187PT 187AU EC DECAY 1983GN01,1992RO15 09NDS 200905
187PT H TYP=FUL$AUT=M. S. Basunia$CIT=NDS 110, 999 (2009)$CUT=1-Nov-2008$
187PT C Other: 1979Be51, 1986ROZI, 1986AbZZ, 1975Ho03, 1970Du09
187PT C 1983GN01: Mass separated 187AU was produced from 181TA(12C,6N) and
187PT2C 178HF(14N,5N) reactions; Detectors: large volume Ge(Li), HPGe, Si(Li);
187PT3C Measured: EG, RI, GG t, x-G-t, e-x-t.
187PT C 1992RO15,1986ROZI: 187AU produced from Pt(p,xn)Au, E=200 MeV,
187PT2C reactions, 187AU mass separated online and collected on myler/aluminum
187PT3C tape; Detector: 4 n-type HPGe; Measured: EG, deduced angular
187PT4C correlation coefficients, MR, assigned level spin. 1986ROZI also
187PT5C studied 187PT from the 176YB(16O,5NG) reaction, E=93 MeV.
187PT C 1979Be51: On-line mass separation of 187AU, produced through Pb(P,3pxn)
187PT2C spallation reaction and 187HG decay, E=157 MeV; Detector: Ge(Li), HPGe,
187PT3C Si(Li), Magnetic spectrometer; Measured: EG, RI, CE, G-x coin,
187PT4C CE-G COIN, G-CE(t), CE-CE-t.
187PT C 1986AbZZ: 187AU EC Decay; Measured EG, RI, CE.
187PT C 1975Ho03, 1970Du09: Measured total absorption spectrum of 187AU EC
187PT2C decay.
187PT CE TI(A)$1983Gn01 estimate that 5% of the decay goes to the GS+9.3 keV
187PT2CE levels based on observed X-RAY intensities (unreported).
187PT CG E,RI From 1983Gn01.
187PT CG RI(A),TI(X)$From analysis of coincidence data
187PT CG TI(B)$From CE intensities renormalized to GAMMA data of 1983Gn01
187PT CG TI(C)$From intensity balance
187PT CG M$From EKC data of 1979Be51, except otherwise noted. The evaluator has
187PT3CG assigned a 20% uncertainty to the CE intensities (50% uncertainty for
187PT4CG approximate values) for determining mixing ratios. For multipolarity
187PT5CG assignment, 1983Gn01 relies on the CE values of 1979Be51 (high
187PT6CG resolution). The 1983Gn01 CE data are in good agreement with 1979Be51.
187PT7CG Only a couple of EKC values are listed along with 1979Be51 EKC values
187PT8CG here to show the agreement. EKC data are from 1979Be51, except noted.
187PT CG M(D)$Transitions at 498.2 and 498.8 KEV were observed with
187PT2CG E0 admixture (1979Be51). Three gammas at 498.2, 498.3, and 498.6 KEV
187PT3CG were identified by 1983Gn01. The two higher-energy transitions were
187PT4CG assumed by 1983Gn01 to contain the E0 admixture although there is no
187PT5CG apparent reason to exclude the 498.2 transition.
187PT CG MR Deduced by the evaluator from 1979Be51 and 1983Gn01 EKC data,
187PT2CG except otherwise noted.
187PT CG MR(E),M(E)$Deduced from GG(THETA) correlation coefficient ^A2 and ^A4
187PT2CG (1992Ro15). Sign was changed by the evaluator to follow the phase
187PT3CG convention of Krane and Steffen (1970Kr03).
187PT CE LOGFT Approximate beta strength function derived from the total
187PT2CE absorption spectrum measurement of 187AU EC decay by 1975Ho03 and
187PT3CE 1970Du09 indicates level population upto AP 3.2 MeV and AP 3.9 MeV,
187PT4CE respectively. So the calculated LOGFT values should be considered as a
187PT5CE lower limit.
187PT CL E From a least-squares adjustment to the G-ray energies.
187PT CL J From adopted levels, except otherwise noted.
187PT CL J(Z) From GG(THETA) (1992Ro15) and deduced G-ray multipolarities.
187PT CL T From CE-CE(T) and CE-G(T) (1979Be51), except otherwise noted.
187AU P 0.0 1/2(+) 8.3 M 2 3710 40
187PT N 0.09 AP 1.0 1.0
187PT CN NR$from sum TI(GS+9.3 keV)=95. 1983Gn01 estimate 5% BETA feeding to the
187PT2CN GS+9.3 keV levels. Low energy G-ray intensities are not well known and
187PT3CN calculated TI values (hence RI) are used for normalization. For
187PT5CN 49G, RI=6.5 7 was used for intensity balance. EC+B+ feeding to the 190,
187PT6CN 260, and 599 keV levels were readjusted to 4.0, 2.0, and 1.47 from 3.3,
187PT7CN 2.2, and 0.65, respectively, to make EC+B+ feeding AP 100.
187PT PN 3
187PT G 84.7 4 1.9 3
187PT G 179.0 4 1.5 2
187PT G 204.5 4 3.6 3
187PT CG EKC LE 0.23
187PT G 280.6 4 1.0 2
187PT G 356.1 4 1.1 1
187PT G 379.9 4 1.1 2
187PT G 398.9 4 1.1 2
187PT G 519.6 4 1.5 3
187PT G 530.3 4 1.4 3
187PT G 552.4 3 1.6 3
187PT G 640.0 5 1.5 3
187PT G 642.8 5 2.1 4
187PT G 752.9 4 2.2 3
187PT G 856.2 3 1.4 2
187PT G 872.8 4 1.3 2
187PT CG EKC=0.019 (1986RoZI)
187PT G 897.3 4 1.3 2
187PT G 963.5 4 1.5 3
187PT G 1002.9 3 1.2 2
187PT G 1015.2 4 1.5 2
187PT G 1056.2 4 1.5 2
187PT G 1065.6 5 1.6 3
187PT G 1085.6 4 1.2 3
187PT G 1113.9 5 2.7 3
187PT G 1124.6 4 2.5 3
187PT G 1160.8 3 1.6 2
187PT G 1168.8 4 1.1 2
187PT G 1178.8 3 1.8 2
187PT G 1205.4 4 1.7 3
187PT G 1217.8 3 2.6 3
187PT G 1243.0 3 1.4 2
187PT G 1263.2 4 1.6 3
187PT G 1345.5 3 3.4 5
187PT G 1429.7 4 2.2 3
187PT G 1643.6 5 2.2 3
187PT G 1666.8 4 2.2 3
187PT G 1727.2 4 2.7 4
187PT G 1844.1 3 4.0 8
187PT L 0.0 3/2-
187PT E 1 LT 4 LT 6.7 GT 5 LTA ?
187PTS E EAV=1213 18$CK=0.622 7$CL=0.1067 12$CM+=0.0339 4
187PT L 9.27 8 3/2- 1 NS LE
187PT CL J$From the analysis of experimental and theoretical ^A2 values
187PT2CL for the 914.7G-235.7G and 235.7G-181.1G cascades. JPI=1/2- was ruled
187PT3CL out from the cascade analysis (1992Ro15).
187PT E 1 LT 4 LT 6.7 GT 5 LTA ?
187PTS E EAV=1209 18$CK=0.623 7$CL=0.1069 12$CM+=0.0340 4
187PT G 9.3 1 M1 304 11 331 27C
187PTS G M/T=0.770 19$N+/T=0.227 10
187PTS G N/T=0.191 9$O/T=0.0342 17$P/T=0.00230 12
187PT CG M$The half-life is only consistent with M1 (RUL).
187PT L 25.53 11(5/2-) 0.7 NS 1
187PT G 25.6 5 M1+E2 0.5 AP 6.8E2 AP 375 21C
187PTS G L/T AP 0.75$M/T AP 0.191$N+/T AP 0.054
187PTS G N/T AP 0.046$O/T AP 0.0072$P/T AP 4.6E-5
187PT CG M$CEM1=135
187PT L 51.23 11(1/2,3/2)- 0.30 NS 8
187PT E 0.2 5 0.6 15 7.4 0.8 20
187PTS E EAV=1190 18$CK=0.630 7$CL=0.1081 12$CM+=0.0344 4
187PT G 25.7 5 [E2] 3.1E3 4 3 AP
187PTS G L/T=0.75 6$M/T=0.19 3$N+/T=0.054 8
187PTS G N/T=0.047 7$O/T=0.0072 11$P/T=5.7E-6 9
187PT G 51.2 4 12.020M1+E2 0.10 1 9.3 4 A
187PTS G LC=7.1 3$MC=1.67 7$NC+=0.490 18
187PTS G NC=0.412 15$OC=0.073 3$PC=0.00442 12
187PT CG M$L1:L2:L3:M1=211:34:16:43
187PT L 57.11 14 7/2- 18 NS 2
187PT G 31.6 4 M1 34.7 15 9515C
187PTS G L/T=0.748 21$M/T=0.173 9$N+/T=0.051 3
187PTS G N/T=0.0428 24$O/T=0.0077 5$P/T=0.00052 3
187PT CG M$L1:L2:M1=146:13:44
187PT L 74.57 10 3/2- 0.50 NS 6
187PT CL J From the cascade analysis of 706.1G-609.4G, 706.1G-374.4G,
187PT2CL and 374.4G-185.8G including the experimental and theoretical ^A2
187PT3CL values. The cascade analysis of 1189.4G-213.6G also leads to the same
187PT4CL assignment (1992Ro15).
187PT G 49.0 4 5.0 7M1+E2 0.25 6 16 4 A
187PTS G LC=13 3$MC=3.0 7$NC+=0.88 19
187PTS G NC=0.75 17$OC=0.13 3$PC=0.00482 19
187PT CG M$EL1C=6.4 (1979Be51); L1:L2:L3=3.5:2.9:2.6 (1986AbZZ)
187PT G 65.3 4 M1+E2 0.18 2 4.96 23 78 26B
187PTS G L/T=0.637 20$M/T=0.151 9$N+/T=0.044 3
187PTS G N/T=0.0372 23$O/T=0.0065 4$P/T=0.000356 17
187PT CG M$L1:L2:L3:M1=125:32:18:30
187PT G 74.5 4 4.8 9 M1+E2 0.11 5 2.95 20 19 6B
187PTS G L/T=0.574 25$M/T=0.134 11$N+/T=0.039 4
187PTS G N/T=0.033 3$O/T=0.0059 5$P/T=0.000372 21
187PT CG M$L1:L2:L3=27:AP 3:AP 1.3
187PT CG TI$uncertainty not reported, 10% assumed by the evaluator.
187PT L 174.32 24(11/2+)
187PT G 117.2 4 1.0 3M2+E3 0.47 19 35.2 22
187PTS G KC=18 3$LC=13 4$MC=3.3 10$NC+=1.0 3
187PTS G NC=0.82 24$OC=0.14 4$PC=0.0041 5
187PT CG M$EKC=20.7. Other: EKC=18 4 from I(117G) and I(delayed K x rays),
187PT2CG assuming that all delayed platinum K x rays were due to conversion
187PT3CG of the 117.3G (186OS(A,3NG)-1976Pi03)
187PT CG RI$from 1979Be51. This value agrees better with the intensity balance
187PT2CG through the 174 level. Other value: 1.4 1 (1983Gn01).
187PT L 190.43 11 3/2- Z
187PT CL J$115.9G to 3/2- state. JPI=5/2- was ruled out from the analysis of
187PT2CL 590.6G-181.1G correlation, constraining the range of measured mixing
187PT3CL ratio and the experimental and theoretical A2 values (1992Ro15).
187PT E 0.80 18 3.2 7 6.69 4.0 9
187PTS E EAV=1127 18$CK=0.652 7$CL=0.1121 12$CM+=0.0356 4
187PT G 115.9 4 3.7 2M1+E2 +0.405 15 4.13 8 E
187PTS G KC=3.17 6$LC=0.736 17$MC=0.176 4$NC+=0.0513 12
187PTS G NC=0.0434 10$OC=0.00747 17$PC=0.000364 7
187PT CG M$EKC AP 2.6
187PT CG MR Other: 0.5 2
187PT G 133.2 5 2.2 5[E2] 1.56 4
187PTS G KC=0.443 8$LC=0.842 19$MC=0.217 5$NC+=0.0613 14
187PTS G NC=0.0530 12$OC=0.00831 19$PC=4.32E-5 8
187PT G 164.9 3 4.0 4M1+E2 -0.245 25 1.55 3 E
187PTS G KC=1.261 23$LC=0.224 4$MC=0.0523 9$NC+=0.0154 3
187PTS G NC=0.01292 22$OC=0.00230 4$PC=0.000144 3
187PT CG M$EKC=1.3, EL1C=0.3, EL2C=0.07, EL3C=0.08. The EKC is
187PT2CG consistent with M1, but EL1C, EL2C, and EL3C are significantly too
187PT3CG large.
187PT G 181.2 3 17.112M1+E2 +4.8 +23-120.536 24 E
187PTS G KC=0.250 25$LC=0.215 4$MC=0.0548 10$NC+=0.0156 3
187PTS G NC=0.01340 25$OC=0.00213 4$PC=2.5E-5 3
187PT CG M$EKC=0.17, EL1C=0.028, EL2C=0.11, EL3C=0.08
187PT G 190.4 3 18.811M1+E2 -17 GT 0.426 7 E
187PTS G KC=0.193 3$LC=0.176 3$MC=0.0449 7$NC+=0.01272 20
187PTS G NC=0.01096 17$OC=0.00174 3$PC=1.84E-5 3
187PT CG MR$-35 +18-|@
187PT CG M$EKC=0.20, EL1C=0.03, EL2C=0.09
187PT L 203.4 3(13/2+)
187PT G 29.0 5 [M1] 44.7 25 9 AP
187PTS G L/T=0.75 3$M/T=0.174 12$N+/T=0.051 4
187PTS G N/T=0.043 4$O/T=0.0077 6$P/T=0.00052 4
187PT CG E$uncertainty not reported. 0.5 KEV assumed by the evaluator.
187PT L 242.36 21(9/2+) 0.5 NS LE
187PT G 39.1 4 [E2] 386 21 7AP
187PTF G FLAG=XC
187PTS G L/T=0.75 3$M/T=0.193 14$N+/T=0.054 4
187PTS G N/T=0.047 4$O/T=0.0072 6$P/T=6.0E-6 5
187PT G 68.1 4 M1+E2 0.45 8 7.4 12 11 AP
187PTF G FLAG=XC
187PTS G L/T=0.67 7$M/T=0.17 4$N+/T=0.047 10
187PTS G N/T=0.040 9$O/T=0.0067 14$P/T=0.00020 3
187PT CG M$L1:L2:M1:M2:M3=30:15:11:8:5 from 1986AbZZ
187PT G 185.1 4 11.010E1 0.0852 13 A
187PTS G KC=0.0698 11$LC=0.01182 18$MC=0.00273 5$NC+=0.000788 12
187PTS G NC=0.000667 10$OC=0.0001150 18$PC=6.02E-6 9
187PT CG M$EKC AP 0.15 is consistent with E1 or E2. E1 is consistent
187PT2CG with the level scheme.
187PT L 260.49 12 3/2- 148 PS 7
187PT CL J From the cascade analysis of 706.1G-609.4G, 706.1G-374.4G,
187PT2CL and 374.4G-185.8G including the experimental and theoretical ^A2 values
187PT3CL (1992Ro15).
187PT CL T$From 2004Om01 (148 ps 6{-syst} 3{-stat}): delayed GG coincidence -
187PT2CL average of 142 ps 3 (direct deconvolution) and 154 PS 4
187PT3CL (reconvolution). Other: 163 PS 6 (1996Om01)
187PT E 0.37 13 1.6 6 6.97 2.0 7
187PTS E EAV=1096 18$CK=0.663 7$CL=0.1141 11$CM+=0.0362 4
187PT G 186.0 4 24.915M1+E2 -0.8 +7-4 0.9 3 A
187PT2 G FLAG=E
187PTS G KC=0.7 3$LC=0.170 15$MC=0.041 6$NC+=0.0119 14
187PTS G NC=0.0101 13$OC=0.00172 13$PC=7.E-5 4
187PT CG MR Other: 1.2 +4-3
187PT CG M$EKC=0.51
187PT G 209.3 3 6.4 5M1+E2 -3.2 3 0.354 11 A
187PT2 G FLAG=E
187PTS G KC=0.198 10$LC=0.1174 18$MC=0.0297 5$NC+=0.00845 13
187PTS G NC=0.00726 12$OC=0.001170 18$PC=2.01E-5 12
187PT CG MR +59 +|@-30 or -16 +8-|@ if J(51.2)=1/2; MR=-3.2 3 if
187PT2CG J(51.2)=3/2 (1992Ro15). From EKC=0.17 assuming 5% uncertainty
187PT3CG yields MR=5.2 11.
187PT CG M$EKC=0.17
187PT G 234.9 4 1.5 2[M1] 0.597 A
187PTS G KC=0.492 8$LC=0.0808 12$MC=0.0187 3$NC+=0.00550 9
187PTS G NC=0.00462 7$OC=0.000831 13$PC=5.61E-5 9
187PT G 251.3 4 14.014M1+E2 -13 +4-11 0.172 4 A
187PT2 G FLAG=E
187PTS G KC=0.0972 25$LC=0.0561 9$MC=0.01418 22$NC+=0.00404 7
187PTS G NC=0.00347 6$OC=0.000560 9$PC=9.6E-6 3
187PT CG M,MR$EKC=0.12 (1979Be51) assuming 5% uncertainty yields MR=3.4 3.
187PT G 260.6 3 5.6 4E0+M1+E2 3.9 AP
187PT CG M$EKC=3.4
187PT CG MR$%E0 AP 74 (1979Be51); ^X(E0/E2)=0.3 +12-0.1 with MR=-0.6 +4-5 for
187PT2CG M1+E2 (1992Ro15); penetration parameter |l AP -80 with MR=-0.41 16 or
187PT3CG |l AP 213 with MR=-0.96 17 (1992Ro15).
187PT CG CC$AP 3.9 - Estimated by the evaluator using MR=-0.6 +4-5 and the
187PT2CG |W(E0) values for K,L1,L2 shells (obtained using ^Bricc).
187PT L 288.33 13 5/2- Z
187PT CL J From the cascade analysis of 1189.4G-213.6G including the
187PT2CL experimental and theoretical ^A2 values (1992Ro15).
187PT E 0.09 3 1.2 4 8.73 1.3 4 1U
187PTS E EAV=1071 17$CK=0.754 3$CL=0.1351 7$CM+=0.04321 21
187PT G 97.7 4 1.5 3M1+E2 1.0 +11-5 6.3 6
187PTS G KC=3.3 17$LC=2.2 8$MC=0.57 22$NC+=0.16 6
187PTS G NC=0.14 6$OC=0.022 8$PC=0.00038 19
187PT CG M$EKC AP 3.3, EL1C=0.42
187PT G 213.6 3 9.3 6M1+E2 -5.2 3 0.305 E
187PTS G KC=0.162 4$LC=0.1083 17$MC=0.0275 5$NC+=0.00782 12
187PTS G NC=0.00672 11$OC=0.001078 17$PC=1.60E-5 4
187PT CG M$EKC=0.12 (1979Be51); EKC=0.10 5 (1983Gn01)
187PT G 237.1 4 10.410(E2) 0.204 A
187PTS G KC=0.1105 17$LC=0.0708 11$MC=0.0179 3$NC+=0.00510 8
187PTS G NC=0.00439 7$OC=0.000705 11$PC=1.078E-5 16
187PT CG M EKC AP 0.05 (1979Be51); EKC=0.08 3 (1983Gn01)
187PT CG MR$pure E2 if J(51.2)=1/2, -9.5 +4.5-73.1 if J(51.2)=3/2 (1992Ro15)
187PT G 262.7 4 2.5 2E0+M1+E2 6.3 AP
187PT CG M$EKC=5.4 (1979Be51); EKC=5.7 14 (1983Gn01)
187PT CG MR$%E0 AP 83 (1979Be51); ^X(E0/E2) GT 0.17 with |d{+2} LT 5 (1992Ro15);
187PT2CG penetration parameter |l LT -80 or GT 160 (1992Ro15).
187PT CG CC$AP 6.3 - Estimated by the evaluator using MR AP 2.2 and the |W(E0)
187PT2CG values for K,L1,L2 shells (obtained using ^Bricc).
187PT G 278.8 4 2.0 2[M1] 0.373
187PTS G KC=0.308 5$LC=0.0503 8$MC=0.01161 17$NC+=0.00343 5
187PTS G NC=0.00287 5$OC=0.000517 8$PC=3.50E-5 5
187PT G 288.2 4 1.9 2 M1+E2 0.23 12
187PTS G KC=0.17 11$LC=0.039 7$MC=0.0094 12$NC+=0.0027 4
187PTS G NC=0.0023 3$OC=0.00040 8$PC=1.9E-5 13
187PT CG M$EKC AP 0.2
187PT L 426.34 11(3/2-) Z
187PT CL J The 369.2G and 375.1G with EKC values of 0.04 2 and 0.04 3,
187PT2CL respectively, from this level have dominant E2 contribution. The 369.2G
187PT3CL feeds 7/2- state and 375.1G feeds (1/2,3/2)- state. Assuming a 914.6G
187PT4CL E1 feeding from the 1341-keV level JPI=1/2+ to this level, JPI=3/2-
187PT5CL is assigned. 1983Gn01 assigned JPI=5/2- for this state.
187PT E 1.1 1 5.9 8 6.37 7.0 9
187PTS E EAV=1022 18$CK=0.688 6$CL=0.1185 11$CM+=0.0377 4
187PT G 138.1 5 2.6 6[M1] 2.65 5
187PTS G KC=2.18 4$LC=0.361 7$MC=0.0835 15$NC+=0.0246 5
187PTS G NC=0.0207 4$OC=0.00371 7$PC=0.000250 5
187PT G 165.8 5 1.0 3[M1,E2] 1.1 5
187PTS G KC=0.8 6$LC=0.27 6$MC=0.066 17$NC+=0.019 5
187PTS G NC=0.016 4$OC=0.0027 5$PC=9.E-5 7
187PT G 235.8 4 6.9 6M1+E2 +0.30 +6-5 0.559 15 E
187PTS G KC=0.456 14$LC=0.0793 12$MC=0.0184 3$NC+=0.00543 8
187PTS G NC=0.00456 7$OC=0.000814 13$PC=5.18E-5 17
187PT CG M$EKC=0.35 (1979Be51); EKC=0.29 8 (1983Gn01)
187PT G 351.7 3 11.7 6M1+E2 +0.22 4 0.192 4 E
187PTS G KC=0.158 3$LC=0.0262 5$MC=0.00605 10$NC+=0.00178 3
187PTS G NC=0.001496 24$OC=0.000269 5$PC=1.79E-5 4
187PT CG M$EKC=0.13
187PT G 369.2 3 10.2 7E2 0.0544
187PTS G KC=0.0368 6$LC=0.01333 19$MC=0.00330 5$NC+=0.000947 14
187PTS G NC=0.000810 12$OC=0.0001338 20$PC=3.79E-6 6
187PT CG M$EKC=0.04 (1979Be51); EKC=0.04 2 (1983Gn01)
187PT G 375.1 4 6.6 7(M1+E2) 4.6 AP 0.0572 AP
187PTS G KC AP 0.0400$LC AP 0.01306$MC AP 0.00321$NC+ AP 0.000924
187PTS G NC AP 0.000789$OC AP 0.0001313$PC AP 4.20E-6
187PT CG M EKC=0.04 3 (1983Gn01)
187PT G 400.8 4 9.711M1+E2 -0.37 7 0.128 5 E
187PTS G KC=0.105 4$LC=0.0177 5$MC=0.00410 10$NC+=0.00121 3
187PTS G NC=0.001013 24$OC=0.000181 5$PC=1.19E-5 5
187PT CG MR$or -7 +2-6 (1992Ro15); Other: 1.1 4 from EKC=0.07 2.
187PT CG M$EKC=0.07 2 (1983Gn01); EKC=0.07 (1979Be51)
187PT G 416.9 4 2.0 2(M1+E2) 0.2 AP 0.1227 AP
187PTS G KC AP 0.1012$LC AP 0.01654$MC AP 0.00382$NC+ AP 0.001126
187PTS G NC AP 0.000945$OC AP 0.0001698$PC AP 1.140E-5
187PT CG M$EKC=0.10
187PT G 426.4 3 27.014M1+E2 +0.23 3 0.1146 20 E
187PTS G KC=0.0945 17$LC=0.01547 24$MC=0.00357 6$NC+=0.001054 17
187PTS G NC=0.000884 14$OC=0.0001589 25$PC=1.064E-5 19
187PT CG M$EKC=0.11 (1979Be51); EKC=0.09 3 (1983Gn01)
187PT L 426.53 24(9/2+)
187PT G 184.2 4 1.3 4 [M1,E2] 0.8 4
187PTS G KC=0.6 4$LC=0.181 22$MC=0.044 8$NC+=0.0128 19
187PTS G NC=0.0109 18$OC=0.00182 19$PC=7.E-5 5
187PT G 223.0 4 1.1 1[E2] 0.249
187PTS G KC=0.1290 19$LC=0.0908 15$MC=0.0231 4$NC+=0.00656 11
187PTS G NC=0.00564 9$OC=0.000903 15$PC=1.249E-5 19
187PT G 252.2 4 6.8 7[M1] 0.491 A
187PTS G KC=0.405 6$LC=0.0663 10$MC=0.01531 23$NC+=0.00452 7
187PTS G NC=0.00379 6$OC=0.000682 10$PC=4.61E-5 7
187PT L 474.42 16
187PT E 0.154 17 0.89 9 7.18 1.04 10
187PTS E EAV=1001 18$CK=0.694 6$CL=0.1198 11$CM+=0.0381 4
187PT G 417.2 4 4.7 5 A
187PT G 423.2 4 3.2 3
187PT G 448.7 4 4.3 3
187PT G 465.3 4 1.0 3
187PT G 474.3 4 3.2 4 A
187PT L 480.65 15 (1/2-,3/2-)
187PT E 0.239 22 1.39 11 6.98 1.63 13
187PTS E EAV=998 18$CK=0.695 6$CL=0.1199 11$CM+=0.0381 4
187PT G 405.9 4 3.8 3M1 0.1353
187PTS G KC=0.1118 16$LC=0.0181 3$MC=0.00417 6$NC+=0.001232 18
187PTS G NC=0.001033 15$OC=0.000186 3$PC=1.262E-5 18
187PT CG M$EKC=0.12 (1986RoZI)
187PT G 429.4 3 9.0 7M1(+E2) 0.8 LT 0.101 16
187PTS G KC=0.083 14$LC=0.0141 15$MC=0.0033 4$NC+=0.00096 10
187PTS G NC=0.00081 8$OC=0.000144 16$PC=9.3E-6 16
187PT CG M$EKC=0.09
187PT G 471.4 3 9.8 7M1 0.0910
187PTS G KC=0.0753 11$LC=0.01213 18$MC=0.00280 4$NC+=0.000825 12
187PTS G NC=0.000692 10$OC=0.0001246 18$PC=8.47E-6 12
187PT CG M$EKC=0.08
187PT G 480.4 5 1.1 2 [M1,E2] 0.06 3
187PTS G KC=0.05 3$LC=0.009 3$MC=0.0020 7$NC+=0.00059 20
187PTS G NC=0.00050 17$OC=9.E-5 4$PC=5.E-6 3
187PT L 507.92 13 1/2-
187PT CL J$247.4G M1+E2 to 3/2- state. A possible 3/2- assignment is ruled out
187PT2CL from the analysis of 833.0G-247.4G and 247.4G-185.8G cascade
187PT3CL correlations including the experimental and theoretical ^A2 values
187PT4CL (1992Ro15).
187PT E 0.24 4 1.5 3 6.95 1.7 3
187PTS E EAV=986 18$CK=0.699 6$CL=0.1206 11$CM+=0.0384 4
187PT G 247.4 3 17.914M1+E2 +0.29 1 0.491 8 A
187PT2 G FLAG=E
187PTS G KC=0.401 6$LC=0.0691 10$MC=0.01607 24$NC+=0.00473 7
187PTS G NC=0.00397 6$OC=0.000710 11$PC=4.56E-5 7
187PT CG M$EKC=0.30, EL1C=0.05, EL3C LT 0.01
187PT G 317.5 3 2.9 3[M1,E2] 0.17 9
187PTS G KC=0.13 9$LC=0.029 7$MC=0.0069 12$NC+=0.0020 4
187PTS G NC=0.0017 3$OC=0.00030 7$PC=1.5E-5 10
187PT G 433.5 4 2.6 4[M1] 0.1136
187PTS G KC=0.0939 14$LC=0.01517 22$MC=0.00350 5$NC+=0.001032 15
187PTS G NC=0.000866 13$OC=0.0001559 23$PC=1.058E-5 15
187PT G 450.7 5 1.0 3
187PT G 456.5 4 4.0 5M1 0.0991 A
187PTS G KC=0.0819 12$LC=0.01322 19$MC=0.00305 5$NC+=0.000899 13
187PTS G NC=0.000754 11$OC=0.0001357 20$PC=9.22E-6 13
187PT CG M$EKC=0.09 for doublet (1979Be51)
187PT G 482.4 4 3.5 5[E2] 0.0270 A
187PTS G KC=0.0198 3$LC=0.00552 8$MC=0.001343 20$NC+=0.000388 6
187PTS G NC=0.000330 5$OC=5.56E-5 8$PC=2.08E-6 3
187PT G 498.6 4 0.9 4(M1+E2) 1.1 GT D
187PT CG E 498.8 keV in 1979Be51 and 1992Ro15
187PT CG M EKC GT 0.95 (1979Be51). E0+M1+E2 proposed by 1979Be51 and
187PT2CG 1983GN01, %E0 AP 60 (1979Be51). 1992Ro15 ruled out E0 component from
187PT3CG the spin assignments and attributed the large EKC to an anomaly in the
187PT4CG M1 conversion. Other: EKC=1.7 for doublet (1986RoZI).
187PT CG CC Estimated by the evaluator from EKC GT 0.95.
187PT G 507.8 4 1.8 3
187PT L 510.42 18
187PT E 0.057 10 0.34 6 7.58 0.40 7
187PTS E EAV=985 18$CK=0.699 6$CL=0.1207 11$CM+=0.0384 4
187PT G 435.8 4 1.0 2
187PT G 453.4 4 1.9 2
187PT G 484.8 3 6.0 4
187PT CG M$EKC=0.06
187PT L 525.06 16 (3/2-)
187PT CL J 467.9G E2 to 7/2- state, 473.8G M1+E2 to (1/2,3/2)- state.
187PT E 0.13 2 0.79 9 7.21 0.92 10
187PTS E EAV=978 18$CK=0.701 6$CL=0.1211 11$CM+=0.0385 4
187PT G 236.6 4 3.0 4 A
187PTS G KC=0.1111 17$LC=0.0714 12$MC=0.0181 3$NC+=0.00515 8
187PTS G NC=0.00443 7$OC=0.000711 11$PC=1.083E-5 16
187PT CG M$EKC AP 0.05; EKC value supports E1.
187PT G 450.5 4 2.2 3[M1] 0.1026
187PTS G KC=0.0848 12$LC=0.01369 20$MC=0.00316 5$NC+=0.000931 14
187PTS G NC=0.000781 11$OC=0.0001406 20$PC=9.55E-6 14
187PT G 467.9 4 3.5 4 E2 0.0292 A
187PTS G KC=0.0212 3$LC=0.00607 9$MC=0.001481 22$NC+=0.000427 6
187PTS G NC=0.000364 6$OC=6.12E-5 9$PC=2.22E-6 4
187PT CG M$EKC AP 0.023 (1979Be51)
187PT G 473.8 4 2.3 3M1+E2 1.0 +4-3 0.059 11 A
187PTS G KC=0.047 10$LC=0.0089 11$MC=0.00209 23$NC+=0.00061 7
187PTS G NC=0.00052 6$OC=9.1E-5 11$PC=5.3E-6 11
187PT CG M$EKC=0.05
187PT G 500.1 5 2.9 3
187PT G 515.8 4 4.5 3
187PT L 572.79 16 (1/2-,3/2-)
187PT E 0.177 17 1.17 10 7.03 1.35 11
187PTS E EAV=957 18$CK=0.708 6$CL=0.1222 10$CM+=0.0389 4
187PT G 284.5 4 2.0 2[M1,E2] 0.23 12
187PTS G KC=0.18 11$LC=0.041 7$MC=0.0098 12$NC+=0.0029 4
187PTS G NC=0.0024 3$OC=0.00042 8$PC=2.0E-5 13
187PT G 312.1 4 3.8 3[M1] 0.274
187PTS G KC=0.226 4$LC=0.0369 6$MC=0.00852 13$NC+=0.00251 4
187PTS G NC=0.00211 3$OC=0.000379 6$PC=2.57E-5 4
187PT G 382.4 5 0.9 2[M1] 0.1587
187PTS G KC=0.1311 19$LC=0.0213 3$MC=0.00490 7$NC+=0.001446 21
187PTS G NC=0.001213 18$OC=0.000218 4$PC=1.481E-5 22
187PT G 498.3 4 0.9 4(M1+E2) 0.67 GT
187PTF G FLAG=D
187PT CG M$EKC GT 0.58 (1979Be51); EKC=0.8 3 (1983Gn01); EKC=1.7 for doublet
187PT2CG (1986RoZI). 1979Be51 and 1983Gn01
187PT3CG expected E0 component (%E0 AP 60 (1979Be51)) for the 498G due to high
187PT4CG EKC value. Either of the E0 component or abnormal M1 conversion in the
187PT5CG mass region for this element is possible, however 1992Ro15 states it is
187PT6CG difficult to determine unambiguously. Without a specific JPI assignment
187PT7CG for this level, (M1+E2) is assigned by the evaluator.
187PT CG CC Estimated by the evaluator from EKC GT 0.58.
187PT G 521.6 4 3.3 3
187PT G 563.5 4 6.0 4
187PT L 588.05 22 7/2+
187PT G 161.4 4 1.9 1E2(+M1) 4 GT 0.79 3
187PTF G FL=426.53
187PTS G KC=0.32 4$LC=0.355 8$MC=0.0909 20$NC+=0.0257 6
187PTS G NC=0.0222 5$OC=0.00351 7$PC=3.1E-5 4
187PT CG M$EKC=0.92, EL1C AP 0.23
187PT G 345.8 3 4.1 3M1+E2 1.5 3 0.109 15
187PTS G KC=0.083 14$LC=0.0202 12$MC=0.00487 25$NC+=0.00141 8
187PTS G NC=0.00120 6$OC=0.000205 13$PC=9.0E-6 16
187PT CG M$EKC=0.08 (1986RoZI); EKC AP 0.2 (1979Be51)
187PT G 413.7 3 6.2 5 (E2) 0.0400
187PTS G KC=0.0281 4$LC=0.00905 13$MC=0.00222 4$NC+=0.000640 9
187PTS G NC=0.000546 8$OC=9.10E-5 13$PC=2.93E-6 5
187PT CG M$EKC=0.06 (1986RoZI) implies M1+E2 (MR=1.2 3), decay scheme requires
187PT2CG E2.
187PT L 599.11 14 (5/2-)
187PT E 0.063 7 1.41 11 8.49 1.47 12 1U
187PTS E EAV=938 17$CK=0.7729 21$CL=0.1396 6$CM+=0.04471 18
187PT G 172.7 4 1.6 1M1+E2 0.6 3 1.19 15
187PTF G FL=426.34
187PTS G KC=0.92 17$LC=0.211 15$MC=0.051 5$NC+=0.0147 12
187PTS G NC=0.0125 11$OC=0.00215 13$PC=0.000104 20
187PT CG M$EKC=1, EL1C LT 0.9, EL2C AP 0.1
187PT G 408.7 4 1.8 2[M1] 0.1329
187PTS G KC=0.1098 16$LC=0.0178 3$MC=0.00410 6$NC+=0.001209 18
187PTS G NC=0.001014 15$OC=0.000183 3$PC=1.239E-5 18
187PT G 524.5 4 2.4 3
187PT G 542.1 3 6.2 4(M1+E2) 0.8 LT 0.055 9
187PTS G KC=0.045 8$LC=0.0075 9$MC=0.00174 20$NC+=0.00051 6
187PTS G NC=0.00043 5$OC=7.7E-5 10$PC=5.0E-6 9
187PT CG M$EKC=0.05 (1979Be51); EKC=0.03 (1986RoZI).
187PT G 547.6 5 1.6 2
187PT G 599.1 3 2.0 2
187PT L 620.77 14(1/2-,3/2-)
187PT E 0.30 3 2.16 18 6.75 2.46 21
187PTS E EAV=936 18$CK=0.714 6$CL=0.1234 10$CM+=0.0392 4
187PT G 140.3 5 1.1 2[M1] 2.53 5
187PTS G KC=2.09 4$LC=0.345 6$MC=0.0798 14$NC+=0.0235 4
187PTS G NC=0.0197 4$OC=0.00355 7$PC=0.000239 5
187PT G 194.4 4 1.0 2(M1+E2) 1.5 LT 0.80 22
187PTF G FL=426.34
187PTS G KC=0.61 23$LC=0.145 9$MC=0.035 4$NC+=0.0101 9
187PTS G NC=0.0086 8$OC=0.00147 7$PC=7.E-5 3
187PT CG M$EKC AP 0.7
187PT G 546.3 3 10.5 6M1+E2 0.7 GT 0.034 14
187PTS G KC=0.027 13$LC=0.0053 15$MC=0.0012 4$NC+=0.00036 10
187PTS G NC=0.00031 9$OC=5.4E-5 16$PC=3.0E-6 14
187PT CG M$EKC=0.03 (1979Be51); EKC=0.04 (1986RoZI)
187PT G 595.3 4 4.3 3M1+E2 1.3 +6-4 0.029 6
187PTS G KC=0.023 6$LC=0.0043 7$MC=0.00101 15$NC+=0.00029 5
187PTS G NC=0.00025 4$OC=4.4E-5 7$PC=2.5E-6 6
187PT CG M$EKC=0.024
187PT G 611.3 4 2.0 3
187PT G 620.8 3 25.615M1+E2 1.5 LT 0.034 11
187PTS G KC=0.028 9$LC=0.0047 12$MC=0.00110 25$NC+=0.00032 8
187PTS G NC=0.00027 7$OC=4.9E-5 12$PC=3.1E-6 10
187PT CG MR +0.24 3 if J(620)=3/2, 0 |+1.5 if J(620)=1/2 (1992Ro15)
187PT CG M$EKC=0.030 (1979Be51); EKC=0.032 (1986RoZI)
187PT L 632.88 16(5/2+,7/2+)
187PT CL J 390.5G E2 to (9/2+), 206.3G M1+E2 to (9/2+).
187PT2CL Assignment in 1983Gn01 is 5/2+.
187PT G 206.3 4 1.9 2M1+E2 1.3 5 0.52 13
187PTF G FL=426.53
187PTS G KC=0.36 13$LC=0.122 3$MC=0.0300 13$NC+=0.0086 3
187PTS G NC=0.0074 3$OC=0.001225 23$PC=3.9E-5 16
187PT CG M$EKC=0.37
187PT G 390.5 3 21.915E2 0.0467
187PTS G KC=0.0322 5$LC=0.01099 16$MC=0.00271 4$NC+=0.000779 11
187PTS G NC=0.000665 10$OC=0.0001104 16$PC=3.34E-6 5
187PT CG M$EKC=0.032
187PT L 635.02 13 3/2- Z
187PT CL J$609.5G M1+E2 to (5/2-), 706G E1 from 1/2+ state
187PT E 0.20 3 1.45 18 6.92 1.65 21
187PTS E EAV=929 18$CK=0.716 6$CL=0.1238 10$CM+=0.0394 4
187PT G 208.7 4 1.7 2M1(+E2) 0.9 LT 0.71 12 A
187PTF G FL=426.34
187PTS G KC=0.56 12$LC=0.1139 24$MC=0.0270 11$NC+=0.00788 25
187PTS G NC=0.00665 25$OC=0.001162 19$PC=6.4E-5 15
187PT CG M$EKC=0.62
187PT G 374.5 4 5.3 5M1+E2 +0.52 10 0.143 8 A
187PT2 G FLAG=E
187PTS G KC=0.117 7$LC=0.0204 7$MC=0.00475 15$NC+=0.00140 5
187PTS G NC=0.00117 4$OC=0.000209 8$PC=1.31E-5 8
187PT CG M$EKC LT 0.07
187PT G 444.7 4 0.9 2 [M1,E2] 0.07 4
187PTS G KC=0.06 4$LC=0.011 4$MC=0.0025 8$NC+=0.00073 23
187PTS G NC=0.00062 19$OC=0.00011 4$PC=6.E-6 4
187PT G 560.5 4 8.5 9
187PT G 578.0 4 3.5 3
187PT G 583.5 5 1.4 4 M1+E2 1.6 4 0.027 5
187PTS G KC=0.021 4$LC=0.0042 5$MC=0.00099 11$NC+=0.00029 4
187PTS G NC=0.00024 3$OC=4.3E-5 5$PC=2.3E-6 5
187PT CG M$EKC=0.2 (1986RoZI)
187PT G 609.5 3 4.4 5M1+E2 -0.66 +19-23 0.037 5 E
187PTS G KC=0.030 4$LC=0.0051 5$MC=0.00119 11$NC+=0.00035 4
187PTS G NC=0.00029 3$OC=5.2E-5 5$PC=3.4E-6 5
187PT CG M$EKC=0.036 (1979Be51); EKC=0.017 (1986RoZI)
187PT CG MR$or -2.6 +8-18 (1992Ro15). MR AP 0.3 from EKC=0.036.
187PT G 625.8 4 1.3 4
187PT G 635.0 3 15.2 9M1+E2 +0.51 6 0.0361 12 E
187PTS G KC=0.0297 11$LC=0.00490 14$MC=0.00113 3$NC+=0.000333 10
187PTS G NC=0.000280 8$OC=5.02E-5 15$PC=3.31E-6 12
187PT CG M$EKC=0.028 (1979Be51); EKC=0.036 (1986RoZI)
187PT L 688.68 18
187PT E 0.058 11 0.46 8 7.40 0.52 9
187PTS E EAV=905 18$CK=0.723 5$CL=0.1250 10$CM+=0.0398 3
187PT G 498.2 4 1.5 3 D
187PT G 614.1 4 4.0 3
187PT G 663.2 4 2.4 4
187PT G 688.6 4 1.4 4
187PT L 781.28 13 3/2- Z
187PT CL J$590.9G M1+E2 to 3/2- state, 559.8G (E1) from 1/2+ state
187PT E 0.15 3 1.4 3 6.91 1.5 3
187PTS E EAV=864 18$CK=0.734 5$CL=0.1271 9$CM+=0.0404 3
187PT G 270.8 5 0.9 2[M1,E2] 0.27 14
187PTS G KC=0.21 13$LC=0.048 7$MC=0.0116 11$NC+=0.0034 4
187PTS G NC=0.0028 3$OC=0.00049 8$PC=2.3E-5 15
187PT G 306.8 5 0.9 2[M1,E2] 0.19 10
187PTS G KC=0.15 9$LC=0.032 7$MC=0.0077 13$NC+=0.0022 4
187PTS G NC=0.0019 3$OC=0.00033 7$PC=1.6E-5 11
187PT G 354.9 4 4.2 4 [M1,E2] 0.13 7
187PTF G FL=426.34
187PTS G KC=0.10 6$LC=0.021 6$MC=0.0049 11$NC+=0.0014 4
187PTS G NC=0.0012 3$OC=0.00021 6$PC=1.1E-5 7
187PT G 492.9 4 2.2 5 [M1,E2] 0.05 3
187PTS G KC=0.043 24$LC=0.008 3$MC=0.0019 7$NC+=0.00055 19
187PTS G NC=0.00046 16$OC=8.E-5 3$PC=5.E-6 3
187PT G 590.9 3 7.1 5M1+E2 +56 +40-160.01668 E
187PTS G KC=0.01272 18$LC=0.00302 5$MC=0.000726 11$NC+=0.000211 3
187PTS G NC=0.000179 3$OC=3.05E-5 5$PC=1.346E-6 19
187PT CG M$EKC=0.022 (1979Be51); EKC=0.03 (19986RoZI)
187PT CG MR EKC=0.022 gives MR AP 1.5.
187PT G 706.7 4 8.012 A
187PT G 724.3 4 1.4 2
187PT G 730.3 4 8.5 7M1+E2 3.5 LT 0.020 9 E
187PTS G KC=0.017 8$LC=0.0029 10$MC=0.00066 23$NC+=0.00019 7
187PTS G NC=0.00016 6$OC=2.9E-5 11$PC=1.8E-6 9
187PT CG MR$+1.8 +3-2 or -0.01 6 if J(51.2)=1/2; +2.3 +12-6 or +0.78 +25-19 if
187PT2CG J(51.2)=3/2 (1992Ro15). MR AP 0.4 from EKC=0.02.
187PT CG M$EKC=0.02 (1979Be51); EKC=0.019 (1986RoZI)
187PT G 772.0 4 2.5 4
187PT G 781.3 4 2.6 3
187PT L 845.0 3
187PT G 602.5 3 2.2 2
187PT L 883.17 23 5/2+
187PT CL J 294.9G M1+E2 to 7/2+ state, 456.7G E2 to (9/2+) state
187PT E 0.061 8 0.66 7 7.19 0.72 8
187PTS E EAV=819 18$CK=0.745 5$CL=0.1293 9$CM+=0.0412 3
187PT G 250.2 4 1.2 3[M1,E2] 0.34 17
187PTS G KC=0.26 16$LC=0.062 6$MC=0.0150 7$NC+=0.0044 3
187PTS G NC=0.00370 18$OC=0.00063 7$PC=2.8E-5 19
187PT G 294.9 3 4.5 3M1+E2 0.21 11
187PTS G KC=0.16 10$LC=0.037 7$MC=0.0088 12$NC+=0.0025 4
187PTS G NC=0.0022 3$OC=0.00037 8$PC=1.8E-5 12
187PT CG M$EKC=0.2
187PT G 456.7 4 3.3 4E2 0.0310 A
187PTF G FL=426.53
187PTS G KC=0.0224 4$LC=0.00656 10$MC=0.001602 23$NC+=0.000462 7
187PTS G NC=0.000393 6$OC=6.60E-5 10$PC=2.35E-6 4
187PT CG M$From EKC=0.02 1 (1983Gn01), Other: EKC=0.09 for doublet (1979Be51)
187PT L 968.7 3
187PT E 0.053 6 0.68 6 7.15 0.73 6
187PTS E EAV=782 18$CK=0.754 4$CL=0.1311 8$CM+=0.0417 3
187PT G 959.5 4 5.0 5
187PT G 968.7 4 3.1 3
187PT L 1101.65 25
187PT E 0.011 5 0.19 8 7.66 0.20 8
187PTS E EAV=723 18$CK=0.767 4$CL=0.1335 8$CM+=0.04252 24
187PT G 256.5 4 1.0 4
187PT G 468.8 4 4.5 5 A
187PT L 1114.9 3
187PT E 0.021 3 0.35 5 7.39 0.37 5
187PTS E EAV=717 18$CK=0.768 4$CL=0.1338 8$CM+=0.04260 24
187PT G 231.5 4 1.0 1
187PT G 482.3 4 2.0 4 A
187PT G 526.9 4 1.1 2
187PT L 1179.1 5
187PT G 334.1 4 0.8 3
187PT L 1304.09 25
187PT E 0.025 3 0.64 5 7.06 0.66 5
187PTS E EAV=634 18$CK=0.782 3$CL=0.1368 6$CM+=0.04360 20
187PT G 683.3 4 3.6 4
187PT G 1229.2 4 1.3 2
187PT G 1253.2 4 2.4 2
187PT L 1328.29 18 1/2+,3/2+
187PT CL J also 5/2+; 1319G E1 to 3/2- state
187PT E 0.104 11 2.84 14 6.40 2.94 14
187PTS E EAV=623 18$CK=0.784 3$CL=0.1372 6$CM+=0.04372 20
187PT G 901.8 4 1.2 3
187PTF G FL=426.34
187PT G 1067.8 5 1.6 2
187PT G 1277.2 4 2.7 3
187PT G 1319.0 3 25.713E1
187PTS G CC=0.001361 19$KC=0.001091 16$LC=0.0001581 23$MC=3.59E-5 5$NC+=7.61E-5
187PTS G NC=8.86E-6 13$OC=1.590E-6 23$PC=1.078E-7 16$IPC=6.56E-5 10
187PT CG M$EKC LT 0.0014
187PT G 1328.3 4 1.5 5
187PT L 1335.0 5
187PT E 0.0073 13 0.20 3 7.54 0.21 3
187PTS E EAV=620 18$CK=0.784 3$CL=0.1373 6$CM+=0.04375 20
187PT G 908.7 4 2.3 3
187PTF G FL=426.34
187PT L 1341.07 12 1/2+
187PT CL J Cascade analysis of the 706.1G-609.4G, 706.1G-374.4G, and
187PT2CL 374.4G-185.8G including the experimental and theoretical ^A2 values
187PT3CL supports the JPI=1/2+ assignment (1992Ro15).
187PT E 0.84 9 23.8 6 5.47 24.6 6
187PTS E EAV=618 18$CK=0.785 3$CL=0.1374 6$CM+=0.04378 20
187PT G 559.8 4 21.021(E1)
187PTS G CC=0.00652 10$KC=0.00544 8$LC=0.000832 12$MC=0.000190 3$NC+=5.57E-5 8
187PTS G NC=4.68E-5 7$OC=8.31E-6 12$PC=5.22E-7 8
187PT CG M$EKC AP 0.015, includes contamination from 560.5 transition.
187PT G 706.0 3 22.015E1 A
187PTS G CC=0.00409 6$KC=0.00342 5$LC=0.000514 8$MC=0.0001173 17$NC+=3.44E-5 5
187PTS G NC=2.89E-5 4$OC=5.15E-6 8$PC=3.32E-7 5
187PT CG M$EKC=0.0034 (1979Be51); EKC=0.0034 (1986RoZI)
187PT G 708.0 4 2.0 4
187PT G 720.4 3 18.113E1
187PTS G CC=0.00393 6$KC=0.00329 5$LC=0.000493 7$MC=0.0001126 16$NC+=3.30E-5 5
187PTS G NC=2.77E-5 4$OC=4.94E-6 7$PC=3.19E-7 5
187PT CG M$EKC LT 0.006 (1979Be51); EKC LT 0.003 (1986RoZI)
187PT G 768.2 4 2.1 4
187PT G 830.6 4 1.0 3
187PT G 833.4 3 19.912E1
187PTS G CC=0.00297 5$KC=0.00249 4$LC=0.000370 6$MC=8.44E-5 12$NC+=2.47E-5 4
187PTS G NC=2.08E-5 3$OC=3.71E-6 6$PC=2.43E-7 4
187PT CG M$EKC=0.0025 (1986RoZI); Others: EKC LT 0.003 (1983Gn01), EKC=0.008
187PT2CG (1979Be51).
187PT G 914.6 3 43.2 17E1
187PTF G FL=426.34
187PTS G CC=0.00250 4$KC=0.00210 3$LC=0.000309 5$MC=7.05E-5 10$NC+=2.07E-5 3
187PTS G NC=1.737E-5 25$OC=3.11E-6 5$PC=2.05E-7 3
187PT CG M$EKC=0.0025 (1986RoZI); Other: EKC LT 0.005 (1979Be51)
187PT G 1080.4 4 4.3 4
187PT G 1151.0 5 1.0 3
187PT G 1266.5 3 34.421E1
187PTS G CC=0.001433 20$KC=0.001171 17$LC=0.0001699 24$MC=3.86E-5 6$NC+=5.35E-5
187PTS G NC=9.52E-6 14$OC=1.709E-6 24$PC=1.156E-7 17$IPC=4.21E-5 6
187PT CG M$EKC=0.001 (1979Be51); EKC=0.001 (1986RoZI)
187PT G 1289.7 4 1.9 3
187PT G 1331.9 3 100 5E1
187PTS G CC=0.001346 19$KC=0.001073 15$LC=0.0001554 22$MC=3.53E-5 5$NC+=8.26E-5
187PTS G NC=8.71E-6 13$OC=1.563E-6 22$PC=1.061E-7 15$IPC=7.22E-5 11
187PT CG M$EKC=0.001 (1979Be51); EKC=0.001 (1986RoZI)
187PT G 1341.0 4 2.0 4
187PT L 1364.90 22
187PT E 0.031 4 0.92 8 6.88 0.95 8
187PTS E EAV=607 18$CK=0.786 3$CL=0.1377 6$CM+=0.04389 19
187PT G 1290.6 5 1.5 3
187PT G 1313.9 4 3.3 5
187PT G 1355.4 4 4.1 6
187PT G 1364.7 4 1.7 2
187PT L 1388.07 24
187PT E 0.024 3 0.75 6 6.96 0.77 6
187PTS E EAV=597 18$CK=0.7874 25$CL=0.1380 6$CM+=0.04399 19
187PT G 913.6 4 1.5 3
187PT G 1379.2 4 5.2 5
187PT G 1387.7 4 1.8 3
187PT L 1398.8 5
187PT E 0.013 2 0.42 5 7.21 0.43 5
187PTS E EAV=593 18$CK=0.7881 24$CL=0.1382 6$CM+=0.04404 19
187PT G 924.4 4 4.8 5
187PT CG M$EKC=0.02
187PT L 1433.76 15 3/2+
187PT CL J 1408G E1 to (5/2-)
187PT E 0.19 2 6.8 3 5.98 7.0 3
187PTS E EAV=577 18$CK=0.7900 23$CL=0.1386 6$CM+=0.04420 18
187PT G 798.9 4 2.5 3
187PT G 801.0 4 1.0 3
187PT G 861.0 4 2.0 4
187PT G 959.2 4 1.5 3
187PT G 1007.5 4 2.0 2
187PTF G FL=426.34
187PT G 1359.0 4 10.2 6
187PT G 1408.1 4 43.731E1
187PTS G CC=0.001275 18$KC=0.000976 14$LC=0.0001409 20$MC=3.20E-5 5$NC+=0.000126
187PTS G NC=7.89E-6 11$OC=1.418E-6 20$PC=9.65E-8 14$IPC=0.0001172 17
187PT CG M$EKC=0.001
187PT G 1424.5 5 3.0 3
187PT G 1433.8 3 11.7 7
187PT L 1478.02 15 3/2+
187PT CL J From a cascade analysis of the 1189.4G-213.6G including the
187PT2CL experimental and theoretical ^A2 values (1992Ro15).
187PT E 0.116 14 4.67 16 6.12 4.79 16
187PTS E EAV=558 18$CK=0.7923 21$CL=0.1392 5$CM+=0.04438 17
187PT G 697.1 4 2.0 4
187PT G 843.0 4 2.1 3
187PT G 845.4 4 1.2 3
187PT G 890.4 4 1.0 2
187PT G 997.4 4 1.0 3
187PT G 1189.4 3 13.2 7 E1
187PT CG M$EKC=0.0019 (1986RoZI)
187PT G 1403.3 5 2.3 4
187PT G 1426.6 4 7.1 6
187PT G 1452.3 4 20.512
187PT G 1477.9 4 2.8 3
187PT L 1570.7 4
187PT E 0.0078 12 0.41 4 7.14 0.42 4
187PTS E EAV=517 18$CK=0.7965 18$CL=0.1403 5$CM+=0.04475 16
187PT G 937.8 3 4.7 4
187PT L 1598.0 3
187PT E 0.010 1 0.59 4 6.97 0.60 4
187PTS E EAV=505 18$CK=0.7976 17$CL=0.1406 5$CM+=0.04486 16
187PT G 1171.6 3 5.5 3
187PTF G FL=426.34
187PT G 1598.1 5 1.2 3
187PT L 1777.86 23
187PT CL E From 1986RoZI
187PT E 0.0043 0.48 7.0 0.48
187PTS E EAV=426 18$CK=0.8031 10$CL=0.1424 4$CM+=0.04548 13
187PT G 1726.8 3 2.6
187PT CG E,RI From 1986RoZI. RI normalized to RI=100 (1341G)
187PT G 1768.4 3 2.7
187PT CG E,RI From 1986RoZI. RI normalized to RI=100 (1341G)
187PT L 1886.0 3
187PT E 0.0026 6 0.46 5 6.95 0.46 5
187PTS E EAV=379 18$CK=0.8051 7$CL=0.1434 4$CM+=0.04582 13
187PT G 1834.6 4 2.1 4
187PT G 1876.8 4 3.0 4
187PT L 1891.3 4
187PT E 0.0028 6 0.50 4 6.91 0.50 4
187PTS E EAV=377 18$CK=0.8052 7$CL=0.1434 4$CM+=0.04583 13
187PT G 1882.2 5 2.0 3
187PT G 1891.2 4 3.5 3
187PT L 1970.4 3
187PT E 0.0023 6 0.61 6 6.79 0.61 6
187PTS E EAV=342 18$CK=0.8061 4$CL=0.1441 4$CM+=0.04606 12
187PT G 1961.1 4 4.8 5
187PT G 1970.4 4 2.0 3
187PT L 2016.77 14(3/2+,5/2+)
187PT CL J and 3/2-,7/2- in 1986RoZI.
187PT E 0.020 5 6.73 17 5.72 6.75 17
187PTS E EAV=321 18$CK=0.8064 3$CL=0.1444 4$CM+=0.04620 12
187PT G 1328.0 4 1.5 5
187PT G 1383.6 4 4.8 4
187PT G 1417.6 4 6.2 6
187PT G 1491.9 4 5.5 5
187PT G 1509.0 4 1.9 3
187PT G 1535.8 4 1.7 2
187PT G 1728.2 4 3.7 4
187PT G 1756.4 4 10.3 6
187PT G 1826.1 4 3.0 3
187PT G 1991.4 4 16.910
187PT G 2007.8 4 8.3 5
187PT G 2017.0 4 11.2 7
187PT L 2027.98 16
187PT E 0.0058 15 2.13 9 6.21 2.14 9
187PTS E EAV=316 18$CK=0.8065 3$CL=0.1445 4$CM+=0.04623 12
187PT G 926.3 4 1.5 3
187PT G 1339.3 4 2.0 3
187PT G 1502.9 4 3.1 3
187PT G 1519.6 4 1.9 3
187PT G 1547.1 5 1.2 3
187PT G 1601.8 4 2.4 3
187PTF G FL=426.34
187PT G 1767.6 5 5.3 4
187PT G 1837.8 5 2.3 4
187PT G 2002.5 4 2.1 2
187PT G 2028.1 4 2.0 3
187PT L 2038.62 15
187PT E 0.010 3 4.01 13 5.93 4.02 13
187PTS E EAV=312 18$CK=0.8066 3$CL=0.1446 4$CM+=0.04626 12
187PT G 1439.4 4 1.3 2
187PT G 1612.3 4 2.4 3
187PTF G FL=426.34
187PT G 1750.2 4 2.1 2
187PT G 1778.2 4 6.1 4
187PT G 1848.0 4 3.6 4
187PT G 1964.3 3 13.0 8
187PT G 1987.3 3 14.8 9
187PT G 2038.5 5 1.4 2
187PT L 2082.06 16
187PT E 0.0067 19 3.43 13 5.97 3.44 13
187PTS E EAV=292 18$CK=0.8067 2$CL=0.1450 4$CM+=0.04639 12
187PT G 1449.0 4 1.5 3
187PT G 1483.0 4 1.5 3
187PT G 1573.9 4 1.8 3
187PT G 1821.8 4 2.5 3
187PT G 2030.7 3 14.2 9
187PT G 2056.6 4 13.9 8
187PT G 2073.0 5 1.3 2
187PT G 2082.2 5 1.5 3
187PT L 2094.65 16
187PT E 0.0061 18 3.39 12 5.97 3.40 12
187PTS E EAV=287 18$CK=0.8067 1$CL=0.1451 4$CM+=0.04642 12
187PT G 992.8 5 1.8 4
187PT G 1211.3 4 1.5 2
187PT G 1461.8 5 2.0 5
187PT G 1584.2 4 2.3 3
187PT G 1586.4 5 1.4 3
187PT G 1806.2 4 6.4 4
187PT G 1904.3 4 3.5 4
187PT G 2020.2 4 3.2 3
187PT G 2069.2 4 4.3 3
187PT G 2085.7 4 11.4 7
187PT L 2157.9 5
187PT E 0.000229 0.19 4 7.19 0.19 4
187PTS E EAV=259 18$CK=0.8067 2$CL=0.1456 4$CM+=0.04661 12
187PT G 2106.7 4 2.1 4
187PT L 2170.46 22
187PT E 0.0010 4 0.95 6 6.48 0.95 6
187PTS E EAV=253 18$CK=0.8067 2$CL=0.1457 4$CM+=0.04664 12
187PT G 1910.1 3 7.2 5
187PT G 2095.8 4 2.4 3
187PT G 2161.0 4 1.0 3
187PT L 2570.9 3
187PT E 0.39 5 6.59 0.39 5
187PTS E CK=0.8023 8$CL=0.1495 6$CM+=0.04812 21
187PT G 2519.6 4 1.1 2
187PT G 2561.3 5 0.7 2
187PT G 2571.2 5 2.5 4