112SN 112SB EC DECAY 1976WI10,1975WIZX,1976WI1015NDS 201412
112SN H TYP=FUL$AUT=S. LALKOVSKI, F.G. KONDEV$CIT=NDS 124, 157 (2015)$
112SN2 H CUT=1-Aug-2014$
112SN C 1975WiZX: Facility: ^AVF cyclotron at Vrije Universiteit,
112SN2C Amsterdam; Source: mass-separated 112SB from 112SN(P,N), E(P)=25 MEV,
112SN3C 35 mg/cm{+2} thick target enriched to 87.51% in 112SN; Detectors: four
112SN4C coaxial Ge(Li), one planar Ge(Li) and one ^LEPS, active and passive
112SN5C anti-Compton shielding; Measured: |g, |g-|g, , |g(t), E|g, I|g;
112SN6C Deduced: 112SN level scheme, T, J|p, LOGFT; Also, from the same
112SN7C collaboration 1976WI10
112SN C Others: 1959Se56, 1969BoZS, 1970SuZY, 1972Si28, 1972Mi27.
112SN CL E$From a least-squares fit to EG
112SN CL J$From the adopted levels
112SN CE IE$From I(|g+ce) imbalance at each level.
112SN CE LOGFT,TI$ The decay scheme suffer
112SN2CE from the pandemonium effect and there are many unplaced |g rays, so the
112SN2CE values should be considered as approximate
112SN CG E(b),RI$From 1975WIZX,1976WI10, unless otherwise noted
112SN CG RI(a)$From adopted gammas, normalized to the RI of the strongest decay
112SN2CG branch
112SN CG E,M,MR$From adopted gammas, unless otherwise stated
112SN CG $I(511|g|+)/I(1256|g)=1.83 {I9} (1975WIZX,1976WI10)
112SN DG CC$FROM BrIcc v2.3a (30-Jun-2013) 2008Ki07, "Frozen Orbitals" appr.
112SN CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=0.00 FOR E2/M1,
112SN2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
112SB P 0.0 (3+) 53.5 S 6 7057 18
112SN N 0.09314 10 1.0 1.0
112SN CN NR$from SUMOF (I(|g+ce) to GS)=100 and by assuming of no direct |e
112SN2CN feeding to 112SN g.s. (JPI=0+). The decay scheme suffer from the
112SN2CN pandemonium effect and there are many unplaced |g rays, so the
112SN2CN normalization should be considered as approximate
112SN G 301.9 2 1.64 10 b
112SN G 377.0 6 0.58 11 b
112SN G 446.2 7 0.43 7 b
112SN G 797.8 3 2.67 19 b
112SN G 868.7 4 0.50 8 b
112SN G 921.5 3 0.73 9 b
112SN G 963.1 3 1.7 3 b
112SN G 1154.4 122.1 6 b
112SN G 1170.6 132.0 5 b
112SN G 1360.8 2 0.95 5 b
112SN G 1369.1 5 0.27 5 b
112SN G 1421.2 4 0.29 6 b
112SN G 1426.0 3 0.38 6 b
112SN G 1477.8 2 2.7 2 b
112SN G 1534.7 5 0.31 8 b
112SN G 1555.1 2 1.22 7 b
112SN G 1582.4 7 0.20 6 b
112SN G 1620.7 6 1.17 8 b
112SN G 1631.0 9 0.25 7 b
112SN G 1804.3 1 0.43 4 b
112SN G 1879.2 4 0.24 4 b
112SN G 1926.1 1 0.35 12 b
112SN G 1986.0 3 0.40 4 b
112SN G 2016.6 3 0.88 8 b
112SN G 2082.3 2 0.38 3 b
112SN G 2092.9 2 0.95 7 b
112SN G 2247.4 3 0.67 6 b
112SN G 2398.2 2 1.88 11 b
112SN G 2449.0 6 0.28 6 b
112SN G 2454.8 6 0.26 4 b
112SN G 2610.7 3 0.94 7 b
112SN G 2670.1 4 0.12 2 b
112SN G 2737.3 7 0.40 3 b
112SN G 2755.2 9 0.16 3 b
112SN G 2775.1 9 0.24 4 b
112SN G 2781.4 110.15 4 b
112SN G 2830.8 5 0.21 3 b
112SN G 2887.3 8 0.31 3 b
112SN G 2976.9 5 0.22 3 b
112SN G 3130.4 6 0.16 3 b
112SN G 3146.8 7 0.12 3 b
112SN G 3351.9 7 0.54 4 b
112SN G 3408.4 5 0.19 2 b
112SN G 3431.7 5 0.13 2 b
112SN G 3455.4 5 0.13 2 b
112SN G 3653.9 5 1.95 12 b
112SN G 3700.6 150.14 3 b
112SN G 3723.8 1 0.13 3 b
112SN G 3827.1 8 0.18 2 b
112SN G 3879.4 6 0.29 3 b
112SN G 3923.8 6 0.23 3 b
112SN G 4042.6 7 0.06 2 b
112SN G 4077.3 9 0.11 3 b
112SN G 4086.1 7 0.28 3 b
112SN G 4152.4 160.11 2 b
112SN G 4212.0 9 0.13 2 b
112SN G 4390.1 1 0.12 2 b
112SN G 4541.2 140.08 2 b
112SN G 4566.9 150.12 2 b
112SN G 4614.5 160.09 2 b
112SN G 4665.4 170.12 2 b
112SN G 4745.4 270.05 2 b
112SN G 4910.8 250.06 2 b
112SN G 5132.9 340.07 2 b
112SN L 0.0 0+
112SN L 1256.69 42+
112SN E 5770 50 59.2 5 3.32 5 5.186 10 62.5 5
112SNS E EAV=2201.2 87$CK=0.0457 5$CL=0.00586 7$CM+=0.001503 16
112SN CE E$From 1972Si28. Others: 5550 {I50} (1969BoZS), 6220 {I100} (1972Mi27)
112SN G 1256.68 4 1000 E2 8.05E-4
112SNS G KC=0.000687 10$LC=8.28E-5 12$MC=1.616E-5 23
112SNS G NC=3.04E-6 5$OC=2.62E-7 4$IPC=1.523E-5 22
112SN CG E$1257.05 KEV 8 (1975WIZX,1976WI10)
112SN L 2150.86 62+
112SN E 1.33 19 0.138 20 6.42 7 1.47 21
112SNS E EAV=1775.1 86$CK=0.0807 11$CL=0.01035 13$CM+=0.00266 4
112SN G 894.17 4 27.6 21M1+E2 -0.28 6 0.00199
112SNS G KC=0.00173 3$LC=0.000207 3$MC=4.05E-5 6
112SNS G NC=7.63E-6 12$OC=6.71E-7 11
112SN CG E$894.6 KEV 2 (1975WIZX,1976WI10)
112SN G 2150.9 4 4.6 3E2 6.53E-4
112SNS G KC=0.000245 4$LC=2.88E-5 4$MC=5.60E-6 8
112SNS G NC=1.055E-6 15$OC=9.27E-8 13$IPC=0.000372 6
112SN CG E$1257.0 KEV 2 (1975WIZX,1976WI10)
112SN L 2247.40 64+
112SN E 6.1 6 0.68 7 5.71 5 6.8 7
112SNS E EAV=1729.3 86$CK=0.0863 11$CL=0.01108 15$CM+=0.00284 4
112SN G 990.69 4 149 4E2 1.31E-3
112SNS G KC=0.001140 16$LC=0.0001402 20$MC=2.74E-5 4
112SNS G NC=5.14E-6 8$OC=4.38E-7 7
112SN CG E$990.0 KEV 1 (1975WIZX,1976WI10)
112SN L 2354.12 53-
112SN E 0.7 3 0.09 3 6.59 17 0.8 3
112SNS E EAV=1678.9 86$CK=0.0931 13$CL=0.01196 16$CM+=0.00307 4
112SN G 203.2 2 [E1] 0.0246 b
112SNS G KC=0.0214 3$LC=0.00262 4$MC=0.000510 8
112SNS G NC=9.51E-5 14$OC=7.67E-6 11
112SN CG E$ from the adopted gammas
112SN G 1097.38 4 20 2E1 4.59E-4
112SNS G KC=0.000401 6$LC=4.70E-5 7$MC=9.13E-6 13
112SNS G NC=1.718E-6 24$OC=1.492E-7 21
112SN CG E$1098.0 KEV 2 (1975WIZX,1976WI10)
112SN L 2476.15 11 2+
112SN E 0.49 5 0.066 7 6.68 5 0.56 6
112SNS E EAV=1621.2 85$CK=0.1018 14$CL=0.01307 18$CM+=0.00335 5
112SN G 1219.34 13 1.56 21M1+E2 -0.54 7 9.77E-416 a
112SNS G KC=0.000845 14$LC=0.0001006 16$MC=1.96E-5 3
112SNS G NC=3.70E-6 6$OC=3.25E-7 6$IPC=8.59E-6 14
112SN CG E$1219.3 KEV 2 (1975WIZX,1976WI10)
112SN G 2475.8 3 7.6 5E2 7.48E-4
112SNS G KC=0.000191 3$LC=2.23E-5 4$MC=4.34E-6 6
112SNS G NC=8.18E-7 12$OC=7.20E-8 10$IPC=0.000529 8
112SN CG E$2475.9 KEV 2 (1975WIZX,1976WI10)
112SN L 2520.78 84+
112SN E 0.58 12 0.081 17 6.59 10 0.66 14
112SNS E EAV=1600.2 85$CK=0.1052 15$CL=0.01351 19$CM+=0.00347 5
112SN G 1264.07 7 11.8 13E2 7.96E-4
112SNS G KC=0.000679 10$LC=8.18E-5 12$MC=1.596E-5 23
112SNS G NC=3.00E-6 5$OC=2.59E-7 4$IPC=1.648E-5 24
112SN CG E$1264.3 KEV 3 (1975WIZX,1976WI10)
112SN L 2556.6 3 (2+)
112SN E 0.179 17 0.0257 24 7.07 5 0.205 19
112SNS E EAV=1583.3 85$CK=0.1080 15$CL=0.01388 19$CM+=0.00356 5
112SN G 2556.6 3 2.2 2[E2] 7.73E-4 b
112SNS G KC=0.000181 3$LC=2.11E-5 3$MC=4.10E-6 6
112SNS G NC=7.72E-7 11$OC=6.80E-8 10$IPC=0.000567 8
112SN L 2721.07 142+
112SN E 0.426 17 0.071 3 6.603 21 0.497 20
112SNS E EAV=1505.9 85$CK=0.1224 18$CL=0.01574 23$CM+=0.00404 6
112SN G 1464.22 154.6 2M1+E2 0.17 10 7.38E-4
112SNS G KC=0.000589 9$LC=6.96E-5 11$MC=1.357E-5 21
112SNS G NC=2.56E-6 4$OC=2.26E-7 4$IPC=6.28E-5 10
112SN CG E$1464.7 KEV 1 (1975WIZX,1976WI10)
112SN G 2721.6 3 0.73 6E2 8.28E-4
112SNS G KC=0.0001620 23$LC=1.89E-5 3$MC=3.67E-6 6
112SNS G NC=6.92E-7 10$OC=6.10E-8 9$IPC=0.000643 9
112SN CG E$2721.3 KEV 7 (1975WIZX,1976WI10)
112SN L 2756.02 9 3+
112SN E 1.48 4 0.253 8 6.043 17 1.73 5
112SNS E EAV=1489.4 85$CK=0.1258 18$CL=0.01617 23$CM+=0.00415 6
112SN G 234.8 3 0.85 8[M1+E2] 0.0542 b
112SNS G KC=0.0469 7$LC=0.00586 9$MC=0.001148 17
112SNS G NC=0.000216 4$OC=1.88E-5 3
112SN G 279.5 2 0.57 5[M1+E2] 0.0343 b
112SNS G KC=0.0297 5$LC=0.00369 6$MC=0.000723 11
112SNS G NC=0.0001361 20$OC=1.188E-5 17
112SN G 401.3 5 0.37 8[E1] 0.00406 b
112SNS G KC=0.00354 5$LC=0.000425 7$MC=8.28E-5 12
112SNS G NC=1.552E-5 23$OC=1.303E-6 19
112SN G 508.8 3 M1+E2 0.2 1 0.00757 ?
112SNS G KC=0.00658 10$LC=0.000804 12$MC=0.0001572 23
112SNS G NC=2.96E-5 5$OC=2.59E-6 4
112SN G 605.1 2 3.03 18[M1+E2] 0.00500 b
112SNS G KC=0.00435 6$LC=0.000527 8$MC=0.0001029 15
112SNS G NC=1.94E-5 3$OC=1.705E-6 24
112SN G 1499.5 1 14.3 4M1+E2 0.03 5 7.18E-4 b
112SNS G KC=0.000562 8$LC=6.64E-5 10$MC=1.294E-5 19
112SNS G NC=2.44E-6 4$OC=2.16E-7 3$IPC=7.41E-5 11
112SN L 2783.90 204+
112SN E 0.10 LE 0.018 LE 7.2 GE 0.12 LE
112SNS E EAV=1476.4 85$CK=0.1286 19$CL=0.01653 24$CM+=0.00424 6
112SN G 536 [M1+E2] 0.00669
112SNS G KC=0.00582 9$LC=0.000707 10$MC=0.0001382 20
112SNS G NC=2.60E-5 4$OC=2.29E-6 4
112SN CG E$not observed in 1975WIZX,1976WI10
112SN G 1527.2 2 7.7 3E2 6.25E-4
112SNS G KC=0.000466 7$LC=5.54E-5 8$MC=1.080E-5 16
112SNS G NC=2.03E-6 3$OC=1.770E-7 25$IPC=9.08E-5 13
112SN CG E$1527.6 KEV 2 (1975WIZX,1976WI10)
112SN L 2913.14 22 4+
112SN E 1.51 14 0.30 3 5.94 5 1.81 17
112SNS E EAV=1415.7 85$CK=0.1424 21$CL=0.0183 3$CM+=0.00470 7
112SN G 392.8 5 0.69 8[M1] 0.01440
112SNS G KC=0.01250 18$LC=0.001535 22$MC=0.000300 5
112SNS G NC=5.65E-5 9$OC=4.95E-6 8
112SN CG E$392.3 KEV 4 in 1975WIZX,1976WI10
112SN G 665.6 3 16.0 17[M1] 0.00399 a
112SNS G KC=0.00347 5$LC=0.000419 6$MC=8.18E-5 12
112SNS G NC=1.542E-5 22$OC=1.357E-6 19
112SN CG E,RI$Not observed in 1975WIZX,1976WI10
112SN G 1656.7 6 5.6 3E2 5.99E-4
112SNS G KC=0.000398 6$LC=4.72E-5 7$MC=9.19E-6 13
112SNS G NC=1.731E-6 25$OC=1.510E-7 22$IPC=0.0001424 20
112SN CG E$1656.7 KEV 6 in 1975WIZX,1976WI10
112SN L 2917.39 10 2+,3,4+
112SN E 3.3 5 0.65 10 5.60 7 3.9 6
112SNS E EAV=1413.7 85$CK=0.1429 21$CL=0.0184 3$CM+=0.00472 7
112SN G 669.9 139 6
112SN CG E$670.0 KEV 4 in 1975WIZX,1976WI10
112SN G 767.0 24.6 3
112SN CG E$766.8 KEV 2 in 1975WIZX,1976WI10
112SN L 2945.40 174+
112SN E 0.209 8 0.0428 18 6.775 21 0.252 10
112SNS E EAV=1400.6 85$CK=0.1462 22$CL=0.0188 3$CM+=0.00482 7
112SN G 470 [E2] 0.00882
112SNS G KC=0.00754 11$LC=0.001033 15$MC=0.000203 3
112SNS G NC=3.78E-5 6$OC=2.95E-6 5
112SN CG E$not observed in 1976WI10,1975WIZX,1976WI10
112SN G 794.5 2 [E2] 0.00219
112SNS G KC=0.00189 3$LC=0.000239 4$MC=4.67E-5 7
112SNS G NC=8.74E-6 13$OC=7.31E-7 11
112SN CG E$ not observed in 1976WI10,1975WIZX,1976WI10
112SN G 1688.7 3 2.70 10E2 5.96E-4
112SNS G KC=0.000384 6$LC=4.55E-5 7$MC=8.86E-6 13
112SNS G NC=1.667E-6 24$OC=1.456E-7 21$IPC=0.0001561 22
112SN CG E$1689.0 KEV 2 in 1975WIZX,1976WI10
112SN L 2966.58 82+
112SN E 4.29 7 0.895 20 5.450 14 5.18 8
112SNS E EAV=1390.7 85$CK=0.1487 22$CL=0.0191 3$CM+=0.00491 8
112SN G 612.4 1 4.0 3 E1 1.50E-3
112SNS G KC=0.001307 19$LC=0.0001555 22$MC=3.03E-5 5
112SNS G NC=5.68E-6 8$OC=4.85E-7 7
112SN CG E$612.7 KEV 2 in 1975WIZX,1976WI10
112SN G 1709.9 4 14.1 5M1(+E2) 0.7 LE 6.36E-412
112SNS G KC=0.000418 11$LC=4.93E-5 12$MC=9.60E-6 24
112SNS G NC=1.81E-6 5$OC=1.60E-7 5$IPC=0.000157 3
112SN CG E$1710.2 KEV 2 in 1975WIZX,1976WI10
112SN G 2966.6 1 37.5 5 E2 9.11E-4
112SNS G KC=0.0001398 20$LC=1.624E-5 23$MC=3.16E-6 5
112SNS G NC=5.95E-7 9$OC=5.26E-8 8$IPC=0.000752 11
112SN CG E$2966.3 KEV 3 in 1975WIZX,1976WI10
112SN L 3078.54 13(2,3)+
112SN E 1.23 3 0.288 9 5.918 17 1.52 4
112SNS E EAV=1338.4 84$CK=0.1630 25$CL=0.0210 4$CM+=0.00538 9
112SN G 557.8 3 0.88 6
112SN CG E$558.4 KEV 2 in 1975WIZX,1976WI10
112SN CG E$transition placed by the evaluators on the basis of the
112SN2CG observed G-ray in 1975WIZX,1976WI10 and the adopted gammas
112SN G 831.1 40.66 14 b
112SN G 927.7 2 7.3 2M1+E2 0.60 +1-2 0.001763
112SNS G KC=0.001535 22$LC=0.000185 3$MC=3.61E-5 6
112SNS G NC=6.80E-6 10$OC=5.94E-7 9
112SN CG E$927.6 KEV 2 in 1975WIZX,1976WI10
112SN G 1821.8 2 7.5 3 M1+E2 -1.3 +3-5 6.11E-410
112SNS G KC=0.000348 8$LC=4.10E-5 9$MC=7.99E-6 17
112SNS G NC=1.51E-6 4$OC=1.32E-7 3$IPC=0.000212 4
112SN CG E$1822.2 KEV 2 in 1975WIZX,1976WI10
112SN L 3092.21 102+
112SN E 0.95 3 0.226 9 6.020 19 1.18 4
112SNS E EAV=1332.0 84$CK=0.1648 25$CL=0.0212 4$CM+=0.00544 9
112SN G 1836.0 3 10.3 3M1+E2 -1.5 10 6.09E-420
112SNS G KC=0.000340 21$LC=4.01E-5 24$MC=7.8E-6 5
112SNS G NC=1.47E-6 9$OC=1.29E-7 9$IPC=0.000219 7
112SN CG E$1836.5 KEV 2 in 1975WIZX,1976WI10
112SN G 3092.1 1 2.7 2E2 9.54E-4
112SNS G KC=0.0001303 19$LC=1.513E-5 22$MC=2.94E-6 5
112SNS G NC=5.55E-7 8$OC=4.90E-8 7$IPC=0.000805 12
112SN CG E$3092.4 KEV 3 in 1975WIZX,1976WI10
112SN L 3149.27 214+
112SN E 0.62 4 0.15 1 6.17 3 0.77 5
112SNS E EAV=1305.4 84$CK=0.173 3$CL=0.0222 4$CM+=0.00571 9
112SN G 901.8 6 1.6 5[M1+E2] 0.00197 @
112SNS G KC=0.001718 25$LC=0.000206 3$MC=4.01E-5 6
112SNS G NC=7.57E-6 11$OC=6.68E-7 10
112SN CG E$900.8 KEV 5 in 1975WIZX,1976WI10
112SN G 1892.2 5 6.7 2[E2] 6.03E-4
112SNS G KC=0.000310 5$LC=3.65E-5 6$MC=7.11E-6 10
112SNS G NC=1.340E-6 19$OC=1.174E-7 17$IPC=0.000248 4
112SN CG E$1892.7 KEV 2 in 1975WIZX,1976WI10
112SN L 3248.67 102+
112SN E 1.27 15 0.36 4 5.79 6 1.63 19
112SNS E EAV=1259.0 84$CK=0.188 3$CL=0.0242 4$CM+=0.00621 10
112SN G 772.44 242.56 19[M1+E2] 0.00282
112SNS G KC=0.00245 4$LC=0.000295 5$MC=5.75E-5 8
112SNS G NC=1.084E-5 16$OC=9.55E-7 14
112SN CG E$772.8 KEV 2 in 1975WIZX,1976WI10
112SN G 894.2 2 2.7 19[E1] 6.79E-4
112SNS G KC=0.000593 9$LC=6.97E-5 10$MC=1.356E-5 19
112SNS G NC=2.55E-6 4$OC=2.20E-7 3
112SN CG E$894.1KEV 5 in 1975WIZX,1976WI10
112SN G 1097.4 2 [M1+E2] 1.27E-3
112SNS G KC=0.001106 16$LC=0.0001317 19$MC=2.57E-5 4
112SNS G NC=4.84E-6 7$OC=4.28E-7 6
112SN CG E$transition placed by the evaluators
112SN G 1992.25 12 2.27 13M1+E2 6.41E-4
112SNS G KC=0.000312 5$LC=3.66E-5 6$MC=7.13E-6 10
112SNS G NC=1.345E-6 19$OC=1.192E-7 17$IPC=0.000284 4
112SN CG E$1992.2 KEV 2 in 1975WIZX,1976WI10;transition placed by the evaluators
112SN G 3248.8 8 9.9 6E2 1.01E-3
112SNS G KC=0.0001199 17$LC=1.391E-5 20$MC=2.70E-6 4
112SNS G NC=5.10E-7 8$OC=4.50E-8 7$IPC=0.000871 13
112SN CG E$3248.1 KEV 4 in 1975WIZX,1976WI10
112SN L 3286.18 15 (2)+
112SN E 1.01 5 0.293 14 5.864 24 1.30 6
112SNS E EAV=1241.6 84$CK=0.194 3$CL=0.0250 4$CM+=0.00641 10
112SN G 2029.4 2 6.4 4 M1+E2 0.4 LE 6.45E-410
112SNS G KC=0.000298 5$LC=3.50E-5 6$MC=6.82E-6 11
112SNS G NC=1.287E-6 20$OC=1.139E-7 18$IPC=0.000303 5
112SN CG E$2029.7 KEV 2 in 1975WIZX,1976WI10
112SN G 3286.2 27.6 5
112SN CG E$3285.6 KEV 4 in 1975WIZX,1976WI10
112SN L 3384.30 22 (3)-
112SN E 0.66 4 0.21 1 5.98 3 0.87 5
112SNS E EAV=1196.0 84$CK=0.211 4$CL=0.0272 5$CM+=0.00697 11
112SN G 467.2 31.29 12 b
112SN G 2127.3 3 8.0 5E1 8.44E-4
112SNS G KC=0.0001324 19$LC=1.528E-5 22$MC=2.97E-6 5
112SNS G NC=5.59E-7 8$OC=4.91E-8 7$IPC=0.000693 10
112SN CG E$2127.5 KEV 2 in 1975WIZX,1976WI10
112SN L 3417.42 114+
112SN E 0.74 5 0.25 2 5.90 3 0.99 6
112SNS E EAV=1180.6 84$CK=0.217 4$CL=0.0280 5$CM+=0.00718 12
112SN G 2160.7 1 10.6 6E2 6.56E-4
112SNS G KC=0.000243 4$LC=2.85E-5 4$MC=5.55E-6 8
112SNS G NC=1.046E-6 15$OC=9.19E-8 13$IPC=0.000377 6
112SN CG E$2160.9 KEV 2 in 1975WIZX,1976WI10
112SN L 3456.32 20 (2,3)+
112SN E 0.259 19 0.092 7 6.33 4 0.351 25
112SNS E EAV=1162.6 84$CK=0.225 4$CL=0.0289 5$CM+=0.00743 12
112SN G 700.3 60.67 17 b
112SN G 2199.6 2 3.1 2M1+E2 2.8 10 6.67E-4 b
112SNS G KC=0.000238 5$LC=2.79E-5 5$MC=5.42E-6 10
112SNS G NC=1.022E-6 18$OC=8.99E-8 17$IPC=0.000395 6
112SN L 3524.55 182+
112SN E 0.32 3 0.12 1 6.19 5 0.44 4
112SNS E EAV=1131.0 84$CK=0.238 4$CL=0.0307 5$CM+=0.00789 13
112SN G 431.9 6 0.33 5[M1] 0.01136
112SNS G KC=0.00987 15$LC=0.001208 18$MC=0.000236 4
112SNS G NC=4.45E-5 7$OC=3.90E-6 6
112SN G 1277.7 5 0.8 3E2 7.82E-4
112SNS G KC=0.000664 10$LC=8.00E-5 12$MC=1.560E-5 22
112SNS G NC=2.93E-6 5$OC=2.53E-7 4$IPC=1.89E-5 3
112SN G 2267.8 2 3.6 3M1(+E2) -0.5 GE 6.88E-411
112SNS G KC=0.000230 8$LC=2.69E-5 9$MC=5.24E-6 18
112SNS G NC=9.9E-7 4$OC=8.7E-8 4$IPC=0.000425 7
112SN G 3524.2 10
112SN CG E$ from the adopted gammas. Not observed in 1976WI10,1975WIZX,1976WI10
112SN L 3530.13 14 2+,3,4+
112SN E 0.23 3 0.089 11 6.32 6 0.32 4
112SNS E EAV=1128.4 84$CK=0.240 4$CL=0.0309 5$CM+=0.00793 13
112SN G 380.8 2
112SN G 1009.4 41.3 3 b
112SN G 1282.4 41.0 2 b
112SN G 1379.6 21.55 7 b
112SN L 3553.7 3 (3)-
112SN E 0.77 5 0.307 21 5.78 3 1.08 7
112SNS E EAV=1117.5 84$CK=0.245 4$CL=0.0315 5$CM+=0.00809 13
112SN G 2297.0 3 11.6 7[E1] 9.40E-4
112SNS G KC=0.0001179 17$LC=1.359E-5 19$MC=2.64E-6 4
112SNS G NC=4.97E-7 7$OC=4.37E-8 7$IPC=0.000806 12
112SN CG E$2297.1 KEV 2 in 1975WIZX,1976WI10
112SN L 3813.72 10 (2+,3+,4+)
112SN E 1.94 6 1.09 4 5.163 19 3.03 9
112SNS E EAV=997.7 83$CK=0.308 5$CL=0.0398 7$CM+=0.01020 17
112SN G 283.8 20.43 4 b
112SN G 900.8 52.9 5 b
112SN G 1029.6 77.1 5 b
112SN G 1293.6 71.0 5 b
112SN G 1459.5 14.5 2 b
112SN G 1566.4 216.6 4 b