110RU 110TC B- DECAY 2000WA07,1990Ay02 12NDS 201206
110RU H TYP=FUL$AUT=G. G~URDAL and F.G. KONDEV$CIT=NDS 113, 1315 (2012)$
110RU2 H CUT=1-Aug-2011$
110RU DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
110RU C 2000Wa07: Source : {+110}Tc was produced by proton
110RU2C induced-fission of {+238}U and was extracted using online-mass
110RU3C separation technique at Jyvaskyla. A moving tape, 2 plastic
110RU4C scintillators, 3 Ge detectors and one ^LEPS detector were used.
110RU5C Measured: |b|g, |g|g. Deduced: E|g, I|g, J|p
110RU C 1990Ay02: {+110}Tc was produced by proton induced-fission of {+238}U
110RU2C and was extracted using online-mass separation technique at Jyvaskyla.
110RU3C The intensity of the separated {+110}Tc beam was 200 |mC. A moving tape
110RU4C was used to transport the mass-separated beam. Gamma-rays were
110RU5C detected using 25~% and 20~% Ge detectors. The X-rays and the
110RU6C low-energy |g-rays were detected by using 1.4 cm{+3} Ge detector. The
110RU7C |b-rays were observed with a telescope system consisting of a 300
110RU8C mm{+2}, 500 |mm thick surface barrier |DE detector and a 6 cm thick,
110RU2C 7.5 cm in diameter ^N^E102 plastic E-detector. ELLI spectrometer was
110RU3C used to measure the internal conversion electrons
110RU C Others: 2000WA14, 1995SC24, 1990AL43, 1991JO11, 1990Al43, 1988ALZY,
110RU2C 1978FR16, 1976MAYL, 1976TR02, 1975FE12, 1973TRZM, 1969WIZX
110RU CB IB$From intensity balances and the level scheme by the evaluators.
110RU2CB Since the decay scheme suffers from pandemonium, values should be
110RU3CB considered as tentative.
110RU CB LOGFT$Since the decay scheme is incomplete (pandemonium), the values
110RU2CB are tentative
110RU CG E,RI$From 2000Wa07, unless otherwise stated.
110RU CG M$From {+110}Ru adopted gammas
110RU CL E$From a least-square fit to E{-|g}.
110RU CL J$From adopted levels
110TC P 0.0 (2,3+) 0.900 S 13 9039 13
110RU N 0.766 6 1.00
110RU CN NR$From SUMOF TI(GS)=100. B- feeding to the J|p = 0{++} GS is assumed
110RU2CN to be negligible
110RU PN 0.77 13 5
110RU L 0.0 0+ 12.04 S 17
110RU CL T$From adopted levels
110RU L 240.73 8 2+ 0.50 NS 8
110RU CL T$From 1995Sc24 using the centroid shift
110RU B 23.3 11 5.907 22
110RUS B EAV=4024.9 62
110RU G 240.7 1 100 E2 0.0569
110RUS G KC=0.0485 7$LC=0.00686 10$MC=0.001267 18$NC+=0.000206 3
110RUS G NC=0.000198 3$OC=7.97E-6 12
110RU L 612.86 8 (2+) 0.16 NS 8
110RU CL T$From 372.1|g(t) in 1995SC24 using the centroid shift.
110RU2CL Others: 0.01 NS 16 for 613.0|g(t) in 1995Sc24 using the centroid shift
110RU B 18.3 11 5.93 3
110RUS B EAV=3847.4 62
110RU G 372.1 1 23.7 10(M1+E2) 0.0114 19
110RUS G KC=0.0099 16$LC=0.0012 3$MC=0.00023 5$NC+=3.8E-5 8
110RUS G NC=3.6E-5 7$OC=1.74E-6 22
110RU G 612.9 1 19.0 6 [E2] 0.0030 5
110RUS G KC=0.00262 4$LC=0.000315 5$MC=5.78E-5 8$NC+=9.73E-6 14
110RUS G NC=9.27E-6 13$OC=4.60E-7 7
110RU L 663.35 9 4+
110RU B 3.0 4 6.70 6
110RUS B EAV=3823.3 62
110RU G 422.6 1 6.9 4 E2 0.0089 13
110RUS G KC=0.00769 11$LC=0.000971 14$MC=0.000178 3$NC+=2.97E-5 5
110RUS G NC=2.84E-5 4$OC=1.325E-6 19
110RU L 859.97 9 (3+)
110RU B 8.5 6 6.20 4
110RUS B EAV=3729.4 62
110RU G 196.6 1 0.23 3 [M1] 0.0490
110RUS G KC=0.0428 6$LC=0.00508 8$MC=0.000934 14$NC+=0.0001589 23
110RUS G NC=0.0001510 22$OC=7.90E-6 12
110RU G 247.1 1 3.1 3 [M1] 0.0269
110RUS G KC=0.0235 4$LC=0.00278 4$MC=0.000510 8$NC+=8.68E-5 13
110RUS G NC=8.25E-5 12$OC=4.33E-6 6
110RU G 619.2 1 15.0 5 [M1] 0.0028 4
110RUS G KC=0.00247 4$LC=0.000283 4$MC=5.18E-5 8$NC+=8.85E-6 13
110RUS G NC=8.41E-6 12$OC=4.49E-7 7
110RU L 1084.36 12 (4+)
110RU B 1.04 8 7.06 4
110RUS B EAV=3622.2 63
110RU G 224.5 5 0.017 1 [M1] 0.0345
110RUS G KC=0.0302 5$LC=0.00357 6$MC=0.000656 10$NC+=0.0001117 17
110RUS G NC=0.0001062 17$OC=5.57E-6 9
110RU G 421.0 5 0.319 9
110RU G 471.5 1 0.63 8 [E2] 0.0064 9
110RUS G KC=0.00552 8$LC=0.000686 10$MC=0.0001261 18$NC+=2.11E-5 3
110RUS G NC=2.01E-5 3$OC=9.58E-7 14
110RU G 843.6 2 0.39 5 [E2] 0.0013 19
110RUS G KC=0.001153 17$LC=0.0001349 19$MC=2.47E-5 4$NC+=4.19E-6
110RUS G NC=3.99E-6 6$OC=2.05E-7 3
110RU L 1137.33 10 (0+)
110RU G 896.7 1 2.40 10 [E2] 0.0011 16
110RUS G KC=0.000997 14$LC=0.0001161 17$MC=2.13E-5 3$NC+=3.61E-6
110RUS G NC=3.43E-6 5$OC=1.771E-7 25
110RU L 1396.42 8 2+
110RU B 5.0 7 6.30 7
110RUS B EAV=3473.1 63
110RU G 259.2 1 0.21 1 [E2] 0.0441
110RUS G KC=0.0377 6$LC=0.00523 8$MC=0.000965 14$NC+=0.0001576 23
110RUS G NC=0.0001514 22$OC=6.24E-6 9
110RU G 536.3 1 0.24 5 [M1] 0.0039 6
110RUS G KC=0.00345 5$LC=0.000398 6$MC=7.29E-5 11$NC+=1.245E-5 18
110RUS G NC=1.182E-5 17$OC=6.30E-7 9
110RU G 733.1 1 0.83 6 [E2] 0.0019 3
110RUS G KC=0.001633 23$LC=0.000193 3$MC=3.54E-5 5$NC+=5.99E-6 9
110RUS G NC=5.70E-6 8$OC=2.89E-7 4
110RU G 783.6 1 0.67 9
110RU G 1155.8 1 6.9 4
110RU G 1396.4 2 2.00 20[E2] 0.0005 7
110RUS G KC=0.000380 6$LC=4.31E-5 6$MC=7.89E-6 11$NC+=5.06E-5 8
110RUS G NC=1.277E-6 18$OC=6.78E-8 10$IPC=4.93E-5 7
110RU L 1655.84 10(2,3,4+)
110RU B 2.0 4 6.63 9
110RUS B EAV=3349.1 63
110RU G 796.1 2 1.10 10
110RU G 1043.6 5 0.75 6
110RU G 1415.1 1 3.00 20
110RU L 1799.5 3(2,3,4+)
110RU B 1.30 16 6.78 6
110RUS B EAV=3280.4 63
110RU G 1186.6 3 1.70 20
110RU CG E$Assigned to depopulate 2047 keV level in 1990Ay02
110RU L 1820.48 10(2,3,4+)
110RU B 4.7 7 6.21 7
110RUS B EAV=3270.3 63
110RU G 164.7 1 2.2 4
110RU G 424.2 1 4.4 7
110RU G 960.5 1 0.90 10
110RU G 1579.0 2 1.90 20
110RU cG E$Least-square fit gives 1579.8 {I1} keV
110RU L 1883.34 22(2,3,4+)
110RU B 1.00 8 6.87 4
110RUS B EAV=3240.3 63
110RU G 1642.6 2 1.30 10
110RU L 1978.20 19(2+,3,4+)
110RU B 1.61 18 6.63 5
110RUS B EAV=3194.9 63
110RU G 1314.7 2 1.30 20
110RU G 1737.8 3 0.80 10
110RU L 2003.57 22(2,3,4+)
110RU B 2.22 23 6.49 5
110RUS B EAV=3182.8 63
110RU G 1390.7 2 2.9 3
110RU L 2042.38 14 (2,3,4)
110RU B 1.30 16 6.71 6
110RUS B EAV=3164.2 63
110RU G 221.9 1 1.70 20
110RU L 2047.02 23(1,2+)
110RU B 4.3 7 6.19 8
110RUS B EAV=3162.0 63
110RU G 1806.4 3 3.8 3
110RU G 2046.8 4 3.8 7
110RU L 2085.27 13(2,3,4+)
110RU B 2.91 25 6.35 4
110RUS B EAV=3143.7 63
110RU G 1225.3 1 3.1 3
110RU G 1844.5 3 0.70 10
110RU L 2143.1 3(1+,2,3,4+)
110RU B 0.77 8 6.91 5
110RUS B EAV=3116.0 63
110RU G 1902.4 3 1.00 10
110RU L 2152.70 18(2,3,4+)
110RU B 3.4 4 6.26 6
110RUS B EAV=3111.4 63
110RU G 1292.9 2 0.70 10
110RU G 1539.5 3 4.2 5
110RU L 2204.6 4(2,3,4+)
110RU B 0.67 9 6.95 6
110RUS B EAV=3086.6 63
110RU G 1963.9 4 0.87 11
110RU L 2266.3 4(2,3,4+)
110RU B 0.92 8 6.79 4
110RUS B EAV=3057.1 63
110RU G 2025.6 4 1.20 10
110RU L 2337.9 4(2+,3,4+)
110RU B 0.60 10 6.96 8
110RUS B EAV=3022.8 63
110RU G 1674.6 4 0.36 7
110RU G 2096.8 7 0.42 11
110RU L 2366.9 5(2,3,4+)
110RU B 1.53 16 6.54 5
110RUS B EAV=3008.9 63
110RU G 2126.2 5 2.00 20
110RU L 2413.02 25
110RU B 0.69 16 6.88 10
110RUS B EAV=2986.8 63
110RU G 366.0 1 0.90 20
110RU L 2419.6 4(1,2+)
110RU B 0.41 6 7.10 7
110RUS B EAV=2983.7 63
110RU G 1282.3 3 0.54 7
110RU L 2491.4 6(2,3,4+)
110RU B 1.23 16 6.60 6
110RUS B EAV=2949.3 63
110RU G 2250.6 6 1.60 20
110RU L 2552.04 23(1,2+)
110RU B 0.34 7 7.14 9
110RUS B EAV=2920.3 63
110RU G 1414.7 2 0.45 9
110RU L 2573.8 7(2,3,4+)
110RU B 0.75 11 6.79 7
110RUS B EAV=2909.9 63
110RU G 2333.0 7 0.98 14
110RU L 2942.8 4(3-)
110RU B 0.38 7 6.97 8
110RUS B EAV=2733.2 63
110RU G 2082.8 4 0.49 8
110RU L 3006.07 23(1,2+)
110RU B 2.45 25 6.14 5
110RUS B EAV=2703.0 63
110RU G 853.4 2 0.40 7
110RU G 1868.6 5 0.60 9
110RU G 2393.0 7 2.2 3
110RU L 3019.5 8(2,3,4+)
110RU B 0.77 16 6.64 9
110RUS B EAV=2696.5 63
110RU G 2406.6 8 1.00 20
110RU L 3072.2 3(2,3,4+)
110RU B 2.92 23 6.05 4
110RUS B EAV=2671.3 63
110RU G 1025.2 3 1.11 20
110RU cG RI$Uncertainty of 0.020 quoted in table I of 2000Wa07 is probably a
110RU2cG misprint. The evaluator has increased it by a factor of 10.
110RU G 2212.2 5 0.80 10
110RU G 2459.4 8 1.90 20
110RU L 3091.39 14
110RU B 1.23 23 6.41 9
110RUS B EAV=2662.1 63
110RU G 1270.9 1 1.6 3