109IN 109SN EC DECAY 1981BU17 16NDS 201610
109IN H TYP=FUL$AUT=S. KUMAR(a), J. CHEN(b) AND F.G. KONDEV$
109IN2 H CIT=NDS 137, 1 (2016)$CUT=31-May-2016$
109IN c 1981Bu17: {+109}Sn source was produced via the {+106}Cd(|a,n)
109IN2c reaction with E=25 MeV alpha beam from the isochronous cyclotron of the
109IN3c Institute of Nuclear Physics, Academy of Sciences of the Kazakh SSR and
109IN4c with targets of self-supporting Cadmium foils about 10 mg/cm{+2} thick
109IN5c (64% enriched). |g rays were detected by Ge(Li) detectors. Measured
109IN6c E|g, I|g, |g|g-coin, spectra of integral anticoincidence. Deduced
109IN7c levels, |g-ray branching ratios, beta decay branching ratios,
109IN8c log| {Ift}.
109IN c 1970Sh05: {+109}Sn sources were produced by bombarding enriched metal
109IN2c {+106}Cd with 19-MeV alpha particles from the Yale Heavy Ion
109IN3c Accelerator. |g rays were detected using NaI(Tl) counters and Ge(Li)
109IN4c detectors; electrons were detected using a anthracene crystal. Measured
109IN5c E|g, I|g, E(X-ray), I(X-ray), E|b, E(ce), I(ce), |g|g-coin, |b|g-coin,
109IN6c |g(t). Deduced levels, J|p, branching ratios, conversion coefficients,
109IN7c |g-ray multipolarities, half-life of decay parent. Systematics of
109IN8c low-lying levels of odd-mass In isotopes.
109IN c Others: 1965Kh04, 1956Pe56
109IN c The decay schemes is from 1981Bu17.
109IN CG E,M,MR$From adopted gammas. CE data from 109SN EC DECAY are given in
109IN2cG the comments.
109IN cG RI$From 1981Bu17, unless otherwise stated
109IN cE TI$Deduced by evaluators from intensity balances
109IN cL E$From a least-squares fit to E|g
109IN cL E(A)$Seen only in 1981Bu17
109IN cL J,T$From Adopted Levels
109IN DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
109IN CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=0.00 FOR E2/M1,
109IN2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
109SN P 0 5/2+ 18.1 M 2 3857 9
109IN N 0.293 5 1.00
109IN cN NR$from |SI(|g+ce)(to g.s.)=100, by assuming no direct feeding to g.s.
109IN PN 5
109IN G 142.8 5 0.3 1
109IN CG %IG=0.09 3, using the calculated normalization.
109IN G 407.3 4 0.5 2
109IN CG %IG=0.15 6, using the calculated normalization.
109IN G 414.7 4 0.4 3
109IN CG %IG=0.12 9, using the calculated normalization.
109IN DG $E|g=444.7 in 1981Bu17 could be a typo
109IN G 422.6 2 3.2 4
109IN CG %IG=0.94 12, using the calculated normalization.
109IN G 448.7 5 0.3 1
109IN CG %IG=0.09 3, using the calculated normalization.
109IN G 548.9 7 0.5 2
109IN CG %IG=0.15 6, using the calculated normalization.
109IN G 686.8 3 2.5 4
109IN CG %IG=0.73 12, using the calculated normalization.
109IN G 722.1 5 1.9 3
109IN CG %IG=0.56 9, using the calculated normalization.
109IN G 780.1 4 0.8 3
109IN CG %IG=0.23 9, using the calculated normalization.
109IN G 804.9 4 0.7 2
109IN CG %IG=0.21 6, using the calculated normalization.
109IN G 903.4 4 0.6 2
109IN CG %IG=0.18 6, using the calculated normalization.
109IN G 1174.6 1 0.6 2
109IN CG %IG=0.18 6, using the calculated normalization.
109IN G 1231.0 1 1.9 4
109IN CG %IG=0.56 12, using the calculated normalization.
109IN G 1307.1 3 1.1 2
109IN CG %IG=0.32 6, using the calculated normalization.
109IN G 1507.6 4 0.4 1
109IN CG %IG=0.12 3, using the calculated normalization.
109IN G 1557.9 2 0.8 2
109IN CG %IG=0.23 6, using the calculated normalization.
109IN G 1674.1 120.7 2
109IN CG %IG=0.21 6, using the calculated normalization.
109IN G 1734.3 5 1.0 2
109IN CG %IG=0.29 6, using the calculated normalization.
109IN G 1770.8 2 1.2 2
109IN CG %IG=0.35 6, using the calculated normalization.
109IN G 1792.0 3 0.8 2
109IN CG %IG=0.23 6, using the calculated normalization.
109IN G 1850.1 5 1.7 3
109IN CG %IG=0.50 9, using the calculated normalization.
109IN G 2007.1 3 0.3 1
109IN CG %IG=0.09 3, using the calculated normalization.
109IN G 2030.0 2 1.2 3 ?
109IN CG %IG=0.35 9, using the calculated normalization.
109IN G 2078.8 5 0.2 1
109IN CG %IG=0.06 3, using the calculated normalization.
109IN G 2099.2 7 0.3 1
109IN CG %IG=0.09 3, using the calculated normalization.
109IN G 2106.2 5 0.1 1
109IN CG %IG=0.03 3, using the calculated normalization.
109IN G 2302.5 6 0.4 2 ?
109IN CG %IG=0.12 6, using the calculated normalization.
109IN L 0.0 9/2+ 4.159 H 10
109IN L 649.80 101/2- 1.34 M 6
109IN E 1.6 6 2.5 9 7.65 15 4.1 14 1U
109INS E EAV=996.3 41$CK=0.522 3$CL=0.0679 4$CM+=0.01729 10
109IN G 649.8 2 101 4 M4 0.0695
109IN CG %IG=29.6 9, using the calculated normalization.
109INS G KC=0.0582 9$LC=0.00914 13$MC=0.00182 3
109INS G NC=0.000331 5$OC=2.25E-5 4
109IN cG RI$from Table 3 in 1981Bu17, while I|g=93 from Table 4.
109IN cG M$|a(exp)=0.07 {i2}(1956Pe56), |a(exp)=0.08 {i3}, K/L=6.2 9
109IN2cG (1965Kh04), 0.07 (1970Sh05)
109IN L 980.93 113/2-
109IN E 0.3 LT 0.2 LT 7.0 GT 0.5 LT
109INS E EAV=829.3 41$CK=0.406 4$CL=0.0520 5$CM+=0.01322 11
109IN G 331.2 2 32.2 13M1 0.0203
109IN CG %IG=9.4 4, using the calculated normalization.
109INS G KC=0.01761 25$LC=0.00215 3$MC=0.000417 6
109INS G NC=7.65E-5 11$OC=5.72E-6 8
109IN CG M$EKC=0.012 (1965Kh04), EKC=0.028 (1970Sh05)
109IN L 1026.42 1011/2+
109IN E 0.61 15 0.59 15 6.58 11 1.2 3
109INS E EAV=808.6 41$CK=0.422 4$CL=0.0542 5$CM+=0.01377 12
109IN G 1026.4 1 13.6 7 M1+E2 +0.41 13 0.001333 @
109IN CG %IG=3.98 21, using the calculated normalization.
109INS G KC=0.001160 23$LC=0.000138 3$MC=2.66E-5 5
109INS G NC=4.88E-6 9$OC=3.67E-7 8
109IN cG RI$from 17.6 {I7} for the doublet placed from levels at E=1026 and
109IN2cG 2126, and individual intensity of I|g|?13 and I|g=4, respectively,
109IN3cG in 1981Bu17
109IN CG M$EKC=0.0046 (1970Sh05)
109IN L 1099.29 95/2+
109IN E 1.9 5 2.0 5 6.02 12 3.9 10
109INS E EAV=775.6 41$CK=0.450 4$CL=0.0578 5$CM+=0.01468 12
109IN G 119.0 6 0.2 1 [E1] 0.1062 22
109IN CG %IG=0.06 3, using the calculated normalization.
109INS G KC=0.0922 19$LC=0.01142 24$MC=0.00220 5
109INS G NC=0.000396 8$OC=2.61E-5 6
109IN G 1099.2 2 100 E2 9.85E-4
109IN CG %IG=29.3 5, using the calculated normalization.
109INS G KC=0.000858 12$LC=0.0001035 15$MC=2.00E-5 3
109INS G NC=3.66E-6 6$OC=2.68E-7 4
109IN CG M$EKC=0.0013 (1970Sh05)
109IN L 1171.72 161/2+
109IN E 0.64 10 0.81 12 6.40 7 1.45 22
109INS E EAV=742.8 41$CK=0.479 4$CL=0.0615 5$CM+=0.01564 12
109IN G 521.9 2 9.6 6 E1 0.00204
109IN CG %IG=2.81 18, using the calculated normalization.
109INS G KC=0.001780 25$LC=0.000211 3$MC=4.07E-5 6
109INS G NC=7.43E-6 11$OC=5.41E-7 8
109IN CG M$EKC=0.012 (1970Sh05)
109IN L 1321.26 11 5/2+
109IN E 1.4 6 2.5 9 5.86 17 3.9 15
109INS E EAV=675.4 41$CK=0.542 4$CL=0.0696 5$CM+=0.01769 13
109IN G 222.2 7 0.2 1 [M1] 0.0571 10
109IN CG %IG=0.06 3, using the calculated normalization.
109INS G KC=0.0496 8$LC=0.00614 10$MC=0.001192 20
109INS G NC=0.000218 4$OC=1.62E-5 3
109IN G 340.2 3 0.8 2 [E1] 0.00586
109IN CG %IG=0.23 6, using the calculated normalization.
109INS G KC=0.00511 8$LC=0.000611 9$MC=0.0001179 17
109INS G NC=2.15E-5 3$OC=1.534E-6 22
109IN G 1321.3 2 39.4 23E2 6.98E-4
109IN CG %IG=11.5 7, using the calculated normalization.
109INS G KC=0.000584 9$LC=6.95E-5 10$MC=1.343E-5 19
109INS G NC=2.46E-6 4$OC=1.82E-7 3$IPC=2.80E-5 4
109IN L 1334.74 22 (3/2,5/2,7/2-) A ?
109IN E 0.32 4 0.56 7 6.50 6 0.88 11
109INS E EAV=669.4 41$CK=0.547 4$CL=0.0704 5$CM+=0.01788 13
109IN G 353.9 2 3.4 3
109IN CG %IG=1.00 9, using the calculated normalization.
109IN L 1428.3 613/2+
109IN G 401.97 6 0.22 7 M1+E2 +0.07 +5-4 0.01244
109IN CG %IG=0.064 21, using the calculated normalization.
109IN CG E,M,MR$From Adopted gammas
109IN CG RI$From TI=1.2 4 (from intensity balances) and branching from adopted
109IN2CG gammas
109IN G 1428.32 10 0.98 3 E2 6.30E-4
109IN CG %IG=0.287 10, using the calculated normalization.
109IN CG E,M$From Adopted gammas
109IN CG RI$From TI=1.2 4 (from intensity balances) and branching from adopted
109IN2CG gammas
109IN L 1440.67 21 5/2-
109IN E 0.32 4 0.72 8 6.36 5 1.04 12
109INS E EAV=621.9 41$CK=0.593 4$CL=0.0763 5$CM+=0.01939 13
109IN G 459.8 4 0.45 12 (M1) 0.00892 &
109IN CG %IG=0.13 4, using the calculated normalization.
109IN cG RI$From adopted gammas and I|g(790.9|g)=5.2. I|g=0.7 3 in 1991Bu17
109INS G KC=0.00776 11$LC=0.000940 14$MC=0.000182 3
109INS G NC=3.34E-5 5$OC=2.50E-6 4
109IN G 790.9 3 5.2 2 E2 0.00209
109IN CG %IG=1.52 7, using the calculated normalization.
109INS G KC=0.00181 3$LC=0.000226 4$MC=4.37E-5 7
109INS G NC=7.97E-6 12$OC=5.70E-7 8
109IN L 1463.62 19 9/2+
109IN G 437.2 3 5.5 6 M1 0.01010
109IN CG %IG=1.61 18, using the calculated normalization.
109INS G KC=0.00879 13$LC=0.001065 15$MC=0.000206 3
109INS G NC=3.78E-5 6$OC=2.84E-6 4
109IN cG RI$From adopted gammas. Other: 8.6 {I13} for 437.2|g+437.4|g,
109IN2cG I(437.2|g)=5 and I(437.4|g)=3.6 in 1981Bu17
109IN G 1463.6 4 10 3 [E2] 6.14E-4
109IN CG %IG=2.9 9, using the calculated normalization.
109INS G KC=0.000476 7$LC=5.63E-5 8$MC=1.088E-5 16
109INS G NC=1.99E-6 3$OC=1.483E-7 21$IPC=6.88E-5 10
109IN L 1482.22 22 (5/2+,7/2-) A
109IN E 0.46 4 1.11 9 6.15 4 1.57 13
109INS E EAV=603.3 41$CK=0.611 4$CL=0.0786 5$CM+=0.01998 13
109IN G 383 3 AP 0.01404
109IN CG %IG=0.9 5, using the calculated normalization.
109IN cG RI$11.0 {I9} for 383|g+384.5|g in 1981Bu17
109IN G 501.2 3 0.9 3 0.00224
109IN CG %IG=0.26 9, using the calculated normalization.
109IN G 1482.3 3 1.4 3
109IN CG %IG=0.41 9, using the calculated normalization.
109IN cG E$it is indicated in Table 3 of 1981Bu17 that this |g is assigned in
109IN2cG the decay scheme but no specific placement is made. Evaluators
109IN3cG have made this placement based on |g-ray energy.
109IN L 1483.76 18 5/2+
109IN E 0.64 5 1.56 12 6.00 4 2.20 17
109INS E EAV=602.7 41$CK=0.611 4$CL=0.0787 5$CM+=0.02000 13
109IN G 312.0 3 2.0 2[E2] 0.0299
109IN CG %IG=0.59 6, using the calculated normalization.
109INS G KC=0.0252 4$LC=0.00374 6$MC=0.000733 11
109INS G NC=0.0001311 19$OC=8.02E-6 12
109IN G 384.5 4 8 AP M1 0.01390
109IN CG %IG=2.3 12, using the calculated normalization.
109INS G KC=0.01209 18$LC=0.001472 21$MC=0.000285 4
109INS G NC=5.23E-5 8$OC=3.91E-6 6
109IN cG RI$11.0 {I9} for 383|g+384.5|g in 1981Bu17
109IN G 501.0 6 1.28 18[E1] 0.00225
109IN CG %IG=0.38 6, using the calculated normalization.
109INS G KC=0.00196 3$LC=0.000232 4$MC=4.48E-5 7
109INS G NC=8.18E-6 12$OC=5.94E-7 9
109IN cG E,RI$From adopted gammas and I|g(384.5)=8
109IN L 1574.36 13(5/2+,7/2)
109IN E 0.59 7 1.8 2 5.90 6 2.4 3
109INS E EAV=562.3 40$CK=0.650 4$CL=0.0837 5$CM+=0.02127 13
109IN G 1574.4 2 18.2 8
109IN CG %IG=5.33 24, using the calculated normalization.
109IN L 1713.27 12 9/2+
109IN E 0.19 5 0.87 20 6.17 11 1.06 25
109INS E EAV=500.6 40$CK=0.705 4$CL=0.0909 5$CM+=0.02313 12
109IN G 229.2 3 0.4 2[E2] 0.0837
109IN CG %IG=0.12 6, using the calculated normalization.
109INS G KC=0.0696 11$LC=0.01146 17$MC=0.00226 4
109INS G NC=0.000400 6$OC=2.23E-5 4
109IN G 285.0 5 1.2 3[E2] 0.0402
109IN CG %IG=0.35 9, using the calculated normalization.
109INS G KC=0.0338 6$LC=0.00516 8$MC=0.001012 16
109INS G NC=0.000180 3$OC=1.076E-5 17
109IN cG E,RI$From adopted gammas and I|g(614.1)=6.0
109IN G 614.1 3 6.0 4 E2 0.00397
109IN CG %IG=1.76 12, using the calculated normalization.
109INS G KC=0.00343 5$LC=0.000442 7$MC=8.58E-5 12
109INS G NC=1.558E-5 22$OC=1.084E-6 16
109IN G 1713.5 2 3.3 4[M1] 6.08E-4
109IN CG %IG=0.97 12, using the calculated normalization.
109INS G KC=0.000395 6$LC=4.62E-5 7$MC=8.91E-6 13
109INS G NC=1.638E-6 23$OC=1.242E-7 18$IPC=0.0001556 22
109IN L 1722.38 16 7/2+
109IN E 0.32 12 1.5 6 5.93 17 1.8 7
109INS E EAV=496.6 40$CK=0.709 4$CL=0.0914 5$CM+=0.02324 12
109IN G 623.4 4 7.2 20M1 0.00428
109IN CG %IG=2.1 6, using the calculated normalization.
109INS G KC=0.00373 6$LC=0.000447 7$MC=8.65E-5 13
109INS G NC=1.588E-5 23$OC=1.194E-6 17
109IN G 1722.2 2 3.5 3[M1] 6.07E-4
109IN CG %IG=1.03 9, using the calculated normalization.
109INS G KC=0.000391 6$LC=4.57E-5 7$MC=8.82E-6 13
109INS G NC=1.621E-6 23$OC=1.228E-7 18$IPC=0.0001593 23
109IN L 1759.31 12 3/2,5/2,7/2 A
109IN E 0.1 LT 0.7 LT 6.3 GT 0.8 LT
109INS E EAV=480.3 40$CK=0.722 4$CL=0.0932 5$CM+=0.02370 11
109IN G 437.4 3 3.6 13
109IN CG %IG=1.1 4, using the calculated normalization.
109IN cG RI$from 8.6 {I13} for 437.2|g+437.4|g, I(437.2|g)=5 and I(437.4|g)=3.6
109IN2cG in 1981Bu17
109IN G 660.1 1 4.8 6
109IN CG %IG=1.41 18, using the calculated normalization.
109IN L 1816.66 13(3/2,5/2)-
109IN E 0.18 3 1.14 18 6.01 7 1.32 21
109INS E EAV=455.0 40$CK=0.743 3$CL=0.0959 4$CM+=0.02438 11
109IN G 376.1 5 0.3 [M1] 0.01469
109IN CG %IG=0.0879 16, using the calculated normalization.
109INS G KC=0.01277 19$LC=0.001556 23$MC=0.000302 5
109INS G NC=5.53E-5 8$OC=4.14E-6 6
109IN cG E$ not listed in Table 3 (1981Bu17)
109IN G 482.7 6 0.4 2[E1] 0.00245
109IN CG %IG=0.12 6, using the calculated normalization.
109INS G KC=0.00214 3$LC=0.000254 4$MC=4.90E-5 7
109INS G NC=8.95E-6 13$OC=6.49E-7 10
109IN G 495.8 4 1.3 3[E1] 0.00230
109IN CG %IG=0.38 9, using the calculated normalization.
109INS G KC=0.00201 3$LC=0.000238 4$MC=4.59E-5 7
109INS G NC=8.39E-6 12$OC=6.09E-7 9
109IN G 835.7 1 2.9 4M1,E2 0.00216
109IN CG %IG=0.85 12, using the calculated normalization.
109INS G KC=0.00189 3$LC=0.000224 4$MC=4.34E-5 6
109INS G NC=7.96E-6 12$OC=6.00E-7 9
109IN G 1166.6 3 1.5 3[M1,E2] 1.03E-3
109IN CG %IG=0.44 9, using the calculated normalization.
109INS G KC=0.000895 13$LC=0.0001055 15$MC=2.04E-5 3
109INS G NC=3.74E-6 6$OC=2.83E-7 4$IPC=3.04E-6 5
109IN cG RI$ 1.8 is listed in Table 4 (1981Bu17)
109IN L 1843.7 6(5/2+,7/2) A
109IN E 0.089 8 0.61 5 6.26 4 0.70 6
109INS E EAV=443.1 40$CK=0.752 3$CL=0.0970 4$CM+=0.02468 10
109IN G 1843.7 6 2.4 2
109IN CG %IG=0.70 6, using the calculated normalization.
109IN L 1957.11 11 5/2+ A
109IN E 0.036 22 0.37 23 6.4 3 0.41 25
109INS E EAV=393.4 40$CK=0.7854 25$CL=0.1016 4$CM+=0.02584 9
109IN G 473.2 5 0.6 2[M1] 0.00831
109IN CG %IG=0.18 6, using the calculated normalization.
109INS G KC=0.00724 11$LC=0.000875 13$MC=0.0001694 25
109INS G NC=3.11E-5 5$OC=2.33E-6 4
109IN G 785.3 2 0.9 2[E2] 0.00213
109IN CG %IG=0.26 6, using the calculated normalization.
109INS G KC=0.00184 3$LC=0.000230 4$MC=4.45E-5 7
109INS G NC=8.11E-6 12$OC=5.80E-7 9
109IN G 976.3 1 3.6 3[E1] 5.40E-4
109IN CG %IG=1.05 9, using the calculated normalization.
109INS G KC=0.000472 7$LC=5.50E-5 8$MC=1.059E-5 15
109INS G NC=1.94E-6 3$OC=1.440E-7 21
109IN G 1956.9 2 1.3 2[E2] 5.93E-4
109IN CG %IG=0.38 6, using the calculated normalization.
109INS G KC=0.000274 4$LC=3.20E-5 5$MC=6.17E-6 9
109INS G NC=1.132E-6 16$OC=8.49E-8 12$IPC=0.000280 4
109IN L 2055.14 25(5/2+,7/2) A
109IN E 0.071 9 1.13 14 5.90 6 1.20 15
109INS E EAV=350.5 40$CK=0.8093 20$CL=0.1048 3$CM+=0.02667 7
109IN G 2055.2 3 5.9 3
109IN CG %IG=1.73 10, using the calculated normalization.
109IN L 2064.3 4(3/2-,5/2-,7/2-)
109IN E 0.034 5 0.56 8 6.20 7 0.59 9
109INS E EAV=346.5 40$CK=0.8113 20$CL=0.1051 3$CM+=0.02674 7
109IN G 1083.4 3 2.0 3(M1,E2) 1.21E-3
109IN CG %IG=0.59 9, using the calculated normalization.
109INS G KC=0.001053 15$LC=0.0001244 18$MC=2.40E-5 4
109INS G NC=4.41E-6 7$OC=3.33E-7 5
109IN L 2125.77 11(5/2+,7/2)
109IN E 0.04 1 0.9 3 5.98 15 0.9 3
109INS E EAV=319.8 40$CK=0.8232 17$CL=0.10672 23$CM+=0.02716 6
109IN G 1026.4 1 4.0 7 @
109IN CG %IG=1.17 21, using the calculated normalization.
109IN cG RI$from 17.6 {I7} for the doublet placed from levels at E=1026 and
109IN2cG 2126, and individual intensity of I|g|?13 and I|g=4, respectively,
109IN3cG in 1981Bu17
109IN G 2125.9 2 4.6 3
109IN CG %IG=1.35 9, using the calculated normalization.
109IN L 2138.44 12 (3/2+)
109IN E 0.35 3 8.3 5 4.99 3 8.7 5
109INS E EAV=314.3 40$CK=0.8254 16$CL=0.10702 22$CM+=0.02724 6
109IN G 181.8 6 0.2 1[M1] 0.0977 17
109IN CG %IG=0.06 3, using the calculated normalization.
109INS G KC=0.0847 14$LC=0.01056 18$MC=0.00205 4
109INS G NC=0.000376 7$OC=2.79E-5 5
109IN G 816.2 4 1.8 4[M1] 0.00228 &
109IN CG %IG=0.53 12, using the calculated normalization.
109INS G KC=0.00199 3$LC=0.000237 4$MC=4.58E-5 7
109INS G NC=8.41E-6 12$OC=6.34E-7 9
109IN G 1039.0 2 15.0 6[M1] 1.32E-3
109IN CG %IG=4.39 19, using the calculated normalization.
109INS G KC=0.001155 17$LC=0.0001366 20$MC=2.64E-5 4
109INS G NC=4.85E-6 7$OC=3.66E-7 6
109IN G 1488.7 1 13.5 11[E1] 4.76E-4
109IN CG %IG=4.0 4, using the calculated normalization.
109INS G KC=0.000222 4$LC=2.56E-5 4$MC=4.92E-6 7
109INS G NC=9.03E-7 13$OC=6.76E-8 10$IPC=0.000223 4
109IN L 2151.4 3(3/2,5/2-) A
109IN E 0.024 4 0.62 11 6.12 8 0.64 11
109INS E EAV=308.6 40$CK=0.8276 15$CL=0.10733 21$CM+=0.02732 6
109IN G 710.7 3 1.4 3
109IN CG %IG=0.41 9, using the calculated normalization.
109IN G 1170.2 0.3
109IN CG %IG=0.0879 16, using the calculated normalization.
109IN CG E$ not given in the table 3 (1981Bu17)
109IN G 1501.7 4 0.5 2
109IN CG %IG=0.15 6, using the calculated normalization.
109IN L 2218.56 15(5/2+,7/2) A
109IN E 0.11 1 4.2 3 5.25 4 4.3 3
109INS E EAV=279.5 39$CK=0.8374 12$CL=0.10873 17$CM+=0.02768 5
109IN G 261.1 12 1.1 4
109IN CG %IG=0.32 12, using the calculated normalization.
109IN G 401.8 4 0.3 1
109IN CG %IG=0.09 3, using the calculated normalization.
109IN G 897.5 2 3.2 4
109IN CG %IG=0.94 12, using the calculated normalization.
109IN G 1119.2 3 10.5 5
109IN CG %IG=3.08 16, using the calculated normalization.
109IN G 2218.5 5 0.73 7
109IN CG %IG=0.214 21, using the calculated normalization.
109IN L 2235.8 3(5/2+,7/2) A
109IN E 0.0163 10 0.675 19 6.031 14 0.691 19
109INS E EAV=272.0 39$CK=0.8396 11$CL=0.10904 17$CM+=0.02776 5
109IN G 522 2 AP
109IN CG %IG=0.6 3, using the calculated normalization.
109IN CG E$not given in the table 3 (1981Bu17)
109IN G 2235.8 3 0.36 5
109IN CG %IG=0.105 15, using the calculated normalization.
109IN L 2271.4 5(3/2+) A
109IN E 0.011 2 0.58 9 6.08 7 0.59 9
109INS E EAV=256.5 39$CK=0.8435 10$CL=0.10963 15$CM+=0.02791 4
109IN G 1290.0 0.5 [E1] 4.08E-4
109IN CG %IG=0.146 3, using the calculated normalization.
109INS G KC=0.000283 4$LC=3.28E-5 5$MC=6.31E-6 9
109INS G NC=1.157E-6 17$OC=8.64E-8 12$IPC=8.46E-5 12
109IN CG E$ not given in the table 3 (1981Bu17)
109IN G 1621.7 5 1.5 3 [E1] 5.44E-4
109IN CG %IG=0.44 9, using the calculated normalization.
109INS G KC=0.000192 3$LC=2.21E-5 4$MC=4.26E-6 6
109INS G NC=7.82E-7 11$OC=5.86E-8 9$IPC=0.000324 5
109IN L 2276.5 7 (7/2+)
109IN E 0.0086 24 0.46 13 6.17 12 0.47 13
109INS E EAV=254.3 40$CK=0.8441 10$CL=0.10971 14$CM+=0.02793 4
109IN G 1250.1 100.8 3 [E2] 7.65E-4
109IN CG %IG=0.23 9, using the calculated normalization.
109INS G KC=0.000654 10$LC=7.82E-5 11$MC=1.510E-5 22
109INS G NC=2.77E-6 4$OC=2.04E-7 3$IPC=1.44E-5 3
109IN G 2276.5 8 0.8 3 [M1] 6.76E-4
109IN CG %IG=0.23 9, using the calculated normalization.
109INS G KC=0.000223 4$LC=2.59E-5 4$MC=4.99E-6 7
109INS G NC=9.18E-7 13$OC=6.96E-8 10$IPC=0.000421 6
109IN L 2305.2 4 (3/2,5/2-) A
109IN E 0.013 2 0.84 11 5.90 6 0.85 11
109INS E EAV=241.9 39$CK=0.8468 9$CL=0.11013 13$CM+=0.02804 4
109IN G 1205.6 5 1.3 2
109IN CG %IG=0.38 6, using the calculated normalization.
109IN G 1655.7 6 1.6 3
109IN CG %IG=0.47 9, using the calculated normalization.
109IN L 2356.15 23(3/2,5/2,7/2-) A
109IN E 0.0054 10 0.52 9 6.07 8 0.53 9
109INS E EAV=219.8 39$CK=0.8508 7$CL=0.1108 1$CM+=0.02821 3
109IN G 597.2 120.5 2
109IN CG %IG=0.15 6, using the calculated normalization.
109IN G 1375.2 2 1.3 2
109IN CG %IG=0.38 6, using the calculated normalization.
109IN L 2410.9 4(3/2,5/2+) A
109IN E 0.0043 8 0.67 11 5.94 8 0.67 11
109INS E EAV=196.0 40$CK=0.8539 5$CL=0.11131 9$CM+=0.02835 3
109IN G 454.4 200.6 2 ?
109IN CG %IG=0.18 6, using the calculated normalization.
109IN G 594.6 3 0.3 2 ?
109IN CG %IG=0.09 6, using the calculated normalization.
109IN G 1239.9 7 1.3 3
109IN CG %IG=0.38 9, using the calculated normalization.
109IN G 1429.7 4 1.0 2
109IN CG %IG=0.29 6, using the calculated normalization.
109IN L 2469.05 24(3/2,5/2,7/2)+
109IN E 0.0015 4 0.41 9 6.11 10 0.41 9
109INS E EAV=170.8 40$CK=0.8562 3$CL=0.11176 7$CM+=0.02847 2
109IN G 250.1 6 0.4 2
109IN CG %IG=0.12 6, using the calculated normalization.
109IN G 985.3 2 1.3 2M1,E2 1.49E-3
109IN CG %IG=0.38 6, using the calculated normalization.
109INS G KC=0.001300 19$LC=0.0001539 22$MC=2.97E-5 5
109INS G NC=5.46E-6 8$OC=4.13E-7 6
109IN L 2508.33 13 (3/2,5/2-) A
109IN E 0.0024 4 1.05 14 5.68 6 1.05 14
109INS E EAV=153.6 40$CK=0.8572 2$CL=0.11201 6$CM+=0.02854 2
109IN G 1187.8 5 0.8 3
109IN CG %IG=0.23 9, using the calculated normalization.
109IN G 1408.9 2 2.3 2
109IN CG %IG=0.67 6, using the calculated normalization.
109IN G 1858.7 2 1.3 2
109IN CG %IG=0.38 6, using the calculated normalization.
109IN L 2542.01 11(5/2+,7/2)
109IN E 0.0063 9 4.33 21 5.038 23 4.34 21
109INS E EAV=138.9 40$CK=0.8578 2$CL=0.11219 5$CM+=0.02859 2
109IN G 828.8 2 2.9 3
109IN CG %IG=0.85 9, using the calculated normalization.
109IN G 1078.5 0.3
109IN CG %IG=0.0879 16, using the calculated normalization.
109IN CG E$ not given in the table 3 (1981Bu17)
109IN G 1220.9 5 0.5 2
109IN CG %IG=0.15 6, using the calculated normalization.
109IN G 1442.7 1 2.4 2
109IN CG %IG=0.70 6, using the calculated normalization.
109IN G 2541.8 3 8.7 5
109IN CG %IG=2.55 15, using the calculated normalization.
109IN L 2561.02 19 3/2+
109IN E 0.0095 16 8.7 7 4.72 4 8.7 7
109INS E EAV=130.4 41$CK=0.8580 1$CL=0.11228 5$CM+=0.02861 2
109IN G 1462.0 6 7 2[M1] 6.92E-4
109IN CG %IG=2.1 6, using the calculated normalization.
109INS G KC=0.000551 8$LC=6.46E-5 9$MC=1.247E-5 18
109INS G NC=2.29E-6 4$OC=1.735E-7 25$IPC=6.15E-5 9
109IN G 1580.7 5 3.8 4[E1] 5.22E-4
109IN CG %IG=1.11 12, using the calculated normalization.
109INS G KC=0.000201 3$LC=2.31E-5 4$MC=4.45E-6 7
109INS G NC=8.16E-7 12$OC=6.11E-8 9$IPC=0.000293 5
109IN G 1911.1 2 19.3 8[E1] 7.11E-4
109IN CG %IG=5.7 25, using the calculated normalization.
109INS G KC=0.0001477 21$LC=1.696E-5 24$MC=3.26E-6 5
109INS G NC=5.99E-7 9$OC=4.50E-8 7$IPC=0.000542 8
109IN L 2564.2 7 (5/2+) A
109IN E 0.000103 0.100 21 6.66 10 0.100 21
109INS E EAV=129.0 41$CK=0.8581 1$CL=0.11230 5$CM+=0.02862 2
109IN G 2564.2 7 0.34 7[E2] 7.64E-4
109IN CG %IG=0.100 21, using the calculated normalization.
109INS G KC=0.0001689 24$LC=1.96E-5 3$MC=3.77E-6 6
109INS G NC=6.92E-7 10$OC=5.22E-8 8$IPC=0.000571 8
109IN L 2574.8 3 (5/2+,7/2) A
109IN E 0.108 18 6.62 8 0.108 18
109INS E CK=0.8582$CL=0.11234 4$CM+=0.02863 2
109IN G 2574.8 3 0.37 6
109IN CG %IG=0.108 18, using the calculated normalization.
109IN L 2591.87 17 7/2+
109IN E 0.0033 6 5.0 3 4.94 3 5.0 3
109INS E EAV=116.9 40$CK=0.8583$CL=0.11242 4$CM+=0.02865 1
109IN G 373.7 3 0.8 2[M1] 0.01493
109IN CG %IG=0.23 6, using the calculated normalization.
109INS G KC=0.01298 19$LC=0.001582 23$MC=0.000306 5
109INS G NC=5.62E-5 8$OC=4.21E-6 6
109IN G 452.8 5 0.5 2[E2] 0.00936 ?
109IN CG %IG=0.15 6, using the calculated normalization.
109INS G KC=0.00802 12$LC=0.001088 16$MC=0.000212 3
109INS G NC=3.83E-5 6$OC=2.54E-6 4
109IN G 465.8 8 0.5 2[M1] 0.00864
109IN CG %IG=0.15 6, using the calculated normalization.
109INS G KC=0.00752 11$LC=0.000910 14$MC=0.000176 3
109INS G NC=3.23E-5 5$OC=2.42E-6 4
109IN G 869.3 4 2.3 3[M1] 0.00198
109IN CG %IG=0.67 9, using the calculated normalization.
109INS G KC=0.001724 25$LC=0.000205 3$MC=3.96E-5 6
109INS G NC=7.27E-6 11$OC=5.48E-7 8
109IN G 1107.2 8 1.6 3[M1] 1.15E-3 &
109IN CG %IG=0.47 9, using the calculated normalization.
109INS G KC=0.001004 15$LC=0.0001185 17$MC=2.29E-5 4
109INS G NC=4.20E-6 6$OC=3.18E-7 5$IPC=5.40E-7 17
109IN cG E,RI$unresolved with 1107.7|g from E=2924 level
109IN G 1128.2 3 4.7 2[M1] 1.10E-3
109IN CG %IG=1.38 7, using the calculated normalization.
109INS G KC=0.000963 14$LC=0.0001136 16$MC=2.19E-5 3
109INS G NC=4.03E-6 6$OC=3.05E-7 5$IPC=1.075E-6 18
109IN G 1492.6 8 4.5 6[M1] 6.75E-4
109IN CG %IG=1.32 18, using the calculated normalization.
109INS G KC=0.000527 8$LC=6.18E-5 9$MC=1.193E-5 17
109INS G NC=2.19E-6 3$OC=1.660E-7 24$IPC=7.13E-5 11
109IN G 1565.6 5 0.8 2[E2] 5.84E-4
109IN CG %IG=0.23 6, using the calculated normalization.
109INS G KC=0.000417 6$LC=4.92E-5 7$MC=9.50E-6 14
109INS G NC=1.741E-6 25$OC=1.299E-7 19$IPC=0.0001059 15
109IN G 2591.6 4 2.0 2[M1] 7.70E-4
109IN CG %IG=0.59 6, using the calculated normalization.
109INS G KC=0.0001732 25$LC=2.01E-5 3$MC=3.87E-6 6
109INS G NC=7.11E-7 10$OC=5.40E-8 8$IPC=0.000572 8
109IN L 2602.3 4(5/2+,7/2) A
109IN E 0.66 15 5.81 10 0.66 15
109INS E CK=0.8583$CL=0.11246 4$CM+=0.02866 1
109IN G 879.2 5 2.0 5
109IN CG %IG=0.59 15, using the calculated normalization.
109IN G 2602.7 4 0.26 4
109IN CG %IG=0.076 12, using the calculated normalization.
109IN L 2617.16 21 (5/2,7/2)+ A
109IN E 0.70 9 5.78 6 0.70 9
109INS E CK=0.8584$CL=0.11252 4$CM+=0.02868 1
109IN G 478.5 4 0.4 2
109IN CG %IG=0.12 6, using the calculated normalization.
109IN G 857.9 2 1.8 2
109IN CG %IG=0.53 6, using the calculated normalization.
109IN G 2617.0 100.2 1
109IN CG %IG=0.06 3, using the calculated normalization.
109IN L 2785.62 14(5/2+,7/2)
109IN E 7.1 12 4.64 8 7.1 12
109INS E CK=0.8580$CL=0.11316 4$CM+=0.02887 2
109IN G 1072.7 3 0.8 2
109IN CG %IG=0.23 6, using the calculated normalization.
109IN G 1211.4 3 3.3 4
109IN CG %IG=0.97 12, using the calculated normalization.
109IN G 1464.2 2 12 4
109IN CG %IG=3.5 12, using the calculated normalization.
109IN G 1686.3 3 2.5 3
109IN CG %IG=0.73 9, using the calculated normalization.
109IN G 2785.4 3 5.8 4
109IN CG %IG=1.70 12, using the calculated normalization.
109IN L 2808.8 3 3/2 A
109IN E 0.67 11 5.65 8 0.67 11
109INS E CK=0.8578$CL=0.11326 4$CM+=0.02890 2
109IN G 1709.3 6 0.3 1
109IN CG %IG=0.09 3, using the calculated normalization.
109IN G 2158.9 4 2.4 3
109IN CG %IG=0.70 9, using the calculated normalization.
109IN L 2813.46 20(5/2+,7/2) A
109IN E 1.00 9 5.47 4 1.00 9
109INS E CK=0.8578$CL=0.11328 4$CM+=0.02891 2
109IN G 1054.2 2 2.1 2
109IN CG %IG=0.62 6, using the calculated normalization.
109IN G 2813.2 4 1.3 2
109IN CG %IG=0.38 6, using the calculated normalization.
109IN L 2845.78 12 3/2 A
109IN E 2.96 21 4.97 4 2.96 21
109INS E CK=0.8576$CL=0.11343 5$CM+=0.02895 2
109IN G 539.4 2 0.7 2 ?
109IN CG %IG=0.21 6, using the calculated normalization.
109IN G 888.7 1 2.1 5
109IN CG %IG=0.62 15, using the calculated normalization.
109IN G 1271.5 3 1.6 3
109IN CG %IG=0.47 9, using the calculated normalization.
109IN G 1524.9 3 1.7 2
109IN CG %IG=0.50 6, using the calculated normalization.
109IN G 2195.6 2 4.7 3
109IN CG %IG=1.38 9, using the calculated normalization.
109IN L 2851.72 23 7/2+ A
109IN E 1.52 19 5.25 6 1.52 19
109INS E CK=0.8576$CL=0.11345 5$CM+=0.02896 2
109IN G 1092.2 5 1.8 5
109IN CG %IG=0.53 15, using the calculated normalization.
109IN G 1130.5 8 0.3 2[M1] 1.10E-3
109IN CG %IG=0.09 6, using the calculated normalization.
109INS G KC=0.000959 14$LC=0.0001131 16$MC=2.18E-5 3
109INS G NC=4.01E-6 6$OC=3.03E-7 5$IPC=1.15E-6 4
109IN G 1388.2 5 0.8 2[M1] 7.44E-4
109IN CG %IG=0.23 6, using the calculated normalization.
109INS G KC=0.000615 9$LC=7.22E-5 11$MC=1.393E-5 20
109INS G NC=2.56E-6 4$OC=1.94E-7 3$IPC=4.04E-5 6
109IN G 1825.1 3 2.1 2[E2] 5.75E-4 &
109IN CG %IG=0.62 6, using the calculated normalization.
109INS G KC=0.000312 5$LC=3.65E-5 6$MC=7.04E-6 10
109INS G NC=1.292E-6 18$OC=9.68E-8 14$IPC=0.000218 3
109IN G 2852.2 100.2 1[M1] 8.59E-4
109IN CG %IG=0.06 3, using the calculated normalization.
109INS G KC=0.0001443 21$LC=1.669E-5 24$MC=3.22E-6 5
109INS G NC=5.91E-7 9$OC=4.49E-8 7$IPC=0.000694 10
109IN L 2858.58 18(5/2+,7/2)
109IN E 2.70 15 5.00 3 2.70 15
109INS E CK=0.8575$CL=0.11349 5$CM+=0.02897 2
109IN G 732.5 5 2.1 3
109IN CG %IG=0.62 9, using the calculated normalization.
109IN G 1759.2 5 3.7 2
109IN CG %IG=1.08 6, using the calculated normalization.
109IN G 2858.6 2 3.4 3
109IN CG %IG=1.00 9, using the calculated normalization.
109IN L 2871.19 14 5/2+
109IN E 3.42 25 4.89 4 3.42 25
109INS E CK=0.8575$CL=0.11355 5$CM+=0.02898 2
109IN G 310.3 5 0.5 [M1] 0.0239
109IN CG %IG=0.146 3, using the calculated normalization.
109INS G KC=0.0208 3$LC=0.00255 4$MC=0.000494 8
109INS G NC=9.06E-5 14$OC=6.76E-6 10
109IN CG E$ not given in the table 3 (1981Bu17)
109IN G 362.9 1 0.8 2
109IN CG %IG=0.23 6, using the calculated normalization.
109IN G 459.8 4 0.7 3 & ?
109IN CG %IG=0.21 9, using the calculated normalization.
109IN G 745.3 9 1.1 3
109IN CG %IG=0.32 9, using the calculated normalization.
109IN G 816.2 4 1.8 4 &
109IN CG %IG=0.53 12, using the calculated normalization.
109IN G 1157.8 3 1.7 3[E2] 8.84E-4
109IN CG %IG=0.50 9, using the calculated normalization.
109INS G KC=0.000768 11$LC=9.23E-5 13$MC=1.783E-5 25
109INS G NC=3.26E-6 5$OC=2.40E-7 4$IPC=2.86E-6 5
109IN G 1700.7 13 0.4 1[E2] 5.70E-4
109IN CG %IG=0.12 3, using the calculated normalization.
109INF G FL=1171.72
109INS G KC=0.000356 5$LC=4.18E-5 6$MC=8.07E-6 12
109INS G NC=1.480E-6 21$OC=1.107E-7 16$IPC=0.0001620 24
109IN G 1889.8 3 5.1 5[E1] 6.98E-4
109IN CG %IG=1.49 15, using the calculated normalization.
109INS G KC=0.0001504 21$LC=1.726E-5 25$MC=3.32E-6 5
109INS G NC=6.10E-7 9$OC=4.58E-8 7$IPC=0.000526 8
109IN G 2871.2 9 0.27 5[E2] 8.69E-4
109IN CG %IG=0.079 15, using the calculated normalization.
109INS G KC=0.0001390 20$LC=1.605E-5 23$MC=3.09E-6 5
109INS G NC=5.68E-7 8$OC=4.29E-8 6$IPC=0.000711 10
109IN L 2919.8 7(5/2+,7/2) A
109IN E 0.015 6 7.20 18 0.015 6
109INS E CK=0.8571$CL=0.11380 5$CM+=0.02906 2
109IN G 2919.8 7 0.05 2
109IN CG %IG=0.015 6, using the calculated normalization.
109IN L 2924.48 13(3/2,5/2)
109IN E 3.87 22 4.78 3 3.87 22
109INS E CK=0.8571$CL=0.11382 5$CM+=0.02907 2
109IN G 967.2 4 1.6 3
109IN CG %IG=0.47 9, using the calculated normalization.
109IN G 1107.7 8 1.6 3 &
109IN CG %IG=0.47 9, using the calculated normalization.
109IN cG E,RI$unresolved with 1107.2|g from E=2592 level
109IN G 1350.1 1 3.0 3
109IN CG %IG=0.88 9, using the calculated normalization.
109IN G 1603.3 3 1.3 2
109IN CG %IG=0.38 6, using the calculated normalization.
109IN G 1825.3 3 2.1 2 &
109IN CG %IG=0.62 6, using the calculated normalization.
109IN G 1943.5 3 3.6 4
109IN CG %IG=1.05 12, using the calculated normalization.
109IN L 2943.0 4(5/2+,7/2-)
109IN E 0.25 4 5.95 7 0.25 4
109INS E CK=0.8570$CL=0.11393 6$CM+=0.02910 2
109IN G 1962.2 5 0.5 1
109IN CG %IG=0.15 3, using the calculated normalization.
109IN G 2942.8 4 0.37 5
109IN CG %IG=0.108 15, using the calculated normalization.
109IN L 2986.8 3(3/2+,5/2+) A
109IN E 0.59 11 5.54 9 0.59 11
109INS E CK=0.8566$CL=0.11419 6$CM+=0.02918 2
109IN G 848.6 8 0.5 2
109IN CG %IG=0.15 6, using the calculated normalization.
109IN G 1227.4 3 1.1 3
109IN CG %IG=0.32 9, using the calculated normalization.
109IN G 1546.6 8 0.4 1[E1] 5.04E-4
109IN CG %IG=0.12 3, using the calculated normalization.
109INS G KC=0.000208 3$LC=2.40E-5 4$MC=4.61E-6 7
109INS G NC=8.46E-7 12$OC=6.34E-8 9$IPC=0.000267 4
109IN L 3013.4 3(5/2+,7/2)
109IN E 0.123 15 6.19 6 0.123 15
109INS E CK=0.8564$CL=0.11436 7$CM+=0.02923 2
109IN G 3013.4 3 0.42 5
109IN CG %IG=0.123 15, using the calculated normalization.
109IN L 3029.70 21 (5/2+)
109IN E 1.69 15 5.03 4 1.69 15
109INS E CK=0.8563$CL=0.11448 7$CM+=0.02926 2
109IN G 158.6 6 0.3 1 [M1] 0.1416 25 ?
109IN CG %IG=0.09 3, using the calculated normalization.
109INS G KC=0.1227 22$LC=0.0154 3$MC=0.00298 6
109INS G NC=0.000546 10$OC=4.05E-5 7
109IN G 216.9 7 0.2 1 ?
109IN CG %IG=0.06 3, using the calculated normalization.
109IN G 220.5 6 0.4 2
109IN CG %IG=0.12 6, using the calculated normalization.
109IN G 560.3 7 0.3 1
109IN CG %IG=0.09 3, using the calculated normalization.
109IN G 1455.3 5 2.2 3
109IN CG %IG=0.64 9, using the calculated normalization.
109IN G 1930.5 3 1.7 2 [M1] 6.08E-4
109IN CG %IG=0.50 6, using the calculated normalization.
109INS G KC=0.000310 5$LC=3.61E-5 5$MC=6.96E-6 10
109INS G NC=1.280E-6 18$OC=9.71E-8 14$IPC=0.000253 4
109IN G 2049.0 5 1.0 2 [E1] 7.92E-4
109IN CG %IG=0.29 6, using the calculated normalization.
109INS G KC=0.0001326 19$LC=1.520E-5 22$MC=2.93E-6 4
109INS G NC=5.37E-7 8$OC=4.04E-8 6$IPC=0.000640 9
109IN G 3029.5 6 0.15 6 [E2] 9.25E-4
109IN CG %IG=0.044 18, using the calculated normalization.
109INS G KC=0.0001269 18$LC=1.463E-5 21$MC=2.82E-6 4
109INS G NC=5.18E-7 8$OC=3.91E-8 6$IPC=0.000780 11
109IN L 3034.8 4(5/2+,7/2)
109IN E 0.120 18 6.18 7 0.120 18
109INS E CK=0.8562$CL=0.11451 7$CM+=0.02927 2
109IN G 3034.8 4 0.41 6
109IN CG %IG=0.120 18, using the calculated normalization.
109IN L 3050.74 20(5/2+,7/2)
109IN E 0.44 6 5.60 6 0.44 6
109INS E CK=0.85607 9$CL=0.11463 7$CM+=0.02931 2
109IN G 1951.3 0.3
109IN CG %IG=0.0879 16, using the calculated normalization.
109IN CG E$ not given in the table 3 (1981Bu17)
109IN G 3050.7 2 1.2 2
109IN CG %IG=0.35 6, using the calculated normalization.
109IN L 3065.65 20(5/2+,7/2)
109IN E 0.076 15 6.34 9 0.076 15
109INS E CK=0.8559 1$CL=0.11474 7$CM+=0.02934 2
109IN G 3065.6 2 0.26 5
109IN CG %IG=0.076 15, using the calculated normalization.
109IN L 3140.3 5 (5/2+,7/2) A
109IN E 0.18 6 5.88 15 0.18 6
109INS E CK=0.8551 2$CL=0.11538 9$CM+=0.02953 3
109IN G 1819.0 4 0.6 2
109IN CG %IG=0.18 6, using the calculated normalization.
109IN G 3139.8 6 0.14 4 ?
109IN CG %IG=0.041 12, using the calculated normalization.
109IN L 3316.8 3(5/2+,7/2)
109IN E 0.088 15 5.93 8 0.088 15
109INS E CK=0.8522 2$CL=0.11764 16$CM+=0.03020 5
109IN G 3316.7 3 0.30 5
109IN CG %IG=0.088 15, using the calculated normalization.
109IN L 3361.0 6(5/2+,7/2)
109IN E 0.021 6 6.48 13 0.021 6
109INS E CK=0.8511 3$CL=0.11847 19$CM+=0.03045 6
109IN G 3360.9 6 0.07 2
109IN CG %IG=0.021 6, using the calculated normalization.
109IN L 3395.68 20(5/2+,7/2)
109IN E 0.20 4 5.43 9 0.20 4
109INS E CK=0.8501 3$CL=0.11924 23$CM+=0.03068 7
109IN G 2074.8 9 0.3 1
109IN CG %IG=0.09 3, using the calculated normalization.
109IN G 3395.6 2 0.37 5
109IN CG %IG=0.108 15, using the calculated normalization.
109IN L 3418.5 4 5/2+,7/2- A
109IN E 0.149 15 5.51 5 0.149 15
109INS E CK=0.8493 4$CL=0.11983 25$CM+=0.03085 8
109IN G 2437.5 4 0.47 5
109IN CG %IG=0.138 15, using the calculated normalization.
109IN G 3418.5 0.04
109IN CG %IG=0.01172 21, using the calculated normalization.
109IN CG E$ not given in the table 3 (1981Bu17)
109IN L 3426.53 22(5/2+,7/2) A
109IN E 0.52 12 4.95 11 0.52 12
109INS E CK=0.8490 4$CL=0.1200 3$CM+=0.03092 8
109IN G 1300.7 2 1.7 4
109IN CG %IG=0.50 12, using the calculated normalization.
109IN G 3427.3 8 0.06 2
109IN CG %IG=0.018 6, using the calculated normalization.