
246CMS G KC=0.02004 28$LC=0.00779 11$MC=0.002031 28
246CMS G NC=0.000561 8$OC=0.0001395 20$PC=2.58E-5 4$QC=1.048E-6 15
246CM2 G %IG=0.0082 30
246CM G 717.24 5 10.2 4 M1 0.1330 19 C
246CMS G KC=0.1050 15$LC=0.02104 29$MC=0.00513 7
246CMS G NC=0.001406 20$OC=0.000358 5$PC=7.05E-5 10$QC=5.03E-6 7
246CM2 G %IG=0.253 15
246CM cG M$|a(K)exp=0.106 {I7} (1976Mu03).
246CM G 752.06 4 33.0 12 (M1+E0) C
246CM2 G %IG=0.82 5
246CM cG M$|a(K)exp=0.143 {I6} (1976Mu03)
246CM G 1550.94 9 11.0 10 E1 2.27E-3 3
246CMS G KC=0.001707 24$LC=0.000294 4$MC=7.00E-5 10
246CMS G NC=1.912E-5 27$OC=4.86E-6 7$PC=9.50E-7 13$QC=6.79E-8 10
246CMS G IPC=0.0001780 25
246CM2 G %IG=0.273 28
246CM cG M$|a(K)exp<0.003 (1976Mu03).
246CM L 1601.219 27(2,3)+
246CM B 0.97 5 7.25 5
246CMS B EAV=238.5 63
246CM G 381.0 3 0.06 2 [M1,E2] 0.43 31 &
246CMS G KC=0.32 26$LC=0.083 35$MC=0.021 8
246CMS G NC=0.0058 22$OC=0.0014 6$PC=2.8E-4 12$QC=1.6E-5 12
246CM2 G %IG=0.0015 5
246CM G 476.89 5 0.86 6 (M1) 0.400 6
246CMS G KC=0.315 4$LC=0.0638 9$MC=0.01555 22
246CMS G NC=0.00427 6$OC=0.001087 15$PC=0.0002139 30$QC=1.524E-5 21
246CM2 G %IG=0.0213 18
246CM cG M$|a(K)exp=0.34 {I8} (1976Mu03).
246CM G 677.86 6 1.81 15 [E1] 0.0086912
246CMS G KC=0.00699 10$LC=0.001280 18$MC=0.000308 4
246CMS G NC=8.41E-5 12$OC=2.124E-5 30$PC=4.09E-6 6$QC=2.67E-7 4
246CM2 G %IG=0.045 4
246CM G 724.79 4 8.6 3 E1 0.0077011 C
246CMS G KC=0.00621 9$LC=0.001128 16$MC=0.000271 4
246CMS G NC=7.40E-5 10$OC=1.871E-5 26$PC=3.60E-6 5$QC=2.380E-7 33
246CM2 G %IG=0.213 12
246CM cG M$|a(K)exp<0.007 (1976Mu03).
246CM G 759.59 4 25.9 8 E1 0.0070810 C
246CMS G KC=0.00571 8$LC=0.001033 14$MC=0.0002482 35
246CMS G NC=6.77E-5 9$OC=1.713E-5 24$PC=3.30E-6 5$QC=2.196E-7 31
246CM2 G %IG=0.642 35
246CM cG M$|a(K)exp<0.006 (1976Mu03).
246CM G 1459.32 6 0.38 4 [M1,E2] 0.013 7
246CMS G KC=0.010 5$LC=0.0021 10$MC=5.2E-4 23
246CMS G NC=1.4E-4 6$OC=3.6E-5 16$PC=7.1E-6 32$QC=4.9E-7 25$IPC=9.E-5 4
246CM2 G %IG=0.0094 11
246CM G 1558.35 10 0.68 7 [M1,E2] 0.011 5
246CMS G KC=0.009 4$LC=0.0018 8$MC=4.4E-4 19
246CMS G NC=1.2E-4 5$OC=3.1E-5 13$PC=6.0E-6 26$QC=4.2E-7 20$IPC=1.4E-4 6
246CM2 G %IG=0.0169 19
246CM L 1604.161 32(1-) L
246CM B 0.207 11 7.92 5
246CMS B EAV=237.5 63
246CM G 354.45 6 0.26 4 [M1,E2] 0.5 4
246CMS G KC=0.38 32$LC=0.10 4$MC=0.026 9
246CMS G NC=0.0072 25$OC=0.0018 7$PC=3.4E-4 14$QC=1.9E-5 15
246CM2 G %IG=0.0065 10
246CM G 1561.30 5 3.84 15 [E1] 2.26E-3 3
246CMS G KC=0.001689 24$LC=0.000290 4$MC=6.93E-5 10
246CMS G NC=1.891E-5 26$OC=4.81E-6 7$PC=9.39E-7 13$QC=6.72E-8 9
246CMS G IPC=0.0001848 26
246CM2 G %IG=0.095 6
246CM cG M$|a(K)exp<0.005 (1976Mu03).
246CM G 1604.14 5 4.11 15 [E1] 2.20E-3 3
246CMS G KC=0.001616 23$LC=0.000277 4$MC=6.62E-5 9
246CMS G NC=1.807E-5 25$OC=4.59E-6 6$PC=8.98E-7 13$QC=6.44E-8 9
246CMS G IPC=0.0002133 30
246CM2 G %IG=0.102 6
246CM cG M$|a(K)exp<0.005 (1976Mu03).
246CM L 1621.483 25 3- K
246CM B 0.94 5 7.23 5
246CMS B EAV=231.4 63
246CM G 321.07 4 0.75 5 [M1,E2] 0.7 5
246CMS G KC=0.5 4$LC=0.14 5$MC=0.035 11
246CMS G NC=0.0098 29$OC=0.0025 8$PC=4.6E-4 17$QC=2.5E-5 20
246CM2 G %IG=0.0186 15
246CM G 456.11 6 0.56 7 [E1] 0.0183826
246CMS G KC=0.01464 20$LC=0.00282 4$MC=0.000682 10
246CMS G NC=0.0001861 26$OC=4.68E-5 7$PC=8.89E-6 12$QC=5.44E-7 8
246CM2 G %IG=0.0139 19
246CM G 493.46 4 4.34 15(M1) 0.365 5 C
246CMS G KC=0.288 4$LC=0.0581 8$MC=0.01416 20
246CMS G NC=0.00389 5$OC=0.000990 14$PC=0.0001948 27$QC=1.388E-5 19
246CM2 G %IG=0.108 6
246CM cG M$|a(K)exp=0.350 {I20}, K/L=4.6 {I10} (1976Mu03).
246CM G 516.60 13 0.40 10[M1,E2] 0.19 13
246CMS G KC=0.14 11$LC=0.034 17$MC=0.009 4
246CMS G NC=0.0023 11$OC=5.9E-4 28$PC=1.1E-4 6$QC=7.E-6 5
246CM2 G %IG=0.0099 25
246CM G 698.27 5 4.7 3 (M1) 0.1430 20 C
246CMS G KC=0.1128 16$LC=0.02263 32$MC=0.00551 8
246CMS G NC=0.001512 21$OC=0.000385 5$PC=7.58E-5 11$QC=5.41E-6 8
246CM2 G %IG=0.117 9
246CM cG M$|a(K)exp=0.125 {I14} (1976Mu03).
246CM G 745.05 4 9.5 3 (M1+E0) C
246CM2 G %IG=0.236 13
246CM cG $|a(K)exp=0.144 {I18} (1976Mu03).
246CM G 779.76 8 2.7 4 M1 0.1063 15 C
246CMS G KC=0.0840 12$LC=0.01679 24$MC=0.00409 6
246CMS G NC=0.001122 16$OC=0.000286 4$PC=5.62E-5 8$QC=4.01E-6 6
246CM2 G %IG=0.067 11
246CM cG M$|a(K)exp=0.089 {I23} (1976Mu03).
246CM G 1479.43 4 9.2 3 E1 2.40E-3 3
246CMS G KC=0.001844 26$LC=0.000318 4$MC=7.59E-5 11
246CMS G NC=2.071E-5 29$OC=5.26E-6 7$PC=1.028E-6 14$QC=7.32E-8 10
246CMS G IPC=0.0001332 19
246CM2 G %IG=0.228 13
246CM cG M$|a(K)exp<0.003 (1976Mu03).
246CM G 1578.62 5 3.12 12 [E1] 2.23E-3 3
246CMS G KC=0.001659 23$LC=0.000285 4$MC=6.80E-5 10
246CMS G NC=1.856E-5 26$OC=4.72E-6 7$PC=9.22E-7 13$QC=6.60E-8 9
246CMS G IPC=0.0001962 27
246CM2 G %IG=0.077 5
246CM cG M$|a(K)exp<0.005 (1976Mu03).
246CM L 1628.90 7 ?
246CM B 0.0069 32 9.35 21
246CMS B EAV=228.9 63
246CM G 1486.90 7 0.08 6 ?
246CM2 G %IG=0.0020 15
246CM G 1586.1 2 0.2 1 ?
246CM2 G %IG=0.0050 25
246CM L 1633.521 32(2)- L
246CM B 0.68 5 7.34 5
246CMS B EAV=227.3 63
246CM G 267.3 5 0.2 1 [M1,E2] 1.2 8 &
246CMS G KC=0.8 7$LC=0.25 7$MC=0.064 13
246CMS G NC=0.0177 35$OC=0.0044 10$PC=8.3E-4 23$QC=4.2E-5 34
246CM2 G %IG=0.0050 25
246CM G 293.37 15 0.18 5 &
246CM2 G %IG=0.0045 13
246CM G 383.73 6 0.75 8 (M1) 0.724 10
246CMS G KC=0.570 8$LC=0.1158 16$MC=0.0283 4
246CMS G NC=0.00776 11$OC=0.001976 28$PC=0.000389 5$QC=2.77E-5 4
246CM2 G %IG=0.0186 22
246CM cG M$|a(K)exp=0.68 {I10} (1976Mu03).
246CM G 423.4 5 0.16 7 [E1] 0.0213030 &
246CMS G KC=0.01693 24$LC=0.00329 5$MC=0.000798 11
246CMS G NC=0.0002178 31$OC=5.47E-5 8$PC=1.037E-5 15$QC=6.25E-7 9
246CM2 G %IG=0.0040 18
246CM G 505.61 13 0.49 9 &
246CM2 G FLAG=G
246CM2 G %IG=0.0122 23
246CM G 528.69 7 0.60 6 (M1) 0.303 4
246CMS G KC=0.2386 33$LC=0.0481 7$MC=0.01173 16
246CMS G NC=0.00322 5$OC=0.000820 11$PC=0.0001613 23$QC=1.150E-5 16
246CM2 G %IG=0.0149 16
246CM cG M$|a(K)exp=0.31 {I9} (1976Mu03).
246CM G 554.68 6 0.59 6 (M1,E2) 0.16 11 I
246CMS G KC=0.12 9$LC=0.028 14$MC=0.0070 33
246CMS G NC=0.0019 9$OC=4.8E-4 24$PC=9.E-5 5$QC=6.E-6 4
246CM2 G %IG=0.0146 16
246CM G 791.5 2 2.6 5 [M1,E2] 0.06 4 C
246CMS G KC=0.048 33$LC=0.011 6$MC=0.0026 13
246CMS G NC=7.E-4 4$OC=1.8E-4 9$PC=3.5E-5 19$QC=2.3E-6 16
246CM2 G %IG=0.065 13
246CM G 1590.68 5 21.0 15 E1+M2 0.12 8 0.0027 8
246CMS G KC=0.0020 6$LC=3.6E-4 14$MC=8.7E-5 35
246CMS G NC=2.4E-5 10$OC=6.1E-6 24$PC=1.2E-6 5$QC=8.5E-8 34$IPC=0.000202 4
246CM2 G %IG=0.52 5
246CM cG M$|a(K)exp=0.0020 {I6} (1976Mu03).
246CM L 1659.19 8 (1-)
246CM B 0.041 4 8.51 6
246CMS B EAV=218.4 63
246CM G 554.4 2 0.89 7 (M1,E2) 0.16 11 I
246CMS G KC=0.12 9$LC=0.028 14$MC=0.0070 34
246CMS G NC=0.0019 9$OC=4.8E-4 24$PC=9.E-5 5$QC=6.E-6 4
246CM2 G %IG=0.0221 20
246CM G 1616.3 2 0.12 3 [E1] 2.18E-3 3
246CMS G KC=0.001596 22$LC=0.000274 4$MC=6.53E-5 9
246CMS G NC=1.784E-5 25$OC=4.53E-6 6$PC=8.87E-7 12$QC=6.36E-8 9
246CMS G IPC=0.0002215 31
246CM2 G %IG=0.0030 8
246CM G 1659.18 10 0.51 4 [E1] 2.13E-3 3
246CMS G KC=0.001529 21$LC=0.000262 4$MC=6.25E-5 9
246CMS G NC=1.707E-5 24$OC=4.34E-6 6$PC=8.49E-7 12$QC=6.10E-8 9
246CMS G IPC=0.0002507 35
246CM2 G %IG=0.0127 12
246CM L 1661.651 32 (1+) N
246CM B 0.360 19 7.56 5
246CMS B EAV=217.5 62
246CM G 451.2 2 0.10 4 [M1,E2] 0.27 19 &
246CMS G KC=0.20 16$LC=0.050 24$MC=0.013 5
246CMS G NC=0.0035 15$OC=9.E-4 4$PC=1.7E-4 8$QC=1.0E-5 8
246CM2 G %IG=0.0025 10
246CM G 487.2 3 0.37 8 [M1] 0.378 5
246CMS G KC=0.298 4$LC=0.0601 8$MC=0.01467 21
246CMS G NC=0.00403 6$OC=0.001025 14$PC=0.0002017 28$QC=1.438E-5 20
246CM2 G %IG=0.0092 20
246CM G 820.7 3 0.15 9 [E1] 0.00617 9 F ?
246CMS G KC=0.00499 7$LC=0.000895 13$MC=0.0002149 30
246CMS G NC=5.87E-5 8$OC=1.484E-5 21$PC=2.87E-6 4$QC=1.926E-7 27
246CM2 G %IG=0.0037 23
246CM G 1618.80 4 4.64 18(M1) 0.0151921
246CMS G KC=0.01183 17$LC=0.002335 33$MC=0.000568 8
246CMS G NC=0.0001557 22$OC=3.97E-5 6$PC=7.81E-6 11$QC=5.61E-7 8
246CMS G IPC=0.0002516 35
246CM2 G %IG=0.115 7
246CM cG M$|a(K)exp=0.014 {I2} (1976Mu03).
246CM G 1661.63 5 9.1 3 (M1) 0.0142120
246CMS G KC=0.01102 15$LC=0.002175 30$MC=0.000529 7
246CMS G NC=0.0001450 20$OC=3.69E-5 5$PC=7.27E-6 10$QC=5.23E-7 7
246CMS G IPC=0.000290 4
246CM2 G %IG=0.226 13
246CM cG M$|a(K)exp=0.010 {I1} (1976Mu03).
246CM L 1670.990 29 (3-) L
246CM B 0.435 25 7.46 5
246CMS B EAV=214.3 62
246CM G 451.2 2 0.10 4 [E1] 0.0187826 &
246CMS G KC=0.01495 21$LC=0.00288 4$MC=0.000698 10
246CMS G NC=0.0001904 27$OC=4.79E-5 7$PC=9.09E-6 13$QC=5.55E-7 8
246CM2 G %IG=0.0025 10
246CM G 505.61 13 0.49 9 [E1] 0.0150421 &
246CM2 G FLAG=G
246CMS G KC=0.01201 17$LC=0.002278 32$MC=0.000551 8
246CMS G NC=0.0001503 21$OC=3.79E-5 5$PC=7.22E-6 10$QC=4.50E-7 6
246CM2 G %IG=0.0122 23
246CM G 542.92 5 1.6 2 (M1+E2) 0.5 4 0.24 6 C
246CMS G KC=0.18 5$LC=0.039 8$MC=0.0095 18
246CMS G NC=0.0026 5$OC=0.00066 12$PC=0.000130 25$QC=8.9E-6 23
246CM2 G %IG=0.040 5
246CM cG M,MR$|a(K)exp=0.18 {I5} (1976Mu03).
246CM G 566.12 5 1.72 10 M1+(E2) 0.3 4 0.23 5 C
246CMS G KC=0.18 4$LC=0.038 7$MC=0.0092 16
246CMS G NC=0.0025 4$OC=0.00064 11$PC=0.000126 23$QC=8.9E-6 20
246CM2 G %IG=0.0427 31
246CM cG M,MR$|a(K)exp=0.18 {I4} (1976Mu03).
246CM G 747.74 8 1.0 2 [M1,E2] 0.07 5
246CMS G KC=0.06 4$LC=0.012 7$MC=0.0030 15
246CMS G NC=8.E-4 4$OC=2.1E-4 11$PC=4.1E-5 22$QC=2.7E-6 18
246CM2 G %IG=0.025 5
246CM G 829.37 8 0.72 14[M1,E2] 0.055 35
246CMS G KC=0.043 29$LC=0.009 5$MC=0.0023 12
246CMS G NC=6.3E-4 32$OC=1.6E-4 8$PC=3.1E-5 17$QC=2.0E-6 14
246CM2 G %IG=0.018 4
246CM G 1529.00 7 9.0 4 (E1) 2.31E-3 3 H
246CMS G KC=0.001748 24$LC=0.000301 4$MC=7.18E-5 10
246CMS G NC=1.959E-5 27$OC=4.98E-6 7$PC=9.73E-7 14$QC=6.95E-8 10
246CMS G IPC=0.0001639 23
246CM2 G %IG=0.223 14
246CM G 1628.17 5 2.21 11 (E1) 2.16E-3 3
246CMS G KC=0.001577 22$LC=0.000270 4$MC=6.45E-5 9
246CMS G NC=1.762E-5 25$OC=4.48E-6 6$PC=8.76E-7 12$QC=6.29E-8 9
246CMS G IPC=0.0002295 32
246CM2 G %IG=0.055 4
246CM cG M$|a(K)exp<0.005 (1976Mu03).
246CM2cG E1 or E2 from |a(K)exp, |D|p=yes from level scheme
246CM L 1680.80 5 (2+) N
246CM B 0.170 28 7.85 9
246CMS B EAV=211.0 62
246CM G 461.2 2 0.13 5 [E2] 0.0717 10 ?
246CMS G KC=0.0381 5$LC=0.02459 35$MC=0.00661 9
246CMS G NC=0.001830 26$OC=0.000452 6$PC=8.11E-5 11$QC=2.273E-6 32
246CM2 G %IG=0.0032 13
246CM G 1538.9 2 0.055 19 [E2] 0.00627 9
246CMS G KC=0.00481 7$LC=0.001050 15$MC=0.000259 4
246CMS G NC=7.10E-5 10$OC=1.796E-5 25$PC=3.47E-6 5$QC=2.176E-7 30
246CMS G IPC=6.54E-5 9
246CM2 G %IG=0.0014 5
246CM G 1637.95 5 6.5 8 (M1) 0.0147421
246CMS G KC=0.01146 16$LC=0.002262 32$MC=0.000550 8
246CMS G NC=0.0001508 21$OC=3.84E-5 5$PC=7.56E-6 11$QC=5.44E-7 8
246CMS G IPC=0.000268 4
246CM2 G %IG=0.161 21
246CM cG M$|a(K)exp=0.014 {I2} (1976Mu03).
246CM G 1680.69 18 0.043 8 [E2] 0.00540 8
246CMS G KC=0.00412 6$LC=0.000873 12$MC=0.0002145 30
246CMS G NC=5.88E-5 8$OC=1.489E-5 21$PC=2.89E-6 4$QC=1.852E-7 26
246CMS G IPC=0.0001130 16
246CM2 G %IG=0.00107 21
246CM L 1712.37 5 (3+) N
246CM B 0.026 4 8.60 8
246CMS B EAV=200.2 62
246CM G 1570.46 7 0.62 5 [M1,E2] 0.011 5
246CMS G KC=0.009 4$LC=0.0018 8$MC=4.3E-4 18
246CMS G NC=1.2E-4 5$OC=3.0E-5 13$PC=5.9E-6 26$QC=4.1E-7 20$IPC=1.4E-4 7
246CM2 G %IG=0.0154 14
246CM G 1669.50 5 0.63 4 [M1,E2] 0.010 4
246CMS G KC=0.0075 34$LC=0.0015 6$MC=3.7E-4 15
246CMS G NC=1.0E-4 4$OC=2.6E-5 11$PC=5.1E-6 21$QC=3.5E-7 16$IPC=2.0E-4 9
246CM2 G %IG=0.0156 12
246CM L 1780.799 30 2+
246CM B 0.274 16 7.42 6
246CMS B EAV=177.1 61
246CM G 414.16 6 0.42 5 [E1] 0.0222731
246CMS G KC=0.01768 25$LC=0.00345 5$MC=0.000837 12
246CMS G NC=0.0002283 32$OC=5.74E-5 8$PC=1.085E-5 15$QC=6.52E-7 9
246CM2 G %IG=0.0104 13
246CM G 656.35 14 0.47 11 M1+E0
246CM2 G %IG=0.0117 28
246CM cG M$|a(K)exp=0.63 {I18} (1976Mu03).
246CM G 904.42 5 2.31 9 (E1) 0.00521 7 C
246CMS G KC=0.00422 6$LC=0.000750 10$MC=0.0001798 25
246CMS G NC=4.91E-5 7$OC=1.243E-5 17$PC=2.408E-6 34$QC=1.636E-7 23
246CM2 G %IG=0.0573 34
246CM cG M$|a(K)exp<0.09 (1976Mu03); E1,M1 or E2 from |a(K)exp, E1 from
246CM2cG level scheme.
246CM G 939.15 5 3.1 2 (E1) 0.00488 7 C
246CMS G KC=0.00395 6$LC=0.000701 10$MC=0.0001680 24
246CMS G NC=4.58E-5 6$OC=1.161E-5 16$PC=2.251E-6 32$QC=1.537E-7 22
246CM2 G %IG=0.077 6
246CM cG M$|a(K)exp<0.09 (1976Mu03); E1,M1 or E2 from |a(K)exp, E1 from
246CM2cG level scheme.
246CM G 1737.94 5 4.5 3 (M1) 0.0126718
246CMS G KC=0.00975 14$LC=0.001924 27$MC=0.000468 7
246CMS G NC=0.0001283 18$OC=3.27E-5 5$PC=6.43E-6 9$QC=4.63E-7 6$IPC=0.000360 5
246CM2 G %IG=0.112 9
246CM cG M$|a(K)exp=0.013 {I2} (1976Mu03).
246CM G 1780.5 2 0.16 4 [E2] 0.00491 7
246CMS G KC=0.00372 5$LC=0.000775 11$MC=0.0001900 27
246CMS G NC=5.21E-5 7$OC=1.319E-5 18$PC=2.56E-6 4$QC=1.666E-7 23
246CMS G IPC=0.0001504 21
246CM2 G %IG=0.0040 10
246CM L 1821.75 6
246CM B 0.0238 17 8.38 6
246CMS B EAV=163.6 60
246CM G 1778.92 6 0.90 5
246CM2 G %IG=0.0223 16
246CM G 1821.70 12 0.059 12
246CM2 G %IG=0.00146 31
246CM L 1836.73 6 2+,1-
246CM B 0.0105 28 8.69 13
246CMS B EAV=158.6 60
246CM G 960.2 3 0.22 9
246CM2 G %IG=0.0055 23
246CM G 1794.7 4 0.015 5
246CM2 G %IG=3.7E-4 13
246CM G 1836.71 6 0.19 2
246CM2 G %IG=0.0047 6
246CM L 1856.55 4 3+
246CM B 0.048 16 7.98 16
246CMS B EAV=152.1 59
246CM G 347.26 4 0.97 5 ?
246CM2 G %IG=0.0241 17
246CM cG M$|a(K)exp=4.4 {I8} (1976Mu03). Theory: |a(K)(M1)=0.806,
246CM2cG |a(K)(E2)=0.0632. Since this ce(K) is only 0.5 keV from the ce(L1) of
246CM3cG the strong 244.03|g, and since 1976Mu03 do not give the
246CM4cG Ice(L)(244.03|g) the |a(K)exp must be considered questionable.
246CM G 636.72 12 0.48 11[M1,E2] 0.11 7 & ?
246CM2 G FLAG=F
246CMS G KC=0.08 6$LC=0.019 10$MC=0.0047 24
246CMS G NC=0.0013 6$OC=3.3E-4 17$PC=6.4E-5 34$QC=4.1E-6 29
246CM2 G %IG=0.0119 28
246CM G 732.5 2 0.61 17[M1,E2] 0.08 5 &
246CMS G KC=0.06 4$LC=0.013 7$MC=0.0032 16
246CMS G NC=9.E-4 4$OC=2.2E-4 12$PC=4.3E-5 23$QC=2.8E-6 19
246CM2 G %IG=0.015 4
246CM G 1714.61 9 0.087 9
246CM2 G %IG=0.00216 24
246CM G 1813.73 6 0.110 10
246CM2 G %IG=0.00273 28
246CM L 1870.19 5 1,2+
246CM B 0.025 7 8.23 14
246CMS B EAV=147.7 59
246CM G 580.9 3 0.34 9 &
246CM2 G %IG=0.0084 23
246CM G 1827.39 5 0.77 6
246CM2 G %IG=0.0191 17
246CM G 1869.81 15 0.040 8
246CM2 G %IG=9.9E-4 20
246CM L 1875.52 11 1,2+
246CM B 0.036 14 8.05 18
246CMS B EAV=146.0 59
246CM G 751.0 3 1.4 5
246CM2 G %IG=0.035 13
246CM G 1832.6 3 0.019 9
246CM2 G %IG=4.7E-4 23
246CM G 1875.56 12 0.034 8
246CM2 G %IG=8.4E-4 20
246CM L 1886.756 32 (1+)
246CM B 0.059 10 7.81 9
246CMS B EAV=142.3 59
246CM G 434.92 13 0.35 11 (M1+E0) 1.2 2
246CM2 G %IG=0.0087 28
246CM cG M$|a(K)exp=0.9 {I3} (1976Mu03).
246CM2cG From |a(K)exp the transition is either M1+E0 or M2.
246CM G 1045.08 6 0.73 12 [E1] 0.00406 6
246CMS G KC=0.00329 5$LC=0.000579 8$MC=0.0001387 19
246CMS G NC=3.79E-5 5$OC=9.60E-6 13$PC=1.864E-6 26$QC=1.287E-7 18
246CM2 G %IG=0.0181 31
246CM G 1843.86 5 0.36 3 [M1,E2] 0.0078 32
246CMS G KC=0.0059 24$LC=0.0012 5$MC=2.9E-4 11
246CMS G NC=7.9E-5 30$OC=2.0E-5 8$PC=3.9E-6 15$QC=2.8E-7 12$IPC=3.2E-4 14
246CM2 G %IG=0.0089 9
246CM G 1886.80 5 0.50 3 [M1] 0.0103414
246CMS G KC=0.00779 11$LC=0.001536 22$MC=0.000373 5
246CMS G NC=0.0001024 14$OC=2.61E-5 4$PC=5.14E-6 7$QC=3.70E-7 5$IPC=0.000502 7
246CM2 G %IG=0.0124 9
246CM L 1898.07 9 2+
246CM B 0.014 11 8.4 4
246CMS B EAV=138.7 59
246CM G 732.5 2 0.61 17[M1,E2] 0.08 5 &
246CMS G KC=0.06 4$LC=0.013 7$MC=0.0032 16
246CMS G NC=9.E-4 4$OC=2.2E-4 12$PC=4.3E-5 23$QC=2.8E-6 19
246CM2 G %IG=0.015 4
246CM G 1756.1 2 0.057 9 [E2] 0.00502 7
246CMS G KC=0.00381 5$LC=0.000797 11$MC=0.0001955 27
246CMS G NC=5.36E-5 8$OC=1.358E-5 19$PC=2.63E-6 4$QC=1.709E-7 24
246CMS G IPC=0.0001411 20
246CM2 G %IG=0.00141 23
246CM G 1855.34 12 0.06 2 [M1,E2] 0.0077 31
246CMS G KC=0.0058 24$LC=0.0012 4$MC=2.8E-4 11
246CMS G NC=7.8E-5 30$OC=2.0E-5 8$PC=3.9E-6 15$QC=2.7E-7 12$IPC=3.3E-4 15
246CM2 G %IG=0.0015 5
246CM G 1897.8 2 0.018 4 [E2] 0.00443 6
246CMS G KC=0.00333 5$LC=0.000680 10$MC=0.0001663 23
246CMS G NC=4.56E-5 6$OC=1.156E-5 16$PC=2.247E-6 31$QC=1.482E-7 21
246CMS G IPC=0.0001977 28
246CM2 G %IG=4.5E-4 10
246CM L 1901.31 6 2+,3
246CM B 0.0221 20 8.19 7
246CMS B EAV=137.6 59
246CM G 1759.30 5 0.86 7
246CM2 G %IG=0.0213 20
246CM G 1858.7 2 0.031 5
246CM2 G %IG=7.7E-4 13
246CM L 1906.10 14 2+,3,4+
246CM B 0.00184 33 9.25 10
246CMS B EAV=136.1 59
246CM G 1764.2 2 0.036 8
246CM2 G %IG=8.9E-4 20
246CM G 1863.19 18 0.038 6
246CM2 G %IG=9.4E-4 16
246CM L 1909.31 5 2+,1
246CM B 0.0064 11 8.70 10
246CMS B EAV=135.1 58
246CM G 1866.48 6 0.20 3
246CM2 G %IG=0.0050 8
246CM G 1909.27 9 0.057 6
246CM2 G %IG=0.00141 16
246CM L 1924.55 4 1,2+
246CM B 0.0156 13 8.27 7
246CMS B EAV=130.2 58
246CM G 1881.70 5 0.30 3
246CM2 G %IG=0.0074 8
246CM G 1924.56 5 0.33 3
246CM2 G %IG=0.0082 8
246CM L 1947.07 6 2+,3,4+
246CM B 0.0081 14 8.48 10
246CMS B EAV=123.0 58
246CM G 325.61 8 0.24 4
246CM2 G %IG=0.0060 10
246CM G 1804.8 2 0.037 9
246CM2 G %IG=9.2E-4 23
246CM G 1904.26 10 0.049 6
246CM2 G %IG=0.00122 16
246CM L 1983.33 8 (1-,2+)
246CM B 0.018 4 8.01 12
246CMS B EAV=111.7 57
246CM G 271.1 2 0.2 1
246CM2 G %IG=0.0050 25
246CM G 361.85 9 0.49 6 ?
246CM2 G %IG=0.0122 16
246CM G 1940.43 18 0.022 4
246CM2 G %IG=5.5E-4 10
246CM G 1983.2 3 0.012 4
246CM2 G %IG=3.0E-4 10
246CM L 2032.49 6 1,2+
246CM B 0.012 6 8.00 23
246CMS B EAV=96.4 56
246CM G 370.81 13 0.17 4 ?
246CM2 G %IG=0.0042 10
246CM G 580.9 3 0.34 9 &
246CM2 G %IG=0.0084 23
246CM G 1989.63 8 0.042 8
246CM2 G %IG=0.00104 21
246CM G 2032.49 11 0.041 15
246CM2 G %IG=0.0010 4
246CM L 2146.04 5 1,2+
246CM B 0.00461 31 7.87 12
246CMS B EAV=62.6 53
246CM G 2103.18 7 0.063 6
246CM2 G %IG=0.00156 17
246CM G 2146.05 7 0.123 7
246CM2 G %IG=0.00305 22
246CM L 2171.41 6 2+,3
246CM B 0.0109 27 7.33 17
246CMS B EAV=55.3 52
246CM G 577.9 3 0.34 9 ?
246CM2 G %IG=0.0084 23
246CM G 2029.39 8 0.047 5
246CM2 G %IG=0.00117 14
246CM G 2128.57 9 0.052 5
246CM2 G %IG=0.00129 14