109RH 109RU B- DECAY 1987KA29 16NDS 201610
109RH H TYP=FUL$AUT=S. KUMAR(a), J. CHEN(b) AND F.G. KONDEV$
109RH2 H CIT=NDS 137, 1 (2016)$CUT=31-May-2016$
109RH c 1987Ka29: Activity were produced using {+249}Cf(n,f) E=th.,
109RH2c |?300 |mg source, TRIGA Mainz reactor,
109RH3c neutron flux density 6|*10{+11} neutron/cm{+2}.
109RH4c Detectors: 1 cm{+3} Ge X-ray (FWHM=200 eV at 5.9 keV), 32cm{+3} Ge(Li)
109RH5c (FWHM=1.8 keV at 1332 keV), 120cm{+3} Ge(Li) (FWHM=1.9 keV at 1332 keV)
109RH6C .Measured: K| x ray, E|g, T1/2, I|g, |g|g,
109RH7c |g|g(t),|a(K)exp.
109RH c Others: 1992PeZX, 1992Sh35, 1978Fr16
109RH cG E,RI$From 1987Ka29.
109RH cG M,MR$From Adopted Gammas.
109RH DG $MR$Calculated by evaluators from EKC and ECC (the BrIccMixing program)
109RH CB $The decay scheme is incomplete (pandemonium). This is particularly
109RH2CB evident from the low feeding intensities to the 225-, 258- and 359-keV
109RH3CB levels. Thus, the I|b and LOGFT values are tentative
109RH cB IB$Deduced by evaluators from I(|g+ce) intensity balance at each level
109RH cL E$From a least-squares fit to E|g energies
109RH CL J$From Adopted Levels
109RH cL T$From |b|g|g(t) in 2011BuZZ, unless otherwise stated
109RH DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
109RH CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
109RH2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
109RU P 0.0 (5/2+) 34.4 S 2 4264 10
109RU cP J,T$From Adopted Levels of {+109}Ru
109RU cP QP$From 2012Wa38
109RH N 0.207 11 1.00
109RH cN NR$weighted average of 0.199 14 and 0.219 17, deduced from %|g/fission
109RH2cN of 0.411% 10 (116.3|g) and 0.805% 40 (358.8|g) from 1969WiZX
109RH3cN and the cumulative fission yield of 5.96% 24 for {+109}Ru from
109RH4cN JEFF3.1.1 data library
109RH PN 5
109RH L 0.0 7/2+ 80.8 S 7
109RH cL T$From Adopted Levels
109RH B 8 6 6.6 4
109RHS B EAV=1854.5 48
109RH L 206.250 209/2+ 41 PS LT
109RH CL T$Other: LT 0.5 ns using |b-206|g(t) in 1998Lh02
109RH2CL (centroid shift method)
109RH G 206.29 3 100 5 M1 0.0476
109RH CG %IG=20.7 13, using the calculated normalization.
109RHS G KC=0.0415 6$LC=0.00497 7$MC=0.000924 13
109RHS G NC=0.0001533 22$OC=7.73E-6 11
109RH CG M$EKC=0.041 {i7} (1992PEZX).
109RH L 225.873 19 3/2+ 1.66 US 4
109RH cL T$from (116|g)(226|g)(t) in 1987Ka29.
109RH B 2.8 LT 6.9 GT
109RHS B EAV=1746.9 48
109RH G 225.98 3 89 5 E2 0.0741
109RH CG %IG=18.4 12, using the calculated normalization.
109RHS G KC=0.0628 9$LC=0.00928 13$MC=0.001739 25
109RHS G NC=0.000278 4$OC=1.029E-5 15
109RH CG M$EKC=0.062 {i11} (1992PEZX), 0.07 {i1} (1987KA29), 0.09 {i4}
109RH2CG (1977BA57)
109RH L 257.66 3 (3/2)+ 28.7 NS 15
109RH CL T$from (221|g)(32|g)(t) in 1987KA29
109RH B 3 LT 6.9 GT
109RHS B EAV=1731.8 48
109RH G 31.80 3 2.11 12M1+E2 0.60 9 29 5
109RH CG %IG=0.44 3, using the calculated normalization.
109RHS G KC=13.6 12$LC=12 3$MC=2.4 5
109RHS G NC=0.36 8$OC=0.00219 15
109RH CG M,MR$ECC 29 {i3} (1987KA29), EKC=13 {i4} (1987KA29) and
109RH2CG EKC= 17 {i+10-6} (1992PEZX).
109RH L 358.584 16 3/2+ 114.4 PS 13
109RH CL T$Others: LT 0.5 NS from |b-359|g(t) in 1998Lh02 (centroid shift
109RH2CL method) and LE 5 ns in 1987KA29.
109RH B 1.4 LT 7.1 GT
109RHS B EAV=1683.7 48
109RH cB E$E=3655 {i200} (1989Gr23)
109RH G 101.1 1 0.11 3 [M1] 0.333
109RH CG %IG=0.023 7, using the calculated normalization.
109RHS G KC=0.290 5$LC=0.0353 5$MC=0.00658 10
109RHS G NC=0.001090 16$OC=5.42E-5 8
109RH G 132.79 3 0.92 7 [M1] 0.1560
109RH CG %IG=0.190 18, using the calculated normalization.
109RHS G KC=0.1359 19$LC=0.01648 23$MC=0.00307 5
109RHS G NC=0.000508 8$OC=2.54E-5 4
109RH G 358.429 21 62 3 E2 0.01568
109RH CG E$From 1979Bo26
109RH CG %IG=12.8 9, using the calculated normalization.
109RHS G KC=0.01351 19$LC=0.001783 25$MC=0.000333 5
109RHS G NC=5.40E-5 8$OC=2.31E-6 4
109RH CG M$EKC=0.013 {i3} (1992PEZX)
109RH L 373.99 31/2- 33.5 NS 14
109RH CL T$weighted average of 33 NS 2 from (194|g)(116|g)(t) in 1987KA29
109RH2CL (slope method) and 34 ns {i2} from |b-374|g(t)
109RH3CL in 1998LH02 (slope method)
109RH B 0.6 LT 9.1 GT 1U
109RHS B EAV=1666.8 47
109RH G 116.32 3 34.7 17[E1] 0.0945
109RH CG %IG=7.2 5, using the calculated normalization.
109RHS G KC=0.0826 12$LC=0.00980 14$MC=0.00181 3
109RHS G NC=0.000295 5$OC=1.327E-5 19
109RH G 148.12 3 0.61 5 [E1] 0.0472
109RH CG %IG=0.126 12, using the calculated normalization.
109RHS G KC=0.0413 6$LC=0.00486 7$MC=0.000896 13
109RHS G NC=0.0001466 21$OC=6.78E-6 10
109RH L 409.74 3 7/2+ 0.49 NS 3
109RH cL T$Other: 0.43 ns 23 from |b-183.85|g(t) in 1998Lh02
109RH3cL (centroid shift method)
109RH B 0.77 13 7.38 8
109RHS B EAV=1659.5 48
109RH G 183.85 3 8.0 4 E2 0.1530
109RH CG %IG=1.65 12, using the calculated normalization.
109RHS G KC=0.1282 18$LC=0.0204 3$MC=0.00383 6
109RHS G NC=0.000608 9$OC=2.05E-5 3
109RH CG M$EKC=0.13 {i3} (1992PEZX)
109RH G 203.6 1 0.5 1 [M1] 0.0492
109RH CG %IG=0.103 22, using the calculated normalization.
109RHS G KC=0.0430 6$LC=0.00515 8$MC=0.000957 14
109RHS G NC=0.0001588 23$OC=8.01E-6 12
109RH G 409.7 1 1.1 1 [M1] 0.00826
109RH CG %IG=0.227 24, using the calculated normalization.
109RHS G KC=0.00723 11$LC=0.000848 12$MC=0.0001573 22
109RHS G NC=2.61E-5 4$OC=1.336E-6 19
109RH L 426.759 195/2+ 53 PS LT
109RH CL T$ Others: LT 0.5 ns
109RH2cL 427|g(t) in 1998Lh02 (centroid shift) and 8 ns 1
109RH3cL in 1987Ka29 (close to timing resolution of
109RH4cL Ge(Li) detectors)
109RH B 1.1 9 7.2 4
109RHS B EAV=1651.4 48
109RH G 68.07 3 13.4 7 M1 1.023
109RH CG %IG=2.77 20, using the calculated normalization.
109RHS G KC=0.890 13$LC=0.1094 16$MC=0.0204 3
109RHS G NC=0.00337 5$OC=0.0001668 24
109RH CG M$EKC=0.7 {i2} (1992PEZX).
109RH G 200.9 3 0.6 2 [M1] 0.0510
109RH CG %IG=0.12 5, using the calculated normalization.
109RHS G KC=0.0445 7$LC=0.00533 8$MC=0.000992 15
109RHS G NC=0.0001646 24$OC=8.29E-6 12
109RH G 220.6 3 2.7 7 [E2] 0.0806
109RH CG %IG=0.56 15, using the calculated normalization.
109RHS G KC=0.0683 10$LC=0.01015 16$MC=0.00190 3
109RHS G NC=0.000305 5$OC=1.114E-5 17
109RH G 426.84 5 47.7 24[M1] 0.00748
109RH CG %IG=9.9 7, using the calculated normalization.
109RHS G KC=0.00654 10$LC=0.000766 11$MC=0.0001421 20
109RHS G NC=2.36E-5 4$OC=1.208E-6 17
109RH L 478.28 3 (5/2)+ 174 PS 5
109RH CL T$ Other: LT 0.6 NS from |b-221|g(t)
109RH2cL in 1998Lh02 (centroid shift method)
109RH B 0.7 4 7.39 25
109RHS B EAV=1626.9 48
109RH G 119.60 5 0.68 7 [M1] 0.208
109RH CG %IG=0.141 16, using the calculated normalization.
109RHS G KC=0.181 3$LC=0.0220 3$MC=0.00410 6
109RHS G NC=0.000680 10$OC=3.39E-5 5
109RH G 220.64 5 11.0 14M1+E2 1.4 7 0.067 14
109RH CG %IG=2.3 3, using the calculated normalization.
109RHS G KC=0.057 12$LC=0.0081 20$MC=0.0015 4
109RHS G NC=0.00024 6$OC=9.6E-6 16
109RH CG M$EKC=0.057 {i11} (1992PEZX).
109RH G 252.45 5 6.3 4 [M1] 0.0280
109RH CG %IG=1.30 11, using the calculated normalization.
109RHS G KC=0.0245 4$LC=0.00291 4$MC=0.000542 8
109RHS G NC=8.99E-5 13$OC=4.55E-6 7
109RH G 272.1 1 0.5 2 [E2] 0.0392
109RH CG %IG=0.10 5, using the calculated normalization.
109RHS G KC=0.0335 5$LC=0.00469 7$MC=0.000877 13
109RHS G NC=0.0001413 20$OC=5.59E-6 8
109RH G 478.4 1 0.73 8 [M1] 0.00567
109RH CG %IG=0.151 18, using the calculated normalization.
109RHS G KC=0.00496 7$LC=0.000579 9$MC=0.0001074 15
109RHS G NC=1.78E-5 3$OC=9.15E-7 13
109RH L 530.66 7 11/2+
109RH G 324.4 1 2.20 24
109RH CG %IG=0.45 6, using the calculated normalization.
109RH G 530.7 1 0.58 7
109RH CG %IG=0.120 16, using the calculated normalization.
109RH L 568.10 43/2- 0.83 PS LT
109RH B 0.4 LT 7.6 GT
109RHS B EAV=1584.2 48
109RH G 194.10 5 9.0 13[M1] 0.0559
109RH CG %IG=1.9 3, using the calculated normalization.
109RHS G KC=0.0488 7$LC=0.00585 9$MC=0.001088 16
109RHS G NC=0.000180 3$OC=9.09E-6 13
109RH L 623.12 4 5/2- 223 PS 8
109RH B 0.5 LT 7.5 GT
109RHS B EAV=1558.1 48
109RH G 55.01 3 0.85 7 [M1] 1.89
109RH CG %IG=0.176 17, using the calculated normalization.
109RHS G KC=1.646 24$LC=0.203 3$MC=0.0378 6
109RHS G NC=0.00625 9$OC=0.000308 5
109RH G 249.2 1 6.6 10[E2] 0.0529
109RH CG %IG=1.36 22, using the calculated normalization.
109RHS G KC=0.0450 7$LC=0.00646 9$MC=0.001209 17
109RHS G NC=0.000194 3$OC=7.45E-6 11
109RH L 641.98 5 (11/2+)
109RH G 435.72 5 2.1 1 [M1] 0.00711
109RH CG %IG=0.43 3, using the calculated normalization.
109RHS G KC=0.00622 9$LC=0.000728 11$MC=0.0001351 19
109RHS G NC=2.24E-5 4$OC=1.149E-6 16
109RH L 671.876 22(5/2)+ 57 PS LT
109RH B 1.0 4 7.14 18
109RHS B EAV=1535.0 48
109RH G 245.09 3 11.7 8 (E2) 0.0560
109RH CG %IG=2.42 20, using the calculated normalization.
109RHS G KC=0.0476 7$LC=0.00686 10$MC=0.001285 18
109RHS G NC=0.000206 3$OC=7.87E-6 11
109RH CG M$EKC=0.07 {i2} (1992PEZX), but E1+M2
109RH2CG with |d =1.0 {i+4-3} is also possible
109RH G 465.65 3 11.4 6 [E2] 0.00698
109RH CG %IG=2.36 17, using the calculated normalization.
109RHS G KC=0.00605 9$LC=0.000764 11$MC=0.0001423 20
109RHS G NC=2.33E-5 4$OC=1.056E-6 15
109RH G 671.93 5 4.2 3 [M1] 0.00254
109RH CG %IG=0.87 8, using the calculated normalization.
109RHS G KC=0.00223 4$LC=0.000257 4$MC=4.77E-5 7
109RHS G NC=7.93E-6 12$OC=4.09E-7 6
109RH L 740.80 43/2- 57 PS LT
109RH B 0.31 19 7.6 3
109RHS B EAV=1502.3 48
109RH G 117.67 5 0.30 15[M1] 0.218
109RH CG %IG=0.06 4, using the calculated normalization.
109RHS G KC=0.190 3$LC=0.0231 4$MC=0.00429 6
109RHS G NC=0.000711 10$OC=3.55E-5 5
109RH G 172.71 3 2.20 13[M1] 0.0763
109RH CG %IG=0.45 4, using the calculated normalization.
109RHS G KC=0.0666 10$LC=0.00801 12$MC=0.001491 21
109RHS G NC=0.000247 4$OC=1.243E-5 18
109RH G 366.81 3 8.2 6 [M1] 0.01086
109RH CG %IG=1.69 15, using the calculated normalization.
109RHS G KC=0.00950 14$LC=0.001117 16$MC=0.000207 3
109RHS G NC=3.45E-5 5$OC=1.758E-6 25
109RH L 855.99 45/2- 51 PS LT
109RH B 0.27 16 7.6 3
109RHS B EAV=1447.8 48
109RH G 115.17 5 0.30 15[M1] 0.231
109RH CG %IG=0.06 4, using the calculated normalization.
109RHS G KC=0.201 3$LC=0.0245 4$MC=0.00456 7
109RHS G NC=0.000756 11$OC=3.77E-5 6
109RH G 232.87 3 2.53 18[M1] 0.0346
109RH CG %IG=0.52 5, using the calculated normalization.
109RHS G KC=0.0302 5$LC=0.00360 5$MC=0.000670 10
109RHS G NC=0.0001111 16$OC=5.62E-6 8
109RH G 287.89 5 1.46 13[M1] 0.0200
109RH CG %IG=0.30 3, using the calculated normalization.
109RHS G KC=0.01748 25$LC=0.00207 3$MC=0.000385 6
109RHS G NC=6.39E-5 9$OC=3.24E-6 5
109RH G 482.0 1 0.5 5 [E2] 0.00630
109RH CG %IG=0.10 11, using the calculated normalization.
109RHS G KC=0.00546 8$LC=0.000687 10$MC=0.0001278 18
109RHS G NC=2.09E-5 3$OC=9.55E-7 14
109RH L 861.00 8(9/2+)
109RH G 382.8 1 2.2 3 [E2] 0.01276
109RH CG %IG=0.45 7, using the calculated normalization.
109RHS G KC=0.01101 16$LC=0.001436 21$MC=0.000268 4
109RHS G NC=4.36E-5 7$OC=1.90E-6 3
109RH G 451.2 2 0.5 1 [M1] 0.00653
109RH CG %IG=0.103 22, using the calculated normalization.
109RHS G KC=0.00572 8$LC=0.000668 10$MC=0.0001240 18
109RHS G NC=2.06E-5 3$OC=1.055E-6 15
109RH G 860.9 3 0.30 9 [M1] 1.45E-3
109RH CG %IG=0.062 19, using the calculated normalization.
109RHS G KC=0.001269 18$LC=0.0001456 21$MC=2.70E-5 4
109RHS G NC=4.49E-6 7$OC=2.32E-7 4
109RH L 890.23 4 (9/2+)
109RH G 218.36 5 1.55 12[E2] 0.0836
109RH CG %IG=0.32 3, using the calculated normalization.
109RHS G KC=0.0707 10$LC=0.01055 15$MC=0.00198 3
109RHS G NC=0.000316 5$OC=1.153E-5 17
109RH G 463.4 1 1.0 4 [E2] 0.00708
109RH CG %IG=0.21 9, using the calculated normalization.
109RHS G KC=0.00614 9$LC=0.000776 11$MC=0.0001445 21
109RHS G NC=2.36E-5 4$OC=1.071E-6 15
109RH G 684.0 1 0.90 11[M1] 0.00244
109RH CG %IG=0.186 25, using the calculated normalization.
109RHS G KC=0.00214 3$LC=0.000247 4$MC=4.58E-5 7
109RHS G NC=7.61E-6 11$OC=3.93E-7 6
109RH G 890.3 3 9.6 10[M1] 1.34E-3
109RH CG %IG=1.98 23, using the calculated normalization.
109RHS G KC=0.001177 17$LC=0.0001350 19$MC=2.50E-5 4
109RHS G NC=4.16E-6 6$OC=2.16E-7 3
109RH L 926.76 4 5/2- 107 PS 13
109RH B 0.55 9 7.26 8
109RHS B EAV=1414.3 48
109RH G 185.95 3 0.47 10[M1] 0.0626
109RH CG %IG=0.097 22, using the calculated normalization.
109RHS G KC=0.0546 8$LC=0.00656 10$MC=0.001221 18
109RHS G NC=0.000203 3$OC=1.019E-5 15
109RH G 303.64 5 1.3 3 [M1] 0.01747
109RH CG %IG=0.27 7, using the calculated normalization.
109RHS G KC=0.01527 22$LC=0.00181 3$MC=0.000336 5
109RHS G NC=5.57E-5 8$OC=2.83E-6 4
109RH G 358.7 5 1.0 3 [M1] 0.01148
109RH CG %IG=0.21 7, using the calculated normalization.
109RHS G KC=0.01004 15$LC=0.001182 17$MC=0.000219 4
109RHS G NC=3.65E-5 6$OC=1.86E-6 3
109RH L 973.29 19 (7/2-)
109RH B 0.18 6 7.72 15
109RHS B EAV=1392.3 48
109RH G 350.2 2 0.5 2 [M1] 0.01219
109RH CG %IG=0.10 5, using the calculated normalization.
109RHS G KC=0.01066 15$LC=0.001256 18$MC=0.000233 4
109RHS G NC=3.87E-5 6$OC=1.97E-6 3
109RH G 405.0 5 0.4 2 [E2] 0.01069
109RH CG %IG=0.08 5, using the calculated normalization.
109RHS G KC=0.00923 14$LC=0.001193 18$MC=0.000222 4
109RHS G NC=3.62E-5 6$OC=1.597E-6 24
109RH L 980.71 4 (1/2) 69 PS LT
109RH G 239.90 3 4.9 3
109RH CG %IG=1.01 8, using the calculated normalization.
109RH G 606.7 1 0.5 2
109RH CG %IG=0.10 5, using the calculated normalization.
109RH G 621.9 3 2.2 7
109RH CG %IG=0.45 15, using the calculated normalization.
109RH G 723.0 2 0.48 9
109RH CG %IG=0.099 20, using the calculated normalization.
109RH G 754.85 5 1.06 11
109RH CG %IG=0.22 3, using the calculated normalization.
109RH L 1011.60 4(3/2)+
109RH B 0.67 18 7.12 12
109RHS B EAV=1374.3 48
109RH G 584.8 1 0.67 9 [M1] 0.00351
109RH CG %IG=0.138 20, using the calculated normalization.
109RHS G KC=0.00308 5$LC=0.000357 5$MC=6.62E-5 10
109RHS G NC=1.101E-5 16$OC=5.66E-7 8
109RH G 1011.7 1 12.1 7 [E2] 9.19E-4
109RH CG %IG=2.50 19, using the calculated normalization.
109RHS G KC=0.000805 12$LC=9.39E-5 14$MC=1.741E-5 25
109RHS G NC=2.88E-6 4$OC=1.444E-7 21
109RH L 1026.46 3 (5/2,7/2)+
109RH B 5.5 5 6.20 4
109RHS B EAV=1367.2 48
109RH cB E$E=3100 {i110} (1989Gr23)
109RH G 354.5 3 0.6 2 [M1] 0.01183
109RH CG %IG=0.12 5, using the calculated normalization.
109RHS G KC=0.01034 15$LC=0.001217 18$MC=0.000226 4
109RHS G NC=3.76E-5 6$OC=1.91E-6 3
109RH G 599.66 5 1.65 13[M1] 0.00331
109RH CG %IG=0.34 4, using the calculated normalization.
109RHS G KC=0.00290 4$LC=0.000336 5$MC=6.24E-5 9
109RHS G NC=1.037E-5 15$OC=5.34E-7 8
109RH G 616.7 1 0.90 10[M1] 0.00310
109RH CG %IG=0.186 23, using the calculated normalization.
109RHS G KC=0.00272 4$LC=0.000315 5$MC=5.84E-5 9
109RHS G NC=9.70E-6 14$OC=5.00E-7 7
109RH G 667.5 3 1.14 11[M1,E2] 0.002565
109RH CG %IG=0.24 3, using the calculated normalization.
109RHS G KC=0.00223 5$LC=0.000264 5$MC=4.90E-5 9
109RHS G NC=8.11E-6 13$OC=4.04E-7 13
109RH G 800.5 2 0.60 10[M1,E2] 0.001656
109RH CG %IG=0.124 22, using the calculated normalization.
109RHS G KC=0.00144 6$LC=0.000169 4$MC=3.13E-5 7
109RHS G NC=5.18E-6 14$OC=2.61E-7 13
109RH G 820.20 5 19.8 12[M1,E2] 0.001566
109RH CG %IG=4.1 4, using the calculated normalization.
109RHS G KC=0.00136 6$LC=0.000159 4$MC=2.95E-5 8
109RHS G NC=4.89E-6 14$OC=2.47E-7 13
109RH G 1026.49 5 7.1 4 [M1] 9.80E-4
109RH CG %IG=1.47 11, using the calculated normalization.
109RHS G KC=0.000861 12$LC=9.83E-5 14$MC=1.82E-5 3
109RHS G NC=3.03E-6 5$OC=1.573E-7 22
109RH L 1051.20 5 (1/2,3/2,5/2-) 27 PS 12
109RH B 0.24 11 7.55 20
109RHS B EAV=1355.5 48
109RH G 310.39 5 1.24 12[M1] 0.01652
109RH CG %IG=0.26 3, using the calculated normalization.
109RHS G KC=0.01444 21$LC=0.001707 24$MC=0.000317 5
109RHS G NC=5.27E-5 8$OC=2.68E-6 4
109RH G 677.2 1 3.8 3
109RH CG %IG=0.79 8, using the calculated normalization.
109RH G 692.5 5 0.26 13
109RH CG %IG=0.05 3, using the calculated normalization.
109RH L 1053.26 4 5/2+,7/2+
109RH B 3.3 3 6.41 4
109RHS B EAV=1354.6 48
109RH G 381.4 1 1.2 3 [M1] 0.00986
109RH CG %IG=0.25 7, using the calculated normalization.
109RHS G KC=0.00863 12$LC=0.001013 15$MC=0.000188 3
109RHS G NC=3.12E-5 5$OC=1.595E-6 23
109RH G 575.0 1 0.59 9 [M1] 0.00366
109RH CG %IG=0.122 20, using the calculated normalization.
109RHS G KC=0.00320 5$LC=0.000372 6$MC=6.89E-5 10
109RHS G NC=1.146E-5 16$OC=5.89E-7 9
109RH G 626.4 1 1.69 14[M1] 0.00299
109RH CG %IG=0.35 4, using the calculated normalization.
109RHS G KC=0.00262 4$LC=0.000303 5$MC=5.62E-5 8
109RHS G NC=9.35E-6 13$OC=4.82E-7 7
109RH G 643.50 5 2.9 2 [M1] 0.00281
109RH CG %IG=0.60 5, using the calculated normalization.
109RHS G KC=0.00246 4$LC=0.000285 4$MC=5.28E-5 8
109RHS G NC=8.78E-6 13$OC=4.52E-7 7
109RH G 827.3 3 2.77 22[M1,E2] 0.001536
109RH CG %IG=0.57 6, using the calculated normalization.
109RHS G KC=0.00134 6$LC=0.000156 5$MC=2.89E-5 8
109RHS G NC=4.79E-6 14$OC=2.42E-7 13
109RH G 847.0 1 5.1 10[M1,E2] 0.001456
109RH CG %IG=1.05 21, using the calculated normalization.
109RHS G KC=0.00127 6$LC=0.000147 5$MC=2.73E-5 8
109RHS G NC=4.53E-6 14$OC=2.29E-7 13
109RH G 1053.4 1 4.2 3 [M1] 9.27E-4
109RH CG %IG=0.87 8, using the calculated normalization.
109RHS G KC=0.000813 12$LC=9.29E-5 13$MC=1.720E-5 24
109RHS G NC=2.86E-6 4$OC=1.487E-7 21
109RH L 1096.25 4 (9/2)+
109RH G 454.6 3 0.2 1 [M1] 0.00641
109RH CG %IG=0.041 21, using the calculated normalization.
109RHS G KC=0.00561 8$LC=0.000656 10$MC=0.0001217 18
109RHS G NC=2.02E-5 3$OC=1.036E-6 15
109RH G 565.7 3 0.9 3 [M1] 0.00380
109RH CG %IG=0.19 7, using the calculated normalization.
109RHS G KC=0.00333 5$LC=0.000386 6$MC=7.16E-5 10
109RHS G NC=1.191E-5 17$OC=6.12E-7 9
109RH G 890.1 3 1.5 4 [M1] 1.34E-3
109RH CG %IG=0.31 9, using the calculated normalization.
109RHS G KC=0.001178 17$LC=0.0001351 19$MC=2.50E-5 4
109RHS G NC=4.16E-6 6$OC=2.16E-7 3
109RH G 1096.30 5 2.2 4 [M1] 8.50E-4
109RH CG %IG=0.45 9, using the calculated normalization.
109RHS G KC=0.000746 11$LC=8.51E-5 12$MC=1.576E-5 22
109RHS G NC=2.62E-6 4$OC=1.363E-7 19
109RH L 1162.19 19 (3/2-)
109RH B 0.10 7 7.9 3
109RHS B EAV=1303.2 48
109RH G 803.5 5 0.9 3 [E1] 6.22E-4
109RH CG %IG=0.19 7, using the calculated normalization.
109RHS G KC=0.000547 8$LC=6.21E-5 9$MC=1.147E-5 17
109RHS G NC=1.90E-6 3$OC=9.71E-8 14
109RH L 1176.97 11 3/2+,5/2,7/2+
109RH B 0.19 8 7.58 19
109RHS B EAV=1296.2 48
109RH G 750.2 5 0.6 2
109RH CG %IG=0.12 5, using the calculated normalization.
109RH G 818.3 2 1.09 13
109RH CG %IG=0.23 3, using the calculated normalization.
109RH G 1177.0 3 0.50 13
109RH CG %IG=0.10 3, using the calculated normalization.
109RH L 1214.19 16 (3/2)-
109RH B 0.08 6 7.9 4
109RHS B EAV=1278.7 47
109RH G 646.0 5 0.4 2 [M1] 0.00278
109RH CG %IG=0.08 5, using the calculated normalization.
109RHS G KC=0.00244 4$LC=0.000282 4$MC=5.23E-5 8
109RHS G NC=8.70E-6 13$OC=4.48E-7 7
109RH G 840.2 3 0.77 23[M1] 1.53E-3
109RH CG %IG=0.16 5, using the calculated normalization.
109RHS G KC=0.001340 19$LC=0.0001539 22$MC=2.85E-5 4
109RHS G NC=4.74E-6 7$OC=2.45E-7 4
109RH L 1229.48 7 (7/2+)
109RH B 0.58 7 7.06 6
109RHS B EAV=1271.5 47
109RH G 699.0 5 0.18 9 [E2] 0.00225
109RH CG %IG=0.037 19, using the calculated normalization.
109RHS G KC=0.00196 3$LC=0.000236 4$MC=4.38E-5 7
109RHS G NC=7.21E-6 11$OC=3.48E-7 5
109RH G 751.0 5 0.31 16[M1] 0.00197
109RH CG %IG=0.06 4, using the calculated normalization.
109RHS G KC=0.001726 25$LC=0.000199 3$MC=3.68E-5 6
109RHS G NC=6.13E-6 9$OC=3.17E-7 5
109RH G 802.7 2 0.3 2 [M1] 1.69E-3
109RH CG %IG=0.06 5, using the calculated normalization.
109RHS G KC=0.001485 21$LC=0.0001707 24$MC=3.16E-5 5
109RHS G NC=5.26E-6 8$OC=2.72E-7 4
109RH G 819.8 5 0.25 10[M1] 1.61E-3
109RH CG %IG=0.052 21, using the calculated normalization.
109RHS G KC=0.001416 20$LC=0.0001627 23$MC=3.01E-5 5
109RHS G NC=5.02E-6 7$OC=2.59E-7 4
109RH G 1023.2 1 1.18 15[M1] 9.87E-4
109RH CG %IG=0.24 4, using the calculated normalization.
109RHS G KC=0.000867 13$LC=9.90E-5 14$MC=1.83E-5 3
109RHS G NC=3.05E-6 5$OC=1.584E-7 23
109RH G 1229.5 1 0.82 13[M1] 6.74E-4
109RH CG %IG=0.17 3, using the calculated normalization.
109RHS G KC=0.000584 9$LC=6.64E-5 10$MC=1.230E-5 18
109RHS G NC=2.05E-6 3$OC=1.065E-7 15$IPC=9.75E-6 14
109RH L 1283.86 6 (7/2-)
109RH B 1.42 14 6.64 5
109RHS B EAV=1245.9 47
109RH G 612.2 2 0.52 10[E1] 1.12E-3
109RH CG %IG=0.107 22, using the calculated normalization.
109RHS G KC=0.000981 14$LC=0.0001120 16$MC=2.07E-5 3
109RHS G NC=3.43E-6 5$OC=1.734E-7 25
109RH G 874.0 3 0.36 14[E1] 5.25E-4
109RH CG %IG=0.07 3, using the calculated normalization.
109RHS G KC=0.000461 7$LC=5.22E-5 8$MC=9.66E-6 14
109RHS G NC=1.603E-6 23$OC=8.20E-8 12
109RH G 1077.6 1 4.5 5 [E1] 3.50E-4
109RH CG %IG=0.93 12, using the calculated normalization.
109RHS G KC=0.000308 5$LC=3.47E-5 5$MC=6.42E-6 9
109RHS G NC=1.067E-6 15$OC=5.48E-8 8
109RH G 1283.9 1 2.91 24[E1] 3.43E-4
109RH CG %IG=0.60 6, using the calculated normalization.
109RHS G KC=0.000225 4$LC=2.52E-5 4$MC=4.66E-6 7
109RHS G NC=7.75E-7 11$OC=4.00E-8 6$IPC=8.81E-5 13
109RH L 1310.72 3 (3/2+) 54 PS 10
109RH B 0.24 10 7.39 19
109RHS B EAV=1233.3 47
109RH G 638.9 2 0.25 7 [E2] 0.00285
109RH CG %IG=0.052 15, using the calculated normalization.
109RHS G KC=0.00248 4$LC=0.000301 5$MC=5.59E-5 8
109RHS G NC=9.21E-6 13$OC=4.40E-7 7
109RH G 832.5 2 0.46 10[M1] 1.56E-3
109RH CG %IG=0.095 22, using the calculated normalization.
109RHS G KC=0.001368 20$LC=0.0001571 22$MC=2.91E-5 4
109RHS G NC=4.84E-6 7$OC=2.51E-7 4
109RH G 883.94 5 1.51 15[M1] 1.36E-3
109RH CG %IG=0.31 4, using the calculated normalization.
109RHS G KC=0.001196 17$LC=0.0001372 20$MC=2.54E-5 4
109RHS G NC=4.23E-6 6$OC=2.19E-7 3
109RH G 952.00 5 4.2 3 [M1] 1.16E-3
109RH CG %IG=0.87 8, using the calculated normalization.
109RHS G KC=0.001015 15$LC=0.0001162 17$MC=2.15E-5 3
109RHS G NC=3.58E-6 5$OC=1.86E-7 3
109RH L 1412.53 9 (1/2+)
109RH G 985.8 2 0.58 10[E2] 9.75E-4
109RH CG %IG=0.120 22, using the calculated normalization.
109RHS G KC=0.000854 12$LC=9.98E-5 14$MC=1.85E-5 3
109RHS G NC=3.06E-6 5$OC=1.530E-7 22
109RH G 1054.0 5 0.8 3 [M1] 9.25E-4
109RH CG %IG=0.17 7, using the calculated normalization.
109RHS G KC=0.000812 12$LC=9.28E-5 13$MC=1.718E-5 25
109RHS G NC=2.86E-6 4$OC=1.485E-7 21
109RH G 1155.0 5 0.6 3 [M1] 7.62E-4
109RH CG %IG=0.12 7, using the calculated normalization.
109RHS G KC=0.000667 10$LC=7.60E-5 11$MC=1.407E-5 20
109RHS G NC=2.34E-6 4$OC=1.218E-7 17$IPC=2.33E-6 5
109RH G 1186.7 3 0.3 1 [M1] 7.21E-4
109RH CG %IG=0.062 21, using the calculated normalization.
109RHS G KC=0.000629 9$LC=7.17E-5 10$MC=1.327E-5 19
109RHS G NC=2.21E-6 3$OC=1.149E-7 16$IPC=4.75E-6 8
109RH L 1511.512 25 7/2+ 23 PS LT
109RH B 8.8 7 5.70 4
109RHS B EAV=1139.1 47
109RH cB E$E=2600 {i110} (1989Gr23)
109RH G 200.74 3 2.0 2 [E2] 0.1122
109RH CG %IG=0.41 5, using the calculated normalization.
109RHS G KC=0.0945 14$LC=0.01452 21$MC=0.00273 4
109RHS G NC=0.000434 6$OC=1.525E-5 22
109RH G 415.34 5 1.2 5 [M1] 0.00799
109RH CG %IG=0.25 11, using the calculated normalization.
109RHS G KC=0.00699 10$LC=0.000819 12$MC=0.0001521 22
109RHS G NC=2.53E-5 4$OC=1.292E-6 18
109RH G 458.3 2 0.3 1 [M1] 0.00629
109RH CG %IG=0.062 21, using the calculated normalization.
109RHS G KC=0.00550 8$LC=0.000643 9$MC=0.0001193 17
109RHS G NC=1.98E-5 3$OC=1.015E-6 15
109RH G 485.04 5 1.09 10[M1] 0.00548
109RH CG %IG=0.225 24, using the calculated normalization.
109RHS G KC=0.00480 7$LC=0.000560 8$MC=0.0001039 15
109RHS G NC=1.726E-5 25$OC=8.85E-7 13
109RH G 499.94 5 3.13 25[E2] 0.00566
109RH CG %IG=0.65 6, using the calculated normalization.
109RHS G KC=0.00491 7$LC=0.000614 9$MC=0.0001143 16
109RHS G NC=1.87E-5 3$OC=8.60E-7 12
109RH G 621.3 3 3.60 11[M1] 0.00305
109RH CG %IG=0.74 5, using the calculated normalization.
109RHS G KC=0.00267 4$LC=0.000309 5$MC=5.73E-5 8
109RHS G NC=9.53E-6 14$OC=4.91E-7 7
109RH G 839.8 3 3.3 8 [M1] 1.53E-3
109RH CG %IG=0.68 17, using the calculated normalization.
109RHS G KC=0.001341 19$LC=0.0001540 22$MC=2.85E-5 4
109RHS G NC=4.75E-6 7$OC=2.46E-7 4
109RH G 869.5 2 0.50 10[E2] 1.31E-3
109RH CG %IG=0.103 22, using the calculated normalization.
109RHS G KC=0.001142 16$LC=0.0001347 19$MC=2.50E-5 4
109RHS G NC=4.13E-6 6$OC=2.04E-7 3
109RH G 980.8 2 0.79 11[E2] 9.86E-4
109RH CG %IG=0.163 24, using the calculated normalization.
109RHS G KC=0.000863 12$LC=0.0001010 15$MC=1.87E-5 3
109RHS G NC=3.10E-6 5$OC=1.548E-7 22
109RH G 1033.2 1 0.50 10[M1] 9.66E-4
109RH CG %IG=0.103 22, using the calculated normalization.
109RHS G KC=0.000848 12$LC=9.69E-5 14$MC=1.80E-5 3
109RHS G NC=2.99E-6 5$OC=1.551E-7 22
109RH G 1084.7 1 2.0 3 [M1] 8.70E-4
109RH CG %IG=0.41 7, using the calculated normalization.
109RHS G KC=0.000763 11$LC=8.71E-5 13$MC=1.614E-5 23
109RHS G NC=2.69E-6 4$OC=1.395E-7 20
109RH G 1152.9 1 1.85 18[E2] 6.92E-4
109RH CG %IG=0.38 5, using the calculated normalization.
109RHS G KC=0.000604 9$LC=6.99E-5 10$MC=1.296E-5 19
109RHS G NC=2.15E-6 3$OC=1.086E-7 16$IPC=2.71E-6 4
109RH G 1305.3 1 22.1 12[M1] 6.08E-4
109RH CG %IG=4.6 4, using the calculated normalization.
109RHS G KC=0.000514 8$LC=5.85E-5 9$MC=1.082E-5 16
109RHS G NC=1.80E-6 3$OC=9.38E-8 14$IPC=2.20E-5 3
109RH G 1511.7 1 3.1 5 [M1] 5.07E-4
109RH CG %IG=0.64 11, using the calculated normalization.
109RHS G KC=0.000379 6$LC=4.30E-5 6$MC=7.95E-6 12
109RHS G NC=1.324E-6 19$OC=6.90E-8 10$IPC=7.55E-5 11
109RH L 1576.33 4 5/2+,7/2+ 80 PS LT
109RH B 2.11 17 6.28 4
109RHS B EAV=1108.7 47
109RH G 265.61 3 2.25 14[M1] 0.0246
109RH CG %IG=0.47 4, using the calculated normalization.
109RHS G KC=0.0215 3$LC=0.00255 4$MC=0.000474 7
109RHS G NC=7.87E-5 11$OC=3.99E-6 6
109RH G 480.1 2 0.75 8 [M1,E2] 0.0060 4
109RH CG %IG=0.155 19, using the calculated normalization.
109RHS G KC=0.0052 4$LC=0.00063 7$MC=0.000118 12
109RHS G NC=1.94E-5 18$OC=9.4E-7 4
109RH G 564.5 5 1.0 3 [M1,E2] 0.0039111
109RH CG %IG=0.21 7, using the calculated normalization.
109RHS G KC=0.00341 8$LC=0.000408 21$MC=7.6E-5 4
109RHS G NC=1.25E-5 6$OC=6.14E-7 9
109RH G 686.1 1 2.08 17[M1] 0.00242
109RH CG %IG=0.43 4, using the calculated normalization.
109RHS G KC=0.00212 3$LC=0.000245 4$MC=4.54E-5 7
109RHS G NC=7.56E-6 11$OC=3.90E-7 6
109RH G 904.6 2 1.73 7 [M1] 1.30E-3
109RH CG %IG=0.358 23, using the calculated normalization.
109RHS G KC=0.001136 16$LC=0.0001302 19$MC=2.41E-5 4
109RHS G NC=4.02E-6 6$OC=2.08E-7 3
109RH G 1098.0 2 0.90 16[M1] 8.47E-4
109RH CG %IG=0.19 4, using the calculated normalization.
109RHS G KC=0.000744 11$LC=8.48E-5 12$MC=1.571E-5 22
109RHS G NC=2.62E-6 4$OC=1.358E-7 19
109RH G 1166.5 2 0.38 10[M1] 7.47E-4
109RH CG %IG=0.079 21, using the calculated normalization.
109RHS G KC=0.000653 10$LC=7.44E-5 11$MC=1.377E-5 20
109RHS G NC=2.29E-6 4$OC=1.192E-7 17$IPC=3.08E-6 5
109RH G 1370.1 1 2.34 21[M1,E2] 5.43E-423
109RH CG %IG=0.48 5, using the calculated normalization.
109RHS G KC=0.000443 23$LC=5.06E-5 24$MC=9.4E-6 5
109RHS G NC=1.56E-6 8$OC=8.0E-8 5$IPC=3.9E-5 4
109RH G 1576.5 5 0.6 3 [M1] 4.94E-4
109RH CG %IG=0.12 7, using the calculated normalization.
109RHS G KC=0.000348 5$LC=3.94E-5 6$MC=7.29E-6 11
109RHS G NC=1.214E-6 17$OC=6.33E-8 9$IPC=9.84E-5 14
109RH L 1637.97 17 (3/2)-
109RH B 0.06 4 7.8 3
109RHS B EAV=1079.9 47
109RH G 1279.3 3 1.01 15[E1] 3.42E-4
109RH CG %IG=0.21 4, using the calculated normalization.
109RHS G KC=0.000226 4$LC=2.54E-5 4$MC=4.69E-6 7
109RHS G NC=7.80E-7 11$OC=4.02E-8 6$IPC=8.53E-5 12
109RH L 1929.07 3 7/2+ 32 PS LT
109RH B 19.9 13 5.05 3
109RHS B EAV=944.6 47
109RH cB E$E=2280 {i80} (1989Gr23)
109RH G 352.9 1 1.07 16[M1] 0.01196
109RH CG %IG=0.22 4, using the calculated normalization.
109RHS G KC=0.01046 15$LC=0.001231 18$MC=0.000229 4
109RHS G NC=3.80E-5 6$OC=1.94E-6 3
109RH G 618.5 5 0.45 23[E2] 0.00311
109RH CG %IG=0.09 5, using the calculated normalization.
109RHS G KC=0.00270 4$LC=0.000330 5$MC=6.12E-5 9
109RHS G NC=1.007E-5 15$OC=4.79E-7 7
109RH G 645.3 1 0.92 12[E1] 9.94E-4
109RH CG %IG=0.19 3, using the calculated normalization.
109RHS G KC=0.000872 13$LC=9.95E-5 14$MC=1.84E-5 3
109RHS G NC=3.05E-6 5$OC=1.544E-7 22
109RH G 875.8 1 1.01 20[M1] 1.39E-3
109RH CG %IG=0.21 5, using the calculated normalization.
109RHS G KC=0.001221 17$LC=0.0001401 20$MC=2.60E-5 4
109RHS G NC=4.32E-6 6$OC=2.24E-7 4
109RH G 902.6 1 2.23 20[M1] 1.30E-3
109RH CG %IG=0.46 5, using the calculated normalization.
109RHS G KC=0.001142 16$LC=0.0001309 19$MC=2.43E-5 4
109RHS G NC=4.04E-6 6$OC=2.09E-7 3
109RH G 917.5 1 3.08 23[E2] 1.15E-3
109RH CG %IG=0.64 6, using the calculated normalization.
109RHS G KC=0.001006 14$LC=0.0001183 17$MC=2.19E-5 3
109RHS G NC=3.63E-6 5$OC=1.80E-7 3
109RH G 1038.8 1 1.33 14[M1] 9.55E-4
109RH CG %IG=0.27 4, using the calculated normalization.
109RHS G KC=0.000838 12$LC=9.58E-5 14$MC=1.774E-5 25
109RHS G NC=2.95E-6 5$OC=1.533E-7 22
109RH G 1068.0 5 0.4 2 [M1] 8.99E-4
109RH CG %IG=0.08 5, using the calculated normalization.
109RHS G KC=0.000789 11$LC=9.01E-5 13$MC=1.669E-5 24
109RHS G NC=2.78E-6 4$OC=1.443E-7 21
109RH G 1257.2 1 4.4 3 [M1] 6.48E-4
109RH CG %IG=0.91 8, using the calculated normalization.
109RHS G KC=0.000557 8$LC=6.33E-5 9$MC=1.173E-5 17
109RHS G NC=1.95E-6 3$OC=1.016E-7 15$IPC=1.380E-5 20
109RH G 1287.0 1 1.23 15[E2] 5.69E-4
109RH CG %IG=0.25 4, using the calculated normalization.
109RHS G KC=0.000479 7$LC=5.51E-5 8$MC=1.021E-5 15
109RHS G NC=1.694E-6 24$OC=8.62E-8 12$IPC=2.23E-5 4
109RH G 1398.6 3 0.72 13[E2] 5.11E-4
109RH CG %IG=0.15 3, using the calculated normalization.
109RHS G KC=0.000405 6$LC=4.63E-5 7$MC=8.58E-6 12
109RHS G NC=1.424E-6 20$OC=7.28E-8 11$IPC=4.96E-5 7
109RH G 1450.5 2 0.8 3 [M1] 5.26E-4
109RH CG %IG=0.17 7, using the calculated normalization.
109RHS G KC=0.000413 6$LC=4.68E-5 7$MC=8.67E-6 13
109RHS G NC=1.443E-6 21$OC=7.52E-8 11$IPC=5.65E-5 8
109RH G 1502.28 5 18.3 11[M1] 5.09E-4
109RH CG %IG=3.8 3, using the calculated normalization.
109RHS G KC=0.000384 6$LC=4.35E-5 6$MC=8.06E-6 12
109RHS G NC=1.341E-6 19$OC=6.99E-8 10$IPC=7.24E-5 11
109RH G 1570.4 2 0.82 15[E2] 4.76E-4
109RH CG %IG=0.17 4, using the calculated normalization.
109RHS G KC=0.000322 5$LC=3.67E-5 6$MC=6.78E-6 10
109RHS G NC=1.127E-6 16$OC=5.79E-8 9$IPC=0.0001096 16
109RH G 1722.8 1 4.8 4 [M1] 4.86E-4
109RH CG %IG=0.99 10, using the calculated normalization.
109RHS G KC=0.000291 4$LC=3.29E-5 5$MC=6.08E-6 9
109RHS G NC=1.013E-6 15$OC=5.29E-8 8$IPC=0.0001556 22
109RH G 1929.06 5 62 3 [M1] 5.10E-4
109RH CG %IG=12.8 9, using the calculated normalization.
109RHS G KC=0.000232 4$LC=2.62E-5 4$MC=4.84E-6 7
109RHS G NC=8.07E-7 12$OC=4.22E-8 6$IPC=0.000246 4
109RH L 1963.40 5(5/2)+ 32 PS LT
109RH B 9.5 8 5.34 4
109RHS B EAV=928.7 47
109RH cB E$E=2295 {i210} (1989Gr23)
109RH G 652.5 1 0.2 1 [M1] 0.00272
109RH CG %IG=0.041 21, using the calculated normalization.
109RHS G KC=0.00238 4$LC=0.000276 4$MC=5.11E-5 8
109RHS G NC=8.50E-6 12$OC=4.38E-7 7
109RH G 1073.2 1 3.8 3 [E2] 8.06E-4
109RH CG %IG=0.79 8, using the calculated normalization.
109RHS G KC=0.000706 10$LC=8.21E-5 12$MC=1.521E-5 22
109RHS G NC=2.52E-6 4$OC=1.268E-7 18
109RH G 1291.5 1 2.4 3 [M1] 6.18E-4
109RH CG %IG=0.50 7, using the calculated normalization.
109RHS G KC=0.000526 8$LC=5.98E-5 9$MC=1.107E-5 16
109RHS G NC=1.84E-6 3$OC=9.59E-8 14$IPC=1.95E-5 3
109RH G 1485.0 5 0.6 3 [M1] 5.14E-4
109RH CG %IG=0.12 7, using the calculated normalization.
109RHS G KC=0.000393 6$LC=4.46E-5 7$MC=8.25E-6 12
109RHS G NC=1.374E-6 20$OC=7.16E-8 10$IPC=6.69E-5 10
109RH G 1536.7 1 17 3 [M1] 5.01E-4
109RH CG %IG=3.5 7, using the calculated normalization.
109RHS G KC=0.000367 6$LC=4.15E-5 6$MC=7.69E-6 11
109RHS G NC=1.280E-6 18$OC=6.67E-8 10$IPC=8.41E-5 12
109RH G 1757.1 1 14.4 9 [E2] 4.85E-4
109RH CG %IG=2.98 24, using the calculated normalization.
109RHS G KC=0.000259 4$LC=2.94E-5 5$MC=5.44E-6 8
109RHS G NC=9.05E-7 13$OC=4.66E-8 7$IPC=0.000190 3
109RH G 1963.5 1 11.3 9 [M1] 5.17E-4
109RH CG %IG=2.34 22, using the calculated normalization.
109RHS G KC=0.000224 4$LC=2.53E-5 4$MC=4.68E-6 7
109RHS G NC=7.79E-7 11$OC=4.07E-8 6$IPC=0.000262 4
109RH L 1971.87 12(5/2)+
109RH B 2.3 4 5.95 8
109RHS B EAV=924.8 47
109RH G 960.5 5 0.29 15[M1] 1.13E-3
109RH CG %IG=0.06 4, using the calculated normalization.
109RHS G KC=0.000995 14$LC=0.0001139 16$MC=2.11E-5 3
109RHS G NC=3.51E-6 5$OC=1.82E-7 3
109RH G 1081.5 5 0.6 3 [E2] 8.75E-4
109RH CG %IG=0.12 7, using the calculated normalization.
109RHS G KC=0.000768 11$LC=8.77E-5 13$MC=1.624E-5 23
109RHS G NC=2.70E-6 4$OC=1.404E-7 20
109RH G 1545.0 2 1.10 16[M1] 5.00E-4
109RH CG %IG=0.23 4, using the calculated normalization.
109RHS G KC=0.000363 5$LC=4.11E-5 6$MC=7.60E-6 11
109RHS G NC=1.266E-6 18$OC=6.60E-8 10$IPC=8.70E-5 13
109RH G 1765.7 3 7.9 16[E2] 4.86E-4
109RH CG %IG=1.6 4, using the calculated normalization.
109RHS G KC=0.000257 4$LC=2.91E-5 4$MC=5.39E-6 8
109RHS G NC=8.96E-7 13$OC=4.62E-8 7$IPC=0.000194 3
109RH G 1971.9 2 2.04 22[M1] 5.18E-4
109RH CG %IG=0.42 5, using the calculated normalization.
109RHS G KC=0.000222 4$LC=2.51E-5 4$MC=4.64E-6 7
109RHS G NC=7.72E-7 11$OC=4.04E-8 6$IPC=0.000266 4
109RH L 2015.41 8 (3/2)
109RH B 1.37 14 6.14 5
109RHS B EAV=904.7 47
109RH G 838.4 2 0.5 2
109RH CG %IG=0.10 5, using the calculated normalization.
109RH G 1274.6 4 0.29 12
109RH CG %IG=0.060 25, using the calculated normalization.
109RH G 1537.0 5 0.9 4
109RH CG %IG=0.19 9, using the calculated normalization.
109RH G 1588.7 2 0.76 18
109RH CG %IG=0.16 4, using the calculated normalization.
109RH G 1641.5 3 0.28 14
109RH CG %IG=0.06 3, using the calculated normalization.
109RH G 1656.8 1 3.2 3
109RH CG %IG=0.66 7, using the calculated normalization.
109RH G 1789.5 3 1.23 16
109RH CG %IG=0.25 4, using the calculated normalization.
109RH L 2045.54 15 (3/2)-
109RH B 0.63 6 6.45 5
109RHS B EAV=890.8 47
109RH G 1567.2 2 1.96 18[E1] 4.71E-4
109RH CG %IG=0.41 5, using the calculated normalization.
109RHS G KC=0.0001600 23$LC=1.79E-5 3$MC=3.31E-6 5
109RHS G NC=5.50E-7 8$OC=2.85E-8 4$IPC=0.000289 4
109RH G 1819.7 2 1.32 13[E1] 6.24E-4
109RH CG %IG=0.27 3, using the calculated normalization.
109RHS G KC=0.0001258 18$LC=1.404E-5 20$MC=2.59E-6 4
109RHS G NC=4.31E-7 6$OC=2.24E-8 4$IPC=0.000482 7
109RH L 2093.91 4(3/2+) 40 PS LT
109RH B 9.9 7 5.22 4
109RHS B EAV=868.5 46
109RH G 455.9 2 0.74 10[E1] 0.00223
109RH CG %IG=0.153 22, using the calculated normalization.
109RHS G KC=0.00196 3$LC=0.000225 4$MC=4.17E-5 6
109RHS G NC=6.89E-6 10$OC=3.44E-7 5
109RH G 681.4 1 2.29 18[M1] 0.00246
109RH CG %IG=0.47 5, using the calculated normalization.
109RHS G KC=0.00216 3$LC=0.000249 4$MC=4.62E-5 7
109RHS G NC=7.68E-6 11$OC=3.96E-7 6
109RH G 879.7 2 0.74 10[E1] 5.18E-4
109RH CG %IG=0.153 22, using the calculated normalization.
109RHS G KC=0.000455 7$LC=5.16E-5 8$MC=9.53E-6 14
109RHS G NC=1.582E-6 23$OC=8.09E-8 12
109RH G 931.7 2 0.35 17[E1] 4.62E-4
109RH CG %IG=0.07 4, using the calculated normalization.
109RHS G KC=0.000407 6$LC=4.60E-5 7$MC=8.50E-6 12
109RHS G NC=1.411E-6 20$OC=7.23E-8 11
109RH G 1042.7 2 2.5 4
109RH CG %IG=0.52 9, using the calculated normalization.
109RH G 1082.2 1 1.40 21[M1] 8.74E-4
109RH CG %IG=0.29 5, using the calculated normalization.
109RHS G KC=0.000767 11$LC=8.76E-5 13$MC=1.622E-5 23
109RHS G NC=2.70E-6 4$OC=1.402E-7 20
109RH G 1113.2 1 6.3 4
109RH CG %IG=1.30 11, using the calculated normalization.
109RH G 1237.9 1 2.7 5 [E1] 3.32E-4
109RH CG %IG=0.56 11, using the calculated normalization.
109RHS G KC=0.000239 4$LC=2.69E-5 4$MC=4.98E-6 7
109RHS G NC=8.27E-7 12$OC=4.27E-8 6$IPC=6.00E-5 9
109RH G 1353.2 2 0.87 13[E1] 3.65E-4
109RH CG %IG=0.18 3, using the calculated normalization.
109RHS G KC=0.000205 3$LC=2.30E-5 4$MC=4.25E-6 6
109RHS G NC=7.06E-7 10$OC=3.65E-8 6$IPC=0.0001323 19
109RH G 1471.0 5 2.0 8 [E1] 4.17E-4
109RH CG %IG=0.41 17, using the calculated normalization.
109RHS G KC=0.0001778 25$LC=1.99E-5 3$MC=3.68E-6 6
109RHS G NC=6.12E-7 9$OC=3.17E-8 5$IPC=0.000215 3
109RH G 1615.7 1 4.5 4 [M1] 4.90E-4
109RH CG %IG=0.93 10, using the calculated normalization.
109RHS G KC=0.000331 5$LC=3.75E-5 6$MC=6.93E-6 10
109RHS G NC=1.155E-6 17$OC=6.02E-8 9$IPC=0.0001132 16
109RH G 1667.1 1 3.6 3 [M1] 4.86E-4
109RH CG %IG=0.74 8, using the calculated normalization.
109RHS G KC=0.000311 5$LC=3.51E-5 5$MC=6.50E-6 10
109RHS G NC=1.083E-6 16$OC=5.65E-8 8$IPC=0.0001330 19
109RH G 1720.0 1 7.3 5 [E1] 5.63E-4
109RH CG %IG=1.51 13, using the calculated normalization.
109RHS G KC=0.0001376 20$LC=1.538E-5 22$MC=2.84E-6 4
109RHS G NC=4.72E-7 7$OC=2.45E-8 4$IPC=0.000407 6
109RH G 1735.2 1 6.2 4 [M1] 4.87E-4
109RH CG %IG=1.28 11, using the calculated normalization.
109RHS G KC=0.000287 4$LC=3.24E-5 5$MC=5.99E-6 9
109RHS G NC=9.98E-7 14$OC=5.21E-8 8$IPC=0.0001607 23
109RH G 1836.2 1 7.2 7 [M1] 4.95E-4
109RH CG %IG=1.49 16, using the calculated normalization.
109RHS G KC=0.000256 4$LC=2.89E-5 4$MC=5.35E-6 8
109RHS G NC=8.90E-7 13$OC=4.65E-8 7$IPC=0.000204 3
109RH G 1868.0 2 2.52 23[M1] 5.00E-4
109RH CG %IG=0.52 6, using the calculated normalization.
109RHS G KC=0.000247 4$LC=2.79E-5 4$MC=5.17E-6 8
109RHS G NC=8.60E-7 12$OC=4.49E-8 7$IPC=0.000219 3
109RH G 2094.3 3 0.50 9 [E2] 5.62E-4
109RH CG %IG=0.103 20, using the calculated normalization.
109RHS G KC=0.000187 3$LC=2.11E-5 3$MC=3.91E-6 6
109RHS G NC=6.50E-7 10$OC=3.37E-8 5$IPC=0.000349 5
109RH L 2098.59 12(5/2+,7/2)
109RH B 1.47 18 6.04 6
109RHS B EAV=866.4 46
109RH G 1002.5 5 1.0 5
109RH CG %IG=0.21 11, using the calculated normalization.
109RH G 1208.1 3 0.79 15
109RH CG %IG=0.16 4, using the calculated normalization.
109RH G 1237.8 5 0.8 4
109RH CG %IG=0.17 9, using the calculated normalization.
109RH G 1620.2 3 0.28 8
109RH CG %IG=0.058 17, using the calculated normalization.
109RH G 1689.0 5 0.2 1
109RH CG %IG=0.041 21, using the calculated normalization.
109RH G 1892.4 3 0.8 3
109RH CG %IG=0.17 7, using the calculated normalization.
109RH G 2098.6 2 3.8 3
109RH CG %IG=0.79 8, using the calculated normalization.
109RH L 2117.00 12(3/2+)
109RH B 1.37 12 6.06 4
109RHS B EAV=857.9 46
109RH G 1105.6 5 0.4 2 [M1] 8.35E-4
109RH CG %IG=0.08 5, using the calculated normalization.
109RHS G KC=0.000733 11$LC=8.36E-5 12$MC=1.548E-5 22
109RHS G NC=2.58E-6 4$OC=1.338E-7 19$IPC=5.45E-7 12
109RH G 1690.0 2 2.0 2 [M1] 4.86E-4
109RH CG %IG=0.41 5, using the calculated normalization.
109RHS G KC=0.000302 5$LC=3.42E-5 5$MC=6.32E-6 9
109RHS G NC=1.053E-6 15$OC=5.50E-8 8$IPC=0.0001422 20
109RH G 1859.3 2 3.4 3 [M1] 4.99E-4
109RH CG %IG=0.70 7, using the calculated normalization.
109RHS G KC=0.000250 4$LC=2.82E-5 4$MC=5.21E-6 8
109RHS G NC=8.68E-7 13$OC=4.54E-8 7$IPC=0.000215 3
109RH G 1891.4 3 1.15 16[M1] 5.03E-4
109RH CG %IG=0.24 4, using the calculated normalization.
109RHS G KC=0.000241 4$LC=2.72E-5 4$MC=5.04E-6 7
109RHS G NC=8.39E-7 12$OC=4.38E-8 7$IPC=0.000229 4
109RH G 2117.3 4 0.22 9 [E2] 5.69E-4
109RH CG %IG=0.045 19, using the calculated normalization.
109RHS G KC=0.000184 3$LC=2.07E-5 3$MC=3.83E-6 6
109RHS G NC=6.37E-7 9$OC=3.30E-8 5$IPC=0.000360 5
109RH L 2182.87 10(5/2+,7/2)
109RH B 0.70 17 6.29 11
109RHS B EAV=827.7 46
109RH G 1756.0 5 1.9 8
109RH CG %IG=0.39 17, using the calculated normalization.
109RH G 1976.6 1 1.76 21
109RH CG %IG=0.36 5, using the calculated normalization.
109RH L 2184.72 7(3/2+,5/2)
109RH B 2.16 21 5.80 5
109RHS B EAV=826.8 46
109RH G 1007.7 2 0.67 20
109RH CG %IG=0.14 5, using the calculated normalization.
109RH G 1133.5 2 0.50 11
109RH CG %IG=0.103 24, using the calculated normalization.
109RH G 1512.9 1 4.6 6
109RH CG %IG=0.95 14, using the calculated normalization.
109RH G 1616.5 5 1.0 3
109RH CG %IG=0.21 7, using the calculated normalization.
109RH G 1758.0 5 1.3 5
109RH CG %IG=0.27 11, using the calculated normalization.
109RH G 1825.9 2 1.6 3
109RH CG %IG=0.33 7, using the calculated normalization.
109RH G 1958.8 3 0.91 13
109RH CG %IG=0.19 3, using the calculated normalization.
109RH G 2184.7 2 0.74 11
109RH CG %IG=0.153 24, using the calculated normalization.
109RH L 2190.50 7(3/2+) 40 PS LT
109RH B 2.3 3 5.77 6
109RHS B EAV=824.1 46
109RH G 1139.2 2 1.06 13
109RH CG %IG=0.22 3, using the calculated normalization.
109RH G 1209.6 3 1.57 20
109RH CG %IG=0.32 5, using the calculated normalization.
109RH G 1334.5 2 0.89 14[E1] 3.59E-4
109RH CG %IG=0.18 3, using the calculated normalization.
109RHS G KC=0.000210 3$LC=2.36E-5 4$MC=4.35E-6 6
109RHS G NC=7.24E-7 11$OC=3.74E-8 6$IPC=0.0001201 17
109RH G 1449.8 2 1.2 5 [E1] 4.06E-4
109RH CG %IG=0.25 11, using the calculated normalization.
109RHS G KC=0.000182 3$LC=2.04E-5 3$MC=3.77E-6 6
109RHS G NC=6.27E-7 9$OC=3.25E-8 5$IPC=0.000199 3
109RH G 1712.3 3 0.54 15[M1] 4.86E-4
109RH CG %IG=0.11 4, using the calculated normalization.
109RHS G KC=0.000294 5$LC=3.33E-5 5$MC=6.16E-6 9
109RHS G NC=1.025E-6 15$OC=5.35E-8 8$IPC=0.0001512 22
109RH G 1763.8 3 1.3 3 [M1] 4.88E-4
109RH CG %IG=0.27 7, using the calculated normalization.
109RHS G KC=0.000277 4$LC=3.13E-5 5$MC=5.80E-6 9
109RHS G NC=9.66E-7 14$OC=5.04E-8 7$IPC=0.0001729 25
109RH G 1816.5 5 0.71 17[E1] 6.23E-4
109RH CG %IG=0.15 4, using the calculated normalization.
109RHS G KC=0.0001261 18$LC=1.408E-5 20$MC=2.60E-6 4
109RHS G NC=4.33E-7 6$OC=2.25E-8 4$IPC=0.000479 7
109RH G 1831.9 1 4.7 9 [M1] 4.95E-4
109RH CG %IG=0.97 19, using the calculated normalization.
109RHS G KC=0.000257 4$LC=2.90E-5 4$MC=5.37E-6 8
109RHS G NC=8.95E-7 13$OC=4.67E-8 7$IPC=0.000202 3
109RH L 2193.74 11(3/2+,5/2)
109RH B 0.9 3 6.18 15
109RHS B EAV=822.7 46
109RH G 1521.7 3 0.31 10
109RH CG %IG=0.064 21, using the calculated normalization.
109RH G 1715.4 2 0.55 11
109RH CG %IG=0.114 24, using the calculated normalization.
109RH G 1767.0 2 2.4 12
109RH CG %IG=0.50 25, using the calculated normalization.
109RH G 2193.8 2 1.69 17
109RH CG %IG=0.35 4, using the calculated normalization.
109RH L 2208.45 8 (5/2+,7/2)
109RH B 0.84 8 6.19 5
109RHS B EAV=815.9 46
109RH G 1347.5 1 1.61 17
109RH CG %IG=0.33 4, using the calculated normalization.
109RH G 1585.1 2 1.84 22
109RH CG %IG=0.38 5, using the calculated normalization.
109RH G 1798.7 1 0.97 15
109RH CG %IG=0.20 4, using the calculated normalization.
109RH L 2209.40 10 (3/2+,5/2)
109RH B 0.50 7 6.42 7
109RHS B EAV=815.4 46
109RH G 1537.5 5 0.8 3
109RH CG %IG=0.17 7, using the calculated normalization.
109RH G 1850.8 1 1.80 20
109RH CG %IG=0.37 5, using the calculated normalization.
109RH L 2237.92 10 (3/2+,5/2)
109RH B 0.59 7 6.32 6
109RHS B EAV=802.4 46
109RH G 1759.5 3 1.27 22
109RH CG %IG=0.26 5, using the calculated normalization.
109RH G 1811.4 3 0.68 15
109RH CG %IG=0.14 4, using the calculated normalization.
109RH G 1879.3 1 1.13 16
109RH CG %IG=0.23 4, using the calculated normalization.
109RH L 2247.07 14 (5/2+,7/2)
109RH B 1.03 19 6.07 8
109RHS B EAV=798.3 46
109RH G 1150.7 3 1.06 14
109RH CG %IG=0.22 3, using the calculated normalization.
109RH G 1357.0 5 1.4 7
109RH CG %IG=0.29 15, using the calculated normalization.
109RH G 1575.2 5 1.2 5
109RH CG %IG=0.25 11, using the calculated normalization.
109RH G 2040.8 2 0.91 15
109RH CG %IG=0.19 4, using the calculated normalization.
109RH G 2247.1 3 0.77 12
109RH CG %IG=0.16 3, using the calculated normalization.
109RH L 2270.1 3 (5/2+,7/2)
109RH B 0.12 4 6.98 15
109RHS B EAV=787.8 46
109RH G 1860.3 5 0.39 16
109RH CG %IG=0.08 4, using the calculated normalization.
109RH G 2063.8 3 0.23 5
109RH CG %IG=0.048 11, using the calculated normalization.