103PD 103AG EC DECAY (65.7 M) 1975DI09,1980LH01 09NDS 200910
103PD H TYP=FUL$AUT=D. DE FRENNE$CIT=NDS 110, 2081 (2009)$CUT=1-Mar-2009$
103PD c 1975Di09: activity from {+102}Pd(d,n) E(d)=7.3,8.0 MeV and Pd(p,xn)
103PD2c E(p)=45 MeV. Measured: T{-1/2}, E|g, I|g, |g|g-coin. Deduced: {+103}Pd
103PD3c levels, J|p, log| {Ift} natural and enriched targets.
103PD c 1980Lh01: activity from Mo(n,ypxn), mass separation. Measured: E|g,
103PD2c I|g. Deduced: |b branchings, log| {Ift}
103PD c 1988Bo28: activity from Mo(HI,ypxn), mass separation. Measured: Q(|e)
103PD cE The evaluator have recalculated the %(|e+|b{++}) branches
103PD2cE using the multipolarities and BRICC conversion coefficients of the
103PD3cE adopted gammas and the g.s. (|e+|b{++}) branch=15.8 {I51} from 1980Lh01
103PD cE IB Deduced: %|b{++}=42 {I18}, %|e=58 (1962Pa05)
103PD2cE from I|g(|g{+|+})/I|g(120|g)=3.8 {I16}
103PD cE IE |eK/|e exp=0.7 {I2} (1957Ku57)
103PD cG M,MR$Taken from adopted levels, gammas to calculate I(|g+ce) and
103PD2cG log| {Ift} values
103PD cG E From 1975Di09, unless noted otherwise. No |g data
103PD2cG given by 1980Lh01
103PD cG E(A) Weighted av of {+103}Ag |e decay and (p,n|g) data are given
103PD2cG by 1975Di09. Accurate |g data in {+103}Ag |e decay alone are not
103PDxcG available
103PD cL J From adopted levels
103PD cL E$From least-squares fit to measured E|g's
103AG P 0.0 7/2+ 65.7 M 7 2688 17
103PD N 0.085 5 1.0 1.0
103PD cN NR from |SI(|g+ce)=100-
103PD2cN %(|e+|b{++}) branch to g.s.=15.8 {I51} (1980Lh01)
103PD PN 4
103PD G 351.1 8 0.6 3
103PD G 1292.6 3 0.95 8
103PD G 1416.7 6 0.4 1
103PD G 2175.2 6 0.4 1
103PD L 0.0 5/2+ 16.991 D 19
103PD cL T from |g(t) (1981Va11). Others: 16.96 d {I2} (1975Cz05), 18.4
103PD2cL d {I5} (1969Gr13), 16.9 d {I1} (1968Pa24), 17.0 d {I4} (1953Me24),
103PD3cL 17.5 d {I5} (1954Ri09)
103PD E 8 3 7.925 5.8514 16 5
103PDS E EAV= 734 23$CK= 0.425 22$CL= 0.053 3$CM+= 0.0129 7
103PD cE E(|b{++})=1680 {I50} (1966Ja12), 1570 {I100} (1962Pa05),
103PD2cE 1601 {I27} (1988Bo28)
103PD3cE other: 1300 {I50} (1969Ba02)
103PD L 118.69 4 3/2+ 0.70 NS 3
103PD cL T (148|g)(119|g)(t): 0.70 ns {I3} (1969Ha03); 0.63 ns {I6}
103PD2cL (1972Bf01), 1.9 ns {I4} (1969Ba02)
103PD E 0.193LE 0.237LE 7.3GE 0.43 LE
103PDS E EAV= 680 23$CK= 0.477 23$CL= 0.060 3$CM+= 0.0145 7
103PD G 118.74 5 367 8 M1+E2 +0.09 2 0.239 4 AC
103PD L 243.93 4 7/2+
103PD E 2.1023 3.4 3 6.13 5 5.5 4
103PDS E EAV= 624 23$CK= 0.534 24$CL= 0.067 3$CM+= 0.0162 8
103PD G 125.4 4 1.5 CA AC S
103PD cG RI from I|g(125|g)/I|g(244|g)|?0.015 (1975Di09) via (p,n|g)
103PD G 243.96 5 100 M1+E2 -0.085 15 0.0339 4 AC
103PD L 266.87 4 5/2+
103PD E 14.817 25.223 5.25 5 40 3
103PDS E EAV= 614 23$CK= 0.545 24$CL= 0.068 3$CM+= 0.0166 8
103PD cE E(|b{++})=1290 {I100}; 1290|b(265|g,150|g,120|g)-coin
103PD2cE observed (1962Pa05) other: 1030 {I50} (1969Ba02)
103PD G 148.20 4 333 6 AC
103PD G 266.86 5 157 5 M1+E2 -0.14 8 0.0270 6 AC
103PD L 499.06 18(1/2+)
103PD E 0.0022LE 0.0068LE 8.7GE 0.009 LE
103PDS E EAV= 510 23$CK= 0.655 24$CL= 0.082 3$CM+= 0.0199 8
103PD G 380.3 1.8 AP(M1) 0.01095 AC
103PD cG RI calculated from |g|g-coin spectra
103PD G 499.2 5 0.2 CA A S
103PD cG RI from I|g(380|g)/I|g(499|g)|?9 (1975Di09) via (p,n|g)
103PD L 504.16 11(3/2)+
103PD E 0.043LE 0.137LE 7.4GE 0.18 LE
103PDS E EAV= 508 23$CK= 0.657 24$CL= 0.082 3$CM+= 0.0200 8
103PD G 237.4 2 1.5 2 M1 0.03626 AC
103PD G 385.4 2 6.3 5 AC
103PD G 504.3 3 3 1 AC
103PD L 531.93 4 7/2+
103PD E 1.6 3 5.6 6 5.80 6 7.2 7
103PDS E EAV= 496 23$CK= 0.670 23$CL= 0.084 3$CM+= 0.0204 7
103PD G 265.0 4 10 5 M1 0.0272 4 AC
103PD G 288.05 5 8.2 4 M1+E2 -0.17 10 0.0223 6 AC
103PD G 531.92 6 103 2 M1+E2 -0.7 2 AC
103PD L 625.86 203/2+,5/2+
103PD E 0.04512 0.21 5 7.2 1 0.25 5
103PDS E EAV= 454 22$CK= 0.711 22$CL= 0.089 3$CM+= 0.0217 7
103PD G 358.3 8 0.9 3 AC
103PD cG Branching: I|g(358|g)/I|g(625|g)=0.45 {I16} ({+103}Ag decay)
103PD2cG is in disagreement with adopted value of 0.05 for the same ratio
103PD3cG in (p,n|g)
103PD G 625.9 2 2.0 3 A
103PD L 698.78 5 5/2+
103PD E 0.05315 0.32 7 6.9810 0.37 8
103PDS E EAV= 422 22$CK= 0.740 20$CL= 0.093 3$CM+= 0.0226 7
103PD G 167.2 4 0.6 1 AC
103PD G 432.0 2 2.0 2 AC
103PD G 455.4 6 0.8 AP C
103PD G 580.16 8 11.1 5 AC
103PD G 698.77 8 2.7 2 AC
103PD L 718.03 6 9/2+
103PD E 0.016 8 0.10 5 7.4519 0.12 5
103PDS E EAV= 414 22$CK= 0.747 20$CL= 0.0940 25$CM+= 0.0228 6
103PD G 186.15 100.7 1 M1+E2 -0.12 6 0.0688 10 AC
103PD G 451.1 1 0.28 CAE2 A
103PD cG RI from I|g(451|g)/I|g(718|g)=0.07 (1975Di09) via (p,n|g)
103PD G 474.2 4 0.5 2 M1+E2 A
103PD cG MR$-1.4 or -0.50 {I20} (1974Gr07)
103PD G 717.97 104.0 3 E2 AC
103PD L 727.26 181/2+
103PD E 0.004 3 0.03018 8.0 3 0.034 20
103PDS E EAV= 410 22$CK= 0.751 19$CL= 0.0944 25$CM+= 0.0229 6
103PD G 608.6 2 1.4 2 M1,E2 AC
103PD L 884.45 8 3/2+,5/2+
103PD E 0.011 6 0.14 7 7.2521 0.15 7
103PDS E EAV= 341 22$CK= 0.801 15$CL= 0.1010 19$CM+= 0.0245 5
103PD G 380.3 0.9 4 C
103PD G 766.1 3 1.25 15(M1,E2) AC
103PD G 884.6 3 2.6 4 (M1+E2) AC
103PD cG MR$-0.56 {I17} or |@
103PD L 900.04 7 9/2+
103PD E 0.030 9 0.41 6 6.77 7 0.44 6
103PDS E EAV= 334 22$CK= 0.805 14$CL= 0.1015 18$CM+= 0.0246 5
103PD G 368.0 3 0.8 2 (M1) AC
103PD G 633.2 2 0.5 2 E2 AC
103PD G 656.3 3 1.2 3 M1+E2 AC
103PD cG MR$-0.26 {I6} or -3.7 {I4}
103PD G 900.02 8 2.6 3 E2 A
103PD L 1069.03 15(3/2+,5/2+)
103PD E 0.004218 0.14620 7.13 7 0.15 2
103PDS E EAV= 261 22$CK= 0.840 9$CL= 0.1061 12$CM+= 0.0258 3
103PD G 802.1 2 1.4 2 (M1,E2) A
103PD cG RI from I|g(802|g)/I|g(950|g)|?4 in (p,n|g)
103PD L 1155.61 21(3/2,5/2)+
103PD E 0.002815 0.18 3 7.00 8 0.18 3
103PDS E EAV= 224 22$CK= 0.851 6$CL= 0.1076 9$CM+= 0.02613 21
103PD G 888.7 3 1.0 2 M1,E2 AC
103PD G 911.7 3 0.8 2 AC
103PD G 1155.6 6 0.3 CA(M1,E2)
103PD cG RI from I|g(889|g)/I|g(1156|g)=3.5 via (p,n|g) (1975Di09)
103PD L 1182.85 6 (5/2)+
103PD E 0.04425 3.49 4 5.69 4 3.53 3
103PDS E EAV= 212 22$CK= 0.853 5$CL= 0.1080 8$CM+= 0.02622 18
103PD G 298.43 6 1.80 10 C
103PD G 456.0 8 0.5 AP C
103PD G 484.1 2 2.3 3 C
103PD G 651.0 6 1.3 3 C
103PD G 678.8 4 0.6 1 C
103PD G 683.8 2 1.0 3 C
103PD G 938.90 107.4 4 AC
103PD G 1064.08 108.4 3 AC
103PD G 1182.77 1517.9 4 (M1,E2) A
103PD L 1273.97 5 (5/2)+
103PD E 0.11 9 20.514 4.86 5 20.6 14
103PDS E EAV= 173 22$CK= 0.859 3$CL= 0.1090 5$CM+= 0.02646 12
103PD G 389.2 3 1.2 3 C
103PD G 546.7 4 0.5 1 C
103PD G 575.33 108.9 4 C
103PD G 742.11 8 29.9 8 C
103PD G 775.0 6 0.9 3 C
103PD G 1007.08 8 38.1 12 C
103PD G 1029.97 8 15.3 5 C
103PD G 1155.27 1035.9 8 AC
103PD G 1273.83 12110 4 A
103PD L 1386.15 10(5/2)
103PD E 0.001218 0.96 9 6.12 6 0.96 9
103PDS E EAV= 124 22$CK= 0.8624 11$CL= 0.1097 3$CM+= 0.02664 7
103PD G 1119.6 3 1.3 2 C
103PD G 1142.2 2 1.80 15 C
103PD G 1267.9 6 2.0 5 C
103PD G 1386.07 126.1 3 A
103PD L 1547.14 14(5/2+,7/2+)
103PD E 0.69 8 6.14 7 0.69 8
103PDS E CK= 0.8629$CL= 0.11026 17$CM+= 0.02680 5
103PD G 828.9 6 0.8 2 AC
103PD G 1043.1 3 1.5 3 AC
103PD G 1280.7 6 2.4 6 C
103PD G 1303.0 3 0.79 7 C
103PD G 1428.6 4 0.6 1 C
103PD G 1547.1 2 2.02 15
103PD L 1581.14 21 5/2+
103PD E 0.079 10 7.06 7 0.079 10
103PDS E CK= 0.8628$CL= 0.11037 18$CM+= 0.02684 5
103PD G 1337.2 2 0.92 10 C
103PD L 1592.38 8 (5/2+,7/2+,9/2+)
103PD E 0.76 6 6.07 6 0.76 6
103PDS E CK= 0.8627$CL= 0.11041 19$CM+= 0.02685 6
103PD G 874.29 103.3 3 C
103PD G 1325.52 104.8 2 C
103PD G 1592.6 3 0.82 8
103PD L 1604.69 135/2
103PD E 0.54 5 6.20 6 0.54 5
103PDS E CK= 0.8627$CL= 0.11045 19$CM+= 0.02686 6
103PD G 1072.7 3 2.4 2 C
103PD G 1486.0 2 2.5 2 C
103PD G 1604.7 2 1.40 15
103PD L 1689.92 24(3/2,5/2,7/2)
103PD E 0.24 4 6.48 9 0.24 4
103PDS E CK= 0.8623$CL= 0.11078 23$CM+= 0.02695 7
103PD G 1158.2 8 0.45 15 C
103PD G 1185.0 8 0.6 3 C
103PD G 1423.2 4 0.76 10 C
103PD G 1445.9 4 0.5 1 C
103PD G 1690.0 6 0.51 5
103PD L 1775.77 19(5/2+)
103PD E 0.55 18 6.0416 0.55 18
103PDS E CK= 0.8618$CL= 0.1112 3$CM+= 0.02707 8
103PD G 1077.6 8 0.5 2 C
103PD G 1272.0 104 2 C
103PD G 1775.7 2 1.97 15
103PD L 1781.2 7
103PD E 0.09 3 6.8216 0.09 3
103PDS E CK= 0.8617$CL= 0.1112 3$CM+= 0.02707 8
103PD G 1514.4 8 0.35 6 C
103PD G 1537.0 100.7 3 C
103PD L 1953.5 3 (5/2)
103PD E 0.078 10 6.69 9 0.078 10
103PDS E CK= 0.8603$CL= 0.1123 5$CM+= 0.02739 13
103PD G 1953.5 3 0.91 10
103PD L 1964.5 4 (7/2)
103PD E 0.047 8 6.9 1 0.047 8
103PDS E CK= 0.8602$CL= 0.1124 5$CM+= 0.02741 13
103PD G 1845.8 4 0.55 8 C
103PD L 2233.71 24(5/2+)
103PD E 0.14 2 5.9913 0.14 2
103PDS E CK= 0.8554 17$CL= 0.1162 14$CM+= 0.0285 4
103PD G 1702.1 4 0.94 8 C
103PD G 2233.5 3 0.65 10
103PD L 2275.54 217/2+,9/2+
103PD E 0.18 3 5.7915 0.18 3
103PDS E CK= 0.8540 22$CL= 0.1172 17$CM+= 0.0288 5
103PD G 1743.9 8 0.5 2 C
103PD G 2157.0 3 0.59 8 C
103PD G 2275.3 3 0.99 12
103PD L 2343.07 245/2+,7/2+,9/2+
103PD E 0.25 3 5.4717 0.25 3
103PDS E CK= 0.851 4$CL= 0.120 3$CM+= 0.0294 8
103PD G 1811.1 5 0.63 8 C
103PD G 1839.0 3 1.23 12 C
103PD G 2099.0 6 0.5 1 C
103PD G 2342.3 100.5 2
103PD L 2408.31 205/2+,7/2+,9/2+
103PD E 0.24 3 5.2821 0.24 3
103PDS E CK= 0.846 6$CL= 0.123 5$CM+= 0.0305 13
103PD G 1709.7 4 0.75 8 C
103PD G 2141.6 4 1.15 10 C
103PD G 2164.6 6 0.5 1 C
103PD G 2408.0 3 0.45 6
103PD L 2417.5 4 5/2+,7/2+,9/2+
103PD E 0.073 12 5.7623 0.073 12
103PDS E CK= 0.845 7$CL= 0.124 5$CM+= 0.0307 14
103PD G 2298.7 4 0.70 10 C
103PD G 2417.8 6 0.15 5
103PD L 2446.5 4 5/2+,7/2+,9/2+
103PD E 0.098 21 5.5 3 0.098 21
103PDS E CK= 0.842 9$CL= 0.126 7$CM+= 0.0314 20
103PD G 1747.6 8 0.5 2 C
103PD G 2179.6 7 0.3 1 C
103PD G 2446.5 5 0.35 6
103PD L 2464.6 105/2+,7/2+,9/2+
103PD E 0.034 17 5.9 4 0.034 17
103PDS E CK= 0.840 11$CL= 0.128 9$CM+= 0.0320 25
103PD G 2345.9 100.4 2
103PD L 2486.5 8 7/2+,9/2+
103PD E 0.026 9 5.9 4 0.026 9
103PDS E CK= 0.836 15$CL= 0.131 12$CM+= 0.033 4
103PD G 2242.5 8 0.3 1 C
103PD L 2511.5 8 5/2+,7/2+,9/2+
103PD E 0.026 9 5.5 5 0.026 9
103PDS E CK= 0.830 24$CL= 0.136 18$CM+= 0.034 6
103PD G 2267.5 8 0.3 1 C