125TE 125SB B- DECAY 1998SA55,1976WA13,1990ME1511NDS 201102
125TE H TYP=FUL$AUT=J. KATAKURA$CIT=NDS 112, 495 (2011)$CUT=1-Jan-2010$
125TE c The decay scheme is from 1998Sa55,1999Sa73
125TE c 1998Sa55,1999Sa73: HPGe, |g; mini-orange spectrometer, Ice
125TE c 1998Ro20: |g|g(|q), mixing ratio
125TE c 1997De38: HPGe, |g|g(|q), mixing ratio
125TE c 1993Fa02: HPGe |g
125TE c 1992De26: Plastic scin |b|g(t)
125TE c 1992Sm02: Semi |g, 4|p|b-|g coin
125TE c 1991Go22: Mini-orange spectrometer, Ice
125TE c 1990Me15: HPGe |g
125TE c 1990He05: HPGe |g
125TE c 1990Lo03: Semi |g, 4|p|b-|g coin
125TE c 1984Iw03: Semi |g
125TE c 1983Si14: Semi |g, |g|g(|q)
125TE c 1976Wa13: Compton-suppression spectrometer
125TE c 1972Sa08: Plastic scin |b|g(t)
125TE c 1970Ma20: Mag spect |bce(t), (ce)(ce)(t)
125TE c 1968Ko08: Plastic scin |b|g-coin, |b|g(t)
125TE c 1966Ma49: Magnetic spectrograph ce
125TE c Others: semi |g: 1968In01, 1968St16, 1969Au09, 1970Na12, 1971Ma08,
125TE2c 1973Gu10, 1977Ar10, 1979Pr08, 1977Ge12, 1980Ro22, 1988RaZM 1992ScZZ;
125TE3c magnetic spectrograph ce: 1959Na06; semi ce: 1970Na12;
125TE4c |g|g(|q): 1964In02, 1968In01, 1969Kn03, 1969Si05, 1970Ba69, 1970Cr07,
125TE5c 1970Wy01, 1971Ba44, 1971Ro17, 1971Wy02, 1972Ba12; oriented nuclei
125TE6c |g(|q): 1968An05, 1968St16, 1971Kr11; liquid scin branching ratio:
125TE7c 1998Gr13; recommended standard: 1979He19, 2000He14
125TE DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
125TE tG
125TE2tG |g|g(|q) data
125TE3tG
125TE4tG ------------------------------------------------------------
125TE5tG cascade A{-2} A{-4} ref
125TE6tG ------------------------------------------------------------
125TE7tG 204 - 176 -0.471 {I11} 1997De38
125TE8tG -0.405 {I12} 0.032 {I46} 1998Ro20
125TE9tG 321 - 176 -0.144 {I13} 1997De38
125TEAtG -0.144 {I12} 0.00 {I1} 1998Ro20
125TEBtG 166 - 204 -0.41 {I2} 0.04 {I4} 1998Ro20
125TECtG ------------------------------------------------------------
125TEDtG
125TE cG E(A) From 1990He05
125TE cG E(B) Values recommended by 2000He14
125TE cG E(C) Given in table 7 of 2000He14 but not in their table of
125TE2cG recommended values
125TE cG E(D),RI(D)$Seen only by 1998Sa55
125TE cG E(E) From 1990Me15
125TE cG E(F) From 1983Si14. Uncertainty is not given by author.
125TE2cG 0.5 keV uncertainty is assumed by evaluator.
125TE cG RI Weighted av from 1990Lo03, 1990He05, 1990Me15, 1992Sm02,
125TE2cG 1993Fa02 and 1998Sa55, unless otherwise noted
125TE cG M From |a(exp) and |g|g(|q), unless otherwise noted
125TE cG MR From adopted gammas, unless otherwise indicated
125TE cG CC |a(K)exp and K/L from weighted av of Ice's
125TE2cG (1966Ma49, 1991Go22 and 1998Sa55) and the adopted I(|g's) if
125TE3cG |a(K)(463.4|g)=0.008610(E2), unless otherwise noted. L1:L2:L3
125TE4cG values are from 1966Ma49
125TE cL E From a least-squares fit (by evaluators) to E|g's
125TE cL J From adopted levels
125SB P 0.0 7/2+ 2.75856 Y 25 766.7 21
125TE N 0.296 3 1.0
125TE cN NR$from |S((I(|g+ce) to g.s.+144.8 level))=100-13.6% {I9}, with
125TE2cN I(|g+ce)(35|g) deduced from feeding to the 35 level.
125TE PN 3
125TE G 58.43 5 0.042 20 D
125TE cG E Not placed in the level scheme.
125TE2cG But also reported in 1983Si14 and 1993Fa02. 1983Si14 proposed
125TE3cG the transition from 729 keV to 671-keV level.
125TE L 0.0 1/2+ STABLE
125TE L 35.491 33/2+ 1.482 NS 8
125TE cL T From adopted levels
125TE G 35.489 5 14.78 3 M1+E2 0.031 3 13.69 AC
125TES G KC=11.70 17$LC=1.596 25$MC=0.319 5$NC+=0.0697 11
125TES G NC=0.0630 10$OC=0.00674 10
125TE cG RI From intensity balance. Experimental value is 15.2 {I10}
125TE cG M From {+125}I |e decay
125TE cG |a(L)exp=1.70 {I17}, L1:L2:L3=100:9.3:1.9
125TE L 144.7761111/2- 57.40 D 15 M
125TE2 L %IT=100
125TE cL T From adopted levels
125TE B 13.6 9 9.77 3 1U
125TES B EAV=215.47 78
125TE cB IB From 1998Gr13; others: 13.4% (1959Na06),13.7% (1964Ma30),
125TE2cB determined from a F-K plot
125TE cB E 621 {I2} determined from spectrum with |DJ=2-yes shape.
125TE2cB Value from weighted average of 619 {I3} (1959Na06), 623 {I3}
125TExcB (1964Ma30), 621 {I3} (1966Ma49)
125TE L 321.090119/2- 0.672 NS 13
125TE cL T From weighted average of |b|g(t), |bce(t):
125TE2cL 0.695 ns {I15} (1968Ko08), 0.68 ns {I3} (1969Ho42), 0.76
125TE3cL ns {I2} (1970Be47), 0.68 ns {I3} (1970Ma20), 0.65 ns {I3} (1970Be51),
125TE4cL 0.704 ns {I21} (1972Sa33), 0.67 ns {I4} (1972Be21), 0.647 ns {I8}
125TExcL (1992De26); Other: 0.87 ns {I8} (1966In02)
125TE B 7.18 8 9.342 9
125TES B EAV=134.50 73
125TE cB E 444 {I8} from 1966Ma49
125TE G 176.314 2 23.11 5 M1+E2 -0.60 2 0.164 3 BC
125TES G KC=0.1376 21$LC=0.0216 5$MC=0.00437 9$NC+=0.000936 19
125TES G NC=0.000850 17$OC=8.57E-5 16
125TE cG MR Weighted av from -0.58 {I7} (1997De38), -0.59 {I2} (1998Ro20)
125TE2cG and -0.62 {I3} (from the L subshell ratios and the sign from alignment
125TE3cG measurement (1972Ke19))
125TE cG |a(K)exp=0.138 {I10}, K/L=6.5 {I5}, L1:L2:L3=100:23.8:18.6
125TE L 402.09 47/2+
125TE B 0.0222 11 11.562 23
125TES B EAV=106.97 70
125TE G 81.02 4 0.017 1 E1 0.354 D
125TES G KC=0.304 5$LC=0.0402 6$MC=0.00796 12$NC+=0.001697 24
125TES G NC=0.001541 22$OC=0.0001558 22
125TE cG |a(K)exp=0.47 {I11}
125TE G 366.56 110.027 2 D
125TE G 401.95 120.021 2 [M3] 0.193 D
125TES G KC=0.1600 23$LC=0.0268 4$MC=0.00552 8$NC+=0.001200 17
125TES G NC=0.001086 16$OC=0.0001137 16
125TE L 443.554 63/2+ 19.1 PS 6
125TE cL T From adopted levels.
125TE2cL Other: |< 100 ps |bce(t) (1970Ma20)
125TE B 0.052 13 11.02 11
125TES B EAV=93.34 69
125TE G 408.065 100.623 6 M1+E2 +1.50 7 0.01500 AC
125TES G KC=0.01278 18$LC=0.00179 3$MC=0.000359 5$NC+=7.75E-5 11
125TES G NC=7.02E-5 10$OC=7.30E-6 11
125TE cG |a(K)exp=0.0169 {I12}
125TE G 443.555 9 1.035 6 M1+E2 -2.3 1 0.01169 CC
125TES G KC=0.00995 14$LC=0.001398 20$MC=0.000281 4$NC+=6.06E-5 9
125TES G NC=5.49E-5 8$OC=5.69E-6 8
125TE cG |a(K)exp=0.011 {I3}
125TE L 463.365 35/2+ 13.2 PS 5
125TE cL T From adopted levels. Others: 19 ps {I3} |b|g(t)
125TE2cL (1970Be47), 14 ps {I6} |bce(t) (1970Ma20), 26 ps {I8} |b|g(t)
125TExcL (1972Sa08)
125TE B 40.3 4 8.041 11
125TES B EAV=86.94 68
125TE cB E 302 {I4} from 1966Ma49
125TE G 19.80 6 0.069 3 [M1] 10.93 19
125TES G LC=8.79 15$MC=1.76 3$NC+=0.384 7
125TES G NC=0.346 6$OC=0.0373 7
125TE cG E From 1998Sa55
125TE G 427.874 4 100 M1+E2 -0.538 11 0.01360 BC
125TES G KC=0.01172 17$LC=0.001511 22$MC=0.000302 5$NC+=6.59E-5 10
125TES G NC=5.95E-5 9$OC=6.40E-6 9
125TE cG |a(K)exp=0.0114 {I3}, K/L=7.3 {I5}, L1:L2:L3=100:12.7:7.6
125TE G 463.365 4 35.45 10E2 0.01014 BC
125TES G KC=0.00861 12$LC=0.001226 18$MC=0.000246 4$NC+=5.31E-5 8
125TES G NC=4.81E-5 7$OC=4.96E-6 7
125TE cG K/L=7.4 {I3}, L1:L2:L3=100:16.9:12.5
125TE L 525.227 97/2- 160 PS LE
125TE cL T From |b|g(t) (1968Ko08). Other: |<500 ps |bce(t) (1970Ma20)
125TE B 1.609 19 9.120 14
125TES B EAV=67.48 65
125TE G 61.85 160.007 3 [E1] 0.750 12 D
125TES G KC=0.641 10$LC=0.0875 14$MC=0.0173 3$NC+=0.00367 6
125TES G NC=0.00334 6$OC=0.000331 6
125TE G 204.138 101.070 21M1+E2 +1.60 3 0.1270 19 CC
125TES G KC=0.1039 15$LC=0.0185 3$MC=0.00377 6$NC+=0.000796 12
125TES G NC=0.000726 11$OC=7.00E-5 11
125TE cG MR Weighted av from +1.3 {I2} (1997De38), +1.74 {I9} (1998Ro20)
125TE2cG and +1.60 {I2} (1998Ro20)
125TE cG |a(K)exp=0.090 {I10}
125TE G 380.452 8 5.124 19E2 0.0182 AC
125TES G KC=0.01537 22$LC=0.00230 4$MC=0.000465 7$NC+=9.95E-5 14
125TES G NC=9.04E-5 13$OC=9.15E-6 13
125TE cG |a(K)exp=0.0142 {I6}, K/L=6.8 {I5}
125TE G 489.73 8 0.0046 23 D
125TE L 538.60 5(1/2+)
125TE G 503.10 6 0.013 6 D
125TE G 538.62 120.0047 25 D
125TE L 636.090 47/2+ 40 PS 20
125TE cL T From |bce(t) (1970Ma20). Others: |<160 ps |b|g(t) (1968Ko08),
125TE2cL |<70 ps |b|g(t) (1992De26)
125TE B 17.88 19 7.233 23
125TES B EAV=34.74 60
125TE G 110.895 120.0035 4 [E1] 0.1468 E
125TES G KC=0.1266 18$LC=0.01628 23$MC=0.00323 5$NC+=0.000692 10
125TES G NC=0.000628 9$OC=6.46E-5 9
125TE cG |a(K)exp=1.11 {I24}
125TE G 172.719 8 0.646 24M1(+E2) -0.004 8 0.1484 AC
125TES G KC=0.1280 18$LC=0.01642 23$MC=0.00328 5$NC+=0.000719 10
125TES G NC=0.000649 9$OC=7.04E-5 10
125TE cG |a(K)exp=0.096 {I8}
125TE G 314.95 110.0136 16(E1) E
125TES G CC=0.00833 12$KC=0.00723 11$LC=0.000891 13$MC=0.0001766 25$NC+=3.85E-5
125TES G NC=3.47E-5 5$OC=3.71E-6 6
125TE cG |a(K)exp=0.043 {I9}
125TE G 491.29 140.016 8 D
125TE G 600.597 2 59.62 16E2 BC
125TES G CC=0.00494 7$KC=0.00423 6$LC=0.000571 8$MC=0.0001143 16$NC+=2.48E-5 4
125TES G NC=2.24E-5 4$OC=2.36E-6 4
125TE cG |a(K)exp=0.00418 {I13}, K/L=7.4 {I4}, L1:L2:L3=100:12.3:9.4
125TE L 642.204 47/2+ 70 PS LE
125TE cL T From |b|g(t) (1992De26). Other: |<600 ps |bce(t) (1970Ma20)
125TE B 5.75 7 7.661 24
125TES B EAV=33.02 59
125TE G 116.955 110.887 9 E1 0.1264 EC
125TES G KC=0.1090 16$LC=0.01398 20$MC=0.00277 4$NC+=0.000595 9
125TES G NC=0.000539 8$OC=5.56E-5 8
125TE cG |a(K)exp=0.081 {I7}
125TE cG E 1998Sa55 report 116.956 {I16}
125TE G 178.842 5 0.114 8 M1+E2 0.18 5 A
125TES G KC=0.15 3$LC=0.026 11$MC=0.0052 23$NC+=0.0011 5
125TES G NC=0.0010 5$OC=0.00010 4
125TE cG |a(K)exp=0.140 {I23}
125TE G 198.654 110.0432 20[E2] 0.1534 AC
125TES G KC=0.1233 18$LC=0.0241 4$MC=0.00493 7$NC+=0.001032 15
125TES G NC=0.000944 14$OC=8.85E-5 13
125TE G 321.04 4 1.404 9 E1(+M2) -0.003 13 EC
125TES G CC=0.00793 12$KC=0.00688 10$LC=0.000847 13$MC=0.0001680 25$NC+=3.66E-5
125TES G NC=3.30E-5 5$OC=3.53E-6 6
125TE cG |a(K)exp=0.011 {I7}
125TE cG MR From 1998Ro20
125TE G 497.37 120.0108 12[M2] 0.0312 E
125TES G KC=0.0267 4$LC=0.00364 6$MC=0.000733 11$NC+=0.0001607 23
125TES G NC=0.0001450 21$OC=1.566E-5 22
125TE cG E 1998Sa55 report 497.41 {I14}
125TE G 606.713 3 16.83 6 E2 BC
125TES G CC=0.00481 7$KC=0.00412 6$LC=0.000555 8$MC=0.0001111 16$NC+=2.41E-5 4
125TES G NC=2.18E-5 3$OC=2.29E-6 4
125TE cG M From |a(K)exp=0.00383 {I17}, K/L=5.7 {I5}
125TE L 652.90 5(5/2)
125TE B 0.055 3 9.56 4
125TES B EAV=30.03 59
125TE G 209.32 9 0.152 9 D
125TE G 331.82 6 0.0085 8 D
125TE G 617.40 140.018 2 D
125TE G 652.8 4 0.009 3 D
125TE L 671.443 45/2+ 1.26 PS 6
125TE cL T From adopted levels. Other: 40 ps {I15} |bce(t)
125TExcL (1970Ma20)
125TE B 13.42 17 6.93 3
125TES B EAV=24.91 58
125TE G 132.81 140.0029 19[E2] 0.624 D
125TES G KC=0.471 7$LC=0.1225 18$MC=0.0254 4$NC+=0.00522 8
125TES G NC=0.00480 7$OC=0.000424 7
125TE G 208.077 5 0.837 14M1+E2 +0.105 14 0.0901 CC
125TES G KC=0.0777 11$LC=0.00999 15$MC=0.00199 3$NC+=0.000437 7
125TES G NC=0.000394 6$OC=4.27E-5 6
125TE cG |a(K)exp=0.086 {I5}
125TE G 227.891 100.443 6 (M1+E2) 0.083 13 AC
125TES G KC=0.069 9$LC=0.011 4$MC=0.0022 7$NC+=0.00047 14
125TES G NC=0.00043 13$OC=4.3E-5 10
125TE cG |a(K)exp=0.101 {I6}
125TE G 635.950 3 37.9 3 M1+E2 +0.332 3 BC
125TES G CC=0.00515 8$KC=0.00446 7$LC=0.000553 8$MC=0.0001100 16$NC+=2.42E-5 4
125TES G NC=2.18E-5 3$OC=2.37E-6 4
125TE cG |a(K)exp=0.00428 {I17}, K/L=7.9 {I4}, L1:L2:L3=100:12.8:7.1
125TE G 671.441 6 6.049 19E2 B
125TES G CC=0.00371 6$KC=0.00318 5$LC=0.000421 6$MC=8.41E-5 12$NC+=1.83E-5 3
125TES G NC=1.652E-5 24$OC=1.748E-6 25
125TE cG |a(K)exp=0.00333 {I16}, K/L=8.8 {I9}
125TE L 728.8 53/2+
125TE B 0.000069LT 11.0 GT ?
125TES B EAV=9.63 56
125TE G 693.3 5 0.00031 LT F ?
125TE cG RI From 1976Wa13. Other: 0.0015 {I6} (1983Si14).