151GD 151TB EC DECAY (17.609 H) 1986BUZX 09NDS 200901
151GD H TYP=FUL$AUT=BALRAJ SINGH$CIT=NDS 110, 1 (2009)$CUT=20-Nov-2008$
151GD D 1987BaZB REPORT SUBSHELL DATA FOR 108.1G AND 287.35G
151GD c |g, |g|g measurements with germanium detectors. Unless noted otherwise,
151GD2c the transition placements are from |g|g data
151GD c Other main references: 1982Ba51, 1975Ha18, 1971Go27
151GD c |g-ray data: 1986BuZX, 1982Ba51, 1975Ha18, 1971Go27. Others: 1984Gr15,
151GD2c 1984Sc18, 1975SpZU, 1973St22, 1972Fl09, 1970Ch09, 1967Vi05, 1963Mi04,
151GD3c 1962St26, 1960To10, 1958Ba46, 1958To33, 1957Mi67
151GD c |g|g data: 1986BuZX, 1984Sc18, 1982Ba51, 1975Ha18, 1971Go27, 1970GrZZ
151GD c |g|g(|q) data: 1979Va14, 1972Va27. Both are from the same laboratory
151GD c |g|g(t) data: 1969BoZR
151GD c |g(|q,T) data: 1985Fi06, 1983Pr04
151GD c |g|g(|q,H) data: 1977VaZJ, 1976Ba26, 1975AfZZ, 1972Af04. Others:
151GD2c 1976Ba59, 1977GrZF
151GD c |g(ce) data: 1978Al15, 1967Vi05
151GD c |g(ce)(t) data: 1972Af03, 1971VaZV, 1970Mo14, 1969Ba64
151GD c ce data: 1987BaZB, 1982Ba51, 1975Ha18, 1975Ku12, 1971Go27, 1967Vi05,
151GD2c 1967Ko15, 1962Ha24, 1961St15, 1960Fr06, 1958An38, 1957Mi67
151GD c ce-ce data: 1971Go27
151GD c (ce)(ce)(t) data: 1971VaZV, 1970Mo14, 1969Ba64
151GD c |b{++} data and ce |b{++} data: 1977Cr05
151GD c Production and T{-1/2} of {+151}Tb: 1984Gr15, 1971Go27, 1970Ch09,
151GD2c 1963Mi11, 1960To10. Others: 1973St22, 1972Fl09, 1967Ko15, 1962St26,
151GD3c 1961St15, 1960To05, 1960Fr06, 1958An38, 1958Ba46, 1958To33, 1957Mi67,
151GD4c 1953Ra02
151GD c Q(|e) measurement: 1984Sc18, 1977Cr05, 1971Go27
151GD TG
151GD2TG GG(THETA) data (from 1979Va14. Other: 1972Va27)
151GD3TG
151GD4TG G - G cascade A2 A4
151GD5TG -------------------------------------------
151GD6TG 180 - 287 +0.22 2 +0.02 4
151GD7TG 180 - 395 -0.08 5 -0.05 10
151GD8TG 180-(287)-108 -0.209 14 -0.02 3
151GD9TG 192 - 287 -0.06 3 -0.01 5
151GDATG 192 - 395 +0.04 4 -0.02 10
151GDBTG 192-(287)-108 +0.08 4 +0.03 8
151GDCTG 252 - 192 -0.15 3 0.00 6
151GDDTG 252 - 479 +0.156 12 -0.01 3
151GDETG 252 - 587 -0.070 11 -0.00 2
151GDFTG 287 - 108 -0.342 13 +0.02 2
151GDGTG 380-(416)-287 +0.11 10 0.0 2
151GDHTG 416 - 287 +0.05 6
151GDITG 444 - 287 -0.168 14 -0.01 3
151GDJTG 444 - 395 +0.10 7 +0.01 14
151GDKTG 444-(287)-108 +0.16 2 -0.01 4
151GDLTG 467 - 108 +0.24 10 -0.03 18
151GDMTG 479 - 108 +0.040 11 +0.03 3
151GDNTG 605 - 479 +0.17 3 +0.04 5
151GDOTG 605 - 587 -0.067 16 0.00 4
151GDPTG 617 - 180 +0.04 4 +0.02 9
151GDQTG 617-(180)-287 +0.012 16 -0.02 3
151GDRTG 617 - 467 0.00 4 0.00 13
151GDSTG 692 - 287 +0.06 6
151GDTTG 692-(287)-108 -0.05 4 +0.02 10
151GDUTG 704 - 108 +0.05 2 +0.01 4
151GD TG
151GD TG
151GD TG Experimental conversion coefficients for transitions
151GD2TG below 750 KEV deduced from CE data of 1982Ba51, 1975Ha18, 1971Go27,
151GD+TG 1967Ko15,
151GD3TG 1967Vi05, 1962Ha24, 1961St15, 1960Fr06, 1958An38. The data for subshell
151GD+TG s are
151GD4TG given in the following table and for transitions above 750 KEV in the
151GD5TG main G table. A reference is quoted when CE data taken from one or two
151GD6TG sources. The data for ^N and ^O shells are from 1967Ko15
151GD7TG
151GD8TG EG EKC ELC EMC reference other shells
151GD9TG ---------------------------------------------------------------------
151GDATG 108.1 1.21 12 0.11 3 ENC=0.03 1
151GDBTG EOC+=0.006 2
151GDCTG 139.9 0.47 12 1971Go27
151GDDTG 148.9 1.1 2 1967Ko15
151GDETG 160.8 0.37 8 0.06 3 0.015 8
151GDFTG 180.2 0.34 3 0.05 2 0.011 5 ENC=0.004 2
151GDGTG EOC+=0.0003 2
151GDHTG 191.9 0.30 3 0.048 8 0.010 5
151GDITG 240.4 0.081 11 1982Ba51
151GDJTG 248.3 0.16 5 1971Go27
151GDKTG 251.9 0.022 5 0.0044 11 ENC=0.0012 6
151GDLTG EOC+=0.00025 12
151GDMTG 263.7 0.11 3
151GDNTG 287.4 0.094 9 0.014 1 0.004 1 ENC=0.0006 2
151GDOTG 318.6 0.066 16 0.017 8 0.004 2
151GDPTG 354.2 0.06 3 1982Ba51,1971Go27
151GDQTG 368.9 0.28 10 1971Go27
151GDRTG 380.3 0.0077 8
151GDSTG 385.1 0.050 10
151GDTTG 395.4 0.022 2 0.004 1
151GDUTG 401.9 0.05 4 1982Ba51
151GDVTG 405.7 0.06 3 1982Ba51
151GDWTG 416.4 0.035 4 0.006 2
151GDXTG 426.4 0.040 5 0.008 2
151GDYTG 443.9 0.029 1 0.0046 11 0.0012 6 also 1975Ku12
151GDZTG 451.7 0.018 10 1982Ba51
151GD2TG 467.5 0.021 7 1982Ba51,1971Go27
151GD3TG 476.5 0.024 3 1982Ba51
151GD4TG 479.3 0.014 2 0.0025 8 0.006 3
151GD5TG 499+500 0.020 2
151GD6TG 508.2 0.03 2 1982Ba51,1971Go27
151GD7TG 512+513 0.020 5
151GD8TG 534.7 0.006 2 1982Ba51
151GD9TG 562.5 0.019 4 1982Ba51
151GDATG 572.5 0.008 4 1982Ba51
151GDBTG 579+580 0.005 2 1982Ba51
151GDCTG 587.5 0.010 2 0.0015 5 0.0006 3
151GDDTG 604.7 0.0031 6
151GDETG 616.5 0.0032 6 0.0008 4
151GDFTG 620.6 0.0050 13 1982Ba51
151GDGTG 657+659 0.005 2 1982Ba51
151GDHTG 671.9 0.014 5 1982Ba51,1971Go27
151GDITG 692.1 0.008 3
151GDJTG 703.7 0.0090 12 0.0019 9
151GDKTG 727.4 0.007 2 1982Ba51
151GDLTG 731.2 0.0048 6 0.007 3 0.0019 9
151GDMTG
151GDNTG
151GD TG
151GD TG Experimental conversion coefficients for subshells.
151GD2TG Main CE data used is from 1967Ko15. See above table
151GD3TG for other CE data
151GD4TG
151GD5TG EG EL1C EL2C EL3C EM1C EM2C EM3C
151GD6TG ----------------------------------------------------------------------
151GD7TG 108.1 0.20 3 0.20 3 0.20 3 0.04 1 0.04 1 0.04 1
151GD8TG 148.9 0.33 11
151GDATG 180.2 0.047 12 0.006 2 0.0015 5 0.013 4
151GDBTG 191.9 0.042 10 0.0038 10 0.0008 2
151GDCTG 251.9 0.017 4 0.0016 5 0.0004 2 0.004 2
151GDDTG 287.4 0.011 2 0.0009 3 0.0004 2 0.0032 8
151GDETG 395.1 0.0024 8 0.0010 5 0.0006 3
151GDFTG 426.7 0.005 2
151GDGTG 443.9 0.0029 7
151GDHTG 479.3 0.0019 6
151GDITG 703.7 0.0012 6
151GDJTG 731.2 0.0006 3
151GDKTG
151GDLTG
151GD cG $The following transitions reported in some of the references have been
151GD2cG discarded for lack of confirmation: 1971Go27: 103.8, 118.2, 217.0,
151GD3cG 222.0, 255.4, 258.1, 267.0, 348, 378, 413.9, 440.2, 773.2, 901.9,
151GD4cG 1069.0, 1133.8, 1360.0, 1593.0. 1967Ko15, 1967Vi05: 181.7, 206.6, 344
151GD cG E,RI$From 1986BuZX. Authors quote statistical uncertainties. In some
151GD2cG cases the evaluator has rounded the energy values and increased
151GD3cG uncertainty to a minimum of 0.010~keV. An additional uncertainty of 3%
151GD4cG has been added in quadrature to I|g's. Values agree well with other
151GD5cG main references. Severe disagreements between 1986BuZX and 1982Ba51 are
151GD6cG noted
151GD cG M,MR$Unless otherwise stated values are from ce data. Sign of |d is
151GD2cG from |g|g(|q). |g|g(|q) data of 1979Va14 have been reanalyzed by the
151GD3cG evaluator using authors' quoted A{-2} and A{-4} coefficients
151GD cG CC$Theoretical values corresponding to assigned mult and |d deduced
151GD2cG from |a(exp)'s, subshell data and |g|g(|q). The ce data data have been
151GD3cG normalized to the 251.86|g treated as M1 (|a(K)=0.132). |a(exp)'s have
151GD4cG been deduced (evaluator) by using I|g's from 1986BuZX and Ice's from
151GD5cG unweighted av of available values. |a(exp) is assigned an uncertainty
151GD6cG of 25 to 50% when no error is quoted on Ice by the authors. For
151GD7cG mult=M1,E2; |a value overlaps both multipolarities
151GD cG E(A)$Poor fit to the decay scheme
151GD cG E(B)$Reported by 1982Ba51 only
151GD cG E(D)$Reported by 1986BuZX only
151GD cG E(E)$1986BuZX propose this as a part of a complex line. The authors
151GD2cG obtain E|g and I|g from |g|g data. Uncertainty of 0.5~keV to E|g and
151GD3cG 20% to I|g assigned by the evaluator
151GD cG E(F)$Placement by energy fit only (1986BuZX)
151GD cG E(G)$From 1986BuZX only. E|g and I|g from |g|g data. Uncertainty of
151GD2cG 0.5~keV to E|g and 20% to I|g assigned by the evaluator
151GD cL $The following levels suggested by 1982Ba51 and/or 1975Ha18 have been
151GD2cL discarded for lack of confirmation by |g|g data of 1986BuZX; the
151GD3cL transitions connected with these levels have been placed from other
151GD4cL levels: 1124, 1232, 1265, 1676, 1687, 1740, 1745, 1798, 1937, 1975 and
151GD5cL 2195
151GD cL E$From least-squares fit to E|g's. Normalized |h{+2}=2.6 is somewhat
151GD2cL higher than the critical value of 1.2
151GD cL J$See 'adopted levels' except when stated otherwise
151TB P 0.0 1/2(+) 17.609 H 14 2565 4
151GD N 0.283 8 0.99990515 1
151GD cN NR$From the intensity balance in the decay scheme. The |e decay to the
151GD2cN g.s. is assumed as zero
151GD PN 3
151GD G 354.21 12 0.06 3 M1,E2 0.049 13 B
151GDS G KC=0.040 12$LC=0.0067 6$MC=0.00149 11$NC+=0.00039 4
151GDS G NC=0.00034 3$OC=5.1E-5 6$PC=2.8E-6 10
151GD DG CE DATA: 1982Ba51, 1971Go27
151GD G 368.9 2 0.028 6 B
151GD cG $Probably an impurity line in ce
151GD DG CE DATA: 1971Go27
151GD G 401.9 5 0.07 4 M1,E2 0.035 10 B
151GDS G KC=0.029 9$LC=0.0046 7$MC=0.00102 12$NC+=0.00027 4
151GDS G NC=0.00023 3$OC=3.5E-5 6$PC=2.0E-6 8
151GD DG CE DATA: 1982Ba51
151GD G 451.73 9 0.08 1 M1,E2 0.026 8 B
151GDS G KC=0.021 7$LC=0.0033 6$MC=0.00073 12$NC+=0.00019 4
151GDS G NC=0.00017 3$OC=2.5E-5 5$PC=1.5E-6 6
151GD DG CE DATA: 1982Ba51
151GD G 508.2 6 0.12 5 M1,E2 0.019 6 B
151GDS G KC=0.016 5$LC=0.0024 5$MC=0.00052 10$NC+=0.00014 3
151GDS G NC=0.000120 23$OC=1.8E-5 4$PC=1.1E-6 4
151GD DG CE DATA: 1982Ba51, 1971Go27
151GD G 572.5 6 0.07 3 M1,E2 0.014 4 B
151GDS G KC=0.012 4$LC=0.0017 4$MC=0.00038 8$NC+=0.000101 22
151GDS G NC=8.7E-5 18$OC=1.3E-5 3$PC=8.E-7 3
151GD DG CE DATA: 1982Ba51
151GD G 727.43 13 0.89 7 M1,E2 0.0077 22 B ?
151GDS G KC=0.0065 19$LC=0.00094 22$MC=0.00020 5$NC+=5.4E-5 13
151GDS G NC=4.7E-5 11$OC=7.2E-6 18$PC=4.6E-7 15
151GD DG CE DATA: 1982Ba51
151GD cG $Probably an impurity line in ce
151GD G 824.18 13 0.060 4 D
151GD G 839.21 7 0.25 1 ?
151GD cG $1986BuZX place this with 839 level, but in view of |DJ=3 and T{-1/2}
151GD2cG of 839 level the suggested placement is not possible. The evaluator
151GD3cG considers 839.21 line as a summing of several intense transitions from
151GD4cG the 839 level
151GD G 953.3 2 0.080 6 D
151GD G 967.4 6 0.06 6 B
151GD G 1206.5 6 0.031 16 B
151GD G 1237.1 4 0.11 3 B
151GD G 1345.3 6 0.025 11 B
151GD G 1902.6 2 0.040 8 B
151GD G 1941.6 2 0.032 10 B
151GD G 1956.3 4 0.022 10 B
151GD G 2090.1 2 0.060 4 D
151GD L 0.0 7/2-
151GD L 108.093 7 5/2- 2.80 NS 11
151GD cL J$|g|g(|q) support 5/2, not 7/2 or 9/2
151GD cL T$weighted average of 3.00~ns~{I10} (ce|g(t),1972Af03), 2.60~ns~{I13}
151GD2cL (ce|g(t),1970Mo14), 2.72~ns~{I25} (cece(t),1969Ba64) and 2.66~ns~{I15}
151GD3cL (|g|g(t),1969BoZR)
151GD3 L MOMM1=-1.24 17 (1976BA26,1976BA59,1978LEZA)
151GD cL MOMM1$Others: -1.08~{I13} (1977VaZJ,1977GrZF), -1.35~{I22} (1972Af04).
151GD2cL Method: (287|g)(108|g)(|q,H). A{-2}=-0.240~{I15}, A{-4}=-0.008~{I16}
151GD3cL (1972Af04)
151GD E 0.2LT 5.8LT 9.1GT 6 LT 1U?
151GDS E EAV= 664.5 18$CK= 0.8044$CL= 0.1246$CM+= 0.03630
151GD G 108.088 10 86 3 M1+E2 -0.85 1 1.729
151GDS G KC=1.185 17$LC=0.422 7$MC=0.0972 16$NC+=0.0250 4
151GDS G NC=0.0219 4$OC=0.00301 5$PC=7.87E-5 12
151GD DG $ CE DATA: 1987BaZB, 1982Ba51, 1975Ha18, 1971Go27, 1967Vi05, 1967Ko15,
151GD2DG 1962Ha24, 1960Fr06
151GD cG MR$from L1/L2=0.99~{I2}, L1/L3=1.03~{I2} (1987BaZB). Sign from
151GD2cG |g|g(|q). |d=0.83~{I3} from subshell data quoted in the above table
151GD3cG from 1967Ko15
151GD L 395.449 7 3/2- 0.29 NS 3
151GD cL T$average of 0.31~ns~{I4} (ce|g(t),1972Af03), 0.24~ns~{I4}
151GD2cL (ce|g(t),1970Mo14) and 0.32~ns~{I4} (cece(t), 1969Ba64)
151GD cL J$(287|g)(108|g)(|q) supports 3/2, not 5/2
151GD cL $|m=-1.35~{I41}, -1.72~{I43} or -2.24~{I62} (1978LeZA,1975AfZZ).
151GD2cL Method: (444|g)(287|g)(|q,H). A{-2}=-0.161~{I17}, A{-4}=+0.013~{I25}
151GD3cL (1975AfZZ). Others: 1977VaZJ, 1977GrZF
151GD E 0.15 7 2.412 8.0 2 2.6 12
151GDS E EAV= 523.1 18$CK= 0.7890$CL= 0.1182$CM+= 0.03426
151GD cE $E|b=1150~{I10}, I|b=0.23~{I5}, I|b(total)/Ice(K)(287|g)=0.36~{I2}
151GD2cE (1977Cr05)
151GD G 287.357 10100 3 M1+E2 +0.21 2 0.1056
151GDS G KC=0.0892 13$LC=0.01284 18$MC=0.00279 4$NC+=0.000748 11
151GDS G NC=0.000642 9$OC=9.94E-5 14$PC=6.56E-6 10
151GD cG MR$from |g|g(|q). Subshell data in the table above give
151GD2cG |d=0.29~{I+12-18}. L1/L2=14.2~{I7} (1987BaZB) is consistent with |d=0
151GD DG CE DATA: 1987BaZB, 1982Ba51, 1975Ha18, 1971Go27, 1967Ko15,
151GD2DG 1967Vi05, 1962Ha24, 1961St15, 1960Fr06, 1958An38
151GD G 395.444 10 38 1 E2 0.0265
151GDS G KC=0.0211 3$LC=0.00425 6$MC=0.000952 14$NC+=0.000249 4
151GDS G NC=0.000216 3$OC=3.14E-5 5$PC=1.378E-6 20
151GD cG M$from |g|g(|q) and ce data
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Vi05, 1967Ko15
151GD L 426.687 7 5/2-
151GD E 0.02 LT 0.3 LT 10.2GT 0.3 LT 1U?
151GDS E EAV= 526.3 18$CK= 0.8205$CL= 0.1285$CM+= 0.03752
151GD G 318.60 3 1.34 5 M1(+E2) 2 LT 0.069 13
151GDS G KC=0.057 13$LC=0.0094 4$MC=0.00207 5$NC+=0.000549 20
151GDS G NC=0.000473 14$OC=7.1E-5 5$PC=4.0E-6 11
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Vi05, 1967Ko15,
151GD G 426.692 10 15.3 5 M1 0.0380
151GDS G KC=0.0322 5$LC=0.00450 7$MC=0.000974 14$NC+=0.000262 4
151GDS G NC=0.000224 4$OC=3.49E-5 5$PC=2.36E-6 4
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Vi05, 1967Ko15,
151GD2DG 1960Fr06
151GD L 575.620 8 1/2- 0.23 NS 3
151GD cL T$average of 0.23~ns~{I3} (ce|g(t),1972Af03) and 0.23~ns~{I4}
151GD2cL (ce|g(t),1970Mo14)
151GD cL J$|g|g(|q) support 1/2, not 3/2 or 5/2
151GD E 0.13 3 3.8 4 7.76 8 3.9 4
151GDS E EAV= 443.8 18$CK= 0.8096$CL= 0.1217$CM+= 0.03531
151GD G 148.918 11 1.26 5 [E2] 0.607
151GDS G KC=0.376 6$LC=0.179 3$MC=0.0417 6$NC+=0.01061 15
151GDS G NC=0.00933 13$OC=0.001253 18$PC=2.01E-5 3
151GD cG E$1982Ba51 propose a doublet at 148.73 and 149.00, but data of 1986BuZX
151GD2cG do not confirm this
151GD cG $|a(exp)'s too large for mult=M1 or E2. Probably an impurity line in ce
151GD2cG data
151GD G 180.186 10 40.7 14M1+E2 -0.08 3 0.381
151GDS G KC=0.322 5$LC=0.0464 7$MC=0.01009 15$NC+=0.00271 4
151GDS G NC=0.00232 4$OC=0.000360 6$PC=2.39E-5 4
151GD DG $ CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Ko15, 1967Vi05, 19
151GD2DG 1960Fr06, 1958An38
151GD cG MR$from |g|g(|q). Consistent with |d deduced from (L1+L2)/L3
151GD G 467.506 10 3.12 11(E2) 0.01669
151GDS G KC=0.01349 19$LC=0.00249 4$MC=0.000555 8$NC+=0.0001458 21
151GDS G NC=0.0001263 18$OC=1.86E-5 3$PC=8.99E-7 13
151GD cG M$from ce and |g|g(|q) data
151GD DG CE DATA: 1982Ba51, 1971Go27
151GD L 587.443 7 3/2- 0.30 NS 2
151GD cL T$ce|g(t) (1972Af03)
151GD E 0.07LT 2.1 LT 8.0GT 2.2 LT ?
151GDS E EAV= 438.6 18$CK= 0.8107$CL= 0.1219$CM+= 0.03537
151GD G 160.762 10 1.70 6 M1(+E2) 1 LT 0.510 17
151GDS G KC=0.41 4$LC=0.080 17$MC=0.018 4$NC+=0.0047 10
151GDS G NC=0.0041 9$OC=0.00060 11$PC=2.9E-5 5
151GD DG CE DATA: 1982Ba51, 1971Go27, 1967Ko15, 1967Vi05
151GD G 191.96 2 12.8 4 M1+E2 -0.12 5 0.320 A
151GDS G KC=0.270 4$LC=0.0391 7$MC=0.00850 15$NC+=0.00228 4
151GDS G NC=0.00195 4$OC=0.000303 5$PC=2.00E-5 4
151GD cG MR$from |g|g(|q)
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Ko15, 1967Vi05,
151GD2DG 1962Ha24, 1960Fr06, 1958An38
151GD G 479.357 10 54.3 17E2(+M1) 1 GT 0.019 4
151GDS G KC=0.015 3$LC=0.0026 3$MC=0.00057 6$NC+=0.000150 15
151GDS G NC=0.000129 13$OC=1.94E-5 22$PC=1.07E-6 23
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Vi05, 1967Ko15,
151GD2DG 1962Ha24, 1961St15, 1960Fr06
151GD G 587.46 2 55.3 18E2 0.00923
151GDS G KC=0.00760 11$LC=0.001276 18$MC=0.000282 4$NC+=7.44E-5 11
151GDS G NC=6.43E-5 9$OC=9.60E-6 14$PC=5.16E-7 8
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Vi05, 1967Ko15.
151GD2DG 1962Ha24, 1961St15, 1960Fr06
151GD cG M,MR$|a(K)exp gives E2(+M1) with |d>1
151GD L 620.600 13 3/2-,5/2(-)
151GD G 193.94 12 0.64 6 [M1,E2] 0.28 4 D
151GDS G KC=0.22 5$LC=0.048 11$MC=0.011 3$NC+=0.0028 7
151GDS G NC=0.0025 6$OC=0.00036 7$PC=1.5E-5 5
151GD G 225.12 4 0.30 2 [M1,E2] 0.18 3
151GDS G KC=0.14 4$LC=0.029 4$MC=0.0064 11$NC+=0.00169 24
151GDS G NC=0.00147 22$OC=0.000214 21$PC=1.0E-5 4
151GD G 512.5 5 1.9 4 (M1,E2) 0.018 6 E
151GDS G KC=0.015 5$LC=0.0023 5$MC=0.00051 10$NC+=0.00014 3
151GDS G NC=0.000117 22$OC=1.8E-5 4$PC=1.1E-6 4
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Vi05, 1962Ha24
151GD G 620.594 16 2.01 10(E2) 0.00807
151GDS G KC=0.00666 10$LC=0.001097 16$MC=0.000242 4$NC+=6.39E-5 9
151GDS G NC=5.52E-5 8$OC=8.27E-6 12$PC=4.54E-7 7
151GD DG CE DATA: 1982Ba51
151GD L 811.837 8 3/2-
151GD E 0.012 4 1.0 3 8.2313 1.0 3
151GDS E EAV= 340.1 18$CK= 0.8263$CL= 0.1250$CM+= 0.03628
151GD G 191.2 5 0.75 15[M1,E2] 0.29 4 E
151GDS G KC=0.23 5$LC=0.051 12$MC=0.011 3$NC+=0.0030 8
151GDS G NC=0.0026 7$OC=0.00037 8$PC=1.5E-5 6
151GD G 236.14 3 0.43 3 [M1,E2] 0.16 3
151GDS G KC=0.12 3$LC=0.024 3$MC=0.0055 8$NC+=0.00144 17
151GDS G NC=0.00124 16$OC=0.000182 13$PC=8.E-6 3
151GD G 385.156 10 3.66 12M1(+E2) 1 LT 0.044 6
151GDS G KC=0.037 5$LC=0.0056 4$MC=0.00122 7$NC+=0.000325 19
151GDS G NC=0.000279 15$OC=4.3E-5 3$PC=2.7E-6 4
151GD DG $ CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Ko15, 1967Vi05, 1962Ha24
151GD G 416.390 10 6.89 22M1+E2 +0.39 14 0.0381 17
151GDS G KC=0.0322 15$LC=0.00464 13$MC=0.001008 25$NC+=0.000270 7
151GDS G NC=0.000232 6$OC=3.58E-5 11$PC=2.35E-6 12
151GD cG MR$from |g|g(|q)
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Ko15,
151GD2DG 1967Vi05, 1962Ha24, 1960Fr06
151GD G 703.75 10 13.4 4 M1+E2 -0.25 2 0.0104616
151GDS G KC=0.00889 13$LC=0.001226 18$MC=0.000265 4$NC+=7.12E-5 11
151GDS G NC=6.11E-5 9$OC=9.50E-6 14$PC=6.45E-7 10
151GD cG MR$from |g|g(|q)
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1967Vi05, 1962Ha24. OTHERS:
151GD2DG 1971Go27, 1960Fr06
151GD G 811.81 4 0.70 3 E2 0.00432
151GDS G KC=0.00362 5$LC=0.000549 8$MC=0.0001198 17$NC+=3.18E-5 5
151GDS G NC=2.74E-5 4$OC=4.17E-6 6$PC=2.49E-7 4
151GD cG $|a(K)exp=0.0033~{I5} (1982Ba51)
151GD cG M,MR$|a(K)exp gives E2(+M1) with |d>3
151GD L 839.319 8 1/2- 0.28 NS 3
151GD cL T$weighted average of 0.26~ns~{I3} (ce|g(t),1972Af03) and 0.32~ns~{I5}
151GD2cL (ce|g(t),1970Mo14)
151GD cL J$(252|g)(|g)(|q) give 1/2, not 3/2 or 5/2
151GD E 0.53 2 48.418 6.52 2 48.9 18
151GD cE $E|b=700~{I5}, I|b=0.67~{I9} (1977Cr05). I(|e)/I(700|b)=74~{I18}
151GD2cE (1977Cr05)
151GD cE $For 839 level, I|b/I(|e+|b)=0.0104~{I5} (1984Sc18) which gives
151GD2cE I|b=705~{I12} and Q(|e)=2566~{I12}
151GDS E EAV= 328.1 18$CK= 0.8276$CL= 0.1252$CM+= 0.03637
151GD G 218.65 13 0.09 1 [M1,E2] 0.19 3 D
151GDS G KC=0.15 4$LC=0.032 5$MC=0.0071 13$NC+=0.0019 3
151GDS G NC=0.0016 3$OC=0.00024 3$PC=1.0E-5 4
151GD G 251.863 10 93 3 M1(+E2) -0.08 12 0.152 3
151GDS G KC=0.1290 25$LC=0.0184 3$MC=0.00399 7$NC+=0.001070 16
151GDS G NC=0.000918 14$OC=0.0001425 21$PC=9.54E-6 21
151GD cG MR$from |g|g(|q)
151GD cG $ce data for other transitions normalized to 251.86|g treated as M1.
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Ko15, 1967Vi05,
151GD2DG 1962Ha24, 1961St15, 1960Fr06, 1958An38
151GD G 263.707 17 0.70 3 M1,E2 0.113 23
151GDS G KC=0.091 24$LC=0.0170 9$MC=0.0038 3$NC+=0.00099 6
151GDS G NC=0.00086 6$OC=0.0001270 23$PC=6.3E-6 22
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Ko15, 1967Vi05
151GD G 412.6 5 0.06 2 G
151GD G 443.879 10 38.3 12M1+E2 -0.57 4 0.0306 6
151GDS G KC=0.0258 5$LC=0.00378 6$MC=0.000824 13$NC+=0.000220 4
151GDS G NC=0.000189 3$OC=2.91E-5 5$PC=1.86E-6 4
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1975Ku12, 1971Go27, 1967Vi05,
151GD2DG 1967Ko15, 1962Ha24, 1961St15, 1960Fr06, 1958An38
151GD cG MR$from |g|g(|q)
151GD G 731.227 11 27.2 9 E2 0.00547
151GDS G KC=0.00456 7$LC=0.000712 10$MC=0.0001559 22$NC+=4.14E-5 6
151GDS G NC=3.57E-5 5$OC=5.39E-6 8$PC=3.13E-7 5
151GD DG $ CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Vi05, 1962Ha24, 1961St15
151GD cG M,MR$|a(K)exp gives E2(+M1) with |d>2
151GD L 905.58 9 (3/2-,5/2-)
151GD E 0.14 LT 9.0GT 0.14 LT ?
151GDS E EAV= 299.0 18$CK= 0.8301$CL= 0.1259$CM+= 0.03656
151GD G 905.6 5 1.8 4 (M1,E2) 0.0046 12 E
151GDS G KC=0.0039 11$LC=0.00055 13$MC=0.00012 3$NC+=3.2E-5 8
151GDS G NC=2.7E-5 7$OC=4.2E-6 10$PC=2.8E-7 8
151GD cG $|a(K)exp(906|g complex)=0.0030~{I6} (1982Ba51,1975Ha18,1971Go27,
151GD2cG 1962Ha24)
151GD L 913.55 2 (3/2-)
151GD E 0.0011 5 0.16 6 9.0 2 0.16 6
151GDS E EAV= 295.5 18$CK= 0.8303$CL= 0.1259$CM+= 0.03658
151GD G 326.1 5 0.15 3 [M1,E2] 0.062 15 G
151GDS G KC=0.051 15$LC=0.0087 5$MC=0.00192 8$NC+=0.00051 3
151GDS G NC=0.000438 20$OC=6.5E-5 6$PC=3.5E-6 13
151GD G 518.18 5 0.22 1 D
151GD G 805.47 2 2.78 10(M1) 0.00771
151GDS G KC=0.00657 10$LC=0.000897 13$MC=0.000194 3$NC+=5.20E-5 8
151GDS G NC=4.46E-5 7$OC=6.95E-6 10$PC=4.76E-7 7
151GD cG $|a(K)exp=0.009~{I2} (1982Ba51,1975Ha18,1971Go27,1967Vi05,1962Ha24)
151GD G 913.6 5 0.5 1 (E2) 0.00333 E
151GDS G KC=0.00281 4$LC=0.000414 6$MC=9.01E-5 13$NC+=2.40E-5 4
151GDS G NC=2.07E-5 3$OC=3.15E-6 5$PC=1.94E-7 3
151GD cG $|a(K)exp(913|g complex)=0.0034~{I10} (1982Ba51,1971Go27)
151GD cG M,MR$|a(K)exp gives M1,E2 with no limit on |d value
151GD L 938.80 7 (3/2-,5/2-,7/2-)
151GD G 830.65 10 0.13 1 D
151GD G 938.7 5 0.33 7 (M1,E2) 0.0042 11 E
151GDS G KC=0.0036 10$LC=0.00050 12$MC=0.000109 25$NC+=2.9E-5 7
151GDS G NC=2.5E-5 6$OC=3.9E-6 9$PC=2.6E-7 8
151GD cG $|a(K)exp(939|g complex)=0.0048~{I12} (1982Ba51,1971Go27)
151GD L 982.27 4 (3/2)+
151GD E 0.20 7 8.8 2 0.20 7
151GDS E EAV= 265.3 18$CK= 0.8321$CL= 0.1265$CM+= 0.03676
151GD G 143.0 5 0.07 2 [E1] 0.1113 19 G
151GDS G KC=0.0939 16$LC=0.01364 24$MC=0.00295 5$NC+=0.000775 14
151GDS G NC=0.000670 12$OC=9.96E-5 17$PC=5.52E-6 10
151GD G 361.61 6 0.36 6 D
151GD G 556.3 2 0.16 1
151GDF G FLAG=AD$
151GD cG E$level energy difference=555.58
151GD G 586.8 5 0.94 19 E
151GD G 874.11 11 0.10 1
151GD L 1052.20 2 1/2-,3/2-
151GD E 0.0051 3 1.88 8 7.81 2 1.89 8
151GDS E EAV= 234.5 18$CK= 0.8333$CL= 0.1270$CM+= 0.03692
151GD G 240.36 2 0.87 3 E2(+M1) 2 GT 0.127 6
151GDS G KC=0.095 6$LC=0.0248 6$MC=0.00566 15$NC+=0.00146 4
151GDS G NC=0.00128 4$OC=0.000180 4$PC=5.9E-6 6
151GD cG E$1982Ba51 and 1975Ha18 quote 239.56 and 241.5, respectively.
151GD DG CE DATA: 1982Ba51
151GD G 476.55 3 4.79 20M1(+E2) 1 LT 0.025 4
151GDS G KC=0.021 3$LC=0.0031 3$MC=0.00068 6$NC+=0.000182 15
151GDS G NC=0.000156 13$OC=2.40E-5 22$PC=1.55E-6 24
151GD DG CE DATA: 1982Ba51
151GD G 656.78 4 1.53 7 (M1,E2) 0.010 3
151GDS G KC=0.008 3$LC=0.0012 3$MC=0.00026 6$NC+=7.1E-5 16
151GDS G NC=6.1E-5 14$OC=9.3E-6 23$PC=5.9E-7 20
151GD DG CE DATA FOR 657G COMPLEX: 1982Ba51
151GD cG M$|a(K)exp consistent with M1,E2
151GD L 1087.60 2 3/2-
151GD E 0.0058 4 2.8514 7.61 2 2.86 14
151GDS E EAV= 218.8 18$CK= 0.8337$CL= 0.1273$CM+= 0.03699
151GD G 248.30 3 0.92 5 M1(+E2) 1 LT 0.146 13
151GDS G KC=0.121 14$LC=0.0199 9$MC=0.00438 25$NC+=0.00116 6
151GDS G NC=0.00100 6$OC=0.000151 4$PC=8.7E-6 13
151GD DG CE DATA: 1971Go27
151GD G 275.61 6 0.14 2 [M1,E2] 0.099 21 D
151GDS G KC=0.080 22$LC=0.0147 4$MC=0.00327 16$NC+=0.00086 3
151GDS G NC=0.00075 3$OC=0.0001103 20$PC=5.6E-6 20
151GD G 467.0 5 0.33 7 E
151GD G 500.1 5 1.0 2 (M1,E2) 0.020 6 E
151GDS G KC=0.016 5$LC=0.0025 5$MC=0.00055 10$NC+=0.00015 3
151GDS G NC=0.000126 23$OC=1.9E-5 4$PC=1.2E-6 4
151GD DG CE DATA FOR 500G COMPLEX: 1982Ba51, 1975Ha18, 1971Go27,
151GD2DG 1967Vi05, 1962Ha24
151GD G 512.0 5 0.56 11(M1,E2) 0.018 6 E
151GDS G KC=0.015 5$LC=0.0024 5$MC=0.00051 10$NC+=0.00014 3
151GDS G NC=0.000118 23$OC=1.8E-5 4$PC=1.1E-6 4
151GD DG CE DATA FOR 512G COMPLEX: 1982Ba51, 1975Ha18, 1971Go27,
151GD2DG 1967Vi05, 1962Ha24
151GD G 660.94 3 1.57 6 [M1,E2] 0.010 3
151GDS G KC=0.0082 25$LC=0.0012 3$MC=0.00026 6$NC+=7.0E-5 16
151GDS G NC=6.0E-5 14$OC=9.2E-6 22$PC=5.8E-7 20
151GD G 692.06 4 4.9 3 M1+E2 0.0087 25
151GDS G KC=0.0073 22$LC=0.00106 25$MC=0.00023 6$NC+=6.2E-5 15
151GDS G NC=5.3E-5 12$OC=8.2E-6 20$PC=5.2E-7 17
151GD cG MR$+0.37~{I8} or +9.9~{I42} from |g|g(|q); mult from |a(K)exp
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Vi05
151GD G 979.48 4 1.44 5 M1,E2 0.0038 10
151GDS G KC=0.0033 9$LC=0.00045 11$MC=9.8E-5 22$NC+=2.6E-5 6
151GDS G NC=2.3E-5 5$OC=3.5E-6 8$PC=2.3E-7 7
151GD cG $|a(K)exp=0.0030~{I7} (1982Ba51,1971Go27,1962Ha24)
151GD G 1087.6 5 0.07 2 E
151GD L 1157.90 2 (3/2)+
151GD E 0.0017 2 1.6918 7.80 5 1.69 18
151GDS E EAV= 187.6 18$CK= 0.8342$CL= 0.1277$CM+= 0.03714
151GD G 252.3 5 1.2 3 E
151GD G 318.6 5 0.07 2 E
151GD G 537.293 13 1.48 5
151GD G 582.35 9 0.26 1 D
151GD G 731.2 5 2.2 5 E
151GD G 762.45 3 1.15 4 E1(+M2) 0.1 LT 0.0020312
151GDS G KC=0.00174 10$LC=0.000231 15$MC=5.0E-5 4$NC+=1.33E-5 9
151GDS G NC=1.14E-5 8$OC=1.76E-6 12$PC=1.17E-7 8
151GD cG $|a(K)exp=0.0015~{I4} (1982Ba51,1971Go27)
151GD G 1049.83 4 0.40 2
151GD cG E$1982Ba51 give 1050.61~{I9}
151GD cG M$|a(K)exp=0.0024~{I8} (1982Ba51,1971Go27) disagrees with expected E1
151GD L 1192.19 1 1/2+
151GD cL J$|g|g(|q) support 1/2, not 3/2
151GD E 0.0128 8 18.7 6 6.73 2 18.7 6
151GDS E EAV= 172.2 18$CK= 0.8342$CL= 0.1279$CM+= 0.03721
151GD G 139.95 5 0.17 1 [E1] 0.1179
151GDS G KC=0.0995 14$LC=0.01448 21$MC=0.00313 5$NC+=0.000823 12
151GDS G NC=0.000711 10$OC=0.0001056 15$PC=5.83E-6 9
151GD DG CE DATA: 1971Go27
151GD cG $|a(K)exp too large for expected mult=E1
151GD G 278.70 4 0.34 2 [E1] 0.0192 D
151GDS G KC=0.01630 23$LC=0.00227 4$MC=0.000489 7$NC+=0.0001297 19
151GDS G NC=0.0001117 16$OC=1.694E-5 24$PC=1.031E-6 15
151GD G 380.356 10 17.0 6 E1(+M2) 0.1 LT 0.0098 9
151GDS G KC=0.0083 8$LC=0.00116 13$MC=0.00025 3$NC+=6.7E-5 8
151GDS G NC=5.7E-5 7$OC=8.8E-6 10$PC=5.5E-7 7
151GD DG $ CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Vi05, 1967Ko15, 1962Ha24
151GD G 604.761 16 11.6 4 E1(+M2) 0.2 LT 0.0039 9
151GDS G KC=0.0033 7$LC=0.00046 11$MC=0.000100 24$NC+=2.7E-5 7
151GDS G NC=2.3E-5 6$OC=3.5E-6 9$PC=2.3E-7 6
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1971Go27, 1967Vi05, 1962Ha24
151GD G 616.561 15 36.8 12E1 0.00298
151GDS G KC=0.00255 4$LC=0.000340 5$MC=7.32E-5 11$NC+=1.95E-5 3
151GDS G NC=1.678E-5 24$OC=2.58E-6 4$PC=1.691E-7 24
151GD cG $|d(M2/E1)<0.2
151GD DG CE DATA: 1982Ba51, 1975Ha18, 1967Vi05. OTHERS: 1971Go27,
151GD2DG 1960Fr06, 1958An38
151GD G 796.8 5 0.19 4 E
151GD L 1199.15 5 (1/2-,3/2,5/2-)
151GD E 0.031 13 9.5 2 0.031 13
151GDS E CK= 0.8342$CL= 0.1279$CM+= 0.03722
151GD G 578.6 5 0.07 2 (M1,E2) 0.014 4 E
151GDS G KC=0.011 4$LC=0.0017 4$MC=0.00037 8$NC+=9.8E-5 21
151GDS G NC=8.5E-5 18$OC=1.3E-5 3$PC=8.E-7 3
151GD DG CE DATA: 1982Ba51, 1971Go27
151GD cG M$|a(K)exp for the 578|g complex consistent M1,E2
151GD G 772.52 6 0.16 1
151GD G 803.7 5 0.07 2 E
151GD G 1091.04 9 0.28 1
151GD L 1279.06 3 3/2-,5/2-
151GD E 0.94 6 7.97 3 0.94 6
151GDS E CK= 0.8340$CL= 0.1284$CM+= 0.03738
151GD G 365.5 5 0.08 2 G
151GD G 373.5 5 0.05 1 G
151GD G 439.60 8 0.13 1
151GD G 658.58 13 0.44 3 (M1,E2) 0.010 3 D
151GDS G KC=0.0083 25$LC=0.0012 3$MC=0.00026 6$NC+=7.0E-5 16
151GDS G NC=6.0E-5 14$OC=9.3E-6 23$PC=5.9E-7 20
151GD DG CE DATA: 1982Ba51
151GD G 691.6 5 0.56 11 E
151GD G 703.4 5 0.07 2 E
151GD G 852.36 6 0.20 1 M1(+E2) 1 LT 0.0060 8
151GDS G KC=0.0051 7$LC=0.00071 8$MC=0.000153 16$NC+=4.1E-5 5
151GDS G NC=3.5E-5 4$OC=5.5E-6 6$PC=3.7E-7 5
151GD cG $|a(K)exp=0.007~{I3} (1982Ba51)
151GD G 883.6 5 0.38 8 (M1,E2) 0.0049 13 E
151GDS G KC=0.0041 12$LC=0.00058 14$MC=0.00013 3$NC+=3.4E-5 8
151GDS G NC=2.9E-5 7$OC=4.5E-6 11$PC=2.9E-7 9
151GD cG $|a(K)exp(884|g complex)=0.0030~{I6} (1982Ba51). Other: 1971Go27
151GD G 1170.98 3 2.09 7 M1 0.00314
151GDS G KC=0.00268 4$LC=0.000362 5$MC=7.80E-5 11$NC+=2.42E-5 4
151GDS G NC=1.80E-5 3$OC=2.80E-6 4$PC=1.93E-7 3$IPC=3.23E-6 5
151GD cG $|a(K)exp=0.0037~{I10} (1982Ba51,1971Go27,1962Ha24)
151GD G 1279.20 13 0.10 1 D
151GD L 1373.95 2 1/2-,3/2-,5/2-
151GD E 0.76 4 7.99 2 0.76 4
151GDS E CK= 0.8334$CL= 0.1290$CM+= 0.03759
151GD G 216.04 3 0.43 2 [E1] 0.0370 D
151GDS G KC=0.0314 5$LC=0.00443 7$MC=0.000957 14$NC+=0.000253 4
151GDS G NC=0.000218 3$OC=3.29E-5 5$PC=1.94E-6 3
151GD G 322.21 22 0.17 1 [M1,E2] 0.064 16 D
151GDS G KC=0.052 15$LC=0.0090 5$MC=0.00199 7$NC+=0.000526 25
151GDS G NC=0.000454 19$OC=6.8E-5 6$PC=3.7E-6 13
151GD G 391.67 8 0.61 8 [D,E2] 0.03 2 D
151GD G 460.40 5 0.22 1
151GD G 468.4 5 0.07 2 E
151GD G 534.67 4 0.28 1 (E2) 0.01172
151GDS G KC=0.00958 14$LC=0.001670 24$MC=0.000370 6$NC+=9.74E-5 14
151GDS G NC=8.42E-5 12$OC=1.251E-5 18$PC=6.46E-7 9
151GD cG RI$0.43~{I2} quoted by 1982Ba51 disagrees
151GD DG CE DATA: 1982Ba51. OTHER: 1971Go27
151GD G 562.5 1 0.26 1 M1(+E2) 1 LT 0.0167 22 A
151GDF G FL=811.837
151GDS G KC=0.0141 19$LC=0.00202 20$MC=0.00044 4$NC+=0.000117 12
151GDS G NC=0.000101 10$OC=1.55E-5 16$PC=1.02E-6 15
151GD cG E$level energy difference=562.11. E|g=563.19~{I5} (1982Ba51) disagrees
151GD DG CE DATA: 1982Ba51
151GD G 786.5 5 0.08 1
151GD G 798.23 6 0.38 2 D
151GD G 947.3 5 0.22 5 (M1,E2) 0.0041 11 E
151GDS G KC=0.0035 10$LC=0.00049 12$MC=0.000106 24$NC+=2.9E-5 7
151GDS G NC=2.4E-5 6$OC=3.8E-6 9$PC=2.5E-7 7
151GD cG M$|a(K)exp(947|g complex)=0.004~{I1} (1982Ba51,1971Go27) consistent
151GD2cG with M1,E2
151GD L 1405.14 3 3/2-,5/2-
151GD E 0.164 12 8.64 4 0.164 12
151GDS E CK= 0.8331$CL= 0.1292$CM+= 0.03766
151GD G 593.3 5 0.09 2 G
151GD G 784.3 2 0.14 1 (M1,E2) 0.0064 18 E
151GDS G KC=0.0055 16$LC=0.00078 18$MC=0.00017 4$NC+=4.5E-5 11
151GDS G NC=3.9E-5 9$OC=6.0E-6 15$PC=3.9E-7 12
151GD cG $|a(K)exp=0.005~{I2} (1982Ba51)
151GD G 817.96 24 0.040 5 D
151GD G 1009.69 3 0.58 2 M1(+E2) 2 LT 0.0038 7
151GDS G KC=0.0032 7$LC=0.00044 8$MC=9.5E-5 16$NC+=2.6E-5 5
151GDS G NC=2.2E-5 4$OC=3.4E-6 6$PC=2.3E-7 5
151GD cG $|a(K)exp=0.004~{I1} (1982Ba51). Other: 1971Go27
151GD G 1297.10 9 0.10 1
151GD G 1405.1 4 0.040 4 D
151GD L 1456.62 5 1/2-,3/2-,5/2-
151GD cL $870.0|g, 1029.5|g, 1061.6|g, 1348.2|g from this level are poorly
151GD2cL fitted with this level. It is possible that there are two closely
151GD3cL spaced levels near 1456~keV
151GD E 0.71 3 7.96 2 0.71 3
151GDS E CK= 0.8326$CL= 0.1296$CM+= 0.03779
151GD G 543.8 1 0.08 1
151GDF G FL=913.55
151GDF G FLAG=AD$
151GD cG E$level energy difference=543.07
151GD G 644.78 10 0.15 1
151GD G 870.0 2 0.11 2 (M1,E2) 0.0050 14 A
151GDF G FL=587.443
151GDS G KC=0.0043 12$LC=0.00060 14$MC=0.00013 3$NC+=3.5E-5 8
151GDS G NC=3.0E-5 7$OC=4.6E-6 12$PC=3.0E-7 9
151GD cG E$level energy difference=869.18
151GD cG $|a(K)exp(870|g complex)=0.004~{I2} (1982Ba51)
151GD G 880.79 15 0.30 2
151GD G 1029.55 5 0.37 1 A
151GDF G FL=426.687
151GD cG E$level energy difference=1029.93
151GD G 1061.59 5 0.86 4 M1,E2 0.0032 8 A
151GDF G FL=395.449
151GDS G KC=0.0027 7$LC=0.00038 9$MC=8.1E-5 18$NC+=2.2E-5 5
151GDS G NC=1.9E-5 4$OC=2.9E-6 7$PC=1.9E-7 5
151GD cG E$level energy difference=1061.17
151GD cG $|a(K)exp=0.0028~{I7} (1982Ba51,1971Go27)
151GD G 1348.19 6 0.71 2 A
151GDF G FL=108.093
151GD cG E$level energy difference=1348.53
151GD L 1477.66 9 (1/2-,3/2,5/2-)
151GD E 0.020 5 9.4911 0.020 5
151GDS E CK= 0.8324$CL= 0.1298$CM+= 0.03785
151GD G 1369.56 9 0.15 1
151GD L 1493.38 5 (1/2-,3/2-,5/2-)
151GD E 0.77 12 7.89 7 0.77 12
151GDS E CK= 0.8322$CL= 0.1299$CM+= 0.03789
151GD G 405.67 9 0.11 1 (M1) 0.0433
151GDS G KC=0.0367 6$LC=0.00513 8$MC=0.001112 16$NC+=0.000299 5
151GDS G NC=0.000256 4$OC=3.98E-5 6$PC=2.70E-6 4
151GD cG E,RI$1982Ba51 quote E|g=406.33~{I16} and I|g=0.34~{I8}
151GD DG CE DATA: 1982Ba51. OTHER: 1971Go27
151GD G 579.8 5 0.15 3 (M1,E2) 0.013 4 E
151GDS G KC=0.011 4$LC=0.0017 4$MC=0.00037 8$NC+=9.8E-5 21
151GDS G NC=8.4E-5 18$OC=1.3E-5 3$PC=8.E-7 3
151GD DG CE DATA FOR 579G COMPLEX: 1982Ba51. OTHER: 1971Go27
151GD G 905.9 5 1.9 4 (M1,E2) 0.0046 12 E
151GDS G KC=0.0039 11$LC=0.00055 13$MC=0.00012 3$NC+=3.2E-5 8
151GDS G NC=2.7E-5 7$OC=4.2E-6 10$PC=2.8E-7 8
151GD cG $See 905.6|g for ce data
151GD G 917.8 5 0.12 3 (M1,E2) 0.0045 12 E
151GDS G KC=0.0038 10$LC=0.00053 13$MC=0.00011 3$NC+=3.1E-5 7
151GDS G NC=2.6E-5 6$OC=4.1E-6 10$PC=2.7E-7 8
151GD cG $|a(K)exp(918|g complex)=0.004~{I2} (1971Go27)
151GD G 1097.92 7 0.39 1
151GD G 1385.42 9 0.28 1 D
151GD L 1505.42 2 1/2(-),3/2(-)
151GD E 1.23 5 7.68 2 1.23 5
151GDS E CK= 0.8321$CL= 0.1300$CM+= 0.03793
151GD G 591.8 5 0.07 2 D
151GD G 666.1 5 0.04 2 D
151GD G 884.8 5 0.45 9 (M1,E2) 0.0049 13 E
151GDS G KC=0.0041 12$LC=0.00058 14$MC=0.00013 3$NC+=3.4E-5 8
151GDS G NC=2.9E-5 7$OC=4.5E-6 11$PC=2.9E-7 9
151GD cG $See 883.6|g for ce data
151GD G 918.0 5 0.12 2 (M1,E2) 0.0045 12 E
151GDS G KC=0.0038 10$LC=0.00053 12$MC=0.00011 3$NC+=3.1E-5 7
151GDS G NC=2.6E-5 6$OC=4.1E-6 10$PC=2.7E-7 8
151GD cG $See 917.8|g for ce data
151GD G 929.83 11 0.11 1 D
151GD G 1078.80 7 0.26 1
151GD G 1109.96 2 3.08 10
151GD G 1397.0 1 0.21 1 A
151GD L 1552.70 14 (3/2-,5/2-)
151GD E 0.020 15 9.4 4 0.020 15
151GDS E CK= 0.8315$CL= 0.1304$CM+= 0.03807
151GD G 713.25 15 0.05 5 D
151GD G 1553.2 3 0.020 3 D
151GD L 1577.56 4 (1/2-,3/2-,5/2-)
151GD E 0.55 2 7.97 2 0.55 2
151GDS E CK= 0.8312$CL= 0.1307$CM+= 0.03815
151GD G 419.6 5 0.15 3 D
151GD G 664.0 5 0.09 2 D
151GD G 671.96 9 0.15 2 M1(+E2) 1 LT 0.0107 14
151GDS G KC=0.0091 12$LC=0.00128 14$MC=0.00028 3$NC+=7.4E-5 8
151GDS G NC=6.4E-5 7$OC=9.9E-6 11$PC=6.5E-7 10
151GD DG CE DATA: 1982Ba51, 1971Go27
151GD G 765.7 5 0.10 1
151GD G 956.93 12 0.14 1 M1,E2 0.0041 11
151GDS G KC=0.0034 9$LC=0.00048 11$MC=0.000104 23$NC+=2.8E-5 7
151GDS G NC=2.4E-5 6$OC=3.7E-6 9$PC=2.4E-7 7
151GD cG $|a(K)exp=0.004~{I1} (1982Ba51,1971Go27)
151GD G 990.13 18 0.12 1
151GD G 1001.87 11 0.11 1
151GD G 1150.79 10 0.13 1
151GD G 1182.13 4 1.02 3
151GD L 1701.40 7 1/2,3/2,5/2(-)
151GD E 0.116 8 8.52 3 0.116 8
151GDS E CK= 0.8293$CL= 0.1321$CM+= 0.03864
151GD G 795.8 5 0.07 2 E
151GD G 889.9 2 0.070 6
151GD G 1080.96 19 0.09 1 D
151GD G 1114.1 2 0.10 1 D
151GD G 1305.81 9 0.08 1
151GD L 1707.68 3 1/2(-),3/2(-)
151GD E 1.42 5 7.42 2 1.42 5
151GDS E CK= 0.8292$CL= 0.1321$CM+= 0.03866
151GD G 428.6 5 0.16 3 D
151GD G 620.1 5 0.11 2 D
151GD G 725.30 9 0.11 1
151GD G 794.28 9 0.30 1 (M1,E2) 0.0063 18
151GDS G KC=0.0053 15$LC=0.00075 18$MC=0.00016 4$NC+=4.4E-5 11
151GDS G NC=3.8E-5 9$OC=5.8E-6 14$PC=3.8E-7 12
151GD cG $|a(K)exp=0.007~{I3} (1982Ba51). Other: 1967Vi05
151GD G 868.16 26 0.08 1 D
151GD G 894.7 2 0.08 1 (M1,E2) 0.0047 13 A
151GDF G FL=811.837
151GDS G KC=0.0040 11$LC=0.00056 13$MC=0.00012 3$NC+=3.3E-5 8
151GDS G NC=2.8E-5 7$OC=4.3E-6 11$PC=2.9E-7 9
151GD cG E$level energy difference=895.84
151GD cG $|a(K)exp=0.006~{I3} (1982Ba51)
151GD G 1087.1 5 0.03 1 E
151GD G 1120.2 5 0.20 4 E
151GD G 1132.0 5 0.27 3 E
151GD G 1281.00 6 0.45 2 (M1,E2) 0.0021 5
151GDS G KC=0.0018 4$LC=0.00024 5$MC=5.3E-5 11$NC+=3.2E-5 4
151GDS G NC=1.21E-5 24$OC=1.9E-6 4$PC=1.3E-7 3$IPC=1.76E-5 10
151GD cG $|a(K)exp=0.0016~{I5} (1982Ba51,1971Go27)
151GD G 1312.18 5 2.30 7 (M1,E2) 0.0020 4
151GDS G KC=0.0017 4$LC=0.00023 5$MC=5.0E-5 10$NC+=3.7E-5 4
151GDS G NC=1.15E-5 23$OC=1.8E-6 4$PC=1.2E-7 3$IPC=2.36E-5 13
151GD cG $|a(K)exp=0.0022~{I5} (1982Ba51,1971Go27,1962Ha24)
151GD G 1599.60 4 0.91 3 (M1,E2) 0.0014223
151GDS G KC=0.00111 19$LC=0.000149 25$MC=3.2E-5 6$NC+=0.000126 9
151GDS G NC=7.4E-6 12$OC=1.15E-6 20$PC=7.9E-8 15$IPC=0.000118 8
151GD cG $|a(K)exp=0.0017~{I6} (1982Ba51)
151GD L 1745.76 11 1/2,3/2,5/2(-)
151GD E 0.18 2 8.28 5 0.18 2
151GDS E CK= 0.8285$CL= 0.1327$CM+= 0.03885
151GD G 252.4 5 0.22 5 [D,E2] 0.09 6 E
151GD G 807.0 5 0.10 2 E
151GD G 1125.28 14 0.14 1 (M1) 0.00345
151GDS G KC=0.00294 5$LC=0.000398 6$MC=8.58E-5 12$NC+=2.39E-5 4
151GDS G NC=1.98E-5 3$OC=3.08E-6 5$PC=2.12E-7 3$IPC=8.41E-7 13
151GD cG $|a(K)exp=0.010~{I5} (1971Go27)
151GD G 1158.3 5 0.03 1 E
151GD G 1318.86 18 0.04 2
151GD G 1350.3 5 0.10 2 G
151GD L 1778.55 2 1/2-,3/2-
151GD E 1.94 9 7.21 2 1.94 9
151GDS E CK= 0.8278$CL= 0.1332$CM+= 0.03902
151GD G 499.5 5 0.49 10 (M1,E2) 0.020 6 E
151GDS G KC=0.016 5$LC=0.0025 5$MC=0.00055 10$NC+=0.00015 3
151GDS G NC=0.000126 23$OC=1.9E-5 4$PC=1.2E-6 4
151GD DG CE DATA FOR 500G COMPLEX: 1982Ba51, 1975Ha18, 1971Go27,
151GD2DG 1967Vi05, 1962Ha24
151GD G 691.0 5 0.26 5 E
151GD G 839.8 5 0.12 2 (M1,E2) 0.0055 15 E
151GDS G KC=0.0046 13$LC=0.00066 16$MC=0.00014 4$NC+=3.8E-5 9
151GDS G NC=3.3E-5 8$OC=5.1E-6 13$PC=3.3E-7 10
151GD cG $|a(K)exp=0.004~{I2} (1982Ba51)
151GD G 864.98 3 0.56 2 M1(+E2) 1 LT 0.0058 7
151GDS G KC=0.0049 6$LC=0.00068 8$MC=0.000148 16$NC+=4.0E-5 5
151GDS G NC=3.4E-5 4$OC=5.3E-6 6$PC=3.5E-7 5
151GD cG $|a(K)exp=0.0052~{I5} (1982Ba51)
151GD G 939.2 5 0.11 2 (M1,E2) 0.0042 11 E
151GDS G KC=0.0036 10$LC=0.00050 12$MC=0.000109 25$NC+=2.9E-5 7
151GDS G NC=2.5E-5 6$OC=3.9E-6 9$PC=2.6E-7 8
151GD cG $See 938.7|g for ce data
151GD G 966.25 11 0.12 1 M1,E2 0.0040 10 A
151GDF G FL=811.837
151GDS G KC=0.0034 9$LC=0.00047 11$MC=0.000102 23$NC+=2.7E-5 7
151GDS G NC=2.3E-5 6$OC=3.6E-6 9$PC=2.4E-7 7
151GD cG E$level energy difference=966.71
151GD cG $|a(K)exp=0.004~{I1} (1982Ba51)
151GD G 1158.0 5 0.12 3 E
151GD cG $See 1157.4|g for ce data
151GD G 1191.13 5 0.54 2 (M1,E2) 0.0025 6
151GDS G KC=0.0021 5$LC=0.00029 6$MC=6.2E-5 13$NC+=2.2E-5 4
151GDS G NC=1.4E-5 3$OC=2.2E-6 5$PC=1.5E-7 4$IPC=4.9E-6 3
151GD cG $|a(K)exp=0.0035~{I7} (1982Ba51,1971Go27)
151GD G 1202.96 5 0.26 1 (M1,E2) 0.0024 6
151GDS G KC=0.0021 5$LC=0.00028 6$MC=6.1E-5 13$NC+=2.2E-5 4
151GDS G NC=1.4E-5 3$OC=2.2E-6 5$PC=1.5E-7 4$IPC=6.2E-6 4
151GD cG RI$0.13~{I2} in 1982Ba51 disagrees
151GD cG $|a(K)exp=0.0014~{I7} (1982Ba51)
151GD G 1351.9 5 0.89 20 E
151GD G 1383.12 5 1.11 3 (M1,E2) 0.0018 4
151GDS G KC=0.0015 3$LC=0.00021 4$MC=4.4E-5 9$NC+=5.3E-5 5
151GDS G NC=1.02E-5 19$OC=1.6E-6 3$PC=1.08E-7 23$IPC=4.11E-5 24
151GD cG $|a(K)exp=0.0018~{I4} (1982Ba51,1971Go27)
151GD G 1670.50 4 2.27 8 (M1,E2) 0.0013420
151GDS G KC=0.00102 17$LC=0.000136 21$MC=2.9E-5 5$NC+=0.000156 11
151GDS G NC=6.7E-6 11$OC=1.05E-6 17$PC=7.2E-8 13$IPC=0.000148 10
151GD cG $|a(K)exp=0.0015~{I4} (1982Ba51,1971Go27)
151GD L 1788.96 5 (1/2-,3/2-,5/2-)
151GD E 0.255 12 8.08 2 0.255 12
151GDS E CK= 0.8276$CL= 0.1333$CM+= 0.03908
151GD G 949.7 3 0.050 6 D
151GD G 977.1 5 0.13 3 D
151GD G 1213.37 9 0.16 1
151GD G 1362.21 5 0.44 1 (M1,E2) 0.0019 4
151GDS G KC=0.0016 4$LC=0.00021 4$MC=4.6E-5 9$NC+=4.8E-5 5
151GDS G NC=1.06E-5 20$OC=1.6E-6 4$PC=1.11E-7 24$IPC=3.54E-5 21
151GD cG $|a(K)exp=0.0020~{I5} (1982Ba51,1971Go27)
151GD G 1394.1 2 0.12 1 D
151GD L 1836.92 3 (3/2)-
151GD E 0.50 2 7.73 2 0.50 2
151GDS E CK= 0.8264$CL= 0.1342$CM+= 0.03937
151GD G 637.90 13 0.08 1 D
151GD G 679.1 5 0.10 2 G
151GD G 749.24 9 0.060 4
151GD G 897.83 18 0.11 1
151GD G 923.37 13 0.07 1 D
151GD G 997.29 23 0.040 4 D
151GD G 1025.12 4 0.71 2 M1,E2 0.0035 9
151GDS G KC=0.0029 8$LC=0.00041 9$MC=8.8E-5 20$NC+=2.4E-5 6
151GDS G NC=2.0E-5 5$OC=3.1E-6 8$PC=2.1E-7 6
151GD cG $|a(K)exp=0.0036~{I12} (1982Ba51,1962Ha24)
151GD G 1217.4 2 0.06 1 A
151GDF G FL=620.600
151GD cG E$level energy difference=1216.32
151GD G 1249.43 8 0.19 1
151GD G 1260.7 3 0.08 2
151GD cG $See 1259.1|g for ce data
151GD G 1410.4 2 0.08 1 (M1,E2) 0.0018 4
151GDS G KC=0.0015 3$LC=0.00020 4$MC=4.2E-5 8$NC+=6.1E-5 5
151GDS G NC=9.8E-6 18$OC=1.5E-6 3$PC=1.03E-7 22$IPC=4.9E-5 3
151GD cG $|a(K)exp=0.0036~{I12} (1982Ba51,1971Go27)
151GD G 1441.15 17 0.07 1 D
151GD G 1728.70 13 0.090 4
151GD G 1837.5 4 0.010 2
151GDF G FLAG=DF$
151GD L 1852.72 12 (1/2-,3/2-,5/2-)
151GD E 0.150 16 8.23 5 0.150 16
151GDS E CK= 0.8260$CL= 0.1345$CM+= 0.03947
151GD G 914.0 5 0.04 1 E
151GD G 939.1 5 0.16 3 (M1,E2) 0.0042 11 E
151GDS G KC=0.0036 10$LC=0.00050 12$MC=0.000109 25$NC+=2.9E-5 7
151GDS G NC=2.5E-5 6$OC=3.9E-6 9$PC=2.6E-7 8
151GD cG $See 938.7|g for ce data
151GD G 1232.1 5 0.21 4 E
151GD G 1457.3 5 0.05 1 E
151GD G 1744.61 13 0.070 7 D
151GD L 1890.80 13 (1/2-,3/2,5/2-)
151GD E 0.116 16 8.29 6 0.116 16
151GDS E CK= 0.8250$CL= 0.1353$CM+= 0.03975
151GD G 1051.5 5 0.04 1 E
151GD G 1269.1 6 0.03 1
151GD G 1315.10 20 0.07 1 D
151GD G 1464.3 2 0.08 1 D
151GD G 1495.3 5 0.19 5 E
151GD L 1941.11 14 (1/2-,3/2,5/2-)
151GD E 0.048 5 8.60 5 0.048 5
151GDS E CK= 0.8233$CL= 0.1365$CM+= 0.04017
151GD G 1129.3 5 0.05 1 G
151GD G 1320.5 5 0.02 1 E
151GD G 1364.8 7 0.010 5 D
151GD G 1514.37 18 0.050 4 D
151GD G 1545.9 3 0.040 5
151GD L 1970.91 13 1/2,3/2,5/2(-)
151GD E 0.062 8 8.45 6 0.062 8
151GDS E CK= 0.8222$CL= 0.1373$CM+= 0.04046 4
151GD G 1057.3 5 0.09 2 G
151GD G 1350.3 5 0.02 1 G
151GD G 1395.3 5 0.05 1 G
151GD G 1575.46 14 0.060 3
151GD L 1978.05 8 (3/2-)
151GD E 0.110 7 8.19 3 0.110 7
151GDS E CK= 0.8219$CL= 0.1376$CM+= 0.04053 5
151GD G 1040.5 8 0.030 6 D
151GD G 1402.5 2 0.030 4 D
151GD G 1869.87 9 0.31 2
151GD G 1978.15 15 0.020 5
151GDF G FLAG=DF$
151GD L 2012.15 24 (1/2-,3/2,5/2-)
151GD E 0.025 3 8.77 6 0.025 3
151GDS E CK= 0.8204$CL= 0.13866 14$CM+= 0.04091 5
151GD G 1392.7 2 0.05 1
151GDF G FL=620.600
151GDF G FLAG=AD$
151GD cG E$level energy difference=1391.55
151GD G 1584.8 2 0.040 4
151GD L 2034.36 2 1/2-,3/2-
151GD E 1.47 5 6.97 2 1.47 5
151GDS E CK= 0.8193$CL= 0.13946 16$CM+= 0.04119 6
151GD G 456.74 14 0.08 1 D
151GD G 556.7 5 0.07 1 G
151GD G 576.9 6 0.09 1
151GD G 629.23 3 0.35 1
151GD G 660.3 5 0.11 3 E
151GD G 755.78 16 0.020 7 D
151GD G 835.2 5 0.06 2 G
151GD G 842.15 5 0.28 1
151GD G 876.68 24 0.05 1 D
151GD G 946.8 5 0.16 3 (M1,E2) 0.0042 11 E
151GDS G KC=0.0035 10$LC=0.00049 12$MC=0.000107 24$NC+=2.9E-5 7
151GDS G NC=2.5E-5 6$OC=3.8E-6 9$PC=2.5E-7 7
151GD cG $See 947.3|g for ce data
151GD G 982.1 5 0.23 5 (M1,E2) 0.0038 10 E
151GDS G KC=0.0032 9$LC=0.00045 11$MC=9.8E-5 22$NC+=2.6E-5 6
151GDS G NC=2.2E-5 5$OC=3.5E-6 8$PC=2.3E-7 7
151GD cG $|a(K)exp(982|g complex)=0.004~{I1} (1982Ba51,1971Go27)
151GD G 1052.0 5 0.20 4 E
151GD G 1095.6 5 0.04 1 G
151GD G 1120.8 5 0.09 2 E
151GD G 1128.8 5 0.04 1 G
151GD G 1195.00 5 0.56 2
151GD G 1222.53 3 2.09 7 M1,E2 0.0023 5
151GDS G KC=0.0020 5$LC=0.00027 6$MC=5.9E-5 12$NC+=2.4E-5 4
151GDS G NC=1.3E-5 3$OC=2.1E-6 5$PC=1.4E-7 4$IPC=8.6E-6 5
151GD cG $|a(K)exp=0.0015~{I3} (1982Ba51)
151GD G 1413.7 5 0.04 1 G
151GD G 1446.86 6 0.32 1
151GD G 1458.7 5 0.05 1 G
151GD G 1607.6 5 0.02 1 E
151GD G 1638.2 1 0.22 1 A
151GDF G FL=395.449
151GD cG E$level energy difference=1638.91
151GD L 2043.89 23 (1/2,3/2,5/2-)
151GD E 0.057 9 8.36 7 0.057 9
151GDS E CK= 0.8189$CL= 0.13983 16$CM+= 0.04132 6
151GD G 1232.0 5 0.07 2 E
151GD G 1456.4 5 0.10 2 E
151GD G 1468.3 3 0.030 3 D
151GD L 2070.97 4 1/2-,3/2-
151GD E 1.35 7 6.93 3 1.35 7
151GDS E CK= 0.8173$CL= 0.14096 18$CM+= 0.04171 7
151GD G 791.7 5 0.07 1 D
151GD G 871.76 21 0.06 2 D
151GD G 878.89 21 0.17 2
151GD G 913.1 5 0.08 2 E
151GD G 983.4 5 0.31 6 (M1,E2) 0.0038 10 E
151GDS G KC=0.0032 9$LC=0.00045 10$MC=9.7E-5 22$NC+=2.6E-5 6
151GDS G NC=2.2E-5 5$OC=3.5E-6 8$PC=2.3E-7 7
151GD cG $See 982.1|g for ce data
151GD G 1018.99 17 0.080 7 D
151GD G 1132.2 5 0.05 1 E
151GD G 1157.4 5 0.58 12(M1,E2) 0.0026 6 E
151GDS G KC=0.0022 6$LC=0.00031 7$MC=6.7E-5 14$NC+=2.0E-5 4
151GDS G NC=1.5E-5 4$OC=2.4E-6 5$PC=1.6E-7 4$IPC=2.15E-6 12
151GD cG $|a(K)exp(1157|g complex)=0.003~{I1} (1982Ba51)
151GD G 1165.4 5 0.06 2 G
151GD G 1259.1 5 0.19 4 (M1,E2) 0.0022 5 E
151GDS G KC=0.0019 4$LC=0.00025 5$MC=5.5E-5 11$NC+=2.9E-5 4
151GDS G NC=1.26E-5 25$OC=2.0E-6 4$PC=1.3E-7 3$IPC=1.40E-5 8
151GD cG $|a(K)exp(1259|g complex)=0.0023~{I7} (1982Ba51)
151GD G 1450.34 7 0.23 1
151GD G 1483.52 5 1.88 6 M1,E2 0.0016 3
151GDS G KC=0.00131 24$LC=0.00018 3$MC=3.8E-5 7$NC+=8.3E-5 7
151GDS G NC=8.7E-6 16$OC=1.36E-6 25$PC=9.2E-8 19$IPC=7.3E-5 5
151GD cG $|a(K)exp=0.0018~{I6} (1982Ba51,1971Go27)
151GD G 1495.4 5 0.64 13 E
151GD G 1644.39 13 0.090 4 D
151GD G 1675.57 8 0.17 1
151GD G 1962.37 16 0.10 2
151GD L 2076.09 7 1/2(-),3/2
151GD E 0.209 12 7.73 3 0.209 12
151GDS E CK= 0.8170$CL= 0.14119 19$CM+= 0.04179 7
151GD G 884.0 5 0.07 2 E
151GD G 1137.28 11 0.060 5 D
151GD G 1163.0 1 0.13 1 A
151GDF G FL=913.55
151GD cG E$level energy difference=1162.54
151GD G 1170.7 5 0.13 2
151GD G 1264.01 24 0.080 5
151GD G 1455.6 5 0.04 1 E
151GD G 1500.4 2 0.040 8 D
151GD G 1649.33 12 0.080 4
151GD G 1680.8 5 0.07 2 E
151GD G 1967.1 3 0.040 3 A
151GD L 2099.00 16 (1/2,3/2,5/2-)
151GD E 0.020 2 8.71 5 0.020 2
151GDS E CK= 0.8155$CL= 0.14228 21$CM+= 0.04217 7
151GD G 1511.55 16 0.070 4 D
151GD L 2106.9 3 (1/2,3/2,5/2-)
151GD E 0.0057 9 9.24 7 0.0057 9
151GDS E CK= 0.8150$CL= 0.14269 22$CM+= 0.04231 8
151GD G 1519.48 30 0.020 3
151GD L 2116.09 5 1/2(-),3/2(-)
151GD E 0.23 2 7.61 4 0.23 2
151GDS E CK= 0.8143$CL= 0.14318 23$CM+= 0.04248 8
151GD G 837.0 5 0.03 1 G
151GD G 1177.4 5 0.02 1 G
151GD G 1210.5 5 0.02 1 G
151GD G 1303.3 3 0.05 1
151GDF G FLAG=AD$
151GD G 1495.5 5 0.05 1 E
151GD G 1689.53 6 0.36 1 (M1,E2) 0.0013220
151GDS G KC=0.00099 16$LC=0.000133 21$MC=2.9E-5 5$NC+=0.000164 12
151GDS G NC=6.6E-6 11$OC=1.02E-6 16$PC=7.0E-8 12$IPC=0.000157 11
151GD cG $|a(K)exp=0.0016~{I5} (1982Ba51)
151GD G 1720.46 7 0.26 4
151GD G 2007.9 4 0.020 6 D
151GD L 2128.72 11 1/2(-),3/2
151GD E 0.057 4 8.19 4 0.057 4
151GDS E CK= 0.8134$CL= 0.14390 24$CM+= 0.04273 9
151GD G 1508.1 5 0.04 1 E
151GD G 1541.8 3 0.020 4 D
151GD G 1702.8 4 0.030 3 D
151GD G 1733.3 5 0.010 5 G
151GD G 2020.45 12 0.100 5
151GD L 2132.53 13 1/2(-),3/2
151GD E 0.051 5 8.23 5 0.051 5
151GDS E CK= 0.8131$CL= 0.14412 25$CM+= 0.04281 9
151GD G 1320.7 5 0.04 1 E
151GD G 1556.8 2 0.050 9 D
151GD G 1705.90 18 0.070 4
151GD G 1737.1 5 0.02 1 G
151GD L 2154.9 2 (1/2,3/2,5/2-)
151GD E 0.011 3 8.8412 0.011 3
151GDS E CK= 0.8112$CL= 0.1455 3$CM+= 0.04330 10
151GD G 1579.3 5 0.02 1 E
151GD G 1759.43 21 0.020 3
151GD L 2173.19 8 1/2(-),3/2
151GD E 0.187 12 7.57 3 0.187 12
151GDS E CK= 0.8094$CL= 0.1468 3$CM+= 0.04375 11
151GD G 894.0 5 0.010 5 E
151GD G 974.14 9 0.24 1
151GD G 1084.7 2 0.060 5 A
151GDF G FL=1087.60
151GD cG E$level energy difference=1085.59
151GD G 1235.2 8 0.04 1 D
151GD G 1259.4 5 0.02 1 E
151GD G 1267.9 5 0.03 1 E
151GD G 1361.2 5 0.06 1 E
151GD G 1585.6 5 0.02 1 G
151GD G 1746.7 5 0.040 6 E
151GD G 1777.6 5 0.12 3 E
151GD G 2064.98 19 0.020 2
151GD L 2205.94 11 1/2(-),3/2
151GD E 0.125 15 7.66 6 0.125 15
151GDS E CK= 0.8057$CL= 0.1496 4$CM+= 0.04470 13
151GD G 1618.25 28 0.040 4
151GD G 1630.3 2 0.070 4
151GD G 1779.2 5 0.23 5 E
151GD G 1811.04 20 0.030 4
151GD G 2097.4 2 0.070 4
151GD L 2220.9 3 1/2,3/2
151GD E 0.028 4 8.27 7 0.028 4
151GDS E CK= 0.8038$CL= 0.1510 5$CM+= 0.04521 15
151GD G 1307.3 5 0.03 1 G
151GD G 1633.4 5 0.05 1 E
151GD G 1825.4 3 0.020 2 D
151GD L 2243.8 3 1/2(-),3/2
151GD E 0.027 5 8.21 9 0.027 5
151GDS E CK= 0.8004$CL= 0.1535 5$CM+= 0.04609 17
151GD G 1044.2 4 0.030 5 D
151GD G 1817.1 5 0.03 1 E
151GD G 1848.3 5 0.02 1 G
151GD G 2136.2 4 0.017 2 D
151GD L 2246.95 9 1/2(-),3/2
151GD E 0.037 5 8.07 6 0.037 5
151GDS E CK= 0.7999$CL= 0.1539 5$CM+= 0.04623 18
151GD G 1435.7 2 0.030 4 D
151GD G 1626.3 5 0.02 1 G
151GD G 1671.3 5 0.04 1 E
151GD G 1820.10 10 0.040 3 D
151GD L 2256.7 2 1/2,3/2
151GD E 0.025 5 8.21 9 0.025 5
151GDS E CK= 0.7982$CL= 0.1552 6$CM+= 0.04666 19
151GD G 1669.2 5 0.03 1 E
151GD G 1681.1 5 0.04 1 E
151GD G 1861.23 23 0.020 4 D
151GD L 2317.7 3 1/2(-),3/2
151GD E 0.014 2 8.23 7 0.014 2
151GDS E CK= 0.7839 13$CL= 0.1657 10$CM+= 0.0504 4
151GD G 1479.1 5 0.020 3 G
151GD G 1890.6 4 0.020 2 D
151GD G 2209.6 5 0.010 5
151GDF G FLAG=GF$
151GD L 2324.32 14 1/2(-),3/2
151GD E 0.028 2 7.90 4 0.028 2
151GDS E CK= 0.7818 14$CL= 0.1673 10$CM+= 0.0509 4
151GD G 1748.7 4 0.040 6
151GD G 1897.61 14 0.060 3
151GD L 2391.50 5 1/2,3/2
151GD E 0.33 4 6.48 6 0.33 4
151GDS E CK= 0.748 4$CL= 0.1925 24$CM+= 0.0599 9
151GD G 886.1 5 0.010 5 E
151GD G 913.8 5 0.010 5 E
151GD G 986.3 4 0.06 2 D
151GD G 1112.4 5 0.010 5 G
151GD G 1199.3 5 0.03 1 G
151GD G 1339.01 17 0.08 1
151GD G 1579.75 6 0.23 1
151GD G 1803.85 19 0.050 3 D
151GD G 1815.8 5 0.60 12 E
151GD G 1995.76 17 0.090 5
151GD L 2400.6 2 1/2(-),3/2
151GD E 0.014 2 7.79 7 0.014 2
151GDS E CK= 0.740 4$CL= 0.198 3$CM+= 0.0619 10
151GD G 1974.28 26 0.020 3
151GD G 2005.0 4 0.010 2
151GD G 2291.6 4 0.020 3
151GD L 2421.74 12 1/2,3/2
151GD E 0.048 6 7.09 7 0.048 6
151GDS E CK= 0.716 6$CL= 0.216 5$CM+= 0.0682 16
151GD G 1439.4 5 0.04 1 G
151GD G 1508.2 5 0.02 1 E
151GD G 1834.3 5 0.010 5 G
151GD G 1846.1 5 0.02 1 G
151GD G 2026.28 13 0.080 3
151GD L 2443.0 3 (1/2,3/2)
151GD E 0.0028 3 8.13 7 0.0028 3
151GDS E CK= 0.679 10$CL= 0.243 7$CM+= 0.078 3
151GD G 2047.5 3 0.010 1 D
151GD L 2444.86 8 1/2,3/2
151GD E 0.105 10 6.53 6 0.105 10
151GDS E CK= 0.675 10$CL= 0.246 8$CM+= 0.079 3
151GD G 1531.3 5 0.02 1 G
151GD G 1605.5 5 0.07 2 E
151GD G 1633.02 8 0.19 1
151GD G 1869.2 5 0.09 2 E