107RH 107RU B- DECAY 1986KA43 08NDS 200805 107RH H TYP=FUL$AUT=Jean Blachot$CIT=NDS 109, 1383 (2008)$CUT=1-Mar-2008$ 107RH C The level scheme is mainly from 1986KA43 107RH C 1986KA43: measured G, GG, GG(T) 107RH C Others: 1969WIZX, 1971RI02 107RH C Sources: 235U, 239PU(N,F) E=TH, 238U(N,F) E=fast, rapid RU chem 107RH2C (1978FR16) 107RH CB Q-=3150 300 from EB=2100 to 1042 level (1962PI02), and 107RH2CB Q-=2900 135 (1989GR23) 107RH CB IB$Calculated from TI imbalances at each level. 107RH CG Semi G-singles measurements of 1978FR16 are listed; RI 107RH2CG determined for strong peaks only are confirmed by 1975FE12 107RH CG M$Assignments are from the authors and are assumed values based 107RH2CG upon adopted JPI values 107RH CG E(A),RI(A)$From GG. 107RH CL J$From adopted levels 107RH CL See drawings for partial decay scheme based on BG, GG coin 107RH2CL (1962PI02), and EG fits 107RU P 0.0 (5/2)+ 3.75 M 5 2.94E+3 12 107RH N 0.053 7 0.053 7 1.0 1.0 107RH CN NR$absolute IG(194G)=10.6% 10 (1975FE12) calibrated via 107RH2CN absolute IG(303G,107PD)=66% (1962PI02,1969GR18) 107RH L 0.0 7/2+ 21.7 M 4 107RH B 68 4 5.75 8 107RHS B EAV=1227 57 107RH L 194.05 3 9/2+ 107RH B 2.0 LT 7.2 GT 107RHS B EAV=1136 57 107RH G 194.05 5 186 20[M1] 0.0563 107RHS G KC= 0.0491 $LC=0.00587 $MC=0.00109 $NC+=0.00021 107RH L 268.36 4 1/2- 10 US GT 107RH B 0.40 LT 9.1 GT 1U 107RHS B EAV=1100 56 107RH G 268.36 5 23 3 [E3] 0.1727 107RHS G KC= 0.1374 $LC= 0.0288 $MC=0.00548 $NC+=0.00100 107RH L 374.28 3 (3/2+) 15 NS 2 107RH B 1 LT 7.3 GT 107RHS B EAV=1052 56 107RH G 105.92 5 4.9 4 [E1] 0.1239 107RHS G KC= 0.1082 $LC=0.01290 $MC=0.00236 $NC+=0.00044 107RH G 374.28 5 56 8 [E2] 0.01371 107RHS G KC=0.01183 $LC=0.00154 $MC=0.00029 107RH L 384.82 5 (1/2+) 107RH G 10.54 6 [M1] 34.4 6 2 S 107RH CG TI$from GG. EG from level energy differences 107RHS G LC= 27.6 $MC= 5.13 107RH G 116.45 5 2.9 3 [E1] 0.0944 107RHS G KC= 0.0825 $LC=0.00977 $MC=0.00179 $NC+=0.00034 107RH L 405.80 3 (3/2+) 107RH B 0.58 20 7.55 18 107RHS B EAV=1037 56 107RH G 31.52 4 [M1] 9.79 1.2 6 S 107RH CG TI$from GG. EG from level energy differences 107RHS G KC= 8.49 $LC= 1.045 $MC= 0.1947 107RH G 405.80 5 40 3 [E2] 0.01063 107RHS G KC=0.00919 $LC=0.00118 $MC=0.00022 107RH L 462.61 3 5/2+ 107RH B 0.6 LT 7.5 GT 107RHS B EAV=1011 56 107RH G 56.81 5 6.5 4 [M1] 1.739 107RHS G KC= 1.512 $LC= 0.1859 $MC= 0.0345 $NC+=0.00673 107RH G 88.3 1 0.4 1 [M1] 0.491 107RHS G KC= 0.427 $LC= 0.0521 $MC=0.00968 $NC+=0.00189 107RH G 268.5 3 6 2 [E2] 0.0410 A 107RHS G KC= 0.0350 $LC=0.00492 $MC=0.00092 $NC+=0.00017 107RH G 462.61 5 69 4 107RH L 485.66 6 3/2- 107RH B 0.23 5 7.89 13 107RHS B EAV=1000 56 107RH G 217.30 5 6.6 4 [M1] 0.0418 107RHS G KC= 0.0365 $LC=0.00433 $MC=0.00080 $NC+=0.00016 107RH L 543.84 6 (5/2-) 107RH B 0.17 4 7.98 14 107RHS B EAV=973 56 107RH G 58.18 5 0.3 1 [M1] 1.622 107RHS G KC= 1.410 $LC= 0.1734 $MC= 0.0322 $NC+=0.00628 107RH G 275.48 5 4.9 4 [E2] 0.0376 107RHS G KC= 0.0321 $LC=0.00448 $MC=0.00084 $NC+=0.00016 107RH L 559.97 6 (5/2+,7/2+,9/2-) 107RH B 0.12 2 8.12 12 107RHS B EAV=966 56 107RH G 365.9 1 2.9 2 107RH G 560.0 1 0.5 1 107RH L 568.90 3 (7/2+) 107RH B 0.2 3 7.9 7 107RHS B EAV=961 56 107RH G 106.3 1 0.6 1 [M1] 0.291 107RHS G KC= 0.253 $LC= 0.0308 $MC=0.00572 $NC+=0.00112 107RH G 194.64 5 15 3 [E2] 0.0559 107RHS G KC= 0.0487 $LC=0.00582 $MC=0.00108 $NC+=0.00021 107RH G 374.9 1 14 3 [M1] 0.01033 107RHS G KC=0.00903 $LC=0.00106 $MC=0.00020 107RH G 568.89 5 8.0 5 107RH L 588.92 4 (3/2+,5/2+) 107RH B 0.29 8 7.71 16 107RHS B EAV=952 56 107RH G 183.1 1 0.8 1 [M1] 0.0657 107RHS G KC= 0.0573 $LC=0.00686 $MC=0.00127 $NC+=0.00025 107RH G 204.09 5 6.3 4 [E2] 0.1064 107RHS G KC= 0.0897 $LC=0.01366 $MC=0.00255 $NC+=0.00047 107RH G 214.66 5 4.0 3 [M1] 0.0431 107RHS G KC= 0.0376 $LC=0.00448 $MC=0.00083 $NC+=0.00016 107RH G 394.7 3 0.4 2 107RH G 588.9 1 1.2 1 107RH L 680.00 5 107RH B 0.062 25 8.31 20 107RHS B EAV=910 56 107RH G 485.95 5 5.5 3 107RH L 683.10 3 (7/2+) 107RH B 1.8 3 6.84 13 107RHS B EAV=909 56 107RH G 220.49 5 10 1 [M1] 0.0402 107RHS G KC= 0.0351 $LC=0.00417 $MC=0.00077 $NC+=0.00015 107RH G 489.05 5 25 2 107RH G 683.11 5 10 1 107RH L 752.55 9 3/2- 107RH B 0.097 18 8.06 13 107RHS B EAV=877 56 107RH G 266.8 2 0.3 1 107RH G 484.2 1 2.2 2 107RH L 877.75 105/2- 107RH B 0.15 7 7.76 23 107RHS B EAV=819 56 107RH G 333.9 1 1.7 2 107RH G 392.1 5 0.7 3 A 107RH G 609.4 2 1 1 107RH L 911.99 10 (+) 107RH B 0.24 10 7.53 21 107RHS B EAV=803 55 107RH G 718.0 5 1 1 107RH G 912.0 1 29.2 9 107RH L 948.12 6 107RH B 0.09 LT 7.7 GT 107RHS B EAV=787 55 107RH G 265.0 1 1.2 2 107RH G 948.1 1 7.2 6 107RH L 953.48 7 (9/2+) 107RH B 0.09 LT 7.9 GT 107RHS B EAV=784 55 107RH G 364.5 1 0.9 2 107RH G 384.5 5 0.1 1 A 107RH G 759.5 1 1.6 1 107RH L 974.44 11(3/2-,5/2-,7/2-) 107RH B 0.074 12 7.99 14 107RHS B EAV=775 55 107RH G 430.6 1 1.1 1 107RH G 488.7 5 0.2 1 107RH L 1009.76 9 (3/2-,5/2-) 107RH B 0.045 15 8.17 19 107RHS B EAV=759 55 107RH G 257.2 1 0.8 1 107RH G 524.1 1 0.3 1 107RH L 1041.95 3 (5/2+,7/2+) 107RH B 11.3 13 5.74 13 107RHS B EAV=744 55 107RH G 93.8 1 0.4 1 [M1] 0.414 107RHS G KC= 0.360 $LC= 0.0438 $MC=0.00815 $NC+=0.00159 107RH G 358.8 2 6 2 107RH G 579.36 5 46 2 107RH G 636.10 5 4.5 3 107RH G 847.93 5 100 5 107RH G 1041.95 5 48 2 107RH L 1272.20 3 5/2+,7/2+ 107RH B 7.1 8 5.72 14 107RHS B EAV=640 54 107RH G 230.26 5 2.5 2 [M1] 0.0359 107RHS G KC= 0.0313 $LC=0.00372 $MC=0.00069 $NC+=0.00013 107RH G 360.22 5 12.3 7 [M1] 0.01141 107RHS G KC=0.00997 $LC=0.00117 $MC=0.00022 107RH G 592.2 1 2.7 2 107RH G 683.3 3 2 1 107RH G 703.30 5 18 1 107RH G 712.3 1 0.8 1 107RH G 809.57 5 7.6 5 107RH G 866.5 1 1.3 1 107RH G 897.9 1 14.0 8 107RH G 1078.12 5 14.8 9 107RH G 1272.20 5 48 3 107RH L 1306.43 3 (5/2+,7/2+) 107RH B 4.0 5 5.93 15 107RHS B EAV=625 54 107RH G 358.5 5 2 1 A 107RH G 394.41 5 7.4 4 107RH G 626.4 1 1.7 2 107RH G 717.5 1 3.5 3 107RH G 737.55 5 17 1 107RH G 746.4 1 0.5 1 107RH G 843.9 1 10.6 6 107RH G 932.1 1 13 1 107RH G 1112.4 1 2.9 3 107RH G 1306.43 5 12 1 107RH L 1386.36 5 1/2-,3/2- 107RH B 0.06 LT 7.7 GT 107RHS B EAV=589 54 107RH G 924.0 5 0.7 3 107RH G 980.6 1 2.6 3 107RH G 1386.3 1 1.2 2 107RH L 1639.07 5 (1/2-,3/2-) 107RH B 0.75 9 6.27 17 107RHS B EAV=478 53 107RH G 252.70 5 2.2 2 [M1] 0.0281 107RHS G KC=0.02457 $LC=0.00291 $MC=0.00054 $NC+=0.00011 107RH G 597.1 1 0.6 2 107RH G 690.9 2 1.1 2 107RH G 727.1 1 1.2 1 107RH G 956.0 2 1.2 2 107RH G 1050.3 2 0.9 2 107RH G 1176.5 2 1.1 2 107RH G 1445.0 1 3.9 3 107RH G 1639.0 2 1.0 2 107RH L 1863.10 6 (5/2+,7/2+) 107RH B 0.88 11 5.89 20 107RHS B EAV=383 51 107RH G 476.8 1 1.8 2 107RH G 821.1 1 3.7 5 107RH G 951.2 1 2.8 5 107RH G 1294.0 5 0.6 4 107RH G 1669.0 2 2.3 2 107RH G 1863.0 1 4.3 4 107RH L 2020.51 11 107RH B 0.22 3 6.24 23 107RHS B EAV=318 50 107RH G 1067.0 2 0.8 1 107RH G 1558.0 2 1.8 2 107RH G 1826.5 3 0.6 2 107RH G 2020.4 2 0.7 1 107RH L 2054.20 8 (3/2+,5/2+,7/2+) 107RH B 0.7 1 5.67 24 107RHS B EAV=304 50 107RH G 1106.0 5 0.8 4 107RH G 1142.2 1 2.1 2 107RH G 1591.6 1 8.1 6 107RH G 1648.4 3 1.4 5 107RH L 2115.42 11 107RH B 0.19 3 6.1 3 107RHS B EAV=279 49 107RH G 1161.9 2 0.6 1 107RH G 1167.3 1 2.7 3 107RH L 2177.98 16 107RH B 0.136 23 6.1 3 107RHS B EAV=254 48 107RH G 1589.1 3 0.8 2 107RH G 1692.5 5 0.2 1 107RH G 1772.1 2 1.4 2 107RH L 2207.68 17 107RH B 0.125 19 6.1 3 107RHS B EAV=243 48 107RH G 2013.5 3 1.0 2 107RH G 2207.7 2 1.2 1 107RH L 2249.68 7 (5/2,7/2)+ 107RH B 0.47 6 5.5 3 107RHS B EAV=226 47 107RH G 1296.3 2 1.4 2 107RH G 1566.7 2 3.7 3 107RH G 2055.5 1 1.9 2 107RH G 2249.7 1 1.2 1 107RH L 2303.40 14(3/2+,5/2+) 107RH B 0.26 6 5.6 4 107RHS B EAV=206 47 107RH G 1293.7 5 0.3 2 107RH G 1425.6 3 0.8 2 107RH G 1817.7 3 0.4 1 107RH G 1897.6 2 1.6 2 107RH G 1929.0 5 1.4 7 107RH L 2331.08 14(3/2+,5/2+,7/2+) 107RH B 0.22 6 5.6 4 107RHS B EAV=195 46 107RH G 1648.0 5 1.0 5 107RH G 1868.5 2 1.0 2 107RH G 2331.0 2 1.9 2 107RH L 2510.00 15(5/2+,7/2+) 107RH B 0.091 16 5.5 5 107RHS B EAV=130 43 107RH G 2316.0 2 0.9 2 107RH G 2509.9 2 0.7 1