113AG 113PD B- DECAY 1988FOZY,1990RO16 10NDS 201006 113AG H TYP=FUL$AUT=Jean Blachot$CIT=NDS 111, 1471 (2010)$CUT=1-May-2009$ 113AG C Activity: 235U(n,f) on-line mass separator OSIRIS (1988FoZY) 113AG C Measured G, RI, GG, G(T), B, BG, CE, GE(LI), SI detector (1988FoZY) 113AG C 249CF(N,F) radiochemical separation (1990Ro16), measured: G, GG, GG(T) 113AG C Others: 1958Al90, 1968Kj01, 1970Ar19, 1975BrYM, 1981Me17 113AG C Decay mode: 81.5% 20 of 113PD decay is via 5.37-h 113AG and 18.5% 20 113AG2C is via 68.7-s 113AG, from IG(5.37-h 113AG)/IG(68.7-s 113AG) 113AG3C (1975BrYM). Other: from IB(5.37-h 113AG)/IB(68.7-s 113AG), 90% 5 113AG4C of 113PD decay is via 5.37-h 113AG (1958Al90). 113AG CG E,RI$From 1988FoZY 113AG CG M$From EKC (1988FoZY). The conversion coefficients were determined 113AG2CG by simultaneous measurements of G and CE. 113AG CL J$Adopted values. JPI given by 1988FoZY are shown under comments. 113AG CL T$Levels GT 43 KEV T are from 1988FoZY, other from adopted levels. 113AG CL BAND(A)$ INTRUDER ROTATIONAL BAND (1990Ro16) with A=17.23, E0=228.9 KEV 113AG2CL a=-1.92 113PD P 0.0 (5/2+) 93 S 5 3340 30 113AG N 1.0 AP 1.0 1.0 113AG CN NR$from SUMOF I(|g+ce) to GS=81.5 20 assuming IB(GS)=0. (DELTA J=2, 113AG2CN DELTA PI=-). 1990Fo07 give IG(222G)=2.3% 113AG PN 3 113AG L 0.0 1/2- 5.37 H 5 113AG L 43.53 147/2+ 68.7 S 16 M1 113AG B 86 5.5 113AGS B EAV= 1400 71 113AG G 43.6 2 0.15 E3 1047 113AG3 G EKC=90 40 $ELC=700 300 113AG3 G KC= 95.5 $LC= 745 $MC= 155.3 113AGB G BE3W=0.074 4 113AG L 139.30 15 9/2+ 113AG B 1.89 7.1 113AGS B EAV= 1355 71 113AG G 95.74 206.5 M1 0.478 113AG3 G EKC=0.46 4 113AG3 G KC= 0.415 $LC= 0.0515 $MC=0.00975 $NC+=0.00196 113AG L 222.08 13 3/2+ 23 NS 2 A 113AG CL J$3/2+ 113AG B 1.14 7.3 113AGS B EAV= 1316 71 113AG G 178.5 0.02 [E2] 113AG CG E,RI$from 1990Ro16 113AGB G BE2W=0.034 4 113AG G 222.06 202.4 E1 0.0166 113AG3 G EKC LE 0.03 113AGS G KC=0.01450 $LC=0.00172 $MC=0.00032 113AGB G BE1W=1.12E-6 10 113AG L 270.82 14(3/2-) 113AG CL J$3/2- 113AG G 270.81 201.1 113AG L 273.59 16(1/2) 30 NS +30-15 113AG CL J$1/2+,3/2+ 113AG G 51.5 2 0.01 113AG G 273.6 2 0.04 113AG L 280.0 1/2+ A 113AG G 57.9 3 113AG CG E,RI$from 1990Ro16. IG(280)=100 4, IG(57.9)=1.2 6 113AG G 280.0 2 113AG L 366.84 20(5/2-) 113AG CL J$5/2- 113AG B 0.84 7.3 113AGS B EAV= 1248 71 113AG G 96.0 3 0.50 113AG G 366.8 3 0.66 113AG L 369.80 17 7/2+ 0.8 NS LT A 113AG B 0.9 7.3 113AGS B EAV= 1247 71 113AG G 147.73 200.35 E2 0.362 113AG3 G EKC=0.38 15 113AG3 G KC= 0.294 $LC= 0.0557 $MC=0.01075 $NC+=0.00200 113AGB G BE2W>1.1E+2 113AG G 230.49 200.27 113AG G 326.28 200.21 113AG L 476.70 14 5/2+ 0.5 NS LT A 113AG B 0.59 7.4 113AGS B EAV= 1197 71 113AG G 205.87 200.08 113AG G 254.61 200.43 113AG G 337.32 200.04 113AG G 433.4 2 0.11 113AG L 526.16 16 113AG G 49.6 2 0.04 113AG G 386.9 2 0.28 113AG G 482.6 2 1.7 113AG L 607.06 23 113AG B 0.41 7.5 113AGS B EAV= 1136 71 113AG G 336.3 3 0.11 113AG G 607.0 3 0.23 113AG L 611.31 25 (3/2-) 113AG G 472.1 3 0.11 113AG G 567.7 3 1.6 113AG L 673.35 23 113AG B 0.36 7.5 113AGS B EAV= 1105 70 113AG G 534.2 3 0.18 113AG G 673.2 3 0.07 113AG L 781.79 20 (5/2-) 113AG B 0.46 7.3 113AGS B EAV= 1054 70 113AG G 414.9 3 0.14 113AG G 510.9 3 0.21 113AG G 781.9 3 0.07 113AG L 783.16 14(3/2,5/2,7/2) 113AG CL J$5/2+,7/2+ 113AG B 7.2 6.1 113AGS B EAV= 1054 70 113AG G 257.1 3 0.27 113AG G 643.7 3 6.0 113AG G 739.63 3 4.8