191PT 191AU EC DECAY (3.18 H) 1976PI06,1967JO06 24NDS 202403
191PT H TYP=FUL$AUT=M.S. Basunia$CIT=NDS 195, 368 (2024)$CUT=1-Dec-2023$
191PT c Others: 1954Gi04, 1955Sm42, 1957Hu89, 1961An03, 1962Di01, 1962Ma18,
191PT2c 1973ViZJ, 1975ViZK, 1976Pi06, 1976ViZM.
191PT c 1976Pi06: {+191}Au was produced by the {+191}Ir(|a,4n) reaction, E=50
191PT2c MeV, 95% enriched target. Ge(Li) (FWHM 2.0 keV for 1332 keV |g) and a
191PT3c low energy photon Ge(Li) (FWHM 650 eV for 122 keV |g). Measured E|g,
191PT4c I|g, |g|g-coin. Deduced levels, |a(K) (using Ice data of 1967Jo06 and
191PT5c normalizing to the I|g(253.95) assuming E2 character), |g-ray
191PT6c multipolarity.
191PT c 1967Jo06: The gold activity was produced by (p,xn) reactions, E=70 MeV,
191PT2c with natural targets; chemical separation was done, double-focusing
191PT3c spectrometer, proportional counter, 10 surface barrier semiconductor
191PT4c detectors; Measured ce, (ce)(ce) coin; Determined internal conversion
191PT5c coefficients, |g-ray multipolarity. Other ICC measurements: 1954Gi04,
191PT6c 1955Sm42, 1957Hu89, 1961An03, 1962Di01, 1962Ma18.
191PT cG ce: From 1967Jo06. For subshell data with an upper limit
191PT2cG are noted for coincidence with other lines.
191PT cG E From 1976Pi06, unless otherwise specified; energies
191PT2cG from 1967Jo06 are compatible with 1976Pi06 values, and were
191PT3cG adopted when more precise.
191PT cG E(A,D) From 1967Jo06.
191PT cG E(D) Not observed by 1976Pi06.
191PT cG E(E) Not observed by 1967Jo06.
191PT cG RI From 1976Pi06, unless otherwise specified. I|g from 1976Pi06
191PT4cG and those deduced from ce data of 1967Jo06 are discrepant below 130 keV
191PT5cG sometimes. The intensity balance at the
191PT6cG 149 keV (J|p=13/2+) level using electron intensities of 1967Jo06 for
191PT7cG 24.4|g and 48.4|g shows no |e feeding to this level, supporting the
191PT8cG correctness of Ice low-energy transition measurements. For energies
191PT9cG above 130 keV, the I|g from 1976Pi06 agrees with those deduced from
191PTacG the ce data of 1967Jo06.
191PT cG RI(X) Deduced value using Ice data in 1967Jo06.
191PT cG M Multipolarities are from shell and subshell ratios whenever
191PT2cG possible; when this procedure did not have sufficient precision,
191PT3cG conversion coefficients were calculated by evaluator using I|g from
191PT4cG 1976Pi06 and Ice from 1967Jo06.
191PT cG MR Deduced using the ce data of 1967Jo06. |a=ce/I|g and
191PT2cG subshell ratios were used for BriccMixing code - as listed in the
191PT3cG comments.
191PT cE IE from |g-ray intensity balance
191PT2cE and assuming 12% |e feeding for both g.s. (J|p=3/2-) and 9.55
191PT3cE (J|p=(5/2)-) levels (resultant log {Ift}=6.9), as for the
191PT4cE 14.3 (J|p=5/2-) state populated in {+193}Au |e decay (2017Ba21).
191PT cL E From a least-squares fit to adopted |g-ray energies,
191PT2cL excluding 206.39 and 451.85 doublets.
191PT cL J From Adopted Levels.
191PT DG CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
191AU P 0.0 3/2+ 3.18 H 8 1900 6
191PT N 0.014 AP 1.00
191PT PN 3
191PT cN NR$Calculated by assuming 12% |e feeding for both the g.s. and 9.56
191PT2cN levels (resultant log| {Ift}=6.9, as for {+193}Au |e decay
191PT3cN (2017Ba21)), and I(|g+ce)(g.s. + 9.55)|?76%.
191PT G 56.78 7 19 3 E
191PT G 122.71 5 3 1 E
191PT G 132.00 5 21 2 E
191PT G 133.70 5 16 2 E
191PT G 142.51 5 14 1 E
191PT G 202.43 4 6 1 E
191PT G 347.54 5 32 3 E
191PT G 359.85 5 10 2 E
191PT cG The assignment of this |g to the decay of 613.1 level by
191PT2cG 1976Pi06 is in disagreement with the level energy difference,
191PT3cG 359.19 {I5} keV.
191PT G 427.33 6 13 1
191PT cG E Other: 427.31 {I15} (1967Jo06).
191PT cG ce(K):ce(L1) exp=0.95 {I12}:<0.14
191PT G 432.4210 9 1 E
191PT G 450.6911 9 2
191PT cG E Other: 450.26 {I15} (1967Jo06).
191PT cG ce(K):ce(L12) exp=1.92 {I25}:0.22 {I4} (1967Jo06).
191PT G 535.2512 8 2
191PT cG E Other: 535.07 {I15} (1967Jo06).
191PT cG ce(K):ce(L12) exp=0.39 {I4}:0.16 {I3} (1967Jo06).
191PT G 565.91 18 A
191PT cG ce(K)=0.18 {I3} (1967Jo06)
191PT G 568.2910 10 2
191PT cG E Other: 568.00 {I17} (1967Jo06)
191PT cG ce(K):ce(L12) exp= 0.30 {I3}: 0.06 {I1} (1967Jo06)
191PT G 577.26 20 A
191PT cG ce(K)=0.32 {I3} (1967Jo06)
191PT G 591.73 20 A
191PT cG ce(K):ce(L12) exp= 0.44 {I9}: 0.10 {I3} (1967Jo06)
191PT G 595.90 10 20 2E2 0.0163523
191PTS G KC=0.01249 17$LC=0.00295 4$MC=0.000708 10
191PTS G NC=0.0001743 24$OC=2.98E-5 4$PC=1.321E-6 19
191PT cG E Other: 595.57 {I20} (1967Jo06)
191PT cG M from ce(K):ce(L12):ce(L3):ce(M) exp=0.67 {I7}:0.16 {I4}:
191PT2cG <0.4:0.08 {I2} (1967Jo06).
191PT G 596.60 20 A
191PT cG ce(K) exp= 0.35 {I10} (1967Jo06)
191PT G 608.3620 D
191PT cG ce(K)=0.18 {I2} (1967Jo06).
191PT G 616.26 10 22 3E2+M1 2.2 3 0.0203 14
191PTS G KC=0.0160 12$LC=0.00325 16$MC=0.000769 35
191PTS G NC=0.000190 9$OC=3.30E-5 16$PC=1.74E-6 14
191PT cG E Other: 616.35 {I20} (1967Jo06)
191PT cG M,MR from |a(K)exp=0.016 {I3}. ce(K):ce(L12)
191PT2cG exp= 0.35 {I5}:<0.23 (coin with other lines) (1967Jo06).
191PT G 634.5925 D
191PT cG ce(K)=0.084 {I15} (1967Jo06).
191PT G 669.59 15 4 1(M1) 0.0364 5
191PTS G KC=0.0302 4$LC=0.00481 7$MC=0.001108 16
191PTS G NC=0.000274 4$OC=4.94E-5 7$PC=3.37E-6 5
191PT cG E Other: 669.76 {I25} (1967Jo06)
191PT cG M From |a(K)exp=0.04 {I2}. ce(K):ce(L12)
191PT2cG exp= 0.16 {I4}:<0.31 (coin with other lines) (1967Jo06).
191PT G 680.7415 4 1
191PT cG E Other: 680.60 {I25} (1967Jo06).
191PT G 734.3713 8 1
191PT cG E Weighted average of 734.51 {I16} (1976Pi06) and 134.25 {I15}
191PT2cG (1967Jo06).
191PT cG |a(K)exp < 0.04. ce(K):ce(L12) exp=<0.31 (coin with other
191PT2cG lines):<0.12 (mix of lines of other isotope) (1967Jo06).
191PT G 751.6225 D
191PT cG ce(K)=0.114 {I25} (1967Jo06).
191PT G 829.8820 4 1 E
191PT G 839.6435 D
191PT cG ce(K)=0.054 {I20} (1967Jo06).
191PT G 854.2820 4 1 E
191PT G 870.54 22 6 1
191PT cG E Other: 870.20 {I30} (1967Jo06)
191PT cG ce(K)=0.097 {I15} (1967Jo06)
191PT G 878.5625 D
191PT cG ce(K):ce(L12):ce(M) exp=0.35 {I7} (coin with lines of
191PT2cG other isotope):<0.11 (mix of lines from other isotopes):<0.04 (mix
191PT3cG with lines from other isotopes) (1967Jo06).
191PT G 924.0430 D
191PT cG ce(K):ce(L12) exp=0.16 {I2}:0.020 {I7}.
191PT G 929.1630 D
191PT cG ce(K):ce(L12) exp=0.084 {I20}:0.030 {I10}.
191PT G 971.3235 D
191PT cG ce(K):ce(L12) exp=0.114 {I20}:<0.1 (coin with lines of
191PT2cG other isotopes) (1967Jo06).
191PT G 981.7135 D
191PT G 985.3635 D
191PT G 1006.3 3 4 1 E
191PT G 1028.0 3 7 1 E
191PT G 1086.9 4 4 1 E
191PT G 1096.8 3 7 1 E
191PT G 1101.9 4 8 1(M1) 0.0102514 A
191PTS G KC=0.00851 12$LC=0.001335 19$MC=0.000307 4
191PTS G NC=7.59E-5 11$OC=1.369E-5 19$PC=9.41E-7 13$IPC=3.00E-7 7
191PT cG M from |a(K)exp=0.014 {I5}. ce(K)=0.108 {I20} (1967Jo06).
191PT G 1161.2 3 11 2 E
191PT G 1259.6 3 17 2 E
191PT G 1302.3 4 9 2 E
191PT L 0.0 3/2- 2.83 D 2
191PT cL T From Adopted Levels.
191PT E 0.095 12 6.9 12.
191PTS E EAV=412.3 27$CK=0.8038 2$CL=0.14272 6$CM+=0.04558 2
191PT cE TI calculated by assuming log| {Ift}=6.9 (as for {+193}Au |e
191PT2cE decay to 14 keV 5/2- level)
191PT cE E|b+=808 keV {I50} (1976ViZM). Others: 1973ViZJ, 1975ViZK.
191PT L 9.554 16 (5/2)-
191PT E 0.091 12 6.9 12.
191PTS E EAV=408.1 27$CK=0.8040 2$CL=0.14280 6$CM+=0.04561 2
191PT cE TI calculated by assuming log| {Ift}=6.9 (as for {+193}Au |e
191PTxcE decay)
191PT G 9.56 S
191PT cG E deduced from E|g's (cascade and crossover). Placed via
191PT2cG |g|g-coin about initial states
191PT L 30.399 91/2-,3/2-
191PT E 0.01 LE 2 LE 7.7 GE 2 LE
191PTS E EAV=399.0 27$CK=0.8044 1$CL=0.14299 6$CM+=0.04568 2
191PT cE TI I|e|?5% given by 1976Pi06 is not consistent with
191PT2cE experimental I|g=269 {I40} and theoretical |a=40.4 for 30.4|g
191PT G 30.40 1 15.0 11 M1+E2 0.034 17 40.4 20 A
191PT2 G FLAG=X
191PTS G LC=31.0 15$MC=7.2 4
191PTS G NC=1.78 9$OC=0.319 14$PC=0.02070 29
191PT cG E Other: 30.27 {I6} (1976Pi06).
191PT cG RI Other: 269 {I40} (1976Pi06).
191PT cG M,MR from ce(L1):ce(L2):ce(L3):ce(M1):ce(M2):ce(N1) exp=403
191PT2cG {I40}:50 {I11}:14 {I5}: 88 {I7}:10 {I3}:28 {I5} (1967Jo06).
191PT3cG L1/L2=8.1 {I19}, L1/L3=29 {I11}, M1/M2=8.8 {I27}
191PT L 100.668 20 (9/2)- 1 US GT
191PT cL T From Adopted Levels.
191PT G 91.11 2 99 7 E2 7.23 10 A
191PTS G KC=0.754 11$LC=4.86 7$MC=1.259 18
191PTS G NC=0.307 4$OC=0.0477 7$PC=0.0001103 15
191PT cG I|g=85 {I16} from ce data, considering ce(M2)<230 as 115
191PT2cG {I115}.
191PT cG M from ce(L1):ce(L2):ce(L3):ce(M2):ce(M3):ce(O) exp=9.0
191PT2cG {I15}:210 {I20}:185 {I20}: <230:54 {I6}:4.0 {I14} (1967Jo06); discarded
191PT3cG ce(K) exp=17 {I4}, outlier in ce data fit, and ce(N2) exp=28 {I5}.
191PT L 149.040 22 (13/2)+ 104 US 4
191PT cL T From Adopted Levels.
191PT G 48.37 1 0.96 5 M2 455 6 D
191PT2 G FLAG=X
191PTS G LC=339 5$MC=89.2 13
191PTS G NC=22.43 31$OC=3.88 5$PC=0.2032 29
191PT cG M from ce(L1):ce(L2):ce(L3):ce(M1):ce(M2):ce(M3):ce(N1):ce(N3):
191PT2cG ce(O1) exp=205 {I15}:20 {I5}:95 {I15}:52 {I5}:5.3 {I15}:23 {I4}:
191PT3cG 18 {I3}: 10 {I4}: 4.0 {I15} (1967Jo06).
191PT L 158.81 3 1/2-,3/2-,5/2-
191PT E 0.008 AP 2 AP 7.6 AP 2 AP
191PTS E EAV=342.8 27$CK=0.8061$CL=0.14406 5$CM+=0.04606 2
191PT G 158.86 3 87 6M1+E2 0.59 22 1.53 14 C
191PTS G KC=1.17 16$LC=0.279 20$MC=0.067 6
191PTS G NC=0.0165 14$OC=0.00283 18$PC=0.000132 19
191PT cG E Weighted average of 158.89 {I4} (1976Pi06) and 158.83 {I4}
191PT2cG (1967Jo06).
191PT cG M,MR from ce(K):ce(L1):ce(L2):ce(M):ce(N) exp=80 {I20}:21
191PT2cG {I2}:6.9 {I14} (coin with lines of other isotope):9.7 {I15}: 1.4 {I2}
191PT3cG (1967Jo06). |a(K)=0.92 {I24}, L1/L2=3.0 {I7}, |a(M)=0.11 {I2},
191PT4cG |a(N)=0.016 {I3}.
191PT L 166.518 13(3/2)-
191PT E 0.03 AP 7 AP 7.1 AP 7 AP
191PTS E EAV=339.4 27$CK=0.8062$CL=0.14413 5$CM+=0.04608 2
191PT G 136.09 2 40 4M1+E2 0.42 8 2.56 8 AC
191PTS G KC=2.00 10$LC=0.435 20$MC=0.104 6
191PTS G NC=0.0255 14$OC=0.00442 19$PC=0.000228 11
191PT cG E Other: : 136.16 {I4} (1976Pi06).
191PT cG M,MR from ce(K):ce(L1):ce(L2):ce(L3):ce(M):ce(N) exp=66
191PT2cG {I5}:10.2 {I10}: 3.1 {I4}: 1.4 {I3}:5.8 {I8}:1.8 {I4} (1967Jo06).
191PT3cG |a(K)=1.65 {I21}, L1/L2=3.3 {I5}, L1/L3=7.3 {I17}.
191PT G 156.97 5 29 4[M1,E2] 1.3 5 C
191PTS G KC=0.9 6$LC=0.33 8$MC=0.081 23
191PTS G NC=0.020 6$OC=0.0033 7$PC=1.0E-4 7
191PT G 166.50 2 19514M1+E2 0.53 8 1.37 5 AC
191PTS G KC=1.06 5$LC=0.234 6$MC=0.0559 18
191PTS G NC=0.0138 4$OC=0.00238 6$PC=0.000120 7
191PT cG E Other: : 166.56 {I3} (1976Pi06).
191PT cG M,MR from ce(K):ce(L1):ce(L2):ce(L3):ce(M):ce(N) exp=<230 (coin
191PT2cG with other lines):29 {I3}:9.4 {I15}: 5.1 {I10}: 10 {I2}:<24 (coin
191PT3cG with other lines) (1967Jo06).
191PT4cG L1/L2=3.1 {I6}, L1/L3=5.7 {I13}, |a(M)=0.051 {I11}
191PT L 173.433 24 (11/2)+
191PT G 24.39 1 1.9 4 M1+E2 0.158 29 1.7E2 4 D
191PT2 G FLAG=X
191PTS G LC=129 28$MC=32 7
191PTS G NC=7.7 17$OC=1.27 26$PC=0.0394 6
191PT cG M,MR from ce data fit:
191PT2cG Mult(24.39|g): from ce(L1):ce(L2):ce(L3):ce(M1):ce(M2):ce(M3)
191PT3cG \:ce(N1):ce(N23) exp: 95 {I25}:56 {I25}:86 {I30}:20 {I4}:14 {I3}:19
191PT4cG {I3}:10 {I3}:12 {I3} (1967Jo06). 1967Jo06 assigned an E1 multipolarity
191PT5cG to this transition based on the L subshell ratios; however, M1 + 2%
191PT6cG E2 gives a best fit and is consistent with the placement
191PT7cG of the 24.39-keV transition on the level scheme given in 1976Pi06.
191PT8cG L1/L2=1.7 {I9}, L1/L3=1.1 {I5}, M1/M2=1.4 {I4}, M1/M3=1.1 {I3}
191PT L 253.947 21 (7/2,5/2)-
191PT E 0.007 AP 3 AP 7.4 AP 3 AP
191PTS E EAV=300.5 27$CK=0.8067$CL=0.14482 5$CM+=0.04633 2
191PT G 223.63 5 13 1[M1,E2] 0.47 22 EC
191PTS G KC=0.35 22$LC=0.0912 19$MC=0.0221 8
191PTS G NC=0.00544 16$OC=0.000923 33$PC=3.8E-5 26
191PT G 244.38 4 57 4M1+E2 0.62 14 0.438 32 C
191PTS G KC=0.347 31$LC=0.0697 13$MC=0.01648 24
191PTS G NC=0.00407 6$OC=0.000711 15$PC=3.9E-5 4
191PT cG E Other: 244.32 {I6} (1967Jo06).
191PT cG M from |a(L)exp=0.06 {I2} ((|S ce(L) (1967Jo06))/I|g)
191PT cG MR from ce(L1):ce(L2):ce(L3) exp=2.5 {I5}:0.63 {I10}:0.29 {I10};
191PT2cG ce(M) exp=0.13 {I3} rejected, outlier in ce data fit. ce(K)<24 (coin
191PT3cG with other lines) (1967Jo06).
191PT4cG L1/L2=4.0 {I10}, L1/L3=8.6 {I34}
191PT G 253.95 3 14910E2 0.1641 23 C
191PTS G KC=0.0928 13$LC=0.0538 8$MC=0.01359 19
191PTS G NC=0.00333 5$OC=0.000536 8$PC=9.14E-6 13
191PT cG E Other: 253.90 {I5} (1967Jo06).
191PT cG M from ce(K):ce(L1):ce(L2):ce(L3):ce(M) exp=13.0 {I10}:1.94
191PT2cG {I20}:4.7 {I5}:2.2 {I4}: 3.5 {I7}; ce(N) exp=2.1 {I4} (1967Jo06)
191PTxcG rejected, outlier.
191PT L 277.880 21 (3/2,5/2)-
191PT E 0.021 AP 11 AP 6.8 AP 11 AP
191PTS E EAV=289.9 27$CK=0.8067$CL=0.14501 5$CM+=0.04640 2
191PT cE E|b+=425 keV {I61} (1976ViZM).
191PT G 247.50 4 44 3M1+E2 2.3 1 0.232 5 C
191PTS G KC=0.151 5$LC=0.0612 9$MC=0.01524 21
191PTS G NC=0.00374 5$OC=0.000614 9$PC=1.59E-5 5
191PT cG E Other: 247.43 {I8} (1967Jo06).
191PT cG M,MR From ce(K):ce(L1):ce(L2) exp=6.7 {I8}:1.12 {I15}:1.34 {I20}
191PT2cG (1967Jo06).
191PT3cG |a(K)=0.15 {I2}, L1/L2=0.8 {I2}
191PT G 268.33 4 116 9M1+E2 0.31 21 0.390 35 C
191PTS G KC=0.319 33$LC=0.0548 17$MC=0.01273 31
191PTS G NC=0.00315 8$OC=0.000562 19$PC=3.6E-5 4
191PT cG E Other: 268.25 {I10} (1967Jo06).
191PT cG M,MR From ce(K):ce(L1):ce(L2):ce(L3):ce(M) exp=31 {I7}:5.0
191PT2cG {I15}:0.61 {I20}:0.14 {I6}: 2.5 {I10} - all had coin with other lines
191PT3cG (1967Jo06).
191PT4cG |a(K)=0.27 {I6}, L1/L2=8 {I4}, L1/L3=36 {I19}
191PT G 277.86 3 42428M1 0.376 5 C
191PTS G KC=0.311 4$LC=0.0507 7$MC=0.01172 16
191PTS G NC=0.00290 4$OC=0.000522 7$PC=3.53E-5 5
191PT cG E Other: 277.84 {I3} (1967Jo06).
191PT cG M from ce(K):ce(L1):ce(L2):ce(L3):ce(M):ce(N) exp=100:
191PT2cG 16.9 {I10}: 1.5 {I3}:0.12 {I6}:4.1 {I4}: <3.6 (coin with other lines)
191PTxcG (1967Jo06).
191PT L 281.188 25(3/2,5/2,7/2)-
191PT E 0.004 LE 2 LE 7.6 GE 2LE
191PTS E EAV=288.4 27$CK=0.8067$CL=0.14503 5$CM+=0.04641 2
191PT G 271.65 3 14810M1+E2 1.00 10 0.267 15 C
191PTS G KC=0.204 14$LC=0.0477 9$MC=0.01144 19
191PTS G NC=0.00282 5$OC=0.000484 10$PC=2.27E-5 16
191PT cG E Other: 271.62 {I5} (1967Jo06).
191PT cG M,MR from ce(K):ce(L1):ce(L2):ce(L3):ce(M) exp= <31 (coin with
191PT2cG other lines): 4.1 {I3}:1.74 {I20}: <2.2 (coin with other lines): 2.3
191PT3cG {I3} (1967Jo06). L1/L2=2.4 {I3}.
191PT L 293.457 14 (5/2)-
191PT E 0.01 AP 8 AP 7.0 AP 8 AP
191PTS E EAV=283.0 27$CK=0.8067$CL=0.14513 5$CM+=0.04645 2
191PT G 126.92 2 8.5 14M1+E2 0.56 +24-253.02 23 AC
191PTS G KC=2.23 35$LC=0.60 9$MC=0.145 25
191PTS G NC=0.036 6$OC=0.0061 9$PC=0.00025 4
191PT cG M,MR From ce(K):ce(L1):ce(L2) exp=16 {I2}:3.9 {I5}: <0.50
191PT2cG (mix with other lines) (1967Jo06).
191PT4cG |a(K)=1.9 {I4}, |a(L1)=0.46 {I10}
191PT cG RI From ce data of 1967Jo06, considering ce(L2)<0.5 as 0.25
191PT2cG {I25}. Other: 9 {I1} from 1976Pi06.
191PT G 192.82 4 15 2E2 0.407 6 EC
191PTS G KC=0.1862 26$LC=0.1664 23$MC=0.0425 6
191PTS G NC=0.01039 15$OC=0.001651 23$PC=1.773E-5 25
191PT cG M from |a(K)exp=0.13 {I5}, obtained from 114.37 keV ce line
191PT2cG observed by 1967Jo06 with Ice=2.0 {I5} and assigning it to K
191PTxcG conversion.
191PT G 263.09 3 91 6E2 0.1469 21 C
191PTS G KC=0.0849 12$LC=0.0468 7$MC=0.01181 17
191PTS G NC=0.00289 4$OC=0.000467 7$PC=8.40E-6 12
191PT cG E Other: 263.05 {I15} (1967Jo06).
191PT cG M from ce(K):ce(L3):ce(M) exp=7.8 {I10}:1.9 {I3}: <2.2 (coin
191PT2cG with other lines) (1967Jo06).
191PT G 283.90 3 39625M1+E2 0.63 +8-7 0.287 13 C
191PTS G KC=0.230 12$LC=0.0441 9$MC=0.01040 19
191PTS G NC=0.00257 5$OC=0.000451 10$PC=2.58E-5 14
191PT cG E Other: 283.88 {I6} (1967Jo06).
191PT cG M,MR from ce(K):ce(L1):ce(L2):ce(L3):ce(M) exp=79 {I4}:11.4
191PT2cG {I10}:1.64 {I20}: 1.06 {I15}: <6.5 (coin with other lines) (1967Jo06).
191PT4cG |a(K)=0.20 {I2}, L1/L2=7.0 {I10}, L1/L3=10.8 {I18}
191PT G 293.45 3 16711M1+E2 0.9 3 0.23 4 C
191PTS G KC=0.18 4$LC=0.0379 24$MC=0.0090 5
191PTS G NC=0.00222 12$OC=0.000386 27$PC=2.0E-5 4
191PT cG E Other: 293.45 {I6} (1967Jo06).
191PT cG M,MR$from ce(K):ce(L1):ce(L2):ce(M) exp=30 {I5} (coin with other
191PT2cG lines):5.3 {I10} (coin with other lines):<2.5 (coin with other lines):
191PT3cG 2.3 {I5} (coin with other lines) (1967Jo06). |a(K)exp=0.18 {I3}
191PT L 306.34 3 (9/2)+
191PT G 132.89 2 72 6M1+E2 0.25 4 2.88 5 AC
191PTS G KC=2.32 5$LC=0.429 10$MC=0.1006 28
191PTS G NC=0.0248 7$OC=0.00440 10$PC=0.000265 6
191PT cG E Other: 132.98 {I4} (1976Pi06).
191PT cG M,MR$from ce(K):ce(L1):ce(L2):ce(L3):ce(M) exp=151 {I10}:25.4 {I15}:3.5
191PT2cG {I5}:2.1 {I5}: 4.9 {I7} (1967Jo06). |a(K)exp=0.18 {I3}, L1/L2=7.3
191PT3cG {I11}, L1/L3=12 {I3}.
191PT G 157.33 5 40 6[E2] 0.838 12 EC
191PTS G KC=0.305 4$LC=0.401 6$MC=0.1030 14
191PTS G NC=0.02515 35$OC=0.00396 6$PC=2.89E-5 4
191PT L 399.835 19 7/2-
191PT E 0.001 LE 2 LE 7.5 GE 2 LE
191PTS E EAV=235.5 27$CK=0.8065$CL=0.14597 5$CM+=0.04676 2
191PT G 106.36 5 3 1M1+E2 1.0 6 4.7 6 E
191PTS G KC=2.6 14$LC=1.6 6$MC=0.39 16
191PTS G NC=0.10 4$OC=0.016 6$PC=3.0E-4 16
191PT cG M,MR from |a(K)exp=2.7 {I11}, obtained from 29.97 keV ce line
191PT2cG observed by 1967Jo06 with Ice=8 {I2} and assigning it to K conversion.
191PT G 145.95 5 6 1(M1) 2.265 32 EC
191PTS G KC=1.865 26$LC=0.308 4$MC=0.0713 10
191PTS G NC=0.01764 25$OC=0.00317 4$PC=0.0002138 30
191PT cG M from |a(K)exp=2.0 {I11}, obtained from 67.47 keV ce line
191PT2cG observed by 1967Jo06 with Ice=12 {I4} and assigning it to K conversion.
191PT G 390.25 3 16011M1+E2 0.41 15 0.1354 99 C
191PTS G KC=0.111 9$LC=0.0188 9$MC=0.00436 19
191PTS G NC=0.00108 5$OC=0.000193 10$PC=1.25E-5 10
191PT cG E Weighted average of 390.23 {I5} (1967Jo06) and 390.27 {I4}
191PT2cG (1976Pi06).
191PT cG M,MR$from ce(K):ce(L1):ce(L2):ce(L3) exp=17.9 {I15}:3.4 {I3}:0.44
191PT2cG {I10}:0.6 {I3} (1967Jo06). |a(K)exp=0.112 {I12}, L1/L2=7.7 {I19}.
191PT G 399.84 4 27919E2 0.0438 6 C
191PTS G KC=0.0304 4$LC=0.01014 14$MC=0.002499 35
191PTS G NC=0.000613 9$OC=0.0001019 14$PC=3.16E-6 4
191PT cG E Other: 399.84 {I7} (1967Jo06).
191PT cG M from ce(K):ce(L1):ce(L2):ce(L3):ce(M) exp=7.9 {I6}:
191PT2cG <1.9 (coin with other lines):1.7 {I3}:0.5 {I3}: <1.5 (coin with other
191PT3cG lines) (1967Jo06).
191PT L 451.84 3 (3/2)-
191PT E 0.002 AP 5 AP 7.1 AP 5 AP
191PTS E EAV=212.1 28$CK=0.8062$CL=0.14640 5$CM+=0.04692 2
191PT G 421.44 4 20314M1(+E2) 0.55 +18-170.103 10
191PTS G KC=0.084 9$LC=0.0145 9$MC=0.00338 20
191PTS G NC=0.00084 5$OC=0.000149 10$PC=9.4E-6 10
191PT cG E Other: 421.44 {I6} (1967Jo06).
191PT cG M,MR$from ce(K):ce(L1):ce(L2):ce(M) exp=16.3 {I15}:3.05 {I20}:0.35
191PT2cG {I11}:0.46 {I7} (1967Jo06). |a(K)exp=0.080 {I9}, L1/L2=8.7 {I28}.
191PT G 442.27 5 35 3 M1 0.1077 15
191PTS G KC=0.0891 12$LC=0.01438 20$MC=0.00332 5
191PTS G NC=0.000820 11$OC=0.0001477 21$PC=1.003E-5 14
191PT cG E Other: 442.18 {I10} (1967Jo06).
191PT cG M,MR from ce(K):ce(L12):ce(M) exp=3.4 {I3}:0.51 {I8}:0.37 {I6}
191PT2cG (1967Jo06). |a(K)=0.097 {I12}.
191PT G 451.85 5 79 6 &
191PTS G KC=0.05 3$LC=0.010 4$MC=0.0024 8$NC+=0.00070 23
191PTS G NC=0.00059 19$OC=0.00010 4$PC=6.E-6 4
191PT cG E$Other: 451.87 {I10} (1967Jo06).
191PT cG RI For doublet with 451.21|g, placed from 1113.4 keV level
191PT cG M |a(K)exp<0.076, |a(L1)exp=0.021 {I2}, |a(L2)exp<0.004,
191PT2cG |a(L3)exp=0.0053 {I8} (deduced value using ce(K):ce(L1):ce(L2):ce(L3)=
191PT3cG <5.9:1.63 {I15}:<0.3: 0.42 {I6} - (1967Jo06) and I|g) for
191PT3cG the doublet, and theory: E2 (0.023,0.003,0.0025,0.0011) and M1
191PT4cG (0.084,0.012,0.0011,0,0001), would require multipolarity |>3 for at
191PTxcG least one of the transitions forming the doublet.
191PT L 453.83 3 (7/2)+
191PT E 2 LE 7.5 GE 2 LE
191PTS E CK=0.8062$CL=0.14642 5$CM+=0.04693 2
191PT G 147.49 4 51 3M1,E2 1.6 6 EC
191PTS G KC=1.1 7$LC=0.42 12$MC=0.103 34
191PTS G NC=0.025 8$OC=0.0042 11$PC=1.2E-4 9
191PT cG M from |a(K)exp=1.3 {I7}, obtained from 69.00 keV ce line
191PT2cG observed by 1967Jo06 with Ice=65 {I20} and assigning it to K
191PTxcG conversion.
191PT G 280.40 3 17311E2 0.1207 17 C
191PTS G KC=0.0723 10$LC=0.0366 5$MC=0.00919 13
191PTS G NC=0.002251 32$OC=0.000365 5$PC=7.22E-6 10
191PT cG E Other: 280.34 {I10} (1967Jo06)
191PT cG M from ce(K):ce(L1):ce(L2):ce(L3):ce(M) exp=11.7 {I10}:1.54
191PT2cG {I20}: 2.81 {I30}:1.71 {I20}: <3.6 (1967Jo06).
191PT L 487.584 18 (7/2)-
191PT E 2 LE 8.3 GE 2 LE 1U
191PTS E CK=0.7884 2$CL=0.1595 2$CM+=0.05205 5
191PT G 87.74 2 4.4 6 M1+E2 0.27 +7-5 9.61 14 A
191PT2 G FLAG=X
191PTS G KC=7.47 28$LC=1.64 16$MC=0.39 4
191PTS G NC=0.096 10$OC=0.0166 16$PC=0.000869 31
191PT cG E Other: : 87.55 {I6} (1976Pi06).
191PT cG RI Other: 12 {I1} (1976Pi06).
191PT cG M,MR from ce(L1):ce(L2):ce(L3):ce(M1) exp=4.4 {I6}:1.5 {I6}:0.55
191PT2cG {I22}:0.8 {I2} (1967Jo06).
191PT3cG L1/L2=2.9 {I12}, L1/L3=8.0 {I34}
191PT G 194.14 3 16111M1+E2 0.41 +8-6 0.926 33 C
191PTS G KC=0.742 34$LC=0.1410 23$MC=0.0332 7
191PTS G NC=0.00819 16$OC=0.001443 22$PC=8.4E-5 4
191PT cG Weighted average of 194.17 {I3} (1976Pi06) and 194.11 {I3}
191PT2cG (1967Jo06)
191PT cG M,MR From ce(K):ce(L1):ce(L2):ce(L3):ce(M) exp=93 {I10} (coin with
191PT2cG other lines):18.8 {I15}:2.3 {I4} (coin with other lines):1.6 {I3}: 4.7
191PT3cG {I8} (1967Jo06).
191PT4cG |a(K)=0.58 {I7}, L1/L2=8.2 {I16}, L1/L3=11.8 {I24}
191PT G 206.39 3 4820 [M1,E2] 0.59 27 AC
191PTS G KC=0.43 27$LC=0.120 5$MC=0.0293 26
191PTS G NC=0.0072 6$OC=0.001217 30$PC=4.8E-5 33
191PT cG E Other: 206.46 {I5} (1976Pi06).
191PT cG RI from doublet I|g=130 {I10} (1976Pi06) minus I|g=82 {I17} from
191PT2cG 660 keV level decay.
191PT cG M |a(K)exp=0.58 (76(ce)/130(I|g)) for the doublet is compatible
191PT2cG with assignment. ce(K):ce(L1):ce(2):ce(M) exp = 76 {I5}: 14.0 {I28}:
191PT3cG <31: 5.3 {I8} (1967Jo06).
191PT G 386.90 3 21214M1+E2 1.05 +11-9 0.098 5 C
191PTS G KC=0.078 5$LC=0.0157 5$MC=0.00373 11
191PTS G NC=0.000919 27$OC=0.000160 5$PC=8.6E-6 6
191PT cG E Other: 386.92 {I5} (1967Jo06).
191PT cG M,MR from ce(K):ce(L1):ce(L2):ce(L3):ce(M):ce(N) exp=24.0 {I15}:
191PTxcG 3.7 {I3}:<5.9:0.60 {I15}:1.61 {I20}:<1.9 (1967Jo06).
191PT4cG |a(K)=0.11 {I1}, L1/L2=6.2 {I16}
191PT G 478.04 4 23216M1+E2 0.90 11 0.061 4 C
191PTS G KC=0.0491 34$LC=0.0090 4$MC=0.00211 9
191PTS G NC=0.000520 22$OC=9.2E-5 4$PC=5.5E-6 4
191PT cG E Other: 477.98 {I7} (1967Jo06).
191PT cG M,MR from ce(K):ce(L1):ce(L2):ce(L3):ce(M):ce(N) exp= <20.9:2.62
191PT2cG {I20}:0.43 {I6}: 0.17 {I2}:0.87 {I10}: <0.21 (1967Jo06).
191PT3cG L1/L2=6.1 {I10}, L1/L3=15.4 {I22}
191PT cG RI Other: 347 {I35} from ce data fit.
191PT G 487.61 4 16311E2 0.0263 4 C
191PTS G KC=0.01932 27$LC=0.00534 7$MC=0.001298 18
191PTS G NC=0.000319 4$OC=5.38E-5 8$PC=2.032E-6 28
191PT cG E Other: 487.58 {I7} (1967Jo06).
191PT cG M from ce(K):ce(L1):ce(L2):ce(L3):ce(M) exp=
191PT2cG 3.27 {I20}:0.62 {I10}:0.31 {I15}:0.18 {I2}:0.18 {I3} (1967Jo06).
191PT L 535.29 3 (3/2,5/2)-
191PT E 1 AP 7.7 AP 1 AP
191PTS E CK=0.8055$CL=0.14712 6$CM+=0.04720 2
191PT G 368.66 4 26 2M1+E2 1.3 3 0.099 16 C
191PTS G KC=0.077 14$LC=0.0171 13$MC=0.00410 27
191PTS G NC=0.00101 7$OC=0.000174 14$PC=8.5E-6 16
191PT cG E Other: 368.89 {I12} (1967Jo06).
191PT cG M,MR from ce(K):ce(L1):ce(L2) exp=2.1 {I5}:0.33 {I8}:0.13 {I5}
191PT2cG (1967Jo06).
191PT3cG |a(K)=0.081 {I20}, L1/L2=2.5 {I12}
191PT G 376.56 4 25 2[M1,E2] 0.11 6 EC
191PTS G KC=0.09 5$LC=0.017 5$MC=0.0041 10
191PTS G NC=1.01E-3 26$OC=1.8E-4 5$PC=1.0E-5 6
191PT G 525.79 5 51 4M1 0.0683 10 C
191PTS G KC=0.0565 8$LC=0.00908 13$MC=0.002092 29
191PTS G NC=0.000518 7$OC=9.32E-5 13$PC=6.34E-6 9
191PT cG E Other: 525.75 {I8} (1967Jo06).
191PT cG M from |a(K)exp=0.067 {I20} and |a(L12)exp=0.012 {I3} (deduced
191PT2cG from ce data ce(K):ce(L12):ce(M) exp = 3.4 {I3}:0.60 {I7}: 0.13 {I2}
191PT3cG (1967Jo06)).
191PT L 574.66 4 (1/2)-
191PT E 1 AP 7.7 AP 1 AP
191PTS E CK=0.8051$CL=0.14749 6$CM+=0.04734 3
191PT G 408.21 6 54 7M1+E2 1.36 23 0.074 8 C
191PTS G KC=0.057 7$LC=0.0124 8$MC=0.00295 16
191PTS G NC=0.00073 4$OC=0.000126 8$PC=6.3E-6 8
191PT cG E Other: 408.20 {I12} (1967Jo06).
191PT cG M,MR from ce(K):ce(L1):ce(L2):ce(M) exp=4.0 {I4}:0.79 {I9}:0.33
191PTxcG {I6}:0.31 {I6} (1967Jo06).
191PT3cG |a(K)=0.074 {I12}, L1/L2=2.4 {I5}
191PT G 544.3510 9 2 EC
191PT G 565.13 5 29 3E2 0.0184826 C
191PTS G KC=0.01398 20$LC=0.00343 5$MC=0.000827 12
191PTS G NC=0.0002034 28$OC=3.47E-5 5$PC=1.478E-6 21
191PT cG E Other: 565.06 {I7} (1967Jo06).
191PT cG M from ce(K):ce(L1):ce(L2):ce(M) exp=0.83 {I9}:0.18 {I3}:0.11
191PT2cG {I3}:0.12 {I3}.
191PT G 574.54 7 10 2M1+E2 1.8 5 0.026 5 E
191PTS G KC=0.021 4$LC=0.0042 5$MC=0.00099 12
191PTS G NC=0.000245 30$OC=4.3E-5 6$PC=2.3E-6 5
191PT cG M,MR from |a(K)exp=0.021 {I6}, obtained from 496.1 keV ce line
191PT2cG observed by 1967Jo06 with Ice=0.21 {I4} and assigning it to K
191PTxcG conversion.
191PT L 594.29 6 -
191PT E 0.1 AP 8.7 AP 0.1 AP
191PTS E CK=0.8048$CL=0.14768 6$CM+=0.04741 3
191PT G 340.35 5 9 1(M1) 0.2170 30 C
191PTS G KC=0.1791 25$LC=0.0291 4$MC=0.00672 9
191PTS G NC=0.001664 23$OC=0.000300 4$PC=2.028E-5 28
191PT cG E Other: 340.24 {I15} (1967Jo06).
191PT cG M from |a(K)exp=0.22 {I5} (from ce(K)=2.0 {I4} (1967Jo06)).
191PT L 613.15 4 (1/2,3/2,5/2)-
191PT E 0.1 AP 8.7 AP 0.1 AP
191PTS E CK=0.8046$CL=0.14787 6$CM+=0.04748 3
191PT G 332.03 5 9 1 EC
191PT G 446.58 6 21 2(M1) 0.1050 15 C
191PTS G KC=0.0868 12$LC=0.01401 20$MC=0.00323 5
191PTS G NC=0.000799 11$OC=0.0001440 20$PC=9.77E-6 14
191PT cG E Other: 446.55 {I15} (1967Jo06).
191PT cG M from ce(K):ce(L12) exp=1.73 {I20}:0.30 {I5}, and
191PTxcG |a(K)exp=0.08 {I3} (1967Jo06).
191PT L 625.85 9 -
191PT E 0.7 AP 7.8 AP 0.7 AP
191PTS E CK=0.80443 8$CL=0.14799 7$CM+=0.04753 3
191PT G 467.04 8 44 6(M1) 0.0933 13 C
191PTS G KC=0.0771 11$LC=0.01243 17$MC=0.00287 4
191PTS G NC=0.000709 10$OC=0.0001277 18$PC=8.68E-6 12
191PT cG E Other: 467.06 {I8} (1967Jo06).
191PT cG M from |a(K)exp=0.08 {I3}, |a(L12)exp=0.012 {I3} (deduced value
191PT2cG using ce data ce(K):ce(L12) = 3.5 {I5}:0.53 {I8} of 1967Jo06 and I|g).
191PT L 660.23 3 (5/2)+
191PT E 1 AP 7.6 AP 1 AP
191PTS E CK=0.80396 9$CL=0.14836 7$CM+=0.04767 3
191PT G 206.39 3 82 17 [M1,E2] 0.59 27 C
191PTS G KC=0.43 27$LC=0.120 5$MC=0.0293 26
191PTS G NC=0.0072 6$OC=0.001217 30$PC=4.8E-5 33
191PT cG RI from I|g(206|g)/I|g(353|g)=0.45 {I9} in adopted gammas.
191PT cG M |a(K)exp=0.56 for the doublet is compatible with assignment.
191PT G 353.88 3 18312(E2) 0.0611 9 C
191PTS G KC=0.0407 6$LC=0.01547 22$MC=0.00384 5
191PTS G NC=0.000942 13$OC=0.0001552 22$PC=4.18E-6 6
191PT cG E Other: 353.91 {I12} (1967Jo06).
191PT cG M from ce(K):ce(L1):ce(L2):ce(L3):ce(M) exp=
191PT2cG 6.0 {I6}:1.56 {I15}:1.37 {I15}:0.89 {I15}:0.46 {I15} (1967Jo06).
191PT L 662.27 5(3/2,5/2)-
191PT G 495.74 5 34 3M1 0.0797 11 C
191PTS G KC=0.0659 9$LC=0.01061 15$MC=0.002445 34
191PTS G NC=0.000605 8$OC=0.0001090 15$PC=7.41E-6 10
191PT cG E Other: 495.72 {I12} (1967Jo06).
191PT cG M from |a(K)exp=0.08 {I3}, |a(L12)exp=0.0106 {I22},
191PTxcG |a(M)exp=0.0046 {I23} - (deduced using ce data ce(K):ce(L12):ce(M)=2.7
191PT3cG {I3}: 0.36 {I4}: 0.16 {I3} of 1967Jo06 and I|g).
191PT L 732.37 8 1/2-,3/2-
191PT E 0.6 AP 7.8 AP 0.6 AP
191PTS E CK=0.8028 1$CL=0.14918 8$CM+=0.04798 3
191PT G 701.94 8 32 3(M1) 0.0323 5
191PTS G KC=0.0267 4$LC=0.00426 6$MC=0.000980 14
191PTS G NC=0.0002423 34$OC=4.37E-5 6$PC=2.98E-6 4
191PT cG E Weighted average of 701.93 {I10} (1967Jo06) and 701.96 {I12}
191PT2cG (1976Pi06).
191PT cG M from |a(K)exp=0.030 {I10}, |a(L12)exp=0.0059 {I21} using
191PT2cG ce(K):ce(L12) = 0.97 {I10}:0.19 {I4} (1967Jo06).
191PT G 732.48 16 6 1(M1) 0.0289 4
191PTS G KC=0.02398 34$LC=0.00381 5$MC=0.000877 12
191PTS G NC=0.0002169 30$OC=3.91E-5 5$PC=2.67E-6 4
191PT cG E Other: 732.40 {I25} (1967Jo06).
191PT cG M from |a(K)exp=0.023 {I6} from ce(K):ce(L12) = 0.14 {I2}:<0.10
191PT2cG (1967Jo06)
191PT L 863.93 5 (5/2)+
191PT G 410.20 15 26 5M1+E2 1.2 4 0.078 18 AC
191PTS G KC=0.061 16$LC=0.0127 17$MC=0.0030 4
191PTS G NC=0.00074 9$OC=0.000129 18$PC=6.8E-6 19
191PT cG M,MR from |a(K)exp=0.063 {I14} using ce(K):ce(L12) = 1.64 {I20}:
191PT2cG <1.5 (1967Jo06).
191PT G 557.51 8 13 2E2 0.0190827 C
191PTS G KC=0.01440 20$LC=0.00357 5$MC=0.000861 12
191PTS G NC=0.0002118 30$OC=3.61E-5 5$PC=1.521E-6 21
191PT cG E Other: 557.16 {I20} (1967Jo06).
191PT cG M from |a(K)exp=0.011 {I3} using ce(K)=0.14 {I2} (1967Jo06)
191PT L 929.20 15
191PT E 0.2 AP 8.1 AP 0.2 AP
191PTS E CK=0.7988 2$CL=0.1521 1$CM+=0.04911 5
191PT G 316.5 5 5AP EC
191PT G 647.9715 6 2 EC
191PT L 986.46 7
191PT E 0.4 AP 7.7 AP 0.4 AP
191PTS E CK=0.7972 2$CL=0.1532 2$CM+=0.04954 5
191PT G 532.63 6 23 3 EC
191PT L 1074.03 3 (5/2)+
191PT E 30 AP 5.8 AP 30 AP
191PTS E CK=0.7944 3$CL=0.15526 16$CM+=0.05032 6
191PT G 210.09 4 35 3M1+E2 0.35 +16-140.76 5 C
191PTS G KC=0.61 5$LC=0.1109 17$MC=0.0259 5
191PTS G NC=0.00641 13$OC=0.001137 16$PC=7.0E-5 6
191PT cG E Other: 210.05 {I8} (1967Jo06).
191PT cG M,MR From ce(K):ce(L1):ce(L2):ce(M) exp=19.4 {I20}:4.0 {I5}:0.57
191PTxcG {I15}:2.6 {I5} (1967Jo06).
191PT3cG |a(K)=0.55 {I7}, L1/L2=7.0 {I20}
191PT G 411.5 2 15 3 EC
191PT G 413.76 4 21714M1+E2 0.78 +19-170.095 10 C
191PTS G KC=0.077 8$LC=0.0141 9$MC=0.00331 19
191PTS G NC=0.00082 5$OC=0.000144 9$PC=8.6E-6 10
191PT cG E Weighted average of 713.81 {I6} (1967Jo06) and 413.73 {I5}
191PT2cG (1976Pi06).
191PT cG M,MR from ce(K):ce(L12):ce(L3):ce(M):ce(N) exp=19.4 {I10}:<20.9:
191PT2cG 0.29 {I4}:1.7 {I3}: <1.4 (1967Jo06).
191PT3cG |a(K)=0.089 {I7}, |a(L3)=0.0013 {I2}, |a(M)=0.0078 {I15}.
191PT G 460.9412 14 2 [E1] 0.0098414 EC
191PTS G KC=0.00819 11$LC=0.001271 18$MC=0.000291 4
191PTS G NC=7.16E-5 10$OC=1.266E-5 18$PC=7.76E-7 11
191PT G 499.6212 27 3 [M2] 0.2348 33 EC
191PTS G KC=0.1865 26$LC=0.0370 5$MC=0.00878 12
191PTS G NC=0.002180 31$OC=0.000390 5$PC=2.504E-5 35
191PT cG E Uncertainty increased from 1976Pi06 value (499.62 {I5});
191PT2cG outlier in level energy fit, original uncertainty appeared to be
191PT3cG incompatible with the complexity of the energy spectrum in the region.
191PT4cG A closer E|g=502.09 {I15} in 1967Jo06.
191PT G 538.7 3 48 8E1 0.0070610 C
191PTS G KC=0.00589 8$LC=0.000903 13$MC=0.0002068 29
191PTS G NC=5.09E-5 7$OC=9.01E-6 13$PC=5.64E-7 8
191PT cG E Other: 538.65 {I20} (1967Jo06).
191PT cG M from |a(K)exp=0.0050 {I13} using ce(K)=0.24 {I4} (1967Jo06).
191PT G 586.44 4 1000 E1 0.00593 8 C
191PTS G KC=0.00495 7$LC=0.000754 11$MC=0.0001724 24
191PTS G NC=4.24E-5 6$OC=7.53E-6 11$PC=4.76E-7 7
191PT cG E Other: 586.46 {I8} (1967Jo06).
191PT cG M from ce(K):ce(L12):ce(L3):ce(M) exp=5.2 {I5}:0.77 {I7}:0.064
191PT2cG {I20}: <0.4 (1967Jo06); ce(N)=0.19 {I4} discarded, outlier in ce data
191PT3cG fit.
191PT G 620.31 8 64 6M1+E2 0.93 24 0.031 4 C
191PTS G KC=0.025 4$LC=0.0044 5$MC=0.00102 10
191PTS G NC=0.000252 26$OC=4.5E-5 5$PC=2.8E-6 4
191PT cG E Other: 620.15 {I12} (1967Jo06).
191PT cG M,MR from |a(K)exp=0.025 {I3} (ce(K):ce(L12):ce(L3):ce(M)
191PT2cG exp=1.57 {I15}:0.36 {I4}:0.12 {I3} (1967Jo06)).
191PT G 674.22 6 40229E1 0.00448 6 C
191PTS G KC=0.00374 5$LC=0.000564 8$MC=0.0001289 18
191PTS G NC=3.17E-5 4$OC=5.65E-6 8$PC=3.62E-7 5
191PT cG E Other: 674.21 {I8} (1967Jo06).
191PT cG M from ce(K):ce(L12):ce(L3):ce(M) exp =1.74 {I15}:0.22
191PT2cG {I3}:<0.06:0.09 {I2} (1967Jo06).
191PT G 767.7516 12 2 C
191PT G 780.5116 15 2 EC
191PT G 792.78 15 42 4E1 0.00327 5 C
191PTS G KC=0.00274 4$LC=0.000408 6$MC=9.31E-5 13
191PTS G NC=2.292E-5 32$OC=4.09E-6 6$PC=2.67E-7 4
191PT cG E Other: 792.30 {I25} (1967Jo06).
191PT cG M from ce(K):ce(L12) exp =0.18 {I3}:0.046 {I12} (1967Jo06)
191PT G 820.0718 21 2 EC
191PT G 1064.7 3 9 1 E
191PT G 1074.2 3 10 1 E
191PT L 1113.49 8 (5/2)+
191PT E 3 AP 6.7 AP 3 AP
191PTS E CK=0.7929 3$CL=0.15635 18$CM+=0.05074 7
191PT G 451.2113 79 6 [E1] 0.0103114 &C
191PTS G KC=0.00858 12$LC=0.001334 19$MC=0.000306 4
191PTS G NC=7.52E-5 11$OC=1.328E-5 19$PC=8.12E-7 11
191PT cG E Quoted value is the level energy difference, which disagrees
191PT2cG with doublet energy (451.85 {I5} keV - 1976Pi06), and was not included
191PT3cG in the level energies fit. Placement from 1976Pi06 |g-|g coincidence
191PTxcG measurement. Other: 451.87 {I10} (1967Jo06).
191PT cG RI For doublet with 451.85|g, placed from 451 keV level
191PT cG M same as for the |g from 451.83 level.
191PT G 625.8512 53 8 C ?
191PT cG E Other: 625.93 {I20} (1967Jo06)
191PT cG E2+M1, |d=0.73 {I23}, from |a(K)exp=0.018 {I6} (1967Jo06).
191PT2cG Inconsistent with 1976Pi06 placement on level scheme from |g-|g coinc
191PT3cG measurement.
191PT G 659.69 12 17 2M1+E2 1.2 +4-3 0.023 4 C
191PTS G KC=0.0188 30$LC=0.0034 4$MC=0.00079 9
191PTS G NC=0.000194 22$OC=3.4E-5 4$PC=2.07E-6 35
191PT cG E Other: 659.63 {I25} (1967Jo06)
191PT cG M,MR$from |a(K)exp=0.018 {I7} and |a(L12)exp=0.0034 {I11} using
191PT2cG ce(K):ce(L12) exp =0.31 {I5}:0.057 {I10} (1967Jo06)
191PT3cG |a(K)=0.018 {I3}, |a(L12)=0.0034 {I7}
191PT G 835.53 16 40 2E1 0.00296 4 C
191PTS G KC=0.002479 35$LC=0.000368 5$MC=8.39E-5 12
191PTS G NC=2.068E-5 29$OC=3.69E-6 5$PC=2.420E-7 34
191PT cG E Other: 835.69 {I25} (1967Jo06)
191PT cG M from |a(K)exp=0.0035 {I13} from ce(K)=0.14 {I3} (1967Jo06)
191PT G 859.57 19 18 2 E
191PT G 1113.6 3 15 2 E
191PT L 1174.65 9 -
191PT E 0.7 AP 7.3 AP 0.7 AP
191PTS E CK=0.7902 3$CL=0.15829 21$CM+=0.05149 9
191PT G 561.72 15 4 1(M1) 0.0575 8 C
191PTS G KC=0.0476 7$LC=0.00763 11$MC=0.001757 25
191PTS G NC=0.000435 6$OC=7.83E-5 11$PC=5.33E-6 7
191PT cG E Weighted average of 561.90 {I17} (1967Jo06) and 561.59 {I14}
191PT2cG (1976Pi06).
191PT cG M$ form |a(K)exp=0.08 {I3} from ce(K)=0.32 {I4} (1967Jo06)
191PT G 580.5 3 5AP EC
191PT G 880.7721 11 1 EC
191PT G 896.5823 8 1 EC
191PT G 920.81 18 5 1(M1) 0.0161323 C
191PTS G KC=0.01339 19$LC=0.002112 30$MC=0.000486 7
191PTS G NC=0.0001201 17$OC=2.166E-5 30$PC=1.485E-6 21
191PT cG E Weighted average of 920.96 {I25} (1967Jo06) and 920.66 {I25}
191PT2cG (1976Pi06).
191PT cG M from |a(K)exp=0.013 {I6} from ce(K)=0.65 {I15} (coin with
191PT2cG other lines) (1967Jo06).
191PT G 1164.9 3 12 2 E
191PT G 1174.0 4 8 1 ?
191PT L 1289.97 15
191PT E 0.3 AP 7.5 AP 0.3 AP
191PTS E CK=0.7835 5$CL=0.1632 4$CM+=0.05338 13
191PT G 627.74 15 12 3(M1) 0.0431 6
191PTS G KC=0.0357 5$LC=0.00570 8$MC=0.001312 18
191PTS G NC=0.000324 5$OC=5.85E-5 8$PC=3.99E-6 6
191PT cG E Other: 627.61 {I20} (1967Jo06).
191PT cG M from |a(K)exp=0.057 {I22} and |a(L12)exp=0.010 {I5}
191PT2cG from ce(K):ce(L12)=0.68 {I7}: 0.12 {I3} (1967Jo06)
191PT G 1035.80 35 5 1 A
191PT L 1300.9 3
191PT E 0.1 AP 7.9 AP 0.1 AP
191PTS E CK=0.7827 5$CL=0.1637 4$CM+=0.05360 13
191PT G 1023.0 3 6 1(M1) 0.0123617
191PTS G KC=0.01026 14$LC=0.001613 23$MC=0.000371 5
191PTS G NC=9.17E-5 13$OC=1.654E-5 23$PC=1.136E-6 16
191PT cG E Other: 1023.43 {I35} (1967Jo06).
191PT cG M from |a(K)exp=0.017 {I7} using ce(K)=0.104 {I20} (1967Jo06).
191PT L 1453.3 3
191PT E 0.1 AP 7.6 AP 0.1 AP
191PTS E CK=0.7665 10$CL=0.1753 7$CM+=0.0581 3
191PT G 1199.3 3 9 1 E