149TB 149DY EC DECAY (4.2 M) 2019MEZX 22NDS 202210
149TB H TYP=FUL$AUT=Balraj Singh and Jun Chen$CIT=NDS 185, 2 (2022)$
149TB2 H CUT=23-Aug-2022$
149TB c 2019MeZX (also 1993MeZX,1992MeZX,1990MeZY): {+149}Dy source was
149TB2c produced via Gd({+3}He,xn) with E({+3}He)=240 MeV and separated using
149TB3c Orsay ISOCELE II on-line mass separator. |g rays were detected with Ge
149TB4c detectors and conversion electrons were detected with a broad-range
149TB5c 2|p-deflection magnetic electron selector combined with a Si(Li)
149TB6c spectrometer. Measured E|g, I|g, |g|g-coin, E(ce), I(ce). Deduced
149TB7c levels, J|p, conversion coefficients, |g-ray multipolarities, decay
149TB8c branching ratios, log {Ift}. Comparisons with shell-model calculations.
149TB c Others:
149TB c 1990Sa32: |g, |g|g, |g(t), Q(|e) (from |b{++}|g). 76 |g rays reported.
149TB2c Hahn-Meitner-Institut in Berlin.
149TB c 1981ZuZZ: |g, |g|g. 52 |g rays reported. JINR.
149TB c 1975To03: |g, |g|g. Only the most intense 11 |g rays reported. ORNL.
149TB c 2003Li42: fully-ionized atoms of {+149}Dy g.s. detected but no
149TB2c half-life measured. Predicted T{-1/2}=40 min, since %|e=0
149TB c |g: 1978Ma19, 1974La28
149TB c ce, |g ce(t): 1978Ma19
149TB c |b: 1985Al30, 1985Al13. |b branches reported to the following levels:
149TB2c 300 (2%), 700 (1%), 900 (2.7%), 1100 (1.3%), 1840 (85%),
149TB3c 2500 (3.1%), 2800 (2.1%), 3000 (1.9%), 3300 (0.7%)
149TB c |b{++}|g coin: 1984Ve16
149TB c Q(|e): 1993Al03 (total |g absorption), 1991Ke11 (|b{++} spectra),
149TB2c 1990Sa32, 1984Al36, 1985Al30, 1985Al13
149TB c |b-strength functions: 1985Al30 (also 1985Al13). Theory: 1984Al31
149TB c T{-1/2}({+149}Dy isotope): 1993Al03, 1975To03, 1974La28, 1973Bi06,
149TBxc 1959To27, 1958To27
149TB c Total decay energy deposit of 3857 keV {I67} calculated by RADLIST
149TB2c code is in general agreement with expected value of 3793 keV {I9},
149TB3c indicating the completeness of the decay scheme.
149TB cE TI$Deduced by evaluators from I(|g+ce) balance at each level
149TB cE LOGFT(F)$Too low for suggested J|p change. There may be other
149TB2cE |g transitions feeding this level
149TB cG $I|g(|g{+|+})=9.0 {I9} (1981ZuZZ). This gives a total |b{++}
149TB2cG branch of |?4.5% which is consistent with the present level scheme
149TB cG $The ce data given under comments are from 2019MeZX, unless otherwise
149TB2cG noted.
149TB cG E,RI$All values are taken from the most complete study by 2019MeZX for
149TB2cG internal consistency, unless otherwise noted. Values are also available
149TB3cG from 1990Sa32 for 76 transitions, but are much less complete than
149TB4cG those in 2019MeZX; they are given under comments where available, with
149TB5cG intensities being renormalized by the evaluators relative to
149TB6cG I|g(1776.2|g)=11.66 in 2019MeZX from original values relative to
149TB7cG I|g(100.7|g)=100. The I|g(100.7|g) is not chosen as the normalization
149TB8cG reference due to the poorly-known efficiency curve within the low
149TB9cG energy range. Values from 1981ZuZZ are considered as preliminary and
149TBAcG are not listed.
149TB cG E(F),RI(F)$Transition observed only in coincidence spectra (2019MeZX)
149TB cG M,MR$From the Adopted Gammas. Assignments are from or supported by ce
149TB2cG data in 2019MeZX, which are given under comments where available. For
149TB3cG Mult=M1+E2 only available from {+149}Dy |e decay (4.2 m), adopted |d is
149TB4cG deduced by the evaluators from |a(K)exp and/or |a(L)exp using the
149TB5cG BrIccMixing code.
149TB cG M(D)$ce data for strongest component of a complex Tb line (2019MeZX)
149TB cG M(E)$ce data for weak component of a complex Tb line (2019MeZX)
149TB cG M(H)$ce data for component of a complex Tb line (2019MeZX)
149TB cL E$From a least-squares fit to |g-ray energies
149TB cL J,T$From the Adopted Levels. Values from this study are as noted or
149TB2cL given under comments if different. The adopted assignments are from
149TB3cL shell-model predictions by 2019MeZX if no other arguments are given
149TB4cL in the Adopted Levels
149TB cL T(A)$Adopted values from (ce)|g(t) in 1978Ma19
149DY P 0 7/2- 4.2 M 2 3795 9
149DY cP J,T$From {+149}Dy Adopted Levels
149DY cP QP$From 2021Wa16
149TB N 1.0 1.0 1.0
149TB cN NR$Listed intensities of |g rays are per 100 decays.
149TB PN 3
149TB G 1246.8 4 0.30 7
149TB cG E,RI$from 1981ZuZZ only
149TB L 0.0 1/2+ 4.12 H 3
149TB L 35.75 8 11/2- 4.17 M 5 M
149TB2 L %EC+%B+=99.978 4 $ %A=0.022 4
149TB cL $Decay modes from the Adopted Levels
149TB L 100.75 7 3/2+ 0.45 NS 5 A
149TB E 0.9 LT 3 LT 7.7 GT 4 LT 1U?
149TBS E EAV=1205.7 40$CK=0.6420 17$CL=0.0977 3$CM+=0.02862 8
149TB G 100.7 1 15.3 8 M1 2.153 31
149TBS G KC=1.815 26$LC=0.265 4$MC=0.0578 8
149TBS G NC=0.01336 19$OC=0.002057 29$PC=0.0001352 19
149TB cG E,RI$others: 100.8 {I2}, with I|g=17.8 (1990Sa32); 100.8 {I1}, with
149TB2cG I|g=14.9 (1975To03); 100.8 {I4}, with I|g=14.8 (1981ZuZZ)
149TB cG M$|a(K)exp=1.80 {I20}, |a(L)exp=0.28 {I4} (2019MeZX);
149TB2cG from |a(K)exp/|a(L)exp=5.5 {I15}, |d(E2/M1)<0.98 (1978Ma19).
149TB L 206.91 7 5/2+ 0.2 NS LE A
149TB G 106.2 1 8.3 2 M1 1.849 26
149TBS G KC=1.559 22$LC=0.2271 32$MC=0.0496 7
149TBS G NC=0.01147 16$OC=0.001766 25$PC=0.0001161 17
149TB cG E,RI$others: 106.2 {I2}, with I|g=10.1 {I7} (1990Sa32); 106.3 {I1},
149TB2cG with I|g=7.6 {I4} (1975To03); 106.4 {I4}, with I|g=7.7 {I7} (1981ZuZZ)
149TB cG M$|a(K)exp=1.54 {I16}, |a(L)exp=0.21 {I5} (2019MeZX);
149TB2cG from |a(K)exp/|a(L)exp=5 {I2} (1978Ma19), |d(E2/M1)<1.4.
149TB L 460.49 8 7/2+
149TB E 0.2 LT 0.4 LT 6.8 GT 0.6 LT
149TBS E EAV=1045.3 41$CK=0.5426 23$CL=0.0807 4$CM+=0.02357 11
149TB G 253.6 1 6.78 20M1+E2 0.5 +3-4 0.152 11
149TBS G NC=0.001027 32$OC=0.0001547 24$PC=9.1E-6 11
149TBS G KC=0.126 12$LC=0.0202 5$MC=0.00446 16
149TB cG E,RI$others: 253.6 {I2}, with I|g=8.1 {I6} (1990Sa32); 253.4 {I1}, with
149TB2cG I|g=7.4 {I8} (1975To03); 253.3 {I4}, with I|g=7.2 {I7} (1981ZuZZ)
149TB cG M$|a(K)exp=0.125 {I12}, |a(L)exp=0.020 {I2}
149TB G 359.6 2 0.65 8 E2 0.0362 5 D
149TBS G NC=0.000321 5$OC=4.57E-5 6$PC=1.815E-6 26
149TBS G KC=0.0282 4$LC=0.00622 9$MC=0.001409 20
149TB cG E,RI$others: 359.8 {I5}, with I|g=0.45 {I9} (1990Sa32);
149TB2cG 359.4 {I4}, with I|g=0.59 {I6} (1981ZuZZ, unplaced)
149TB cG M$|a(K)exp|?0.033 {I3}
149TB L 689.32 8 7/2-
149TB E 0.2 1 0.6 4 6.6 3 0.8 5
149TBS E EAV=941.7 41$CK=0.6008 23$CL=0.0895 4$CM+=0.02616 11
149TB G 653.6 1 9.1 4 E2 0.0074510 D
149TBS G KC=0.00615 9$LC=0.001014 14$MC=0.0002244 31
149TBS G NC=5.15E-5 7$OC=7.67E-6 11$PC=4.19E-7 6
149TB cG E,RI$others: 653.7 {I4}, with I|g=9.5 {I8} (1990Sa32); 653.6 {I1}, with
149TB2cG I|g=8.9 {I9} (1975To03); 653.2 {I4}, with I|g=8.9 {I9} (1981ZuZZ) for a
149TB3cG composite line. Parent level not proposed in 1981ZuZZ; 653.2|g placed
149TB3cG from 755 level
149TB cG M$|a(K)exp|?0.0068 {I5}
149TB L 741.64 7 5/2+
149TB E 0.2 1 0.5 3 6.6 3 0.7 4
149TBS E EAV=918.1 41$CK=0.6141 23$CL=0.0916 4$CM+=0.02675 11
149TB G 534.7 1 1.0 2 M1(+E2) 0.4 4 0.0216 28
149TBS G KC=0.0183 25$LC=0.00261 25$MC=0.00057 5
149TBS G NC=0.000132 12$OC=2.02E-5 20$PC=1.33E-6 19
149TB cG E,RI$others: 534.8 {I5}, with I|g=1.14 {I18} (1990Sa32);
149TB2cG 534.7 {I4}, with I|g=0.74 {I7} (1981ZuZZ)
149TB cG M,MR$|a(K)exp=0.018 {I2}
149TB G 640.8 1 0.73 2 M1+E2 1.1 +4-3 0.0109 11
149TBS G KC=0.0092 10$LC=0.00137 11$MC=0.000300 22
149TBS G NC=6.9E-5 5$OC=1.05E-5 9$PC=6.5E-7 7
149TB cG E,RI$other: 641.0 {I5}, with I|g=0.55 {I13} (1990Sa32)
149TB cG M,MR$|a(K)exp=0.0091 {I8}
149TB G 741.7 1 2.40 20E2 0.00555 8
149TBS G KC=0.00461 6$LC=0.000730 10$MC=0.0001609 23
149TBS G NC=3.70E-5 5$OC=5.54E-6 8$PC=3.16E-7 4
149TB cG E,RI$others: 741.8 {I3}, with I|g=2.53 {I18} (1990Sa32); 741.7 {I1},
149TB2cG I|g=2.6 {I4} (1975To03); 741.9 {I4}, with I|g=2.3 {I3} (1981ZuZZ)
149TB cG M$|a(K)exp=0.0050 {I5}
149TB L 754.92 9 5/2+
149TB E 0.032 LT 0.088 LT 7.4 GT 0.12 LT
149TBS E EAV=912.2 41$CK=0.6174 23$CL=0.0921 4$CM+=0.02689 11
149TB G 654.1 2 0.81 12 (M1) 0.0139320 E
149TBS G KC=0.01183 17$LC=0.001644 23$MC=0.000357 5
149TBS G NC=8.26E-5 12$OC=1.278E-5 18$PC=8.60E-7 12
149TB cG E,RI$other: 653.7 {I4}, with I|g=1.62 {I22} (1990Sa32);
149TB2cG 653.2 {I4}, with I|g=8.9 {I9} (1981ZuZZ) for a composite line.
149TB3cG See also 653.6|g from 689 level
149TB cG M$|a(K)exp|?0.0068 {I5} gives (M1,E2); M1 preferred by level scheme
149TB G 754.8 2 0.55 3 E2 0.00533 7
149TBS G KC=0.00444 6$LC=0.000698 10$MC=0.0001538 22
149TBS G NC=3.54E-5 5$OC=5.31E-6 7$PC=3.05E-7 4
149TB cG E,RI$others: 754.5 {I5}, with I|g=1.19 {I9} (1990Sa32, probably
149TB2cG doublet); 754.8 {I4}, with I|g=0.59 {I6} (1981ZuZZ)
149TB cG M$|a(K)exp=0.0052 {I9}
149TB L 825.12 9 9/2-
149TB E 1.8 1 5.7 4 5.56 4 7.5 5
149TBS E EAV=880.6 41$CK=0.6349 23$CL=0.0947 4$CM+=0.02768 10
149TB G 135.7 1 0.148 10M1 0.921 13
149TBS G KC=0.777 11$LC=0.1127 16$MC=0.02463 35
149TBS G NC=0.00569 8$OC=0.000877 12$PC=5.78E-5 8
149TB cG E,RI$other: 135.7 {I5}, with I|g=0.18 {I5} (1990Sa32)
149TB cG M$|a(K)exp=1.05 {I20}
149TB G 789.4 1 11.58 40M1 0.0087512 D
149TBS G KC=0.00744 10$LC=0.001027 14$MC=0.0002231 31
149TBS G NC=5.16E-5 7$OC=7.98E-6 11$PC=5.39E-7 8
149TB cG E,RI$others: 789.4 {I2}, with I|g=13.9 {I10} (1990Sa32); 789.4 {I1},
149TB2cG I|g=9.7 {I10} (1975To03); 789.5 {I4}, with I|g=9.6 {I10} (1981ZuZZ,
149TB3cG unplaced)
149TB cG M$|a(K)exp|?0.0079 {I5}
149TB L 837.16 9 5/2+
149TB E 0.06 4 0.18 14 7.1 4 0.24 18
149TBS E EAV=875.1 41$CK=0.6379 23$CL=0.0952 4$CM+=0.02781 10
149TB G 376.6 2 0.081 14M1 0.0570 8
149TBS G NC=0.000344 5$OC=5.32E-5 7$PC=3.55E-6 5
149TBS G KC=0.0483 7$LC=0.00684 10$MC=0.001489 21
149TB cG M$|a(K)exp=0.08 {I4}
149TB G 736.4 1 2.40 7 M1 0.0103815 D
149TBS G KC=0.00882 12$LC=0.001221 17$MC=0.000265 4
149TBS G NC=6.14E-5 9$OC=9.49E-6 13$PC=6.40E-7 9
149TB cG E,RI$others: 736.4 {I3}, with I|g=2.6 {I3} (1990Sa32); 736.5 {I1}, with
149TB2cG I|g=2.9 {I5} (1975To03) for a composite line;
149TB3cG 736.6 {I4}, with I|g=2.8 {I3} (1981ZuZZ)
149TB cG M$|a(K)exp|?0.0089 {I7}
149TB G 837.1 3 0.30 6
149TB cG E,RI$other: 836.8 {I4}, with I|g=3.7 {I4} (1981ZuZZ)
149TB L 840.71 11 13/2-
149TB E 0.02 LT 0.06 LT 7.5 GT 0.08 LT ?
149TBS E EAV=873.5 41$CK=0.6387 23$CL=0.0953 4$CM+=0.02785 10
149TB G 805.0 1 0.54 3 M1+E2 0.8 +4-3 0.0069 8
149TBS G KC=0.0058 7$LC=0.00083 8$MC=0.000181 17
149TBS G NC=4.2E-5 4$OC=6.4E-6 6$PC=4.2E-7 5
149TB cG M,MR$|a(K)exp=0.0059 {I6}
149TB L 844.16 9 7/2+
149TB E 0.13 4 0.40 11 6.71 13 0.53 15
149TBS E EAV=872.0 41$CK=0.6396 23$CL=0.0955 4$CM+=0.02789 10
149TB G 637.3 1 2.94 11M1+E2 0.8 AP 0.0122 AP D
149TBS G KC AP 0.0102 $LC AP 0.0015 $MC AP 0.00033
149TBS G NC AP 7.5E-5$OC AP 1.15E-5$PC AP 7.3E-7
149TB cG E,RI$others: 637.3 {I3}, with I|g=3.7 {I5} (1990Sa32);
149TB2cG 637.2 {I4}, with I|g=3.0 {I3} (1981ZuZZ)
149TB cG M$|a(K)exp|?0.0104 {I10}
149TB L 869.72 10 5/2+
149TB cL J$(7/2+) in Table I of 2019MeZX could be a typo
149TB E 0.096 21 0.32 7 6.8 1 0.42 9
149TBS E EAV=860.5 41$CK=0.6458 22$CL=0.0964 4$CM+=0.02817 10
149TB G 662.8 1 0.531 16M1+E2 0.65 25 0.0116 10
149TBS G KC=0.0098 9$LC=0.00141 10$MC=0.000307 21
149TBS G NC=7.1E-5 5$OC=1.09E-5 8$PC=7.1E-7 7
149TB cG E,RI$other: 662.9 {I5}, with I|g=0.50 {I13} (1990Sa32)
149TB cG M,MR$|a(K)exp=0.0098 {I8}
149TB G 769.0 3 0.64 4 M1 0.0093313 D
149TBS G KC=0.00793 11$LC=0.001096 15$MC=0.0002381 33
149TBS G NC=5.51E-5 8$OC=8.52E-6 12$PC=5.75E-7 8
149TB cG M$|a(K)exp|?0.0079 {I6}
149TB G 870.0 4 0.17 4
149TB L 872.46 9 (11/2)-
149TB E 0.08 6 0.26 19 6.9 4 0.34 25F ?
149TBS E EAV=859.3 41$CK=0.6465 22$CL=0.0965 4$CM+=0.02820 10
149TB G 31.7 3 0.07 3
149TB G 836.7 1 4.84 7 M1+E2 1.1 AP 0.0058 AP D
149TBS G KC AP 0.0049 $LC AP 0.00070 $MC AP 0.000153
149TBS G NC AP 3.5E-5$OC AP 5.4E-6$PC AP 3.5E-7
149TB cG E,RI$other: 836.7 {I3}, with I|g=5.3 {I4} (1990Sa32)
149TB cG M$|a(K)exp|?0.0048 {I4}
149TB L 952.89 8 3/2-
149TB E 0.041 19 0.16 7 7.1 2 0.20 9 F ?
149TBS E EAV=823.2 41$CK=0.6658 22$CL=0.0995 4$CM+=0.02907 10
149TB G 852.2 3 0.15 5 E1 1.62E-3 2
149TBS G KC=0.001382 19$LC=0.0001831 26$MC=3.96E-5 6
149TBS G NC=9.12E-6 13$OC=1.400E-6 20$PC=9.21E-8 13
149TB cG M$|a(K)exp<0.002
149TB G 952.9 1 0.97 2 E1 1.30E-3 2
149TBS G KC=0.001116 16$LC=0.0001472 21$MC=3.18E-5 4
149TBS G NC=7.33E-6 10$OC=1.127E-6 16$PC=7.46E-8 10
149TB cG M$|a(K)exp=0.0015 {I2}
149TB L 970.45 9 7/2+
149TB E 0.1 1 0.6 3 6.5 3 0.7 4
149TBS E EAV=815.4 41$CK=0.6700 22$CL=0.1001 4$CM+=0.02926 10
149TB G 509.9 2 0.70 17M1 0.0261 4 D
149TBS G KC=0.02212 31$LC=0.00310 4$MC=0.000675 9
149TBS G NC=0.0001560 22$OC=2.411E-5 34$PC=1.615E-6 23
149TB cG M$|a(K)exp|?0.028 {I10}
149TB G 763.6 1 0.48 2 M1 0.0095013
149TBS G KC=0.00807 11$LC=0.001115 16$MC=0.0002424 34
149TBS G NC=5.60E-5 8$OC=8.67E-6 12$PC=5.85E-7 8
149TB cG E,RI$other: 763.4 {I5}, with I|g=0.37 {I11} (1990Sa32)
149TB cG M$|a(K)exp=0.0080 {I5}
149TB G 869.7 2 3.13 7 E2 0.00389 5 D
149TBS G KC=0.00326 5$LC=0.000494 7$MC=0.0001084 15
149TBS G NC=2.494E-5 35$OC=3.77E-6 5$PC=2.248E-7 31
149TB cG E,RI$others: 869.6 {I3}, with I|g=2.7 {I3} (1990Sa32);
149TB2cG 870.4 {I4}, with I|g=3.1 {I3} (1981ZuZZ) for a composite line
149TB cG M$|a(K)exp=0.0038 {I7}
149TB L 982.05 9 (9/2)+
149TB E 0.1 LT 0.5 LT 6.6 GT 0.6 LT
149TBS E EAV=810.1 41$CK=0.6727 22$CL=0.1006 4$CM+=0.02939 10
149TB G 137.9 1 0.127 10M1 0.880 12
149TBS G KC=0.742 11$LC=0.1077 15$MC=0.02353 33
149TBS G NC=0.00544 8$OC=0.000838 12$PC=5.52E-5 8
149TB cG M$|a(K)exp=1.1 {I3}
149TB G 521.6 1 0.24 2 M1 0.0246234
149TBS G KC=0.02089 29$LC=0.00292 4$MC=0.000636 9
149TBS G NC=0.0001472 21$OC=2.274E-5 32$PC=1.524E-6 21
149TB cG E,RI$other: 521.8 {I5}, with I|g=0.30 {I9} (1990Sa32)
149TB cG M$|a(K)exp=0.028 {I10}
149TB G 775.1 2 2.7 3 E2 0.00502 7
149TBS G KC=0.00419 6$LC=0.000654 9$MC=0.0001438 20
149TBS G NC=3.31E-5 5$OC=4.97E-6 7$PC=2.87E-7 4
149TB cG E,RI$other: 775.4 {I3}, with I|g=6.4 {I5} (1990Sa32); 775.3 {I1}, with
149TB2cG I|g=5.2 {I5} (1975To03); 775.4 {I4}, with I|g=5.2 {I6} (1981ZuZZ);
149TB3cG all the three intensities seem too high
149TB cG M$|a(K)exp=0.0047 {I7}
149TB L 1049.24 14 (5/2+)
149TB E 0.02 1 0.07 3 7.4 2 0.09 4
149TBS E EAV=780.1 41$CK=0.6882 21$CL=0.1029 4$CM+=0.03009 10
149TB G 842.3 3 0.09 2
149TB G 1049.2 2 0.13 2
149TB L 1088.55 10 5/2-
149TB E 0.08 3 0.39 14 6.6 2 0.47 17
149TBS E EAV=762.6 41$CK=0.6970 20$CL=0.1043 4$CM+=0.03049 10
149TB G 399.4 2 0.117 14
149TB G 987.8 2 1.30 14E1 1.22E-3 2
149TBS G KC=0.001043 15$LC=0.0001374 19$MC=2.97E-5 4
149TBS G NC=6.84E-6 10$OC=1.052E-6 15$PC=6.98E-8 10
149TB cG M$|a(K)exp=0.0012 {I3}
149TB L 1120.09 12 (7/2)+
149TB E 0.03 LT 0.2 LT 7.0 GT 0.2 LT ?
149TBS E EAV=748.4 41$CK=0.7039 20$CL=0.1054 3$CM+=0.03081 9
149TB G 913.2 3 0.53 16(E2(+M1)) 1.2 GT 0.0040 5 H
149TBS G KC=0.0034 5$LC=0.00050 6$MC=0.000109 12
149TBS G NC=2.50E-5 28$OC=3.8E-6 5$PC=2.4E-7 4
149TB cG E,RI$others: 913.1 {I5}, with I|g=0.95 {I16} (1990Sa32);
149TB2cG 913.1 {I4}, with I|g=0.59 {I6} (1981ZuZZ)
149TB cG M$|a(K)exp|?0.0033 {I6} for 913.2+912.8 doublet gives E2(+M1), |d>1.2;
149TB L 1133.61 15 (9/2,11/2)+
149TB E 0.008 LT 0.04 LT 7.6 GT 0.05 LT
149TBS E EAV=742.5 41$CK=0.7068 20$CL=0.1058 3$CM+=0.03094 9
149TB G 1097.8 2 0.32 2 E1 1.00E-3 1
149TBS G KC=0.000859 12$LC=0.0001126 16$MC=2.430E-5 34
149TBS G NC=5.60E-6 8$OC=8.63E-7 12$PC=5.75E-8 8
149TB cG M$|a(K)exp<0.0013
149TB L 1183.86 10 9/2-
149TB E 0.078 12 0.46 7 6.54 7 0.54 8
149TBS E EAV=719.9 41$CK=0.7175 19$CL=0.1075 3$CM+=0.03143 9
149TB G 358.6 3 0.15 3
149TB cG E,RI$other: 358.9 {I5}, with I|g=0.29 {I7} (1990Sa32)
149TB G 494.6 1 1.07 3 M1 0.0282 4 D
149TBS G KC=0.02391 33$LC=0.00335 5$MC=0.000730 10
149TBS G NC=0.0001688 24$OC=2.61E-5 4$PC=1.747E-6 24
149TB cG E,RI$others: 494.6 {I5}, with I|g=1.0 {I3} (1990Sa32);
149TB2cG 494.6 {I4}, with I|g=0.89 {I9} (1981ZuZZ, unplaced)
149TB cG M$|a(K)exp=0.025 {I3}
149TB G 1148.2 3 0.14 2 M1 0.00354 5
149TBS G KC=0.00302 4$LC=0.000411 6$MC=8.92E-5 13
149TBS G NC=2.063E-5 29$OC=3.20E-6 4$PC=2.171E-7 30$IPC=1.738E-6 29
149TB cG M$|a(K)exp=0.0034 {I11}
149TB L 1189.09 10 (7/2)-
149TB E 0.067 11 0.40 7 6.6 1 0.47 8
149TBS E EAV=717.7 41$CK=0.7186 19$CL=0.1077 3$CM+=0.03148 9
149TB G 499.9 3 0.058 12
149TB G 728.6 1 0.331 16E1 2.20E-3 3
149TBS G KC=0.001884 26$LC=0.0002516 35$MC=5.44E-5 8
149TBS G NC=1.253E-5 18$OC=1.920E-6 27$PC=1.251E-7 18
149TB cG M$|a(K)exp<0.0035
149TB G 982.2 2 0.12 2 [E1] 1.23E-3 2
149TBS G KC=0.001055 15$LC=0.0001389 19$MC=3.00E-5 4
149TBS G NC=6.91E-6 10$OC=1.063E-6 15$PC=7.05E-8 10
149TB cG M$|a(K)exp=0.0028 {I14} gives D or E2; E1 preferred by level scheme.
149TB2cG (E2) given in Table 1 of 2019MeZX could be a typo
149TB G 1153.3 2 0.39 3 (E2) 2.16E-3 3 H
149TBS G KC=0.001828 26$LC=0.000261 4$MC=5.69E-5 8
149TBS G NC=1.312E-5 18$OC=2.003E-6 28$PC=1.264E-7 18$IPC=1.776E-6 27
149TB cG E,RI$other: 1152.3 {I4}, with I|g=0.74 {I7} (1981ZuZZ) for a composite
149TB2cG line, unplaced
149TB cG M$|a(K)exp|?0.0023 {I3}
149TB L 1205.37 12 (9/2)+
149TB E 0.03 3 0.19 16 6.9 4 0.22 19 ?
149TBS E EAV=710.4 40$CK=0.7219 19$CL=0.1082 3$CM+=0.03163 9
149TB G 223.3 2 0.20 4 (M1) 0.2305 33 H
149TBS G KC=0.1948 28$LC=0.0280 4$MC=0.00611 9
149TBS G NC=0.001413 20$OC=0.0002179 31$PC=1.442E-5 21
149TB cG E$other: 223.7 {I5}, with I|g=0.29 {I7}, placed from 2065 level in
149TB2cG 1990Sa32
149TB cG M$|a(K)exp|?0.193 {I20}
149TB G 361.2 3 0.07 3
149TB G 745.0 2 0.26 3 M1+E2 1.3 +41-7 0.0072 17
149TBS G KC=0.0061 15$LC=0.00089 17$MC=0.00020 4
149TBS G NC=4.5E-5 8$OC=6.9E-6 14$PC=4.3E-7 11
149TB cG M,MR$|a(K)exp=0.0060 {I13}
149TB G 998.6 3 0.19 3
149TB G 1169.5 3 0.57 9 [E1] H
149TBS G CC=0.000907 13$KC=0.000766 11$LC=0.0001002 14$MC=2.162E-5 30
149TBS G NC=4.99E-6 7$OC=7.68E-7 11$PC=5.14E-8 7$IPC=1.338E-5 21
149TB cG M$|a(K)exp|?0.0017 {I3} for 1169.5+1170.1 doublet suggests M1,E2,
149TB2cG but level scheme requires E1
149TB L 1205.95 14 (7/2,9/2)-
149TB cL J$(9/2-,11/2-) from 2019MeZX
149TB E 0.080 21 0.50 13 6.5 1 0.58 15
149TBS E EAV=710.1 40$CK=0.7221 19$CL=0.1082 3$CM+=0.03164 9
149TB G 380.8 2 0.313 16M1 0.0554 8
149TBS G KC=0.0469 7$LC=0.00664 9$MC=0.001446 20
149TBS G NC=0.000334 5$OC=5.16E-5 7$PC=3.44E-6 5
149TB cG E,RI$other: 381.4 {I5}, with I|g=0.32 {I9} (1990Sa32)
149TB cG M$|a(K)exp=0.057 {I8}
149TB G 1170.1 3 0.73 13(M1,E2) 0.0027 6 H
149TBS G NC=1.62E-5 35$OC=2.5E-6 6$PC=1.7E-7 4$IPC=2.98E-6 19
149TBS G KC=0.0023 6$LC=0.00032 7$MC=7.0E-5 15
149TB cG M$|a(K)exp|?0.0017 {I3} for 1169.5+1170.1 doublet suggests M1,E2,
149TB2cG consistent with that expected from level scheme
149TB cG $I|g=0.04 {I3} for a 1170.9|g (1990Sa32).
149TB L 1250.68 10 5/2-
149TB E 0.080 12 0.55 8 6.4 1 0.63 9
149TBS E EAV=690.2 40$CK=0.7310 18$CL=0.1096 3$CM+=0.03205 9
149TB G 297.7 3 0.22 4
149TB G 561.4 1 0.289 21M1 0.0204329
149TBS G KC=0.01734 24$LC=0.002422 34$MC=0.000527 7
149TBS G NC=0.0001219 17$OC=1.884E-5 26$PC=1.264E-6 18
149TB cG M$|a(K)exp=0.021 {I7}
149TB G 1043.7 2 0.35 6 (E1) 1.10E-3 2 D
149TBS G KC=0.000942 13$LC=0.0001238 17$MC=2.67E-5 4
149TBS G NC=6.16E-6 9$OC=9.48E-7 13$PC=6.31E-8 9
149TB cG M$|a(K)exp|?0.0020 {I7} suggests E2 or E1 (within 1.5|s); E1 from
149TB2cG level scheme
149TB G 1150.0 3 0.113 13 E1
149TBS G CC=0.000930 13$KC=0.000790 11$LC=0.0001034 14$MC=2.230E-5 31
149TBS G NC=5.14E-6 7$OC=7.92E-7 11$PC=5.29E-8 7$IPC=8.38E-6 13
149TB cG M$|a(K)exp<0.0011
149TB L 1272.73 10 (9/2)+
149TB E 0.029 9 0.21 6 6.9 1 0.24 7
149TBS E EAV=680.4 40$CK=0.7353 18$CL=0.1103 3$CM+=0.03226 9
149TB G 812.2 1 0.248 21M1 0.0081611
149TBS G KC=0.00694 10$LC=0.000957 13$MC=0.0002079 29
149TBS G NC=4.81E-5 7$OC=7.44E-6 10$PC=5.02E-7 7
149TB cG M$|a(K)exp=0.0067 {I8}
149TB G 1237.1 2 0.32 6 (E1) H
149TBS G CC=0.000849 12$KC=0.000693 10$LC=9.05E-5 13$MC=1.952E-5 27
149TBS G NC=4.50E-6 6$OC=6.94E-7 10$PC=4.65E-8 7$IPC=4.04E-5 6
149TB cG M$|a(K)exp|?1.0|*10{+-3} {I4}
149TB cG E,RI$other: 1235.9 {I4}, with I|g=0.59 {I6} (1981ZuZZ) for a composite
149TB2cG line, unplaced
149TB L 1381.92 9 7/2-
149TB E 0.170 12 1.57 11 5.94 4 1.74 12
149TBS E EAV=631.9 40$CK=0.7554 16$CL=0.1135 3$CM+=0.03320 8
149TB G 131.2 2 0.052 9 M1 1.013 15
149TBS G KC=0.854 13$LC=0.1241 18$MC=0.0271 4
149TBS G NC=0.00627 9$OC=0.000965 14$PC=6.36E-5 9
149TB cG M$|a(K)exp=1.0 {I3}
149TB G 293.4 2 0.079 14(M1) 0.1103 16
149TBS G KC=0.0933 13$LC=0.01331 19$MC=0.00290 4
149TBS G NC=0.000671 9$OC=0.0001036 15$PC=6.88E-6 10
149TB cG M$|a(K)exp=0.10 {I5}
149TB G 556.7 2 0.28 4 (M1) 0.0208729 H
149TBS G KC=0.01772 25$LC=0.002475 35$MC=0.000538 8
149TBS G NC=0.0001245 17$OC=1.925E-5 27$PC=1.291E-6 18
149TB cG E,RI$others: 556.9 {I5}, with I|g=0.43 {I11} (1990Sa32);
149TB2cG 556.8 {I4}, with I|g=1.33 {I13} (1981ZuZZ, unplaced)
149TB cG M$|a(K)exp|?0.019 {I5}
149TB G 692.7 1 0.822 14M1+E2 0.7 AP 0.0102 AP D
149TBS G KC AP 0.0087 $LC AP 0.00124$MC AP 0.00027
149TBS G NC AP 6.3E-5$OC AP 9.6E-6$PC AP 6.2E-7
149TB cG E,RI$others: 692.6 {I5}, with I|g=0.46 {I16} (1990Sa32);
149TB2cG 692.9 {I4}, with I|g=0.74 {I7} (1981ZuZZ, unplaced)
149TB cG M,MR$|a(K)exp|?0.0087 {I8}
149TB G 921.0 5 .1 LT
149TB G 1174.9 1 0.87 7 E1 D
149TBS G CC=0.000902 13$KC=0.000760 11$LC=9.94E-5 14$MC=2.144E-5 30
149TBS G NC=4.94E-6 7$OC=7.62E-7 11$PC=5.10E-8 7$IPC=1.504E-5 21
149TB cG E,RI$others: 1175.2 {I5}, with I|g=0.98 {I18} (1990Sa32);
149TB2cG 1174.3 {I4}, with I|g=1.18 {I12} (1981ZuZZ)
149TB cG M$|a(K)exp|?1.0|*10{+-3} {I3}
149TB G 1346.3 3 0.069 17(E2) 1.62E-3 2
149TBS G KC=0.001351 19$LC=0.0001885 26$MC=4.10E-5 6
149TBS G NC=9.45E-6 13$OC=1.449E-6 20$PC=9.34E-8 13$IPC=2.93E-5 4
149TB cG M$(M1,E2) from |a(K)exp=0.002 {I1}; E3 is possible but less likely, and
149TB2cG pure M3 is ruled out; E2 from level scheme
149TB L 1420.55 11 (9/2)-
149TB E 0.103 8 1.05 8 6.10 4 1.15 9
149TBS E EAV=614.8 40$CK=0.7620 15$CL=0.11456 25$CM+=0.03351 8
149TB G 548.1 1 0.468 19M1 0.0217130
149TBS G KC=0.01842 26$LC=0.00258 4$MC=0.000560 8
149TBS G NC=0.0001296 18$OC=2.003E-5 28$PC=1.344E-6 19
149TB cG E,RI$other: 548.2 {I5}, with I|g=0.75 {I7} (1990Sa32)
149TB cG M$|a(K)exp=0.018 {I4}
149TB G 576.4 2 0.255 18E1 0.00360 5
149TBS G KC=0.00307 4$LC=0.000415 6$MC=8.98E-5 13
149TBS G NC=2.067E-5 29$OC=3.16E-6 4$PC=2.023E-7 28
149TB cG M$|a(K)exp<0.005
149TB G 960.0 3 0.12 4 E1 1.29E-3 2
149TBS G KC=0.001101 15$LC=0.0001451 20$MC=3.13E-5 4
149TBS G NC=7.22E-6 10$OC=1.111E-6 16$PC=7.36E-8 10
149TB cG E,RI$other: 960.2 {I5}, with I|g=0.16 {I5} (1990Sa32)
149TB cG M$|a(K)exp<0.0011
149TB G 1384.7 3 0.39 7 (M1) 2.32E-3 3 @
149TBF G FLAG=H
149TBS G KC=0.001942 27$LC=0.000263 4$MC=5.70E-5 8
149TBS G NC=1.319E-5 18$OC=2.044E-6 29$PC=1.393E-7 20$IPC=4.43E-5 6
149TB cG E,RI$other: 1385.0 {I4}, with I|g=0.89 {I9} (1981ZuZZ) for a composite
149TB2cG line, unplaced
149TB cG M$|a(K)exp|?0.0020 {I3}
149TB L 1426.13 9 9/2-
149TB E 0.185 11 1.90 10 5.84 4 2.08 11
149TBS E EAV=612.4 40$CK=0.7629 15$CL=0.11471 24$CM+=0.03355 8
149TB G 553.9 3 0.07 3
149TB G 601.2 3 0.15 4 (M1) 0.0172024 H
149TBS G KC=0.01460 21$LC=0.002034 29$MC=0.000442 6
149TBS G NC=0.0001023 14$OC=1.582E-5 22$PC=1.063E-6 15
149TB cG M$|a(K)exp|?0.020 {I5}
149TB G 736.8 2 0.48 6
149TB G 1390.3 1 2.00 3 M1 2.30E-3 3
149TBS G KC=0.001924 27$LC=0.000261 4$MC=5.65E-5 8
149TBS G NC=1.307E-5 18$OC=2.025E-6 28$PC=1.379E-7 19$IPC=4.60E-5 6
149TB cG E,RI$other: 1389.6 {I4}, with I|g=2.21 {I22} (1981ZuZZ)
149TB cG M$|a(K)exp=0.0020 {I2}
149TB L 1461.26 9 (5/2,7/2)-
149TB E 0.026 7 0.29 8 6.6 1 0.32 9
149TBS E EAV=596.8 40$CK=0.7686 15$CL=0.11563 24$CM+=0.03382 7
149TB G 372.6 2 0.047 16
149TB G 508.5 2 0.17 4
149TB G 706.4 3 0.071 14
149TB G 771.8 3 0.16 4
149TB G 1000.8 4 0.023 12
149TB G 1254.3 2 0.49 3 E1 F
149TBS G CC=0.000838 12$KC=0.000677 9$LC=8.83E-5 12$MC=1.903E-5 27
149TBS G NC=4.39E-6 6$OC=6.77E-7 9$PC=4.54E-8 6$IPC=4.85E-5 7
149TB cG E,RI$others: 1254.5 {I5}, with I|g=0.75 {I14} (1990Sa32);
149TB2cG 1253.5 {I4}, with I|g=0.89 {I9} (1981ZuZZ)
149TB cG M$|a(K)exp=6.0|*10{+-4} {I20}
149TB L 1473.75 9 (11/2)-
149TB cL J$11/2- from shell-model prediction in 2019MeZX
149TB E 0.004 LT 0.05 LT 7.4 GT 0.05 LT
149TBS E EAV=591.3 40$CK=0.7705 14$CL=0.11595 23$CM+=0.03392 7
149TB G 267.7 2 0.087 14M1,E2 0.115 26
149TBS G KC=0.093 27$LC=0.0175 5$MC=0.00392 20
149TBS G NC=0.00090 4$OC=0.0001311 24$PC=6.4E-6 24
149TB cG M$|a(K)exp=0.08 {I4}
149TB G 491.6 2 0.06 3
149TB G 601.2 3 0.17 4 (M1) 0.0172024 H
149TBS G KC=0.01460 21$LC=0.002034 29$MC=0.000442 6
149TBS G NC=0.0001023 14$OC=1.582E-5 22$PC=1.063E-6 15
149TB cG M$|a(K)exp|?0.020 {I5}
149TB G 633.2 3 0.09 3
149TB G 648.7 2 0.16 3 M1 0.0142220
149TBS G KC=0.01208 17$LC=0.001678 24$MC=0.000365 5
149TBS G NC=8.44E-5 12$OC=1.305E-5 18$PC=8.78E-7 12
149TB cG M$|a(K)exp=0.014 {I3}
149TB G 784.0 5 0.035 12
149TB G 1438.0 2 0.34 3 M1 2.15E-3 3
149TBS G KC=0.001778 25$LC=0.0002407 34$MC=5.22E-5 7
149TBS G NC=1.207E-5 17$OC=1.870E-6 26$PC=1.275E-7 18$IPC=6.17E-5 9
149TB cG M$|a(K)exp=0.0022 {I4}
149TB L 1487.59 15 (7/2,9/2)+
149TB E 0.002 LT 0.03 LT 7.7 GT 0.03 LT
149TBS E EAV=585.3 40$CK=0.7726 14$CL=0.11629 23$CM+=0.03402 7
149TB G 505.5 3 0.139 21M1 0.0267 4
149TBS G KC=0.02262 32$LC=0.00317 4$MC=0.000690 10
149TBS G NC=0.0001596 22$OC=2.466E-5 35$PC=1.652E-6 23
149TB cG M$|a(K)exp=0.037 {I18}
149TB G 517.1 3 0.09 4 (M1) 0.0251735 H
149TBS G KC=0.02135 30$LC=0.00299 4$MC=0.000651 9
149TBS G NC=0.0001505 21$OC=2.326E-5 33$PC=1.559E-6 22
149TB cG M$|a(K)exp|?0.033 {I15}
149TB L 1492.75 12 (7/2,9/2,11/2)+
149TB E 0.004 LT 0.05 LT 7.4 GT 0.05 LT
149TBS E EAV=582.9 40$CK=0.7734 14$CL=0.11642 23$CM+=0.03406 7
149TB G 219.9 3 0.046 15
149TB G 359.3 3 0.09 4 (M1) 0.0645 E
149TBS G KC=0.0546 8$LC=0.00774 11$MC=0.001687 24
149TBS G NC=0.000390 6$OC=6.02E-5 9$PC=4.01E-6 6
149TB G 511.1 5 0.10 3
149TB L 1508.52 10 (7/2)-
149TB E 0.068 7 0.86 8 6.15 5 0.93 9
149TBS E EAV=576.0 40$CK=0.7758 14$CL=0.11681 22$CM+=0.03417 7
149TB G 526.6 3 0.069 14
149TB G 537.8 2 0.085 19
149TB G 683.3 3 0.16 4 (M1) 0.0124918 H
149TBS G KC=0.01062 15$LC=0.001473 21$MC=0.000320 4
149TBS G NC=7.40E-5 10$OC=1.145E-5 16$PC=7.71E-7 11
149TB cG M$|a(K)exp|?0.013 {I2}
149TB G 819.3 3 0.15 4 (M1) 0.0079911 H
149TBS G KC=0.00679 10$LC=0.000937 13$MC=0.0002035 29
149TBS G NC=4.71E-5 7$OC=7.28E-6 10$PC=4.92E-7 7
149TB cG M$|a(K)exp=0.0063 {I25} for 819.3+819.6 doublet gives M1(+E2),|d<1.5
149TB G 1301.6 1 0.75 3 E1
149TBS G CC=0.000811 11$KC=0.000634 9$LC=8.26E-5 12$MC=1.781E-5 25
149TBS G NC=4.11E-6 6$OC=6.34E-7 9$PC=4.26E-8 6$IPC=7.18E-5 10
149TB cG E,RI$others: 1301.8 {I5}, with I|g=0.98 {I20} (1990Sa32);
149TB2cG 1301.2 {I4}, with I|g=0.59 {I6} (1981ZuZZ)
149TB cG M$|a(K)exp=7.1|*10{+-4} {I15}
149TB G 1472.7 4 0.023 11
149TB L 1631.88 20 (3/2,5/2)-
149TB E 0.003 LT 0.05 LT 7.4 GT 0.05 LT
149TBS E EAV=521.5 40$CK=0.7925 12$CL=0.11960 19$CM+=0.03500 6
149TB G 877.1 4 0.035 12
149TB G 1425.1 4 0.06 2
149TB G 1531.0 4 0.051 10
149TB L 1697.49 11 9/2-
149TB E 0.074 5 1.62 10 5.80 4 1.69 10
149TBS E EAV=492.6 41$CK=0.8002 10$CL=0.12090 18$CM+=0.03539 6
149TB G 223.6 2 0.12 3 (M1) 0.2297 33 H
149TBS G KC=0.1941 28$LC=0.0279 4$MC=0.00609 9
149TBS G NC=0.001408 20$OC=0.0002171 31$PC=1.437E-5 20
149TB cG M$|a(K)exp|?0.193 {I20}
149TB G 825.4 5 0.02 1
149TB G 857.0 3 0.08 3
149TB G 872.4 3 0.35 6 E
149TB G 1008.3 3 0.22 4
149TB G 1661.7 1 0.87 3 M1+E2 0.8 4 0.0014711
149TBS G KC=0.00113 9$LC=0.000153 12$MC=3.31E-5 27
149TBS G NC=7.7E-6 6$OC=1.18E-6 10$PC=8.0E-8 7$IPC=0.000147 6
149TB cG E,RI$other: 1661.5 {I4}, with I|g=0.74 {I7} (1981ZuZZ)
149TB cG M,MR$|a(K)exp=0.00114 {I8}
149TB L 1728.36 8 5/2-
149TB E 0.32 2 7.8 4 5.11 3 8.1 4
149TBS E EAV=479.1 40$CK=0.8034 10$CL=0.12147 17$CM+=0.03556 5
149TB G 346.3 2 0.15 3 M1 0.0710 10
149TBS G KC=0.0601 8$LC=0.00854 12$MC=0.001861 26
149TBS G NC=0.000430 6$OC=6.64E-5 9$PC=4.42E-6 6
149TB cG M$|a(K)exp=0.09 {I3}
149TB G 477.8 2 0.24 3 M1 0.0308 4 D
149TBS G KC=0.0261 4$LC=0.00367 5$MC=0.000798 11
149TBS G NC=0.0001846 26$OC=2.85E-5 4$PC=1.909E-6 27
149TB cG M$|a(K)exp|?0.030 {I6}
149TB G 544.6 3 0.068 16
149TB G 973.4 2 0.39 6 (E1) 1.25E-3 2 H
149TBS G KC=0.001073 15$LC=0.0001413 20$MC=3.05E-5 4
149TBS G NC=7.03E-6 10$OC=1.082E-6 15$PC=7.17E-8 10
149TB cG E,RI$other: 973.5 {I5}, with I|g=0.48 {I13} (1990Sa32)
149TB cG M$|a(K)exp=0.0020 {I4} for 973.4+972.2+974.5 triplet gives E2 or
149TB2cG E1, the latter within 2|s uncertainty; E1 required from level scheme
149TB G 986.8 2 0.65 6 E1 1.22E-3 2
149TBS G KC=0.001045 15$LC=0.0001377 19$MC=2.97E-5 4
149TBS G NC=6.85E-6 10$OC=1.054E-6 15$PC=6.99E-8 10
149TB cG E,RI$other: 986.2 {I5}, with I|g=0.73 {I14} (1990Sa32)
149TB cG M$|a(K)exp=1.0|*10{+-3} {I3}
149TB G 1039.1 2 0.89 7 (E2) 0.00267 4 H
149TBS G KC=0.002254 32$LC=0.000328 5$MC=7.17E-5 10
149TBS G NC=1.652E-5 23$OC=2.513E-6 35$PC=1.557E-7 22
149TB cG M$|a(K)exp|?0.00215 {I20} for 1039.1+1039.8 doublet suggests
149TB2cG dominant E2
149TB cG E,RI$line is unresolved in 1990Sa32 and 1981ZuZZ.
149TB G 1521.4 1 3.90 30 E1
149TBS G NC=3.13E-6 4$OC=4.83E-7 7$PC=3.26E-8 5$IPC=0.0002181 31
149TBS G CC=0.000784 11$KC=0.000485 7$LC=6.29E-5 9$MC=1.355E-5 19
149TB cG E,RI$others: 1521.0 {I5}, with I|g=3.9 {I5} (1990Sa32);
149TB2cG 1520.9 {I4}, with I|g=5.6 {I6} (1981ZuZZ)
149TB cG M$|a(K)exp=5.0|*10{+-4} {I5}
149TB G 1627.6 1 2.07 3 E1
149TBS G CC=0.000802 11$KC=0.000434 6$LC=5.61E-5 8$MC=1.208E-5 17
149TBS G NC=2.79E-6 4$OC=4.31E-7 6$PC=2.92E-8 4$IPC=0.000297 4
149TB cG M$|a(K)exp=4.5|*10{+-4} {I4}
149TB L 1735.44 11 (7/2)-
149TB E 0.090 4 2.23 6 5.65 3 2.32 6
149TBS E EAV=476.2 40$CK=0.8041 10$CL=0.12159 17$CM+=0.03559 5
149TB G 863.5 4 0.05 2
149TB G 910.3 4 0.08 3
149TB G 1046.2 3 0.086 12
149TB G 1274.9 1 2.00 3 E1 F
149TBS G CC=0.000825 12$KC=0.000658 9$LC=8.57E-5 12$MC=1.848E-5 26
149TBS G NC=4.26E-6 6$OC=6.58E-7 9$PC=4.41E-8 6$IPC=5.84E-5 8
149TB cG E,RI$other: 1274.7 {I5}, with I|g=2.6 {I4} (1990Sa32); 1274.4 {I3},
149TB2cG I|g=2.7 {I6} (1975To03); 1274.5 {I4}, with I|g=2.7 {I3} (1981ZuZZ)
149TB cG M$|a(K)exp=8.0|*10{+-4} {I10}
149TB G 1528.6 4 0.031 9
149TB G 1699.6 4 0.07 2
149TB L 1776.61 10 7/2-
149TB E 0.058 3 1.65 7 5.76 3 1.71 7
149TBS E EAV=457.8 40$CK=0.8082 9$CL=0.12232 16$CM+=0.03581 5
149TB G 823.6 4 0.10 4
149TB G 1034.9 3 0.093 22
149TB G 1087.3 2 0.420 19M1 0.00403 6
149TBS G KC=0.00343 5$LC=0.000469 7$MC=0.0001018 14
149TBS G NC=2.353E-5 33$OC=3.65E-6 5$PC=2.473E-7 35
149TB cG E,RI$other: 1087.3 {I5}, with I|g=0.50 {I13} (1990Sa32)
149TB cG M$|a(K)exp=0.0039 {I4}
149TB G 1316.1 1 0.73 3 E1
149TBS G CC=0.000805 11$KC=0.000622 9$LC=8.10E-5 11$MC=1.746E-5 24
149TBS G NC=4.03E-6 6$OC=6.21E-7 9$PC=4.18E-8 6$IPC=7.97E-5 11
149TB cG E,RI$others: 1316.3 {I5}, with I|g=0.62 {I14} (1990Sa32);
149TB2cG 1314.6 {I4}, with I|g=0.74 {I6} (1981ZuZZ)
149TB cG M$|a(K)exp=8.5|*10{+-4} {I25}
149TB G 1569.8 2 0.28 2 E1
149TBS G CC=0.000790 11$KC=0.000460 6$LC=5.96E-5 8$MC=1.284E-5 18
149TBS G NC=2.96E-6 4$OC=4.58E-7 6$PC=3.10E-8 4$IPC=0.000254 4
149TB cG E,RI$other: 1569.9 {I5}, with I|g=0.37 {I13} (1990Sa32)
149TB cG M$|a(K)exp=4.5|*10{+-4} {I15}
149TB G 1740.9 3 0.088 15[E2] 1.14E-3 2
149TBS G KC=0.000833 12$LC=0.0001129 16$MC=2.445E-5 34
149TBS G NC=5.64E-6 8$OC=8.69E-7 12$PC=5.76E-8 8$IPC=0.0001676 24
149TB cG M$|a(K)exp=1.0|*10{+-3} {I6} gives M1, E2 or E3; E2 from level scheme
149TB L 1804.1 3 (5/2+,7/2+,9/2+)
149TB E 0.0037 9 0.12 3 6.9 1 0.12 3
149TBS E EAV=445.8 40$CK=0.8106 8$CL=0.12276 15$CM+=0.03595 5
149TB G 1343.6 3 0.069 17(M1,E2) 0.0021 4
149TBS G NC=1.18E-5 23$OC=1.8E-6 4$PC=1.22E-7 28$IPC=3.07E-5 20
149TBS G KC=0.0017 4$LC=0.00024 5$MC=5.1E-5 10
149TB cG M$|a(K)exp=0.002 {I1}
149TB G 1597 1 0.05 2
149TB L 1841.63 8 9/2-
149TB E 0.415 20 15.1 5 4.77 3 15.5 5
149TBS E EAV=429.2 40$CK=0.8138 8$CL=0.12335 14$CM+=0.03612 4
149TB G 348.9 1 0.252 14E1 0.0114116
149TBS G NC=6.70E-5 9$OC=1.013E-5 14$PC=6.21E-7 9
149TBS G KC=0.00970 14$LC=0.001345 19$MC=0.000292 4
149TB cG M$|a(K)exp<0.014
149TB G 353.9 3 0.10 3 (E1) 0.0110216
149TBS G KC=0.00937 13$LC=0.001299 18$MC=0.000282 4
149TBS G NC=6.47E-5 9$OC=9.79E-6 14$PC=6.00E-7 8
149TB cG M$|a(K)exp<0.020
149TB G 367.8 1 0.64 2 M1 0.0606 9
149TBS G KC=0.0514 7$LC=0.00728 10$MC=0.001586 22
149TBS G NC=0.000367 5$OC=5.66E-5 8$PC=3.77E-6 5
149TB cG M$|a(K)exp=0.056 {I6}
149TB G 421.0 3 0.093 23
149TB G 568.9 1 0.284 19E1 0.00370 5
149TBS G KC=0.00316 4$LC=0.000427 6$MC=9.24E-5 13
149TBS G NC=2.128E-5 30$OC=3.25E-6 5$PC=2.080E-7 29
149TB cG M$|a(K)exp<0.007
149TB G 635.6 3 0.31 4
149TB cG M$see comment for 636.3|g
149TB G 636.3 3 0.37 6 [E1] 0.00292 4
149TBF G FL=1205.37
149TBS G KC=0.002490 35$LC=0.000335 5$MC=7.24E-5 10
149TBS G NC=1.667E-5 23$OC=2.55E-6 4$PC=1.646E-7 23
149TB cG M$|a(K)exp=0.0104 {I10} gives M1 or E2, but inconsistent with
149TB2cG level scheme. However, it would be consistent with the level scheme if
149TB3cG the |a(K)exp was for the 635.6|g
149TB G 657.8 2 0.089 16
149TB G 708.0 3 0.086 14
149TB G 721.5 1 0.257 16E1 2.25E-3 3
149TBS G KC=0.001922 27$LC=0.000257 4$MC=5.55E-5 8
149TBS G NC=1.279E-5 18$OC=1.959E-6 27$PC=1.276E-7 18
149TB cG M$|a(K)exp<0.0037
149TB G 753.2 2 0.28 3 (E2) 0.00536 8
149TBS G KC=0.00446 6$LC=0.000702 10$MC=0.0001547 22
149TBS G NC=3.55E-5 5$OC=5.33E-6 7$PC=3.06E-7 4
149TB cG M$|a(K)exp=0.0029 {I15} gives E1,E2; E2 from level scheme
149TB G 859.7 2 1.04 12(E1) 1.59E-3 2 H
149TBS G KC=0.001359 19$LC=0.0001800 25$MC=3.89E-5 5
149TBS G NC=8.96E-6 13$OC=1.376E-6 19$PC=9.06E-8 13
149TB cG E,RI$others: 859.5 {I5}, with I|g=1.07 {I18} (1990Sa32);
149TB2cG 860.4 {I4}, with I|g=1.77 {I19} (1981ZuZZ); for a composite line
149TB cG M$|a(K)exp|?0.0016 {I2}
149TB G 871.2 2 2.08 21E1 1.55E-3 2 D
149TBS G KC=0.001324 19$LC=0.0001753 25$MC=3.79E-5 5
149TBS G NC=8.73E-6 12$OC=1.341E-6 19$PC=8.83E-8 12
149TB cG E,RI$other: 871.5 {I3}, with I|g=3.2 {I4} (1990Sa32)
149TB cG M$|a(K)exp|?0.0019 {I4}
149TB cG RI$I|g=2.8 {I3} (1990Sa32), 3.2 (1981ZuZZ) for a composite line.
149TB G 969.4 3 0.06 2
149TB G 997.5 1 1.16 8 E1 1.20E-3 2 D
149TBS G KC=0.001025 14$LC=0.0001349 19$MC=2.91E-5 4
149TBS G NC=6.71E-6 9$OC=1.033E-6 14$PC=6.85E-8 10
149TB cG E,RI$others: 997.6 {I3}, with I|g=1.71 {I25} (1990Sa32);
149TB2cG 997.3 {I4}, with I|g=0.74 {I7} (1981ZuZZ)
149TB cG M$|a(K)exp=0.0012 {I2}
149TB G 1001.2 4 0.035 12
149TB G 1016.5 4 0.11 3
149TB G 1152.3 2 0.37 3 (M1) 0.00351 5 H
149TBS G KC=0.00299 4$LC=0.000408 6$MC=8.85E-5 12
149TBS G NC=2.046E-5 29$OC=3.17E-6 4$PC=2.153E-7 30$IPC=1.959E-6 30
149TB cG E,RI$others: 1152.3 {I5}, with I|g=0.43 {I16} (1990Sa32);
149TB2cG 1252.3 {I4}, with I|g=0.74 {I7} (1981ZuZZ, unplaced) for a composite
149TB3cG line
149TB cG M$|a(K)exp|?0.0023 {I3}
149TB G 1381.3 3 0.14 3
149TB G 1805.8 1 7.69 40M1+E2 1.1 +8-5 0.0012710
149TBS G KC=0.00090 8$LC=0.000122 10$MC=2.63E-5 23
149TBS G NC=6.1E-6 5$OC=9.4E-7 8$PC=6.3E-8 6$IPC=0.000211 9
149TB cG E,RI$others: 1806.0 {I5}, with I|g=7.6 {I6} (1990Sa32); 1806.2 {I3},
149TB2cG I|g=9.5 {I14} (1975To03); 1806.2 {I4}, with I|g=9.4 {I10} (1981ZuZZ,
149TB3cG unplaced)
149TB cG M,MR$|a(K)exp=9.0|*10{+-4} {I6}
149TB L 1852.03 14 (7/2)-
149TB E 0.012 1 0.44 4 6.30 5 0.45 4
149TBS E EAV=424.7 40$CK=0.8146 7$CL=0.12350 14$CM+=0.03617 4
149TB G 1110.4 4 0.045 13
149TB G 1162.6 2 0.075 18M1 0.00344 5
149TBS G KC=0.00293 4$LC=0.000399 6$MC=8.66E-5 12
149TBS G NC=2.002E-5 28$OC=3.10E-6 4$PC=2.107E-7 30$IPC=2.60E-6 4
149TB cG M$|a(K)exp=0.0050 {I25}
149TB G 1391.9 4 0.05 2
149TB G 1645.1 2 0.233 14 E1
149TBS G CC=0.000806 11$KC=0.000426 6$LC=5.51E-5 8$MC=1.186E-5 17
149TBS G NC=2.74E-6 4$OC=4.23E-7 6$PC=2.86E-8 4$IPC=0.000310 4
149TB cG M$|a(K)exp=4.0|*10{+-4} {I20}
149TB G 1816.4 4 0.05 2
149TB L 1876.88 7 5/2-
149TB E 0.431 21 18.0 6 4.68 3 18.4 6
149TBS E EAV=413.8 40$CK=0.8164 7$CL=0.12386 13$CM+=0.03628 4
149TB G 148.4 2 0.178 12
149TB G 245.1 3 0.12 3 M1 0.1789 26
149TBS G KC=0.1512 22$LC=0.02169 31$MC=0.00473 7
149TBS G NC=0.001094 16$OC=0.0001688 24$PC=1.118E-5 16
149TB cG M$|a(K)exp=0.20 {I5}
149TB G 415.5 1 0.365 21M1 0.0441 6
149TBS G KC=0.0374 5$LC=0.00528 7$MC=0.001149 16
149TBS G NC=0.000266 4$OC=4.11E-5 6$PC=2.74E-6 4
149TB cG M$|a(K)exp=0.035 {I6}
149TB G 495.0 3 0.05 3
149TB G 693.0 3 0.035 12
149TB G 788.3 3 0.14 4
149TB G 827.6 2 0.135 19
149TB G 906.7 2 0.20 4 (E1) 1.43E-3 2
149TBS G KC=0.001227 17$LC=0.0001621 23$MC=3.50E-5 5
149TBS G NC=8.07E-6 11$OC=1.240E-6 17$PC=8.19E-8 11
149TB cG E,RI$others: 906.9 {I5}, with I|g=0.41 {I11} (1990Sa32);
149TB2cG 906.2 {I4}, with I|g=0.30 {I3} (1981ZuZZ)
149TB cG M$|a(K)exp<0.003
149TB G 924.0 1 0.406 19M1 0.00596 8
149TBS G KC=0.00507 7$LC=0.000697 10$MC=0.0001513 21
149TBS G NC=3.50E-5 5$OC=5.42E-6 8$PC=3.66E-7 5
149TB cG M$|a(K)exp=0.0053 {I6}
149TB G 1039.8 2 1.63 12[E1] 1.11E-3 2 H
149TBS G KC=0.000949 13$LC=0.0001247 17$MC=2.69E-5 4
149TBS G NC=6.20E-6 9$OC=9.55E-7 13$PC=6.35E-8 9
149TB cG E,RI$others: E|g=1040.1 {I3}, I|g=3.05 {I23} (1990Sa32);
149TB2cG E|g=1039.4 {I4}, I|g=2.5 {I3} (1981ZuZZ) for a composite line
149TB cG M$|a(K)exp|?0.00215 {I20} for 1039.1+1039.8 doublet suggests
149TB2cG dominant E2, but level scheme requires E1
149TB G 1121.9 1 0.819 21 E1
149TBS G CC=0.000967 14$KC=0.000826 12$LC=0.0001082 15$MC=2.334E-5 33
149TBS G NC=5.38E-6 8$OC=8.29E-7 12$PC=5.53E-8 8$IPC=3.74E-6 5
149TB cG E,RI$other: 1121.5 {I4}, with I|g=0.44 {I5} (1981ZuZZ), unplaced
149TB cG M$|a(K)exp=0.0011 {I3}
149TB G 1135.2 1 1.60 9 E1
149TBS G CC=0.000949 13$KC=0.000808 11$LC=0.0001059 15$MC=2.284E-5 32
149TBS G NC=5.27E-6 7$OC=8.11E-7 11$PC=5.42E-8 8$IPC=5.59E-6 8
149TB cG E,RI$others: 1135.5 {I5}, with I|g=0.52 {I13} (1990Sa32) is in severe
149TB2cG disagreement; 1134.7 {I4} (1981ZuZZ)
149TB cG M$|a(K)exp=1.0|*10{+-3} {I3}
149TB G 1187.5 2 0.382 23M1 0.00328 5
149TBS G KC=0.00279 4$LC=0.000379 5$MC=8.23E-5 12
149TBS G NC=1.903E-5 27$OC=2.95E-6 4$PC=2.003E-7 28$IPC=4.75E-6 7
149TB cG E,RI$others: 1187.7 {I5}, with I|g=0.46 {I18} (1990Sa32);
149TB2cG 1189.0 {I4}, with I|g=0.89 {I9} (1981ZuZZ) for a composite line
149TB cG M$|a(K)exp=0.0029 {I4}
149TB G 1416.4 2 0.267 21 E1
149TBS G CC=0.000782 11$KC=0.000548 8$LC=7.12E-5 10$MC=1.534E-5 21
149TBS G NC=3.54E-6 5$OC=5.46E-7 8$PC=3.68E-8 5$IPC=0.0001437 20
149TB cG M$|a(K)exp<6.0|*10{+-4}
149TB G 1670.0 1 0.63 3 E1
149TBS G CC=0.000813 11$KC=0.000415 6$LC=5.37E-5 8$MC=1.156E-5 16
149TBS G NC=2.67E-6 4$OC=4.12E-7 6$PC=2.79E-8 4$IPC=0.000329 5
149TB cG E,RI$others: 1670.3 {I5}, with I|g=0.70 {I16} (1990Sa32);
149TB2cG 1671.0 {I4}, with I|g=0.59 {I6} (1981ZuZZ)
149TB cG M$|a(K)exp=4.5|*10{+-4} {I8}
149TB G 1776.2 1 11.66 50 E1
149TBS G CC=0.000845 12$KC=0.000375 5$LC=4.84E-5 7$MC=1.043E-5 15
149TBS G NC=2.406E-6 34$OC=3.72E-7 5$PC=2.525E-8 35$IPC=0.000408 6
149TB cG E,RI$others: 1776.5 {I5}, with I|g=11.7 {I8} (1990Sa32); 1776.5 {I2},
149TB2cG I|g=11.7 {I18} (1975To03); 1776.2 {I4}, with I|g=11.7 {I12} (1981ZuZZ)
149TB cG M$|a(K)exp=3.8|*10{+-4} {I3}
149TB L 1883.08 8 (9/2)-
149TB E 0.20 1 8.4 3 5.00 3 8.6 3
149TBS E EAV=411.1 40$CK=0.8169 7$CL=0.12394 13$CM+=0.03630 4
149TB G 409.4 1 0.139 23
149TB G 422.0 4 0.046 23
149TB G 457.0 1 0.159 17M1 0.0345 5
149TBS G KC=0.0293 4$LC=0.00412 6$MC=0.000896 13
149TBS G NC=0.0002072 29$OC=3.20E-5 4$PC=2.141E-6 30
149TB cG M$|a(K)exp=0.046 {I20}
149TB G 501.1 2 0.208 23M1 0.0273 4 D
149TBS G KC=0.02313 32$LC=0.00324 5$MC=0.000706 10
149TBS G NC=0.0001632 23$OC=2.522E-5 35$PC=1.689E-6 24
149TB cG M$|a(K)exp|?0.028 {I8}
149TB G 699.3 2 0.127 14
149TB G 794.5 3 0.21 5
149TB G 901.0 1 0.313 19(E1) 1.45E-3 2
149TBS G KC=0.001241 17$LC=0.0001641 23$MC=3.54E-5 5
149TBS G NC=8.17E-6 11$OC=1.255E-6 18$PC=8.29E-8 12
149TB cG E,RI$other: 900.9 {I5}, with I|g=0.23 {I9} (1990Sa32)
149TB cG M$|a(K)exp<0.0023
149TB G 912.8 3 0.86 16[E1] 1.41E-3 2 H
149TBS G KC=0.001211 17$LC=0.0001600 22$MC=3.46E-5 5
149TBS G NC=7.97E-6 11$OC=1.224E-6 17$PC=8.09E-8 11
149TB cG E,RI$other: 912.9 {I5}, with I|g=0.68 {I13} (1990Sa32)
149TB cG M$|a(K)exp|?0.0033 {I6} for 912.8+913.2 doublet gives
149TB2cG E2(+M1), |d>1.2, but E1 required by level scheme
149TB G 1010.6 1 2.30 21M1 0.00481 7 D
149TBS G NC=2.81E-5 4$OC=4.35E-6 6$PC=2.95E-7 4
149TBS G KC=0.00409 6$LC=0.000560 8$MC=0.0001215 17
149TB cG E,RI$others: 1010.7 {I3}, with I|g=2.69 {I20} (1990Sa32);
149TB2cG 1010.3 {I4}, with I|g=2.21 {I22} (1981ZuZZ, unplaced)
149TB cG M$|a(K)exp|?0.0042 {I3}
149TB G 1042.1 4 0.035 12
149TB G 1057.9 1 1.89 3 M1 0.00431 6
149TBS G KC=0.00367 5$LC=0.000501 7$MC=0.0001088 15
149TBS G NC=2.515E-5 35$OC=3.89E-6 5$PC=2.64E-7 4
149TB cG E,RI$others: 1058.0 {I5}, with I|g=1.91 {I14} (1990Sa32);
149TB2cG 1057.7 {I4}, with I|g=1.62 {I16} (1981ZuZZ, unplaced)
149TB cG M$|a(K)exp=0.0041 {I4}
149TB G 1193.7 2 0.234 17M1 0.00324 5
149TBS G KC=0.00275 4$LC=0.000375 5$MC=8.13E-5 11
149TBS G NC=1.879E-5 26$OC=2.91E-6 4$PC=1.979E-7 28$IPC=5.41E-6 8
149TB cG E,RI$others: 1193.7 {I5}, with I|g=0.23 {I11} (1990Sa32);
149TB2cG 1194.2 {I4}, with I|g=1.03 {I10} (1981ZuZZ) for a composite line
149TB cG M$|a(K)exp=0.0036 {I12}
149TB G 1422.6 1 1.89 3 E1
149TBS G CC=0.000782 11$KC=0.000544 8$LC=7.06E-5 10$MC=1.522E-5 21
149TBS G NC=3.51E-6 5$OC=5.42E-7 8$PC=3.65E-8 5$IPC=0.0001480 21
149TB cG E,RI$others: 1422.7 {I5}, with I|g=2.7 {I4} (1990Sa32);
149TB2cG 1422.1 {I4}, with I|g=3.1 {I3} (1981ZuZZ)
149TB cG M$|a(K)exp=6.0|*10{+-4} {I10}
149TB G 1847.3 2 0.19 2
149TB L 1928.15 17 (7/2-,9/2-)
149TB E 0.0086 10 0.44 5 6.26 6 0.45 5
149TBS E EAV=391.3 40$CK=0.8199 6$CL=0.1245 2$CM+=0.03648 4
149TB G 501.8 3 0.056 20
149TB G 1084 1 0.02 LT
149TB G 1103.2 3 0.170 20
149TB G 1239.0 4 0.05 2 (M1) 0.00297 4 E
149TBS G KC=0.002521 35$LC=0.000343 5$MC=7.43E-5 10
149TBS G NC=1.719E-5 24$OC=2.66E-6 4$PC=1.811E-7 25$IPC=1.153E-5 17
149TB cG M$|a(K)exp|?0.0035 {I12}
149TB G 1467.6 3 0.14 3 (E1) H
149TBS G CC=0.000780 11$KC=0.000516 7$LC=6.69E-5 9$MC=1.442E-5 20
149TBS G NC=3.33E-6 5$OC=5.14E-7 7$PC=3.47E-8 5$IPC=0.0001794 25
149TB cG M$|a(K)exp|?9|*10{+-4} {I4} for 1467.6+1468.7 doublet suggests D or E2;
149TB2cG E1 from level scheme
149TB G 1892.4 4 0.038 6
149TB L 1953.13 9 9/2-
149TB E 0.068 3 3.92 7 5.30 2 3.99 7
149TBS E EAV=380.4 40$CK=0.8214 6$CL=0.1249 2$CM+=0.03658 4
149TB G 479.5 4 0.035 12
149TB G 769.3 2 0.10 3 (M1) 0.0093213 E
149TBS G KC=0.00793 11$LC=0.001095 15$MC=0.0002379 33
149TBS G NC=5.50E-5 8$OC=8.51E-6 12$PC=5.74E-7 8
149TB G 819.6 3 0.08 3 [E1] 1.74E-3 2 H
149TBS G KC=0.001491 21$LC=0.0001980 28$MC=4.28E-5 6
149TBS G NC=9.86E-6 14$OC=1.513E-6 21$PC=9.93E-8 14
149TB cG M$|a(K)exp=0.0063 {I25} for 819.3+819.6 doublet gives M1(+E2), |d<1.5,
149TB2cG but E1 required from level scheme
149TB G 1080.6 1 0.975 19M1 0.00409 6
149TBS G KC=0.00349 5$LC=0.000476 7$MC=0.0001033 14
149TBS G NC=2.389E-5 33$OC=3.70E-6 5$PC=2.510E-7 35
149TB cG E,RI$others: 1080.4 {I5}, with I|g=1.02 {I9} (1990Sa32);
149TB2cG 1078.9 {I4}, with I|g=1.18 {I12} (1981ZuZZ)
149TB cG M$|a(K)exp=0.0038 {I4}
149TB G 1109.2 3 0.162 18
149TB G 1128.0 3 0.085 16
149TB G 1263.8 1 0.85 3 M1 0.00284 4
149TBS G KC=0.002406 34$LC=0.000327 5$MC=7.09E-5 10
149TBS G NC=1.639E-5 23$OC=2.54E-6 4$PC=1.728E-7 24$IPC=1.560E-5 22
149TB cG E,RI$others: 1263.4 {I5}, with I|g=0.64 {I7} (1990Sa32);
149TB2cG 1263.8 {I4}, with I|g=1.03 {I10} (1981ZuZZ, unplaced)
149TB cG M$|a(K)exp=0.0025 {I3}
149TB G 1492.7 3 0.058 20
149TB G 1917.4 1 1.64 2 E2(+M1) 1.3 GT 0.00112 6
149TBS G KC=0.00074 4$LC=9.9E-5 6$MC=2.15E-5 12
149TBS G NC=4.96E-6 29$OC=7.7E-7 5$PC=5.14E-8 33$IPC=0.000255 8
149TB cG E,RI$others: 1917.1 {I5}, with I|g=1.57 {I13} (1990Sa32);
149TB2cG 1917.6 {I4}, with I|g=1.62 {I16} (1981ZuZZ, unplaced)
149TB cG M,MR$from |a(K)exp=7.2|*10{+-4} {I5}; E2 given in Table 1 of 2019MeZX
149TB L 1986.44 20 (3/2-,5/2,7/2-)
149TB cL J$(3/2-,5/2) in 2019MeZX
149TB E 0.0032 8 0.22 5 6.5 1 0.22 5
149TBS E EAV=365.7 40$CK=0.8233 5$CL=0.1253 1$CM+=0.03670 4
149TB G 1033.2 4 0.023 12
149TB G 1231.5 3 0.085 20
149TB G 1297.2 4 0.046 19
149TB G 1779.8 4 0.07 3
149TB L 2014.73 14 (9/2)-
149TB E 0.0099 11 0.76 8 5.98 5 0.77 8
149TBS E EAV=353.2 40$CK=0.8247 5$CL=0.1256 1$CM+=0.03680 3
149TB G 553.6 3 0.07 3
149TB G 588.6 4 0.06 3
149TB G 1032.6 3 0.07 2
149TB G 1142.2 3 0.162 17M1 0.00359 5
149TBS G KC=0.00306 4$LC=0.000417 6$MC=9.04E-5 13
149TBS G NC=2.090E-5 29$OC=3.24E-6 5$PC=2.198E-7 31$IPC=1.450E-6 24
149TB cG E,RI$other: 1142.6 {I5}, with I|g=0.18 {I5} (1990Sa32)
149TB cG M$|a(K)exp=0.0037 {I9}
149TB G 1173.9 4 0.14 4
149TB cG E$other: 1170.9 {I5} with I|g=0.05 {I4} from 1990Sa32
149TB G 1189.6 3 0.150 23(M1+E2) 0.0026 6 H
149TBS G KC=0.0022 5$LC=0.00031 7$MC=6.8E-5 14
149TBS G NC=1.56E-5 33$OC=2.4E-6 5$PC=1.6E-7 4$IPC=4.68E-6 30
149TB cG E,RI$others: 1189.9 {I5}, with I|g=0.30 {I13} (1990Sa32);
149TB2cG 1189.0 {I4}, with I|g=0.89 {I9} (1981ZuZZ) for a composite line
149TB cG M$|a(K)exp|?0.0013 {I4}
149TB G 1325.0 4 0.07 2
149TB G 1979.5 4 0.046 11
149TB L 2026.32 10 (7/2)-
149TB E 0.0144 14 1.17 10 5.79 5 1.18 10
149TBS E EAV=348.3 40$CK=0.8253 5$CL=0.1257 1$CM+=0.03683 3
149TB G 517.4 3 0.09 4 (M1) 0.0251335 H
149TBS G KC=0.02132 30$LC=0.00299 4$MC=0.000650 9
149TBS G NC=0.0001503 21$OC=2.322E-5 33$PC=1.556E-6 22
149TB cG M$|a(K)exp|?0.033 {I15}
149TB G 565.3 2 0.091 23
149TB G 600.2 2 0.11 4 (M1) 0.0172724 H
149TBS G KC=0.01466 21$LC=0.002043 29$MC=0.000444 6
149TBS G NC=0.0001028 14$OC=1.589E-5 22$PC=1.067E-6 15
149TB cG M$|a(K)exp|?0.020 {I5}
149TB G 937.8 2 0.087 21(M1) 0.00575 8
149TBS G KC=0.00490 7$LC=0.000672 9$MC=0.0001459 20
149TBS G NC=3.37E-5 5$OC=5.22E-6 7$PC=3.54E-7 5
149TB cG M$|a(K)exp=0.0049 {I24}
149TB G 1044.3 3 0.06 3
149TB G 1056 1 0.023 12
149TB G 1188.9 3 0.243 24 (E1) H
149TBS G CC=0.000888 12$KC=0.000744 10$LC=9.73E-5 14$MC=2.098E-5 29
149TBS G NC=4.84E-6 7$OC=7.46E-7 10$PC=4.99E-8 7$IPC=1.987E-5 30
149TB cG M$|a(K)exp|?0.0013 {I4} suggests E1 or E2; E1 from level scheme
149TB G 1201.3 3 0.06 2 (M1) 0.00319 4 &
149TBS G KC=0.00271 4$LC=0.000369 5$MC=8.00E-5 11
149TBS G NC=1.851E-5 26$OC=2.87E-6 4$PC=1.949E-7 27$IPC=6.29E-6 10
149TB cG M$|a(K)exp=0.0029 {I9}
149TB G 1284.7 3 0.06 2
149TB G 1565.8 2 0.148 19 E1
149TBS G CC=0.000790 11$KC=0.000462 6$LC=5.99E-5 8$MC=1.290E-5 18
149TBS G NC=2.98E-6 4$OC=4.60E-7 6$PC=3.11E-8 4$IPC=0.0002511 35
149TB cG M$|a(K)exp<8.0|*10{+-4}
149TB G 1819.3 3 0.20 4
149TB L 2065.37 7 7/2-
149TB E 0.105 6 10.4 3 4.82 3 10.5 3
149TBS E EAV=331.1 40$CK=0.8269 4$CL=0.12609 9$CM+=0.03696 3
149TB G 188.5 1 0.183 18M1 0.367 5
149TBS G KC=0.310 4$LC=0.0448 6$MC=0.00977 14
149TBS G NC=0.002259 32$OC=0.000348 5$PC=2.301E-5 32
149TB cG E,RI$other: 188.3 {I5}, with I|g=0.11 {I7} (1990Sa32)
149TB cG M$|a(K)exp=0.38 {I8}
149TB G 337.1 2 0.11 3
149TB G 556.8 2 0.21 4 (M1) 0.0208629 H
149TBS G KC=0.01771 25$LC=0.002474 35$MC=0.000538 8
149TBS G NC=0.0001244 17$OC=1.924E-5 27$PC=1.291E-6 18
149TB cG M$|a(K)exp|?0.019 {I5}
149TB G 577.8 2 0.162 19 (E1) 0.00358 5
149TBS G KC=0.00306 4$LC=0.000413 6$MC=8.93E-5 13
149TBS G NC=2.056E-5 29$OC=3.14E-6 4$PC=2.013E-7 28
149TB cG M$|a(K)exp<0.013 gives (E1,E2); E1 from level scheme
149TB G 683.7 3 0.13 4 (M1) 0.0124818 H
149TBS G KC=0.01060 15$LC=0.001470 21$MC=0.000320 4
149TBS G NC=7.39E-5 10$OC=1.143E-5 16$PC=7.70E-7 11
149TB cG M$|a(K)exp|?0.013 {I2}
149TB G 859.6 4 0.08 3
149TBF G FL=1205.95
149TB G 860.1 2 0.75 13(E1) 1.59E-3 2 H
149TBF G FL=1205.37
149TBS G KC=0.001357 19$LC=0.0001798 25$MC=3.88E-5 5
149TBS G NC=8.95E-6 13$OC=1.375E-6 19$PC=9.05E-8 13
149TB cG M$|a(K)exp|?0.0016 {I2}
149TB cG E,RI$1990Sa32 and 1981ZuZZ report composite line at
149TB2cG 859.5 and 860.4, respectively.
149TB G 876.2 3 0.21 4
149TB G 881.4 2 0.35 3 M1 0.00669
149TBS G KC=0.00569 8$LC=0.000782 11$MC=0.0001699 24
149TBS G NC=3.93E-5 6$OC=6.08E-6 9$PC=4.11E-7 6
149TB cG M$|a(K)exp=0.0074 {I16}
149TB G 945.4 2 0.233 21E1 1.32E-3 2
149TBS G NC=7.44E-6 10$OC=1.144E-6 16$PC=7.57E-8 11
149TBS G KC=0.001133 16$LC=0.0001495 21$MC=3.23E-5 5
149TB cG E,RI$other: 945.5 {I5}, with I|g=0.23 {I7} (1990Sa32)
149TB cG M$|a(K)exp=0.0013 {I5}
149TB G 1083.4 2 0.72 2 (E1) 1.03E-3 1 F
149TBS G KC=0.000880 12$LC=0.0001154 16$MC=2.491E-5 35
149TBS G NC=5.74E-6 8$OC=8.84E-7 12$PC=5.89E-8 8
149TB cG E,RI$other: 1083.2 {I5}, with I|g=0.71 {I13} (1990Sa32)
149TB cG M$|a(K)exp=0.0015 {I5}
149TB G 1095.0 2 0.317 16E1 1.01E-3 1
149TBS G KC=0.000863 12$LC=0.0001132 16$MC=2.441E-5 34
149TBS G NC=5.63E-6 8$OC=8.67E-7 12$PC=5.78E-8 8
149TB cG E,RI$other: 1095.2 {I5}, with I|g=0.30 {I7} (1990Sa32)
149TB cG M$|a(K)exp<0.0013
149TB G 1195.6 2 0.68 2 E1
149TBS G CC=0.000882 12$KC=0.000737 10$LC=9.63E-5 13$MC=2.076E-5 29
149TBS G NC=4.79E-6 7$OC=7.38E-7 10$PC=4.94E-8 7$IPC=2.242E-5 32
149TB cG E,RI$others: 1195.7 {I5}, with I|g=0.68 {I16} (1990Sa32);
149TB2cG 1194.2 {I4}, with I|g=1.03 {I10} (1981ZuZZ, unplaced) for a composite
149TB3cG line
149TB cG M$|a(K)exp=7.0|*10{+-4} {I20}
149TB G 1221.2 1 0.552 21 E1
149TBS G CC=0.000861 12$KC=0.000709 10$LC=9.26E-5 13$MC=1.998E-5 28
149TBS G NC=4.61E-6 6$OC=7.10E-7 10$PC=4.76E-8 7$IPC=3.32E-5 5
149TB cG E,RI$others: 1221.3 {I5}, with I|g=0.75 {I16} (1990Sa32);
149TB2cG 1220.0 {I4}, with I|g=0.89 {I9} (1981ZuZZ, unplaced)
149TB cG M$|a(K)exp=7.0|*10{+-4} {I20}
149TB G 1228.2 1 0.472 20 E1
149TBS G CC=0.000855 12$KC=0.000702 10$LC=9.17E-5 13$MC=1.977E-5 28
149TBS G NC=4.56E-6 6$OC=7.03E-7 10$PC=4.71E-8 7$IPC=3.63E-5 5
149TB cG E,RI$others: 1228.4 {I5}, with I|g=0.59 {I14} (1990Sa32);
149TB2cG 1227.5 {I4}, with I|g=0.74 {I7} (1981ZuZZ)
149TB cG M$|a(K)exp=1.0|*10{+-3} {I3}
149TB G 1240.1 3 0.13 3 M1 0.00296 4 D
149TBS G KC=0.002515 35$LC=0.000342 5$MC=7.42E-5 10
149TBS G NC=1.715E-5 24$OC=2.66E-6 4$PC=1.807E-7 25$IPC=1.170E-5 17
149TB cG M$|a(K)exp|?0.0035 {I12}
149TB G 1323.7 1 1.07 6 E1 D
149TBS G CC=0.000802 11$KC=0.000616 9$LC=8.02E-5 11$MC=1.728E-5 24
149TBS G NC=3.99E-6 6$OC=6.15E-7 9$PC=4.13E-8 6$IPC=8.40E-5 12
149TB cG E,RI$other: 1323.8 {I5}, with I|g=1.28 {I5} (1990Sa32)
149TB cG M$|a(K)exp|?7.7|*10{+-4} {I15}
149TB G 1376.0 1 0.647 21M1 2.35E-3 3
149TBS G KC=0.001971 28$LC=0.000267 4$MC=5.79E-5 8
149TBS G NC=1.339E-5 19$OC=2.075E-6 29$PC=1.413E-7 20$IPC=4.17E-5 6
149TB cG E,RI$others: 1376.0 {I5}, with I|g=0.68 {I23} (1990Sa32);
149TB2cG 1375.8 {I4}, with I|g=0.89 {I9} (1981ZuZZ, unplaced)
149TB cG M$|a(K)exp=0.0025 {I5}
149TB G 1604.8 3 0.051 21
149TB G 1858.4 1 0.80 2 E1
149TBS G CC=0.000875 12$KC=0.000349 5$LC=4.49E-5 6$MC=9.67E-6 14
149TBS G NC=2.232E-6 31$OC=3.45E-7 5$PC=2.346E-8 33$IPC=0.000469 7
149TB cG E,RI$other: 1858.6 {I5}, with I|g=1.18 {I22} (1990Sa32)
149TB cG M$|a(K)exp=4.4|*10{+-4} {I12}
149TB G 2029.6 1 2.58 20E2 1.04E-3 1
149TBS G KC=0.000628 9$LC=8.41E-5 12$MC=1.819E-5 25
149TBS G NC=4.20E-6 6$OC=6.48E-7 9$PC=4.34E-8 6$IPC=0.000300 4
149TB cG M$|a(K)exp=6.1|*10{+-4} {I5}
149TB cG E,RI$other: 2030.3 {I4}, with I|g=2.36 {I24} (1981ZuZZ), unplaced
149TB L 2074.22 9 7/2-
149TB E 0.0166 12 1.72 9 5.60 3 1.74 9
149TBS E EAV=327.2 40$CK=0.8273 4$CL=0.12618 9$CM+=0.03698 3
149TB G 197.2 3 0.035 22
149TB G 648.0 4 0.035 10
149TB G 986.0 4 0.08 3
149TB G 1092.3 5 0.05 3
149TB G 1201.8 3 0.06 2 (E2) 2.00E-3 3 &
149TBF G FLAG=H
149TBS G KC=0.001685 24$LC=0.0002391 34$MC=5.21E-5 7
149TBS G NC=1.201E-5 17$OC=1.835E-6 26$PC=1.165E-7 16$IPC=5.61E-6 8
149TB cG M$|a(K)exp|?0.0029 {I9} gives (M1,E2); E2 from level scheme
149TB cG M$(M1) given in Table I of 2019MeZX could be a typo, since the final
149TB2cG J|p=9/2- for 872 level is incorrect, which should be 11/2- instead,
149TB3cG as given earlier in Table I for that level.
149TB G 1204.5 2 0.134 19 (E1)
149TBS G CC=0.000874 12$KC=0.000727 10$LC=9.50E-5 13$MC=2.048E-5 29
149TBS G NC=4.73E-6 7$OC=7.28E-7 10$PC=4.88E-8 7$IPC=2.60E-5 4
149TB cG M$|a(K)exp=0.0012 {I7}
149TB G 1236.9 2 0.22 5 (E1) H
149TBS G CC=0.000849 12$KC=0.000694 10$LC=9.05E-5 13$MC=1.952E-5 27
149TBS G NC=4.50E-6 6$OC=6.94E-7 10$PC=4.65E-8 7$IPC=4.03E-5 6
149TB cG E,RI$other: 1237.3 {I5}, with I|g=0.23 {I9} (1990Sa32);
149TB2cG 1235.9 {I4}, with I|g=0.59 {I6} (1981ZuZZ, unplaced) for a composite
149TB3cG line
149TB cG M$|a(K)exp|?1.0|*10{+-3} {I4}
149TB G 1248.9 3 0.035 12
149TB G 1384.7 3 0.19 5 (M1) 2.32E-3 3 @ ?
149TBF G FLAG=H
149TBS G KC=0.001942 27$LC=0.000263 4$MC=5.70E-5 8
149TBS G NC=1.319E-5 18$OC=2.044E-6 29$PC=1.393E-7 20$IPC=4.43E-5 6
149TB cG E,RI$others: 1384.9 {I5}, with I|g=0.23 {I11} (1990Sa32);
149TB2cG 1385.0 {I4}, with I|g=0.89 {I9} (1981ZuZZ, unplaced) for a composite
149TB3cG line
149TB cG M$|a(K)exp|?0.0020 {I3}
149TB G 1613.8 2 0.160 16 E1
149TBS G CC=0.000799 11$KC=0.000440 6$LC=5.69E-5 8$MC=1.225E-5 17
149TBS G NC=2.83E-6 4$OC=4.37E-7 6$PC=2.96E-8 4$IPC=0.000287 4
149TB cG M$|a(K)exp<5.0|*10{+-4}
149TB G 1867.3 1 0.68 2 E1
149TBS G CC=0.000878 12$KC=0.000346 5$LC=4.46E-5 6$MC=9.60E-6 13
149TBS G NC=2.215E-6 31$OC=3.42E-7 5$PC=2.328E-8 33$IPC=0.000476 7
149TB cG E,RI$other: 1867.5 {I5}, with I|g=0.57 {I14} (1990Sa32)
149TB cG M$|a(K)exp=2.9|*10{+-4} {I8}
149TB G 2038.5 2 0.252 12E2 1.03E-3 1
149TBS G KC=0.000623 9$LC=8.34E-5 12$MC=1.804E-5 25
149TBS G NC=4.17E-6 6$OC=6.43E-7 9$PC=4.31E-8 6$IPC=0.000304 4
149TB cG M$|a(K)exp=6.6|*10{+-4} {I13}
149TB L 2117.14 20 (5/2-,7/2-)
149TB E 0.0011616 0.153 20 6.63 6 0.154 20
149TBS E EAV=308.4 40$CK=0.8288 3$CL=0.12657 8$CM+=0.03711 3
149TB G 1427.9 5 0.023 12
149TB G 1910.2 2 0.131 15 (E1)
149TBS G NC=2.134E-6 30$OC=3.30E-7 5$PC=2.245E-8 31$IPC=0.000507 7
149TBS G CC=0.000895 13$KC=0.000334 5$LC=4.29E-5 6$MC=9.24E-6 13
149TB cG M$|a(K)exp=4.0|*10{+-4} {I20}
149TB L 2157.98 14 (7/2)-
149TB E 0.0041 5 0.69 8 5.95 6 0.69 8
149TBS E EAV=290.4 40$CK=0.8300 3$CL=0.12692 8$CM+=0.03722 3
149TB G 697.0 5 0.05 3
149TB G 731.6 2 0.197 16M1 0.0105515
149TBS G KC=0.00897 13$LC=0.001241 17$MC=0.000270 4
149TBS G NC=6.24E-5 9$OC=9.65E-6 14$PC=6.50E-7 9
149TB cG M$|a(K)exp=0.010 {I2}
149TB G 974.5 4 0.08 3 (E2) 0.00306 4 E
149TBS G KC=0.00257 4$LC=0.000379 5$MC=8.30E-5 12
149TBS G NC=1.910E-5 27$OC=2.90E-6 4$PC=1.775E-7 25
149TB cG M$|a(K)exp=0.0020 {I4} for 973.4+972.2+974.5 triplet gives E2 or
149TB2cG E1, the latter within 2|s uncertainty
149TB G 1288.5 3 0.12 4 [E1] &
149TBF G FLAG=H
149TBS G CC=0.000818 11$KC=0.000645 9$LC=8.41E-5 12$MC=1.814E-5 25
149TBS G NC=4.18E-6 6$OC=6.45E-7 9$PC=4.33E-8 6$IPC=6.51E-5 9
149TB cG M$|a(K)exp|?0.0020 {I5}
149TB G 1332.9 4 0.05 2
149TB G 1468.7 3 0.13 3 (M1+E2) 0.0017333 H
149TBS G KC=0.00142 28$LC=0.00019 4$MC=4.2E-5 8
149TBS G NC=9.7E-6 18$OC=1.50E-6 28$PC=1.00E-7 21$IPC=6.8E-5 5
149TB cG M$|a(K)exp|?9|*10{+-4} {I4} for 1467.6+1468.7 doublet suggests
149TB2cG D or E2; M1+E2 from level scheme
149TB G 1697.4 3 0.058 13
149TB L 2161.04 14 (9/2)-
149TB E 0.0063 6 1.07 9 5.76 5 1.08 9
149TBS E EAV=289.1 40$CK=0.8300 3$CL=0.12695 8$CM+=0.03723 3
149TB G 972.2 3 0.22 5 (E2) 0.00307 4 H
149TBS G KC=0.00258 4$LC=0.000381 5$MC=8.34E-5 12
149TBS G NC=1.921E-5 27$OC=2.92E-6 4$PC=1.783E-7 25
149TB cG M$|a(K)exp=0.0020 {I4} for 972.2+973.4974.5 triplet gives E2 or
149TB2cG E1, the latter within 2|s uncertainty
149TB G 1027.1 3 0.08 3
149TB G 1288.5 3 0.12 4 (M1) 0.00272 4 &
149TBF G FLAG=H
149TBS G KC=0.002299 32$LC=0.000312 4$MC=6.77E-5 9
149TBS G NC=1.565E-5 22$OC=2.425E-6 34$PC=1.650E-7 23$IPC=2.011E-5 29
149TB cG M$|a(K)exp|?0.0020 {I5}
149TB G 1320.4 4 0.093 16
149TB G 1471.7 2 0.34 3 M1 2.05E-3 3
149TBS G KC=0.001685 24$LC=0.0002280 32$MC=4.94E-5 7
149TBS G NC=1.143E-5 16$OC=1.771E-6 25$PC=1.207E-7 17$IPC=7.38E-5 10
149TB cG M$|a(K)exp|?0.0021 {I4}
149TB G 1700.7 4 0.06 2
149TB G 2125.3 3 0.17 3 D,E2
149TB cG M$|a(K)exp=4.0|*10{+-4} {I20}
149TB L 2260.33 19 (7/2-,9/2)
149TB E 0.0009922 0.34 7 6.2 1 0.34 7
149TBS E EAV=245.2 40$CK=0.8319 2$CL=0.12770 7$CM+=0.03747 2
149TB G 1278.5 3 0.13 4
149TB G 1387.9 3 0.08 4
149TB G 2224.3 3 0.13 3
149TB L 2352.30 19 (7/2-,9/2)
149TB E 0.00016925 0.130 15 6.56 6 0.130 15
149TBS E EAV=204.7 40$CK=0.8327$CL=0.12830 6$CM+=0.03766 2
149TB G 1527.3 3 0.044 10
149TB G 1891.8 3 0.043 6
149TB G 2316.4 3 0.043 9
149TB L 2452.5 3 (9/2-)
149TB E 0.053 13 6.9 1 0.053 13
149TBS E CK=0.8328$CL=0.12891 6$CM+=0.03787 2
149TB G 1627.5 4 0.017 10
149TB G 2416.7 3 0.036 7
149TB L 2486.59 25 (5/2,7/2,9/2+)
149TB E 0.084 23 6.7 1 0.084 23
149TBS E CK=0.8327$CL=0.12912 6$CM+=0.03794 2
149TB G 2026.2 4 0.05 2
149TB G 2279.6 3 0.034 10
149TB L 2516.33 24 (7/2-)
149TB E 0.089 12 6.6 1 0.089 12
149TBS E CK=0.8325$CL=0.12931 6$CM+=0.03801 2
149TB G 1428.0 5 0.017 9
149TB G 2309.3 3 0.058 6
149TB G 2480.6 5 0.014 4
149TB L 2547.5 3 (5/2,7/2+)
149TB E 0.069 15 6.7 1 0.069 15
149TBS E CK=0.8323$CL=0.12951 6$CM+=0.03808 2
149TB G 2087.3 5 0.012 6
149TB G 2340.5 5 0.030 12
149TB G 2446.5 4 0.027 6
149TB L 2566.1 3 (7/2-,9/2)
149TB E 0.041 12 6.9 1 0.041 12
149TBS E CK=0.8322$CL=0.12963 6$CM+=0.03812 2
149TB G 2105.4 4 0.029 10
149TB G 2530.5 4 0.012 5
149TB L 2573.4 3 (7/2-,9/2)
149TB E 0.041 12 6.9 1 0.041 12
149TBS E CK=0.8321$CL=0.12968 6$CM+=0.03813 3
149TB G 2113.0 4 0.029 10
149TB G 2537.6 4 0.012 5
149TB L 2588.60 13 (5/2,7/2)
149TB E 0.02 1 7.2 2 0.02 1
149TBS E CK=0.8320$CL=0.12978 7$CM+=0.03817 3
149TB G 2128.1 1 0.02 1
149TB L 2661.4 3 (9/2-)
149TB E 0.047 9 6.8 1 0.047 9
149TBS E CK=0.8313 1$CL=0.13031 7$CM+=0.03835 3
149TB G 1789.0 4 0.032 7
149TB G 2625.6 4 0.015 5