109SN 109SB EC DECAY 2002RE14,1982JO03 16NDS 201610
109SN H TYP=FUL$AUT=S. KUMAR(a), J. CHEN(b) AND F.G. KONDEV$
109SN2 H CIT=NDS 137, 1 (2016)$CUT=31-May-2016$
109SN c 2002Re14: {+109}Sb activity produced using E({+58}Ni)=230 MeV beam on
109SN2c {+54}Fe target (470 |mg/cm{+2}). Moving Tape Collector, Fragment Mass
109SN3c Analyzer (FMA), Argonne National Laboratory, USA.
109SN4c Detectors: 3 large volume HPGe (two 80 %, one 120 %), 1 LEPS (70 %).
109SN5c Measured: E|g, I|g, |g|g, |g(t). Comparisons with shell
109SN6c model calculations.
109SN c 1982Jo03: {+109}Sb activity produced in {+92}Mo + {+20}Ne and {+58}Ni +
109SN2c {+58}Ni reactions. E({+20}Ne)=195 MeV from the HI linear accelerator,
109SN3c University of Manchester on a 2 mg/cm{+2} target of {+92}Mo; helium-jet
109SN4c system and tape with 40 s intervals. E({+58}Ni)=290 MeV using GSI
109SN5c accelerator. Mass separated activity was implanted onto a tape with
109SN6c 32 s intervals. Detectors: plastic scintillator telescope and Ge(Li).
109SN7c Measured: T{-1/2}, E|g, I|g, |g|g, |g-X, |g|b, Q(|e);
109SN8c 1981JoZx reports same as preliminary results
109SN c 1976Ox01: {+109}Sb activity produced in {+112}Sn(p,4n), E(p)=25-65 MeV,
109SN2c McGill University cyclotron. Target: isotopically enriched (79.6 %),
109SN3c metallic powder sealed in thin-walled Be tube. Detectors: two Ge(Li)
109SN4c (96 and 50 cm{+3}). Measured: T{-1/2}, E|g, I|g, |g|g
109SN c The following gammas: 407, 1273, 1488, 1632, 1836, 2195 reported by
109SN2c 1976Ox01 were not observed in 1982Jo03 and 2002Re14, and certainly
109SN3c belong to other nuclide.
109SN cG E,M$From Adopted Gammas
109SN cG RI$From 2002Re14
109SN cL E$From a least-squares fit to E|g, by
109SN2cL assuming |DE|g=1 keV when uncertainty is not given.
109SN cL J,T$From Adopted Levels
109SN DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
109SN CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=0.00 FOR E2/M1,
109SN2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
109SN cE TI$From intensity balances and %I|b(|e+|b{++})(925.5-keV level)=29.9 24
109SN cE TI(a)$from %I|b(|e+|b{++})(gs)/%I|b(|e+|b{++})(13.96-keV level)=4, as
109SN2cE suggested in 2002Re14, and the decay scheme
109SB P 0 (5/2+) 17.2 S 5 6380 9
109SN N 0.267 21 1.0
109SN cN NR$From intensity balance at the 925.5 keV level and
109SN2cN %I|b(|e+|b{++})(925.5-keV level)= 29.9 24
109SN PN 5
109SN G 932.1 3 0.5 2
109SN CG %IG=0.13 6, using the calculated normalization.
109SN cG E$placement by 2002Re14 from 2016 is incorrect, as confirmed
109SN2cG in an e-mail reply from one of the authors (J. Ressler to B. Singh)
109SN3cG on June 10, 2002. It is however seen in coin with 1078|g
109SN G 1175.3 3 2.8 1
109SN CG %IG=0.75 7, using the calculated normalization.
109SN G 1760.4 3 2.6 1
109SN CG %IG=0.69 6, using the calculated normalization.
109SN L 0 5/2+ 18.2 M 2
109SN cL CONF$|nd{-5/2}
109SN E 8 6 0.3 2 5.8 4 8 6 a
109SNS E EAV=2479.5 77$CK=0.0331 3$CL=0.00424 4$CM+=0.001088 10
109SN L 13.97 7 (7/2+)
109SN cL CONF$|ng{-7/2}
109SN E 1.9 13 0.08 5 6.4 3 2.0 14a
109SNS E EAV=2472.7 77$CK=0.0334 3$CL=0.00428 4$CM+=0.001096 10
109SN G 13.97 9 1.91 18 [M1] 24.9 6 49.5 45
109SN CG %IG=0.51 5, using the calculated normalization.
109SNS G L/T=0.778 12$M/T=0.153 5
109SNS G N/T=0.0286 10$O/T=0.00245 9
109SNS G LC=20.2 5$MC=3.96 10
109SNS G NC=0.742 18$OC=0.0635 16
109SN cG E$from Adopted gammas
109SN cG TI$from %I|b(|e+|b{++})(gs)/%I|b(|e+|b{++})(13.96-keV level)=4, as
109SN2cG suggested in 2002Re14 and the decay scheme
109SN CG RI$ from TI and CC
109SN L 544.80 13(1/2+)
109SN cL J$from 2002Re14 based on the non-observation of |g to the 7/2+ state
109SN2cL and shell-model predictions
109SN cL CONF$|ns{-1/2} proposed in 2002Re14
109SN G 544.4 3 11.2 1[E2] 0.00581
109SN CG %IG=2.99 24, using the calculated normalization.
109SNS G KC=0.00499 7$LC=0.000665 10$MC=0.0001307 19
109SNS G NC=2.43E-5 4$OC=1.94E-6 3
109SN cG E$Others: 544.4 3 (2002Re14) and 544.8 {i3} (1982Jo03)
109SN cG RI$Other: 10.6 {i5} (1982Jo03)
109SN L 664.42 12(3/2+)
109SN E 4.8 8 0.28 5 5.75 8 5.1 9
109SNS E EAV=2160.6 77$CK=0.0480 5$CL=0.00615 6$CM+=0.001578 15
109SN cE $E|b{++}{-max}=4674 keV {i22} (1982Jo03)
109SN G 650.1 3 1.3 1[E2] 0.00361
109SN CG %IG=0.35 4, using the calculated normalization.
109SNS G KC=0.00312 5$LC=0.000403 6$MC=7.91E-5 12
109SNS G NC=1.476E-5 21$OC=1.209E-6 17
109SN G 664.0 3 39 2[M1] 0.00401
109SN CG %IG=10.4 9, using the calculated normalization.
109SNS G KC=0.00349 5$LC=0.000421 6$MC=8.23E-5 12
109SNS G NC=1.551E-5 22$OC=1.365E-6 20
109SN L 678.31 14 (5/2)+
109SN E 9.3 9 0.56 6 5.45 5 9.9 10
109SNS E EAV=2153.9 77$CK=0.0484 5$CL=0.00621 6$CM+=0.001591 16
109SN G 664.5 1 24 2 M1 0.00401
109SN CG %IG=6.4 7, using the calculated normalization.
109SNS G KC=0.00349 5$LC=0.000421 6$MC=8.22E-5 12
109SNS G NC=1.550E-5 22$OC=1.364E-6 20
109SN cG E$Others: 664.2 3 (2002Re14), 664.5 {i3} (1982Jo03), and 664.6 {i5}
109SN2cG (1976Ox01)
109SN cG RI$Others: 63 {i4} (1982Jo03), 51 {i7} (1976Ox01, may combine 664.0 |g
109SN2cG + 664.2|g).
109SN G 678.6 1 20.2 2M1(+E2) 0.00381
109SN CG %IG=5.4 5, using the calculated normalization.
109SNS G KC=0.00332 5$LC=0.000401 6$MC=7.82E-5 11
109SNS G NC=1.474E-5 21$OC=1.298E-6 19
109SN cG E$Others: 678.6 3 (2002Re14) abd 678.6 {i3} (1982Jo03)
109SN cG RI$Other: 19 {i1} (1982Jo03)
109SN L 925.50 13(3/2)+
109SN cL CONF$d{-3/2} state
109SN E 27.9 22 1.95 16 4.87 4 29.9 24
109SNS E EAV=2035.8 77$CK=0.0563 6$CL=0.00721 8$CM+=0.001850 19
109SN cE TI$From log {ift}=4.87 3 for a similar |pd{-5/2} to |nd{-3/2} decay in
109SN2cE {+111}Sb |e decay, log {if}=3.110 7 and T{-1/2}=17.2 s 5.
109SN cE $E|b{++}{-max}=4416 keV {i21} (1982Jo03)
109SN G 246.6 3 2.8 1[M1] 0.0476
109SN CG %IG=0.75 7, using the calculated normalization.
109SNS G KC=0.0412 6$LC=0.00514 8$MC=0.001007 15
109SNS G NC=0.000190 3$OC=1.652E-5 24
109SN G 260.8 3 6.4 2[M1] 0.0411
109SN CG %IG=1.71 15, using the calculated normalization.
109SNS G KC=0.0356 6$LC=0.00443 7$MC=0.000868 13
109SNS G NC=0.0001634 24$OC=1.425E-5 21
109SN G 381.3 3 0.6 2[M1] 0.01551
109SN CG %IG=0.16 6, using the calculated normalization.
109SNS G KC=0.01347 19$LC=0.001655 24$MC=0.000324 5
109SNS G NC=6.10E-5 9$OC=5.34E-6 8
109SN G 910.9 3 2.9 2[E2] 1.59E-3
109SN CG %IG=0.77 8, using the calculated normalization.
109SNS G KC=0.001377 20$LC=0.0001707 24$MC=3.34E-5 5
109SNS G NC=6.26E-6 9$OC=5.30E-7 8
109SN G 925.3 2 100 M1(+E2) 0.00186
109SN CG %IG=26.7 21, using the calculated normalization.
109SNS G KC=0.001622 23$LC=0.000194 3$MC=3.78E-5 6
109SNS G NC=7.14E-6 10$OC=6.30E-7 9
109SN cG E$Others: 925.0 3 (2002Re14), 925.4 {i3} (1982Jo03),
109SN2cG 925.4 {i3} (1976Ox01)
109SN cG RI$Others: 100 (1982Jo03, 1976Ox01)
109SN L 991.34 17 (3/2)+
109SN E 0.33 7 0.024 5 6.77 10 0.35 8
109SNS E EAV=2004.4 77$CK=0.0586 6$CL=0.00752 8$CM+=0.001928 20
109SN G 446.3 3 0.4 1[M1] 0.01048
109SN CG %IG=0.11 3, using the calculated normalization.
109SNS G KC=0.00910 13$LC=0.001113 16$MC=0.000218 3
109SNS G NC=4.10E-5 6$OC=3.59E-6 5
109SN G 991.2 3 1.8 1 M1(+E2) 1.59E-3
109SN CG %IG=0.48 5, using the calculated normalization.
109SNS G KC=0.001388 20$LC=0.0001657 24$MC=3.23E-5 5
109SNS G NC=6.09E-6 9$OC=5.38E-7 8
109SN L 1061.80 15 (3/2)+
109SN E 19.7 16 1.51 12 4.96 4 21.2 17
109SNS E EAV=1970.8 77$CK=0.0613 7$CL=0.00786 9$CM+=0.002016 21
109SN cE $E|b{++}{-max}=4332 keV {i24} (1982Jo03)
109SN G 397.5 3 3.0 7[M1] 0.01397
109SN CG %IG=0.80 20, using the calculated normalization.
109SNS G KC=0.01213 18$LC=0.001489 21$MC=0.000291 5
109SNS G NC=5.49E-5 8$OC=4.80E-6 7
109SN G 516.5 3 4 1[M1] 0.00732
109SN CG %IG=1.1 3, using the calculated normalization.
109SNS G KC=0.00637 9$LC=0.000775 11$MC=0.0001514 22
109SNS G NC=2.85E-5 4$OC=2.50E-6 4
109SN G 1047.7 3 4.8 1[E2] 1.16E-3
109SN CG %IG=1.28 11, using the calculated normalization.
109SNS G KC=0.001009 15$LC=0.0001234 18$MC=2.41E-5 4
109SNS G NC=4.52E-6 7$OC=3.87E-7 6
109SN G 1061.8 3 67.9 7 M1(+E2) 1.37E-3
109SN CG %IG=18.1 15, using the calculated normalization.
109SNS G KC=0.001190 17$LC=0.0001418 20$MC=2.77E-5 4
109SNS G NC=5.22E-6 8$OC=4.61E-7 7
109SN cG E$Others: 1061.7 {i3} (1982Jo03), 1061.6 {i3} (1976Ox01)
109SN cG RI$Others: 75 {i5} (1982Jo03), 74 {i4} (1976Ox01)
109SN L 1078.13 9 (7/2)+
109SN E 0.81 9 0.063 7 6.34 6 0.87 10
109SNS E EAV=1963.0 77$CK=0.0619 7$CL=0.00794 9$CM+=0.002037 21
109SN G 1064.0 3 0.86 6M1(+E2) 1.36E-3
109SN CG %IG=0.230 24, using the calculated normalization.
109SNS G KC=0.001185 17$LC=0.0001412 20$MC=2.75E-5 4
109SNS G NC=5.19E-6 8$OC=4.59E-7 7
109SN cG E$From adopted gammas. Other: 1064 keV (2012Re14)
109SN cG RI$From adopted gammas. Authors in 2002Re14 adopted a value based on
109SN2cG branching ratio from in-beam |g-ray studies of 1999Da05
109SN G 1078.0 1 3.8 1M1(+E2) 1.32E-3
109SN CG %IG=1.01 9, using the calculated normalization.
109SNS G KC=0.001151 17$LC=0.0001371 20$MC=2.67E-5 4
109SNS G NC=5.04E-6 7$OC=4.45E-7 7
109SN cG E$Others: 1078 keV (2012Re14) and 1078.0 keV {i3} (1982Jo03)
109SN cG RI$Other: 3.9 {i2} (1982Jo03)
109SN L 1228.74 18(3/2+,5/2+)
109SN E 2.19 19 0.189 17 5.83 5 2.38 21
109SNS E EAV=1891.4 76$CK=0.0683 8$CL=0.00876 10$CM+=0.002247 24
109SN G 550.2 3 0.6 1[M1] 0.00628
109SN CG %IG=0.16 3, using the calculated normalization.
109SNS G KC=0.00546 8$LC=0.000664 10$MC=0.0001296 19
109SNS G NC=2.44E-5 4$OC=2.15E-6 3
109SN G 1214.4 3 1.1 1[M1,E2] 1.02E-3
109SN CG %IG=0.29 4, using the calculated normalization.
109SNS G KC=0.000885 13$LC=0.0001051 15$MC=2.05E-5 3
109SNS G NC=3.87E-6 6$OC=3.42E-7 5$IPC=7.72E-6 12
109SN G 1229.3 3 7.7 1[M1] 9.98E-4
109SN CG %IG=2.06 17, using the calculated normalization.
109SNS G KC=0.000862 12$LC=0.0001023 15$MC=1.99E-5 3
109SNS G NC=3.76E-6 6$OC=3.33E-7 5$IPC=9.61E-6 14
109SN L 1343.72 13(7/2)+
109SN E 0.69 6 0.064 6 6.28 5 0.75 7
109SNS E EAV=1836.7 76$CK=0.0737 8$CL=0.00946 11$CM+=0.00243 3
109SN G 665.8 3 0.5 1[M1] 0.00399
109SN CG %IG=0.13 3, using the calculated normalization.
109SNS G KC=0.00347 5$LC=0.000419 6$MC=8.18E-5 12
109SNS G NC=1.541E-5 22$OC=1.356E-6 19
109SN G 1343.6413 2.3 1 M1 8.44E-4
109SN CG %IG=0.61 6, using the calculated normalization.
109SNS G KC=0.000711 10$LC=8.42E-5 12$MC=1.641E-5 23
109SNS G NC=3.10E-6 5$OC=2.74E-7 4$IPC=2.96E-5 5
109SN cG E$From adopted gammas. Others: 1343.7 keV 3 (2012Re14) and
109SN2cG 1343.5 {i3} (1982Jo03)
109SN cG RI$Other: 2.2 {i2} (1982Jo03)
109SN L 1495.89 13(3/2+)
109SN E 8.5 7 0.89 8 5.11 4 9.4 8
109SNS E EAV=1764.6 76$CK=0.0818 10$CL=0.01050 12$CM+=0.00269 3
109SN G 433.6 3 0.5 1[M1] 0.01125
109SN CG %IG=0.13 3, using the calculated normalization.
109SNS G KC=0.00977 14$LC=0.001196 17$MC=0.000234 4
109SNS G NC=4.41E-5 7$OC=3.86E-6 6
109SN G 831.4 3 2.1 6[M1] 0.00238
109SN CG %IG=0.56 17, using the calculated normalization.
109SNS G KC=0.00207 3$LC=0.000248 4$MC=4.84E-5 7
109SNS G NC=9.13E-6 13$OC=8.05E-7 12
109SN G 951.1 3 2.4 2[M1] 1.75E-3
109SN CG %IG=0.64 8, using the calculated normalization.
109SNS G KC=0.001523 22$LC=0.000182 3$MC=3.55E-5 5
109SNS G NC=6.70E-6 10$OC=5.91E-7 9
109SN G 1482.2 3 1.7 1[E2] 6.41E-4
109SN CG %IG=0.45 5, using the calculated normalization.
109SNS G KC=0.000493 7$LC=5.89E-5 9$MC=1.147E-5 16
109SNS G NC=2.16E-6 3$OC=1.88E-7 3$IPC=7.48E-5 11
109SN G 1496.0 2 28.3 2[M1] 7.21E-4
109SN CG %IG=7.6 6, using the calculated normalization.
109SNS G KC=0.000565 8$LC=6.68E-5 10$MC=1.301E-5 19
109SNS G NC=2.45E-6 4$OC=2.17E-7 3$IPC=7.30E-5 11
109SN cG E$From adopted gammas. Others: 1496.1 keV 3 (2012Re14) and
109SN2cG 1495.8 {i3} (1982Jo03)
109SN cG RI$Other: 30 {i2} (1982Jo03)
109SN L 1614.23 19(3/2+,5/2+)
109SN E 1.78 16 0.204 19 5.73 5 1.98 18
109SNS E EAV=1708.5 76$CK=0.0889 11$CL=0.01142 14$CM+=0.00293 4
109SN G 687.3 3 0.4 1[M1] 0.00370
109SN CG %IG=0.11 3, using the calculated normalization.
109SNF G FL=925.50
109SNS G KC=0.00322 5$LC=0.000388 6$MC=7.58E-5 11
109SNS G NC=1.429E-5 20$OC=1.258E-6 18
109SN cG E$ poor fit, level-energy difference=688.74
109SN G 936.2 3 3.2 2[M1] 0.00181
109SN CG %IG=0.85 9, using the calculated normalization.
109SNS G KC=0.001579 23$LC=0.000189 3$MC=3.68E-5 6
109SNS G NC=6.94E-6 10$OC=6.13E-7 9
109SN G 1601.4 3 3.8 2[M1] 6.72E-4
109SN CG %IG=1.01 10, using the calculated normalization.
109SNF G FL=13.97
109SNS G KC=0.000490 7$LC=5.78E-5 8$MC=1.125E-5 16
109SNS G NC=2.12E-6 3$OC=1.88E-7 3$IPC=0.0001115 16
109SN cG E$ poor fit, level-energy difference=1600.26
109SN L 1649.85 15 (3/2+,5/2+)
109SN E 2.23 21 0.264 25 5.61 5 2.49 23
109SNS E EAV=1691.7 76$CK=0.0912 11$CL=0.01171 14$CM+=0.00300 4
109SN G 571.3 3 0.8 1[M1,E2] 0.00574
109SN CG %IG=0.21 4, using the calculated normalization.
109SNS G KC=0.00499 7$LC=0.000605 9$MC=0.0001183 17
109SNS G NC=2.23E-5 4$OC=1.96E-6 3
109SN G 985.5 3 1.1 2[M1] 1.61E-3
109SN CG %IG=0.29 6, using the calculated normalization.
109SNS G KC=0.001406 20$LC=0.0001679 24$MC=3.27E-5 5
109SNS G NC=6.18E-6 9$OC=5.45E-7 8
109SN G 1104.4 3 2.7 2[M1,E2] 1.25E-3
109SN CG %IG=0.72 8, using the calculated normalization.
109SNS G KC=0.001091 16$LC=0.0001298 19$MC=2.53E-5 4
109SNS G NC=4.77E-6 7$OC=4.22E-7 6$IPC=4.82E-7 9
109SN cG E$ poor fit, level-energy difference=1105.16
109SN G 1636.3 3 1.6 2[M1,E2] 6.61E-4
109SN CG %IG=0.43 7, using the calculated normalization.
109SNS G KC=0.000468 7$LC=5.52E-5 8$MC=1.075E-5 15
109SNS G NC=2.03E-6 3$OC=1.80E-7 3$IPC=0.0001252 18
109SN G 1650.4 3 3.1 2[M1] 6.57E-4
109SN CG %IG=0.83 9, using the calculated normalization.
109SNS G KC=0.000460 7$LC=5.42E-5 8$MC=1.055E-5 15
109SNS G NC=1.99E-6 3$OC=1.763E-7 25$IPC=0.0001308 19
109SN L 1914.01 16 (3/2+,5/2+)
109SN E 1.31 18 0.19 3 5.70 7 1.50 21
109SNS E EAV=1567.0 76$CK=0.1108 14$CL=0.01423 18$CM+=0.00365 5
109SN G 685 1.0 LE[M1] 0.00373
109SN CG %IG=0.13 14, using the calculated normalization.
109SNS G KC=0.00324 5$LC=0.000391 6$MC=7.64E-5 11
109SNS G NC=1.440E-5 21$OC=1.268E-6 18
109SN G 835.0 3 0.6 2[M1,E2] 0.00235
109SN CG %IG=0.16 6, using the calculated normalization.
109SNS G KC=0.00205 3$LC=0.000246 4$MC=4.79E-5 7
109SNS G NC=9.04E-6 13$OC=7.97E-7 12
109SN G 1249.4 3 1.8 5[M1] 9.66E-4
109SN CG %IG=0.48 14, using the calculated normalization.
109SNS G KC=0.000832 12$LC=9.87E-5 14$MC=1.92E-5 3
109SNS G NC=3.63E-6 5$OC=3.21E-7 5$IPC=1.241E-5 18
109SN G 1369.6 3 0.8 1[M1,E2] 8.18E-4
109SN CG %IG=0.21 4, using the calculated normalization.
109SNS G KC=0.000682 10$LC=8.08E-5 12$MC=1.574E-5 22
109SNS G NC=2.97E-6 5$OC=2.63E-7 4$IPC=3.58E-5 5
109SN G 1914.7 3 1.9 1[M1] 6.35E-4
109SN CG %IG=0.51 5, using the calculated normalization.
109SNS G KC=0.000338 5$LC=3.97E-5 6$MC=7.74E-6 11
109SNS G NC=1.459E-6 21$OC=1.293E-7 19$IPC=0.000248 4
109SN L 2015.95 17(3/2+,5/2+)
109SN E 1.45 13 0.234 21 5.60 5 1.68 15
109SNS E EAV=1519.0 76$CK=0.1197 15$CL=0.01539 20$CM+=0.00395 5
109SN G 1024.4 3 0.5 1[M1] 1.48E-3
109SN CG %IG=0.13 3, using the calculated normalization.
109SNS G KC=0.001289 18$LC=0.0001538 22$MC=3.00E-5 5
109SNS G NC=5.66E-6 8$OC=5.00E-7 7
109SN G 1090.8 3 0.5 1[M1] 1.29E-3
109SN CG %IG=0.13 3, using the calculated normalization.
109SNS G KC=0.001121 16$LC=0.0001335 19$MC=2.60E-5 4
109SNS G NC=4.91E-6 7$OC=4.34E-7 6
109SN G 1351.1 3 0.7 1[M1] 8.36E-4
109SN CG %IG=0.19 3, using the calculated normalization.
109SNS G KC=0.000702 10$LC=8.32E-5 12$MC=1.621E-5 23
109SNS G NC=3.06E-6 5$OC=2.71E-7 4$IPC=3.13E-5 5
109SN G 2016.2 3 4.6 2[M1] 6.44E-4
109SN CG %IG=1.23 11, using the calculated normalization.
109SNS G KC=0.000304 5$LC=3.57E-5 5$MC=6.96E-6 10
109SNS G NC=1.312E-6 19$OC=1.163E-7 17$IPC=0.000296 5
109SN L 2126.62 16(3/2+,5/2+)
109SN E 1.8 5 0.32 9 5.44 13 2.1 6
109SNS E EAV=1467.0 76$CK=0.1305 17$CL=0.01677 22$CM+=0.00430 6
109SN G 1135.1 3 0.4 2[M1] 1.18E-3
109SN CG %IG=0.11 6, using the calculated normalization.
109SNS G KC=0.001027 15$LC=0.0001221 18$MC=2.38E-5 4
109SNS G NC=4.49E-6 7$OC=3.97E-7 6$IPC=1.312E-6 22
109SN G 1200.8 3 0.3 1[M1] 1.05E-3
109SN CG %IG=0.08 3, using the calculated normalization.
109SNS G KC=0.000907 13$LC=0.0001078 16$MC=2.10E-5 3
109SNS G NC=3.96E-6 6$OC=3.50E-7 5$IPC=6.15E-6 10
109SN G 1462.2 3 6 2[M1] 7.42E-4
109SN CG %IG=1.6 6, using the calculated normalization.
109SNS G KC=0.000593 9$LC=7.01E-5 10$MC=1.366E-5 20
109SNS G NC=2.58E-6 4$OC=2.28E-7 4$IPC=6.20E-5 9
109SN G 1581.8 3 0.4 1[M1,E2] 6.80E-4
109SN CG %IG=0.11 3, using the calculated normalization.
109SNS G KC=0.000502 7$LC=5.93E-5 9$MC=1.155E-5 17
109SNS G NC=2.18E-6 3$OC=1.93E-7 3$IPC=0.0001040 15
109SN G 2127.1 3 0.9 1[M1] 6.63E-4
109SN CG %IG=0.24 4, using the calculated normalization.
109SNS G KC=0.000273 4$LC=3.20E-5 5$MC=6.24E-6 9
109SNS G NC=1.177E-6 17$OC=1.043E-7 15$IPC=0.000350 5