135I 135TE B- DECAY (19.0 S) 1985SA15,1979BO26,1979KE0208NDS 200803
135I H TYP=FUL$AUT=BALRAJ SINGH, ALEXANDER A. RODIONOV and YURI L. KHAZOV$
135I 2 H CIT=NDS 109, 517 (2008)$CUT=22-Jan-2008$
135I c 1985Sa15: Measured E|g, I|g, |g|g
135I c 1979Bo26: Measured E|g using bent-crystal spectrometer
135I c 1979Ke02: Measured E|b, I|b
135I c 2007Fo02: Measured |b|g coin, deduced Q value.
135I c Others: 1984HiZZ, 1977Lu06, 1977Pf01, 1975Al11, 1974Gr29, 1973Bo42,
135I 2c 1970De15, 1969De13, 1955Wa35, 1950Gl09, 1940Do07
135I c Total decay energy of 5870 keV {I143} calculated (by RADLIST code)
135I 2c from level scheme agrees with the expected value of 5888 keV {I13}
135I cG E,RI$From 1985Sa15, unless otherwise stated
135I cG E(A)$From 1979Bo26, bent-crystal spectrometer
135I cL J$From 'adopted levels'
135TE P 0.0 (7/2-) 19.0 S 2 5888 13
135TE cP QP$from E|b(endpoint)=4923 {I13} in |b(870|g) coin (2007Fo02);
135TE2cP the endpoint energy does not contain correction of 95 keV for Al
135TE3cP window between vacuum and |b detector. Other: 5960 {I90} (2003Au03)
135I N 0.279 21 1.0 1.0
135I cN NR$from I|g(603.7|g)/100 decays=27.9 {I21} (priv comm from E. Lund
135I 2cN to 1989Ho08). Estimate of I|b(to g.s.)=50% {I10} (1985Sa15) gives I|g
135I xcN normalization=0.37 {I7}
135I PN 3
135I L 0.0 7/2+
135I B 62 3 6.14 2
135I S B EAV=2597.1 62
135I cB IB$other: 50 {I10} (1985Sa15)
135I L 603.68 3 (5/2)+
135I B 19.0 15 6.45 4 C
135I S B EAV=2312.2 62
135I cB E$5410 {I150} from average of values from 1979Ke02 and 1985Sa15
135I G 603.70 3 100.0 12 AC
135I cG E$603.5 {I1} (1985Sa15)
135I L 870.52 4 (5/2)+
135I B 4923 13 12.1 10 6.55 4 C
135I S B EAV=2186.2 62
135I cB E$from |b(870|g) coin (2007Fo02). Others: 5090 {I100} (1979Ke02),
135I xcB 1977Lu06
135I G 266.87 3 28.0 4 AC
135I cG E$266.8 {I1} (1985Sa15)
135I G 870.3 1 20.9 4 C
135I L 1009.94 20
135I B 0.187 23 8.30 6
135I S B EAV=2120.5 62
135I G 139.5 4 0.40 3 C
135I G 407.4 5 0.14 3 C
135I G 1009.8 3 0.28 2
135I L 1133.21 19 (11/2+)
135I B 1.02 9 9.28 4 1U
135I S B EAV=2042.3 61
135I G 1133.3 2 4.70 15
135I L 1183.86 17 (9/2+)
135I B 0.70 7 7.66 5
135I S B EAV=2038.4 62
135I G 174.8 5 0.15 4 C
135I G 312.6 4 0.40 5 C
135I G 1183.9 2 2.40 9
135I L 1516.8 3
135I B 0.220 23 8.03 5
135I S B EAV=1881.5 62
135I G 647.3 4 0.24 3 C
135I G 912.4 4 0.28 2 C
135I G 1516.3 5 0.27 4
135I L 1709.8 3
135I B 0.32 5 7.78 7
135I S B EAV=1790.7 62
135I G 1107.0 7 0.80 12 C
135I G 1709.6 3 0.90 4
135I L 1857.0 5
135I B 0.06 3 8.44 22
135I S B EAV=1721.4 62
135I G 1253.3 14 0.36 8 C
135I G 1856.3 18 0.26 6
135I L 2027.2 4
135I B 0.69 7 7.30 5
135I S B EAV=1641.4 61
135I G 1423.3 7 0.30 3 C
135I G 2027.2 4 2.16 17
135I L 2069.15 20
135I B 0.47 4 7.44 4
135I S B EAV=1621.7 61
135I G 1198.6 2 1.07 5 C
135I G 1465.6 5 0.62 2 C
135I L 2157.0 5
135I B 0.30 4 7.59 6
135I S B EAV=1580.5 61
135I G 1554.5 15 0.17 4 C
135I G 2156.8 6 1.14 11
135I L 2312.6 4
135I B 0.33 4 7.47 6
135I S B EAV=1507.5 61
135I G 455.6 3 0.41 4
135I G 1442.4 4 0.65 2 C
135I G 2311.2 9 0.12 7
135I L 3046.4 7 (7/2,9/2)
135I B 0.46 6 6.91 6
135I S B EAV=1165.3 61
135I G 1336.6 9 0.55 9
135I G 1913.1 9 0.43 8
135I G 2176.0 19 0.66 9 C
135I L 3357.0 7
135I B 0.19 3 7.08 7
135I S B EAV=1021.8 60
135I G 2487.1 9 0.53 8 C
135I G 2752.6 9 0.14 4 C
135I L 4313.5 6 (7/2,9/2)
135I B 0.43 5 5.90 6
135I S B EAV=590.1 58
135I G 3181.6 8 0.21 2
135I G 3441.7 8 1.02 9 C
135I G 3709.5 15 0.31 6 C
135I L 4463.8 5 (7/2-,9/2-)
135I B 0.68 6 5.53 5
135I S B EAV=524.6 57
135I G 3279.9 7 0.45 2
135I G 3330.8 7 0.40 2
135I G 4463.4 9 1.59 6
135I L 4772.7 5 (5/2-,7/2-,9/2-)
135I B 0.55 6 5.22 6
135I S B EAV=393.2 55
135I G 2615.5 8 0.22 3
135I G 3902.6 9 0.73 6 C
135I G 4168.8 12 0.82 13 C
135I G 4772.3 8 0.20 4