105IN 105SN EC DECAY (32.7 S) 1995PF01,2006KA44 19NDS 202002
105IN H TYP=FUL$AUT=S. LALKOVSKI, J. TIMAR and Z. ELEKES$CIT=NDS 161, 1 (2019)$
105IN2 H CUT=1-Apr-2019$
105IN c 1995Pf01: Source: chemically sepparated from {+58}Ni+{+50}Cr; Beam:
105IN2c E({+58}Ni)=5~MeV/nucleon; Target: 35~mg/cm{+2} thick {+50}Cr, enriched
105IN3c to 97%; Detectors: on-line mass separator, ions source, catcher foils,
105IN4c transport tape, three Ge, particle telescope; Measured: X-rays, |g, p,
105IN5c E|g, I|g, |g|g, X-|g coinc.; Deduced: {+105}In level scheme, T{-1/2}
105IN c 2006Ka44: Facility: ISOL at GSI; Source: chemically separated from
105IN2c {+50}Cr({+58}Ni,2p1n) reaction; Beam: E({+58}Ni)=5.2~MeV/nucleon;
105IN3c Target: 3-4~mg/cm{+2} thick {+50}Cr; Detectors: ISOL, tape station,
105IN4c Total absorption spectrometer (TAS) consisting of one large-volume NaI,
105IN5c one plannar Ge x-ray detector (GEX), two Si charged-particles
105IN6c detectors; Measured: X-rays, |g-rays, E|g, I|g, particle - x-ray
105IN7c coinc., TAS-|b+ coinc.; Deduced: |e channel, TAS(|b+); Also, from the
105IN8c same collaboration: 2006Ka74, 2005Ka48. The
105IN9c 5.2~MeV beam was provided by the ISOL facility in Darmstadt.
105INac Measurements were taken using a large NaI(Tl) crystal. Total absorbtion
105INbc |g-ray spectrometer was used to measure the |b- and |g- intensity over
105INcc the entire range of energies. A peak in |b intensity was observed at
105INdc 3.60~MeV.
105IN c Others: 1985De08
105IN cL E$From a least-squares fit to E|g
105IN cL J$From the adopted levels
105IN cG E,RI$From 1995Pf01; |DE not given by the authors, but estimated by the
105IN2cG evaluators as |DE = 0.3~keV for I|g>100; |DE = 0.5~keV for I|g between
105IN3cG 50 and 100; and |DE = 1.0~keV for I|g<50
105SN P 0.0 (5/2+) 32.7 S 5 6303 11
105IN N 0.03003 4 0.03003 4 0.989 4
105IN cN BR$%|e=42.0~{I35} (from Total Absorption measurements in 2006Ka44),
105IN2cN %|ep+%|b{++}p=0.011~{I4} (2006Ka44)
105IN cN NR$from |S(I(|g+ce) to g.s.)=100 and by assuming there
105IN2cN is no direct feeding to the g.s.. I|g normalization only tentative,
105IN3cN given higher-lying |g are expected from TAS measurements (2006Ka44).
105IN PN 0.02970 130.02970 13
105IN G 1244.5 10 34 6
105IN G 1400.5 10 29 5
105IN G 1725.6 10 19 6
105IN G 1770.5 10 17 1
105IN G 2351.3 10 26 6
105IN G 2371.0 5 51 1
105IN G 2527.0 5 68 6
105IN G 2676 1 16 2
105IN G 2706 1 19 2
105IN G 2732 1 45 8
105IN G 2984 1 42 3
105IN G 3254 1 16 8
105IN G 3542 1 24 4
105IN G 3681 1 12 6
105IN G 3751 1 5 2
105IN G 3787 1 10 4
105IN G 3819 1 10 8
105IN L 0.0 9/2+
105IN L 674.08 25 (1/2-)
105IN G 674.1 3 679 M4 0.0604 720
105INS G KC=0.0507 8$LC=0.00787 12$MC=0.001564 4$OC=1.94E-5 3
105IN cG RI$Deduced by the evaluators from I(tot)=720 given by the authors
105IN2cG assuming transition is M4
105IN cG M$from |a(exp)=0.055 {I6} (2006Ka44)
105IN L 991.8 3 11/2+
105IN E 2.3 4 0.16 3 6.17 7 2.5 4
105INS E EAV=1967.9 53$CK=0.0564 4$CL=0.00717 6$CM+=0.001821 13
105IN G 991.8 3 276 6 M1+E2 0.5 1
105IN cG MR$from the Adopted Gammas
105IN L 1209.6 4
105IN G 535.5 3 209 9
105IN L 1281.73 24 (5/2+,7/2+)
105IN E 10.1 6 0.87 6 5.39 3 11.0 7
105INS E EAV=1829.9 53$CK=0.0683 6$CL=0.00870 7$CM+=0.002208 17
105IN G 1281.7 3 1000
105IN L 1302.9 5
105IN G 628.7 5 70 10
105IN L 1415.9 3 (7/2+)
105IN E 4.2 5 0.40 4 5.70 5 4.6 5
105INS E EAV=1766.2 53$CK=0.0750 6$CL=0.00955 8$CM+=0.002423 19
105IN G 424.1 5 78 4
105IN G 1415.9 3 216 10
105IN L 1417.0 3 (5/2+,7/2+)
105IN E 4.0 4 0.38 4 5.72 4 4.4 4
105INS E EAV=1765.6 53$CK=0.0750 6$CL=0.00955 8$CM+=0.002425 19
105IN G 1416.9 3 231 10
105IN L 1465.9 3 (5/2+,7/2+)
105IN E 6.9 7 0.68 7 5.46 5 7.6 8
105INS E EAV=1742.5 53$CK=0.0777 6$CL=0.00989 8$CM+=0.002510 20
105IN G 1465.9 3 553 20
105IN L 1590.8 4
105IN E 1.5 7 0.17 8 6.05 21 1.7 8
105INS E EAV=1683.3 52$CK=0.0849 7$CL=0.01082 9$CM+=0.002746 23
105IN G 287.9 10 21 4
105IN G 309.1 3 282 6 [M1] 0.0242 289 6
105IN cG RI$Deduced by the evaluators from I(tot)= 289 given by the authors
105IN2cG assuming transition is M1
105IN G 1590.8 10 35 8
105IN L 1881.5 8 (7/2+)
105IN E 1.67 19 0.23 3 5.85 6 1.90 22
105INS E EAV=1546.1 52$CK=0.1056 9$CL=0.01345 12$CM+=0.00342 3
105IN G 599.6 10 36 4
105IN G 889.9 10 28 6
105IN L 1932.2 5 (3/2+)
105IN E 4.0 3 0.59 5 5.44 4 4.6 4
105INS E EAV=1522.2 52$CK=0.1098 10$CL=0.01400 13$CM+=0.00355 3
105IN G 341.2 10 16 8
105IN G 629.3 5 50 10
105IN G 722.5 10 39 4
105IN G 1258.2 5 66 1
105IN L 1942.4 5 (5/2+:11/2+)
105IN E 1.1 4 0.17 6 5.98 17 1.3 5
105INS E EAV=1517.4 52$CK=0.1107 10$CL=0.01411 13$CM+=0.00358 4
105IN G 476.6 5 55 6
105IN G 1942.2 10 30 14
105IN L 1978.7 6 (3/2+,5/2+,7/2+)
105IN E 1.5 4 0.22 7 5.85 13 1.7 5
105INS E EAV=1500.3 52$CK=0.1139 10$CL=0.01452 13$CM+=0.00369 4
105IN G 388.0 10 12 2
105IN G 561.7 10 20 4
105INL G FL=1417.0
105IN G 697.0 10 24 14
105IN L 1984.5 3 (5/2+,7/2+)
105IN E 2.9 4 0.44 7 5.56 7 3.3 5
105INS E EAV=1497.6 52$CK=0.1144 10$CL=0.01458 13$CM+=0.00370 4
105IN G 1984.5 3 139 12
105IN L 1988.0 11
105IN E 0.85 18 0.13 3 6.08 10 0.98 21
105INS E EAV=1495.9 52$CK=0.1147 10$CL=0.01462 13$CM+=0.00371 4
105IN G 778.3 10 33 7
105IN L 2222.1 8 (3/2+,5/2+,7/2+)
105IN E 2.0 3 0.39 5 5.56 6 2.4 3
105INS E EAV=1386.1 52$CK=0.1385 13$CL=0.01767 17$CM+=0.00449 5
105IN G 756.2 10 49 8
105IN G 1012.4 10 31 6
105IN G 1547.5 10 14 3 ?
105IN L 2269.9 11
105IN E 0.35 3 0.070 5 6.29 4 0.42 3
105INS E EAV=1363.7 52$CK=0.1441 14$CL=0.01838 17$CM+=0.00467 5
105IN G 1060.2 10 14 1
105IN L 2311.6 6 (3/2+,5/2+,7/2+)
105IN E 1.2 2 0.26 5 5.71 9 1.5 3
105INS E EAV=1344.2 52$CK=0.1492 14$CL=0.01904 18$CM+=0.00483 5
105IN G 895.7 5 50 10
105INL G FL=1415.9
105IN L 2369 5 ?
105IN G 903.2 5 49 12 ?
105IN L 2370.3 11
105IN E 0.61 17 0.13 4 5.99 13 0.74 21
105INS E EAV=1316.7 52$CK=0.1568 15$CL=0.02001 19$CM+=0.00508 5
105IN G 954.4 10 25 7
105INL G FL=1415.9
105IN L 2399.1 11 (3/2+,5/2+,7/2+)
105IN E 1.16 10 0.266 23 5.68 4 1.43 12
105INS E EAV=1303.3 52$CK=0.1606 16$CL=0.02050 20$CM+=0.00521 5
105IN G 933.2 10 48 4
105IN L 2426.2 8 (7/2+:13/2+)
105IN E 0.4 5 0.10 11 6.1 6 0.5 6
105INS E EAV=1290.7 52$CK=0.1644 16$CL=0.02099 20$CM+=0.00533 5
105IN G 1434.2 10 25 4
105IN G 2426 10 33 6
105IN L 2471.2 8 (3/2+,5/2+,7/2+)
105IN E 1.4 2 0.34 6 5.57 8 1.7 3
105INS E EAV=1269.7 52$CK=0.1709 17$CL=0.02182 21$CM+=0.00554 6
105IN G 880.1 10 36 6
105IN G 1189.7 10 22 6
105IN L 2517.4 11 (3/2+,5/2+,7/2+)
105IN E 0.6 3 0.2 1 5.87 22 0.8 4
105INS E EAV=1248.1 52$CK=0.1778 18$CL=0.02271 22$CM+=0.00577 6
105IN G 1051.5 10 26 11
105IN L 2590.3 4 (3/2+)
105IN E 1.7 4 0.48 11 5.38 10 2.2 5
105INS E EAV=1214.2 52$CK=0.1895 19$CL=0.02421 24$CM+=0.00615 6
105IN G 1916.2 3 149 9
105IN L 2625.7 11 (7/2+)
105IN E 0.66 12 0.20 3 5.77 8 0.86 15
105INS E EAV=1197.8 52$CK=0.1955 20$CL=0.02498 25$CM+=0.00634 7
105IN G 1633.9 10 29 5
105IN L 2664.9 11
105IN E 0.25 14 0.08 4 6.16 24 0.33 18
105INS E EAV=1179.6 52$CK=0.2025 20$CL=0.0259 3$CM+=0.00657 7
105IN G 733.7 10 7 2 ?
105IN G 1074.0 10 11 6
105IN L 2752.4 11 (3/2+,5/2+,7/2+)
105IN E 0.9 3 0.30 10 5.54 15 1.2 4
105INS E EAV=1139.0 52$CK=0.2189 22$CL=0.0280 3$CM+=0.00711 8
105IN G 1161.5 10 39 12
105IN L 2758.7 8
105IN E 0.37 15 0.13 5 5.92 18 0.50 20
105INS E EAV=1136.1 51$CK=0.2202 22$CL=0.0281 3$CM+=0.00715 8
105IN G 1167.8 10 12 6
105IN G 1477.0 10 10 LT
105IN L 2771 5
105IN G 402.1 10 9 1 ?
105INL G FL=2369
105IN L 2782.1 4 (3/2+)
105IN E 3.5 2 1.3 1 4.92 3 4.8 3
105INS E EAV=1125.2 51$CK=0.2249 23$CL=0.0287 3$CM+=0.00730 8
105IN G 1364.7 10 48 4
105INL G FL=1417.0
105IN G 1500.4 5 53 7
105IN G 2108.1 5 59 5
105IN L 2958.2 11 (3/2+,5/2+,7/2+)
105IN E 0.35 4 0.15 2 5.79 6 0.50 6
105INS E EAV=1043.9 51$CK=0.264 3$CL=0.0338 4$CM+=0.00858 9
105IN G 1026.0 10 17 2
105IN G 2283.6 10 23 4 ?
105IN L 2964.4 8 (3/2+)
105IN E 0.55 14 0.25 6 5.58 11 0.80 20
105INS E EAV=1041.0 51$CK=0.265 3$CL=0.0340 4$CM+=0.00862 9
105IN G 1547.5 10 14 3
105INL G FL=1417.0
105IN G 2290.3 10 13 6
105IN L 3024.6 5 (3/2+,5/2+,7/2+)
105IN E 2.0 3 0.98 13 4.97 6 3.0 4
105INS E EAV=1013.3 51$CK=0.281 3$CL=0.0359 4$CM+=0.00912 10
105IN G 1433.9 10 45 7
105IN G 1742.8 5 56 11
105IN L 3112.4 8 (7/2+)
105IN E 1.5 2 0.81 11 5.02 6 2.3 3
105INS E EAV=973.0 51$CK=0.304 4$CL=0.0389 4$CM+=0.00989 11
105IN G 1521.7 10 45 8
105IN G 2120.4 10 32 6
105IN L 3143.7 7 (3/2+,5/2+,7/2+)
105IN E 1.3 4 0.73 22 5.06 13 2.0 6
105INS E EAV=958.6 51$CK=0.313 4$CL=0.0401 5$CM+=0.01018 11
105IN G 832.3 10 15 LT ?
105IN G 1934.0 5 68 18 @
105IN L 3158.4 6 (3/2+,5/2+,7/2+)
105IN E 1.26 4 0.733 24 5.056 17 1.99 6
105INS E EAV=951.9 51$CK=0.317 4$CL=0.0406 5$CM+=0.01032 11
105IN G 1692.5 5 67 2
105IN L 3242.2 11 (3/2+,5/2+,7/2+)
105IN E 0.30 7 0.20 5 5.60 11 0.50 12
105INS E EAV=913.5 51$CK=0.343 4$CL=0.0439 5$CM+=0.01115 12
105IN G 1651.3 10 17 4 @
105IN L 3262.2 11 (3/2+,5/2+,7/2+)
105IN E 0.37 7 0.25 5 5.49 9 0.62 12
105INS E EAV=904.4 51$CK=0.349 4$CL=0.0447 5$CM+=0.01136 12
105IN G 1671.3 10 21 4
105IN G 2589 10 39 2 ?
105IN L 3414.2 5 (3/2+,5/2+,7/2+)
105IN E 1.26 8 1.09 7 4.81 3 2.35 14
105INS E EAV=835.1 50$CK=0.401 4$CL=0.0514 6$CM+=0.01306 13
105IN G 1822.9 10 15 3
105IN G 2132.5 5 64 2
105IN L 3435.7 10 ?
105IN G 2019.7 10 22 8 ?
105INL G FL=1415.9
105IN L 3466.28 10 (5/2+,7/2+)
105IN E 0.9 3 0.9 3 4.89 15 1.8 6
105INS E EAV=811.4 50$CK=0.420 5$CL=0.0538 6$CM+=0.01368 14
105IN G 1040.0 10 40 18
105IN G 3466.22 10 22 6
105IN L 3471.5 5 (5/2+,7/2+)
105IN E 2.2 3 2.2 2 4.50 5 4.4 5
105INS E EAV=809.0 50$CK=0.422 5$CL=0.0541 6$CM+=0.01375 14
105IN G 1486.8 10 27 10
105IN G 2005.9 10 24 9
105IN G 2189.8 10 28 3 @
105IN G 2261.2 10 35 4
105IN G 3472 1 33 6
105IN L 3524.9 11 (3/2+,5/2+,7/2+)
105IN E 0.29 12 0.30 12 5.33 18 0.59 24
105INS E EAV=784.8 51$CK=0.442 5$CL=0.0567 6$CM+=0.01441 15
105IN G 1934.0 10 20 8 @
105IN L 3573.4 10 ?
105IN G 2291.6 10 12 6 ?
105IN L 3593.7 8 (3/2+,5/2+,7/2+)
105IN E 0.57 8 0.68 10 4.96 7 1.25 18
105INS E EAV=753.7 50$CK=0.469 5$CL=0.0602 6$CM+=0.01531 15
105IN G 1651.3 10 16 3 @
105IN G 2311.9 10 26 5
105IN L 3626.8 8 (3/2+)
105IN E 0.66 8 0.85 11 4.85 6 1.51 19
105INS E EAV=738.7 50$CK=0.483 5$CL=0.0620 6$CM+=0.01575 15
105IN G 2344.8 10 27 5
105IN G 2953 1 24 4
105IN L 3636.1 6 (3/2+,5/2+,7/2+)
105IN E 0.96 17 1.2 2 4.68 8 2.2 4
105INS E EAV=734.5 50$CK=0.486 5$CL=0.0624 6$CM+=0.01587 15
105IN G 1046.0 10 19 10
105IN G 2219.9 10 41 3
105INL G FL=1415.9
105IN G 3636 1 14 3
105IN L 3655.6 8 (3/2+,5/2+,7/2+)
105IN E 0.67 5 0.90 6 4.82 4 1.57 11
105INS E EAV=725.7 50$CK=0.494 5$CL=0.0635 6$CM+=0.01614 15
105IN G 1713.0 10 26 2
105IN G 2189.8 10 27 3 @
105IN L 3699.8 8 (3/2+,5/2+,7/2+)
105IN E 0.62 8 0.92 11 4.79 6 1.54 19
105INS E EAV=705.8 50$CK=0.513 5$CL=0.0659 6$CM+=0.01674 16
105IN G 2283.6 10 23 4
105INL G FL=1415.9
105IN G 3700 1 29 5
105IN L 3952.1 6 (3/2+)
105IN E 1.05 6 2.72 14 4.231 25 3.77 19
105INS E EAV=592.7 50$CK=0.621 5$CL=0.0799 7$CM+=0.02031 16
105IN G 1361.9 10 31 1
105IN G 3278.0 5 96 6
105IN L 4197.9 11 (3/2+,5/2+,7/2+) ?
105IN E 0.13 2 0.64 13 4.76 9 0.77 15
105INS E EAV=483.6 49$CK=0.719 4$CL=0.0928 6$CM+=0.02360 14
105IN G 1607.6 10 26 5