105CD 105IN EC DECAY (5.07 M) 1984VE01,1989BU29 19NDS 202002
105CD H TYP=FUL$AUT=S. LALKOVSKI, J. TIMAR and Z. ELEKES$CIT=NDS 161, 1 (2019)$
105CD2 H CUT=1-Apr-2019
105CD c 1984Ve01: Facility: CYCLONE cyclotron; Source: mass separated from
105CD2c {+nat}Mo({+14}N,xn) and {+92}Mo({+16}O,p3n) reactions at
105CD3c E({+14}N)=90~MeV and E({+16}O)=100~MeV; Detectors: two Ge(Li), one
105CD4c LEPS, plastic beta telescope and mini-orange spectrometer; Measured:
105CD5c |g, |g-|g coinc., |g-|b coinc., |g-|g(t), |b-|g(t), E|g, I|g; Deduced
105CD6c {+105}Cd level scheme, J|p and log| {Ift}
105CD c 1989Bu29: source from {+106}Cd(p,2n). Measured: E|g, I|g, |g-|g.
105CD2c coinc.; Deduced: {+105}Cd level scheme, I|b, log| {Ift}, |g-ray
105CD3c hindrance factors. Others: 1983Wo04, 1981BuZL, 1980ViZU, 1980Wi20,
105CD4c 1975Ri06, 1973Ro30
105CD cL E$From a least-squares fit to E|g
105CD cL J$From the adopted levels
105CD cG E,RI$From 1984Ve01
105CD cG M,MR$From the adopted gammas
105CD cG E(B)$Gammas reported by 1980Wi20 are not confirmed by 1984Ve01
105CD DG CC$ FROM BrIcc v2.2b (20-Jan-2009) 2008Ki07, "Frozen Orbitals" appr.
105IN P 0.0 9/2+ 5.07 M 7 4693 10
105CD N 0.413 5 1.0 1.0
105CD cN NR$calculated from |SI(|g+ce)=100% to g.s., assuming no
105CD2cN (|e+|b{++})-feeding to the {+105}Cd g.s.
105CD G 154.15 22 0.68 23
105CD G 156.3 5 0.68 11
105CD G 866.87 14 1.1 3
105CD G 875.6 3 2.34 21
105CD G 911.4 4 1.4 3
105CD G 977.03 17 1.07 13
105CD G 994.8 4 0.31 9
105CD G 1698.4 4 0.9 4
105CD G 1770.3 5 0.92 16
105CD G 1990.20 21 0.70 11
105CD G 1998.0 4 0.90 20
105CD G 2259.0 7 0.54 11
105CD G 2523.9 5 0.70 20
105CD G 2551.0 7 0.67 14
105CD G 2721.7 6 0.9 3
105CD G 3115.4 10 0.59 9
105CD L 0.0 5/2+
105CD E 471E+1 130.15 LT0.015 LT8.0 GT 0.16 LTC
105CDS E EAV=1674.4 48$CK=0.0792 6$CL=0.01000 8$CM+=0.002492 19
105CD L 131.18 7 7/2+ 1.75 NS 11
105CD cL T$from |g-131|g(t) in 1973Ro30
105CD G 131.47 12 100 M1 0.215 C
105CDX G EKC=0.18 3 (1976NeZU)
105CDS G KC=0.187 3$LC=0.0233 4$MC=0.00448 7$NC=0.000798 12$OC=4.56E-5 7$
105CDS G NC+=0.000843 12
105CD cG M$from |a(K)exp, small E2 contribution cannot be excluded
105CD E 471E+1 1323.3 8 2.62 105.759 17 25.9 9 C
105CDS E EAV=1612.3 48$CK=0.0873 7$CL=0.01103 9$CM+=0.002749 21
105CD L 196.17 6 (5/2+)
105CD G 196.25 7 14.3 6 M1 0.0724 C
105CDX G EKC=0.063 15 (1976NeZU)
105CDS G KC=0.0629 9$LC=0.00775 11$MC=0.001490 21$NC=0.000266 4$OC=1.530E-5 22$
105CDS G NC+=0.000281 4
105CD E 471E+1 130.4 LT0.05 LT7.4 GT 0.5 LTC
105CDS E EAV=1581.7 48$CK=0.0918 7$CL=0.01159 9$CM+=0.002889 23
105CD L 260.38 6 (7/2)+
105CD G 64.31 8 1.03 25 [M1+E2] 4 3
105CDS G KC=3.0 16$LC=1.2 10$MC=0.23 20$NC=0.04 4$OC=0.00057 22$NC+=0.04 4
105CD cG CC$from intensity balance
105CD G 128.90 25 2.54 18 [M1+E2] 0.42 19 C
105CDS G KC=0.34 14$LC=0.06 4$MC=0.013 8$NC=0.0021 13$OC=7.0E-5 22$
105CDS G NC+=0.0022 14
105CD G 260.27 10 37.9 17 M1+E2 +0.07 9 0.03456 C
105CDX G EKC=0.032 6 (1976NeZU)
105CDS G KC=0.0300 5$LC=0.00367 8$MC=0.000704 16$NC=0.000126 3$OC=7.26E-6 11$
105CDS G NC+=0.000133 3
105CD cG MR$from 1980Kr22
105CD E 8.8 211.1 3 6.11 11 9.9 24
105CDS E EAV=1551.4 48$CK=0.0964 8$CL=0.01218 10$CM+=0.003036 24
105CD L 604.39 7 (7/2)+
105CD G 473.09 14 1.95 17 [M1+E2] 0.0077215 C
105CDS G KC=0.00668 11$LC=0.00084 5$MC=0.000162 10$NC=2.87E-5 15$OC=1.56E-6 5$
105CDS G NC+=3.02E-5 15
105CD G 604.12 16 22.3 12 M1+E2 -0.9 5 0.0041011 C
105CDX G EKC=0.0047 12 (1976NeZU)
105CDS G KC=0.00356 11$LC=0.000436 7$MC=8.37E-5 13$NC=1.488E-5 24$OC=8.4E-7 4$
105CDS G NC+=1.57E-5 3
105CD E 2.7 6 0.47 106.41 10 3.2 7
105CDS E EAV=1389.6 47$CK=0.1272 11$CL=0.01609 14$CM+=0.00401 4
105CD L 766.49 9 (5/2+)
105CD G 163.0 4 0.12 4 [M1+E2] 0.19 8 C
105CDS G KC=0.16 6$LC=0.026 14$MC=0.005 3$NC=0.0009 5$OC=3.4E-5 9$NC+=0.0009 5
105CD G 570.40 16 4.0 7 (E2) 0.004607 C
105CDS G KC=0.00397 6$LC=0.000509 8$MC=9.80E-5 14$NC=1.729E-5 25$OC=9.09E-7 13$
105CDS G NC+=1.82E-5 3
105CD G 635.44 17 1.10 21 [M1+E2] 0.0035917 C
105CDS G KC=0.00313 16$LC=0.000382 9$MC=7.34E-5 16$NC=1.30E-5 4$OC=7.3E-7 6$
105CDS G NC+=1.38E-5 4
105CD cG E$from level energy differences.
105CD G 766.85 18 2.7 8 [M1+E2] 0.0022716
105CDS G KC=0.00198 14$LC=0.000239 12$MC=4.58E-5 22$NC=8.2E-6 5$OC=4.7E-7 4$
105CDS G NC+=8.6E-6 5
105CD E 0.5 LT0.1 LT7.0 GT 0.6 LT
105CDS E EAV=1313.7 47$CK=0.1460 13$CL=0.01847 16$CM+=0.00460 4
105CD L 771.00 9 9/2+
105CD G 166.9 3 0.96 13 [M1] 0.1120 C
105CDS G KC=0.0972 15$LC=0.01204 18$MC=0.00232 4$NC=0.000413 7$OC=2.37E-5 4$
105CDS G NC+=0.000436 7
105CD G 510.67 17 8 4 M1 0.006339 C
105CDS G KC=0.00552 8$LC=0.000660 10$MC=0.0001264 18$NC=2.26E-5 4$
105CDS G OC=1.326E-6 19$NC+=2.39E-5 4
105CD cG RI$from I|g/I|g(639.74)=0.67 {I34} from 1978Ge05 in (|a,3n|g)
105CD G 639.74 13 13.1 11 M1+E2 -4.3 6 0.003395 C
105CDS G KC=0.00294 5$LC=0.000370 6$MC=7.10E-5 10$NC=1.256E-5 18$OC=6.78E-7 10$
105CDS G NC+=1.324E-5 19
105CD G 770.75 19 4.5 4 E2 0.002103 C
105CDS G KC=0.00182 3$LC=0.000225 4$MC=4.32E-5 6$NC=7.65E-6 11$OC=4.22E-7 6$
105CDS G NC+=8.08E-6 12
105CD E 6.7 151.4 3 5.91 10 8.1 18
105CDS E EAV=1311.6 47$CK=0.1466 13$CL=0.01854 17$CM+=0.00462 4
105CD L 799.79 13 11/2+
105CD G 668.30 14 19.0 9 E2 0.0031717 C
105CDS G KC=0.00276 16$LC=0.000336 11$MC=6.45E-5 19$NC=1.15E-5 4$OC=6.5E-7 5$
105CDS G NC+=1.21E-5 5
105CD E 5.5 4 1.1 1 5.98 4 6.6 5
105CDS E EAV=1298.1 47$CK=0.1503 14$CL=0.01901 17$CM+=0.00474 5
105CD L 832.52 9 9/2+
105CD G 227.81 20 2.0 4 (M1) 0.0487 C
105CDS G KC=0.0423 6$LC=0.00520 8$MC=0.000998 15$NC=0.000178 3$OC=1.029E-5 15$
105CDS G NC+=0.000188 3
105CD G 636.1 4 0.5 4 [E2] 0.003435 C
105CDS G KC=0.00297 5$LC=0.000375 6$MC=7.20E-5 11$NC=1.273E-5 18$OC=6.82E-7 10$
105CDS G NC+=1.341E-5 19
105CD cG E$from level energy differences.
105CD G 701.26 14 2.75 17 M1+E2 2.0 4 0.002725 C
105CDS G KC=0.00237 4$LC=0.000292 5$MC=5.60E-5 9$NC=9.94E-6 16$OC=5.51E-7 11$
105CDS G NC+=1.049E-5 17
105CD G 832.58 18 17.7 12 E2 C
105CDS G CC=0.001741 25$KC=0.001514 22$LC=0.000185 3$MC=3.55E-5 5$NC=6.31E-6 9$
105CDS G OC=3.52E-7 5$NC+=6.66E-6 10
105CD E 5.2 9 1.1 2 5.98 8 6.3 11
105CDS E EAV=1282.8 47$CK=0.1546 14$CL=0.01956 18$CM+=0.00488 5
105CD L 1114.84 10 (9/2+)
105CD G 344.4 7 1.6 6 [M1+E2] 0.018720 C
105CDS G KC=0.0161 16$LC=0.0021 4$MC=0.00041 8$NC=7.2E-5 12$OC=3.71E-6 20$
105CDS G NC+=7.6E-5 12
105CD G 854.68 14 3.23 22 (M1+E2) 0.0017613 C
105CDS G KC=0.00154 12$LC=0.000184 11$MC=3.53E-5 21$NC=6.3E-6 4$OC=3.6E-7 4$
105CDS G NC+=6.6E-6 5
105CD G 983.85 17 0.77 17 [M1+E2] 0.0012810 C
105CDS G KC=0.00112 9$LC=0.000133 9$MC=2.54E-5 17$NC=4.5E-6 4$OC=2.64E-7 24$
105CDS G NC+=4.8E-6 4
105CD G 1115.2 3 1.92 17 [E2]
105CDS G CC=0.000899 13$KC=0.000783 11$LC=9.34E-5 13$MC=1.79E-5 3$NC=3.18E-6 5$
105CDS G OC=1.83E-7 3$NC+=4.22E-6 6
105CD E 1.5 3 0.44 9 6.32 10 1.9 4
105CDS E EAV=1151.4 47$CK=0.1991 19$CL=0.02521 24$CM+=0.00629 6
105CD L 1139.59 12 (7/2+)
105CD G 535.42 14 0.70 16 [M1+E2] 0.0055612 C
105CDS G KC=0.00483 12$LC=0.000600 15$MC=0.000115 3$NC=2.04E-5 5$OC=1.13E-6 6$
105CDS G NC+=2.16E-5 4
105CD G 879.8 5 0.38 13 [M1+E2] 0.0016513 C
105CDS G KC=0.00144 11$LC=0.000172 11$MC=3.30E-5 20$NC=5.9E-6 4$OC=3.4E-7 3$
105CDS G NC+=6.2E-6 4
105CD G 943.5 4 1.78 16 [M1+E2] 0.0014111 C
105CDS G KC=0.00123 10$LC=0.000146 10$MC=2.80E-5 18$NC=5.0E-6 4$OC=2.9E-7 3$
105CDS G NC+=5.3E-6 4
105CD G 1139.06 19 3.5 6 [M1+E2] 0.000938 C
105CDS G KC=0.00081 7$LC=9.6E-5 7$MC=1.83E-5 13$NC=3.26E-6 23$OC=1.91E-7 17$
105CDS G NC+=5.09E-6 13
105CD E 2.0 2 0.61 7 6.17 5 2.6 3
105CDS E EAV=1140.0 47$CK=0.2037 19$CL=0.02579 24$CM+=0.00643 6
105CD L 1163.29 12 (11/2)-
105CD G 392.21 13 0.90 7 E1(+M2) 0.033 12 0.003907 C
105CDS G KC=0.00341 6$LC=0.000404 8$MC=7.72E-5 14$NC=1.370E-5 25$OC=7.71E-7 14$
105CDS G NC+=1.45E-5 3
105CD G 1033.04 21 0.88 17 [M2] 0.002975 C
105CDS G KC=0.00259 4$LC=0.000314 5$MC=6.04E-5 9$NC=1.079E-5 16$OC=6.33E-7 9$
105CDS G NC+=1.142E-5 16
105CD cG E$No final level within 0.75~keV
105CD E 0.25 8 0.08 3 7.05 15 0.33 11
105CDS E EAV=1129.0 47$CK=0.2082 20$CL=0.02637 25$CM+=0.00657 7
105CD L 1182.49 13 (3/2+:9/2+)
105CD G 1051.41 20 1.18 12 C
105CD G 1182.3 3 1.78 23 C
105CD E 0.35 150.11 5 6.90 19 0.46 20
105CDS E EAV=1120.1 47$CK=0.2119 20$CL=0.0268 3$CM+=0.00669 7
105CD L 1327.97 15 (5/2+)
105CD G 213.0 3 0.20 5 [E2] 0.1035 C
105CDS G KC=0.0861 13$LC=0.01416 22$MC=0.00276 5$NC=0.000474 8$OC=1.79E-5 3$
105CDS G NC+=0.000492 8
105CD G 496.0 6 0.37 23 [E2] 0.0068110 C
105CDS G KC=0.00587 9$LC=0.000770 12$MC=0.0001483 22$NC=2.61E-5 4$
105CDS G OC=1.333E-6 20$NC+=2.74E-5 4
105CD G 725.3 9 0.7 3 [M1+E2] 0.0026017 C
105CDS G KC=0.00226 15$LC=0.000274 12$MC=5.25E-5 22$NC=9.3E-6 5$OC=5.3E-7 5$
105CDS G NC+=9.9E-6 5
105CD E 0.11 LT0.042 LT7.3 GT 0.15 LT
105CDS E EAV=1052.8 47$CK=0.2427 23$CL=0.0308 3$CM+=0.00767 8
105CD L 1386.69 9 (7/2+,9/2+)
105CD G 204.3 6 0.54 25 C
105CD G 554.5 5 1.0 5 C
105CD G 620.03 18 0.53 8 C
105CD G 782.0 4 1.9 3 C
105CD G 1126.1 4 3.4 3 C
105CD G 1190.34 15 3.6 4 C
105CD G 1255.64 16 4.2 7 C
105CD G 1386.98 24 8.4 9 C
105CD E 5.0 6 2.1 2 5.57 5 7.1 8
105CDS E EAV=1025.7 46$CK=0.2565 25$CL=0.0325 4$CM+=0.00811 8
105CD L 1439.71 10 (9/2+)
105CD G 325.53 13 0.95 17
105CD cG E$No final level within 0.50~keV
105CD G 607.8 4 1.6 15
105CD G 673.4 4 4.2 9 C
105CD G 834.6 5 0.69 20 C
105CD G 1176.9 4 0.51 12
105CDL G FL=260.38
105CD cG E$No final level within 1.7~keV
105CD G 1308.72 22 1.79 14 C
105CD E 1.5 7 0.7 3 6.04 20 2.2 10
105CDS E EAV=1001.3 46$CK=0.270 3$CL=0.0342 4$CM+=0.00853 9
105CD L 1495.24 12 (7/2+,9/2+)
105CD G 662.49 12 1.33 10 C
105CD G 890.7 3 2.31 20 C
105CD G 1299.6 3 0.34 9
105CD E 0.99 9 0.48 4 6.18 4 1.47 13
105CDS E EAV=975.8 46$CK=0.284 3$CL=0.0361 4$CM+=0.00899 9
105CD L 1579.23 12 (9/2+)
105CD G 192.1 9 0.9 4 C
105CD G 416.44 25 0.58 8 [E1] 0.003325
105CDS G KC=0.00290 4$LC=0.000343 5$MC=6.55E-5 10$NC=1.162E-5 17$OC=6.57E-7 10$
105CDS G NC+=1.228E-5 18
105CD G 808.16 12 2.11 13 [M1+E2] 0.0020115 C
105CDS G KC=0.00175 13$LC=0.000211 12$MC=4.03E-5 22$NC=7.2E-6 4$OC=4.1E-7 4$
105CDS G NC+=7.6E-6 5
105CD E 0.36 150.20 8 6.54 18 0.56 23
105CDS E EAV=937.3 46$CK=0.308 3$CL=0.0391 4$CM+=0.00975 10
105CD L 1608.78 11 (5/2+,7/2,9/2+)
105CD G 280.85 14 1.4 3 C
105CD G 838.1 5 1.5 6 C
105CD G 841.6 4 0.48 14 C
105CD G 1004.41 17 0.86 9 C
105CD G 1348.49 20 2.4 3 C
105CD G 1477.0 4 0.86 12 C
105CD G 1608.8 3 0.75 11 C
105CD E 1.3 3 0.77 185.95 11 2.1 5
105CDS E EAV=923.7 46$CK=0.317 3$CL=0.0402 4$CM+=0.01003 10
105CD L 1625.52 16 (7/2+,9/2+)
105CD G 238.3 8 1.7 3 C
105CD G 792.84 24 0.9 3 &
105CD G 1494.45 21 1.5 4 C
105CD G 1625.8 6 0.79 24 C
105CD E 1.3 2 0.75 115.96 7 2.0 3
105CDS E EAV=916.1 46$CK=0.322 3$CL=0.0409 4$CM+=0.01019 10
105CD L 1635.50 14 (5/2+)
105CD G 140.09 12 0.43 17
105CD G 248.8 4 0.9 7 C
105CD E 6.04 GT 0
105CDS E EAV=988 6
105CD L 1729.01 19 (7/2+,9/2+)
105CD G 119.1 12 2.0 8 C
105CD G 290.0 9 2.0 15 C
105CD G 896.4 2.7 16 (E2) C
105CDS G CC=0.001463 21$KC=0.001273 18$LC=0.0001547 22$MC=2.97E-5 5$
105CDS G OC=2.96E-7 5$NC+=5.56E-6
105CD G 960.9 6 0.6 5 C
105CD G 1123.7 11 0.4 3 C
105CD E 1.0 LT0.70 LT6.0 GT 1.7 LT
105CDS E EAV=868.8 46$CK=0.355 4$CL=0.0451 5$CM+=0.01125 11
105CD L 1822.78 13 (7/2+,9/2+,11/2+)
105CD G 243.0 3 0.41 6 C
105CD G 707.6 5 0.6 3
105CD G 1057.07 14 1.18 12 C
105CD cG E$No final level within 0.55~keV
105CD G 1216.30 23 0.68 10 C
105CDL G FL=604.39
105CD cG E$No final level within 1.0~keV
105CD E 0.48 9 0.40 8 6.17 9 0.88 17
105CDS E EAV=826.0 46$CK=0.388 4$CL=0.0493 5$CM+=0.01229 12
105CD L 2060.01 23 (7/2+,9/2+,11/2+)
105CD G 330.90 23 1.11 23 C
105CD G 451.7 4 0.23 7
105CD G 1799.3 7 0.52 21
105CD G 1928.5 8 0.24 10
105CD E 0.38 6 0.49 8 6.01 7 0.87 14
105CDS E EAV=718.5 46$CK=0.481 5$CL=0.0612 6$CM+=0.01528 14
105CD L 2142.77 13 (7/2+,9/2+)
105CD G 754.5 4 1.2 5 C
105CD G 1538.55 15 1.7 3 C
105CD G 1883.0 3 1.9 5 C
105CD G 2012.4 4 0.86 25 C
105CD E 0.80 161.2 2 5.59 9 2.0 4
105CDS E EAV=681.2 45$CK=0.517 5$CL=0.0658 6$CM+=0.01641 14
105CD L 2193.70 17 (7/2+,9/2+)
105CD G 1589.9 3 0.4 2
105CD G 2063.4 8 2.2 4 ?
105CDF G FLAG=B
105CD G 2193.4 2 0.8 4
105CDF G FLAG=B
105CD E 0.19 7 0.31 126.16 17 0.50 19
105CDS E EAV=658.4 45$CK=0.539 5$CL=0.0686 6$CM+=0.01713 15
105CD L 2277.85 13 (7/2+,9/2+,11/2+)
105CD G 1095.36 11 1.3 3 C
105CD G 1161.0 4 1.3 5
105CD cG E$No final level within 1.6~keV
105CD G 1674.6 3 0.56 16 C
105CD G 2016.0 4 0.53 19 C
105CD cG E$No final level within 1.3~keV
105CD E 0.40 100.80 205.72 11 1.2 3
105CDS E EAV=620.6 45$CK=0.576 5$CL=0.0734 6$CM+=0.01833 15
105CD L 2307.96 22 (7/2+,9/2+,11/2+)
105CD G 1507.7 4 0.7 3
105CD G 2047.72 24 2.0 5
105CD E 0.35 8 0.77 175.73 10 1.12 25
105CDS E EAV=607.2 45$CK=0.590 5$CL=0.0752 6$CM+=0.01876 15
105CD L 2365.53 14 (7/2+,9/2+)
105CD G 87.38 19 0.85 12
105CD G 637.5 6 0.9 8 C
105CD cG E$from level energy differences.
105CD G 730.04 24 0.78 12
105CD G 1761.3 4 0.93 11 C
105CD G 2105.4 4 0.74 21 C
105CD G 2364.3 5 0.40 16
105CD E 0.37 110.9 3 5.62 14 1.3 4
105CDS E EAV=581.5 45$CK=0.615 5$CL=0.0785 6$CM+=0.01958 15
105CD L 2371.90 16 (7/2+,9/2+)
105CD G 642.40 25 3.9 8 C
105CD G 792.84 24 0.9 3 &
105CD G 2176.3 3 1.20 13 C
105CD G 2240.8 4 0.80 25 C
105CD G 2371.0 5 1.16 13 & ?
105CD E 0.68 111.7 3 5.35 8 2.4 4
105CDS E EAV=578.6 45$CK=0.618 5$CL=0.0788 6$CM+=0.01967 15
105CD L 2420.12 19 (7/2+,9/2+)
105CD G 277.75 20 0.7 3 [M1,E2] 0.035 7
105CDS G KC=0.030 5$LC=0.0042 12$MC=0.00081 22$NC=0.00014 4$OC=6.9E-6 8$
105CDS G NC+=0.00015 4
105CD G 2223.2 4 1.10 13 C
105CD G 2419.2 4 0.44 17
105CD E 0.24 4 0.70 125.72 8 0.94 16
105CDS E EAV=557.2 45$CK=0.639 5$CL=0.0815 6$CM+=0.02036 14
105CD L 2552.46 24 (7/2+,9/2+,11/2+)
105CD G 823.6 3 0.46 9
105CD G 1947.9 3 0.60 9
105CD G 2421.3 20 0.39 18 C
105CD E 0.12 2 0.48 8 5.83 8 0.60 10
105CDS E EAV=498.5 45$CK=0.695 4$CL=0.0888 6$CM+=0.02216 14
105CD L 2677.27 11 (7/2+,9/2+)
105CD G 1040.7 3 1.20 17
105CD G 1068.2 3 1.03 20
105CD G 1098.33 23 0.92 10 C
105CD G 1237.91 11 2.3 3 C
105CD G 1876.99 19 2.3 3 C
105CD G 1906.3 8 0.98 19
105CD G 1910.4 4 1.07 17
105CD G 2072.4 3 0.60 15 C
105CD E 0.60 4 3.70 224.89 3 4.30 25
105CDS E EAV=443.4 44$CK=0.742 4$CL=0.0949 5$CM+=0.02371 12
105CD L 2853.56 21 (7/2+,9/2+)
105CD G 1244.1 2 0.4 2 ?
105CD G 2722.3 2 1.8 3
105CDF G FLAG=B
105CD G 2854.1 8 0.7 2
105CDF G FLAG=B
105CD E 0.078 120.95 145.40 7 1.03 15
105CDS E EAV=366.1 44$CK=0.796 3$CL=0.1021 4$CM+=0.02550 9
105CD L 3165.42 18 (7/2+,9/2+)
105CD G 792.84 24 0.9 3 & ?
105CD G 799.73 14 1.48 11 C
105CD G 1779.4 3 1.77 24 C
105CD E 0.0188 211.32 115.10 4 1.34 11
105CDS E EAV=230.7 44$CK=0.8492 9$CL=0.10941 14$CM+=0.02735 4
105CD L 3202.97 18 (9/2+)
105CD G 1379.1 4 0.74 19
105CD G 2040.10 23 0.39 14 [E1]
105CDS G CC=0.000780 11$KC=0.0001260 18$LC=1.435E-5 20$MC=2.73E-6 4$
105CDS G OC=2.91E-8 4$NC+=0.000636
105CD G 2371.0 5 1.16 13 [M1+E2] & ?
105CDS G CC=0.000686 10$KC=0.000187 6$LC=2.15E-5 7$MC=4.11E-6 13$NC=7.35E-7 23$
105CDS G OC=4.40E-8 16$NC+=0.000473 11
105CD G 2596.7 5 0.28 14 [M1+E2] C
105CDS G CC=0.000760 12$KC=0.000158 4$LC=1.82E-5 5$MC=3.47E-6 9$NC=6.21E-7 16$
105CDS G OC=3.72E-8 11$NC+=0.000580 12
105CD cG E$No final level within 1.7~keV
105CD G 2942.1 7 0.12 6 [M1+E2] C
105CDS G CC=0.000881 14$KC=0.0001265 21$LC=1.449E-5 25$MC=2.77E-6 5$
105CDS G OC=2.97E-8 6$NC+=0.000737
105CD G 3072.8 4 0.72 23 [M1+E2] C
105CDS G CC=0.000927 14$KC=0.0001171 18$LC=1.341E-5 21$MC=2.56E-6 4$
105CDS G OC=2.75E-8 5$NC+=0.000794
105CD E 0.0097 180.92 155.23 7 0.93 15
105CDS E EAV=214.4 44$CK=0.8522 8$CL=0.10988 12$CM+=0.02747 3
105CD L 3337.8 4 (7/2+,9/2+,11/2+)
105CD G 966.3 4 0.92 18
105CD G 3076.5 6 0.35 14 C
105CD G 3206.3 9 1.3 3 C
105CD E 0.0029 6 1.06 165.09 7 1.06 16
105CDS E EAV=156.0 44$CK=0.8585 3$CL=0.11103 7$CM+=0.02777 2