122TE 122I EC DECAY 1981NG04,1969GF01 07NDS 200704
122TE H TYP=FUL$AUT=T. TAMURA$CIT=NDS 108, 455 (2007)$CUT=30-Sep-2006$
122TE C The decay scheme is that proposed by 1981Ng04 and 1969Gf01
122TE C 1981Ng04: Ce(p,spallation) E(p)=660 MeV, chem, mass,
122TE2C {+122}Xe EC decay; semi |g, |g|g-coin
122TE C 1969Gf01: {+120}Te(|a,2n) {+122}Xe EC decay, {+122}Te(d,2n) no chem;
122TE2C semi |g, scin-semi |g|g-coin
122TE C 1987Gi09: {+122}Te(p,n) E(p)=7 MeV, magnetic electron transport with
122TE2C Si(Li), FWHM=4 keV, measured ICE, deduced E0.
122TE c 1987Wa17: {+93}Nb({+32}S,x), {+93}Nb({+34}S,x) E=160-175 MeV, measured
122TE2C I(ce), |g|g-coin, |g lin pol; deduced J|p, |g-branching, ICC
122TE C Others: |g, |g|g-coin (1969Sp07,1968La22,1970Ga32);
122TE2C |b{++} (1963Jh04,1954Ma75,1960Mo09,1951Yo06,1950Ma29,1965Bu03,
122TE3C 1977ReZK); |g|g(|q) (1963Jh04)
122TE CE TI $I(EC+B+)=81.9 {I2}(to g.s.) is calculated using
122TE2CE I|g(564.117|g)/I|g(|g{++-})=0.121 and I(|g{++-})=1.85 I(|b{++})
122TE3CE (1969Gf01) and theoretical EC/|b{++} ratios in the decay scheme
122TE CG E From 1981Ng04; 1037.7|g, 1940.4|g and 2793.2|g
122TE2CG (measured by 1969Gf01) are not observed by 1981Ng04
122TE CG E(A) Placed from 1257.4 keV level in the decay scheme of 1981Ng04,
122TE2CG but removed from the decay scheme, because the energy differs 0.45 keV
122TE3CG from the 1357.4-keV level, which decays to the GS by E0 transition
122TE4CG with the side E2 transition to the 564.1-keV, 2+ state.
122TE CG RI Relative to I(564.119|g)=100 (1981Ng04)
122TE CG TI(M) Calculated by Ice(E0)=Ice(K)(E0)|*(1+0.125) for a correction
122TE2CG of L- and M-shell contributions
122TE CG M E0 from 1987Wa17 and 1987Gi09, others from adopted gammas
122TE CG MR From adopted gammas
122TE CL E E(levels) are based on a least-squares fit to the
122TE2CL E(|g's) of 1981Ng04 (evaluator)
122TE CL J From adopted levels
122I P 0.0 1+ 3.63 M 6 4234 5
122TE N 0.18 5 0.18 5 1.0 1.0
122TE PN 3
122TE CN NR I|g(564.117|g)/I|g(|g{++-})=0.115
122TE2CN (1969Gf01) and theoretical |e/|b{++} ratios in the decay scheme. The
122TE3CN authors quote no uncertainty in I|g/I|g(|g{++-}). The evaluator assumes
122TE4CN that this ratio is accurate to 5%. The resulting uncertainty in the
122TE5CN normalization factor is then 28%. A 10% uncertainty in the
122TE6CN |g-ratio will lead to 50% uncertainty in normalization factor.
122TE G 1004.3 3 0.049 7
122TE G 1356.94 140.075 7 A
122TE G 1640.17 220.053 10
122TE G 1897.7 5 0.035 15
122TE G 1936.1 4 0.043 15
122TE G 2982.64 180.047 4
122TE G 3208.03 190.032 3
122TE G 3288.97 250.023 2
122TE L 0.0 0+
122TE E 67 5 15 1 4.95 4 82 6
122TES E EAV=1458.1 24$CK=0.1545 6$CL=0.02020 8$CM+=0.005324 21
122TE CE E E(|b{++})=3120 {I40} (1954Ma75)
122TE L 564.117 142+
122TE E 10 3 4.0 11 5.39 13 14 4
122TES E EAV=1195.3 24$CK=0.2421 10$CL=0.03170 14$CM+=0.00836 4
122TE G 564.119 17100 E2 0.00591 C
122TE CG M from ADOPTED GAMMAS
122TE L 1181.43 9 4+
122TE G 617.34 100.139 10E2 C
122TE L 1256.909 152+
122TE E 0.31 9 0.32 9 6.31 13 0.63 18
122TES E EAV=877.0 23$CK=0.4288 18$CL=0.05635 23$CM+=0.01486 6
122TE G 692.794 177.53 14M1+E2 -3.7 +11-7 C
122TE G 1256.901 191.56 4 E2
122TE L 1357.42 3 0+
122TE E 0.60 18 0.70 22 5.93 14 1.3 4
122TES E EAV=831.4 23$CK=0.4642 18$CL=0.06103 24$CM+=0.01610 7
122TE G 793.278 257.37 14E2 C
122TE G 1357.4 1 E0 0.0022 3 M
122TE CG TI$weighted average of Ice=0.0024 {I3} (1987Gi09) and 0.0015 {I5}
122TE2CG (1987Wa17)
122TE L 1752.85 6 2+
122TE E 0.023 7 0.058 16 6.88 13 0.081 23
122TES E EAV=653.1 23$CK=0.6148 20$CL=0.0811 3$CM+=0.02140 7
122TE G 1188.76 7 0.145 7 (M1+E2) +0.04 3
122TE G 1752.77 9 0.303 14E2
122TE L 1940.555 23 0+
122TE E 0.17 5 0.67 19 5.75 13 0.84 24
122TES E EAV=569.3 23$CK=0.6849 18$CL=0.09049 24$CM+=0.02389 7
122TE G 583.1 2 E0 0.0070 22M
122TE CG TI$average of Ice=0.0100 {I15} (1987Gi09) and 0.0040 {I11}
122TExCG (1987Wa17)
122TE G 683.647 194.42 9 C
122TE CG M |a(K)exp=0.0035 {I5} (1987Wa17)
122TE G 1376.40 6 0.211 8 C
122TE G 1940.6 2 E0 0.0044 5 M
122TE CG TI$weighted average of Ice=0.0045 {I6} (1987Gi09) and 0.0040 {I10}
122TE2CG (1987Wa17)
122TE L 2099.20 5 (2)+
122TE E 0.0078 22 0.048 14 6.83 13 0.056 16
122TES E EAV=499.0 22$CK=0.7379 16$CL=0.09767 21$CM+=0.02579 6
122TE G 1535.08 5 0.358 13M1+E2 +2.6 2 C
122TE L 2287.43 7 2+
122TE E 0.0035 10 0.041 12 6.83 13 0.044 13
122TES E EAV=416.1 22$CK=0.7890 12$CL=0.10469 17$CM+=0.02765 5
122TE G 1723.29 7 0.211 10M1+E2 C
122TE G 2287.5 3 0.031 6
122TE L 2297.4 4 (0+)
122TE E 0.0016 5 0.019 6 7.14 15 0.021 7
122TES E EAV=411.7 22$CK=0.7913 12$CL=0.10501 16$CM+=0.02774 5
122TE G 1733.64 110.119 9
122TE L 2311.05 4 (2)+
122TE E 0.027 8 0.34 10 5.89 13 0.37 11
122TES E EAV=405.7 22$CK=0.7943 11$CL=0.10543 16$CM+=0.02785 5
122TE G 953.37 150.086 8
122TE G 1129.71 170.068 12
122TE G 1746.93 4 1.85 4 C
122TE G 2310.8 5 0.028 8
122TE L 2407.92 5 (2)+
122TE E 0.0033 9 0.063 18 6.58 13 0.066 19 ?
122TES E EAV=363.4 22$CK=0.8136 9$CL=0.10815 13$CM+=0.02857 4
122TE G 1843.83 5 0.566 17 M1+E2 +2 +4-1 C
122TE L 2508.51 9 (2)+
122TE E 0.0013 4 0.039 12 6.74 13 0.040 12 ?
122TES E EAV=319.5 22$CK=0.8291 7$CL=0.1104 1$CM+=0.02918 3
122TE G 1944.38 8 0.222 10 M1+E2 +1.6 +6-3 C
122TE L 2593.87 7 2+
122TE E 0.0010 3 0.052 16 6.57 14 0.053 16
122TES E EAV=282.3 22$CK=0.8388 5$CL=0.11189 8$CM+=0.02958 2
122TE G 1337.01 110.091 9
122TE G 2029.71 8 0.186 13 C
122TE G 2593.2 7 0.020 6
122TE L 2719.29 7 1,2+
122TE E 0.0004714 0.056 16 6.47 13 0.056 16
122TES E EAV=227.7 22$CK=0.8481 3$CL=0.11344 5$CM+=0.03000 2
122TE G 2155.15 9 0.165 9 C
122TE G 2719.27 110.148 5
122TE L 2756.42 4 0+,1+,2+
122TE E 0.0027 8 0.43 12 5.56 13 0.43 12
122TES E EAV=211.6 22$CK=0.8499 3$CL=0.11378 5$CM+=0.03009 2
122TE G 1499.50 4 0.882 20 C
122TE G 2192.29 5 1.48 4 C
122TE L 2911.01 141+,2+
122TE E 2.0E-5 6 0.017 5 6.86 13 0.017 5
122TES E EAV=144.1 24$CK=0.8537$CL=0.11479 3$CM+=0.030379 8
122TE G 2346.87 140.096 8 C
122TE L 3044.89 101+,2+
122TE E 0.032 10 6.49 14 0.032 10
122TES E CK=0.8540$CL=0.11538 2$CM+=0.030555 7
122TE G 945.78 230.046 8
122TE G 2480.74 150.101 13M1(+E2) -1 +1-13 C
122TE G 3044.81 160.032 4
122TE L 3052.07 13 0+,1,2
122TE E 0.020 7 6.69 16 0.020 7
122TES E CK=0.8540$CL=0.11541 2$CM+=0.030564 7
122TE G 1795.09 160.057 10
122TE G 2488.02 200.055 15 C
122TE L 3149.62 9 0+,1,2
122TE E 0.044 13 6.27 13 0.044 13
122TES E CK=0.8535$CL=0.11583 3$CM+=0.030694 8
122TE G 2585.47 8 0.243 8 C
122TE L 3302.59 130+,1,2
122TE E 0.012 4 6.70 15 0.012 4 ?
122TES E CK=0.8524$CL=0.11666 4$CM+=0.03095 1
122TE G 2738.44 130.065 4 C
122TE L 3483.48 10 1,2+
122TE E 0.031 9 6.09 13 0.031 9
122TES E CK=0.8505$CL=0.11811 5$CM+=0.03140 2
122TE G 2226.59 120.084 6
122TE G 2919.25 180.090 5
122TE L 3590.89 7 1+,2+
122TE E 0.052 15 5.73 13 0.052 15
122TES E CK=0.8488 1$CL=0.11938 7$CM+=0.03179 3
122TE G 1183.00 5 0.198 10
122TE G 2232.74 200.061 5
122TE2 G FL=1357.42
122TE CG E$ Poor fit. Level-energy difference=2233.45
122TE G 2334.4 4 0.031 6