151SM 151PM B- DECAY (28.40 H) 1973CO29,1977HO21,1964BE1009NDS 200901
151SM H TYP=FUL$AUT=BALRAJ SINGH$CIT=NDS 110, 1 (2009)$CUT=20-Nov-2008$
151SM c Main level scheme is from |g and |g|g data of 1973Co29. |g|g results
151SM2c from 1977Ho21 are in general agreement with those from 1973Co29. Both
151SM3c report |g, |g|g data using germanium detectors. 1964Be10 report
151SM4c detailed |b, |b|g and ce results
151SM c Other measurements:
151SM c |b: 1964Be10, 1963Ho15, 1963Bu02, 1963Na03, 1963Re03, 1962Ch06,
151SM2c 1960Bu06, 1952Ru10
151SM c |b|g: 1964Be10, 1962Ch06, 1952Ru10
151SM c |b|g(t): 1971An07
151SM c (|b)(ce)(t): 1977Bu12, 1971Dr05, 1971An07
151SM c |g,|g|g: 1971Ho09, 1971Be23, 1969GuZW, 1969Gr32, 1966Lo17, 1965Fu15,
151SM2c 1965Fo08, 1965Be13, 1964Ew04, 1964Be10, 1963Re03, 1963Na03, 1963Bu08,
151SM3c 1963Bu02, 1962Ch06, 1960Bu06, 1955Ha33, 1952Ru10
151SM c |g|g(|q): 1981Ya07, 1977Ho21, 1977Bu12, 1976Ba44 and 1975Wa02 use
151SM2c germanium detectors. 1974Si12 and 1971Be23 use semi-scin combination.
151SM3c 1962Ch06 use pair of scin detectors
151SM c |g(|q): 1975Wa02 (low temperature nuclear orientation technique)
151SM c |g|g(|q,H,T): 1974Dr03, 1971Be23
151SM c |g|g(t): 1971Ho09, 1965Fo08
151SM c (|g)(ce): 1964Be10, 1963Bu02
151SM c (|g)(ce)(t): 1971Dr05, 1971An07, 1965Fo08
151SM c ce: 1985GrZT, 1965Be13, 1964Be10, 1963Ma51, 1963Ma16, 1963Ge10,
151SM2c 1963Bu02, 1962Ha24, 1952Ru10
151SM c (ce)(ce): 1963Bu02
151SM c For levels and radiation data, consult ENSDF database
151SM2c (http://www.nndc.bnl.gov/ensdf/)
151SM3c and/or Nuclear Data Sheets 80, 263 (1997).
151SM TG
151SM2tG The table below contains experimental conversion
151SM3TG coefficients deduced (evaluator) using CE data
151SM4TG mainly from 1964Be10. Uncertainty in conversion coefficients
151SM5TG is |?25% for strong transitions and |?50% for weak
151SM6TG transitions. Other CE data: 1963Ma16, 1963Bu02, 1962Ha24. ENC
151SM7TG values are available for 25.7G, 64.9G, 65.8G, 100.0G, 104.8G,
151SM8TG and 177.2G (1964Be10,1963Bu02,1962Ha24) but not given here
151SM9TG
151SMATG EG K L L1 L2 L3 M M1
151SM+TG M2 M3
151SMBTG --------------------------------------------------------
151SM+TG --------------------
151SMCtG 25.7 0.25 0.33 0.25
151SM+tG 0.25
151SMDtG 61.0 3.6 11 11
151SMEtG 62.9 |?0.7
151SMFtG 64.9 5.9 0.99 0.88 0.107 0.27 0.16
151SM+tG 0.027
151SMGtG 65.8 5.0 0.22 0.22 0.22 0.18
151SM+tG 0.044 0.022
151SMHtG 69.7 4.5 0.64 0.53 0.11 0.22
151SMItG 76.2 2.2 0.57 2.1 1.9
151SM+tG 0.50 0.50
151SMJtG 88.8 3.3
151SMKtG 98.0 0.28
151SMLtG 98.7 1.7
151SMMtG 100.0 2.0 0.34 0.24 0.02 0.067 0.059
151SMNtG 101.9 0.23 0.043 0.040 0.022
151SMOtG 104.8 1.9 0.21 0.19 0.029 0.010 0.054 0.043
151SMPtG 109.6 0.59
151SMQtG 121.8 1.1 0.28
151SMRtG 139.3 0.41 0.10 0.020 0.020 0.051
151SMStG 143.2 0.47 0.19
151SMTtG 156.2 0.58 0.068
151SMUtG 162.9 0.092 0.14 0.023
151SMVtG 163.6 0.36 0.065 0.016
151SMWtG 167.7 0.054 0.015 0.0061 0.0073 0.0030
151SMXtG 168.4 0.44 0.055 0.027
151SMYtG 176.5 0.059
151SMZtG 177.2 0.33 0.045 0.034 0.0053 0.0053 0.0106 0.013
151SM2tG 186.6 0.084
151SM3tG 204.2 0.12
151SM4tG 209.0 0.18 0.035 0.035 0.0079 0.0087
151SM5tG 227.2+
151SM6tG 227.8 0.20
151SM7tG 232.4+
151SM8tG 232.7 0.16 0.044 0.044
151SM9tG 236.6+
151SMAtG 236.7+
151SMBtG 237.1 0.041
151SMCtG 240.1 0.024 0.0072 0.0026
151SMDtG 258.1 0.018
151SMEtG 275.2 0.021 0.0023 0.0022
151SMFtG 277.6 0.083
151SMGtG 280.1 0.087
151SMHtG 290.7 0.018
151SMItG 308.9 0.062
151SMJtG 323.9 0.0095
151SMKtG 329.7 0.014
151SMLtG 340.0 0.102
151SMMtG 344.9 0.0060
151SMNtG 349.8 0.036
151SMOtG 440.8 0.0050
151SMPtG 445.7 0.0060
151SMQtG 654.2 |?0.006
151SMRtG 671.2 |?0.08
151SMStG 717.7 0.0010
151SMTtG 752.8 0.0020
151SMUTG ---------------------------------------------------------------
151SM TG
151SM2TG G(THETA) data from oriented nuclei (1975Wa02)
151SM3TG
151SM4TG EG A2 EG A2
151SM5TG ---------------------------------------------------------------
151SM6TG 64.88 +0.56 6 440.8 +0.34 2
151SM7TG 65.83 +0.81 12 445.7 -0.44 2
151SM8TG 69.70 -0.55 15 451.4 -0.10 12
151SM9TG 100.00 -0.41 5 565.0 +0.20 8
151SMATG 101.93 +0.16 4 636.2 -0.41 2
151SMBTG 104.84 -0.01 3 717.7 -0.385 9
151SMCTG 163.6 +0.55 12
151SMDTG 168.39 -0.2 5 736.1 -0.43 3
151SMETG 177.2 -0.25 3 752.8 +0.09 2
151SMFTG 201.96 -0.37 6 772.7 +0.37 3
151SMGTG 209.0 +0.19 5 785.1 +0.12 6
151SMHTG 240.0 -0.42 2 795.7 -0.24 8
151SMITG 258.1 -0.35 9 807.9 -0.47 3
151SMJTG 275.2 +0.102 5 848.6 -0.44 6
151SMKTG 290.7 +0.34 3 877.7 -0.40 7
151SMLTG 323.9 +0.30 3 948.7 -0.37 4
151SMMTG 344.9 +0.125 13 953.4 +0.06 14
151SMNTG 379.8 +0.12 2
151SMOTG
151SMPTG -----------------------------------------------------------------
151SM TG
151SM2TG
151SM3TG GG(THETA) data
151SM4TG
151SM5TG G - G cascade A2 A4 references
151SM6TG from others
151SM7TG -------------------------------------------------------------------
151SM8TG 98 - 65 +0.05 3 +0.01 4 1977Ho21
151SM9TG 102 - 66 +0.14 8 -0.05 9 1977Ho21
151SMATG 139 - 65 +0.25 6 -0.06 11 1977Ho21 1981Ya02,1974Si12
151SMBTG 143 - 66 +0.03 6 -0.20 13 1974Si12
151SMCTG 177.2 - 167.8
151SMDTG + +0.11 1 +0.01 2 1971Be23 1962Ch06
151SMETG 176.5 - 168.4
151SMFTG 177.2 - 102 +0.01 2 +0.02 4 1974Si12
151SMGTG 177.2 - 76 +0.09 3 1981Ya07
151SMHTG 187 - 209 +0.084 24 1981Ya07
151SMITG 202 - 100 +0.14 1 1981Ya07 1975Wa02,1974Si12
151SMJTG 202 - 105 +0.01 3 1975Wa02
151SMKTG 232 - 26 +0.038 4 1974Dr03
151SMLTG 237 - 65+70 +0.07 6 +0.02 12 1974Si12
151SMMTG 240 - 100 +0.169 15 +0.012 18 1977Bu12 1976Ba44,1975Wa02
151SMNTG 240 - 100 +0.142 4 1981Ya07 1974Si12,1962Ch06
151SMOTG 240 - 105 -0.005 10 +0.011 15 1977Bu12 1977Ho21,1976Ba44,
151SMPTG 1975Wa02,1971Be23
151SMQTG 258 - 66 -0.31 2 1981Ya07 1977Ho21,1975Wa02,1
151SM+TG 974Si12
151SMRTG 275 - 65 +0.208 15 -0.008 18 1977Bu12 1977Ho21,1976Ba44,1
151SM+TG 975Wa02
151SMSTG 275 - 65 +0.220 4 1981Ya07 1974Si12,1962Ch06
151SMTTG 275 - 70 -0.24 3 -0.03 4 1977Bu12 1976Ba44,1975Wa02,1
151SM+TG 971Be23
151SMUTG 277.6 - 168.4
151SMVTG + +0.14 3 1971Be23
151SMWTG 278.2 - 167.7
151SMXTG 330 - 66 +0.22 4 1981Ya07 1974Si12
151SMYTG 350 - 66 +0.43 15 1981Ya07
151SMZTG 380 - 66 +0.203 14 1981Ya07 1975Wa02,1974Si12
151SM2TG 451 - 65 +0.27 12 1974Si12
151SM3TG 565 - 139 +0.20 6 1981Ya07
151SM4TG 598 - 66 -0.32 21 1981Ya07
151SM5TG 636 - 100 +0.17 1 1981Ya07 1974Si12
151SM6TG 654 - 163 +0.27 2 1981Ya07
151SM7TG 654 - 168 -0.10 4 1981Ya07
151SM8TG 668.7 - 209 +0.15 4 +0.06 4 1971Be23
151SM9TG 669.2 - 209 -0.14 3 1981Ya07 1974Si12
151SMATG 671 - 65 +0.19 2 1981Ya07 1974Si12
151SMBTG 704 - 65 -0.25 3 1981Ya07 1974Si12
151SMCTG 718 - 100 +0.152 5 1981Ya07 1974Si12
151SMDTG 718 - 105 +0.02 3 1974Si12 1971Be23
151SMETG 753 - 65 +0.16 2 1981Ya07 1974Si12
151SMFTG 773 - 100 +0.01 4 1974Si12
151SMGTG 773 - 105 +0.01 3 1974Si12
151SMHTG 785 - 168 -0.11 5 1981Ya07
151SMITG 796 - 163 -0.30 6 1981Ya07
151SMJTG 808 - 65 -0.03 6 1974Si12
151SMKTG 808 - 70 +0.12 3 +0.07 5 1971Be23
151SMLTG 849 - 100+105 +0.18 5 -0.00 8 1974Si12
151SMMTG
151SMNTG
151SM cG $The following |g's reported in ce data of 1962Ha24 have been discarded
151SM2cG because of lack of confirmation from |g, |g|g data 58.7, 77.2 105.8,
151SM3cG 112.0, 188.1, 219.5, 251.1, 394.5, 422.9, 433.6, 447.3, 459.0, 464.3,
151SM4cG 467.8, 498.1, 547.0, 555.5, 833.4 and 838.2
151SM cG $Unplaced |g's are from 1973Co29
151SM cG E$Weighted average of 1973Co29 and 1977Ho21
151SM cG RI$Unweighted average of 1973Co29 and 1977Ho21, except for closely
151SM2cG spaced lines where values are from 1973Co29
151SM cG MR$From ce data and/or |g|g(|q) data
151SM cG CC$Theoretical values for assigned mult and |d (from BrIcc code). The
151SM2cG experimental values deduced from Ice's taken mainly from 1964Be10 and
151SM3cG I|g's given here are given under comments. The uncertainties on these
151SM4cG values are|?25% for strong lines and|?50% for weak lines. |a's are
151SM5cG given for all transitions where expected to be>0.01
151SM cG M$From ce data unless otherwise indicated. For purposes of
151SM2cG normalization of the decay scheme, mult of several transitions have
151SM3cG been assumed as E1, M1,E2 etc., based on adopted J{+|p}'s
151SM cG M(D)$From |g(|q) data (1975Wa02)
151SM cG E(A)$Probably from room background. Treated uncertain (evaluator)
151SM cG E(B)$Observed in |g|g only
151SM cG RI(S)$From 1973Co29. 1977Ho21 give I|g=0.54~{I4}
151SM cL $The 405 and 650 levels proposed by 1964Be10 have been discarded due to
151SM2cL lack of confirmatory evidence in later studies.
151SM cL J$From 'adopted levels', unless stated otherwise
151SM cL E$From least squares fitting to E|g's
151PM P 0.0 5/2+ 28.40 H 4 1187 5
151SM N 0.225 9 0.225 9 1.0 1.0
151SM cN NR$From intensity balance. Combined feeding to g.s. and 4.8 level is
151SM2cN taken as 10% 3 (1964Be10). Conversion coefficients have been included
151SM3cN for transitions where |a is expected to be>0.01
151SM PN 3
151SM G 126.8 5 0.013 6 ?
151SM G 141.7 5 0.045 15 ?
151SM G 146.2 4 0.074 12 ?
151SM G 150.1 4 0.040 10 ?
151SM G 298.6 5 0.027 15 ?
151SM G 356.9 5 0.035 13
151SM G 416.8 4 0.069 20
151SM G 463.8 4 0.040 20 ?
151SM G 473.8 8 0.030 15 ?
151SM G 487.1 2 0.075 20 ?
151SM G 503.7 7 0.020 10 ?
151SM G 510.1 7 0.038 16 A ?
151SM G 581.1 6 0.020 6 ?
151SM G 583.1 2 0.114 14 A ?
151SM G 599.1 7 0.034 15 ?
151SM G 609.25 10 0.21 2 A ?
151SM G 655.6 5 0.05 2 ?
151SM G 699.0 8 0.085 25 ?
151SM G 727.0 3 0.030 6 A ?
151SM G 792.8 7 0.010 7
151SM G 867.1 7 0.013 5 ?
151SM G 903.5 5 0.014 4
151SM G 911.25 15 0.114 11 A ?
151SM G 919.3 7 0.008 4 ?
151SM G 922.1 7 0.006 3 ?
151SM G 933.9 5 0.017 3 A ?
151SM G 939.8 5 0.017 4
151SM G 968.9 2 0.065 7 A ?
151SM L 0.0 5/2-
151SM B 1190 10 10 LT 8.0GT
151SMS B EAV= 417 5
151SM cB E,IB$from 1964Be10. I|b is total for g.s. and 4.8 level. Others:
151SM2cB E|b=1200, I|b=11 (1963Bu02); E|b=1300, I|b=38 (1962Ch06)
151SM L 4.821 3 3/2- 35 NS 1
151SM cL T$from |g(ce)(t) (1971Dr05). Other: 19~ns~{I10} (|g(ce)(t) 1963Bu02)
151SM B 10 LT 8.0GT
151SMS B EAV= 415 5
151SM cB $Combined feeding to g.s. and 4.8 level=10% 3 (1964Be10). See also
151SM2cB comment on |b{+-} feeding to g.s.
151SM G 4.821 3 0.27 7 M1+E2 0.024 3 8.8E2 12 C
151SMS G MC=7.0E2 10$NC+=177 24
151SMS G NC=155 21$OC=20.9 25$PC=0.711 10
151SM cG E$from ce data (1963Ge10)
151SM cG RI$from decay scheme, deduced I(|g+ce)=58% 12 which gives
151SM2cG I|g=0.27~{I7}. Feeding to g.s. and 4.8 level=10% 3
151SM cG $ce(M1:M2:M3:M4:M5)=1.0:0.50~{I10}:0.76~{I15}:0.021~{I8}:0.011~{I4}
151SM2cG (1963Ge10)
151SM cG $ce(N1,N2,N3,N4,N5,O1,O2,O3) also observed but ratios not given
151SM2cG (1963Ge10)
151SM cG MR$from M1/M2 and M2/M3 ratios (1963Ge10). Other M subshell (1963Ge10)
151SM2cG give |d<0.07
151SM L 65.823 7 7/2- 0.5 NS LT
151SM cL T$|g|g(t) (1971Ho09). Other: 1962Ch06
151SM B 1.3 LT 8.8GT ?
151SMS B EAV= 390 4
151SM G 61.00 8 0.031 10(E2) 15.17
151SMS G KC=3.56 5$LC=9.00 14$MC=2.10 4$NC+=0.515 8
151SMS G NC=0.458 7$OC=0.0565 9$PC=0.0001605 23
151SM cG M$L-subshell ratios consistent with E2
151SM G 65.83 1 5.1 4 M1+E2 -0.22 2 5.90 10 C
151SMS G KC=4.70 7$LC=0.94 5$MC=0.207 12$NC+=0.053 3
151SMS G NC=0.0464 25$OC=0.0066 3$PC=0.000298 5
151SM cG $ce(L2/L3)=1.14~{I5} (1985GrZT)
151SM cG MR$from Ice(L2)/Ice(L3) (1985GrZT). Sign from |g|g(|q). Others from
151SM2cG |g|g(|q): -0.30~{I10} (1975Wa02), -0.20~{I2} (1981Ya07); -0.06~{I14}
151SM3cG (1977Ho21), -0.24~{I16} (1974Si12)
151SM L 69.703 7 5/2- 0.5 NS LT
151SM cL T$|g|g(t) (1971Ho09)
151SM cL J$275|g(|q) allows 5/2, not 3/2
151SM B 2.7 13 8.4 2
151SMS B EAV= 388 4
151SM G 64.88 1 8.4 7 M1+E2 -0.076 9 5.92 C
151SMS G KC=4.97 7$LC=0.746 14$MC=0.161 3$NC+=0.0421 8
151SMS G NC=0.0364 7$OC=0.00540 10$PC=0.000318 5
151SM cG $ce(L1/L2)=9.1~{I5} (1985GrZT)
151SM cG MR$from Ice(L1)/Ice(L2) (1985GrZT). Sign from |g|g(|q). Others from
151SM2cG |g|g(|q): -0.10~{I4} (1975Wa02), -0.10~{I5} (1981Ya07), -0.07~{I7}
151SM3cG (1977Ho21), -0.099~{I23} (1977Bu12), -0.16~{I10} (1974Si12)
151SM G 69.70 2 2.1 2 M1+E2 0.16 2 4.89 8 C
151SMS G KC=4.02 6$LC=0.68 3$MC=0.149 7$NC+=0.0386 17
151SMS G NC=0.0335 15$OC=0.00485 18$PC=0.000256 4
151SM cG $ce(L1/L2)=5.35~{I51} (1985GrZT)
151SM cG MR$from Ice(L1)/Ice(L2) (1985GrZT). Others from |g|g(|q):
151SM2cG +0.13~{I+30-16} (1975Wa02), 0.14 (1971Be23),|>0.15 (1977Bu12),
151SM3cG -0.45~{I25} (1974Si12). Sign of |d uncertain
151SM L 91.52 2 (9/2)+ 78 NS 1
151SM cL $g-factor=-0.21~{I1} (1974Dr03, time dependent PAC method)
151SM cL T$|g|g(t) (1971Ho09). Other: 1974Dr03
151SM B 0.5 LT 9.1GT ?
151SMS B EAV= 379 4
151SM G 25.69 2 4.3 3 E1 1.99 C
151SMS G LC=1.567 23$MC=0.339 5$NC+=0.0828 12
151SMS G NC=0.0733 11$OC=0.00916 13$PC=0.000299 5
151SM cG MR$<0.05 from Ice(L2)/Ice(M1)
151SM cG $ce(L1) and ce(L3) are unresolved
151SM L 104.833 6 3/2- 0.48 NS 3
151SM cL T$from |b|g(t) (1965Fo08). Others: 0.48~ns~{I6} (ce|g(t), 1971An07),
151SM2cL 1971Ho09, 1962Ch06
151SM cL J$|g|g(|q) with either 105|g or 100|g consistent with 3/2, not with 5/2
151SM B 3.0 9 8.3 2
151SMS B EAV= 374 4
151SM G 35.2 3 0.15 11M1+E2 0.6 1 49 11 1.8 5 C
151SMS G L/T=0.76 12$M/T=0.18 5$N+/T=0.043 13
151SMS G N/T=0.038 12$O/T=0.0048 15$P/T=3.1E-5 7
151SM cG TI$deduced from |g|g (1973Co29). From summing of Ice of 1964Be10,
151SM2cG I(|g+ce)=2.6 9
151SM cG RI$from I(|g+ce) and |a for mult and |d as given
151SM cG $Ice(L1)=1, Ice(L2)=5.3~{I10}, Ice(L3)=6.3~{I10}, Ice(M)=2.5~{I10},
151SM2cG Ice(M2)=Ice(M3)=1, Ice(N)=1 (1964Be10)
151SM cG MR$from L subshell ratios
151SM G 100.02 1 11.3 7 M1(+E2) 0.02 LT 1.689 C
151SMS G KC=1.431 20$LC=0.203 3$MC=0.0436 7$NC+=0.01146 16
151SMS G NC=0.00989 14$OC=0.001481 21$PC=9.13E-5 13
151SM cG $ce(L1/L2)=14.5~{I26} (1985GrZT)
151SM cG MR$from Ice(L1)/Ice(L2) (1985GrZT). Others from |g|g(|q): -0.02~{I1}
151SM2cG (1981Ya07), +0.15~{I25} (1977Bu12), +0.06~{I8} (1974Si12). From |g(|q)
151SM3cG |d=+0.01~{I3} (1975Wa02). ce data (1964Be10) give |d<0.12
151SM G 104.84 1 15.6 10M1+E2 -0.12 3 1.483 22 C
151SMS G KC=1.248 18$LC=0.185 5$MC=0.0399 12$NC+=0.0104 3
151SMS G NC=0.0090 3$OC=0.00134 4$PC=7.93E-5 12
151SM cG $ce(L1/L2)=9.3~{I10} (1985GrZT)
151SM cG MR$from Ice(L1)/Ice(L2) (1985GrZT). Sign from |g|g(|q) others from
151SM2cG |g|g(|q): -0.13~{I6} (1977Ho21), -0.076~{I23} (1977Bu12), -0.14~{I8}
151SM3cG (1974Si12),<0.12 (1971Be23). From |g(|q), |d=-0.10~{I3} (1975Wa02). ce
151SM4cG data give 0.20~{I5} (1964Be10), 0.12~{I4} (1962Ha24)
151SM L 167.751 7 5/2+ 0.38 NS 4
151SM cL T$|b|g(t) (1971An07). Other: |g|g(t) (1971Ho09)
151SM B 7.9 10 7.83 7
151SMS B EAV= 348 4
151SM G 62.91 2 0.92 7 (E1) 0.956 C
151SMS G KC=0.796 12$LC=0.1263 18$MC=0.0271 4$NC+=0.00685 10
151SMS G NC=0.00599 9$OC=0.000823 12$PC=3.61E-5 5
151SM cG MR$<0.05 from |a(K)exp
151SM G 76.22 2 0.90 7 (E2) 6.40 C
151SMS G KC=2.36 4$LC=3.13 5$MC=0.729 11$NC+=0.179 3
151SMS G NC=0.1595 23$OC=0.0198 3$PC=9.87E-5 14
151SM cG M,MR$L and M subshell ratios give E2(+M1) with |d>1.0
151SM G 98.05 2 1.60 13E1 0.291 C
151SMS G KC=0.245 4$LC=0.0361 5$MC=0.00772 11$NC+=0.00197 3
151SMS G NC=0.001719 24$OC=0.000243 4$PC=1.183E-5 17
151SM G 101.93 1 5.7 4 E1 0.262 C
151SMS G KC=0.221 3$LC=0.0323 5$MC=0.00692 10$NC+=0.001771 25
151SMS G NC=0.001542 22$OC=0.000218 3$PC=1.072E-5 15
151SM cG MR$<0.08 from ce data, 0.02~{I3} from |g(|q)
151SM G 162.94 2 3.9 3 (E1) 0.0732 C
151SMS G KC=0.0621 9$LC=0.00873 13$MC=0.00187 3$NC+=0.000481 7
151SMS G NC=0.000418 6$OC=6.03E-5 9$PC=3.21E-6 5
151SM cG M$|a(L)exp and |a(L1)exp disagree with E1 assignment. Ice's are
151SM2cG probably in error
151SM G 167.75 2 37 2 E1 0.0677 C
151SMS G KC=0.0575 8$LC=0.00806 12$MC=0.001722 25$NC+=0.000444 7
151SMS G NC=0.000386 6$OC=5.57E-5 8$PC=2.98E-6 5
151SM cG MR$<0.1 from ce data
151SM L 168.40 2 (5/2)- 0.4 NS LT
151SM cL T$|g|g(t) (1971Ho09)
151SM B 1.4 3 8.6 1
151SMS B EAV= 348 4
151SM G 98.74 8 0.26 4 M1,E2 2.1 4 C
151SMS G KC=1.36 13$LC=0.6 4$MC=0.13 9$NC+=0.033 22
151SMS G NC=0.029 19$OC=0.0038 23$PC=7.4E-5 22
151SM G 102.7 5 0.14 7 [M1,E2] 1.8 3 B? ?
151SMS G KC=1.22 12$LC=0.5 3$MC=0.11 8$NC+=0.028 18
151SMS G NC=0.025 16$OC=0.0032 19$PC=6.6E-5 19
151SM G 163.58 2 6.9 5 M1+E2 -0.15 5 0.420 C
151SMS G KC=0.355 6$LC=0.0514 12$MC=0.0111 3$NC+=0.00290 7
151SMS G NC=0.00250 6$OC=0.000373 8$PC=2.25E-5 4
151SM cG MR$av of -0.10~{I7} (from |g(|q)) and -0.20~{I3} (from |g|g(|q)). L1/L3
151SM2cG data give 0.5~{I1}
151SM G 168.39 5 4.1 4 M1+E2 +0.15 10 0.388 C
151SMS G KC=0.327 6$LC=0.0473 19$MC=0.0102 5$NC+=0.00267 11
151SMS G NC=0.00231 10$OC=0.000344 11$PC=2.08E-5 5
151SM cG MR$from |g|g(|q). |g(|q) gives |d=0.2~{I6}
151SM L 175.38 2 (9/2)-
151SM B 0.02 LT 11.0GT 1U?
151SMS B EAV= 345 4
151SM G 109.56 2 0.38 3 M1,E2 1.49 20 C
151SMS G KC=1.01 10$LC=0.37 22$MC=0.09 6$NC+=0.021 13
151SMS G NC=0.019 12$OC=0.0025 14$PC=5.5E-5 16
151SM L 208.995 8 (7/2)-
151SM cL J$|g|g(|q) with 209|g and 209|g(|q) support 7/2, not 5/2
151SM B 2.3 3 8.30 8
151SMS B EAV= 332 4
151SM G 139.28 2 2.2 2 M1+E2 -0.18 7 0.661 C
151SMS G KC=0.556 9$LC=0.083 4$MC=0.0179 9$NC+=0.00468 22
151SMS G NC=0.00405 19$OC=0.000600 23$PC=3.52E-5 7
151SM cG MR$weighted av from |g|g(|q) (1981Ya07,1977Ho21,1974Si12). Subshell
151SM2cG ratios give |d=0.34~{I10}
151SM G 143.17 3 0.95 6 M1,E2 0.632 24 C
151SMS G KC=0.47 5$LC=0.13 6$MC=0.029 14$NC+=0.007 4
151SMS G NC=0.006 3$OC=0.0009 4$PC=2.6E-5 7
151SM G 204.17 3 0.58 5 (E2) 0.195 C
151SMS G KC=0.1408 20$LC=0.0420 6$MC=0.00950 14$NC+=0.00239 4
151SMS G NC=0.00210 3$OC=0.000280 4$PC=7.01E-6 10
151SM cG M$|a(K)exp gives M1,E2 but |DJ{+|p} consistent with E2
151SM G 209.00 1 7.7 5 M1(+E2) 0.10 LT 0.214 C
151SMS G KC=0.181 3$LC=0.0255 4$MC=0.00547 8$NC+=0.001437 21
151SMS G NC=0.001240 18$OC=0.000186 3$PC=1.151E-5 17
151SM cG MR$+0.07~{I3} or -0.63~{I12} from |g(|q) (1975Wa02), +0.04~{I4} from
151SM2cG |g|g(|q) (1981Ya07)
151SM L 284.94 3 1/2-,3/2-
151SM B 0.05 LT 9.8GT
151SMS B EAV= 302 4
151SM G 215.3 3 0.040 16[M1,E2] 0.180 18 AC
151SMS G KC=0.144 24$LC=0.029 6$MC=0.0064 14$NC+=0.0016 3
151SMS G NC=0.0014 3$OC=0.00020 3$PC=8.3E-6 23
151SM G 280.09 3 1.03 8 M1,E2 0.083 14 C
151SMS G KC=0.068 15$LC=0.0120 6$MC=0.00262 17$NC+=0.00068 4
151SMS G NC=0.00059 4$OC=8.42E-5 14$PC=4.0E-6 12
151SM G 285.0 0.01 LT ?
151SM L 294.8 1 9/2-
151SM B 0.002 LT 11.7GT 1U?
151SMS B EAV= 298 4
151SM G 229.01 15 0.10 2 [M1,E2] 0.150 17 C
151SMS G KC=0.120 22$LC=0.023 4$MC=0.0051 9$NC+=0.00132 21
151SMS G NC=0.00115 19$OC=0.000162 18$PC=7.0E-6 20
151SM G 294.8 3 0.06 2 [E2] 0.0594 AC
151SMS G KC=0.0461 7$LC=0.01035 15$MC=0.00231 4$NC+=0.000587 9
151SMS G NC=0.000514 8$OC=7.06E-5 11$PC=2.47E-6 4
151SM L 302.62 3 7/2-
151SM B 0.17 7 9.3 2
151SMS B EAV= 295 4
151SM G 134.22 20 0.090 9 [M1,E2] 0.78 5 C
151SMS G KC=0.56 6$LC=0.16 8$MC=0.037 19$NC+=0.009 5
151SMS G NC=0.008 4$OC=0.0011 5$PC=3.1E-5 9
151SM G 134.9 6 0.018 9 [E1] 0.1221 23 C
151SMS G KC=0.1034 20$LC=0.0147 3$MC=0.00315 6$NC+=0.000811 16
151SMS G NC=0.000705 14$OC=0.0001010 19$PC=5.22E-6 10
151SM G 232.7 3 0.39 9 [M1,E2] 0.143 17 BC
151SMS G KC=0.115 21$LC=0.022 4$MC=0.0049 8$NC+=0.00125 18
151SMS G NC=0.00109 17$OC=0.000153 16$PC=6.7E-6 19
151SM G 236.7 2 0.86 21(M1,E2) 0.136 17 C
151SMS G KC=0.109 21$LC=0.021 3$MC=0.0046 8$NC+=0.00118 16
151SMS G NC=0.00103 15$OC=0.000145 14$PC=6.4E-6 19
151SM G 297.80 5 0.17 2 [E2] 0.0575 C
151SMS G KC=0.0447 7$LC=0.00998 14$MC=0.00222 4$NC+=0.000566 8
151SMS G NC=0.000495 7$OC=6.81E-5 10$PC=2.40E-6 4
151SM G 302.8 3 0.11 2 [M1,E2] 0.067 13 C
151SMS G KC=0.055 13$LC=0.00934 15$MC=0.00204 6$NC+=0.000528 9
151SMS G NC=0.000459 10$OC=6.60E-5 21$PC=3.3E-6 10
151SM L 306.79 2 3/2+
151SM cL J$202|g(|q) and |g|g(|q) with 202|g give 3/2, not 5/2
151SM B 1.7 3 8.26 8
151SMS B EAV= 293 4
151SM G 138.38 12 0.18 2 [E1] 0.1140 C
151SMS G KC=0.0966 14$LC=0.01373 20$MC=0.00294 5$NC+=0.000756 11
151SMS G NC=0.000657 10$OC=9.42E-5 14$PC=4.89E-6 7
151SM G 138.9 3 0.12 3 [M1,E2] 0.70 4 BC
151SMS G KC=0.51 6$LC=0.14 7$MC=0.032 16$NC+=0.008 4
151SMS G NC=0.007 4$OC=0.0010 4$PC=2.8E-5 8
151SM G 201.96 2 3.9 2 [E1] 0.0412 C
151SMS G KC=0.0350 5$LC=0.00485 7$MC=0.001036 15$NC+=0.000268 4
151SMS G NC=0.000233 4$OC=3.38E-5 5$PC=1.85E-6 3
151SM cG MR$<0.06 from |g(|q)
151SM G 237.1 2 2.3 4 (E1) 0.0270 C
151SMS G KC=0.0230 4$LC=0.00315 5$MC=0.000673 10$NC+=0.0001747 25
151SMS G NC=0.0001513 22$OC=2.21E-5 4$PC=1.236E-6 18
151SM cG M$|a(K)exp consistent with E1 for 237.1|g and M1,E2 for 236.7
151SM G 306.74 6 1.06 6 [E1] 0.01391 C
151SMS G KC=0.01187 17$LC=0.001610 23$MC=0.000343 5$NC+=8.93E-5 13
151SMS G NC=7.73E-5 11$OC=1.136E-5 16$PC=6.54E-7 10
151SM L 313.78 4 (1/2-,3/2-)
151SM B 0.02 LT 10.2GT ?
151SMS B EAV= 291 4
151SM G 308.97 8 0.36 4 (M1,E2) 0.063 12 C
151SMS G KC=0.052 12$LC=0.00877 13$MC=0.00192 4$NC+=0.000496 7
151SMS G NC=0.000431 7$OC=6.20E-5 24$PC=3.1E-6 10
151SM L 315.26 2 (3/2-)
151SM B 0.05 LT 9.8GT ?
151SMS B EAV= 290 4
151SM G 147.53 3 0.68 4 [E1] 0.0958 C
151SMS G KC=0.0812 12$LC=0.01149 17$MC=0.00246 4$NC+=0.000633 9
151SMS G NC=0.000550 8$OC=7.90E-5 11$PC=4.15E-6 6
151SM G 310.8 2 0.075 20[M1,E2] 0.062 12 C
151SMS G KC=0.051 12$LC=0.00861 14$MC=0.00188 4$NC+=0.000487 7
151SMS G NC=0.000423 7$OC=6.09E-5 25$PC=3.0E-6 10
151SM G 315.1 5 0.035 10[M1,E2] 0.060 12 C
151SMS G KC=0.049 12$LC=0.00825 16$MC=0.00180 3$NC+=0.000466 9
151SMS G NC=0.000405 6$OC=5.8E-5 3$PC=2.9E-6 9
151SM L 323.941 8 7/2+
151SM cL J$324|g(|q) and (258|g)(65|g)(|q) give 7/2, not 5/2
151SM B 3.3 4 7.94 6
151SMS B EAV= 287 4
151SM G 148.50 12 0.24 2 [E1] 0.0941 C
151SMS G KC=0.0798 12$LC=0.01129 16$MC=0.00241 4$NC+=0.000622 9
151SMS G NC=0.000540 8$OC=7.76E-5 11$PC=4.08E-6 6
151SM G 155.5 2 0.11 2 [E1] 0.0831 C
151SMS G KC=0.0705 11$LC=0.00993 15$MC=0.00212 3$NC+=0.000547 8
151SMS G NC=0.000475 7$OC=6.85E-5 10$PC=3.62E-6 6
151SM G 156.18 5 0.66 6 M1,E2 0.481 8 C
151SMS G KC=0.36 5$LC=0.09 4$MC=0.021 9$NC+=0.0052 20
151SMS G NC=0.0046 18$OC=0.00062 21$PC=2.0E-5 6
151SM G 232.43 2 4.6 4 M1+E2 -0.09 1 0.1599 C
151SMS G KC=0.1357 19$LC=0.0190 3$MC=0.00409 6$NC+=0.001074 15
151SMS G NC=0.000926 13$OC=0.0001389 20$PC=8.60E-6 12
151SM cG MR$from (232|g)(26|g)(|q) (1974Dr03)
151SM G 254.28 3 0.75 7 [E1] 0.0225
151SMS G KC=0.0191 3$LC=0.00262 4$MC=0.000559 8$NC+=0.0001452 21
151SMS G NC=0.0001258 18$OC=1.84E-5 3$PC=1.038E-6 15
151SM G 258.11 2 2.5 2 E1 0.0216 C
151SMS G KC=0.0184 3$LC=0.00252 4$MC=0.000538 8$NC+=0.0001396 20
151SMS G NC=0.0001210 17$OC=1.770E-5 25$PC=1.000E-6 14
151SM cG MR$<0.2 from |g(|q)
151SM G 323.94 1 5.4 4 E1 0.01213 C
151SMS G KC=0.01036 15$LC=0.001401 20$MC=0.000299 5$NC+=7.78E-5 11
151SMS G NC=6.73E-5 10$OC=9.90E-6 14$PC=5.73E-7 8
151SM cG MR$<0.03 from |g(|q)
151SM L 344.909 6 3/2+ 9.3 PS 2
151SM cL T$|bce(t) (1977Bu12). Others: 1971An07, 1965Fo08
151SM cL J$|g(|q) and |g|g(|q) data for 345|g, 340|g, 275|g and 240|g give 3/2,
151SM2cL not 5/2
151SM B 42 5 6.80 6
151SMS B EAV= 278 4
151SM G 59.93 4 0.11 1 [E1] 1.086 C
151SMS G KC=0.902 13$LC=0.1448 21$MC=0.0311 5$NC+=0.00784 11
151SMS G NC=0.00686 10$OC=0.000940 14$PC=4.07E-5 6
151SM G 176.52 3 3.8 3 (E1) 0.0590 C
151SMS G KC=0.0501 7$LC=0.00700 10$MC=0.001497 21$NC+=0.000387 6
151SMS G NC=0.000335 5$OC=4.85E-5 7$PC=2.62E-6 4
151SM G 177.16 1 17 1 M1+E2 -0.36 5 0.334 C
151SMS G KC=0.278 5$LC=0.0441 12$MC=0.0096 3$NC+=0.00249 7
151SMS G NC=0.00216 6$OC=0.000316 8$PC=1.73E-5 4
151SM cG MR$from |g(|q). Others: -0.45~{I10} from |g|g(|q), 0.34~{I10} from
151SM2cG subshell ratios in ce data
151SM G 240.09 1 17 1 E1 0.0261 C
151SMS G KC=0.0222 4$LC=0.00305 5$MC=0.000651 10$NC+=0.0001690 24
151SMS G NC=0.0001464 21$OC=2.14E-5 3$PC=1.198E-6 17
151SM cG MR$<0.03 from |g(|q)
151SM G 275.21 2 30 2 E1 0.0183 C
151SMS G KC=0.01562 22$LC=0.00213 3$MC=0.000455 7$NC+=0.0001181 17
151SMS G NC=0.0001023 15$OC=1.499E-5 21$PC=8.53E-7 12
151SM cG MR$<0.006 from |g(|q)
151SM G 340.08 1 100 E1 0.01075 C
151SMS G KC=0.00918 13$LC=0.001239 18$MC=0.000264 4$NC+=6.88E-5 10
151SMS G NC=5.95E-5 9$OC=8.77E-6 13$PC=5.10E-7 8
151SM DG ICE(K)=4.1, ICE(L)=0.76 10, ICE(L1)=0.76, ICE(M)=0.17 5
151SM2DG (1964Be10). OTHERS: 1963Ma16, 1962Ha24
151SM cG $|a(K)exp=0.0090~{I14} (1963Bu02), 0.102~{I14} (1965Be13). Direct
151SM2cG measurement of |a(K)exp from internal and external conversion of 340|g.
151SM3cG This transition used for normalization of ce data for other transitions
151SM G 344.90 1 9.4 5 E1 0.01039 C
151SMS G KC=0.00887 13$LC=0.001196 17$MC=0.000255 4$NC+=6.64E-5 10
151SMS G NC=5.75E-5 8$OC=8.47E-6 12$PC=4.93E-7 7
151SM cG $<0.03 from |g(|q)
151SM L 355.5 10 1/2+ ?
151SM B 0.02 LT 10.1GT ?
151SMS B EAV= 274 4
151SM G 250.5 8 0.04 2 B? ?
151SM L 395.581 9 5/2+
151SM cL J$291|g(|q) and (330|g)(66|g)(|q) give 5/2, not 3/2
151SM B 1.9 3 8.05 8
151SMS B EAV= 259 4
151SM G 88.80 9 0.055 7 M1,E2 3.0 7 C
151SMS G KC=1.82 20$LC=0.9 7$MC=0.21 15$NC+=0.05 4
151SMS G NC=0.05 4$OC=0.006 4$PC=0.00010 3
151SM G 92.97 4 0.15 1 [E1] 0.336 C
151SMS G KC=0.283 4$LC=0.0419 6$MC=0.00897 13$NC+=0.00229 4
151SMS G NC=0.00200 3$OC=0.000281 4$PC=1.355E-5 19
151SM G 186.59 2 0.8 1 (E1) 0.0509 C
151SMS G KC=0.0432 6$LC=0.00602 9$MC=0.001286 18$NC+=0.000332 5
151SMS G NC=0.000288 4$OC=4.18E-5 6$PC=2.27E-6 4
151SM G 227.18 2 1.5 1 (E1) 0.0302 C
151SMS G KC=0.0257 4$LC=0.00353 5$MC=0.000755 11$NC+=0.000196 3
151SMS G NC=0.0001696 24$OC=2.47E-5 4$PC=1.377E-6 20
151SM cG M$see comment for 227.8|g
151SM G 227.81 15 0.22 7 (M1,E2) 0.152 17 C
151SMS G KC=0.122 22$LC=0.024 4$MC=0.0052 10$NC+=0.00134 21
151SMS G NC=0.00117 20$OC=0.000165 19$PC=7.1E-6 20
151SM cG M$|a(K)exp (227.8|g+227.2|g) consistent with E1 for 227.2|g and M1,E2
151SM2cG for 227.8|g
151SM G 290.75 1 3.7 3 E1 0.01593 C
151SMS G KC=0.01358 19$LC=0.00185 3$MC=0.000394 6$NC+=0.0001025 15
151SMS G NC=8.87E-5 13$OC=1.302E-5 19$PC=7.45E-7 11
151SM cG MR$<0.035 from |g(|q)
151SM G 325.80 10 0.47 6 C
151SM G 329.75 2 0.98 6 (E1) 0.01161 C
151SMS G KC=0.00991 14$LC=0.001339 19$MC=0.000286 4$NC+=7.44E-5 11
151SMS G NC=6.43E-5 9$OC=9.47E-6 14$PC=5.49E-7 8
151SM G 390.67 6 0.24 2
151SM G 395.63 10 0.19 2
151SM L 415.61 3 (5/2-,7/2-)
151SM B 0.17 4 9.1 1
151SMS B EAV= 251 4
151SM G 91.7 3 0.025 15[E1] 0.349 6 BC
151SMS G KC=0.293 5$LC=0.0436 8$MC=0.00933 16$NC+=0.00238 4
151SMS G NC=0.00207 4$OC=0.000292 5$PC=1.403E-5 23
151SM G 113.1 2 0.043 7 [M1,E2] 1.35 16 C
151SMS G KC=0.92 9$LC=0.33 19$MC=0.07 5$NC+=0.019 11
151SMS G NC=0.017 10$OC=0.0022 12$PC=5.0E-5 14
151SM G 206.7 2 0.16 3 [M1,E2] 0.204 17 BC
151SMS G KC=0.16 3$LC=0.033 7$MC=0.0073 18$NC+=0.0019 4
151SMS G NC=0.0016 4$OC=0.00023 4$PC=9.E-6 3
151SM G 247.1 2 0.08 2 [M1,E2] 0.120 16 C
151SMS G KC=0.097 19$LC=0.0180 20$MC=0.0040 6$NC+=0.00102 12
151SMS G NC=0.00089 11$OC=0.000126 9$PC=5.7E-6 17
151SM G 247.8 2 0.13 2 C
151SM G 310.8 2 0.16 3 [M1,E2] 0.062 12 C
151SMS G KC=0.051 12$LC=0.00861 14$MC=0.00188 4$NC+=0.000487 7
151SMS G NC=0.000423 7$OC=6.09E-5 25$PC=3.0E-6 10
151SM G 346.1 2 0.17 4 [M1,E2] 0.046 10 BC
151SMS G KC=0.038 10$LC=0.0062 4$MC=0.00135 5$NC+=0.000350 18
151SMS G NC=0.000303 14$OC=4.4E-5 4$PC=2.3E-6 7
151SM G 349.81 3 0.63 6 (M1,E2) 0.045 10 C
151SMS G KC=0.037 9$LC=0.0060 4$MC=0.00131 6$NC+=0.000339 19
151SMS G NC=0.000294 15$OC=4.3E-5 4$PC=2.2E-6 7
151SM G 410.75 7 0.28 3 C
151SM G 415.7 3 0.099 20 C
151SM L 445.68 2 5/2+ 20 PS 3
151SM cL J$446|g(|q) and (380|g)(66|g)(|q) give 5/2, not 3/2
151SM cL T$|bce(t) (1977Bu12). Other: 1971An07
151SM B 7.1 8 7.38 6
151SMS B EAV= 240 4
151SM G 100.6 3 0.053 15[M1,E2] 2.0 4 BC
151SMS G KC=1.29 13$LC=0.5 4$MC=0.12 8$NC+=0.031 20
151SMS G NC=0.027 18$OC=0.0035 21$PC=7.0E-5 20
151SM G 121.77 4 0.40 4 (M1,E2) 1.06 10 C
151SMS G KC=0.75 7$LC=0.24 13$MC=0.06 3$NC+=0.014 8
151SMS G NC=0.012 7$OC=0.0016 8$PC=4.1E-5 11
151SM G 130.43 2 0.30 2 [E1] 0.1339 C
151SMS G KC=0.1133 16$LC=0.01620 23$MC=0.00346 5$NC+=0.000890 13
151SMS G NC=0.000774 11$OC=0.0001107 16$PC=5.69E-6 8
151SM G 143.2 3 0.045 15[E1] 0.1039 16 BC
151SMS G KC=0.0880 14$LC=0.01248 19$MC=0.00267 4$NC+=0.000687 11
151SMS G NC=0.000597 9$OC=8.57E-5 13$PC=4.48E-6 7
151SM G 236.6 1 0.71 8 [E1] 0.0271 C
151SMS G KC=0.0231 4$LC=0.00317 5$MC=0.000677 10$NC+=0.0001757 25
151SMS G NC=0.0001522 22$OC=2.22E-5 4$PC=1.243E-6 18
151SM G 277.62 10 0.27 6 C
151SM cG M$|a(K)exp disagrees with expected mult=E1
151SM G 278.2 3 0.035 15[M1,E2] 0.085 14 C
151SMS G KC=0.069 15$LC=0.0122 6$MC=0.00268 19$NC+=0.00069 4
151SMS G NC=0.00060 4$OC=8.60E-5 16$PC=4.1E-6 12
151SM G 341.0 3 0.33 8 BC
151SM G 379.86 3 4.2 3 (E1) 0.00821 DC
151SMS G KC=0.00701 10$LC=0.000941 14$MC=0.000201 3$NC+=5.23E-5 8
151SMS G NC=4.52E-5 7$OC=6.68E-6 10$PC=3.92E-7 6
151SM cG MR$<0.03 from |g(|q)
151SM G 440.85 2 6.7 4 E1 0.00576
151SMS G KC=0.00493 7$LC=0.000657 10$MC=0.0001400 20$NC+=3.65E-5 6
151SMS G NC=3.16E-5 5$OC=4.67E-6 7$PC=2.78E-7 4
151SM cG MR$<0.05 from |g(|q)
151SM G 445.68 2 17.8 10E1 0.00562 C
151SMS G KC=0.00480 7$LC=0.000640 9$MC=0.0001364 19$NC+=3.56E-5 5
151SMS G NC=3.08E-5 5$OC=4.56E-6 7$PC=2.71E-7 4
151SM cG MR$<0.03 from |g(|q)
151SM L 448.5 1 (3/2-)
151SM B 0.10 LT 9.2GT ?
151SMS B EAV= 239 4
151SM G 125.2 3 0.054 LT[M2] 7.19 12 @C ?
151SMS G KC=5.58 10$LC=1.248 22$MC=0.282 5$NC+=0.0741 13
151SMS G NC=0.0642 11$OC=0.00936 16$PC=0.000511 9
151SM cG $Placement by 1977Ho21. Mainly deexcites 521 level
151SM G 378.5 3 0.045 20[M1,E2] 0.036 8 BC
151SMS G KC=0.030 8$LC=0.0047 4$MC=0.00103 8$NC+=0.000268 23
151SMS G NC=0.000232 18$OC=3.4E-5 4$PC=1.8E-6 6
151SM G 443.8 3 0.10 4 BC
151SM G 448.7 3 0.09 4 C
151SM L 470.35 3 (5/2,7/2+)
151SM B 0.05 2 9.5 2
151SMS B EAV= 231 4
151SM G 261.4 3 0.050 15 [D,E2] 0.07 5 C
151SM G 301.8 2 0.06 2 [D,E2] 0.05 3 C
151SM G 302.5 3 0.12 3 [D,E2] 0.05 3 C
151SM G 400.5 5 0.031 14 C
151SM G 404.74 6 0.29 3 [D,E2] 0.022 15 C
151SM G 470.5 3 0.08 3 C
151SM L 490.32 3 (7/2)-
151SM B 0.47 6 8.46 6
151SMS B EAV= 223 4
151SM G 195.5 2 0.12 3 [M1,E2] 0.241 17 C
151SMS G KC=0.19 3$LC=0.040 10$MC=0.0089 24$NC+=0.0023 6
151SMS G NC=0.0020 6$OC=0.00028 6$PC=1.1E-5 3
151SM G 314.92 10 0.28 3 [M1,E2] 0.060 12 C
151SM3 G FLAG=S$
151SMS G KC=0.049 12$LC=0.00827 15$MC=0.00180 3$NC+=0.000467 8
151SMS G NC=0.000406 6$OC=5.8E-5 3$PC=2.9E-6 9
151SM G 321.87 10 0.43 5 [M1,E2] 0.056 11 C
151SMS G KC=0.046 11$LC=0.00773 20$MC=0.001686 25$NC+=0.000437 11
151SMS G NC=0.000379 7$OC=5.5E-5 3$PC=2.8E-6 9
151SM G 398.9 2 0.14 2
151SM G 420.65 6 0.25 3 [M1,E2] 0.027 7 C
151SMS G KC=0.023 6$LC=0.0035 5$MC=0.00076 8$NC+=0.000197 24
151SMS G NC=0.000170 20$OC=2.5E-5 4$PC=1.4E-6 5
151SM G 424.55 6 0.22 3 [M1,E2] 0.026 7 C
151SMS G KC=0.022 6$LC=0.0034 5$MC=0.00074 8$NC+=0.000192 23
151SMS G NC=0.000166 20$OC=2.4E-5 4$PC=1.3E-6 5
151SM G 490.26 5 0.56 4 [M1,E2] 0.018 5
151SMS G KC=0.015 5$LC=0.0023 4$MC=0.00049 8$NC+=0.000128 21
151SMS G NC=0.000111 17$OC=1.6E-5 3$PC=9.E-7 3
151SM L 521.10 2 3/2+
151SM cL J$451|g(|q) and (451|g)(65|g)(|q) give 3/2, not 5/2
151SM B 0.77 10 8.18 6
151SMS B EAV= 212 4
151SM G 125.2 3 0.054 8 [M1,E2] 0.97 8 @C
151SMS G KC=0.69 7$LC=0.22 11$MC=0.05 3$NC+=0.012 7
151SMS G NC=0.011 6$OC=0.0014 7$PC=3.8E-5 11
151SM cG $|g|g (1973Co29) suggests deexcitation from 521 level only
151SM G 205.7 3 0.04 1 BC
151SM G 207.0 3 0.033 8 BC
151SM G 236.2 2 0.42 7 [E1] 0.0272 C
151SMS G KC=0.0232 4$LC=0.00319 5$MC=0.000680 10$NC+=0.000176 3
151SMS G NC=0.0001529 22$OC=2.23E-5 4$PC=1.248E-6 18
151SM G 353.32 10 0.47 5 [M1,E2] 0.043 10 C
151SMS G KC=0.036 9$LC=0.0058 4$MC=0.00127 6$NC+=0.000329 20
151SMS G NC=0.000285 15$OC=4.1E-5 4$PC=2.2E-6 7
151SM G 451.40 2 1.28 10(E1) 0.00545 DC
151SMS G KC=0.00466 7$LC=0.000621 9$MC=0.0001324 19$NC+=3.45E-5 5
151SMS G NC=2.99E-5 5$OC=4.42E-6 7$PC=2.63E-7 4
151SM cG MR$-0.18~{I13} from |g(|q)
151SM G 516.25 6 0.86 6
151SM G 521.1 2 0.14 2
151SM L 620.43 14 (3/2-,5/2,7/2+)
151SM B 0.12 2 8.75 8
151SMS B EAV= 175 4
151SM G 452.2 5 0.06 2 C
151SMF G FL=168.40
151SM G 550.7 3 0.069 12
151SM G 554.2 3 0.072 12
151SM G 620.6 2 0.32 3
151SM L 663.1 2 3/2(+)
151SM B 0.053 10 9.0 1
151SMS B EAV= 160 4
151SM G 192.9 4 0.033 10 [D,E2] 0.16 11 BC
151SM G 348.8 3 0.041 10 BC
151SM G 494.9 4 0.05 2 C
151SMF G FL=168.40
151SM G 495.5 4 0.06 2 C
151SM G 593.6 4 0.045 9
151SM L 663.54 7 (5/2-,7/2,9/2-)
151SM B 0.22 3 8.4 1
151SMS B EAV= 160 4
151SM G 360.9 3 0.047 12
151SM G 369.0 2 0.073 11
151SM G 454.4 4 0.06 2
151SM G 597.7 1 0.35 4 C
151SM G 663.5 1 0.42 4
151SM L 741.03 2 3/2(+) 0.1 NS LT
151SM cL J$736|g(|q) and (636|g)(100|g)(|q) give 3/2, not 5/2
151SM cL T$|b|g(t) (1971An07)
151SM B 3.1 4 6.98 7
151SMS B EAV= 133 4
151SM G 270.72 3 0.30 3 [D,E2] 0.06 4 C
151SM G 292.4 3 0.05 3 BC
151SM G 295.2 3 0.07 2 [M1,E2] 0.072 13 C
151SMS G KC=0.059 13$LC=0.01012 24$MC=0.00221 9$NC+=0.000572 15
151SMS G NC=0.000497 16$OC=7.14E-5 16$PC=3.5E-6 11
151SM G 325.2 3 0.065 14 BC
151SM G 425.6 4 0.044 13 C
151SM G 427.25 4 0.28 3 C
151SM G 456.05 13 0.17 3 C
151SM G 572.5 2 0.23 5 C
151SM G 573.2 2 0.13 3 C
151SM G 636.20 3 6.3 4 (E1) 0.00254 DC
151SMS G KC=0.00218 3$LC=0.000286 4$MC=6.08E-5 9$NC+=1.591E-5 23
151SMS G NC=1.374E-5 20$OC=2.05E-6 3$PC=1.249E-7 18
151SM cG MR$<0.02 from |g(|q)
151SM G 671.28 3 4.0 3 (E1) 0.00227 C
151SMS G KC=0.00195 3$LC=0.000255 4$MC=5.42E-5 8$NC+=1.418E-5 20
151SMS G NC=1.224E-5 18$OC=1.82E-6 3$PC=1.118E-7 16
151SM G 736.12 10 2.1 2 (E1) 0.00188 D
151SMS G KC=0.001612 23$LC=0.000210 3$MC=4.46E-5 7$NC+=1.168E-5 17
151SMS G NC=1.008E-5 15$OC=1.505E-6 21$PC=9.27E-8 13
151SM cG MR$<0.04 from |g(|q)
151SM G 740.8 2 0.10 2
151SM L 773.98 4 5/2(+)
151SM B 1.14 15 7.31 7
151SMS B EAV= 122 4
151SM G 358.4 2 0.068 13 C
151SM G 457.5 10 0.02 1 BC
151SM G 467.2 6 0.05 2 C
151SM G 471.4 5 0.06 2 C
151SM G 565.00 4 1.57 9 (E1) 0.00329 C
151SMS G KC=0.00281 4$LC=0.000371 6$MC=7.90E-5 11$NC+=2.06E-5 3
151SMS G NC=1.783E-5 25$OC=2.65E-6 4$PC=1.606E-7 23
151SM cG MR$<0.11 from |g(|q)
151SM G 605.9 5 0.043 11 C
151SMF G FL=167.751
151SM G 669.2 2 1.3 2 C
151SM G 704.24 8 1.5 1 C
151SM G 769.10 8 0.47 4
151SM L 777.4 10(LE 7/2) ?
151SM B 0.014 6 9.2 2 ?
151SMS B EAV= 121 4
151SM G 329.0 8 0.06 3 BC ?
151SM L 822.63 3 (3/2+,5/2+) 0.1 NS LT
151SM cL E$this level may be a doublet (see 'adopted levels')
151SM cL J$718|g(|q) and |g|g(|q) with 753|g, 718|g, 654|g give 3/2, not 5/2.
151SM2cL But this conclusion may be questionable since the (n,|g) results show
151SM3cL that 718|g and 752|g may be doublets, the other components deexciting
151SM4cL an 822 level.
151SM cL T$|b|g(t) (1971An07)
151SM B 6.1 8 6.40 7
151SMS B EAV= 106 4
151SM G 352.3 3 0.07 2 C
151SM G 374.2 2 0.098 20 C
151SM G 376.9 3 0.07 2 C
151SM G 407.03 3 0.83 6 C
151SM G 477.75 4 0.42 4 [M1,E2] 0.019 5 C
151SMS G KC=0.016 5$LC=0.0024 4$MC=0.00053 8$NC+=0.000137 21
151SMS G NC=0.000119 18$OC=1.7E-5 3$PC=1.0E-6 3
151SM G 507.27 14 0.21 3 C
151SM G 537.65 11 0.20 3 C
151SM G 654.25 6 1.07 7 (E1) 0.00240 C
151SMS G KC=0.00206 3$LC=0.000269 4$MC=5.72E-5 8$NC+=1.498E-5 21
151SMS G NC=1.294E-5 19$OC=1.93E-6 3$PC=1.179E-7 17
151SM G 717.72 8 18 1 E1 0.00198 C
151SMS G KC=0.001697 24$LC=0.000221 3$MC=4.70E-5 7$NC+=1.231E-5 18
151SMS G NC=1.063E-5 15$OC=1.586E-6 23$PC=9.76E-8 14
151SM cG MR$-0.010~{I6} from |g(|q)
151SM G 752.82 8 5.7 4 E1 0.00179 C
151SMS G KC=0.001540 22$LC=0.000200 3$MC=4.26E-5 6$NC+=1.115E-5 16
151SMS G NC=9.63E-6 14$OC=1.437E-6 21$PC=8.86E-8 13
151SM cG MR$<0.03 from |g(|q)
151SM G 817.7 2 0.40 15
151SM G 822.45 11 0.15 4
151SM L 851.6 3 ?
151SM B 0.02 LT 8.8GT ?
151SMS B EAV= 97 4
151SM G 381.2 3 0.09 3 C ?
151SM L 877.63 3 5/2(+)
151SM B 2.4 3 6.57 8
151SMS B EAV= 88 4
151SM G 429.1 3 0.07 3 C
151SM G 462.24 13 0.16 2 C
151SM G 532.5 2 0.15 2 C
151SM G 562.1 3 0.085 15 C
151SM G 574.97 7 0.52 4 C
151SM G 668.7 2 1.6 2 C
151SM G 709.25 6 0.61 5 C
151SM G 772.76 8 4.0 3 (E1) 1.70E-3 DC
151SMS G KC=0.001461 21$LC=0.000190 3$MC=4.04E-5 6$NC+=1.057E-5 15
151SMS G NC=9.12E-6 13$OC=1.362E-6 19$PC=8.42E-8 12
151SM cG MR$<0.01 from |g(|q)
151SM G 807.90 6 2.5 2 (E1) 1.56E-3 DC
151SMS G KC=0.001337 19$LC=0.0001734 25$MC=3.69E-5 6$NC+=9.65E-6 14
151SMS G NC=8.33E-6 12$OC=1.245E-6 18$PC=7.71E-8 11
151SM cG MR$<0.07 from |g(|q)
151SM G 811.8 1 0.30 3 C
151SM G 877.7 1 0.45 4 (E1) 1.32E-3 D
151SMS G KC=0.001137 16$LC=0.0001469 21$MC=3.12E-5 5$NC+=8.18E-6 12
151SMS G NC=7.06E-6 10$OC=1.055E-6 15$PC=6.57E-8 10
151SM cG MR$<0.1 from |g(|q)
151SM L 887.32 7 (5/2-,7/2)
151SM B 0.35 6 7.37 9
151SMS B EAV= 85 4
151SM G 471.3 2 0.08 3 C
151SM G 584.9 4 0.038 7 C
151SM G 678.30 15 0.20 2 C
151SM G 712.0 1 0.42 4 C
151SM G 719.0 5 0.050 15 C
151SMF G FL=168.40
151SM G 817.7 2 0.75 15 C
151SM G 887.6 6 0.012 4
151SM L 889.3 6 (1/2,3/2,5/2+)
151SM B 0.011 3 8.9 2
151SMS B EAV= 85 4
151SM G 575.1 10 0.013 5 BC
151SMF G FL=313.78
151SM G 604.0 6 0.036 10 C
151SM L 926.0 2 (5/2,7/2)
151SM B 0.039 7 8.1 1
151SMS B EAV= 73 3
151SM G 603.0 6 0.050 15 C
151SM G 758.5 4 0.040 9 C
151SM G 856.2 3 0.029 5
151SM G 859.8 3 0.037 5
151SM G 926.1 5 0.018 3
151SM L 953.49 4 3/2(+)
151SM cL J$from 949|g(|q), 849|g(|q)
151SM B 1.00 13 6.56 9
151SMS B EAV= 65 3
151SM G 598.0 10 0.04 2 BC
151SM G 668.5 8 0.015 7 BC
151SM G 785.10 7 0.98 7 (E1) 1.65E-3 DC
151SMS G KC=0.001415 20$LC=0.000184 3$MC=3.91E-5 6$NC+=1.023E-5 15
151SMS G NC=8.83E-6 13$OC=1.319E-6 19$PC=8.16E-8 12
151SM cG MR$<0.07 from |g(|q)
151SM G 848.65 7 1.25 9 (E1) 1.41E-3 DC
151SMS G KC=0.001214 17$LC=0.0001570 22$MC=3.34E-5 5$NC+=8.75E-6 13
151SMS G NC=7.55E-6 11$OC=1.128E-6 16$PC=7.01E-8 10
151SM cG MR$<0.07 from |g(|q)
151SM G 883.68 13 0.20 2 C
151SM G 948.72 7 1.56 12(E1) 1.14E-3 D
151SMS G KC=0.000979 14$LC=0.0001261 18$MC=2.68E-5 4$NC+=7.02E-6 10
151SMS G NC=6.06E-6 9$OC=9.07E-7 13$PC=5.67E-8 8
151SM cG MR$<0.04 from |g(|q)
151SM G 953.41 11 0.43 4 (E1) 1.13E-3 D
151SMS G KC=0.000970 14$LC=0.0001249 18$MC=2.65E-5 4$NC+=6.96E-6 10
151SMS G NC=6.00E-6 9$OC=8.98E-7 13$PC=5.61E-8 8
151SM cG MR$<0.16 from |g(|q)
151SM L 964.24 7 5/2(+)
151SM cL J$from 796|g(|q)
151SM B 0.18 3 7.2 1
151SMS B EAV= 62 3
151SM G 661.55 15 0.10 4 C
151SM G 755 1 0.03 1 C
151SM G 795.74 9 0.26 2 (E1+M2) -0.17 7 0.0021 5 DC
151SMS G KC=0.0018 4$LC=0.00024 6$MC=5.1E-5 12$NC+=1.3E-5 3
151SMS G NC=1.1E-5 3$OC=1.7E-6 4$PC=1.06E-7 25
151SM cG MR$from |g(|q)
151SM G 894.1 7 0.012 4
151SM G 898.58 12 0.11 1 C
151SM G 959.7 3 0.28 3
151SM G 964.4 4 0.021 4
151SM L 1016.5 4 (3/2-,5/2,7/2-)
151SM B 0.013 4 8.0 2
151SMS B EAV= 46 3
151SM G 713.4 5 0.040 15 C
151SM G 1012.2 5 0.016 4