90MO 90TC EC DECAY (50.7 S) 1981OX01 20NDS 202005
90MO H TYP=FUL$AUT=S. K. Basu, E.A. MCCUTCHAN$CIT=NDS 165, 1 (2020)$
90MO2 H CUT=1-Mar-2020$
90MO c 1981Ox01: Produced by {+92}Mo(p,3n) reaction at E(p)=43 MeV;
90MO2c measured |g(t) with Ge(Li) and Ge detectors, |g|g and |b|g
90MO3c coincidences with Ge(Li) and magnetic spectrometer. The decay scheme
90MO4c is established from |g|g coincidence data.
90MO c Other: 1974Ia01
90MO cG M$From the Adopted Gammas
90MO cE $|e+|b{++} branches are obtained from I(|g+ce) imbalance at each
90MO2cE level.
90TC P 0.0 (8+) 50.7 S 63 9448 4
90TC cP J,T$From the Adopted Levels.
90MO N 1.0 1.0 1.0
90MO cN NR$From the assumption of no |e feeding to the g.s. (|DJ=8).
90MO PN 3
90MO G 231.2 8 2.68 4
90MO G 543.4 5 4.2 4
90MO G 983.5 5 5.4 5
90MO L 0 0+ 5.56 H 9
90MO L 948.1 2 2+
90MO G 948.1 2 100 E2 C
90MO L 2002.4 4 4+
90MO G 1054.3 3 100 6 E2 C
90MO E 7 LT0.07 LT6.7 GT 7 LT
90MOS E EAV=3003.1 20$CK=0.009116 17$CL=0.0010951 2$CM+=0.0002515 5
90MO L 2549.4 7 5-
90MO G 546.8 8 9.3 6 E1 C
90MO E 5.3 100.073 146.66 10 5.4 10
90MOS E EAV=2736.8 20$CK=0.011809 24$CL=0.001419 3$CM+=0.0003260 7
90MO cE LOGFT$value is too small for a |DJ=3 transition suggesting the decay
90MO2cE scheme is incomplete
90MO L 2812.2 5 6+
90MO G 262.5 8 1.3 4 E1 C
90MO G 809.8 3 34.3 15 E2 C
90MO E 13.0 210.20 3 6.18 9 13.2 21
90MOS E EAV=2609.2 20$CK=0.01349 3$CL=0.001621 4$CM+=0.0003724 8
90MO cE LOGFT$value is too small for a |DJ=2 transition suggesting the decay
90MO2cE scheme is incomplete
90MO L 2859.7 9 5-
90MO G 310.3 6 2.6 6 C
90MO E 2.6 6 0.041 106.87 12 2.6 6
90MOS E EAV=2586.1 20$CK=0.01382 3$CL=0.001661 4$CM+=0.0003817 9
90MO cE LOGFT$value is too small for a |DJ=3 transition suggesting the decay
90MO2cE scheme is incomplete
90MO L 2947.0 5 (6+)
90MO G 134.6 5 5.2 8 C
90MO G 944.7 4 36.6 20 E2 C
90MO E 39.9 220.67 4 5.65 6 40.6 22
90MOS E EAV=2543.8 20$CK=0.01447 3$CL=0.001739 4$CM+=0.0003996 9
90MO cE LOGFT$value is too small for a |DJ=2 transition suggesting the decay
90MO2cE scheme is incomplete
90MO L 3037.9 11
90MO G 1035.5 10 1.1 4
90MO E 1.1 4 0.019 7 7.18 17 1.1 4
90MOS E EAV=2499.7 21$CK=0.01519 4$CL=0.001826 4$CM+=0.0004195 1
90MO L 3150.3 7
90MO G 1147.9 5 1.7 3
90MO E 1.7 3 0.032 6 6.95 10 1.7 3
90MOS E EAV=2445.3 20$CK=0.01615 4$CL=0.001941 5$CM+=0.0004459 1
90MO L 3293.8 5
90MO G 481.7 3 13.6 9 C
90MO G 1291.4 5 7.3 6 C
90MO E 17.7 120.363 245.87 7 18.1 12
90MOS E EAV=2375.9 20$CK=0.01749 4$CL=0.002103 5$CM+=0.0004830 1
90MO L 3539.9 10
90MO G 592.9 8 1.2 4 C
90MO E 1.2 4 0.028 9 6.95 16 1.2 4
90MOS E EAV=2257.1 20$CK=0.02015 5$CL=0.002424 6$CM+=0.0005568 1
90MO L 4094.8 7
90MO G 801.2 5 2.8 4 C
90MO G 2091.7 9 1.9 4 C
90MO E 4.5 6 0.15 2 6.12 8 4.7 6
90MOS E EAV=1990.1 20$CK=0.02851 8$CL=0.003431 10$CM+=0.0007882 2
90MO L 4175.9 9
90MO G 1363.7 8 3.6 5 C
90MO E 3.5 5 0.12 2 6.20 8 3.6 5
90MOS E EAV=1951.2 20$CK=0.03009 9$CL=0.003622 10$CM+=0.0008322 2
90MO L 4357.7 11
90MO G 2355.3 10 0.7 3
90MO E 0.7 3 0.03 1 6.82 20 0.7 3
90MOS E EAV=1864.1 20$CK=0.03410 10$CL=0.004105 12$CM+=0.000943 3