193PT 193AU EC DECAY (17.65 H) 1968SV01,1970PL02 17NDS 201709
193PT H TYP=FUL$AUT=M. Shamsuzzoha Basunia$CIT=NDS 143, 1 (2017)$
193PT2 H CUT=31-Mar-2017$
193PT C 1970Pl02: sources from spallation of PB by 680-MEV protons,
193PT2C chem; measured EG, IG (GELI)
193PT C 1968Sv01: sources from PT(P,XN), EP=35 MEV;
193PT2C measured ECE, ICE (mag spect). (preliminary report 1967Jo14)
193PT C 1957Ew34: measured GG, CEG
193PT C Others: 1954Gi04, 1962Ma18, 1976Di15, 1976ViZM.
193PT CE 1976Di15 report two B+ groups with E(max.)=320 30 and 150 20.
193PT2CE The higher group gives Q+=1340 30, inconsistent with the adjusted
193PT3CE Q+=1075 9 from 2017Wa10. However, since the observed groups are inner
193PT4CE groups in the ^FK plot in a combined B+ spectrum from
193PT5CE 193HG + 193AU decay, it is possible that the energy and/or the
193PT6CE nuclear assignment of these groups could be in error.
193PT CE No G+- seen, IB+ LT 0.08% (1957Ew34)
193PT CE TI From intensity imbalance at each level.
193PT CE TI(A) IE given for 0.0 level is a combined value for
193PT2CE the 0.0 and 1.6 levels.
193PT CG All CE data are from 1968Sv01.
193PT CG Unassigned CE-line: ECE=137.54 10 ICE=0.8 2 % of the
193PT2CG 268 K CE intensity (1968Sv01)
193PT CG E Deduced from E(CE) measurements of 1968Sv01, unless otherwise
193PT2CG noted. Calibration: KL1L1 and KL2L3 AUGER lines in PT, E(CEK) 316G
193PT3CG in 192PT (E(CEK)=238.087 10), ThC ^A (E(CE)=24.509) and ThB ^F
193PT4CG (E(CE)=148.108) lines.
193PT CG RI From 1970Pl02, unless otherwise noted.
193PT CG M,MR From experimental internal conversion coefficients and
193PT2CG ratios, based on ICE of 1968Sv01 and IG of 1970Pl02.
193PT CG E(A) From 1970Pl02.
193PT CL E,J From Adopted Levels
193PT DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
193PT CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
193PT2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
193AU P 0.0 3/2+ 17.65 H 15 1075 9
193PT N 0.028 AP 0.028 3 1.0 1.0
193PT PN 3
193PT CN NR$ 1957Ew34 report %TI for several G rays based on K conversion
193PT2CN electron measurements per disintegration. Using %TI(186.17G)=21.3 and
193PT4CN %TI(173.52G)=6.1, the evaluator deduced the normalization factor as
193PT5CN an average. Mean number of K conversions per disintegration of
193PT2CN 193AU, 0.29 3 (assuming EC(K)/EC=0.80), measured by 1957Ew34 is also
193PT6CN used to obtain intensity per disintegration for relative conversion
193PT7CN electron intensity reported in 1968Sv01 (in comments section).
193PT G 49.14 3 0.46 6M1+E2 0.42 2 26.9 15
193PTS G LC=20.4 11$MC=5.1 3
193PTS G NC=1.24 7$OC=0.201 11$PC=0.00440 8
193PT CG RI deduced from ICE(L3)=3.3 3 and L3C=7.2 6 (Bricc).
193PT CG M,MR L1/L3=0.83 6, M1/M2=0.62 11 (1968Sv01)
193PT G 110.28 5 22 11(E1) 0.318
193PTS G KC=0.257 4$LC=0.0470 7$MC=0.01090 16
193PTS G NC=0.00265 4$OC=0.000447 7$PC=2.06E-5 3
193PT CG RI$Obtained by subtraction of RI(112.5G) from RI(110.3G+112.5G)=102 10.
193PT CG M$ From EKC=ICE(K)/RI=0.25 13. ICE(K)=21 {I4}*0.29=6.1 12. Also
193PT2CG K/L1=9.5 28 (1968Sv01).
193PT G 180.0 2 2.1 13 A
193PT G 215.41 10 3.3 9 M1+E2 1.5 5 0.43 10
193PTS G KC=0.290 94$LC=0.1041 16$MC=0.0258 7
193PTS G NC=0.00632 16$OC=0.001046 16$PC=3.1E-5 12
193PT CG Photon observed by 1970Pl02; 1968Sv01 unassigned
193PT2CG line with ECE=137.02 10 (ICE=1.2 3 % of the 268 CEK) attributed
193PT3CG to corresponding K line.
193PT CG M,MR$ EKC=ICE(K)/RI=0.28 10. ICE(K)=3.2 {I8} (see note above)*0.29=0.93
193PT2CG 23.
193PT G 281.76 10 5.4 9 M1 0.362
193PTS G KC=0.299 5$LC=0.0488 7$MC=0.01128 16
193PTS G NC=0.00279 4$OC=0.000502 7$PC=3.40E-5 5
193PT CG M$ From EKC=ICE(K)/RI=0.35 8. ICE(K)=6.6 {I10}*0.29=1.9 3. Also
193PT2CG K/L12 GT 1.9 (1968Sv01)
193PT G 344.1 9 0.9 4 A
193PT G 369.9 2 2.1 5 A
193PT G 383.4 4 0.8 4 A
193PT G 387.60 9 13.1 16E2 0.0476
193PTS G KC=0.0328 5$LC=0.01127 16$MC=0.00278 4
193PTS G NC=0.000683 10$OC=0.0001132 16$PC=3.39E-6 5
193PT CG M$ From EKC=ICE(K)/RI=0.053 9. ICE(K)=2.4 {I3}*0.29=0.70 9. Also
193PT2CG K/L3=14 7 (1968Sv01)
193PT G 401.3 3 3.9 9 A
193PT G 421.3 4 1.8 9 A
193PT G 431.4 3 1.0 3 A
193PT G 445 1 0.4 4 A
193PT G 459.2 2 0.5 3
193PT CG Photon observed by 1970Pl02; 1968Sv01 unassigned
193PT2CG line with ECE=380.77 15 (ICE=0.25 5 % of 268 CEK) attributed to
193PT3CG corresponding K line.
193PT G 464.1 5 1.0 5 A
193PT G 478.40 15 4.1 10
193PT CG $ EKC=ICE(K)/RI=0.39 14. ICE(K)=0.55 {I13}*0.29=1.6 4. K/L12=2.3 8;
193PT2CG K/L12=4.18; M1: KC=0.0750, K/L12=6.23 (1968Sv01).
193PT3CG E2: KC=0.02, M1: KC=0.072 (Bricc)
193PT G 483 1 0.5 3 A
193PT G 505.66 20 3.3 6
193PT CG M K/L12<6, L12/L3>1.5 (1968Sv01)
193PT G 529.7 4 1.3 3 A
193PT G 577.60 20 1.50 16(M1) 0.0535
193PTS G KC=0.0443 7$LC=0.00709 10$MC=0.001632 23
193PTS G NC=0.000404 6$OC=7.27E-5 11$PC=4.95E-6 7
193PT CG M$ EKC=ICE(K)/RI=0.042 12. ICE(K)=0.22 {I6}*0.29=0.064 17.
193PT G 628.55 25 2.3 3 (M1) 0.0429
193PTS G KC=0.0355 5$LC=0.00568 8$MC=0.001307 19
193PTS G NC=0.000323 5$OC=5.83E-5 9$PC=3.97E-6 6
193PT CG $ EKC=ICE(K)/RI=0.039 8. ICE(K)=0.31 {I5}*0.29=0.090 15. Also
193PT2CG K/L=5.2 27; K/L=6.25 (1968Sv01)
193PT G 685 1 0.74 21 A
193PT G 698 1 2.2 5 A
193PT G 730 1 0.7 2 A
193PT G 743 1 1.2 4 A
193PT G 845 2 2.4 8 A
193PT G 1124 4 1.6 8 A
193PT L 0.0 1/2- 50 Y 6
193PT CL T From Adopted Levels
193PT E 15 6 7.06 18 15 6 A
193PTS E CK=0.8011 2$CL=0.1504 2$CM+=0.04845 5
193PT L 1.642 2 3/2- 9.7 NS 3
193PT CL T$(CE)(CE)(T) with metallic gold source; T is 4%
193PT2CL longer when measured with a gold chloride source (1968Ma51).
193PT3CL See 1977Do07 for a discussion of this and related phenomena.
193PT E A
193PT G 1.642 2 M1 3116
193PT CG M N1/N2=5.5 15, N2/N3 GT 3, N1/O1=1.5 5 (1968Sv01)
193PT CG CC From ^BRICC. Others: 12000 (1991Ba63), 4010 (1978Ro21).
193PT L 14.276 8 5/2- 2.52 NS 5
193PT CL T (CE)(CE)(T) (1968Ma51). Other value: 2.2 NS 8 (1957Ew34).
193PT E 20 4 6.92 9 20 4
193PTS E CK=0.8009 2$CL=0.1506 2$CM+=0.04853 6
193PT G 12.634 8 8.9 11 M1+E2 0.015 +3-4 142 8
193PTS G LC=14.0 45$MC=99 3
193PTS G NC=24.4 6$OC=4.35 10$PC=0.281 4
193PT CG RI$Deduced from ICE(M1)=2550 {I330} (1968Sv01)*0.29=740 95 and
193PT2CG M1C=83.5 12 (Bricc)
193PT CG M,MR From M1/M2=7.0 10, M2/M3=3.8 10 (1968Sv01)
193PT L 114.158 8 3/2-
193PT E 12.4 18 7.03 7 12.4 18
193PTS E CK=0.7985 3$CL=0.15228 17$CM+=0.04917 7
193PT G 99.88 4 5.0 8 M1+E2 0.87 3 5.93
193PTS G KC=3.44 10$LC=1.88 5$MC=0.473 13
193PTS G NC=0.116 3$OC=0.0187 5$PC=0.000399 11
193PT CG M,MR From K/L=1.1 4, L1/L2=0.68 4, L1/L3=0.86 7 (1968Sv01)
193PT CG RI$From ICE(K)/KC(Bricc). ICE(K)=59 {I9} (1968Sv01)*0.29=17.1 2.6.
193PT G 112.515 10 80 5 M1+E2 0.36 2 4.56
193PTS G KC=3.53 7$LC=0.784 18$MC=0.187 5
193PTS G NC=0.0461 11$OC=0.00797 17$PC=0.000406 8
193PT CG M,MR From K/L12=3.9 5, L1/L2=3.34 15, L1/M1=3.6 7 (1968Sv01)
193PT CG RI$From ICE(K)/KC(Bricc). ICE(K)=980 {I60} (1968Sv01)*0.29=284 17.
193PT G 114.155 13 27 5 M1+E2 0.48 4 4.24 8
193PTS G KC=3.16 10$LC=0.82 3$MC=0.199 8
193PTS G NC=0.0491 20$OC=0.0083 3$PC=0.000363 11
193PT CG M$ From EKC=ICE(K)/RI=3.3 7. ICE(K)=312 {I20}*0.29=90 6. Also
193PT2CG K/(L1+L3)=5.1 10, L1/L3=3.4 6, M1/M2=2.1 5
193PT2CG (1968Sv01).
193PT L 121.29 3 1/2-,3/2-,5/2-
193PT E 0.6 3 8.34 22 0.6 3
193PTS E CK=0.7984 3$CL=0.15241 18$CM+=0.04923 7
193PT G 119.64 3 6.3 15M1 3.99
193PTS G KC=3.28 5$LC=0.544 8$MC=0.1259 18
193PTS G NC=0.0312 5$OC=0.00560 8$PC=0.000377 6
193PT CG M$ From EKC=ICE(K)/RI=2.7 7. ICE(K)=57.9 {I45}*0.29=16.8 13. Also
193PT2CG K/L1=5.6 25, L1/L2 GT 3.1, L1/M1=4.9 21 (1968Sv01).
193PT L 187.81 2 3/2-
193PT E 26 4 6.64 7 26 4
193PTS E CK=0.7965 3$CL=0.15377 21$CM+=0.04975 8
193PT G 73.62 3 4.0 4(M1) 2.88
193PTS G LC=2.22 4$MC=0.513 8
193PTS G NC=0.1271 18$OC=0.0228 4$PC=0.001538 22
193PT CG RI$ From ICE(L1)=27.9 {I25} (1968Sv01)*0.29=8.1 7 and L1C=2.0 (Bricc).
193PT CG M From L1/L2=8.7 15 (1968Sv01)
193PT G 173.52 5 100 M1+E2 0.355 21 1.300 21
193PTS G KC=1.043 19$LC=0.197 3$MC=0.0462 7
193PTS G NC=0.01142 18$OC=0.00201 3$PC=0.0001188 21
193PT CG M,MR From K/L=5.2 6, L1/L2=5.0 4, L1/L3=14.4 20 (1968Sv01).
193PT G 186.17 3 347 20M1+E2 0.32 4 1.078 22
193PTS G KC=0.871 21$LC=0.1584 24$MC=0.0370 6
193PTS G NC=0.00915 15$OC=0.001623 24$PC=9.92E-5 24
193PT CG M,MR From EKC=0.97 9, K/L12=5.2 6, L1/L2=5.9 5, L1/L3 GT 11
193PT2CG (1968Sv01).
193PT G 187.83 4 31 12(M1+E2) 0.78 34
193PTS G KC=0.56 36$LC=0.168 18$MC=0.041 7
193PTS G NC=0.0101 15$OC=0.00170 15$PC=6.2E-5 43
193PT CG M From EKC=ICE(K)/RI=0.30 13. ICE(K)=33 {I6} (1968Sv01) *0.29.
193PT L 232.16 2 (5/2)-
193PT E 3.8 7 7.43 8 3.8 7
193PTS E CK=0.7950 4$CL=0.15481 23$CM+=0.05015 9
193PT G 44.33 3 2.2 2 M1 12.76
193PTS G LC=9.82 14$MC=2.27 4
193PTS G NC=0.562 8$OC=0.1011 15$PC=0.00680 10
193PT CG M From L1/L2=10.5 10, L1/L3 GT 25 (1968Sv01).
193PT CG RI$ From ICE(L1)=69 {I6} (1968Sv01)*0.29=20 2 and L1C=8.83 13 (Bricc).
193PT G 117.99 2 19 3 M1 4.15
193PTS G KC=3.41 5$LC=0.567 8$MC=0.1310 19
193PTS G NC=0.0324 5$OC=0.00583 9$PC=0.000393 6
193PT CG M$ From EKC=ICE(K)/RI=3.1 5. ICE(K)=205 {I15}*0.29=59 4. Also
193PT2CG K/L12=5.2 11, L1/L2=9.7 15 (1968Sv01).
193PT G 230.50 7 18.5 20(E2) 0.224
193PTS G KC=0.1187 17$LC=0.0793 12$MC=0.0201 3
193PTS G NC=0.00492 7$OC=0.000790 11$PC=1.153E-5 17
193PT CG M$ From EKC=ICE(K)/RI=0.11 2. ICE(K)=7.1 {I7}*0.29=2.1 2. Also
193PT2CG K/M=7.1 20 (1968Sv01).
193PT G 232.18 6 18.5 20E2 0.219
193PTS G KC=0.1165 17$LC=0.0770 11$MC=0.0195 3
193PTS G NC=0.00478 7$OC=0.000767 11$PC=1.133E-5 16
193PT CG M$ From EKC=ICE(K)/RI=0.15 3. ICE(K)=9.5 {I11}*0.29=2.8 3. Also
193PT2CG K/L23=1.5 5, L2/L3=2.4 11, L1/L3<1.5 (1968Sv01).
193PT L 269.83 2 (3/2)-
193PT E 15.7 20 6.77 6 15.7 20
193PTS E CK=0.7937 4$CL=0.15579 25$CM+=0.05053 10
193PT G 37.65 3 0.80 8 M1+E2 0.042 +12-1321.4 6
193PTS G LC=16.5 5$MC=3.83 12
193PTS G NC=0.95 3$OC=0.169 5$PC=0.01100 16
193PT CG RI$From ICE(L)/LC. Where ICE(L)=L1+L2+L3=45.5 {I41}*0.29=13.2 12.
193PT CG M,MR From L1/L2=8.4 8, L1/L3 GT 27
193PT G 155.68 4 12 3 M1 1.89
193PTS G KC=1.553 22$LC=0.257 4$MC=0.0593 9
193PTS G NC=0.01468 21$OC=0.00264 4$PC=0.0001780 25
193PT CG M$ From EKC=ICE(K)/RI=1.4 3. ICE(K)=58.5 {I40}*0.29=17.0 12. Also
193PT2CG K/L12=5.3 9, L1/L2=10.9 20, L1/L3 GT 5 (1968Sv01).
193PT G 255.57 4 231 20M1+E2 0.41 7 0.428 15
193PTS G KC=0.347 14$LC=0.0623 10$MC=0.01454 22
193PTS G NC=0.00359 6$OC=0.000638 11$PC=3.93E-5 17
193PT CG M,MR$ From EKC=ICE(K)/RI=0.35 4 (ICE(K)=283 {I15}*0.29=82 4). Also
193PT2CG Also K/L=4.8 2, L1/L2=6.6 16, L1/L3=20 6 (1968Sv01).
193PT G 268.22 5 134 11M1+E2 1.3 3 0.24 4
193PTS G KC=0.18 4$LC=0.0481 18$MC=0.0117 3
193PTS G NC=0.00287 8$OC=0.000486 20$PC=1.9E-5 4
193PT CG M,MR$ From EKC=ICE(K)/RI=0.216 10 (ICE(K)=100*0.29=29). Also
193PT2CG K/L=4.8 22, L1/L2=1.5 7, L1/L3=2.5 13 (1968Sv01)
193PT G 269.84 5 29 6 E2 0.1358
193PTS G KC=0.0796 12$LC=0.0424 6$MC=0.01068 15
193PTS G NC=0.00262 4$OC=0.000423 6$PC=7.91E-6 11
193PT CG M$ From EKC=ICE(K)/RI=0.093 22 (ICE(K)=9.3 {I9}*0.29=2.7 3). Also
193PT2CG K/L3=6.2 14 (1968Sv01)
193PT L 439.05 3 (3/2)-
193PT E 3.7 5 7.17 6 3.7 5
193PTS E CK=0.7853 6$CL=0.1618 5$CM+=0.05287 17
193PT G 206.85 6 3.1 7 (M1) 0.850
193PTS G KC=0.700 10$LC=0.1152 17$MC=0.0266 4
193PTS G NC=0.00659 10$OC=0.001185 17$PC=7.99E-5 12
193PT CG M$ From EKC=ICE(K)/RI=0.61 15 (ICE(K)=6.4 {I8} (1968Sv01)*0.29=1.9 2).
193PT G 251.4 5 9 4 [M1] 0.495 A
193PTS G KC=0.408 7$LC=0.0669 10$MC=0.01545 24
193PTS G NC=0.00382 6$OC=0.000688 11$PC=4.65E-5 7
193PT G 317.73 8.1 17(M1) 0.261
193PTS G KC=0.216 3$LC=0.0351 5$MC=0.00811 12
193PTS G NC=0.00201 3$OC=0.000361 5$PC=2.44E-5 4
193PT CG M$ From EKC=ICE(K)/RI=0.23 6 (ICE(K)=6.4 {I10} (1968Sv01)*0.29=1.9 3).
193PT G 324.89 5 12.0 21M1 0.246
193PTS G KC=0.203 3$LC=0.0331 5$MC=0.00763 11
193PTS G NC=0.00189 3$OC=0.000340 5$PC=2.30E-5 4
193PT CG M$ From EKC=ICE(K)/RI=0.29 9 (ICE(K)=12 {I3} (1968Sv01)*0.29=3.5 9).
193PT2CG Also K/L12=7.5 38.
193PT G 424.76 12 5.2 10(M1) 0.1199
193PTS G KC=0.0991 14$LC=0.01602 23$MC=0.00369 6
193PTS G NC=0.000914 13$OC=0.0001646 23$PC=1.117E-5 16
193PT CG M$ From EKC=ICE(K)/RI=0.100 22 (ICE(K)=1.8 {I2}
193PT2CG (1968Sv01)*0.29=0.52 6).
193PT G 437.41 8 17 3 M1 0.1109
193PTS G KC=0.0917 13$LC=0.01481 21$MC=0.00342 5
193PTS G NC=0.000845 12$OC=0.0001522 22$PC=1.033E-5 15
193PT CG M$ From EKC=ICE(K)/RI=0.065 13 (ICE(K)=3.9 {I4} (1968Sv01)*0.29=1.1 1).
193PT G 439.04 8 66 5 M1 0.1099
193PTS G KC=0.0908 13$LC=0.01467 21$MC=0.00338 5
193PTS G NC=0.000837 12$OC=0.0001507 22$PC=1.023E-5 15
193PT CG M$ From EKC=ICE(K)/RI=0.107 9 (ICE(K)=24.5 {I10}
193PT2CG (1968Sv01)*0.29=7.1 3). Also K/L12=5.7 6, K/L3 GT 29 (1968Sv01).
193PT L 491.24 2 (5/2)-
193PT E 2.7 4 7.22 7 2.7 4
193PTS E CK=0.7816 8$CL=0.1645 6$CM+=0.05391 21
193PT G 52.18 2 0.59 9 M1 7.90 5.7 7
193PTS G L/T=0.683 7$M/T=0.158 3
193PTS G N/T=0.0391 8$O/T=0.00703 14$P/T=0.000473 9
193PTS G LC=6.08 9$MC=1.406 20
193PTS G NC=0.348 5$OC=0.0626 9$PC=0.00421 6
193PT CG RI$From ICE(L1)/L1C. Where ICE(L1)=11.0 16 (1968Sv01)*0.29=3.2 5 and
193PT3CG L1C=5.47 8.
193PT CG M From L1/L2=8 4, L1/L3 GT 10 (1968Sv01).
193PT G 221.40 6 2.7 6 M1+E2 1.7 +12-5 0.37 7
193PTS G KC=0.247 69$LC=0.0940 14$MC=0.0233 5
193PTS G NC=0.00572 10$OC=0.000943 16$PC=2.64E-5 82
193PT CG M,MR$ From EKC=ICE(K)/RI=0.37 10 (ICE(K)=3.5 {I5}*0.29=1.01 14). Also
193PT2CG L1/L2 GT 1, L1/L3=1.25 75 (1968Sv01).
193PT G 259.05 6 7 3M1 0.456
193PTS G KC=0.376 6$LC=0.0616 9$MC=0.01422 20
193PTS G NC=0.00352 5$OC=0.000633 9$PC=4.28E-5 6
193PT CG M$ From EKC=ICE(K)/RI=0.36 16 (ICE(K)=8.8 {I10}*0.29=2.55 29). Also
193PT2CG K/L1=11 6, L1/L2>1 (1968Sv01).
193PT G 303.41 7 9.3 26(M1+E2) 0.20 10
193PTS G KC=0.152 93$LC=0.033 7$MC=0.0080 13
193PTS G NC=0.0020 3$OC=0.00034 7$PC=1.7E-5 11
193PT CG M$ From EKC=ICE(K)/RI=0.11 3 (ICE(K)=3.4 {I6} (1968Sv01)*0.29=0.99 17).
193PT G 377.10 3 17.5 23M1+E2 1.2 3 0.098 17
193PTS G KC=0.076 15$LC=0.0164 14$MC=0.0039 3
193PTS G NC=0.00096 8$OC=0.000166 15$PC=8.4E-6 17
193PT CG M,MR$From EKC=ICE(K)/RI=0.112 20 (ICE(K)=6.8 {I8}*0.29=1.97 23). Also
193PT2CG K/L=3.8 11, L1/L2=2.4 7, L1/L3=11 4 (1968Sv01).
193PT G 476.98 9 16 3 (E2) 0.0278
193PTS G KC=0.0203 3$LC=0.00572 8$MC=0.001393 20
193PTS G NC=0.000342 5$OC=5.76E-5 8$PC=2.13E-6 3
193PT CG M$ From EKC=ICE(K)/RI=0.085 20 (ICE(K)=4.7 {I7}*0.29=1.36 20). Also
193PT2CG K/L=4.4 15, L12/L3=7 4 (1968Sv01). From L12/L3 ratio, the G is mainly
193PT3CG E2; too high EKC seems to indicate that perhaps the IG(477.0) and
193PT4CG IG(478.4) were not correctly resolved.
193PT G 489.61 12 8.0 16(M1) 0.0824
193PTS G KC=0.0681 10$LC=0.01097 16$MC=0.00253 4
193PTS G NC=0.000625 9$OC=0.0001126 16$PC=7.66E-6 11
193PT CG M$ From EKC=ICE(K)/RI=0.072 23 (ICE(K)=2.0 {I5}*0.29=0.58 15). Also
193PT2CG K/L12=5.6 25, L12/L3 GT 0.7 (1968Sv01).
193PT G 491.28 12 24 4 [E2] 0.0258
193PTS G KC=0.0190 3$LC=0.00522 8$MC=0.001268 18
193PTS G NC=0.000312 5$OC=5.26E-5 8$PC=2.00E-6 3
193PT CG M$ From EKC=ICE(K)/RI=0.027 8 (ICE(K)=2.3 {I6}*0.29=0.67 17). Also
193PT2CG K/L12 GT 4 (1968Sv01).
193PT L 522.53 7 (3/2-,5/2-)
193PT E 0.51 10 7.89 9 0.51 10
193PTS E CK=0.7789 9$CL=0.1664 6$CM+=0.05464 23
193PT G 290.33 10 3.0 12(M1) 0.334
193PTS G KC=0.275 4$LC=0.0450 7$MC=0.01038 15
193PTS G NC=0.00257 4$OC=0.000463 7$PC=3.13E-5 5
193PT CG M$From EKC=ICE(K)/RI=0.44 19 (ICE(K)=4.6 {I8} (1968Sv01)*0.29=1.33 23).
193PT G 334.7 3 2.2 13[M1] 0.227 A
193PTS G KC=0.187 3$LC=0.0305 5$MC=0.00704 10
193PTS G NC=0.001741 25$OC=0.000313 5$PC=2.12E-5 3
193PT G 408.4 2 4.5 9 (M1,E2) 0.087 46
193PTS G KC=0.069 41$LC=0.0136 42$MC=0.00321 90
193PTS G NC=7.9E-4 23$OC=1.39E-4 44$PC=7.7E-6 47
193PT CG M$ From EKC=ICE(K)/RI=0.08 4 (ICE(K)=1.3 {I5}*0.29=0.38 15). Also
193PT2CG K/L12=4.5 19 (1968Sv01).
193PT G 508.26 20 1.9 5 (M1+E2) 0.049 26
193PTS G KC=0.040 22$LC=0.0073 27$MC=0.00171 58
193PTS G NC=4.2E-4 15$OC=7.5E-5 28$PC=4.4E-6 26
193PT CG M$From EKC=ICE(K)/RI=0.040 14 (ICE(K)=0.27 {I6}
193PT2CG (1968Sv01)*0.29=0.078 17).
193PT G 520.97 25 2.7 6 (E2) 0.0224
193PTS G KC=0.01669 24$LC=0.00436 7$MC=0.001057 15
193PTS G NC=0.000260 4$OC=4.40E-5 7$PC=1.760E-6 25
193PT CG M$From EKC=ICE(K)/RI=0.022 7 (ICE(K)=0.21 {I5}
193PT2CG (1968Sv01)*0.29=0.061 15).
193PT G 522.66 25 2.5 5 (E2) 0.0222
193PTS G KC=0.01657 24$LC=0.00432 6$MC=0.001046 15
193PTS G NC=0.000257 4$OC=4.36E-5 7$PC=1.747E-6 25
193PT CG M$From EKC=ICE(K)/RI=0.025 8 (ICE(K)=0.22 {I5}
193PT2CG (1968Sv01)*0.29=0.064 15).