187OS 187IR EC DECAY 1972AH05,1971MA24,1976BAYI09NDS 200905
187OS H TYP=FUL$AUT=M. S. Basunia$CIT=NDS 110, 999 (2009)$CUT=1-Nov-2008$
187OS cG E Weighted average of 1971Ma24 and 1976BaYI.
187OS cG RI Weighted average of 1971Ma24, 1972Ah05 (20% uncertainty
187OS2cG assumed by the evaluator), and 1976BaYI. I|g for the low |g-rays are
187OS3cG by the evaluator based on the total |b feeding to the g.s. and 9.8
187OS4cG level (estimated from an indirect measurement by 1972Ah05).
187OS cG RI(A)$In (n,|g) the 401|g only is assigned as deexciting the 502 level.
187OS2cG The branching ratio in (n,|g) was the same as in {+187}Ir |e decay,
187OS3cG consistent with little or no 401|g intensity from the 987 level.
187OS cG RI(B)$The 323|g is not analyzed in (n,|g) or (p,n|g) despite
187OS2cG the fact that the other transitions deexciting the 333 level
187OS3cG are strongly populated. Its intensity from the 333 level is presumed
187OS4cG negligible with respect to the second placement from the 987 level.
187OS cG RI(C)$I|g(654.3)=29.0 {I17}. The intensity has been divided
187OS2cG using the M1+E2 mixing ratio for the combined transition and
187OS3cG assuming that the component deexciting the 987 level is E2.
187OS cG M$From conversion electron intensities. The electron intensities are
187OS2cG renormalized to the |g-ray scale by the evaluator. ce data is
187OS3cG multiplied by 4.8 and 0.144 for the 1971Ma24 and 1962Ha24 data,
187OS4cG respectively. Both normalizations assume E2 multipolarity for the
187OS5cG 187.4|g. For E>187 keV, ce data from 1962Ha24 are given. For the ce
187OS6cG data of 1962Ha24, 20% uncertainty has been assumed for all but
187OS7cG approximate values where 50% uncertainty has been assumed.
187OS cL E From a least-squares adjustment to the |g-ray energies.
187OS cL J From adopted levels.
187OS cL T From |g-ce coincidence measurements (1971Ma24).
187IR P 0.0 3/2+ 10.5 H 3 1502 6
187OS N 0.013 AP 1.00 1.0
187OS cN NR$normalized assuming I(|g+ce) feeding the ground state and 9.8 level
187OS2cN is |?74. The |e+|b{++} feeding to the first two state was estimated
187OS3cN to be |?26 by 1972Ah05 on the basis of K x-ray intensities
187OS4cN (unreported) corrected for internal conversion.
187OS PN 3
187OS G 163.40 10 5.1 5M1 1.389
187OSS G KC=1.148 17$LC=0.186 3$MC=0.0426 6$NC+=0.01233 18
187OSS G NC=0.01040 15$OC=0.00180 3$PC=0.0001337 19
187OS cG M$ce(K)=5.2 (1962Ha24)
187OS G 181.85 15 2.3 5M1+E2 0.8 +7-5 0.81 18
187OSS G KC=0.60 20$LC=0.155 15$MC=0.037 5$NC+=0.0106 12
187OSS G NC=0.0090 11$OC=0.00146 11$PC=6.8E-5 25
187OS cG M$ce(K)=1.4 (1962Ha24).
187OS G 198.60 10 5.34 25M1 0.804
187OSS G KC=0.665 10$LC=0.1071 15$MC=0.0246 4$NC+=0.00711 10
187OSS G NC=0.00600 9$OC=0.001036 15$PC=7.72E-5 11
187OS cG M$ce(K)|?3.2 (1962Ha24)
187OS G 206.4 3 0.4 1M1 0.722
187OSS G KC=0.598 9$LC=0.0962 14$MC=0.0221 4$NC+=0.00639 10
187OSS G NC=0.00539 8$OC=0.000930 14$PC=6.94E-5 11
187OS cG M$ce(K)=0.39 (1962Ha24)
187OS G 211.96 15 0.59 10
187OS G 232.38 15 1.02 10
187OS G 277.30 20 4.0 6
187OS G 370.70 10 4.6 3M1 0.1462
187OSS G KC=0.1213 17$LC=0.0193 3$MC=0.00441 7$NC+=0.001276 18
187OSS G NC=0.001076 15$OC=0.000186 3$PC=1.394E-5 20
187OS cG M$ce(K)=0.8 (1962Ha24)
187OS G 377.12 20 3.5 5
187OS G 412.20 10 10.0 13
187OS G 422.30 15 3.2 3
187OS G 564.69 15 2.8 2
187OS G 742.05 15 3.2 2
187OS G 787.99 10 4.6 10
187OS G 813.97 15 4.6 6
187OS G 1012.50 20 2.6 5
187OS L 0.0 1/2-
187OS E 0.0018 AP 2.0 AP 7.9 AP 2 AP
187OSS E EAV=235.4 27$CK=0.8111$CL=0.14294 5$CM+=0.04507 2
187OS cE I(|e+|b{++}): combined feeding to ground state and 9.8 level
187OS2cE is |?26% from Os K x-ray intensity (1972Ah05) corrected for
187OS3cE internal conversion. For log| {Ift}=8.3 from the analogous transition
187OS4cE in {+189}Ir |e decay, I(|e+|b{++})|?1. See comment on |b feeding 9.8
187OSxcE level.
187OS L 9.766 19 3/2- 2.38 NS 18
187OS E 0.020 AP 24 AP 6.9 AP 24AP
187OSS E EAV=231.0 27$CK=0.8111$CL=0.14301 5$CM+=0.04509 2
187OS cE I(|e+|b{++}): for log| {Ift}=7.16 from the analogous
187OS2cE transition in {+189}Ir |e decay, I(|g+ce)=12. The total |b feeding to
187OS3cE the ground state and 9.8 level have been divided on the the basis of
187OS4cE systematics. See comment on |b feeding 9.8 level.
187OS G 9.75 3 15 APM1(+E2) 0.04 LT 2.8E2 7 A
187OSS G MC=2.2E2 5$NC+=62 14
187OSS G NC=53 12$OC=8.8 18$PC=0.524 9
187OS cG M M1:M2:M3=1680 {I504}:154 {I48}:<34 (1971Ma24).
187OS cG RI$adjusted for |b feeding to the 9.8 level by the evaluator. The
187OS2cG value derived from ce data of 1962Ha24 is I|g=9 {I3}. That value is
187OS3cG presumed to be low in analogy with the value derived for the 25.6-keV
187OS4cG transition.
187OS L 74.348 21 3/2-
187OS E 0.0044 AP 10.0 AP 7.2 AP 10AP
187OSS E EAV=201.9 28$CK=0.8108$CL=0.14352 5$CM+=0.04528 2
187OS G 64.59 3 65 APM1+E2 0.13 2 3.91 15
187OSS G LC=3.01 11$MC=0.70 3$NC+=0.201 8
187OSS G NC=0.170 7$OC=0.0288 10$PC=0.00191 3
187OS cG M$L1:L2:L3=94 {I14}:15 {I3}:6.7 {I14} (1971Ma24), L1:L2:L3=118:19:12
187OSxcG (1962Ha24).
187OS cG RI$adjusted for |b feeding to the 9.8 level. I|g=25 (1971Ma24) and
187OS2cG I|g=51 (1962Ha24), both deduced from ce and |a data. See comment on
187OS3cG |b feeding at the 9.8 level.
187OS G 74.30 3 110 AP M1+E2 0.08 3 9.7 AP
187OSS G LC=1.85 6$MC=0.426 6$NC=0.104 4$OC=0.0178 6$PC=0.00128 2
187OS cG M$L1:L2:L3=125 {I19}:11 {I3}:<9.6 (1971Ma24),
187OS2cG L1:L2:L3:M:N=216:23:7:55:14 (1962Ha24).
187OS cG CC$deduced by the evaluator from N{-|g}+N{-cc}=10,700 and
187OS2cG N{-|g}=1000, calculated intensities in 1962Ha24. E|g close to {+187}Os
187OS3cG K-shell binding energy; total |a from sub-shells except K using Bricc
187OS4cG (2008Ki07) yields 2.4.
187OS cG RI$adjusted for |b feeding to the 9.8 level. I|g=146 (1962Ha24) and
187OS2cG I|g=50 (1971Ma24).
187OS L 75.002 22 5/2- 2.16 NS 16
187OS E 0.0087 AP 20 AP 6.9 AP 20AP
187OSS E EAV=201.6 28$CK=0.8108$CL=0.14353 5$CM+=0.04528 2
187OS G 65.31 3 57 APM1+E2 2.9 3 24.4 7
187OSS G LC=18.4 5$MC=4.70 13$NC+=1.29 4
187OSS G NC=1.12 3$OC=0.165 5$PC=0.00043 4
187OS cG M$L1:L2:L3=25 {I8}:427 {I38}:480 (1971Ma24),
187OS2cG L1:L2:L3:M:N=|?14:562:562:288:78 (1962Ha24).
187OS cG RI$from 1962Ha24. Other: I|g=30 (1971Ma24).
187OS G 75.03 3 48 APE2 14.62
187OSS G KC=0.804 12$LC=10.42 15$MC=2.67 4$NC+=0.732 11
187OSS G NC=0.638 9$OC=0.0937 14$PC=0.0001714 24
187OS cG M$L1:L2:L3=<7.2:142 {I36}:158 {I14} (1971Ma24),
187OS2cG L2:L3:M:N=|?245:236:130:35 (1962Ha24)
187OS cG RI$from 1962Ha24. Other value: I|g=21 (1971Ma24).
187OS L 100.45 4 7/2- 112 NS 6
187OS G 25.62 5 12.4 CAM1+E2 0.021 8 54.5 14 A
187OSS G LC=42.0 11$MC=9.68 25$NC+=2.80 7
187OSS G NC=2.36 6$OC=0.406 10$PC=0.0295 5
187OS cG M$M1:M2:M3=360 {I38}:36 {I11}:<14 (1971Ma24),
187OS2cG L1:L2:L3:M:N=245:36:7:91:27 (1962Ha24).
187OS cG RI$calculated by the evaluator assuming intensity balance through the
187OS2cG 100.4 level. I|g=8.8 (1962Ha24) and I|g=22 (1971Ma24). The latter value
187OS3cG gives large |b feeding to the 100.4 level and is rejected by the
187OS4cG evaluator. The former value does not balance feeding through the
187OS5cG 100.4 level.
187OS G 90.37 10 0.51 E2 6.61
187OSS G KC=0.891 13$LC=4.31 7$MC=1.103 17$NC+=0.303 5
187OSS G NC=0.264 4$OC=0.0389 6$PC=0.0001071 16
187OS cG M$K:L1:L2:L3=<19:<0.4:<3.8:<3.8 (1971Ma24), L2:L3=1:1 (1962Ha24)
187OS L 187.42 3 5/2-
187OS E 5.5 4 7.39 4
187OSS E CK=0.8098$CL=0.14448 6$CM+=0.04564 2
187OS G 87.62 10 3 2(M1+E2) 0.4 1 8.12 13
187OS2 G FL=100.45
187OSS G KC=6.0 4$LC=1.64 25$MC=0.40 7$NC+=0.112 18
187OSS G NC=0.096 16$OC=0.0155 22$PC=0.00070 5
187OS cG RI$deduced from ce(K)=20 {I12} by the evaluator. In 1971Ma24, I|g<0.3
187OS2cG which is inconsistent with ce measurements.
187OS cG M$K:L1:L2:L3=20 {I12}:<0.0:<3.8:<3.8 (1971Ma24), ce(L1)|?7 (1962Ha24)
187OS cG MR$Estimated by the evaluator
187OS G 112.35 10 2.59 24E2 2.73
187OSS G KC=0.660 10$LC=1.565 23$MC=0.400 6$NC+=0.1101 16
187OSS G NC=0.0958 14$OC=0.01418 21$PC=6.37E-5 9
187OS cG M$L1:L3=<1.2:1.5 {I4} (1971Ma24), L2:L3=|?2.9:|?3.6 (1962Ha24)
187OS G 113.20 10 13.8 9M1+E2 1.5 2 3.05 10
187OSS G KC=1.45 17$LC=1.21 7$MC=0.305 18$NC+=0.084 5
187OSS G NC=0.073 5$OC=0.0111 6$PC=0.000160 21
187OS cG M$K:L1:L2:L3=24 {I14}:6.2 {I14}:12.0 {I14}:8.6 {I14} (1971Ma24),
187OS2cG K:L1:L2:L3:M=22:|?2:12:9:5 (1962Ha24)
187OS G 177.68 7 169 6M1+E2 0.53 6 0.97 3
187OSS G KC=0.76 3$LC=0.159 4$MC=0.0375 9$NC+=0.01071 23
187OSS G NC=0.00911 21$OC=0.00151 3$PC=8.7E-5 4
187OS cG M$K:L1:L2:L3=139 {I14}:24.0 {I24}:6.2 {I14}:4.3 {I9} (1971Ma24),
187OS2cG K:L1:L2:L3:M=135:23:|?5:2.7:<105 (1962Ha24)
187OS G 187.37 7 114 4E2 0.415
187OSS G KC=0.201 3$LC=0.1617 23$MC=0.0408 6$NC+=0.01131 16
187OSS G NC=0.00982 14$OC=0.001480 21$PC=1.86E-5 3
187OS cG M$ce(K)=23 {I3} (1971Ma24), K:L2:L3:M=23:<15:7:<9
187OS L 190.56 6 7/2-
187OS E 0.19 5 9.62 12 1U
187OSS E CK=0.7917 2$CL=0.1576 2$CM+=0.05068 5
187OS G 115.67 8 3.6 5M1+E2 1.3 +8-4 2.91 24
187OSS G KC=1.5 5$LC=1.04 17$MC=0.26 5$NC+=0.073 12
187OSS G NC=0.063 11$OC=0.0096 15$PC=0.00017 6
187OS cG M$ce(L1)=2.4 {I10} (1971Ma24), ce(K)=5.8 (1962Ha24)
187OS G 180.83 11 13.0 12E2 0.469
187OSS G KC=0.220 4$LC=0.188 3$MC=0.0476 7$NC+=0.01317 19
187OSS G NC=0.01143 17$OC=0.001721 25$PC=2.03E-5 3
187OS cG M$K:L2:L3=3.6:1.5:1.1 (1962Ha24).
187OS L 257.11 7 11/2+
187OS G 156.63 7 3.4 3M2+E3 0.31 4 9.53
187OSS G KC=6.47 16$LC=2.31 10$MC=0.58 3$NC+=0.166 7
187OSS G NC=0.142 7$OC=0.0233 9$PC=0.00121 3
187OS cG M$K:L1:L2:L3=32 {I8}:11.0 {I14}:3.1 {I9}:4.3 {I14} (1971Ma24),
187OS2cG K:L3=18:|?0.9 (1962Ha24).
187OS L 333.26 5 (7/2-)
187OS G 146.19 9 2.3 3[M1,E2] 1.5 5
187OS2 G FL=187.42
187OSS G KC=1.0 6$LC=0.36 11$MC=0.09 4$NC+=0.025 9
187OSS G NC=0.022 8$OC=0.0034 10$PC=0.00011 8
187OS G 258.65 7 15.2 8(E2) 0.1437
187OSS G KC=0.0866 13$LC=0.0433 6$MC=0.01079 16$NC+=0.00301 5
187OSS G NC=0.00260 4$OC=0.000400 6$PC=8.48E-6 12
187OS cG M$K:L1=<9.2:0.9
187OS G 323.11 9 (E2) 0.0734
187OS2 G FL=9.766 @
187OSF G FLAG=B
187OSS G KC=0.0489 7$LC=0.0187 3$MC=0.00460 7$NC+=0.001287 18
187OSS G NC=0.001109 16$OC=0.0001733 25$PC=4.96E-6 7
187OS cG M$ce(K)|?0.004 (1962Ha24)
187OS L 445.09 7 (7/2-,9/2-)
187OS G 344.34 9 3.0 3M1 0.1782
187OSS G KC=0.1477 21$LC=0.0235 4$MC=0.00538 8$NC+=0.001558 22
187OSS G NC=0.001314 19$OC=0.000227 4$PC=1.700E-5 24
187OS cG M$ce(K)=0.63
187OS L 501.44 3 3/2-
187OS E 11.4 3 6.820 18
187OSS E CK=0.8048 2$CL=0.1482 1$CM+=0.04703 4
187OS G 314.13 8 57.4 20M1 0.228
187OSS G KC=0.189 3$LC=0.0302 5$MC=0.00691 10$NC+=0.00200 3
187OSS G NC=0.001687 24$OC=0.000292 4$PC=2.18E-5 3
187OS cG M$K/L1=14.4/2.3
187OS G 400.81 9 270 9E2 0.0402 @
187OSF G FLAG=A
187OSS G KC=0.0287 4$LC=0.00878 13$MC=0.00214 3$NC+=0.000601 9
187OSS G NC=0.000516 8$OC=8.20E-5 12$PC=2.99E-6 5
187OS cG M$K:L2:L3:M=9.6:2:0.4:0.6
187OS G 426.4 8 17 3[M1,E2] 0.07 4
187OS2 G FL=75.002
187OSS G KC=0.05 3$LC=0.010 3$MC=0.0024 7$NC+=0.00068 20
187OSS G NC=0.00058 16$OC=0.00010 3$PC=6.E-6 4
187OS G 427.02 8 282 9M1 0.1004
187OSS G KC=0.0833 12$LC=0.01317 19$MC=0.00301 5$NC+=0.000873 13
187OSS G NC=0.000736 11$OC=0.0001273 18$PC=9.55E-6 14
187OS cG M$K/L1=|?25/|?4
187OS G 491.74 7 87 3M1 0.0692
187OSS G KC=0.0575 8$LC=0.00905 13$MC=0.00207 3$NC+=0.000600 9
187OSS G NC=0.000506 7$OC=8.74E-5 13$PC=6.57E-6 10
187OS cG M$K:L1:M=0.4:0.8:<1.2
187OS G 501.51 7 100 7M1 0.0658
187OSS G KC=0.0546 8$LC=0.00859 12$MC=0.00197 3$NC+=0.000569 8
187OSS G NC=0.000480 7$OC=8.30E-5 12$PC=6.24E-6 9
187OS cG M$K/L1=5.6/<1.2
187OS L 556.88 8 (9/2+)
187OS G 299.69 12 13.7 7M1 0.259
187OSS G KC=0.215 3$LC=0.0343 5$MC=0.00786 11$NC+=0.00228 4
187OSS G NC=0.00192 3$OC=0.000332 5$PC=2.48E-5 4
187OS cG M$K/L1=3.6/0.5
187OS G 456.74 19 2.8 6[E1] 0.00933
187OSS G KC=0.00779 11$LC=0.001186 17$MC=0.000270 4$NC+=7.73E-5 11
187OSS G NC=6.55E-5 10$OC=1.111E-5 16$PC=7.58E-7 11
187OS L 586.31 4 5/2-
187OS E 3.33 14 7.272 23
187OSS E CK=0.8028 2$CL=0.1496 2$CM+=0.04759 5
187OS G 84.88 5 7.2 8M1 8.99
187OSS G KC=7.42 11$LC=1.216 18$MC=0.279 4$NC+=0.0808 12
187OSS G NC=0.0681 10$OC=0.01176 17$PC=0.000874 13
187OS cG M$ce(L3)<4.8 (1971Ma24), ce(L1)|?7 (1962Ha24)
187OS G 252.99 9 4.1 6M1 0.412
187OSS G KC=0.341 5$LC=0.0546 8$MC=0.01252 18$NC+=0.00363 5
187OSS G NC=0.00306 5$OC=0.000528 8$PC=3.94E-5 6
187OS cG M$ce(K)=1.7
187OS G 395.89 11 9.09 20M1 0.1227
187OSS G KC=0.1018 15$LC=0.01613 23$MC=0.00369 6$NC+=0.001069 15
187OSS G NC=0.000902 13$OC=0.0001559 22$PC=1.169E-5 17
187OS cG M$K/L=1.1/|?0.2
187OS G 398.72 23 24.3 23M1 0.1204
187OSS G KC=0.0999 14$LC=0.01583 23$MC=0.00362 6$NC+=0.001049 15
187OSS G NC=0.000885 13$OC=0.0001529 22$PC=1.147E-5 17
187OS cG M$K/L1=2.7/0.4
187OS G 485.96 7 48.7 18E2 0.0244
187OSS G KC=0.0183 3$LC=0.00472 7$MC=0.001135 16$NC+=0.000321 5
187OSS G NC=0.000275 4$OC=4.43E-5 7$PC=1.94E-6 3
187OS cG M$ce(K)=1.3
187OS G 511.11 9 7.7 13
187OS G 576.60 7 58.2 21M1 0.0457
187OSS G KC=0.0380 6$LC=0.00595 9$MC=0.001361 19$NC+=0.000394 6
187OSS G NC=0.000332 5$OC=5.75E-5 8$PC=4.33E-6 6
187OS cG M$K/L1=|?2.2/<0.7
187OS L 596.38 6 1/2-,3/2-
187OS E 0.19 3 8.51 7
187OSS E CK=0.8025 2$CL=0.1498 2$CM+=0.04766 5
187OS G 522.13 8 16.9 8M1 0.0592
187OSS G KC=0.0492 7$LC=0.00773 11$MC=0.001767 25$NC+=0.000512 8
187OSS G NC=0.000431 6$OC=7.46E-5 11$PC=5.61E-6 8
187OS cG M$ce(K)=1.1
187OS G 586.39 8 20.4 11M1 0.0438
187OSS G KC=0.0364 5$LC=0.00570 8$MC=0.001302 19$NC+=0.000377 6
187OSS G NC=0.000318 5$OC=5.50E-5 8$PC=4.14E-6 6
187OS cG M$ce(K)=0.7
187OS L 664.19 5 (3/2-,5/2-)
187OS E 0.63 10 7.91 7
187OSS E CK=0.8005 2$CL=0.1513 2$CM+=0.04821 6
187OS G 162.80 15 7.3 7M1 1.403
187OSS G KC=1.160 17$LC=0.188 3$MC=0.0430 7$NC+=0.01245 18
187OSS G NC=0.01051 15$OC=0.00181 3$PC=0.0001351 20
187OS cG M$K/L=8.9/1.2
187OS G 589.47 8 19.0 11M1 0.0432
187OSS G KC=0.0359 5$LC=0.00562 8$MC=0.001284 18$NC+=0.000372 6
187OSS G NC=0.000314 5$OC=5.42E-5 8$PC=4.09E-6 6
187OS cG M$ce(K)=0.5
187OS G 654.30 8 23 6M1(+E2) 0.9 LT 0.028 5 @
187OSF G FLAG=C
187OSS G KC=0.023 4$LC=0.0038 6$MC=0.00087 12$NC+=0.00025 4
187OSS G NC=0.00021 3$OC=3.6E-5 5$PC=2.6E-6 5
187OS cG M$ce(K)=0.004, K/L=0.7/<0.4
187OS G 664.25 11 8.8 5
187OS L 711.29 6 5/2-
187OS E 4.58 16 6.996 21
187OSS E CK=0.7989 3$CL=0.15245 16$CM+=0.04865 6
187OS G 265.97 8 5.1 3E2 0.1318
187OSS G KC=0.0806 12$LC=0.0388 6$MC=0.00967 14$NC+=0.00270 4
187OSS G NC=0.00233 4$OC=0.000359 5$PC=7.93E-6 12
187OS cG M$ce(K)=0.8
187OS G 610.88 7 269 10M1 0.0394
187OSS G KC=0.0328 5$LC=0.00512 8$MC=0.001170 17$NC+=0.000339 5
187OSS G NC=0.000286 4$OC=4.94E-5 7$PC=3.73E-6 6
187OS cG M$K:L1:M=8.5:1.4:0.4
187OS G 636.49 12 21 3
187OS G 701.2 10 4.2 9
187OS G 711.47 12 6.6 6
187OS L 725.76 4 3/2-
187OS E 1.05 5 7.62 3
187OSS E CK=0.7984 3$CL=0.15284 17$CM+=0.04880 7
187OS G 224.44 9 3.03 15M1 0.572
187OSS G KC=0.474 7$LC=0.0761 11$MC=0.01746 25$NC+=0.00505 7
187OSS G NC=0.00426 6$OC=0.000736 11$PC=5.49E-5 8
187OS cG M$ce(K)|?2
187OS G 651.40 8 29.5 19M1+E2 0.9 +7-4 0.024 6
187OSS G KC=0.020 5$LC=0.0033 7$MC=0.00076 14$NC+=0.00022 4
187OSS G NC=0.00019 4$OC=3.2E-5 7$PC=2.2E-6 6
187OS cG M$ce(K)=0.6
187OS G 716.00 11 18.3 10
187OS G 725.70 8 34.9 20M1+E2 1.8 +54-7 0.013 4
187OSS G KC=0.011 3$LC=0.0019 4$MC=0.00045 9$NC+=0.000129 25
187OSS G NC=0.000110 21$OC=1.8E-5 4$PC=1.2E-6 4
187OS cG M$ce(K)=0.4
187OS L 935.04 6 5/2-,7/2-
187OS E 0.5 AP 7.6 AP
187OSS E CK=0.7870 5$CL=0.1611 4$CM+=0.05192 13
187OS G 348.74 9 2.77 23M1 0.1722
187OSS G KC=0.1428 20$LC=0.0227 4$MC=0.00520 8$NC+=0.001506 22
187OSS G NC=0.001270 18$OC=0.000219 3$PC=1.643E-5 23
187OS cG M$ce(K)=0.7
187OS G 747.62 8 21.8 14M1(+E2) 1.2 LT 0.019 5
187OSS G KC=0.016 4$LC=0.0026 5$MC=0.00059 11$NC+=0.00017 4
187OSS G NC=0.00014 3$OC=2.5E-5 5$PC=1.8E-6 5
187OS cG M$ce(K)=0.4
187OS G 860.63 12 6.0 4
187OS G 935.14 20 5.2 20
187OS L 941.82 7 (5/2+,7/2-)
187OS E 0.7 AP 7.5 AP
187OSS E CK=0.7865 5$CL=0.1614 4$CM+=0.05206 14
187OS G 355.69 10 2.26 21
187OS G 384.96 8 19.0 22
187OS G 440.27 9 4.0 5
187OS G 841.09 20 20.9 10
187OS L 987.30 4 3/2-
187OS E 13 AP 6.1 AP
187OSS E CK=0.7825 6$CL=0.1643 5$CM+=0.05317 17
187OS G 261.58 7 12.2 7M1 0.376
187OSS G KC=0.311 5$LC=0.0498 7$MC=0.01142 16$NC+=0.00331 5
187OSS G NC=0.00279 4$OC=0.000482 7$PC=3.60E-5 5
187OS cG M$ce(K)=4.6
187OS G 275.91 16 2.5 6M1 0.325
187OSS G KC=0.269 4$LC=0.0430 6$MC=0.00986 14$NC+=0.00285 4
187OSS G NC=0.00241 4$OC=0.000416 6$PC=3.11E-5 5
187OS cG M$ce(K)=0.7
187OS G 323.11 9 17.1 6 @
187OSF G FLAG=B
187OS G 400.81 9 @ ?
187OSF G FLAG=A
187OS G 654.30 8 6 6[E2] 0.01212 @ ?
187OSF G FLAG=C
187OSS G KC=0.00951 14$LC=0.00200 3$MC=0.000473 7$NC+=0.0001347 19
187OSS G NC=0.0001148 16$OC=1.89E-5 3$PC=1.019E-6 15
187OS G 796.8 10 0.94 19
187OS G 799.90 8 61.0 25M1 0.0197
187OSS G KC=0.01645 23$LC=0.00255 4$MC=0.000582 9$NC+=0.0001684 24
187OSS G NC=0.0001420 20$OC=2.46E-5 4$PC=1.86E-6 3
187OS cG M$K/L1=0.9/0.2
187OS G 886.91 9 8.8 5
187OS G 912.86 7 328 12M1 0.01413
187OSS G KC=0.01178 17$LC=0.00182 3$MC=0.000415 6$NC+=0.0001201 17
187OSS G NC=0.0001012 15$OC=1.753E-5 25$PC=1.330E-6 19
187OS cG M$K/L1=3.3/0.6
187OS G 977.54 8 215 7M1+E2 0.9 +4-3 0.0089 13
187OSS G KC=0.0074 11$LC=0.00118 15$MC=0.00027 4$NC+=7.8E-5 10
187OSS G NC=6.6E-5 8$OC=1.13E-5 15$PC=8.2E-7 13
187OS cG M$K/L1=1.5/0.3
187OS G 987.35 8 192 7M1(+E2) 1 LT 0.0100 17
187OSS G KC=0.0083 14$LC=0.00130 20$MC=0.00030 5$NC+=8.6E-5 13
187OSS G NC=7.2E-5 11$OC=1.25E-5 19$PC=9.3E-7 17
187OS cG M$K/L1=1.5/0.3
187OS L 1090.30 5 (5/2-)
187OS E 1.0 AP 7.0 AP
187OSS E CK=0.7694 11$CL=0.1738 8$CM+=0.0568 3
187OS G 756.64 9 13.8 9M1 0.0227
187OS2 G FL=333.26
187OSS G KC=0.0189 3$LC=0.00294 5$MC=0.000671 10$NC+=0.000194 3
187OSS G NC=0.0001638 23$OC=2.84E-5 4$PC=2.15E-6 3
187OS cG M$ce(K)=0.3
187OS G 899.85 13 9.1 9
187OS G 902.94 8 20.2 10M1 0.01453
187OSS G KC=0.01211 17$LC=0.00187 3$MC=0.000426 6$NC+=0.0001235 18
187OSS G NC=0.0001041 15$OC=1.80E-5 3$PC=1.367E-6 20
187OS cG M$ce(K)=0.3
187OS G 1016.05 20 6.0 6
187OS G 1080.60 9 8.4 6
187OS G 1090.5 1 1.35 15
187OS L 1112.18 5 1/2-,3/2-
187OS E 1.6 AP 6.8 AP
187OSS E CK=0.7656 12$CL=0.1766 9$CM+=0.0579 4
187OS G 448.20 8 8.5 4M1 0.0883
187OSS G KC=0.0733 11$LC=0.01158 17$MC=0.00265 4$NC+=0.000767 11
187OSS G NC=0.000647 9$OC=0.0001118 16$PC=8.40E-6 12
187OS cG M$K/L1=0.8/0.1
187OS G 515.68 8 24.7 11M1 0.0611
187OSS G KC=0.0508 8$LC=0.00798 12$MC=0.00183 3$NC+=0.000529 8
187OSS G NC=0.000446 7$OC=7.71E-5 11$PC=5.80E-6 9
187OS cG M$K/L1=1.5/<2.4
187OS G 1037.96 10 26.3 13
187OS G 1102.22 9 11.6 6
187OS G 1111.99 19 34.8 17M1+E2 0.7 6 0.0071 15
187OSS G KC=0.0059 13$LC=0.00092 18$MC=0.00021 4$NC+=6.1E-5 12
187OSS G NC=5.1E-5 10$OC=8.9E-6 17$PC=6.6E-7 15$IPC=4.1E-7 6
187OS cG M$ce(K)=0.2