124TE 124SB B- DECAY (60.20 D) 1993GO10,2006Pa16,1988YO0508NDS 200807
124TE H TYP=FUL$AUT=J. KATAKURA, Z.D. WU$CIT=NDS 109, 1655 (2008)$
124TE2 H CUT=1-Apr-2008$
124TE c 1993Go10: E|g, I|g, |g|g coin, |g|g(|q); deduced mixing ratio,
124TE2c decay scheme
124TE c 2006Pa16: {+123}Sb(n,|g); E|g, I|g, |g|g coin; HPGe and Si(Li);
124TE2c deduced decay scheme
124TE c 1988Yo05: E|g, I|g, |g|g coin, deduced decay scheme
124TE c 1969Au01: E|g, I|g, |g|g coin; deduced levels
124TE c 1969BeZE: measured E(ce) and Ice
124TE c 1969Me04: {+123}Sb(n,|g); E|g, I|g; |g|g coin Compton-suppressed Ge
124TExc spectrometer
124TE c 1978LeZA: E|g, I|g listed in appendices as reported by R. A. Meyer
124TE c 1979Gr01: precise E|g values in reference with {+198}Au 411.8-keV |g
124TE c 1974Jo03: E|g, I|g, E|b, ce; |b|g coin, |g|g coin; deduced decay scheme
124TE c 1983Ro13: oriented nuclei; |g(|q); deduced J|p. Also {+123}Te (n,|g)
124TE2c |g|g(|q)
124TE c 1984Ma13: E|g, I|g, |g|g coin; IBM model
124TE c 1984Iw03: E|g, I|g
124TE c 1990Su10: E|g, I|g, |g|g coin, |g|g(|q); deduced mixing ratio, decay
124TExc scheme
124TE c The decay scheme is those proposed by 1993Go10 and 2006Pa16 on the
124TE2c basis of E|g sums and previously established cascade relations.
124TE3c The 2039 keV level has doublet structure according to 2000Do11.
124TE4c 2006Pa16 reported 14 new gamma-rays and 5 additional levels
124TE5c based on the new gamma-rays. However, the proposed levels at 2020,
124TE6c 2490, 2747, 2835 and 2859 keV are based on only weak new gamma-rays
124TE7c and Ritz combination. Further confirmation would be needed.
124TE c The new gamma-rays in 2006Pa16 are following: 592.73 {I5} (0.014 {I2}),
124TE2c 743.20 {I8} (0.0058{I11}), 795.310 {I15} (0.0368 {I11}),
124TE3c 1418.60 {I12} (0.005{I2}), 1509.63 {I15} (0.008 {I1}),
124TE4c 2145.06 {I3} (0.00068{I3}), 2204.260 {I13} (0.0310 {I6}),
124TE5c 2232.41 {I5} (0.001{I3}), 2256.49 {I12} (0.0006 {I2}),
124TE6c 2373.8 {I6} (0.0009{I3}), 2386.1 {I16} (0.00024 {I2}),
124TE7c 2490.60 {I20} (0.002{I1}), 2515.2 {I32} (0.00049 {I1}),
124TE8c 2746.18 {I25} (0.001{I1}), 1814.4 {I4} (0.0035 {I2}).
124TE tB |b-|g circular polarization:
124TE2tB 1) 615|b-1691.02|g: 1965Bh03, 1965Ma06, 1965Ti04, 1970Be16, 1
124TE+tB 97
124TE+tB 0Pi03.
124TE3tB 2) 2305|b-602.72|g: 1960Ha07, 1961Al01, 1965Ca08, 1973Sm07, 1
124TE+tB 97
124TE+tB 8Pr06.
124TE cB The sign of circular polarization
124TE2cB was found to be positive between
124TE3cB |q(|b-|g)=90|' and 180|'.
124TE4cB However, 1961Al01 reported that the
124TE5cB R polarization becomes
124TE6cB negative at 150|'.
124TE tG
124TE2tG |g|g(|q) in {+124}Sb |b{+-} decay (60.20 d):
124TE3tG
124TE4tG -----------------------------------------------------------------------
124TE5tG cascade A{-2} A{-4} references
124TE6tG -----------------------------------------------------------------------
124TE7tG 646-603 0.099 {I5} 0.007 {I8} 1971Gr14
124TE8tG 0.121 {I25} 0.01 {I3} 1971Gr14
124TE9tG 0.095 {I11} 0.003 {I11} 1972Ba38
124TEAtG 0.100 {I5} 0.005 {I10} 1976Be03
124TEBtG 0.110 {I5} 0.019 {I7} 1993Go10
124TECtG 723-603 0.130 {I15} 0.295 {I20} 1971Gr14
124TEDtG 0.152 {I8} 0.304 {I12} 1971Gr14
124TEEtG 0.136 {I9} 0.270 {I15} 1972Ba38
124TEFtG 0.101 {I5} 0.283 {I7} 1979Sh08
124TEGtG 0.114 {I5} 0.285 {I8} 1990Su10
124TEHtG 0.128 {I6} 0.245 {I9} 1993Go10
124TEItG 709-(646)-603 0.23 {I6} 0.04 {I8} 1993Go10
124TEJtG 709-646 0.187 {I17} 0.01 {I3} 1971Gr14
124TEKtG 0.19 {I2} -0.02 {I3} 1976Be03
124TELtG 0.21 {I12} -0.01 {I14} 1993Go10
124TEMtG 1356-603 0.08 {I13} 0.03 {I17} 1993Go10
124TENtG 714-(723)-603 0.094 {I25} -0.04 {I3} 1993Go10
124TEOtG 714-723 0.220 {I15} -0.03 {I3} 1971Gr14
124TEPtG 0.220 {I19} 0.00 {I3} 1972Ba38
124TEQtG 0.143 {I14} 0.042 {I17} 1979Sh08
124TERtG 0.201 {I15} 0.040 {I19} 1990Su10
124TEStG 791-(646)-603 0.31 {I7} -0.11 {I9} 1979Sh08
124TETtG 0.10 {I6} -0.12 {I8} 1993Go10
124TEUtG 791-645 0.28 {I3} -0.19 {I4} 1993Go10
124TEVtG 1437-603 -0.24 {I6} 0.34 {I10} 1972Ba38
124TEWtG -0.11 {I6} -0.21 {I9} 1993Go10
124TEXtG 1489-603 0.15 {I8} 0.23 {I11} 1972Ba38
124TEYtG 968-(723)-603 0.07 {I4} -0.06 {I5} 1979Sh08
124TEZtG 968-723 0.06 {I3} -0.02 {I3} 1972Ba38
124TE2tG 0.043 {I12} -0.015 {I15} 1979Sh08
124TE3tG 0.045 {I11} -0.015 {I16} 1990Su10
124TE4tG 0.028 {I2} -0.030 {I2} 1993Go10
124TE5tG 1691-603 -0.064 {I20} -0.005 {I25} 1971Gr14
124TE6tG -0.060 {I6} 0.000 {I8} 1971Gr14
124TE7tG -0.068 {I5} -0.011 {I11} 1972Ba38
124TE8tG -0.061 {I7} 0.009 {I16} 1979Sh08
124TE9tG -0.062 {I11} 0.010 {I13} 1990Su10
124TEAtG -0.065 {I11} -0.009 {I14} 1993Go10
124TEBtG 1045-(646)-603 -0.17 {I3} -0.05 {I5} 1972Ba38
124TECtG -0.11 {I4} -0.06 {I6} 1979Sh08
124TEDtG -0.135 {I20} 0.04 {I3} 1993Go10
124TEEtG 1045-646 -0.10 {I3} -0.04 {I4} 1993Go10
124TEFtG 1376-723 -0.03 {I6} -0.06 {I7} 1993Go10
124TEGtG 1368-(723)-603 -0.01 {I8} 0.04 {I11} 1993Go10
124TEHtG 1368-723 0.08 {I5} 0.02 {I6} 1972Ba38
124TEItG 0.073 {I18} -0.025 {I21} 1979Sh08
124TEJtG 0.075 {I18} -0.028 {I20} 1990Su10
124TEKtG 1445-646 -0.16 {I7} 0.02 {I9} 1993Go10
124TELtG 1526-646 0.22 {I5} -0.02 {I7} 1993Go10
124TEMtG 2091-603 -0.069 {I15} 0.004 {I20} 1971Gr14
124TENtG -0.067 {I12} -0.038 {I18} 1972Ba38
124TEOtG -0.062 {I11} 0.015 {I17} 1990Su10
124TEPtG -0.047 {I5} 0.009 {I16} 1993Go10
124TEQtG -----------------------------------------------------------------------
124TERtG
124TE cG $ Nuclear orientation: 1983Ro13: 445|g, 709|g, 714|g,
124TE2cG 723|g, 968|g, 1045|g, 1370|g, 1445|g, 1489|g, 1528|g, 2092|g.
124TE cG $ |g|g-linear polarization: 1952Kl39, 1976Be03.
124TE cG $ Nuclear alignment: 1970Si17
124TE cL E E(levels) are based on a least-squares fit to
124TE2cL the E|g's (evaluators)
124TE cL E(A) Doublet
124TE cL J From adopted levels.
124TE cG RI Average from 2006Pa16, 1993Go10, 1988Yo05, 1984Iw03,
124TE2cG 1984Ma13 and 1990Me15
124TE cG E Average from 2006Pa16, 1993Go10, 1988Yo05 and 1990Me15 (or
124TE2cG 1969Me04)
124TE cG E(A) From 2000He14
124TE cL E(B) T{-1/2}=100 ps {I5} from |b-|g(centroid shift) (1971BeWP),
124TE2cL but inconsistent with 0.17 ps {I6} from Coulomb excitation
124TE cL E(C) Placement by evaluators considering unplaced |g's of 530 and
124TE2cL 572 keV in 2006Pa16, 1993Go10 and 1988Yo05.
124TE3cL Intensity ratio of these |g's is consistent with that of (n,|g).
124TE cG M From |a(K)exp and |g|g(|q), unless otherwise noted;
124TE2cG |a(K)exp's are calculated using weighted mean values of Ice(K)'s
124TE3cG of 1968Gr24 and 1974Jo03 and I|g's of 1993Go10
124TE4cG normalizing so that |a(K)exp(602.72|g)=0.00420 (E2 theory);
124TE5cG |a's in table are |a theory from 1968Ha53
124TE cG MR From nuclear orientation (1983Ro13), unless otherwise noted
124TE N 0.9779 220.9779 221.0 1.
124TE cN NR From level scheme
124TE PN 3
124SB P 0.0 3- 60.20 D 3 2904.3 15
124TE L 0.0 0+
124TE L 602.7278 212+
124TE B 2301 4 23.2 3 10.251 6
124TES B EAV=918.30 69
124TE cB E|b, I|b: 2270 {I10} (1952Hu48); 2317 {I5}, 21%, 1-yes shape
124TE2cB (1953La35); 2305 {I10}, 22%, 1-yes shape (1954Mo83); 2390, 22%,
124TE3cB 1-yes shape (1955Az29); 2311 {I6}, 28%, 1-yes shape (1956Zo06); 2305
124TE4cB {I5}, 1-yes shape (1965Hs02); 2301 {I4}, 1-yes shape (1966Ca10);
124TE5cB 2302, 1-yes shape (1969Na05)
124TE G 602.7260 23100.00 23E2 0.00490 AC
124TES G KC=0.00420 6$LC=0.000566 8$MC=0.0001132 16$NC+=2.45E-5 4
124TES G NC=2.22E-5 4$OC=2.33E-6 4
124TE L 1248.582 34+
124TE B 2.57 13 10.633 22
124TES B EAV=627.02 67
124TE G 645.8520 197.588 24E2 0.00409 AC
124TES G KC=0.00351 5$LC=0.000467 7$MC=9.35E-5 13$NC+=2.03E-5 3
124TES G NC=1.84E-5 3$OC=1.94E-6 3
124TE cG |a(K)exp=0.0035 {I5}
124TE cG MR +0.003 {I6} for E2+M3 from averaged A{-2} and A{-4} values
124TE2cG of |g|g(|q).
124TE3cG others: +0.013 {I9} (1993Go10), +0.000 {I1} (1972Ba38,1976Be03)
124TE L 1325.512 32+
124TE B 1590 104.88 5 10.273 5
124TES B EAV=593.08 66
124TE cB E|b, I|b: 1602 {I10}, 7% (1953La35); 1600 {I20}, 7%
124TE2cB (1954Mo83); 1680, 6% (1955Az29); 1590 {I10}, 10%, F-K plot linear
124TExcB (1956Zo06)
124TE G 722.782 3 11.00 4 M1+E2(+E0)-3.4 3 0.00314 AC
124TES G KC=0.00271 4$LC=0.000352 5$MC=7.02E-5 10$NC+=1.529E-5 22
124TES G NC=1.382E-5 20$OC=1.471E-6 22
124TE cG |a(K)exp=0.00246 {I16}
124TE cG MR others: +3.74 {I12} (1993Go10) (the sign seems to be
124TE2cG mistyped), -3.3 {I2} (1972Ba38),
124TE3cG -3.4 {I1} (1971Gr14), M1+E2(93% {I5}) (1979Sh08), M1+E2(93.5% {I6})
124TExcG (1990Su11)
124TE G 1325.504 4 1.616 15E2 8.27E-4 AC
124TES G KC=0.000693 10$LC=8.48E-5 12$MC=1.685E-5 24$NC+=3.16E-5 5
124TES G NC=3.33E-6 5$OC=3.62E-7 5$IPC=2.79E-5 4
124TE cG |a(K)exp=0.00078 {I8}
124TE L 1656.6 30+
124TE B 0.0057 20 12.81 16 ?
124TES B EAV=449.71 65
124TE G 1053.8 3 0.005 2 E2 1.29E-3
124TES G KC=0.001117 16$LC=0.0001394 20$MC=2.77E-5 4$NC+=6.06E-6 9
124TES G NC=5.47E-6 8$OC=5.90E-7 9
124TE cG M from |a(K)exp and |g|g(|q) in (n,|g)
124TE G 1657 E0 0.0008 4
124TE cG TI from Ice(K)/Ice(602K)=0.2/100 (1974Jo03)
124TE L 1957.915 164+
124TE B 930 152.144 20 9.790 5
124TES B EAV=324.46 61
124TE cB E|b, I|b: 966 {I10}, 9% (1953La35); 940 {I20}, 9% (1954Mo83);
124TE2cB 1070, 4% (1955Az29); 930 {I15}, 4% assumed F-K plot linear (1956Zo06)
124TE G 632.489 190.107 1
124TE G 709.34 5 1.384 12M1+E2(+E0)-0.18 5 0.00402 C
124TES G KC=0.00349 5$LC=0.000429 7$MC=8.53E-5 13$NC+=1.87E-5 3
124TES G NC=1.689E-5 25$OC=1.85E-6 3
124TE cG |a(K)exp=0.0038 {I3}
124TE cG MR others: -0.8 {I+3-4} (1993Go10; 709-646-603 cascade),
124TE2cG -1.0 {I+6-8} (1993Go10; 709-646 cascade), +0.04 {I+3-5} (1971Gr14),
124TE3cG +0.02 {I+6-7} (1976Be03)
124TE G 1355.20 5 1.061 13E2(+M3) -0.32 +25-180.0011 4 C
124TES G KC=0.0009 3$LC=0.00011 4$MC=2.3E-5 8$NC+=3.72E-5 19
124TES G NC=4.5E-6 16$OC=4.9E-7 17$IPC=3.2E-5 4
124TE cG |a(K)exp=0.00080 {I8}
124TE cG MR from |g|g(|q) in 1993Go10
124TE L 2039.288 42+ AND 3+ A
124TE B 3.994 23 9.377 4
124TES B EAV=291.77 60
124TE G 713.776 4 2.327 17 AC
124TE cG |a(K)exp=0.0030 {I4}
124TE cG M,MR nuclear orientation and |a(K)exp give M1+E2 and +1.5 {I7},
124TE2cG but this transition is doublet from 2000Do11.
124TE3cG others:
124TE4cG +1.5 {I+6-3} (1972Ba38), +1.5 {I+5-2} (1971Gr14),
124TE5cG -0.7 {I+4-5} (1993Go10),
124TE6cG M1+E2(56% {I+7-11}) (1979Sh08), M1+E2(57% {I7}) (1990Su11)
124TE G 790.706 7 0.756 5 AC
124TE cG |a(K)exp=0.00246 {I17}
124TE cG M,MR nuclear orientation and |a(K)exp give E2(+M3) and
124TE2cG -0.3 {I+2-3}, but this transition is doublet from 2000Do11.
124TE3cG others:
124TE4cG -0.15 {I+5-2} (1993Go10; 791-646 cascade),
124TE5cG -0.32 {I+52-14} (1993Go10; 791-646-603 cascade)
124TE G 1436.554 7 1.244 8 AC
124TE cG |a(K)exp=0.00060 {I10}
124TE cG M,MR nuclear orientation and |a(K)exp give M1+E2 and
124TE2cG +1.5 {I8}, but this transition is doublet from 2000Do11.
124TE3cG others:
124TE4cG +0.51 {I+13-11} (1993Go10), +3.7 {I+27-20} (1972Ba38),
124TE5cG M1+E2(5.5% {I20}) (1979Sh08)
124TE G 2039.55 150.0656 19E2 6.67E-4
124TES G KC=0.000305 5$LC=3.64E-5 5$MC=7.21E-6 10$NC+=0.000319 5
124TES G NC=1.427E-6 20$OC=1.561E-7 22$IPC=0.000317 5
124TE cG M from |a(K)exp in (n,|g)
124TE L 2091.680 212+
124TE B 0.685 6 10.045 5
124TES B EAV=271.02 59
124TE G 766.32 4 0.0124 2 E0+E2,M1 0.0030 4
124TES G KC=0.0026 4$LC=0.00033 3$MC=6.5E-5 6$NC+=1.43E-5 14
124TES G NC=1.29E-5 13$OC=1.40E-6 15
124TE cG |a(K)exp=0.016 {I5}
124TE G 1488.887 240.687 6 M1+E2 +0.10 23 8.29E-416 C
124TES G KC=0.000659 14$LC=7.92E-5 16$MC=1.57E-5 3$NC+=7.51E-5 12
124TES G NC=3.11E-6 7$OC=3.42E-7 7$IPC=7.17E-5 11
124TE cG |a(K)exp=0.00079 {I12}
124TE cG MR others: -3.4 {I+9-15} (1972Ba38), +0.11 {I8} (1990Ro17)
124TE L 2182.39 32+
124TE B 0.45 5 10.04 5
124TES B EAV=235.76 58
124TE G 856.68 4 0.0243 10M1,E2 0.0023 3 C
124TES G KC=0.00202 25$LC=0.00025 3$MC=5.0E-5 5$NC+=1.09E-5 12
124TES G NC=9.9E-6 10$OC=1.07E-6 12
124TE cG M from |a(K)exp in (n,|g)
124TE G 1579.82 5 0.39 5 M1+E2(+E0)-0.17 7 7.71E-4 C
124TES G KC=0.000579 9$LC=6.95E-5 11$MC=1.378E-5 20$NC+=0.0001079 16
124TES G NC=2.73E-6 4$OC=3.00E-7 5$IPC=0.0001049 15
124TE cG M,MR from |a(K)exp and |g|g(|q) in (n,|g)
124TE G 2182.58 6 0.0434 10
124TE L 2224.839 254+
124TE B 0.091 4 10.646 20
124TES B EAV=219.55 57
124TE G 899.23 3 0.0176 14
124TE G 976.62 5 0.0851 16M1+E2 +0.68 6 0.00180 C
124TES G KC=0.00156 3$LC=0.000192 3$MC=3.81E-5 6$NC+=8.36E-6 14
124TES G NC=7.54E-6 12$OC=8.22E-7 14
124TE cG M,MR from |a(K)exp in (n,|g) and |g(|q) in (n,n'|g)
124TE G 1622.4 4 0.0418 10E2 6.64E-4 C
124TES G KC=0.000467 7$LC=5.64E-5 8$MC=1.118E-5 16$NC+=0.0001294 19
124TES G NC=2.21E-6 3$OC=2.41E-7 4$IPC=0.0001269 18
124TE cG M from adopted gammas
124TE L 2293.712 43- B
124TE B 608 1051.24 19 7.733 4
124TES B EAV=193.75 56
124TE cB E|b, I|b: 610 {I20}, 49% (1953La35); 615 {I10}, 53%
124TE2cB (1954Mo83); 630, 56% (1955Az29); 608 {I10}, 49%, F-K plot linear
124TExcB (1956Zo06)
124TE G 254.49 4 0.0165 10E1 0.01464
124TES G KC=0.01268 18$LC=0.001573 22$MC=0.000312 5$NC+=6.78E-5 10
124TES G NC=6.13E-5 9$OC=6.51E-6 10
124TE cG |a(K)exp=0.025 {I21}
124TE G 336.21 4 0.076 3 E1 0.00704 C
124TES G KC=0.00611 9$LC=0.000751 11$MC=0.0001490 21$NC+=3.24E-5 5
124TES G NC=2.93E-5 5$OC=3.14E-6 5
124TE cG |a(K)exp=0.007 {I5}
124TE G 968.195 4 1.925 9 E1(+M2) -0.02 2 6.53E-411 AC
124TES G KC=0.000569 9$LC=6.78E-5 11$MC=1.343E-5 22$NC+=2.94E-6 5
124TES G NC=2.65E-6 5$OC=2.89E-7 5
124TE cG |a(K)exp=0.00070 {I7}
124TE cG MR others: -0.03 {I+6-5} (1972Ba38), +0.038 {I3} (1993Go10),
124TE2cG E1+M2(10% {I3}) (1979Sh08), E1+M2(11% {I2}) (1990Su11)
124TE G 1045.125 4 1.874 11E1(+M2) -0.03 2 5.67E-410 AC
124TES G KC=0.000494 9$LC=5.87E-5 11$MC=1.163E-5 21$NC+=2.55E-6 5
124TES G NC=2.30E-6 4$OC=2.51E-7 5
124TE cG |a(K)exp=0.00054 {I7}
124TE cG MR others: -0.05 {I4} (1993Go10; 1045-646 cascade),
124TE2cG -0.14 {I+3-4} (1993Go10; 1045-646-603 cascade), +0.04 {I+5-4}
124TE3cG (1972Ba38), E1+M2(1.5% {I15}) (1979Sh08)
124TE G 1690.971 4 48.64 15E1+M2 +0.010 +3-4 6.15E-4 AC
124TES G KC=0.000213 3$LC=2.50E-5 4$MC=4.94E-6 7$NC+=0.000372 6
124TES G NC=9.78E-7 14$OC=1.071E-7 15$IPC=0.000371 6
124TE cG |a(K)exp=0.000213 {I17}
124TE cG MR from averaged A{-2} and A{-4} values of |g|g(|q)
124TE2cG others: -0.009 {I22} (1993Go10), -0.02 {I1} (1972Ba38),
124TE3cG E1+M2(0.30% {I15}) (1979Sh08), E1+M2(0.30% {I12}) (1990Su11)
124TE G 2294.02 120.0327 10
124TE L 2323.41 32+
124TE B 0.059 6 10.60 5
124TES B EAV=182.79 55
124TE G 1720.72 3 0.0972 17M1(+E2) +0.18 20 7.18E-413 C
124TES G KC=0.000483 10$LC=5.79E-5 11$MC=1.148E-5 22$NC+=0.0001650 24
124TES G NC=2.28E-6 5$OC=2.50E-7 5$IPC=0.0001624 24
124TE cG M,MR from |a(K)exp and |g|g(|q) in (n,|g)
124TE G 2323.45 8 0.00249 16
124TE L 2335.26 55-
124TE G 1086.70 8 0.0387 18E1 C
124TE cG M from adopted gammas
124TE L 2454.96 72+
124TE B 0.0079 14 11.09 8
124TES B EAV=135.79 53
124TE G 1852.14 8 0.0066 13M1+E2 +0.039 1 0.000673
124TES G KC=0.00039 3$LC=4.7E-5 4$MC=9.3E-6 7$NC+=0.000227 5
124TES G NC=1.83E-6 13$OC=2.01E-7 15$IPC=0.000225 5
124TE cG M,MR from adopted gammas
124TE G 2455.21 150.0015 4 E2 7.68E-4
124TES G KC=0.000218 3$LC=2.59E-5 4$MC=5.13E-6 8$NC+=0.000518 8
124TES G NC=1.016E-6 15$OC=1.114E-7 16$IPC=0.000517 8
124TE cG M from adopted gammas
124TE L 2483.277 184+
124TE B 0.326 5 9.380 9
124TES B EAV=126.02 52
124TE G 148.21 100.0040 8
124TE G 189.61 190.0065 11
124TE G 444.09 3 0.1932 20M1+E2 0.0120 6 C
124TES G KC=0.0103 7$LC=0.00138 3$MC=0.000276 7$NC+=6.00E-5 10
124TES G NC=5.43E-5 10$OC=5.74E-6 14
124TE cG |a(K)exp=0.008 {I3}
124TE cG MR +0.06 {I8} or -6.2 {I24} (nuclear orientation) (1983Ro13)
124TE G 525.50 210.141 4 M1+E2 0.0077 7 C
124TES G KC=0.0066 6$LC=0.00087 3$MC=0.000173 6$NC+=3.77E-5 15
124TES G NC=3.41E-5 13$OC=3.64E-6 22
124TE cG |a(K)exp=0.0042 {I24}
124TE cG M from |a(K)exp and |g(|q) in (n,n'|g)
124TE L 2512.04 74
124TE B 0.0413 18 10.174 20
124TES B EAV=116.24 51
124TE G 1263.45 7 0.0422 18
124TE L 2521.48 62+
124TE B 378.4 180.0545 16 10.019 14
124TES B EAV=113.06 51
124TE G 1918.74 6 0.0557 16M1(+E2) -0.02 3 6.98E-4 C
124TES G KC=0.000387 6$LC=4.62E-5 7$MC=9.15E-6 13$NC+=0.000256 4
124TES G NC=1.82E-6 3$OC=1.99E-7 3$IPC=0.000254 4
124TE cG M,MR from |a(K)exp in (n,|g) and |g(|q) in (n,n'|g)
124TE L 2549.73 9(4)
124TE B 0.0343 10 10.110 14
124TES B EAV=103.64 50
124TE G 1301.14 9 0.0351 10
124TE L 2619.09 6(3)
124TE B 0.095 5 9.359 24
124TES B EAV=81.16 48
124TE G 2016.34 6 0.097 5 C
124TE L 2682.50 132+
124TE B 0.022 4 9.64 8
124TES B EAV=61.47 46
124TE G 2079.88 140.021 4 M1+E2 -0.14 3 7.07E-4 C
124TES G KC=0.000327 5$LC=3.90E-5 6$MC=7.72E-6 11$NC+=0.000334 5
124TES G NC=1.531E-6 22$OC=1.683E-7 24$IPC=0.000332 5
124TE cG M,MR from |a(K)exp in {+124}I |e decay and |g(|q) in (n,n'|g)
124TE G 2681.9 3 0.00169 17
124TE L 2693.679 53-
124TE B 202 158.75 4 6.972 10
124TES B EAV=58.07 48
124TE cB E|b, I|b: 240, 14% (1953La35); 250, 9% (1954Mo83); 280, 12%
124TE2cB (1955Az29); 202 {I15}, 9%, F-K plot linear (1956Zo06)
124TE G 209.86 7 0.0056 9
124TE G 371.00 110.039 5
124TE cG |a(K)exp=0.012 {I10}
124TE G 400.30 6 0.142 7 E2 0.01562 C
124TES G KC=0.01319 19$LC=0.00195 3$MC=0.000393 6$NC+=8.43E-5 12
124TES G NC=7.65E-5 11$OC=7.78E-6 11
124TE cG |a(K)exp=0.015 {I3}
124TE G 469.06 7 0.051 3 E1 0.00309 C
124TES G KC=0.00268 4$LC=0.000327 5$MC=6.47E-5 9$NC+=1.414E-5 20
124TES G NC=1.276E-5 18$OC=1.375E-6 20
124TE cG |a(K)exp<0.013
124TE G 735.9 7 0.073 7 E1 1.13E-3 C
124TES G KC=0.000982 14$LC=0.0001179 17$MC=2.34E-5 4$NC+=5.12E-6 8
124TES G NC=4.62E-6 7$OC=5.01E-7 7
124TE cG |a(K)exp=0.0013 {I7}
124TE cG E From 1988Yo05
124TE cG RI From 1988Yo05
124TE G 1368.157 5 2.683 13E1(+M2) -0.02 1 4.78E-4 AC
124TES G KC=0.000303 5$LC=3.58E-5 6$MC=7.09E-6 10$NC+=0.0001314 19
124TES G NC=1.403E-6 20$OC=1.534E-7 22$IPC=0.0001298 19
124TE cG |a(K)exp=0.00032 {I6}
124TE cG MR others: -0.05 {I9} (1972Ba38), E1+M2(10.5% {I15}) (1979Sh08),
124TE2cG E1+M2(7.2% {I12}) (1990Su11), >-0.50 (1993Go10)
124TE G 1445.11 4 0.337 4 E1(+M2) +0.10 9 0.000524 C
124TES G KC=0.00029 4$LC=3.4E-5 4$MC=6.7E-6 8$NC+=0.000186 5
124TES G NC=1.34E-6 16$OC=1.46E-7 18$IPC=0.000184 5
124TE cG M from adopted gammas
124TE cG MR other: +0.02 {I8} (1993Go10)
124TE G 2090.930 7 5.61 3 E1(+M2) +0.03 2 8.38E-4 AC
124TES G KC=0.0001522 23$LC=1.78E-5 3$MC=3.52E-6 6$NC+=0.000664 10
124TES G NC=6.97E-7 11$OC=7.65E-8 12$IPC=0.000664 10
124TE cG |a(K)exp=0.000154 {I22}
124TE cG MR others: +0.00 {I+2-3} (1972Ba38), +0.031 {I6} (1993Go10),
124TE2cG E1+M2(0.1% {I1}) (1990Su11)
124TE G 2693.57 6 0.0031 5
124TE L 2701.622 92-
124TE B 0.558 7 8.115 12
124TES B EAV=55.70 45
124TE G 662.42 3 0.030 4
124TE G 1376.090 9 0.494 5 E1(+M2) -0.01 3 4.79E-4 C
124TES G KC=0.000300 5$LC=3.54E-5 6$MC=7.01E-6 12$NC+=0.0001370 20
124TES G NC=1.387E-6 23$OC=1.517E-7 25$IPC=0.0001355 19
124TE cG |a(K)exp=0.0003 {I3}
124TE cG MR others: +0.26 {I11} (J(2702)=2) or
124TE2cG |d<0.29 (J(2702)=3) (1993Go10)
124TE G 2099.25 100.0467 9 C
124TE L 2711.012 214+
124TE B 0.106 4 8.771 20
124TES B EAV=52.90 45
124TE G 1385.33 4 0.064 3 C
124TE G 2108.323 240.0443 13 C
124TE L 2775.070 173-,4-
124TE B 0.572 9 7.491 18
124TES B EAV=34.35 43
124TE G 291.828 120.0089 8
124TE G 481.42 4 0.0242 19
124TE cG |a(K)exp<0.013
124TE G 735.7 7 0.057 6 C
124TE cG E From 1988Yo05
124TE cG RI From 1988Yo05
124TE G 816.82 250.0745 18 C
124TE G 1526.317 240.418 5 E1 5.35E-4 C
124TE2 G FL=1248.582
124TES G KC=0.000252 4$LC=2.96E-5 5$MC=5.86E-6 9$NC+=0.000248 4
124TES G NC=1.160E-6 17$OC=1.270E-7 18$IPC=0.000247 4
124TE cG |a(K)exp=0.0004 {I3}
124TE cG MR 1983Ro13 deduced |d from nuclear orientation assuming that
124TE2cG J|p of 2775-keV level is 3+ or 4+;
124TE3cG +0.43 {I6} or +5.7 {I13} (J|p(2775)=3+), -0.12 {I8} or +1.2
124TExcG (J|p(2775)=4+)
124TE G 2172.1 5 0.0021 4
124TE L 2807.55 242+
124TE B 0.00147 20 9.69 7
124TES B EAV=25.32 42
124TE G 2807.52 240.0015 2 E2 8.78E-4
124TES G KC=0.0001730 25$LC=2.04E-5 3$MC=4.04E-6 6$NC+=0.000680 10
124TES G NC=8.01E-7 12$OC=8.80E-8 13$IPC=0.000679 10
124TE cG M From adopted gammas
124TE L 2814.56 72+ TO 5+
124TE B 0.023 4 8.40 8
124TES B EAV=23.41 41
124TE G 775.27 7 0.0096 17
124TE G 1565.7 5 0.014 3
124TE L 2865.72 53- C
124TE B 0.0611 24 6.86 6
124TES B EAV=9.81 39
124TE G 530.45 3 0.0431 20
124TE G 572.06 6 0.0194 13
124TE L 2886.37 63-
124TE B 0.0080 12 6.73 14
124TES B EAV=4.51 39
124TE G 2283.62 6 0.0082 12E1+M2 +0.06 2 9.45E-4
124TES G KC=0.0001341 22$LC=1.57E-5 3$MC=3.10E-6 6$NC+=0.000792 12
124TES G NC=6.14E-7 11$OC=6.74E-8 12$IPC=0.000792 12
124TE cG M,MR from |a(K)exp in {+124}I |e decay and |g(|q) in (n,n'|g)