106PD 106RH B- DECAY (30.07 S) 1982KA10,1977OK02,1977OK0308NDS 200806
106PD H TYP=FUL$AUT=D. DE FRENNE AND A. NEGRET$CIT=NDS 109, 943 (2008)$
106PD2 H CUT=1-May-2007$
106PD c 1982Ka10: activity from |b{+-} decay of {+106}Ru. Measured: E|g, I|g,
106PD2c |g|g, |g|g(|q). Deduced: levels, J|p, |d
106PD c 1977Ok02,1977Ok03: activity from |b{+-} decay of {+106}Ru. Measured:
106PD2c E|g, I|g, Ice, |g|g, |g|g(|q). Deduced: {+106}Pd levels, log| {Ift},
106PDxc J|p, mult, |d, |r(E0)
106PD cB IB Derived from absolute I|g determinations and level I(|g+ce)
106PD2cB imbalances
106PD cL E$Calculated with least squares procedure with gammas of 1982Ka10.
106PD cG For A{-2},A{-4} values, see 1977Ok03, 1982Ka10
106PD cG E,RI Taken from 1982Ka10.
106PD2cG Others: 1950Me86, 1952Al06, 1953Ka47, 1955Al44, 1957Fi50, 1958Gr07,
106PD3cG 1960Ro12, 1960Se05, 1961Sm04, 1962Am03, 1966Ov01, 1967Ra11, 1967Fo09,
106PD4cG 1967Vr05, 1968Ha35, 1968We16, 1969Od01, 1969St03,
106PD5cG 1971Az02, 1972GeZG, 1972Ma71, 1973Ar16, 1973Av01, 1973Gr25, 1975Ge06,
106PDxcG 1975Hs02, 1977Ok02
106PD cG |a(K)exp=ce(K)/I|g normalized to |a(K)(512|g)=0.00484 7 (E2
106PDxcG BRICC theory)
106PD cG M From |a(K)exp and or A{-2},A{-4} coef in |g|g(|q)
106PD cG MR From |g|g(|q) data
106PD cG 1978Be59 studied properties of E0 (0+ to 0+) transitions
106PD2cG of {+106}Pd
106PD cL J From adopted levels
106RH P 0.0 1+ 30.07 S 35 3541 6
106PD N 0.0204 4 0.0204 4 1.0 1.0
106PD cN NR based on absolute I|g(512|g)=20.6% {I6} and
106PD2cN I|g(616+622|g)=10.6% {I3} from I|g/summed |b{+-} (1969Od01) corrected
106PD3cN for |b-component from 371.6-d {+106}Ru precursor
106PD L 0.0 0+ STABLE
106PD B 3540 10 78.6 7 5.168 7
106PDS B EAV= 1508 5
106PD cB E 3540 {I10} av: 3530 {I10} (1952Al06), 3550 {I10} (1958Gr07);
106PD2cB others: 3550 {I20} (1960Se05), 3550 (1966JoZZ,1962Am03,1947Pe07)
106PD cB IB measurements: 68% {I10} (1952Al06), 83% (1958Gr07), 70%
106PD2cB (1960Se05), 67% (1962Am03), 90% (1966JoZZ)
106PD L 511.862 3 2+
106PD2 L G=0.369 13
106PD cL G$ From |g|g(|q,H). Weighted average of 0.384 {I33} (1968Jo17), 0.349
106PD2cL {I27} (1968Bo15), 0.369 {I29} (1970Si20), 0.382 {I28} (1972Jo06)
106PD3cL Others: 1965Ko12, 1966Au06, 1967Mu09
106PD B 3050 20 8.1 3 5.86517 C
106PDS B EAV= 1267 5
106PD cB E 3050 {I20} (1960Se05), 3050 (1962Am03), 3040 (1966JoZZ)
106PD cB IB measurements: 11% {I3} (1952Al06), 12% (1960Se05,1962Am03),
106PD2cB 6% (1958Gr07,1966JoZZ)
106PD G 511.8605 31 1000 E2 C
106PDS G KC=0.002 5 $LC=0.0002 5 $
106PD3 G EKC=0.0048 8 (1967VR05)
106PD cG E semi 1976Sh25 measurement rel to E(|g{+|+})=511.0034 {I14};
106PD2cG other; 511.85 {I1} (1977Ok02)
106PD cG Absolute I|g(512|g)=20.6% {I6} (1969Od01), 21% {I2}
106PD2cG (1966Ov01), 22.0% {I11} (1975Ge06), 20.5% (1953Ka47) I|g/summed |b{+-}
106PD L 1128.04 4 2+
106PD2 L G=0.290 47
106PD cL From (873|g)(1128|g)(|q,H): g-factor is weighted average of
106PD2cL 0.307 {I92} (1970Si20), 0.285 {I54} (1968Bo15);
106PD B 0.64 9 6.55 7
106PDS B EAV= 979 5
106PD G 616.22 9 37 4 M1+E2 -7 2 C
106PDS G KC=0.003 8 $LC=0.00003 9 $
106PD3 G EKC=0.0030 (1977OK02,1977OK03)
106PD CG MR taken from 1968Ha35 via GG(THETA)
106PD cG Branching: I|g(616|g)/I|g(1128|g)=1.88 {I38} (1977Ok02),
106PDxcG 1.95 {I29} (1975Hs02)
106PD G 1128.07 5 19.8 3 E2 C
106PDS G KC=0.00067 $
106PD3 G EKC=0.00076 (1977OK02,1977OK03)
106PD L 1133.75 5 0+
106PD cL B(E0,1134|g)/B(E2,622|g)=0.0181 {I14} (1980Oh02)
106PD B 2410 30 10.0 4 5.35419 C
106PDS B EAV= 976 5
106PD cB E 2410 {I30} av: 2440 {I70} (1952Al06), 2390 (1962Am03), 2410
106PDxcB (1966JoZZ)
106PD cB IB measurements: 12% {I3} (1952Al06), 9% (1958Gr07), 17%
106PD2cB (1962Am03), 4% (1966JoZZ)
106PD G 621.93 6 487 6 E2 C
106PDS G KC=0.0004 $LC=0.00003 9 $
106PD3 G EKC=0.0029 2 (1977OK02,1977OK03)
106PD cG EKC Other: 0.0030 {I7} (1967Vr05)
106PD cG (622|g)(512|g)(|q): 1972Av03, 1971Az02, 1968Ha35, 1953Kl51,
106PDxcG 1953Kr07
106PD cG |b(622|g)(512|g)(|q): 1974Ra29, 1968Pe12
106PD cG Branching: I(ce(K))(1134|g)/I|g(622|g)=0.00049 {I5}
106PDxcG (1977Ok03)
106PD cG Absolute I|g(616+622|g)=10.6% {I3} (1969Od01), 10% {I1}
106PD2cG (1966Ov01), 10.4% (1953Ka47) I|g/summed |b{+-}
106PD cG Absolute I|g(622|g)=11.0 {I10} (1975Ge06) I|g/summed |b{+-};
106PD2cG |g-peak is corrected for unresolved I|g(616|g) fraction
106PD G 1133.7 E0 0.28 3
106PD cG E from 1977Ok03 (s); other: 1133.9 (1973Gr25)
106PD cG |a(K)exp|>0.18 if I|g(1134|g)|<1.3 (1977Ok03,1973Gr25)
106PD cG I(ce(K) 1134|g)/I(ce(K) 512|g)=0.048 {I4} (1977Ok03), 0.07
106PD2cG {I2} (1973Gr25), 0.044 {I5} (1974BeZH)
106PD L 1228.97 134+
106PD G 717.4 2 0.32 2
106PD L 1557.19 113+
106PD G 1045.6 6 0.65 8
106PD L 1562.26 4 2+
106PD B 2000 40 1.77 6 5.75717 C
106PDS B EAV= 779 5
106PD cB E 2000 {I100} (1952Al06), 2000 (1962Am03) |b, |b(1050|g)
106PD cB IB measurements: 3% {I1} (1952Al06), 2% (1962Am03)
106PD G 428.4 2 3.46 11 C
106PD G 434.25 210.99 10 C
106PD G 1050.41 6 76.4 15(M1+E2) +0.24 1 C
106PD cG MR from |g|g(|q) (1977Ok03). |D|p=no from decay scheme.
106PD2cG Other: +0.23 {I0} (1982Ka10)
106PD G 1562.25 6 8.0 1 C
106PD L 1706.41 5 0+
106PD B 0.0667 22 7.04917
106PDS B EAV= 714 4
106PD G 578.3 2 0.41 4 C
106PD G 1194.54 5 2.81 2 C
106PD L 1909.47 20(1+,2+)
106PD B 0.0027 3 8.24 5
106PDS B EAV= 623 4
106PD G 1397.6 2 0.13 1 C
106PD cG Branching: I|g(1909|g)/I|g(1398|g)=0.40 {I6} (1976SaYX,
106PD2cG {+106}Ag decay) is used to apportion doublet I|g(1909|g)=0.060 {I5}
106PDxcG (1977Ok02)
106PD L 2001.53 6 0+
106PD B 0.460 15 5.90718
106PDS B EAV= 582 4
106PD G 439.17 27 0.62 10 C
106PD G 873.49 5 21.5 3 E2 C
106PD G 1489.6 6 0.06 3 C
106PD L 2242.48 5 2+
106PD B 0.0391 23 6.69 3
106PDS B EAV= 476 4
106PD G 680.25 14 0.54 3 C
106PD G 684.8 2 0.27 1 C
106PD G 1108.7 1 0.29 1 C
106PD G 1114.48 5 0.58 9 (M1+E2) +1.5 +3-2 C
106PDS G KC=0.00072 $
106PD cG |a(K)exp|?0.0015 deduced from I(ce(K) 1114|g)/I(ce(K)
106PD2cG 1194|g)|?0.5 (1973Av01). |D|p=no from decay scheme
106PD CG MR taken from (1973Av01). Obtained via GG(THETA) in
106PD2CG 106RH B- DECAY (30.07 S)
106PD G 1730.5 2 0.109 9 C
106PD G 2242.4 1 0.101 3
106PD L 2278.14 5 0+
106PD B 0.048 2 6.55522
106PDS B EAV= 461 4
106PD G 715.9 2 0.49 2 C
106PD G 1150.2 2 0.15 1 C
106PD G 1766.25 5 1.68 3 C
106PD L 2308.77 6 2+
106PD B 0.044 2 6.55224
106PDS B EAV= 448 4
106PD G 751.3 2 0.053 11 C
106PD G 1180.73 8 0.71 1 [M1+E2] -0.06 12 C
106PD cG M |D|p=no from decay scheme
106PD cG MR taken from 1977Ok03
106PD G 1796.94 9 1.36 2 [M1+E2] +0.25 2 C
106PD cG M |D|p=no from decay scheme
106PD cG MR from 1982Ka10. Other: +0.18 {I4} (1977Ok03)
106PD L 2439.07 7 2+
106PD B 0.022 8 6.6716
106PDS B EAV= 392 4
106PD G 1209.8 2 0.022 5
106PD G 1305.2 2 0.065 7 C
106PD G 1927.22 9 0.75 2 [M1+E2] -0.07 +3-7 C
106PD cG M |D|p=no from decay scheme
106PD cG MR from 1982Ka10. Other: -0.10 {I9} (1977Ok03)
106PD G 2439.1 1 0.225 6
106PD L 2484.66 20(1-)
106PD B 0.0011 2 7.90 8
106PDS B EAV= 373 4
106PD G 1973.5 10 0.009 5
106PD G 2484.6 2 0.044 3
106PD L 2500.30 8 2-
106PD B 0.0292 10 6.45321
106PDS B EAV= 367 4
106PD G 942.6 4 0.028 7
106PD G 1372.3 3 0.101 9 C
106PD G 1988.44 8 1.28 2 [E1+M2] -0.05 +3-5 C
106PD cG M |D|p=+ from decay scheme
106PD cG MR from 1982Ka10. Other: -0.055 {I40} (1977Ok03)
106PD L 2624.41 5 0+
106PD B 0.090 4 5.76025
106PDS B EAV= 315 4
106PD G 1062.14 5 1.57 2 C
106PD G 1496.33 131.09 3 C
106PD G 2112.54 6 1.69 9 C
106PD L 2705.30 8 (1)+
106PD B 0.0088 4 6.62 3
106PDS B EAV= 283 4
106PD G 702.8 100.014 9
106PD G 1572.4 2 0.009 1
106PD G 1577.2 2 0.052 9 C
106PD G 2193.2 1 0.24 1 M1+E2 -0.17 6 C
106PD cG MR taken from 1977Ok03. Other: +7 +infinity-4 (1982Ka10)
106PD G 2705.3 3 0.123 5
106PD L 2717.10 23
106PD G 1159.9 2 0.008 6
106PD L 2783.79 202+
106PD B 0.0014 1 7.27 4
106PDS B EAV= 252 4
106PD G 2271.9 2 0.067 4 C
106PD L 2820.98 8 2+
106PD B 0.0087 4 6.39 3
106PDS B EAV= 237 4
106PD G 1258.8 2 0.028 4 C
106PD G 1687.4 3 0.027 6
106PD G 1693.2 3 0.032 6 C
106PD G 2309.0 1 0.276 7 C
106PD G 2821.1 3 0.059 2
106PD L 2828.29 9 0+
106PD B 0.0075 3 6.44 3
106PDS B EAV= 234 4
106PD G 1266.0 2 0.051 5 C
106PD G 2316.4 1 0.312 7 C
106PD L 2877.93 7 0+
106PD B 0.0271 11 5.77 3
106PDS B EAV= 215 4
106PD G 1315.7 2 0.17 1 C
106PD G 2366.04 7 1.14 3 C
106PD L 2902.49 102+
106PD B 0.0080 4 6.25 3
106PDS B EAV= 206 4
106PD G 1774.5 7 0.062 11 C
106PD G 2390.6 1 0.319 7 (M1+E2) -0.10 +7-10 C
106PD cG MR -0.02 {I8} (1977Ok03) |g|g(|q)
106PD G 2902.5 8 0.0032 10
106PD L 2917.84 8 2+
106PD B 0.0190 8 5.83 3
106PDS B EAV= 200 4
106PD G 1355.7 3 0.031 7 C
106PD G 1360.2 3 0.109 3 C
106PD G 1784.1 3 0.021 6
106PD G 2405.96 9 0.71 2 (M1+E2) -0.05 +2-5
106PD cG M |D|p=no from decay scheme
106PD cG MR from 1982Ka10. Other: -0.07 {I5} (1977Ok03)
106PD G 2917.9 3 0.045 2
106PD L 2968.69 203-
106PD B 0.00029 1 7.52 3
106PDS B EAV= 181 4
106PD G 2456.8 2 0.014 2 C
106PD L 3037.34 171,2
106PD B 0.0027 2 6.36 5
106PDS B EAV= 156 4
106PD G 1909.3 2 0.070 5
106PD G 2525.2 6 0.010 2 C
106PD G 3037.3 3 0.050 2
106PD L 3054.88 9 1+
106PD B 0.0102 3 5.73 3
106PDS B EAV= 150 4
106PD G 1498.8 2 0.33 2
106PD G 2542.7 1 0.145 4 [M1+E2] +0.07 7 C
106PD cG MR from 1982Ka10. Other: +0.01 {I7} (1977Ok03)
106PD G 3055.0 4 0.017 2
106PD L 3083.40 150
106PD B 0.0029 2 6.19 5
106PDS B EAV= 140 4
106PD G 1855.0 2 0.061 4
106PD G 1954.6 4 0.009 2
106PD G 2571.1 2 0.071 3 Q C
106PD L 3163.3 3 (1,2+)
106PD cL J if level is identical with adopted 3161.0 level then J=0 for
106PD2cL that level proposed from (2651|g)(512|g)(|q) in {+106}Rh |b{+-} decay
106PD3cL is in conflict with adopted J|p=(1,2+)
106PD B 0.00066 9 6.55 7
106PDS B EAV= 112 3
106PD G 2651.4 3 0.032 4 Q C
106PD G 3164.7 10 0.0014 7 ?
106PD cG E,RI if placement of this |g is correct then J=0 is excluded for
106PD2cG the 3163 level
106PD L 3221.39 240+
106PD B 0.0042 2 5.51 5
106PDS B EAV= 93 3
106PD G 2093.3 4 0.018 4 C
106PD G 2709.5 3 0.183 5 C
106PD L 3249.9 5 2+
106PD G 3249.8 5 0.0051 13
106PD L 3252.0 4 2+
106PD B 0.00025 5 6.5910
106PDS B EAV= 83 3
106PD G 2740.1 4 0.012 2 C
106PD L 3273.5 7 1,2
106PD G 3273.4 7 0.0025 11
106PD L 3299.2 7
106PD G 2787.3 7 0.0041 20 C
106PD L 3320.5 3 0+
106PD B 0.00095 8 5.63 7
106PDS B EAV= 61 3
106PD G 2185.7 5 0.012 3 ?
106PD cG E,RI if J|p=0+ for 3320 and 1133 level than 2185.7|g is impossible
106PD G 2809.0 3 0.034 2 C
106PD L 3376.6 9 ?
106PD cL E Observed only by 1977Ok02
106PD G 2865.0 10 0.0007 4 ?
106PD G 3375.9 14 0.0005510
106PD L 3401.9 6 ?
106PD cL E Observed only by 1977Ok02
106PD G 3401.8 9 0.00061 9