97RH 97PD EC DECAY 1980GO11 10NDS 201004 97RH H TYP=FUL$AUT=N. NICA$CIT=NDS 111, 525 (2010)$CUT=19-Nov-2009$ 97RH CE TI$From IG balance in the level scheme 97RH CG Production: 96RU(3HE,2N) E(3HE)=18, 20, 28 MEV. Measured 97RH2CG T, EG, IG, GG, B-G; GE(LI) detectors (2.1KEV FWHM) and plastic 97RH3CG scintillators. RU target and ion chem was used for absolute intensity 97RH4CG measurements. 97RH CG Others: 1980Za11, 1969At01 97RH CG All data are from 1980Go11 97RH CG From comparison of I(188.9G) (mainly from 97RH isomeric 97RH2CG state decay) to I(421.8G) (from 97RH GS decay) it was deduced that 97RH3CG 2.5% 15 97PD decays to 97RH 258.76 KEV isomeric state. In view of 97RH4CG the number of unplaced gammas (SUMOF IG=12.5 7) it is assumed that 97RH5CG there is no direct EC+B+ decay to the 97RH 258.76 KEV isomeric state. 97RH6CG An EC+B+ group with I=1% would have LOGF1UT=8.5, the allowed limit 97RH7CG for first forbidden unique transition. 97RH CG From I(475.2G 97PD decay)/I(421.8G 97RH GS decay)=0.33 4 and 97RH2CG I(421.8G)=75 per 100 97RH GS decays I(475.2G)=25 3 per 100 97PD 97RH3CG decay. I(475.2G)=26.5 15 from internal normalization (assuming no 97RH4CG direct EC+B+ decay to 97RH GS). 97RH CG E(A)$Assignment to 97PD decay uncertain 97RH CG E(G)$DIFFER BY 3SIGMA OR MORE FROM CALCULATED VALUE 97RH CL E$FROM LEAST SQUARES FIT TO EG. NORMALIZED CHI**2=1.88 GREATER THAN 97RH2CL CRITICAL CHI**2=1.77 97RH CL J,T$From adopted levels 97PD P 0.0 (5/2+) 3.10 M 9 4.79E+3 30 97PD CP E,J,T$ADOPTED VALUES FOR 97PD 97PD CP QP$FROM 2003AU03 97RH N 0.5603 1.0 1.00 97RH PN 4 97RH CN NR$SUMOF IG((to GS)+IG(258.76-KEV level))=100, no direct EC+B+ 97RH2CN decay to 97RH GS or to the 258.76-KEV level. 97RH G 556.4 5 0.56 3 A 97RH G 590.7 5 3.6 4 97RH G 685.5 5 3.13 24 A 97RH G 896.6 5 1.13 14 97RH G 947.4 5 0.89 15 A 97RH G 1034.4 5 1.9 3 97RH G 1788.6 5 1.55 8 A 97RH G 1797.2 5 2.02 10 A 97RH G 1952.2 5 1.3 3 A 97RH G 1979.1 5 1.19 6 A 97RH G 2132.2 10 1.09 11 97RH G 2497.2 10 1.57 15 97RH G 2777.7 10 0.57 13 97RH G 3017.0 10 0.35 3 97RH G 3100.9 10 0.26 5 97RH G 3155.1 10 0.69 5 A 97RH G 3397.8 10 0.51 4 97RH L 0.0 9/2+ 30.7 M 6 97RH L 258.76 1/2- 46.2 M 16 M 97RH E 0.92 LT 0.079 LT 6.9 GT 1.0 LT ? 97RHS E EAV=1.60E3 15$CK=0.069 19$CL=0.0085 24$CM+=0.0020 6 97RH L 265.40 9 (7/2+) 97RH E 15.9 12 1.4 4 5.70 17 17.3 12 97RHS E EAV=1.59E3 15$CK=0.069 19$CL=0.0085 24$CM+=0.0020 6 97RH CE E$EB+=3.5 3 MEV in coincidence with the 265.3G 97RH G 265.3 1 100.00 (M1+E2) 0.034 9 97RHS G KC=0.029 8$LC=0.0038 13$MC=0.00072 25$NC+=0.00012 4 97RHS G NC=0.00012 4$OC=5.0E-6 11 97RH L 475.12 10 (5/2+,7/2) 97RH E 10.5 16 1.1 4 5.76 19 11.6 17 97RHS E EAV=1.50E3 15$CK=0.082 24$CL=0.010 3$CM+=0.0024 7 97RH G 209.3 5 3.97 24 97RH G 475.2 1 47.7 25 97RH L 1004.7 7 (3/2-) 97RH E 0.58 10 0.10 4 6.68 21 0.68 11 97RHS E EAV=1.25E3 14$CK=0.13 5$CL=0.016 6$CM+=0.0038 13 97RH G 745.7 5 2.07 19 97RH L 1058.07 12 (5/2+) 97RH E 5.5 9 1.0 4 5.66 22 6.5 10 97RHS E EAV=1.22E3 14$CK=0.14 5$CL=0.017 6$CM+=0.0040 14 97RH G 583.0 5 2.43 22 97RH G 792.7 1 24.7 13 97RH G 1058.5 5 4.8 4 97RH L 1199.2 4 (5/2+,7/2) 97RH E 2.1 3 0.47 19 5.97 22 2.6 3 97RHS E EAV=1.16E3 14$CK=0.16 6$CL=0.019 7$CM+=0.0046 17 97RH G 933.7 5 4.4 4 97RH G 1199.2 5 1.58 17 97RH L 1415.5 3 (3/2+,5/2,7/2) 97RH E 3.7 5 1.1 4 5.55 22 4.8 3 97RHS E EAV=1.06E3 14$CK=0.19 7$CL=0.024 9$CM+=0.0057 21 97RH G 940.3 3 6.7 4 97RH G 1150.3 5 1.9 3 97RH L 1528.7 5 (3/2,5/2,7/2) 97RH E 1.5 6 0.5 3 5.9 3 2.0 8 97RHS E EAV=1.00E3 14$CK=0.22 8$CL=0.027 10$CM+=0.0064 24 97RH G 1053.6 5 6.3 13 97RH L 1619.1 5 (3/2+,5/2,7/2) 97RH E 0.29 14 0.11 7 6.5 3 0.40 18 97RHS E EAV=9.6E2 14$CK=0.24 9$CL=0.030 11$CM+=0.007 3 97RH G 614.4 5 0.85 4 97RH G 1354.1 5 2.36 24 97RH L 1759.59 9 (5/2+,7/2+) 97RH E 7.1 15 3.3 15 4.97 23 10.4 6 97RHS E EAV=9.0E2 14$CK=0.28 11$CL=0.034 13$CM+=0.008 3 97RH G 1494.2 2 10.9 6 97RH G 1759.6 1 12.1 8 97RH L 1906.5 4 (3/2,5/2,7/2) 97RH E 2.1 6 1.2 6 5.36 24 3.3 4 97RHS E EAV=8.3E2 14$CK=0.32 12$CL=0.040 15$CM+=0.010 4 97RH G 1641.1 3 5.9 6 97RH L 1994.5 3 (5/2+,7/2+) 97RH E 2.3 8 1.6 8 5.22 24 3.85 20 97RHS E EAV=7.9E2 14$CK=0.35 13$CL=0.044 16$CM+=0.010 4 97RH G 1519.8 5 4.0 3 97RH G 1729.1 5 0.75 6 97RH G 1993.9 5 2.12 18 97RH L 2068.0 5 (3/2,5/2,7/2) 97RH E 0.9 3 0.7 3 5.55 24 1.61 10 97RHS E EAV=7.6E2 14$CK=0.38 14$CL=0.047 17$CM+=0.011 4 97RH G 1592.9 5 2.87 17 97RH L 2113.32 19 (5/2+,7/2+) 97RH E 7 3 6 3 4.59 24 13.3 6 97RHS E EAV=7.4E2 14$CK=0.40 14$CL=0.050 18$CM+=0.012 4 97RH G 354.4 5 2.14 15 97RH G 1055.4 5 10.1 7 97RH G 1638.7 3 6.7 4 97RH G 1846.8 3 5.1 4 97RHF G FLAG=G 97RH G 2111.4 10 0.71 6 97RH L 2187.2 8 (3/2,5/2,7/2) 97RH E 0.8 4 0.7 4 5.48 24 1.50 8 97RHS E EAV=7.0E2 14$CK=0.43 15$CL=0.054 18$CM+=0.013 5 97RH G 658.5 5 2.67 14 97RH L 2229.7 3 (5/2+,7/2+) 97RH E 1.3 5 1.5 6 5.18 25 2.8 5 97RHS E EAV=6.8E2 14$CK=0.45 15$CL=0.056 18$CM+=0.013 5 97RH G 1171.8 3 6.6 8 97RH G 2231.3 10 1.01 5 97RH L 2295.4 4 (3/2+,5/2+,7/2+) 97RH E 2.2 8 2.7 10 4.89 24 4.84 25 97RHS E EAV=6.5E2 14$CK=0.48 15$CL=0.060 19$CM+=0.014 5 97RH G 1237.8 5 3.63 19 97RH G 2029.5 5 5.0 4 97RH L 2903.7 5 (5/2+,7/2+) 97RH E 0.4 6 3.3 7 4.56 22 3.74 25 97RHS E EAV=3.8E2 14$CK=0.76 14$CL=0.095 17$CM+=0.023 4 97RH G 1285.0 5 2.50 21 97RH G 2428.4 10 2.01 25 97RH G 2637.1 10 0.93 17 97RH G 2903.3 10 1.24 25 97RH L 2950.1 7 (5/2+,7/2+) 97RH E 0.15 22 1.3 3 4.92 22 1.50 10 97RHS E EAV=3.6E2 14$CK=0.78 13$CL=0.097 16$CM+=0.023 4 97RH G 2684.4 10 2.07 16 97RH G 2950.3 10 0.61 3 97RH L 3091.3 4 (3/2+,5/2+,7/2+) 97RH E 0.1 3 2.1 4 4.66 21 2.22 23 97RHS E EAV=3.0E2 13$CK=0.82 10$CL=0.102 13$CM+=0.024 3 97RH G 862.7 5 1.8 3 97RH G 976.7 5 0.95 20 97RH G 2826.3 10 1.22 17 97RH L 3240.1 5 (5/2+,7/2+) 97RH E 0.06 23 2.7 3 4.46 21 2.81 21 97RHS E EAV=2.4E2 13$CK=0.85 7$CL=0.106 10$CM+=0.0253 23 97RH G 1480.5 5 2.22 19 97RH G 2974.6 10 2.0 3 97RH G 3239.8 10 0.79 10 97RH L 3607.2 5 (3/2+,5/2+,7/2+) 97RH E 1.90 17 4.4 3 1.90 17 97RHS E CK=0.864 11$CL=0.1093 21$CM+=0.0261 6 97RH G 1377.4 5 0.75 11 97RH G 2408.0 10 1.32 15 97RH G 3342.1 10 1.32 24