150SM 150EU EC DECAY (36.9 Y) 1977SI12,1978MEZK 13NDS 201306
150SM H TYP=FUL$AUT=S. K. Basu, A. A. Sonzogni$CIT=NDS 114, 435 (2013)$
150SM2 H CUT=1-Apr-2013$
150SM c 1973MeZX: private communication giving precision spectrometer
150SM2c measurements of E|g (which appear in improved form in 1978MeZK). Also
150SM3c given are I|g, ce(K), and ce(L). |eK(exp) and |eL(exp) are deduced, as
150SM4c are multipolarities. No experimental details are given. A complete
150SM5c listing of this work appears in 1976Ba18.
150SM c 1977Si12: this published work agrees remarkably with 1973MeZX and
150SM2c reports most, but not all, of the photons seen by 1973MeZX. E|g, I|g
150SM3c are given.
150SM c Others: 1990Me15
150SM cG $The |g-ray data below are taken from 1977Si12 and from 1978MeZK which
150SM2cG has been reproduced in part in 1990Me15. 1977Si12 used the
150SM3cG {+150}Sm(d,2n) E=14~MeV reaction on Sm enriched to 99.7% in {+150}Sm to
150SM4cG obtain {+150}Eu. A period of 3 years was allowed to pass before
150SM5cG beginning spectroscopic studies. A Ge(Li) detector with 9.5% efficiency
150SM6cG and 2.1-keV resolution at 1332~keV was used.
150SM c The decay scheme is based on that of 1977Si12, but some unplaced |g
150SM2c rays reported in 1977Si12 or 1978MeZK have been placed in the scheme on
150SM3c the basis of energy fit, multipolarities, and other experiments.
150SM cG E,RI$From 1978MeZK, unless otherwise stated.
150SM cE $I|e deduced from |g-ray intensity balance at each level.
150SM cG $|a(K)exp,|a(L)exp: deduced from ce(K), ce(L) by 1973MeZX.
150SM cG E(A)$|g ray reported only by 1973MeZX. Placement made on basis of
150SM2cG energy fit and multipolarities.
150SM cG M(B)$From 1973MeZX.
150SM cG M$From adopted gammas, unless otherwise noted.
150SM cL J$Adopted values.
150SM cL E(A)$Level suggested by 1973MeZX.
150SM D CC$ FROM BrIcc v2.2b (20-Jan-2009) 2008Ki07, "Frozen Orbitals" appr.
150EU P 0.0 5- 36.9 Y 9 2259 6
150SM N 0.09516 0.09516 1 1
150SM cN NR$From |S\ I(|g+ce) to g.s.=100
150SM G 420.55 22 0.14 6
150SM G 615.16 4 0.84 4
150SM G 658.28 6 0.55 5
150SM L 0.0 0+
150SM L 333.962 10 2+
150SM G 333.971 12 1000 E2 0.0405 C
150SMS G KC=0.0320 5$LC=0.00665 10$MC=0.001475 21$NC=0.000329 5$OC=4.57E-5 7$
150SMS G PC=1.749E-6 25$NC+=0.000376 6
150SM L 740.49 4 0+
150SM G 406.52 5 1.46 15 E2 0.0227 ?
150SMS G KC=0.0183 3$LC=0.00343 5$MC=0.000756 11$NC=0.0001691 24$OC=2.39E-5 4$
150SMS G PC=1.031E-6 15$NC+=0.000194 3
150SM cG E$1977Si12 do not see this line in singles, but have inconclusive
150SM2cG coincidence evidence for its presence in spectra gated by the
150SM3cG 584.26-keV |g ray.
150SM G 740.6 E0 0.020 ?
150SMF G FLAG=A
150SM cG TI$for ce(K)+ce(L).
150SM L 773.392 12 4+
150SM G 439.401 15 837 17 E2 0.0182 C
150SMS G KC=0.01482 21$LC=0.00268 4$MC=0.000588 9$NC=0.0001317 19$OC=1.87E-5 3$
150SMS G PC=1.0E-5 10$NC+=0.0015 14
150SM E 0.019 6 7.4 2211.40 13 7.4 22
150SMS E EAV=220.8 27$CK=0.8372$CL=0.12431 4$CM+=0.03594 2
150SM L 1046.207 13 2+
150SM G 272.79 9 0.16 6 @
150SM G 305.70 8 0.35 6 E2 0.0530
150SMS G KC=0.0414 6$LC=0.00908 13$MC=0.00202 3$NC=0.000450 7$OC=6.21E-5 9$
150SMS G PC=2.23E-6 4$NC+=0.000515 8
150SM G 712.205 15 11.3 3 M1(+E0+E2) 0.007119 C
150SMS G KC=0.0060 16$LC=0.00085 18$MC=0.00018 4$NC=4.1E-5 9$OC=6.1E-6 14$
150SMS G PC=3.7E-7 11$NC+=4.8E-5 10
150SM cG $|a(K),|a(L): calculated for M1 transition.
150SM G 1046.12 8 0.92 12 C
150SM cG E$E|g from |b{+-} decay.
150SM cG RI$from I|g/I|g(712|g)=0.081 {I10} in |b{+-} decay
150SM L 1071.364 12 3-
150SM G 298.061 14 6.71 16 E1 0.01496 C
150SMX G EKC=0.0124
150SMS G KC=0.01276 18$LC=0.001733 25$MC=0.000370 6$NC=8.32E-5 12$
150SMS G OC=1.222E-5 18$PC=7.01E-7 10$NC+=9.61E-5 14
150SM G 737.455 15 100 2 E1 0.001873 C
150SMX G EKC=0.00161$ELC=0.00021$EMC=0.00006
150SMS G KC=0.001606 23$LC=0.000209 3$MC=4.44E-5 7$NC=1.005E-5 14$
150SMS G OC=1.499E-6 21$PC=9.24E-8 13$NC+=1.164E-5 17
150SM cG M$from K/L ratio (1973MeZX).
150SM L 1165.776 19 1-
150SM G 831.92 25 0.7 2 (E1) C
150SMS G CC=0.001469 21$KC=0.001262 18$LC=0.0001634 23$MC=3.47E-5 5$
150SMS G OC=1.174E-6 17$PC=7.28E-8 11$NC+=9.10E-6 13
150SM G 1165.74 3 1.1 1 E1
150SMS G CC=0.000792 11$KC=0.000670 10$LC=8.56E-5 12$MC=1.82E-5 3$NC=4.11E-6 6$
150SMS G OC=6.16E-7 9$PC=3.88E-8 6$NC+=1.82E-5 3
150SM L 1193.852 12 2+
150SM G 453.38 10 0.27 5 E1,E2 ?
150SM cG RI$453.58 {I10} reported in 1990Me15 is a misprint.
150SM G 859.867 18 6.1 1 M1(+E2) 0.004511 C
150SMS G KC=0.0039 10$LC=0.00053 12$MC=0.000114 24$NC=2.6E-5 6$OC=3.9E-6 9$
150SMS G PC=2.4E-7 7$NC+=3.0E-5 7
150SM G 1193.826 24 8.3 3 E2
150SMX G EKC=0.00145
150SMS G CC=0.001731 25$KC=0.001470 21$LC=0.000201 3$MC=4.31E-5 6$
150SMS G OC=1.452E-6 21$PC=8.75E-8 13$NC+=1.635E-5 23
150SM L 1278.846 16 6+
150SM G 505.521 25 50 1 E2 0.01246 C
150SMX G EKC=0.0102$ELC=0.00175
150SMS G KC=0.01023 15$LC=0.001743 25$MC=0.000381 6$NC=8.55E-5 12$
150SMS G OC=1.225E-5 18$PC=5.89E-7 9$NC+=9.83E-5 14
150SM cG M$from K/L (1973MeZX).
150SM E 2.64 1011.473 21 2.64 10
150SMS E CK=0.8353$CL=0.12762 6$CM+=0.03705 2
150SM L 1357.636 13 5-
150SM G 78.7 3 0.86 8 E1 0.526 10 ?
150SMS G KC=0.441 8$LC=0.0671 12$MC=0.0144 3$NC=0.00319 6$OC=0.000445 8$
150SMS G PC=2.07E-5 4$NC+=0.00365 7
150SM G 286.293 15 1.03 15 @C
150SML G FL=1071.364
150SM cG RI$I|g(peak)=2.35. 1976Ba18 deduced I|g from (n,|g) data.
150SM G 584.274 12 548 15 E1 0.003055 C
150SMX G EKC=0.00262$ELC=0.00030
150SMS G KC=0.00262 4$LC=0.000344 5$MC=7.33E-5 11$NC=1.655E-5 24$OC=2.46E-6 4$
150SMS G PC=1.495E-7 21$NC+=1.92E-5 3
150SM E 49.7 1410.122 18 49.7 14
150SMS E CK=0.83428 9$CL=0.12840 7$CM+=0.03731 3
150SM L 1417.260 14 2+
150SM G 251.596 25 1.80 9 E1 0.0231
150SMS G KC=0.0197 3$LC=0.00269 4$MC=0.000575 8$NC=0.0001294 19$OC=1.89E-5 3$
150SMS G PC=1.066E-6 15$NC+=0.0001493 21
150SM G 345.955 19 4.15 15 E1 0.01031 C
150SMS G KC=0.00880 13$LC=0.001187 17$MC=0.000253 4$NC=5.70E-5 8$OC=8.40E-6 12$
150SMS G PC=4.89E-7 7$NC+=6.59E-5 10
150SM G 370.721 25 0.83 17 (E2+E0) @C
150SML G FL=1046.207
150SM cG E$1973MeZX give E|g=370.71 {I2} and place this transition as
150SM2cG originating from levels 1417 and 1819.
150SM cG RI$from I|g/I|g(346|g)=0.20 {I4} in |b-decay.
150SM G 676.81 0.20 LE C ?
150SMF G FLAG=A
150SM G 1083.34 3 1.7 1 M1+E0 C
150SMF G FLAG=B
150SM G 1417 0.0025 15
150SMF G FLAG=A
150SM L 1449.210 15 4+
150SM G 377.73 3 1.18 8 &
150SM G 403.36 10 2.5 1 E2 0.0232
150SML G FL=1046.207
150SMF G FLAG=A
150SMS G KC=0.0187 3$LC=0.00352 5$MC=0.000776 11$NC=0.0001735 25$OC=2.45E-5 4$
150SMS G PC=1.052E-6 15$NC+=0.000199 3
150SM G 675.856 25 5.3 1 E2+E0+M1 0.008121 C
150SMS G KC=0.0068 19$LC=0.00097 20$MC=0.00021 5$NC=4.7E-5 10$OC=7.0E-6 16$
150SMS G PC=4.2E-7 13$NC+=5.5E-5 12
150SM L 1504.580 14 3+
150SM G 310.82 8 0.31 6
150SMF G FLAG=A
150SM G 458.36 6 0.46 5
150SMF G FLAG=A
150SM G 731.220 24 3.5 1 E2 0.004977 C
150SMS G KC=0.00417 6$LC=0.000630 9$MC=0.0001362 19$NC=3.07E-5 5$OC=4.49E-6 7$
150SMS G PC=2.46E-7 4$NC+=3.54E-5 5
150SM G 1170.587 24 13.9 2 E2 0.001803 C
150SMX G EKC=0.00155$ELC=0.00015
150SMS G KC=0.001528 22$LC=0.000210 3$MC=4.50E-5 7$NC=1.017E-5 15$
150SMS G OC=1.514E-6 22$PC=9.10E-8 13$NC+=1.479E-5 21
150SM E 0.14 3 12.51 10 0.14 3
150SMS E CK=0.8317 2$CL=0.1303 1$CM+=0.03798 4
150SM L 1642.665 13 4+
150SM G 284.995 26 1.74 8 E1 0.01676
150SMS G KC=0.01429 20$LC=0.00195 3$MC=0.000415 6$NC=9.34E-5 13$OC=1.370E-5 20$
150SMS G PC=7.82E-7 11$NC+=0.0001079 16
150SM cG M$from |a(K)exp (1973MeZX).
150SM G 448.789 12 2.7 1
150SM G 476.89 13 0.19 5 & ?
150SMF G FLAG=A
150SM cG $Seen only by 1973MeZX, 1978MeZK.
150SM G 571.259 15 4.3 1 E1 0.003215 &C
150SMS G KC=0.00275 4$LC=0.000362 5$MC=7.70E-5 11$NC=1.740E-5 25$OC=2.59E-6 4$
150SMS G PC=1.568E-7 22$NC+=2.01E-5 3
150SM G 596.53 4 0.55 10 @C
150SM cG RI$from I(596)/I(1308)=0.059 {I10} in (n,|g) (1976Ba18)
150SM G 869.256 14 19.3 2 E2+E0(+M1) 0.004411 C
150SMS G KC=0.0038 10$LC=0.00052 11$MC=0.000111 23$NC=2.5E-5 6$OC=3.8E-6 9$
150SMS G PC=2.3E-7 7$NC+=2.9E-5 7
150SM G 1308.675 23 9.3 2 E2 C
150SMX G EKC=0.00124$ELC=0.00015
150SMS G CC=0.001459 21$KC=0.001226 18$LC=0.0001660 24$MC=3.55E-5 5$
150SMS G OC=1.198E-6 17$PC=7.30E-8 11$NC+=3.14E-5 5
150SM cG M$K/L (1973MeZX) confirms assignment
150SM E 3.05 8 10.985 18 3.05 8
150SMS E CK=0.8280 2$CL=0.13308 15$CM+=0.03892 6
150SM L 1684.159 15 3-
150SM G 612.693 28 0.97 6 &
150SML G FL=1071.364
150SM G 637.826 24 0.15 7 & ?
150SML G FL=1046.207
150SM G 910.88 4 0.9 1 E1
150SMX G EKC=0.0011
150SMS G CC=0.001232 18$KC=0.001058 15$LC=0.0001365 20$MC=2.90E-5 4$
150SMS G OC=9.81E-7 14$PC=6.12E-8 9$NC+=7.60E-6 11
150SM G 1350.29 3 1.8 1 E1 C
150SMX G EKC=0.00051
150SMS G CC=0.000704 10$KC=0.000517 8$LC=6.57E-5 10$MC=1.393E-5 20$
150SMS G OC=4.74E-7 7$PC=3.00E-8 5$NC+=0.0001077 15
150SM L 1713.09 6 1
150SM G 1379.12 6 0.41 5 (E2+M1) 0.00163 &
150SMS G KC=0.00135 25$LC=0.00018 3$MC=3.8E-5 7$NC=8.7E-6 15$OC=1.30E-6 23$
150SMS G PC=8.2E-8 16$NC+=5.0E-5 4
150SM cG $Seen only by 1973MeZX, 1978MeZK; placed on basis of energy fit.
150SM cG RI$0.41 {I5} is value for multiplet.
150SM L 1764.637 24 7- ?
150SM G 485.931 20 1.72 7 (E1) 0.004607
150SML G FL=1278.846
150SMF G FLAG=A
150SMS G KC=0.00394 6$LC=0.000523 8$MC=0.0001113 16$NC=2.51E-5 4$OC=3.73E-6 6$
150SMS G PC=2.23E-7 4$NC+=2.91E-5 4
150SM L 1819.420 12 4+
150SM G 135.05 17 0.12 3
150SMF G FLAG=A
150SM G 315.0 2 0.18 6
150SMF G FLAG=A
150SM G 370.721 25 0.29 19 @
150SML G FL=1449.210
150SM cG RI$from I|g=1.12 {I9} for the doubly placed transition and I|g=0.83
150SM2cG {I17} deduced for the component from the 1417 level.
150SM G 402.152 12 8.13 8 (E2) 0.0234 C
150SML G FL=1417.260
150SMS G KC=0.0189 3$LC=0.00356 5$MC=0.000783 11$NC=0.0001752 25$OC=2.47E-5 4$
150SMS G PC=1.061E-6 15$NC+=0.000201 3
150SM cG M$from |a(K)exp (1973MeZX)
150SM G 461.761 15 8.6 2 E1 0.005178 C
150SMX G EKC=0.0043
150SMS G KC=0.00443 7$LC=0.000589 9$MC=0.0001255 18$NC=2.83E-5 4$OC=4.19E-6 6$
150SMS G PC=2.50E-7 4$NC+=3.28E-5 5
150SM G 540.55 6 0.90 7 C
150SM G 625.568 20 3.23 7 (E2) 0.0072311 C
150SMS G KC=0.00602 9$LC=0.000950 14$MC=0.000206 3$NC=4.64E-5 7$OC=6.74E-6 10$
150SMS G PC=3.52E-7 5$NC+=5.35E-5 8
150SM cG M$from |a(K)exp (1973MeZX)
150SM G 748.057 12 54 1 E1 0.001823 C
150SML G FL=1071.364
150SMS G KC=0.001560 22$LC=0.000203 3$MC=4.31E-5 6$NC=9.75E-6 14$
150SMS G OC=1.456E-6 21$PC=8.98E-8 13$NC+=1.130E-5 16
150SM G 773.283 15 6.3 1 (E2) 0.004377
150SMX G EKC=0.00322$ELC=0.0005
150SMS G KC=0.00368 6$LC=0.000547 8$MC=0.0001181 17$NC=2.66E-5 4$OC=3.91E-6 6$
150SMS G PC=2.17E-7 3$NC+=3.07E-5 5
150SM cG M$from |a(K)exp, |a(L)exp, K/L (1973MeZX).
150SM G 1045.873 12 9.5 7 &C
150SML G FL=773.392
150SM cG $1973MeZX declare this to be a double linewidth I|g=10.4 {I7}. See
150SM2cG 1976Ba18, page 252, for discussion. I|g(tot. Peak)=10.4 {I7}. From
150SM3cG |b{+-} decay 0.92 {I12} may be placed from the 1046.14 level leaving
150SM4cG I|g=9.5 {I7} for placement from the 1819 and 2117 levels.
150SM G 1485.49 3 19.8 8 E2 C
150SMX G EKC=0.00097$ELC=0.00014
150SMS G CC=0.001193 17$KC=0.000960 14$LC=0.0001282 18$MC=2.74E-5 4$
150SMS G OC=9.26E-7 13$PC=5.72E-8 8$NC+=7.76E-5 11
150SM E 10.57 1410.127 18 10.57 14
150SMS E CK=0.8195 5$CL=0.1394 4$CM+=0.04110 11
150SM L 1821.871 22 (4)+
150SM G 372.728 25 2.49 9 C
150SM G 464.11 7 4.0 8 E1 0.005118 @C
150SMX G EKC=0.
150SMS G KC=0.00438 7$LC=0.000582 9$MC=0.0001240 18$NC=2.80E-5 4$OC=4.14E-6 6$
150SMS G PC=2.47E-7 4$NC+=3.24E-5 5
150SM cG RI$from I|g(464)/I|g(372) in (n,|g) and I|g(372) in |e.
150SM cG M$from (n,|g).
150SM G 542.972 25 1.40 7 (E2) 0.01033 C
150SMX G EKC AP 0.009
150SMS G KC=0.00853 12$LC=0.001414 20$MC=0.000308 5$NC=6.92E-5 10$
150SMS G OC=9.96E-6 14$PC=4.94E-7 7$NC+=7.97E-5 12
150SM E 0.75 8 11.27 5 0.75 8
150SMS E CK=0.8193 5$CL=0.1396 4$CM+=0.04115 12
150SM L 1822.443 17 (3)-
150SM G 751.068 14 22.3 5 M1(+E2) 0.006316 C
150SMX G EKC=0.0047$ELC=0.00061
150SMS G KC=0.0053 14$LC=0.00074 16$MC=0.00016 4$NC=3.6E-5 8$OC=5.4E-6 12$
150SMS G PC=3.2E-7 10$NC+=4.2E-5 9
150SM cG M$from |a(K)exp, |a(L)exp (1973MeZX).
150SM G 1049.043 25 56 2 E1 C
150SMX G EKC=0.00081$ELC=0.00015
150SMS G CC=0.000944 14$KC=0.000812 12$LC=0.0001041 15$MC=2.21E-5 3$
150SMS G OC=7.49E-7 11$PC=4.70E-8 7$NC+=5.80E-6 9
150SM cG M$from |a(K)exp, |a(L)exp (1973MeZX).
150SM E 7.45 2010.272 21 7.45 20
150SMS E CK=0.8192 5$CL=0.1396 4$CM+=0.04116 12
150SM L 1832.96 3 (2)+ A ?
150SM G 667.050 25 2.7 1 & ?
150SML G FL=1165.776
150SM cG $Placed on basis of energy fit.
150SM G 788 0.04 3 ?
150SMF G FLAG=A
150SM cG $Reported by 1973MeZX, but not by 1978MeZK.
150SM G 1499.35 10 0.41 2 (M1+E2) 0.0014022
150SMF G FLAG=A
150SMS G KC=0.00113 19$LC=0.000149 24$MC=3.2E-5 5$NC=7.2E-6 12$OC=1.08E-6 18$
150SMS G PC=6.8E-8 13$NC+=8.7E-5 5
150SM cG M$from 1973MeZX.
150SM G 1833.30 15 0.027 5 (E2)
150SMF G FLAG=A
150SMS G CC=0.000966 14$KC=0.000647 9$LC=8.48E-5 12$MC=1.81E-5 3$NC=4.09E-6 6$
150SMS G OC=6.14E-7 9$PC=3.85E-8 6$NC+=0.000216 3
150SM cG M$from 1973MeZX.
150SM L 1970.447 15 4+
150SM G 286.293 15 0.7 4 @C ?
150SM cG RI$I|g(peak)=2.35. 1976Ba18 deduced I|g from (n,|g) data.
150SM cG $Coincidence data of 1977Si12 do not support this placement.
150SM G 553.20 10 0.34 7 ?
150SMF G FLAG=A
150SM G 612.693 28 0.97 6 & ?
150SML G FL=1357.636
150SM cG E$|g ray assigned to 1970-keV level only by 1973MeZX.
150SM G 777 0.07 3 ?
150SM cG $Reported by 1973MeZX, but not by 1978MeZK.
150SM G 899.071 15 9.8 1 E1 C
150SMX G EKC=0.00108$ELC=0.00011
150SMS G CC=0.001263 18$KC=0.001085 16$LC=0.0001401 20$MC=2.98E-5 5$
150SMS G OC=1.007E-6 14$PC=6.27E-8 9$NC+=7.80E-6 11
150SM G 1197.108 24 11.8 4 (E2+E0+M1) 0.00225 C
150SMS G KC=0.0018 4$LC=0.00025 5$MC=5.3E-5 10$NC=1.19E-5 23$OC=1.8E-6 4$
150SMS G PC=1.12E-7 25$NC+=1.9E-5 3
150SM G 1636.53 3 7.5 1 E2 C
150SMX G EKC=0.00085$ELC=0.00013
150SMS G CC=0.001060 15$KC=0.000799 12$LC=0.0001058 15$MC=2.25E-5 4$
150SMS G OC=7.65E-7 11$PC=4.76E-8 7$NC+=0.0001321 19
150SM E 2.97 6 10.27 3 2.97 6
150SMS E CK=0.8021 12$CL=0.1524 9$CM+=0.0456 3
150SM L 2020.378 14 5+
150SM G 377.728 27 1.18 8 &
150SM cG E$|g ray assigned to 2020-keV level only by 1973MeZX.
150SM G 515.792 5 10.3 2 E2 0.01181 C
150SMX G EKC=0.00975$ELC=0.0016
150SMS G KC=0.00972 14$LC=0.001642 23$MC=0.000359 5$NC=8.05E-5 12$
150SMS G OC=1.155E-5 17$PC=5.61E-7 8$NC+=9.26E-5 13
150SM cG M$from |a(K)exp, |a(L)exp (1973MeZX).
150SM G 571.259 15 4.3 1 (E1) 0.003215 &C ?
150SML G FL=1449.210
150SMS G KC=0.00275 4$LC=0.000362 5$MC=7.70E-5 11$NC=1.740E-5 25$OC=2.59E-6 4$
150SMS G PC=1.568E-7 22$NC+=2.01E-5 3
150SM G 662.66 15 0.16 4 (E1) 0.002334
150SMF G FLAG=A
150SMX G EKC=0.003
150SMS G KC=0.00200 3$LC=0.000262 4$MC=5.57E-5 8$NC=1.259E-5 18$OC=1.88E-6 3$
150SMS G PC=1.148E-7 16$NC+=1.458E-5 21
150SM cG M$from |a(K)exp (1973MeZX).
150SM G 741.467 17 8.9 1 E2 0.004817 C
150SMS G KC=0.00404 6$LC=0.000608 9$MC=0.0001314 19$NC=2.96E-5 5$OC=4.34E-6 6$
150SMS G PC=2.38E-7 4$NC+=3.42E-5 5
150SM G 1246.968 24 19.9 5 E2 C
150SMX G EKC=0.00136$ELC=0.00018
150SMS G CC=0.001593 23$KC=0.001348 19$LC=0.000184 3$MC=3.93E-5 6$
150SMS G OC=1.324E-6 19$PC=8.03E-8 12$NC+=2.21E-5 3
150SM E 4.28 5 9.91 3 4.28 5
150SMS E CK=0.7902 19$CL=0.1612 14$CM+=0.0487 5
150SM L 2024.648 14 4+
150SM G 205.15 8 0.31 4 M1 0.225 ?
150SMF G FLAG=AB
150SMS G KC=0.191 3$LC=0.0268 4$MC=0.00574 8$NC=0.001302 19$OC=0.000195 3$
150SMS G PC=1.214E-5 17$NC+=0.001509 22
150SM G 340.38 4 1.63 15 (M1) 0.0580
150SMS G KC=0.0493 7$LC=0.00680 10$MC=0.001458 21$NC=0.000331 5$OC=4.97E-5 7$
150SMS G PC=3.11E-6 5$NC+=0.000383 6
150SM cG M$a 340-342 doublet interpreted by 1973MeZX as M1/E2. 1976Ba18, from
150SM2cG other data, consider an E0/E1 mix. 1977Si12 assign this |g ray to the
150SM3cG 2024.60 level, noting the difficulties with the multipolarity
150SM4cG assignment.
150SM G 381.99 3 1.17 8
150SM cG $Problems with the placement of this |g ray are discussed in 1976Ba18,
150SM2cG page 259, under 2024 level.
150SM G 520.085 19 4.8 1 E2+M1 0.016 4 C
150SMS G KC=0.013 4$LC=0.0019 4$MC=0.00042 7$NC=9.4E-5 16$OC=1.4E-5 3$
150SMS G PC=7.9E-7 25$NC+=0.000109 19
150SM G 575.51 8 0.32 8 (E2+E0)
150SMF G FLAG=A
150SM G 607.32 3 1.74 5 (E2) 0.0077711 C
150SMX G EKC=0.007
150SMS G KC=0.00646 9$LC=0.001030 15$MC=0.000224 4$NC=5.04E-5 7$OC=7.30E-6 11$
150SMS G PC=3.77E-7 6$NC+=5.80E-5 9
150SM G 667.050 25 2.7 1 &C
150SM G 830.816 21 5.54 12 (E2) 0.003726 C
150SMS G KC=0.00313 5$LC=0.000459 7$MC=9.88E-5 14$NC=2.23E-5 4$OC=3.28E-6 5$
150SMS G PC=1.85E-7 3$NC+=2.58E-5 4
150SM G 953.20 8 0.47 7
150SMF G FLAG=A
150SM G 978.47 5 0.21 5
150SMF G FLAG=A
150SM G 1251.25 3 1.7 1 (M1) 0.002344 C
150SMX G EKC=0.0023
150SMS G KC=0.00199 3$LC=0.000263 4$MC=5.61E-5 8$NC=1.272E-5 18$OC=1.92E-6 3$
150SMS G PC=1.227E-7 18$NC+=2.80E-5 4
150SM G 1690.668 17 1.6 5 (E2) C
150SMS G CC=0.001027 15$KC=0.000752 11$LC=9.92E-5 14$MC=2.11E-5 3$NC=4.79E-6 7$
150SMS G OC=7.18E-7 10$PC=4.48E-8 7$NC+=0.0001541 22
150SM E 2.14 6 10.20 4 2.14 6
150SMS E CK=0.7889 20$CL=0.1622 15$CM+=0.0490 5
150SM L 2035.368 25 5-
150SM G 756.51 3 1.18 7 (E1)
150SMF G FLAG=A
150SMX G EKC=0.0016
150SMS G CC=0.001776 25$KC=0.001525 22$LC=0.000198 3$MC=4.22E-5 6$
150SMS G OC=1.422E-6 20$PC=8.78E-8 13$NC+=1.104E-5 16
150SM cG M$from |a(K)exp (1973MeZX).
150SM G 1261.98 3 4.8 1 E1 C
150SMX G EKC=0.00052
150SMS G CC=0.000730 11$KC=0.000581 9$LC=7.41E-5 11$MC=1.572E-5 22$
150SMS G OC=5.34E-7 8$PC=3.38E-8 5$NC+=5.92E-5 9
150SM cG M$from |a(K)exp (1973MeZX).
150SM E 0.570 1210.72 4 0.570 12
150SMS E CK=0.7853 22$CL=0.1648 17$CM+=0.0499 6
150SM L 2044.0 10 (3+,4+) ?
150SM G 1710 0.006 2 ?
150SMF G FLAG=A
150SM L 2070.0 8 2(-) ?
150SM G 1736.0 8 0.002 1 ?
150SMF G FLAG=A
150SM L 2095.62 3 (5)+
150SM G 125 0.02 1 ?
150SMF G FLAG=A
150SM cG $Placement suggested by 1976Ba18.
150SM G 272.79 9 0.24 8 @ ?
150SM cG E$|g ray assigned to 2095-keV level only by 1973MeZX.
150SM G 335.7 1 0.38 15 ?
150SML G FL=1764.637
150SMF G FLAG=A
150SM cG $Not listed in 1978MeZK.
150SM G 590.71 11 0.33 5
150SMF G FLAG=A
150SM G 816.44 8 0.51 5 E2+M1 0.005113
150SMF G FLAG=A
150SMS G KC=0.0044 11$LC=0.00061 13$MC=0.00013 3$NC=2.9E-5 7$OC=4.4E-6 10$
150SMS G PC=2.7E-7 8$NC+=3.4E-5 8
150SM G 1321.91 3 1.8 1 E2 C
150SML G FL=773.392
150SMS G CC=0.001433 20$KC=0.001202 17$LC=0.0001626 23$MC=3.48E-5 5$
150SMS G OC=1.173E-6 17$PC=7.16E-8 10$NC+=3.39E-5 5
150SM cG M$from 1973MeZX.
150SM E 0.313 2010.64 6 0.313 20
150SMS E CK=0.753 6$CL=0.189 4$CM+=0.0584 14
150SM L 2107.389 18 (6)+
150SM G 342.56 4 1.77 15 ?
150SMF G FLAG=A
150SM cG $See comment for 340.4-keV |g ray.
150SM G 464.11 7 0.8 8 @C ?
150SML G FL=1642.665
150SM cG RI$from I|g=4.8 {I8} for the 464 peak and I|g=4.0 {I8} for placement
150SM2cG from the 1821 level.
150SM G 749.80 3 7.0 1 E1 0.001813
150SMF G FLAG=A
150SMX G EKC=0.0015$ELC=0.0002
150SMS G KC=0.001552 22$LC=0.000202 3$MC=4.29E-5 6$NC=9.71E-6 14$
150SMS G OC=1.449E-6 21$PC=8.94E-8 13$NC+=1.125E-5 16
150SM G 828.562 14 6.1 2 C
150SM G 1334.06 3 4.3 1 E2 C
150SMX G EKC=0.00117$ELC=0.00015
150SMS G CC=0.001411 20$KC=0.001181 17$LC=0.0001595 23$MC=3.41E-5 5$
150SMS G OC=1.151E-6 17$PC=7.03E-8 10$NC+=3.64E-5 5
150SM cG M$from |a(K)exp, |a(L)exp (1973MeZX).
150SM E 1.90 8 9.77 6 1.90 8
150SMS E CK=0.742 7$CL=0.197 5$CM+=0.0613 17
150SM L 2117.123 13 4+
150SM G 474.498 25 1.51 7 (E2+M1+E0) 0.020 5
150SMF G FLAG=A
150SMS G KC=0.017 5$LC=0.0025 4$MC=0.00054 8$NC=0.000121 18$OC=1.8E-5 3$
150SMS G PC=1.0E-6 4$NC+=0.000140 21
150SM G 612.693 28 0.97 6 & ?
150SML G FL=1504.580
150SM cG E$|g ray assigned to 2117-keV level only by 1973MeZX.
150SM G 667.050 25 2.7 LE * ?
150SML G FL=1449.210
150SM cG $Assigned on basis of energy fit.
150SM G 699.5 3 0.06 4 ?
150SMF G FLAG=A
150SM G 759.57 9 0.80 7 ?
150SMF G FLAG=A
150SM G 838.40 8 0.6 1 C
150SM G 923.267 19 3.2 1 (E2) 0.002955 &C ?
150SMX G EKC=0.0022
150SMS G KC=0.00249 4$LC=0.000357 5$MC=7.68E-5 11$NC=1.733E-5 25$OC=2.56E-6 4$
150SMS G PC=1.480E-7 21$NC+=2.00E-5 3
150SM cG M$from |a(K)exp, |a(L)exp (1973MeZX).
150SM G 1045.873 12 9.5 7 &C
150SML G FL=1071.364
150SM cG $See placement from 1819 level
150SM G 1071.002 25 1.5 1 (E2) 0.002153 C ?
150SMX G EKC=0.0016
150SMS G KC=0.00183 3$LC=0.000255 4$MC=5.47E-5 8$NC=1.236E-5 18$OC=1.83E-6 3$
150SMS G PC=1.088E-7 16$NC+=1.430E-5 20
150SM cG M$from |a(K)exp (1973MeZX).
150SM G 1343.777 22 27.0 7 M1+E2 0.00173 C
150SMX G EKC=0.00137$ELC=0.00019
150SMS G KC=0.0014 3$LC=0.00019 4$MC=4.1E-5 7$NC=9.2E-6 16$OC=1.38E-6 25$
150SMS G PC=8.7E-8 18$NC+=4.1E-5 3
150SM cG M$from |a(K)exp and |a(L)exp (1973MeZX).
150SM G 1783.19 5 1.07 3 E2 C
150SMX G EKC=0.00075$ELC=0.00011
150SMS G CC=0.000983 14$KC=0.000681 10$LC=8.95E-5 13$MC=1.91E-5 3$NC=4.32E-6 6$
150SMS G OC=6.47E-7 9$PC=4.06E-8 6$NC+=0.000194 3
150SM cG M$from |a(K)exp (1973MeZX).
150SM E 4.53 169.31 6 4.53 16
150SMS E CK=0.731 8$CL=0.205 6$CM+=0.0641 21
150SM L 2119.29 3 (3-) A
150SM G 286.293 15 0.6 4 @C ?
150SM cG E$given 2119-keV level origin only by 1973MeZX.
150SM G 476.89 13 0.19 5 &
150SM G 762.03 9 0.29 5 (E2) 0.004527
150SMF G FLAG=A
150SMX G EKC=0.0038
150SMS G KC=0.00380 6$LC=0.000567 8$MC=0.0001226 18$NC=2.76E-5 4$OC=4.05E-6 6$
150SMS G PC=2.24E-7 4$NC+=3.19E-5 5
150SM cG M$from 1973MeZX.
150SM G 1346.40 7 0.30 7
150SML G FL=773.392
150SMF G FLAG=A
150SM E 174 12 0.13 4 10.84 15 0.13 4
150SMS E CK=0.728 9$CL=0.207 7$CM+=0.0649 22
150SM L 2152.56 3 4+
150SM G 509.84 5 1.3 1 & ?
150SM G 1081.46 8 0.3 1
150SMF G FLAG=A
150SM G 1379.12 6 0.41 5 (E2) &
150SMS G CC=0.001334 19$KC=0.001107 16$LC=0.0001490 21$MC=3.18E-5 5$
150SMS G OC=1.076E-6 15$PC=6.59E-8 10$NC+=4.68E-5 7
150SM cG E$given 2152-keV level origin only by 1973MeZX.
150SM G 1818.52 8 0.040 5
150SMF G FLAG=A
150SM E 0.195 1410.32 9 0.195 14
150SMS E CK=0.662 20$CL=0.256 15$CM+=0.082 6
150SM L 2194.207 18 (4+)
150SM G 509.84 5 1.3 1 &C
150SM G 836.58 3 3.2 1 C
150SM cG E$placement from 1977Si12.
150SM G 915.28 12 0.17 7
150SMF G FLAG=A
150SM G 1122.855 15 3.5 1 C
150SM cG E$placement from 1977Si12.
150SM G 1420 0.07 3 ?
150SMF G FLAG=A
150SM E 0.784 188.96 17 0.784 18
150SMS E CK=0.34 12$CL=0.49 9$CM+=0.17 4