149GD 149TB EC DECAY (4.12 H) 1978JA14,1972VY08,1992TL0222NDS 202210
149GD H TYP=FUL$AUT=Balraj Singh and Jun Chen$CIT=NDS 185, 2 (2022)$
149GD2 H CUT=23-Aug-2022$
149GD c 1978Ja14: {+149}Tb sources were produced via {+141}Pr({+12}C,4n) with
149GD2c 78 MeV {+12}C beam from the LBNL 80-inch cyclotron for singles
149GD3c measurements and via spallation of tantalum with 800 MeV proton from
149GD4c the Clinton P. Anderson Meson Physics Facility (LAMPF) for more
149GD5c detailed singles and coincidence measurements. Measured E|g, I|g,
149GD6c |g|g-coin with Ge(Li) detectors. Deduced levels, J|p, log {Ift},
149GD7c conversion coefficients, |g-ray multipolarities. Systematics of
149GD8c neighboring isotones.
149GD c 1972Vy08 (also 1972Vy09): measured |g, ce. 1972Vy09 report |g|g data
149GD c 1992Tl02: |g|g(|q) (7 Ge(Li) detector system)
149GD c Others:
149GD c |g|g(|q): 1974Bu26 (Ge(Li)-NaI system)
149GD c |g|g(|q,H): 1977VaZJ, 1977GrZF
149GD c |g(|q,t): 1985Fi06 (for 352|g)
149GD c |b{++}|g coin: 1968Wi21
149GD c |g(|q,t): 1983Pr04
149GD c ce data: 1987BaZB (also 1987BaYQ), 1968Wi21, 1967Ko09, 1964Da20
149GD c |g data: 1975SpZU, 1973St22, 1968Wi21, 1964Da20 (also 1962St20,
149GD2c 1961St15), 1961Bo19, 1960St33, 1960Ab08, 1960To10, 1959To27
149GD c |g|g: 1975SpZU, 1968Wi21
149GD c |g|g(t): 1969Ba64
149GD c |g ce(t): 1971VaZV
149GD c ce ce(t): 1969Ba64
149GD c Q value measurement: 2001IzZY
149GD c T{-1/2}({+149}Tb): 1975SpZU, 1973St22, 1968St09, 1967Go32 (also
149GD2c 1967Ch28,1965Gr28), 1965Br10, 1960To10, 1957Su23, 1953Ra02
149GD c Production of {+149}Tb: 1992Ca11, 1968St09, 1950Ra56
149GD c Total decay energy deposit of 3026 keV {I28} calculated by RADLIST
149GD2c code is in agreement with expected value of 3030 keV {I62}, indicating
149GD3c the completeness of the decay scheme.
149GD cE TI$From |g+ce intensity balance at each level.
149GD cG E,RI$From 1978Ja14. When no energy uncertainty is given, |g rays were
149GD2cG seen only in the |g|g coin. The energies given
149GD3cG in these cases are the level differences rounded to the nearest
149GD4cG 0.1 keV. Their intensities are deduced from |g|g-coin
149GD cG RI(A)$The intensity has been obtained after correcting
149GD2cG for the decay of the {+149}Gd daughter.
149GD cG RI(C)$|g ray is member of a multiplet. Intensity was
149GD2cG obtained from coincidence data.
149GD cG RI(S)$The intensity was obtained by subtracting all
149GD2cG other components from the total multiplet intensity.
149GD cG M$From |a(K)exp data, deduced by 1978Ja14 using I(ce(K)) values from
149GD2cG 1972Vy08 and I|g values from 1978Ja14, normalized to |a(K)=0.0292
149GD3cG for 352|g taken as E2, unless otherwise noted. Assignments in the
149GD4cG Adopted Gammas are the same.
149GD cG MR$From |g|g(|q) data (1992Tl02,1974Bu26) with data reanalyzed by the
149GD2cG evaluators, unless otherwise noted. The values are the same in
149GD3cG the Adopted Levels, Gammas dataset.
149GD cL E$From a least-squares fit to |g-ray energies
149GD cL J,T$From the Adopted Levels
149GD cL T(B)$From ce|g(t) (1971VaZV)
149TB P 0.0 1/2+ 4.12 H 3 3639 4
149TB cP J,T$From {+149}Tb Adopted Levels
149TB cP QP$From 2021Wa16
149GD N 0.01074 7 0.833 17 1.201
149GD cN NR$from |SI(|g+ce)(g.s.)=100, assuming no g.s. feeding, as expected
149GD2cN from 1/2+ parent to 7/2- g.s.
149GD PN 3
149GD G 570.5 1.8
149GD2 G %IG=0.0161 4
149GD cG E$this |g ray was attributed to the decay of a 1557.4
149GD2cG level (1978Ja14); however, there is no level reported near 986.9
149GD3cG implied by this placement
149GD L 0.0 7/2- 9.28 D 10
149GD L 164.987 15 5/2- 1.7 NS 1 B
149GD cL T$other: 1.35 ns {I30} (1969Ba64)
149GD E 0.35 12 1.4 5 9.7 2 1.8 6 1U
149GDS E EAV=1108.5 18$CK=0.6717 8$CL=0.10175 12$CM+=0.02955 4
149GD G 164.98 2 2985 35M1+E2 -0.93 2 0.459 6 C
149GD2 G %IG=26.7 6
149GD2 G EKC=0.36 2 $ K/L=3.9 2 $ K/M=11.1 5$ L/M=2.7 1 (1972Vy08)
149GD2 G K/L=4.43 (1968Wi21) $ L1/L2=1.77 4 $ L1/L3=2.11 6 (1987BaZB)
149GD cG $L1:L2:L3=135 15:70 10:54 7 (1972Vy08,1971GoZS)
149GDS G KC=0.350 5$LC=0.0853 13$MC=0.01934 31
149GDS G NC=0.00438 7$OC=0.000624 10$PC=2.35E-5 4
149GD cG MR$from precise L-subshell ratios measured by 1987BaZB. Other:
149GD2cG 0.93 {I4} using all the ce data, except seemingly discrepant K/M and
149GD3cG L/M ratios from 1972Vy08. Sign is from |g|g(|q) (1992Tl02,1974Bu26).
149GD4cG Other: 0.82 {I2} (1972Vy08) from their measured K/L ratio
149GD L 352.234 25 3/2- 0.43 NS 5 B
149GD cL J$5/2 ruled out from combined results of |g|g(|q) and ce data
149GD E 0.68 11 1.22 20 8.1 1 1.90 31
149GDS E EAV=1022.4 19$CK=0.5397 11$CL=0.07977 16$CM+=0.02308 5
149GD G 187.22 2 487 6 M1+E2 +0.85 +19-16 0.316 8 C
149GD2 G %IG=4.36 11
149GDS G KC=0.248 11$LC=0.0528 28$MC=0.0119 7
149GDS G NC=0.00269 15$OC=0.000390 17$PC=1.70E-5 11
149GD2 G EKC=0.27 1 $ K/L=5.4 3 $ L/M=3.1 4 (1972Vy08)
149GD2 G K/L=3.1 4 (1968Wi21) $ K/L1=9.6 (1971GoZS) $ K/L=2.9 (1971GoZS)
149GD cG MR$from ce and |g|g(|q) data, with the sign from
149GD2cG |g|g(|q) in 1992Tl02
149GD cG $(187|g)(165|g)(|q): A{-2}=-0.485 {I22}, A{-4}=+0.06 {I5} 1992Tl02).
149GD cG $(187|g)(165|g)(|q): A{-2}=-0.22 {I3}, A{-4}=-0.05 {I6} (1974Bu26)
149GD cG $(187|g)(165|g)(|q): A{-2}=-0.396 {I16}, A{-4}=0.00 {I4} (quoted by
149GD2cG 1992Tl02 from a Ph.D. thesis by I. Kholbaev from JINR, Dubna (1977))
149GD G 352.24 2 3333 10E2 0.0371 5 C
149GD2 G %IG=29.8 7
149GD2 G EKC=0.0292 $ K/L=4.3 2 $ L/M=3.4 5 (1972Vy08)
149GDS G NC=0.000320 4$OC=4.60E-5 6$PC=1.868E-6 26
149GDS G KC=0.0291 4$LC=0.00627 9$MC=0.001410 20
149GD L 796.2 5 9/2-
149GD G 796.2 11 3 (M1+E2) +0.18 2 0.0078311 C
149GD2 G %IG=0.10 3
149GDS G KC=0.00666 10$LC=0.000912 13$MC=0.0001971 28
149GDS G NC=4.54E-5 6$OC=7.07E-6 10$PC=4.83E-7 7
149GD cG M,MR$from the Adopted Gammas
149GD L 817.100 18 3/2-
149GD cL J$5/2 ruled out by combining results from |g|g(|q) and ce data
149GD E 1.0 1 3.8 3 7.43 4 4.8 4
149GDS E EAV=812.7 18$CK=0.6601 10$CL=0.09798 15$CM+=0.02837 5
149GD G 464.85 2 640 9 M1(+E2) -0.10 14 0.0303 7 C
149GD2 G %IG=5.73 15
149GDS G KC=0.0258 7$LC=0.00359 7$MC=0.000778 15
149GD2 G EKC=0.026 2 $ K/L=7.0 4 $ L/M=3.9 15 (1972Vy08)
149GDS G NC=0.0001790 34$OC=2.78E-5 6$PC=1.89E-6 5
149GD cG MR$from (465|g)(352|g)(|q) (1992Tl02). Others: (465|g)(187|g)(|q)
149GD2cG (1992Tl02) gives |d=+0.03 {I13}; ce data give |d(E2/M1)<0.5
149GD cG $(465|g)(165|g)(|q): A{-2}=+0.14 {I12}, A{-4}=-0.08 {I21} (1992Tl02)
149GD cG $(465|g)(187|g)(|q): A{-2}=-0.22 {I10}, A{-4}=+0.00 {I18} (1992Tl02)
149GD cG $(465|g)(352|g)(|q): A{-2}=+0.08 {I3}, A{-4}=+0.05 {I5} (1992Tl02)
149GD G 652.12 2 1840 25M1+E2 -0.57 5 0.0115425 C
149GD2 G %IG=16.5 4
149GD2 G EKC=0.0085 10 $ K/L=7.8 11 $ L/M=2.9 11 (1972Vy08)
149GDS G KC=0.00978 21$LC=0.001381 26$MC=0.000300 6
149GDS G NC=6.89E-5 13$OC=1.066E-5 21$PC=7.06E-7 16
149GD cG MR$from (652|g)(165|g)(|q): A{-2}=+0.27 {I3}, A{-4}=+0.01 {I5}
149GD2cG (1992Tl02). Other: |d(E2/M1)=0.9 {I+7-4} from ce data
149GD cG $(652|g)(165|g)(|q): A{-2}=+0.20 {I2}, A{-4}=-0.02 {I4} (1974Bu26)
149GD G 817.1 2 1313 20E2 0.00425 6 SC
149GD2 G %IG=11.8 3
149GD2 G EKC=0.0035 5
149GDS G NC=2.70E-5 4$OC=4.10E-6 6$PC=2.458E-7 34
149GDS G KC=0.00356 5$LC=0.000540 8$MC=0.0001179 17
149GD cG M$|a(K)exp gives |d(E2/M1)>4
149GD L 1026.840 23 3/2+
149GD cL J$from consistency of results from |g|g(|q) and ce data
149GD E 0.74 3 4.02 15 7.34 2 4.76 18
149GDS E EAV=718.9 18$CK=0.7094 9$CL=0.10555 14$CM+=0.03057 4
149GD G 674.61 6 77 2 E1 2.47E-3 4 C
149GD2 G %IG=0.689 23
149GD2 G EKC<0.0038
149GDS G KC=0.002110 30$LC=0.000280 4$MC=6.03E-5 8
149GDS G NC=1.383E-5 19$OC=2.133E-6 30$PC=1.405E-7 20
149GD cG M$|a(K)exp gives |d(M2/E1)<0.25
149GD G 861.86 2 849 12E1(+M2) -0.05 6 0.0015515 C
149GD2 G %IG=7.60 19
149GD2 G EKC=0.0009 2
149GDS G KC=0.00132 12$LC=0.000175 19$MC=3.8E-5 4
149GDS G NC=8.6E-6 9$OC=1.33E-6 15$PC=8.9E-8 10
149GD cG MR$from (862|g)(165|g)(|q): A{-2}=-0.13 {I4}, A{-4}=+0.18 {I11}
149GDxcG (1992Tl02)
149GD cG $(862|g)(165|g)(|q): A{-2}=-0.11 {I3}, A{-4}=-0.03 {I7} (1974Bu26)
149GD L 1085.5 5 (5/2-,7/2,9/2-)
149GD E 0.01 1 0.08 3 9.0 2 0.09 4 ?
149GDS E EAV=692.7 19$CK=0.7220 9$CL=0.10752 14$CM+=0.03114 4
149GD G 289.3 3 8 2 D 0.061 44 C
149GD2 G %IG=0.072 18
149GD G 920.5 3 1 C
149GD2 G %IG=0.027 9
149GD G 1085.5 6 3 C
149GD2 G %IG=0.05 3
149GD L 1124.89 3 1/2+,3/2+,5/2+
149GD E 0.021 LT 0.14 LT 8.8 GT 0.16 LT ?
149GDS E EAV=675.2 18$CK=0.7302 9$CL=0.10880 13$CM+=0.03152 4
149GD G 98.1 2 17 2 M1 2.127 32 C
149GD2 G %IG=0.152 18
149GD2 G EKC=3.3 17
149GDS G KC=1.796 27$LC=0.259 4$MC=0.0564 9
149GDS G NC=0.01298 20$OC=0.002012 31$PC=0.0001340 20
149GD G 307.79 7 30 2 [E1] 0.0149421 C
149GD2 G %IG=0.268 19
149GDS G KC=0.01270 18$LC=0.001757 25$MC=0.000379 5
149GDS G NC=8.66E-5 12$OC=1.317E-5 18$PC=8.10E-7 11
149GD G 772.65 3 182 4 E1 1.87E-3 3 C
149GD2 G %IG=1.63 5
149GD2 G EKC<0.0016
149GDS G KC=0.001602 22$LC=0.0002115 30$MC=4.55E-5 6
149GDS G NC=1.043E-5 15$OC=1.611E-6 23$PC=1.070E-7 15
149GD L 1144.08 5 (5/2)+
149GD E 0.032 10 0.23 7 8.5 2 0.26 8 ?
149GDS E EAV=666.6 18$CK=0.7341 8$CL=0.10941 13$CM+=0.03169 4
149GD cE TI$almost no |e+|b{++} feeding is expected from 1/2+ parent to (5/2)+;
149GD2cE apparent feeding of 0.26% {I8} is probably due to missing |g
149GD3cE transitions feeding this level
149GD G 117.2 2 1 [M1+E2] 1.35 7 C
149GD2 G %IG=0.018 9
149GDS G KC=0.92 16$LC=0.33 18$MC=0.08 4
149GDS G NC=0.017 9$OC=0.0024 12$PC=5.9E-5 21
149GD G 791.8 7 3 C
149GD2 G %IG=0.06 3
149GD G 979.09 6 56 3 E1 1.18E-3 2 C
149GD2 G %IG=0.50 3
149GD2 G EKC<0.0017
149GDS G KC=0.001013 14$LC=0.0001324 19$MC=2.84E-5 4
149GDS G NC=6.53E-6 9$OC=1.011E-6 14$PC=6.81E-8 10
149GD G 1144.09 9 33 3 D,E2 0.0021 12 C
149GD2 G %IG=0.30 3
149GD2 G EKC<0.0029
149GD cG M$|a(K)exp gives M1,E2 or E1
149GD L 1167.11 6 (3/2+)
149GD E ?
149GD cE $I(|e+|b{++})=-0.12 {I8} from |g-intensity balance is non-physical
149GD G 1002.1 32 2 CC
149GD2 G %IG=0.286 19
149GD G 1167.10 7 55 3 (M2) 0.0076211 C
149GD2 G %IG=0.49 3
149GD2 G EKC=0.0069 23
149GDS G KC=0.00645 9$LC=0.000922 13$MC=0.0002006 28
149GDS G NC=4.62E-5 6$OC=7.19E-6 10$PC=4.86E-7 7$IPC=5.77E-7 8
149GD cG M$|a(K)exp gives |d(E3/M2)<0.7
149GD L 1205.66 17 (1/2)-
149GD cL J$consistency of |g|g(|q) and ce data favors 1/2, but 3/2 is
149GD2cL not completely ruled out
149GD E 3.95 11 31.9 8 6.38 2 35.8 9
149GDS E EAV=639.3 18$CK=0.7462 8$CL=0.11130 12$CM+=0.03225 4
149GD G 388.57 2 2080 15M1+E2 -0.21 9 0.0475 11 C
149GD2 G %IG=18.6 5
149GDS G NC=0.000284 5$OC=4.41E-5 8$PC=2.95E-6 8
149GD2 G EKC=0.044 4 $ K/L=6.8 4 $ L/M=3.2 8 (1972Vy08)
149GDS G KC=0.0403 9$LC=0.00570 9$MC=0.001236 20
149GD cG MR$average of |d=-0.31 {I9} from (389|g)(817|g)(|q) and -0.12 {I4}
149GD2cG for (389|g)(652|g)(|q) (1992Tl02). For J=3/2, |d=+0.21 {I11} and
149GD3cG +0.49 {I8} (1992Tl02). Other: |d(E2/M1)<0.6 from ce data
149GD cG $(389|g)(165|g)(|q): A{-2}=-0.026 {I25}, A{-4}=+0.04 {I5}
149GDxcG (1992Tl02)
149GD cG $(389|g)(165|g)(|q): A{-2}=-0.12 {I3}, A{-4}=-0.09 {I7} (1974Bu26)
149GD cG $(389|g)(352|g)(|q): A{-2}=+0.01 {I3}, A{-4}=+0.03 {I6} (1992Tl02)
149GD cG $(389|g)(465|g)(|q): A{-2}=-0.09 {I4}, A{-4}=-0.03 {I7} (1992Tl02)
149GD cG $(389|g)(652|g)(|q): A{-2}=-0.10 {I3}, A{-4}=+0.00 {I4} (1992Tl02)
149GD cG $(389|g)(652|g)(|q): A{-2}=-0.19 {I3}, A{-4}=-0.04 {I7} (1974Bu26)
149GD cG $(389|g)(817|g)(|q): A{-2}=+0.010 {I23}, A{-4}=-0.01 {I5} (1992Tl02)
149GD cG $(389|g)(817|g)(|q): A{-2}=-0.10 {I5}, A{-4}=+0.05 {I9} (1974Bu26)
149GD G 853.43 1 1750 25E2+M1 -8 +6-23 0.0039 5 C
149GD2 G %IG=15.7 4
149GD2 G EKC=0.0031 2
149GDS G KC=0.0033 5$LC=0.00049 5$MC=0.000107 12
149GDS G NC=2.45E-5 27$OC=3.7E-6 4$PC=2.27E-7 35
149GD cG MR$for J=1/2, from (853|g)(187|g)(|q) (1992Tl02). J=3/2 gives
149GD2cG |d=-2.0 {I8}. Small values of |d given by |g|g(|q) are ruled out
149GD3cG by |a(K)exp value, as |a(K)exp gives E2
149GD cG $(853|g)(165|g)(|q): A{-2}=+0.31 {I8}, A{-4}=+0.34 {I16} (1992Tl02)
149GD cG $(853|g)(187|g)(|q): A{-2}=-0.43 {I5}, A{-4}=+0.00 {I10} (1992Tl02)
149GD cG $(853|g)(352|g)(|q): A{-2}=+0.101 {I21}, A{-4}=-0.02 {I4} (1992Tl02)
149GD cG $(853|g)(352|g)(|q): A{-2}=+0.07 {I3}, A{-4}=-0.05 {I6} (1974Bu26)
149GD G 1040.65 4 165 5 (E2) 2.53E-3 4 C
149GD2 G %IG=1.48 6
149GD2 G EKC=0.0026 3
149GDS G KC=0.002141 30$LC=0.000308 4$MC=6.68E-5 9
149GDS G NC=1.532E-5 21$OC=2.349E-6 33$PC=1.483E-7 21
149GD cG M$|a(K)exp gives E2+M1 with |d(E2/M1)=1.5 {I+14-5}, but
149GD2cG |DJ|p requires E2
149GD G 1205.6 2 LE ?
149GD2 G %IG LE 0.018
149GD L 1348.73 9 (1/2-,3/2,5/2-)
149GD E 0.0159 19 0.183 21 8.56 6 0.199 23
149GDS E EAV=575.9 18$CK=0.7713 7$CL=0.1153 1$CM+=0.03342 3
149GD G 321.9 2 1 [D,E2] 0.046 33 C
149GD2 G %IG=0.018 9
149GD G 996.5 1 14 1 C
149GD2 G %IG=0.125 10
149GD G 1183.7 2 8 2 C
149GD2 G %IG=0.072 18
149GD L 1402.91 7 (5/2-)
149GD E ?
149GD cE $I(|e+|b{++})=-0.17 {I8} from |g-intensity balance is non-physical
149GD G 317.4 7 2 C
149GD2 G %IG=0.063 18
149GD G 606.7 2 1 C
149GD2 G %IG=0.018 9
149GD G 1402.91 9 49 3 C
149GD2 G %IG=0.44 3
149GD L 1487.60 7 (1/2,3/2)-
149GD E 0.049 4 0.83 7 7.85 4 0.88 7
149GDS E EAV=514.6 18$CK=0.7915 6$CL=0.11861 9$CM+=0.03439 3
149GD G 670.4 7 2 CC
149GD2 G %IG=0.063 18
149GD G 1135.3 1 134 4 M1(+E2) 0.7 LT 0.0031721 C
149GD2 G %IG=1.20 5
149GD2 G EKC=0.0039 13
149GDS G KC=0.00271 18$LC=0.000367 23$MC=7.9E-5 5
149GDS G NC=1.82E-5 11$OC=2.84E-6 18$PC=1.94E-7 14$IPC=1.154E-6 26
149GD G 1322.7 1 10 1 C
149GD2 G %IG=0.089 10
149GD L 1544.13 5 (3/2-,5/2-)
149GD E 0.014 3 0.29 6 8.3 1 0.30 6
149GDS E EAV=489.7 18$CK=0.7985 5$CL=0.11979 8$CM+=0.03473 3
149GD G 1191.89 8 42 3 C
149GD2 G %IG=0.38 3
149GD G 1379.1 1 42 2 C
149GD2 G %IG=0.376 20
149GD G 1544.1 2 9 2 C
149GD2 G %IG=0.081 18
149GD L 1557.38 6 (1/2-,3/2)
149GD E 0.052 3 1.10 7 7.70 3 1.15 7
149GDS E EAV=483.9 18$CK=0.8000 5$CL=0.12005 8$CM+=0.03481 3
149GD G 390.3 13 3 [D,E2] 0.028 20 C
149GD2 G %IG=0.12 3
149GD G 413.3 1 14 1 [D,E2] 0.024 17 C
149GD2 G %IG=0.125 10
149GD G 432.5 2 8 2 [D,E2] 0.022 15 C
149GD2 G %IG=0.072 18
149GD G 740.2 1 45 2 C
149GD2 G %IG=0.403 20
149GD G 1205.20 8 43 4 C
149GD2 G %IG=0.38 4
149GD G 1392.3 3 6 2 C
149GD2 G %IG=0.054 18
149GD L 1597.29 11 (1/2,3/2,5/2-)
149GD E 0.011 2 0.26 4 8.31 7 0.27 4
149GDS E EAV=466.3 18$CK=0.8045 5$CL=0.12081 8$CM+=0.03504 3
149GD G 472.4 1 26 4 [D,E2] 0.017 12 C
149GD2 G %IG=0.23 4
149GD G 780.2 2.4 6 C
149GD2 G %IG=0.021 6
149GD G 1245.1 3 1 C
149GD2 G %IG=0.027 9
149GD L 1614.05 6 3/2+
149GD E 0.027 3 0.69 7 7.88 5 0.72 7
149GDS E EAV=458.9 18$CK=0.8062 5$CL=0.12111 8$CM+=0.03513 3
149GD G 446.7 6 3 2 C
149GD2 G %IG=0.027 18
149GD G 469.9 1.0 6 C
149GD2 G %IG=0.009 6
149GD G 587.2 6 2 C
149GD2 G %IG=0.054 18
149GD G 796.9 2 1 CC
149GD2 G %IG=0.018 9
149GD G 1261.7 2 13 2 C
149GD2 G %IG=0.116 18
149GD G 1449.10 8 106 4 E1 C
149GD2 G %IG=0.95 4
149GD2 G EKC<0.0009
149GDS G CC=0.000753 11$KC=0.000503 7$LC=6.48E-5 9$MC=1.389E-5 19
149GDS G NC=3.19E-6 4$OC=4.96E-7 7$PC=3.40E-8 5$IPC=0.0001680 24
149GD L 1655.19 6 (3/2)+
149GD E 0.0440 24 1.31 7 7.58 3 1.35 7
149GDS E EAV=440.9 18$CK=0.8102 4$CL=0.12183 7$CM+=0.03534 2
149GD G 252.3 1 10 2 [E1] 0.0247535 C
149GD2 G %IG=0.089 18
149GDS G KC=0.02101 29$LC=0.00294 4$MC=0.000634 9
149GDS G NC=0.0001447 20$OC=2.190E-5 31$PC=1.317E-6 18
149GD G 449.6 7 2 CC
149GD2 G %IG=0.063 18
149GD G 488.1 2 10 2 C
149GD2 G %IG=0.089 18
149GD G 628.4 2 9 2 C
149GD2 G %IG=0.081 18
149GD G 838.1 2 8 1 C
149GD2 G %IG=0.072 9
149GD G 1302.92 8 91 3 E1 C
149GD2 G %IG=0.81 4
149GD2 G EKC<0.00107
149GDS G CC=0.000777 11$KC=0.000604 8$LC=7.81E-5 11$MC=1.675E-5 23
149GDS G NC=3.85E-6 5$OC=5.98E-7 8$PC=4.07E-8 6$IPC=7.37E-5 10
149GD G 1490.3 2 20 3 C
149GD2 G %IG=0.18 3
149GD L 1750.59 9 (3/2-,5/2-)
149GD E 0.011 1 0.47 4 7.98 4 0.48 4
149GDS E EAV=399.0 18$CK=0.8182 3$CL=0.12329 6$CM+=0.03578 2
149GD G 347.7 15 2 [D,E2] 0.038 27 AC
149GD2 G %IG=0.134 18
149GD G 625.7 3 2 2 C
149GD2 G %IG=0.018 18
149GD G 723.8 12 2 CC
149GD2 G %IG=0.107 18
149GD G 1398.3 3 6 2 C
149GD2 G %IG=0.054 18
149GD G 1585.6 1 19 1 C
149GD2 G %IG=0.170 10
149GD G 1751.0 4 4 2 ?
149GD2 G %IG=0.036 18
149GD L 1772.83 5 (3/2+,1/2+)
149GD E 0.0305 16 1.44 7 7.49 3 1.47 7
149GDS E EAV=389.2 18$CK=0.8198 3$CL=0.12360 6$CM+=0.03587 2
149GD G 648.0 1 69 6 C
149GD2 G %IG=0.62 6
149GD G 746.0 1 34 2 C
149GD2 G %IG=0.304 19
149GD G 955.71 5 53 3 (E1) 1.24E-3 2 C
149GD2 G %IG=0.47 3
149GD2 G EKC=0.0018 7
149GDS G KC=0.001060 15$LC=0.0001387 19$MC=2.98E-5 4
149GDS G NC=6.84E-6 10$OC=1.059E-6 15$PC=7.12E-8 10
149GD cG M$|a(K)exp favors E1 over E2
149GD G 1420.6 1 10 1 C
149GD2 G %IG=0.089 10
149GD G 1772.8 2 2 S ?
149GD2 G %IG=0.018 18
149GD L 1844.31 7 (1/2-,3/2,5/2-)
149GD E 0.0080 6 0.52 4 7.89 4 0.53 4
149GDS E EAV=357.9 18$CK=0.8242 3$CL=0.12450 5$CM+=0.03614 2
149GD G 677.2 1 20 2 C
149GD2 G %IG=0.179 19
149GD G 817.5 7 2 CC
149GD2 G %IG=0.063 18
149GD G 1027.2 2 2 1 C
149GD2 G %IG=0.018 9
149GD G 1492.2 3 12 2 C
149GD2 G %IG=0.107 18
149GD G 1679.3 1 18 2 C
149GD2 G %IG=0.161 19
149GD L 1992.49 4 3/2-
149GD E 0.059 3 8.4 3 6.61 2 8.5 3
149GDS E EAV=292.9 18$CK=0.8305 2$CL=0.12600 4$CM+=0.03660 1
149GD G 219.7 1.2 6 [E1] 0.0355 5 C
149GD2 G %IG=0.011 6
149GDS G KC=0.0301 4$LC=0.00424 6$MC=0.000915 13
149GDS G NC=0.0002086 29$OC=3.14E-5 4$PC=1.858E-6 26
149GD G 378.5 1 14 2 [E1] 0.0090013 C
149GD2 G %IG=0.125 18
149GDS G KC=0.00767 11$LC=0.001049 15$MC=0.0002262 32
149GDS G NC=5.17E-5 7$OC=7.90E-6 11$PC=4.96E-7 7
149GD G 448.5 5 1 CC
149GD2 G %IG=0.045 9
149GD G 786.8 1 15 1 C
149GD2 G %IG=0.134 10
149GD G 825.4 7 2 C
149GD2 G %IG=0.063 18
149GD G 867.6 4.5 9 C
149GD2 G %IG=0.040 8
149GD G 965.63 5 60 3 C
149GD2 G %IG=0.54 3
149GD2 G EKC=0.0024 8
149GD cG M$|a(K)exp gives E2(+M1), |d<1.5 but |DJ|p requires E1
149GD G 1175.4 370 15M1 0.00312 4 CC
149GD2 G %IG=3.31 15
149GD2 G EKC=0.0030 3
149GDS G NC=1.780E-5 25$OC=2.78E-6 4$PC=1.914E-7 27$IPC=3.60E-6 5
149GDS G KC=0.00266 4$LC=0.000358 5$MC=7.73E-5 11
149GD cG M$from |a(K)exp; ce(K) contains some contribution from another
149GD2cG transition (2300 level to 1124 level)
149GD G 1640.26 6 360 10E2(+M1) 1 GT 0.0012711 C
149GD2 G %IG=3.22 11
149GD2 G EKC=0.00095 10
149GDS G KC=0.00097 9$LC=0.000130 11$MC=2.81E-5 24
149GDS G NC=6.5E-6 6$OC=1.00E-6 9$PC=6.8E-8 7$IPC=0.000130 5
149GD G 1827.5 124 6 M1(+E2) 1 LT 0.00128 8 SC
149GD2 G %IG=1.11 6
149GD2 G EKC=0.0012 3
149GDS G KC=0.00090 6$LC=0.000120 8$MC=2.58E-5 17
149GDS G NC=5.9E-6 4$OC=9.3E-7 6$PC=6.4E-8 5$IPC=0.000229 8
149GD cG M,MR$|a(K)exp agrees with mult=E3 also
149GD G 1992.5 2 2 S ?
149GD2 G %IG=0.018 18
149GD L 2088.47 9 (1/2-,3/2,5/2-)
149GD E 0.0008311 0.23 3 8.12 6 0.23 3
149GDS E EAV=250.7 18$CK=0.8328$CL=0.12676 3$CM+=0.03684 1
149GD G 685.6 2.2 8 C
149GD2 G %IG=0.020 8
149GD G 944.4 2 5 2 C
149GD2 G %IG=0.045 18
149GD G 963.6 4 2 C
149GD2 G %IG=0.036 18
149GD G 1061.6 1 7 1 C
149GD2 G %IG=0.063 9
149GD G 1736.3 2 6.5 9 C
149GD2 G %IG=0.058 9
149GD G 1923.4 1.1 6 C
149GD2 G %IG=0.010 6
149GD L 2126.6 7 (1/2-,3/2,5/2-)
149GD E 0.000358 0.13 3 8.3 1 0.13 3
149GDS E EAV=233.7 18$CK=0.8334$CL=0.12702 3$CM+=0.036921 9
149GD G 723.7 8 2 CC
149GD2 G %IG=0.072 18
149GD G 1001.7 3 LE CC ?
149GD2 G %IG LE 0.027
149GD G 1774.4 6 2 C
149GD2 G %IG=0.054 18
149GD L 2158.36 4 (3/2)+
149GD E 0.0089 5 4.31 15 6.80 2 4.32 15
149GDS E EAV=219.8 18$CK=0.8337$CL=0.12724 3$CM+=0.036990 9
149GD G 544.3 3 1 C
149GD2 G %IG=0.027 9
149GD G 614.2 1 19 2 C
149GD2 G %IG=0.170 19
149GD G 670.8 9 2 CC
149GD2 G %IG=0.081 18
149GD G 952.7 1 18 2 C
149GD2 G %IG=0.161 19
149GD G 1033.4 28 5 (M1) 0.00423 6 CC
149GD2 G %IG=0.25 5
149GD2 G EKC=0.0058 12
149GDS G NC=2.426E-5 34$OC=3.78E-6 5$PC=2.60E-7 4
149GDS G KC=0.00361 5$LC=0.000488 7$MC=0.0001054 15
149GD cG M$|a(K)exp gives M1 or M2+E3. The conversion electron line is
149GD2cG is unresolved from that of another |g, but probably dominated by this
149GD3cG transition.
149GD G 1131.65 7 89 3 (M1) 0.00341 5 C
149GD2 G %IG=0.80 4
149GD2 G EKC=0.0049
149GDS G KC=0.00291 4$LC=0.000392 5$MC=8.47E-5 12
149GDS G NC=1.950E-5 27$OC=3.04E-6 4$PC=2.095E-7 29$IPC=1.042E-6 15
149GD cG M$|a(K)exp gives M1 or M2+E3
149GD G 1341.19 6 260 10E1 C
149GD2 G %IG=2.33 10
149GD2 G EKC=0.00074 30
149GDS G CC=0.000765 11$KC=0.000575 8$LC=7.42E-5 10$MC=1.591E-5 22
149GDS G NC=3.65E-6 5$OC=5.68E-7 8$PC=3.88E-8 5$IPC=9.57E-5 13
149GD G 1806.0 1 50 3 C
149GD2 G %IG=0.45 3
149GD G 1993.3 6 2 CC
149GD2 G %IG=0.054 18
149GD L 2199.90 9 (1/2-,3/2,5/2-)
149GD E 0.000829 0.59 6 7.64 5 0.59 6
149GDS E EAV=201.4 18$CK=0.8340$CL=0.12750 3$CM+=0.037076 9
149GD G 797.0 2 1 CC
149GD2 G %IG=0.018 9
149GD G 994.3 4 1 C
149GD2 G %IG=0.036 9
149GD G 1032.8 10 3 CC
149GD2 G %IG=0.09 3
149GD G 1055.8 14 4 CC
149GD2 G %IG=0.13 4
149GD G 1075.0 1 8 1 C
149GD2 G %IG=0.072 9
149GD G 1847.7 9 1 C
149GD2 G %IG=0.081 10
149GD G 2034.8 19 3 CC
149GD2 G %IG=0.17 3
149GD L 2261.54 9 (3/2,1/2-)
149GD E 0.66 5 7.55 4 0.66 5
149GDS E CK=0.8342$CL=0.12787 3$CM+=0.037200 8
149GD G 774.0 1.8 9 C
149GD2 G %IG=0.016 8
149GD G 858.6 8 2 C
149GD2 G %IG=0.072 18
149GD G 1094.3 3 3 1 C
149GD2 G %IG=0.027 9
149GD G 1117.5 12 2 C
149GD2 G %IG=0.107 18
149GD G 1136.6 3 2 C
149GD2 G %IG=0.027 18
149GD G 1234.7 2 7.5 13 C
149GD2 G %IG=0.067 12
149GD G 1444.4 9 2 C
149GD2 G %IG=0.081 18
149GD G 1909.3 1 25 2 C
149GD2 G %IG=0.224 19
149GD G 2096.5 4 1 CC
149GD2 G %IG=0.036 9
149GD G 2261.5 3 3 S ?
149GD2 G %IG=0.03 3
149GD L 2300.72 6 (1/2-,3/2)
149GD E 1.16 6 7.28 3 1.16 6
149GDS E CK=0.8342$CL=0.12811 3$CM+=0.037278 8
149GD G 686.66 8 22 2 C
149GD2 G %IG=0.197 19
149GD G 1175.8 21 4 CC
149GD2 G %IG=0.19 4
149GD G 1273.9 1.6 8 C
149GD2 G %IG=0.014 8
149GD G 1483.6 1 27 3 C
149GD2 G %IG=0.24 3
149GD G 1948.5 1 46 2 C
149GD2 G %IG=0.412 20
149GD G 2135.7 2 12 2 C
149GD2 G %IG=0.107 18
149GD L 2314.1 7 (1/2-,3/2,5/2-)
149GD E 0.063 13 8.5 1 0.063 13
149GDS E CK=0.8341$CL=0.12819 3$CM+=0.037305 9
149GD G 1497.0 4 1 C
149GD2 G %IG=0.036 9
149GD G 2149.1 3 1 C
149GD2 G %IG=0.027 9
149GD L 2482.74 19 (1/2+,3/2,5/2-)
149GD E 0.22 4 7.9 1 0.22 4
149GDS E CK=0.8331$CL=0.12926 3$CM+=0.03767 1
149GD G 1277.0 4 2 C
149GD2 G %IG=0.036 18
149GD G 1338.6 5 2 C
149GD2 G %IG=0.045 18
149GD G 1357.8 1.3 8 C
149GD2 G %IG=0.012 8
149GD G 2130.5 2 14 2 C
149GD2 G %IG=0.125 18
149GD L 2503.71 20 (1/2-,3/2,5/2-)
149GD E 0.098 21 8.2 1 0.098 21
149GDS E CK=0.8329$CL=0.12942 3$CM+=0.03772 1
149GD G 2151.5 2 1 C
149GD2 G %IG=0.018 9
149GD G 2338.7 2 9 2 C
149GD2 G %IG=0.081 18
149GD L 2570.1 3 (1/2,3/2,5/2-)
149GD E 0.106 20 8.1 1 0.106 20
149GDS E CK=0.8322$CL=0.12994 4$CM+=0.03790 2
149GD G 1363.8 2.8 7 C
149GD2 G %IG=0.025 7
149GD G 1402.4 1.0 5 C
149GD2 G %IG=0.009 5
149GD G 1543.4 3 8 2 C
149GD2 G %IG=0.072 18
149GD L 2590.05 10 (1/2-,3/2)
149GD E 0.35 5 7.58 7 0.35 5
149GDS E CK=0.8319$CL=0.13010 4$CM+=0.03796 2
149GD G 1045.9 4 2 C
149GD2 G %IG=0.036 18
149GD G 1102.5 3 1 C
149GD2 G %IG=0.027 9
149GD G 1187.1 5 3 C
149GD2 G %IG=0.04 3
149GD G 1384.4 2 1 C
149GD2 G %IG=0.018 9
149GD G 1465.1 1.2 7 C
149GD2 G %IG=0.011 7
149GD G 1563.2 1.4 8 C
149GD2 G %IG=0.013 8
149GD G 1772.9 6 2 CC
149GD2 G %IG=0.054 18
149GD G 2237.8 1 17 2 C
149GD2 G %IG=0.152 19
149GD L 2599.31 9 (1/2-,3/2)
149GD E 0.49 4 7.43 4 0.49 4
149GDS E CK=0.8318$CL=0.13019 4$CM+=0.03799 2
149GD G 1055.1 3 1 CC
149GD2 G %IG=0.027 9
149GD G 1111.7 1.6 8 C
149GD2 G %IG=0.014 8
149GD G 1474.3 2 1 C
149GD2 G %IG=0.018 9
149GD G 1572.4 1.5 8 C
149GD2 G %IG=0.013 8
149GD G 1782.2 1 25 2 C
149GD2 G %IG=0.224 19
149GD G 2247.0 2 17 2 C
149GD2 G %IG=0.152 19
149GD G 2434.5 4 5 1 C
149GD2 G %IG=0.045 9
149GD L 2613.2 5 (1/2-,3/2)
149GD E 0.43 4 7.47 5
149GDS E CK=0.8317$CL=0.13031 4$CM+=0.03803 2
149GD G 620.7 8 2 C
149GD2 G %IG=0.072 18
149GD G 1488.3 7 2 C
149GD2 G %IG=0.063 18
149GD G 1586.4 4 1 C
149GD2 G %IG=0.036 9
149GD G 2261.0 16 2 CC
149GD2 G %IG=0.143 19
149GD G 2448.2 13 2 CC
149GD2 G %IG=0.116 18
149GD L 2683.42 9 (1/2+,3/2)
149GD E 0.47 4 7.37 4
149GDS E CK=0.8307$CL=0.13100 5$CM+=0.03827 2
149GD G 1069.6 3 1 C
149GD2 G %IG=0.027 9
149GD G 1139.5 4 1 C
149GD2 G %IG=0.036 9
149GD G 1477.7 2 8 2 C
149GD2 G %IG=0.072 18
149GD G 1539.6 4 6 2 C
149GD2 G %IG=0.054 18
149GD G 1558.5 1 11 2 C
149GD2 G %IG=0.098 18
149GD G 1656.8 21 2 CC
149GD2 G %IG=0.188 19
149GD L 2703.3 4 (1/2-,3/2,5/2-)
149GD E 0.088 21 8.1 1
149GDS E CK=0.8304$CL=0.13121 5$CM+=0.03834 2
149GD G 1497.6 1.8 7 C
149GD2 G %IG=0.016 7
149GD G 1536.2 3 1 C
149GD2 G %IG=0.027 9
149GD G 2538.3 4 5 2 C
149GD2 G %IG=0.045 18
149GD L 2757.20 9 (1/2,3/2)
149GD E 0.48 4 7.29 4
149GDS E CK=0.8296$CL=0.13185 5$CM+=0.03856 2
149GD G 1269.7 1.6 9 C
149GD2 G %IG=0.014 8
149GD G 1632.3 3 1 C
149GD2 G %IG=0.027 9
149GD G 1730.4 2.5 C
149GD2 G %IG=0.0224 5
149GD G 1940.1 1 35 3 C
149GD2 G %IG=0.31 3
149GD G 2404.9 2 11 2 C
149GD2 G %IG=0.098 18
149GD L 2768.0 4 (1/2+,3/2,5/2-)
149GD E 0.045 12 8.3 1
149GDS E CK=0.8294$CL=0.13198 6$CM+=0.03861 2
149GD G 1623.8 2.0 9 C
149GD2 G %IG=0.018 8
149GD G 2415.8 4 3 1 C
149GD2 G %IG=0.027 9
149GD L 2808.6 5 (1/2,3/2,5/2-)
149GD E 0.106 22 7.9 1
149GDS E CK=0.8287$CL=0.13253 6$CM+=0.03880 2
149GD G 1320.9 1.3 6 C
149GD2 G %IG=0.012 6
149GD G 1641.3 1.6 8 C
149GD2 G %IG=0.014 8
149GD G 1991.8 4 2 CC
149GD2 G %IG=0.036 18
149GD G 2456.2 5 1 CC
149GD2 G %IG=0.045 9
149GD L 2824.98 8 (1/2,3/2)-
149GD E 1.18 5 6.83 2
149GDS E CK=0.8283$CL=0.13277 6$CM+=0.03888 2
149GD G 1280.8 1 10 1 C
149GD2 G %IG=0.089 10
149GD G 1337.5 2.2 8 C
149GD2 G %IG=0.020 8
149GD G 1422.1 5 2 C
149GD2 G %IG=0.045 18
149GD G 1798.2 16 2 CC
149GD2 G %IG=0.143 19
149GD G 2007.9 1 88 3 E2(+M1) 2 GT 1.03E-3 3 C
149GD2 G %IG=0.79 4
149GD2 G EKC=0.00055 10
149GDS G KC=0.000625 19$LC=8.29E-5 25$MC=1.78E-5 5
149GDS G NC=4.10E-6 13$OC=6.38E-7 20$PC=4.35E-8 15$IPC=0.000295 6
149GD G 2472.7 2 11 2 C
149GD2 G %IG=0.098 18
149GD L 2830.6 10 (1/2,3/2,5/2-)
149GD E 0.024 8 8.5 2
149GDS E CK=0.82824 9$CL=0.13286 7$CM+=0.03891 3
149GD G 2478.3 2.7 8 C
149GD2 G %IG=0.024 8
149GD L 2861.8 5 (1/2-,3/2)
149GD E 0.13 3 7.7 1
149GDS E CK=0.82758 9$CL=0.13335 7$CM+=0.03908 3
149GD G 1656.2 2 1 CC
149GD2 G %IG=0.018 9
149GD G 1694.7 3 2 C
149GD2 G %IG=0.027 18
149GD G 1835.0 2.5 8 C
149GD2 G %IG=0.022 8
149GD G 2044.7 1.7 8 C
149GD2 G %IG=0.015 8
149GD G 2696.8 5 2 C
149GD2 G %IG=0.045 18
149GD L 2913.08 10 (1/2,3/2)
149GD E 0.46 4 7.13 4
149GDS E CK=0.8264 1$CL=0.13425 8$CM+=0.03939 3
149GD G 1368.9 5 1 C
149GD2 G %IG=0.045 9
149GD G 1425.6 3 7 2 C
149GD2 G %IG=0.063 18
149GD G 1707.5 3 3 1 C
149GD2 G %IG=0.027 9
149GD G 1788.1 3 1 C
149GD2 G %IG=0.027 9
149GD G 2560.8 1 33 2 C
149GD2 G %IG=0.295 19
149GD L 2918.2 7 (1/2-,3/2,5/2-)
149GD E 0.057 20 8.0 2
149GDS E CK=0.8262 1$CL=0.13435 8$CM+=0.03942 3
149GD G 1515.3 4 2 C
149GD2 G %IG=0.036 18
149GD G 2753.2 2.4 8 C
149GD2 G %IG=0.021 8
149GD L 2922.7 3 (1/2,3/2)
149GD E 0.116 19 7.7 1
149GDS E CK=0.8261 1$CL=0.13444 8$CM+=0.03945 3
149GD G 1755.6 2.3 2 C
149GD2 G %IG=0.0206 19
149GD G 1895.9 0.7 4 C
149GD2 G %IG=0.006 4
149GD G 2105.6 3 10 2 C
149GD2 G %IG=0.089 18
149GD L 2961.5 7 (1/2-,3/2,5/2-)
149GD E 0.047 12 8.1 1
149GDS E CK=0.8250 2$CL=0.13525 9$CM+=0.03973 4
149GD G 1755.8 2.3 9 C
149GD2 G %IG=0.021 8
149GD G 2796.5 3 1 CC
149GD2 G %IG=0.027 9
149GD G 2961.4 3 LT S ?
149GD2 G %IG LT 0.027
149GD L 2977.72 19 (1/2-,3/2)
149GD E 0.20 3 7.40 7
149GDS E CK=0.8245 2$CL=0.1356 1$CM+=0.03986 4
149GD G 1574.8 6 2 C
149GD2 G %IG=0.054 18
149GD G 1810.6 2 7 1 C
149GD2 G %IG=0.063 9
149GD G 1852.8 2 1 C
149GD2 G %IG=0.018 9
149GD G 1950.9 1.6 8 C
149GD2 G %IG=0.014 8
149GD G 2160.6 2.3 9 C
149GD2 G %IG=0.021 8
149GD G 2812.7 4 1 C
149GD2 G %IG=0.036 9
149GD L 2999.64 7 (3/2)
149GD E 1.25 6 6.58 3
149GDS E CK=0.8238 2$CL=0.1361 1$CM+=0.04004 4
149GD G 1344.5 2 1 C
149GD2 G %IG=0.018 9
149GD G 1402.4 0.9 5 C
149GD2 G %IG=0.008 5
149GD G 1512.1 2 9 2 C
149GD2 G %IG=0.081 18
149GD G 1651.0 0.8 5 C
149GD2 G %IG=0.007 5
149GD G 1794.1 1.7 8 C
149GD2 G %IG=0.015 8
149GD G 1855.6 3 2 C
149GD2 G %IG=0.027 18
149GD G 1874.6 1 30 2 C
149GD2 G %IG=0.268 19
149GD G 1972.9 2 18 2 C
149GD2 G %IG=0.161 19
149GD G 2182.6 1 48 3 C
149GD2 G %IG=0.43 3
149GD G 2647.6 23 1 C
149GD2 G %IG=0.206 10
149GD G 2834.7 3 1 C
149GD2 G %IG=0.027 9
149GD L 3003.4 5 (1/2-,3/2)
149GD E 0.17 4 7.4 1
149GDS E CK=0.8237 2$CL=0.1362 1$CM+=0.04008 4
149GD G 1797.8 2 1 C
149GD2 G %IG=0.018 9
149GD G 1878.5 8 2 C
149GD2 G %IG=0.072 18
149GD G 1976.6 3 2 C
149GD2 G %IG=0.027 18
149GD G 2186.3 3 2 C
149GD2 G %IG=0.027 18
149GD G 2838.4 3 2 C
149GD2 G %IG=0.027 18
149GD L 3021.06 18 (3/2)
149GD E 0.34 4 7.11 6
149GDS E CK=0.8231 2$CL=0.1367 1$CM+=0.04024 4
149GD G 1366.0 2 1 C
149GD2 G %IG=0.018 9
149GD G 1877.1 3 2 C
149GD2 G %IG=0.027 18
149GD G 1896.3 2.6 9 C
149GD2 G %IG=0.023 8
149GD G 1994.4 3 1 C
149GD2 G %IG=0.027 9
149GD G 2204.1 3 1 C
149GD2 G %IG=0.027 9
149GD G 2669.1 15 2 C
149GD2 G %IG=0.134 18
149GD G 2856.0 2 9 2 C
149GD2 G %IG=0.081 18
149GD L 3057.0 4 (1/2-,3/2)
149GD E 0.031 10 8.1 2
149GDS E CK=0.8217 2$CL=0.1377 2$CM+=0.04060 5
149GD G 2892.0 4 3.5 11 C
149GD2 G %IG=0.031 10
149GD L 3070.8 7 (1/2-,3/2)
149GD E 0.043 10 7.9 1
149GDS E CK=0.8211 2$CL=0.1382 2$CM+=0.04075 5
149GD G 2253.7 2.9 8 C
149GD2 G %IG=0.026 8
149GD G 2905.8 1.9 7 C
149GD2 G %IG=0.017 7
149GD L 3079.8 3 (1/2,3/2)
149GD E 0.063 18 7.8 1
149GDS E CK=0.8207 2$CL=0.1385 2$CM+=0.04085 5
149GD G 1912.7 3 7 2 C
149GD2 G %IG=0.063 18
149GD L 3099.76 10 (1/2-,3/2)
149GD E 0.51 4 6.81 4
149GDS E CK=0.8197 2$CL=0.13918 15$CM+=0.04109 6
149GD G 2073.0 3 1 C
149GD2 G %IG=0.027 9
149GD G 2282.6 1 43 3 C
149GD2 G %IG=0.38 3
149GD G 2935.1 3 11 2 C
149GD2 G %IG=0.098 18
149GD L 3124.06 10 (1/2,3/2)
149GD E 0.181 21 7.21 6
149GDS E CK=0.8185 3$CL=0.14011 17$CM+=0.04142 6
149GD G 1918.4 1.2 6 C
149GD2 G %IG=0.011 6
149GD G 2097.1 4 1 CC
149GD2 G %IG=0.036 9
149GD G 2771.8 1 15 2 C
149GD2 G %IG=0.134 18
149GD G 2959.0 3 LE SC ?
149GD2 G %IG=0.013 14
149GD L 3149.4 6 (1/2,3/2)
149GD E 0.064 13 7.6 1
149GDS E CK=0.8170 3$CL=0.14120 19$CM+=0.04179 7
149GD G 1943.7 0.6 4 C
149GD2 G %IG=0.005 4
149GD G 2024.4 1.6 9 C
149GD2 G %IG=0.014 8
149GD G 2797.1 5 1 CC
149GD2 G %IG=0.045 9
149GD L 3175.59 15 (1/2-,3/2)
149GD E 0.35 4 6.83 6
149GDS E CK=0.8153 3$CL=0.14247 21$CM+=0.04223 8
149GD G 1772.7 2 1 CC
149GD2 G %IG=0.018 9
149GD G 1826.9 1.0 4 CC
149GD2 G %IG=0.009 4
149GD G 1970.0 4 1 C
149GD2 G %IG=0.036 9
149GD G 2008.5 3 2 C
149GD2 G %IG=0.027 18
149GD G 2050.7 4 5 2 C
149GD2 G %IG=0.045 18
149GD G 2148.8 4 1 C
149GD2 G %IG=0.036 9
149GD G 2358.5 0.8 5 C
149GD2 G %IG=0.007 5
149GD G 2823.3 2 9 2 C
149GD2 G %IG=0.081 18
149GD G 3010.6 3 10 2 C
149GD2 G %IG=0.089 18
149GD L 3201.4 4 (3/2,1/2-)
149GD E 0.19 4 7.0 1
149GDS E CK=0.8134 4$CL=0.14388 24$CM+=0.04272 9
149GD G 1657.3 2.4 9 CC
149GD2 G %IG=0.021 8
149GD G 1798.5 3 2 CC
149GD2 G %IG=0.027 18
149GD G 2034.3 5 3 CC
149GD2 G %IG=0.04 3
149GD G 2076.4 4 1 C
149GD2 G %IG=0.036 9
149GD G 2384.3 1.6 6 C
149GD2 G %IG=0.014 6
149GD G 2849.2 1.8 7 C
149GD2 G %IG=0.016 7
149GD G 3036.4 5 3 1 C
149GD2 G %IG=0.027 9
149GD G 3201.2 2 LT S ?
149GD2 G %IG LT 0.018
149GD L 3206.43 23 (3/2)
149GD E 0.25 4 6.91 7
149GDS E CK=0.8130 4$CL=0.14418 25$CM+=0.04283 9
149GD G 1592.4 5 2 C
149GD2 G %IG=0.045 18
149GD G 1662.3 2 1 C
149GD2 G %IG=0.018 9
149GD G 1718.9 1.0 6 C
149GD2 G %IG=0.009 6
149GD G 1803.5 1.7 9 C
149GD2 G %IG=0.015 8
149GD G 2000.8 2 1 C
149GD2 G %IG=0.018 9
149GD G 2062.3 1.1 7 C
149GD2 G %IG=0.010 7
149GD G 2179.6 5 1 C
149GD2 G %IG=0.045 9
149GD G 2389.3 3 5 1 C
149GD2 G %IG=0.045 9
149GD G 2854.2 3 1 C
149GD2 G %IG=0.027 9
149GD G 3041.4 2 1 C
149GD2 G %IG=0.018 9
149GD L 3231.2 3 (1/2-,3/2)
149GD E 0.078 19 7.4 1
149GDS E CK=0.8108 4$CL=0.1458 3$CM+=0.04338 10
149GD G 2414.0 0.8 5 C
149GD2 G %IG=0.007 5
149GD G 2878.9 3 7 2 C
149GD2 G %IG=0.063 18
149GD G 3066.1 0.9 5 C
149GD2 G %IG=0.008 5
149GD L 3258.4 6 (1/2,3/2)
149GD E 0.047 11 7.5 1
149GDS E CK=0.8081 5$CL=0.1478 4$CM+=0.04409 12
149GD G 2231.5 2.4 6 C
149GD2 G %IG=0.021 6
149GD G 2441.3 1.5 7 C
149GD2 G %IG=0.013 7
149GD G 2906.1 1.4 7 C
149GD2 G %IG=0.013 7
149GD L 3272.9 6 (1/2,3/2)
149GD E 0.048 13 7.5 1
149GDS E CK=0.8065 5$CL=0.1490 4$CM+=0.04451 13
149GD G 2246.1 1.4 7 C
149GD2 G %IG=0.013 7
149GD G 2455.8 3 1 CC
149GD2 G %IG=0.027 9
149GD G 2920.7 1.0 6 C
149GD2 G %IG=0.009 6
149GD L 3294.9 10 (1/2,3/2)
149GD E 0.028 8 7.6 1
149GDS E CK=0.8036 6$CL=0.1511 5$CM+=0.04524 15
149GD G 2942.6 3.1 8 C
149GD2 G %IG=0.028 8
149GD L 3313.62 16 (3/2-)
149GD E 1.18 6 5.95 3
149GDS E CK=0.8009 7$CL=0.1532 5$CM+=0.04596 17
149GD G 1699.5 3 1 C
149GD2 G %IG=0.027 9
149GD G 1769.4 2 1 C
149GD2 G %IG=0.018 9
149GD G 1826.0 9 2 CC
149GD2 G %IG=0.081 18
149GD G 2108.2 3 9 2 C
149GD2 G %IG=0.081 18
149GD G 2188.6 3 1 C
149GD2 G %IG=0.027 9
149GD G 2496.4 2 11 2 C
149GD2 G %IG=0.098 18
149GD G 2961.3 93 4 (M1,E2) 0.00116 7 C
149GD2 G %IG=0.83 4
149GD2 G EKC=0.00042 10
149GDS G KC=0.000318 14$LC=4.15E-5 21$MC=8.9E-6 4
149GDS G NC=2.05E-6 10$OC=3.20E-7 17$PC=2.23E-8 12$IPC=0.00079 6
149GD cG M$|a(K)exp gives M1, E2 or E3
149GD G 3148.5 1.6 6 C
149GD2 G %IG=0.014 6
149GD L 3319.0 4 (1/2-,3/2)
149GD E 0.080 20 7.1 1
149GDS E CK=0.8000 7$CL=0.1538 5$CM+=0.04618 18
149GD G 1916.1 4 2 C
149GD2 G %IG=0.036 18
149GD G 2966.8 2.2 7 C
149GD2 G %IG=0.020 7
149GD G 3154.0 5 2.7 7 C
149GD2 G %IG=0.024 7
149GD L 3340.6 6 (1/2+,3/2)
149GD E 0.048 11 7.3 1
149GDS E CK=0.7961 8$CL=0.1567 6$CM+=0.04719 21
149GD G 2135.0 1.4 7 C
149GD2 G %IG=0.013 7
149GD G 2196.5 2.1 7 C
149GD2 G %IG=0.019 7
149GD G 2523.5 1.9 7 C
149GD2 G %IG=0.017 7
149GD L 3365.23 19 (3/2)
149GD E 0.277 24 6.41 5
149GDS E CK=0.7908 10$CL=0.1606 8$CM+=0.0486 3
149GD G 1877.7 2 1 C
149GD2 G %IG=0.018 9
149GD G 2221.1 1.0 6 C
149GD2 G %IG=0.009 6
149GD G 2548.1 3 1 C
149GD2 G %IG=0.027 9
149GD G 3200.2 2 25 2 C
149GD2 G %IG=0.224 19
149GD L 3384.7 10 (1/2,3/2)
149GD E 0.033 8 7.3 1
149GDS E CK=0.7857 13$CL=0.1644 9$CM+=0.0499 4
149GD G 3032.4 3.7 8 C
149GD2 G %IG=0.033 8
149GD L 3403.4 5 (1/2-,3/2)
149GD E 0.110 18 6.7 1
149GDS E CK=0.7797 15$CL=0.1688 11$CM+=0.0515 4
149GD G 1859.3 3 1 C
149GD2 G %IG=0.027 9
149GD G 1915.8 3 1 C
149GD2 G %IG=0.027 9
149GD G 2586.3 3 1 C
149GD2 G %IG=0.027 9
149GD G 3051.2 1.8 7 C
149GD2 G %IG=0.016 7
149GD G 3238.4 1.5 5 C
149GD2 G %IG=0.013 5
149GD L 3418.8 5 (1/2-,3/2)
149GD E 0.058 13 6.9 1
149GDS E CK=0.7738 18$CL=0.1732 13$CM+=0.0530 5
149GD G 1931.0 1.2 6 C
149GD2 G %IG=0.011 6
149GD G 2212.9 2.2 7 C
149GD2 G %IG=0.020 7
149GD G 3066.3 1.6 7 C
149GD2 G %IG=0.014 7
149GD G 3254.5 1.5 7 C
149GD2 G %IG=0.013 7
149GD L 3431.4 4 (1/2-,3/2)
149GD E 0.041 10 6.9 1
149GDS E CK=0.7681 21$CL=0.1774 15$CM+=0.0545 6
149GD G 3078.9 3 1 C
149GD2 G %IG=0.027 9
149GD G 3266.4 4 1.6 4 C
149GD2 G %IG=0.014 4
149GD L 3442.8 6 (1/2,3/2)
149GD E 0.033 9 7.0 1
149GDS E CK=0.7621 24$CL=0.1818 18$CM+=0.0561 7
149GD G 2317.9 1.9 7 C
149GD2 G %IG=0.017 7
149GD G 2625.7 1.0 5 C
149GD2 G %IG=0.009 5
149GD G 3090.6 0.8 4 C
149GD2 G %IG=0.007 4
149GD L 3466.8 6 (1/2-,3/2)
149GD E 0.026 8 6.9 2
149GDS E CK=0.746 4$CL=0.194 3$CM+=0.0604 9
149GD G 2440.0 0.7 4 C
149GD2 G %IG=0.006 4
149GD G 2649.7 1.0 5 C
149GD2 G %IG=0.009 5
149GD G 3301.8 1.2 6 C
149GD2 G %IG=0.011 6
149GD L 3473.2 3 (1/2-,3/2)
149GD E 0.097 20 6.3 1
149GDS E CK=0.740 4$CL=0.198 3$CM+=0.0618 10
149GD G 2446.4 0.7 4 C
149GD2 G %IG=0.006 4
149GD G 2656.1 1.1 6 C
149GD2 G %IG=0.010 6
149GD G 3308.2 3 9 2 C
149GD2 G %IG=0.081 18
149GD L 3486.2 5 (1/2,3/2)
149GD E 0.027 7 6.8 1
149GDS E CK=0.727 5$CL=0.208 4$CM+=0.0653 13
149GD G 2319.0 1.1 5 C
149GD2 G %IG=0.010 5
149GD G 3133.9 5 1.9 5 C
149GD2 G %IG=0.017 5
149GD L 3500.0 7 (1/2-,3/2)
149GD E 0.017 5 6.9 2
149GDS E CK=0.709 7$CL=0.221 5$CM+=0.0702 18
149GD G 3147.8 0.9 4 C
149GD2 G %IG=0.008 4
149GD G 3335.0 1.0 3 C
149GD2 G %IG=0.009 3
149GD L 3516.2 4 (1/2,3/2)
149GD E 0.0224 5 6.59 5
149GDS E CK=0.679 10$CL=0.243 7$CM+=0.078 3
149GD G 3163.9 4 2.5 C
149GD2 G %IG=0.0224 5
149GD L 3535.1 4 (3/2+)
149GD E 0.055 11 6.0 1
149GDS E CK=0.622 17$CL=0.284 13$CM+=0.093 5
149GD G 2508.3 0.7 4 C
149GD2 G %IG=0.006 4
149GD G 2718.0 0.7 4 C
149GD2 G %IG=0.006 4
149GD G 3182.8 4 4 1 C
149GD2 G %IG=0.036 9
149GD G 3370.1 0.8 4 C
149GD2 G %IG=0.007 4
149GD L 3543.9 4 (1/2-,3/2)
149GD E 0.015 6 6.4 2
149GDS E CK=0.582 24$CL=0.314 17$CM+=0.104 7
149GD G 3378.9 4 1.7 6 C
149GD2 G %IG=0.015 6