140CE 140LA B- DECAY 1982AD02,1991CH05 18NDS 201812
140CE H TYP=FUL$AUT=N. NICA$CIT=NDS 154, 1 (2018)$CUT=20-Nov-2018$
140CE c 2013Oh03 compiled for XUNDL compilation by by J. Chen (NSCL, MSU)
140CE c Measured: |g (1991Ch05,1986Ha20,1982Ad02,1980Ka32,1977De34,1970Ka18,
140CE2c \1968Ba18), |g|g (1991Ch05,1984Ol08,1982Ad02,1980Ka32,1986Ha20)
140CE3c |g|g(|q) (1991Ch05,1982Mi03,1982Ad02,1980Ka32,1976Ga12,1973Sa01,
140CE3c \1971Wi23), linear pol, |g|g(|q,H,t,t) (1965Le16), |g(|q,t)
140CE4c (1972KlZU), |b|g(t), |g|g(t) (1993Gr08,1990PeZR,1982ZhZV,1971Bo13,
140CE5c \1963Do16,1962Cu02), ce (1991Ch05,1967Ka12), pair conversion
140CExc (1968Be57), T{-1/2} by fast timing |b|g|g(t) (1995Ma75), |g|g(|q),
140CE8c time-differential perturbed angular correlation (TDPAC) (2013Oh03)
140CE c Level scheme is that of 1982Ad02
140CE cG RI From 1991Ch05, except where noted
140CE cG E From 1982Ad02, except where noted
140CE cG M K/L, L1:L2:L3, M1:M2:M3 from 1967Ka12
140CE cG MR From |g|g(|q) and |a(K)exp (1991Ch05)
140CE cG M |a(K)exp from 1991Ch05 were normalized to |a(K)(E2)=0.000696
140CExcG for 1596|g
140CE cG E,RI 1986Ha20 also reported additional |g's: 20.7 (0.011 {I1}),
140CE2cG 167.89, 411.9 (0.054 {I2}), 468.6 (0.004 {I2}), 668.85 (0.038 {I1}),
140CE3cG 700.29 (0.014 {I1}), 721.09 (0.030 {I1}), 976.69 (0.044 {I1}), 995.7
140CE4cG (0.020 {I1}), 1009.8 (0.014 {I1}), 1061.88 (0.045 {I1}), 1150.18
140CE5cG (0.023 {I1}), 1214.9 (0.076 {I2}) not included in the present adopted
140CExcG |b{+-} decay scheme
140CE cL J$From Adopted Levels
140CE DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
140CE cG MR$If no value given it was assumed |d=1.00 for E2/M1,
140CE2cG |d=1.00 for E3/M2 and |d=0.10 for the other multipolarities
140LA P 0.0 3- 1.67858 D 21 3760.2 17
140LA cP E,J,T$from {+140}La Adopted Levels
140LA cP QP$from 2017Wa10
140CE N 0.9540 81.00 1.00 1.0
140CE cN NR I(1596|g)=95.40% {I8} (1977De34)
140CE PN 5
140CE L 0.0 0+ STABLE
140CE B 4E-4 2 14.45 22
140CES B EAV=1580.21 80
140CE cB E$3850 {I100} from 1960Dz05
140CE cB IB$from 1960Dz05
140CE L 1596.24 32+
140CE B 2164 25.9 16 9.28 12
140CES B EAV=846.17 77
140CE G 1596.21 4 100.0 15E2 8.98E-4
140CE cG E from 1982Ad02. Others: 1596.170 {I25} (1970Ke06),
140CE2cG 1596.20 {I4} (1968Gu05)
140CE cG M |a(K)=0.00069, |a(L)exp=0.000071 {I11},
140CE2cG |a(M+...)exp=0.000012 {I3} (1991Ch05), K/L=8.2 {I10},
140CExcG |a(K)exp(pair)/|a(K)exp=0.156 {I15} (1968Be57)
140CE2 G %IG=95.40 8 (1977De34)
140CES G KC=0.000676 10$LC=8.63E-5 12$MC=1.79E-5 3
140CES G NC=3.97E-6 6$OC=6.45E-7 9$PC=4.92E-8 7$IPC=0.0001128 16
140CE cG RI I|g=100 {I8} in 1977De34
140CE L 1903.32 60+ 0.27 NS 5
140CE cL T from 1966Bu19. Other: <0.6 ns (1965Sa03)
140CE B 0.002 LT 12.5 GT ?
140CES B EAV=708.83 76
140CE G 306.9 2 0.026 7[E2] 0.0454
140CES G KC=0.0365 6$LC=0.00697 10$MC=0.001498 22
140CES G NC=0.000327 5$OC=4.98E-5 7$PC=2.42E-6 4
140CE G 1903.5 E0 0.0146 15
140CE cG RI,M ce(K)=0.013 {I1}, ce(L)=0.0013 {I2}, ce(M+N)=0.00035 {I6},
140CE2cG K/L=10 {I1} (1991Ch05); ce(K)=0.0152 {I15}; K/L=8.4 {I14}; |a(K)exp>11
140CE3cG (1967Ka12) (if ce(K)(1596|g)=0.069 {I3}); I|g<0.0014 (1982Ad02)
140CE L 2083.26 34+ 3.474 NS 10
140CE2 L G=+1.11 4 (1963Ko07)
140CE cL G$Others: 1.17 {I8} (1971Ni09), 1.14 {I38} (1965Le16),
140CE2cL 1.16 {I8} (1963Ka03)
140CE2 L MOMM1=+4.00 20 (2013Oh03)
140CE cL MOMM1$deduced by 2013Oh03 with the TDPAC method using the known value
140CE2cL of hyperfine field of -41 T {I2} at {+141}Ce in Fe
140CE2 L MOME2=+0.202 26 (1972KlZU)
140CE cL MOME2$Other: from |g(|q,t) (1972KlZU), see also 1974He16
140CE cL T$from 1995Ma75. Other values: 3.44 ns {I6} (1962Cu02), 3.46 ns {I3}
140CE2cL (1963Do16), 3.45 ns {I9} (1971Bo13), 3.41 ns {I4} (1963Ko07); 3.3 ns
140CE3cL {I3} (1990PeZR); 3.3 ns {I3} (1993Gr08)
140CE B 20.2 9 8.309 20
140CES B EAV=629.48 75
140CE cB E$1680 {I7} from 1972Na04
140CE cB From 1972Na04
140CE G 487.021 1247.7 6E2 0.01159
140CES G KC=0.00966 14$LC=0.001527 22$MC=0.000324 5
140CES G NC=7.11E-5 10$OC=1.113E-5 16$PC=6.77E-7 10
140CE cG M |a(K)exp=0.0095 {I5}, |a(L)exp=0.0013 {I1},
140CE2cG |a(M+...)exp=0.00040 {I4} (1991Ch05); K/L=6.0 {I4} (1967Ka12)
140CE cG MR |d=-0.005 {I20} (E2+(M3)) (1991Ch05)
140CE cG E 487.15 {I25} (1979Bo26)
140CE cG RI I|g=48.16 {I40}, I|g=45.9% {I4} in 1977De34,
140CE2cG 0.045 {I3} (1980Ka32)
140CE G 2083.2 5 0.0121 7E4 1.36E-3
140CES G KC=0.001162 17$LC=0.0001598 23$MC=3.35E-5 5
140CES G NC=7.43E-6 11$OC=1.198E-6 17$PC=8.83E-8 13
140CE cG RI$from I(2083|g)/I(487|g)=0.000254 {I15} (1978Fa03); others:
140CE2cG I|g=0.031 {I2} (1991Ch05), 0.007 {I2} (1982Ad02), 0.045 {I3} (1980Ka32)
140CE cG M |a(K)exp=9.78|*10{+-3} {I84}, K:L1:M1=63:9:2 (1958Ba39)
140CE L 2107.86 36+
140CE G 24.595 4 0.003 LTE2 697 2.00 LT
140CES G L/T=0.782 8$M/T=0.175 4
140CES G N/T=0.0371 8$O/T=0.00505 10$P/T=1.36E-6 3
140CES G LC=545 8$MC=122.0 18
140CES G NC=25.9 4$OC=3.52 5$PC=0.000945 14
140CE cG E from 1967Ka12
140CE cG RI from 1982Ad02
140CE cG M L1:L2:L3=<0.02:0.68 {I3}:1.00 (1967Ka12)
140CE cG TI$from I|g and calculated |a. 1967Ka12 report
140CE2cG I(|g+ce)=0.32% {I4} presumably from ce(L); however, value of ce(L) is
140CE2cG not given
140CE L 2347.89 32+ 0.2 NS LE
140CE cL T from 1990PeZR,1993Gr08
140CE B 4.97 5 8.630 5
140CES B EAV=514.73 73
140CE G 445.5 50.003 1
140CE G 751.637 184.54 4M1+E2 +0.38 4 0.005489
140CES G KC=0.00471 8$LC=0.000613 10$MC=0.0001277 20
140CES G NC=2.83E-5 5$OC=4.60E-6 8$PC=3.54E-7 6
140CE cG M |a(K)exp=0.0042 {I4} (1991Ch05); K/L>4.6 (1967Ka12); K/L=3.6
140CExcG (1958Ba39)
140CE cG MR others: +0.36 {I3} (1982Mi03), 0.30 {I+7-2} (1973Sa01),
140CE2cG +0.37 {I6} (1980Ka32)
140CE G 2347.88 5 0.89 3E2 8.45E-4
140CES G KC=0.000333 5$LC=4.15E-5 6$MC=8.60E-6 12
140CES G NC=1.91E-6 3$OC=3.11E-7 5$PC=2.42E-8 4$IPC=0.000460 7
140CE cG M |a(K)exp=0.00037 {I6}; K/L+=6.5 {I15} (1967Ka12);
140CE2cG |a(pair)/|a(K)exp=1.28 {I19} (1968Be57)
140CE L 2349.81 35+ 12 PS LE
140CE cL T from 1995Ma75; others: |<0.2 ns from 1990PeZR;
140CE2cL |<10 ns from 1982ZhZV;
140CE B 0.207 25 10.80 6 1U
140CES B EAV=518.58 70
140CE G 241.933 300.434 8M1+E2 -0.60 +35-300.1008 17
140CES G KC=0.084 3$LC=0.0130 11$MC=0.00276 25
140CES G NC=0.00061 5$OC=9.6E-5 7$PC=6.2E-6 4
140CE cG E others: 241.966 {I12} (1966Ba36), 241.961 {I22} (1967Ka12)
140CE cG M |a(K)exp=0.07 {I1}; K/L=7.4 {I10} (1967Ka12)
140CE G 266.543 120.488 8M1+E2 -0.14 12 0.0786 12
140CES G KC=0.0671 11$LC=0.00906 18$MC=0.00190 4
140CES G NC=0.000420 9$OC=6.81E-5 12$PC=5.14E-6 10
140CE cG M |a(K)exp=0.06 {I1}; K/L=6.5 {I10} (1967Ka12)
140CE cG M E1+M2 from linear pol-|g|g(|q) (1976Ga12) was based on
140CE2cG value of |d=+0.39 {I5}
140CE cG MR others: +0.39 {I5} (1976Ga12); however, +20 {I+43-8}
140CExcG (1982Mi03)
140CE L 2412.02 33+ 1.3 PS 4
140CE cL T from 1995Ma75; other: 55 ps {I15} from 1972Bo33 (see comment
140CE2cL of 1995Ma75); also see 1990PeZR
140CE B 43.9 4 7.607 5
140CES B EAV=487.36 73
140CE cB E$1365 {I10} from 1972Na04
140CE cB E from 1972Na04
140CE G 64.135 100.015 2M1 4.26
140CES G KC=3.63 5$LC=0.499 7$MC=0.1046 15
140CES G NC=0.0232 4$OC=0.00375 6$PC=0.000281 4
140CE cG M |a(K)exp=2.3 {I10}; K/L=5.5 {I25}, L1:L2:L3=1:<0.33:<0.22
140CExcG (1967Ka12)
140CE cG E from 1966Ba36
140CE G 328.762 8 21.3 3M1+E2 -0.049 6 0.0453
140CES G KC=0.0388 6$LC=0.00516 8$MC=0.001078 15
140CES G NC=0.000239 4$OC=3.88E-5 6$PC=2.97E-6 5
140CE cG E others: 328.746 {I25} (1979Bo26), 328.752 {I30} (1968Gu05),
140CE2cG 328.745 {I15} (1970Ke06)
140CE cG M$|a(K)exp=0.038 {I2}, |a(L)exp=0.0046 {I5}, |a(M+N)exp=0.0010 {I2}
140CExcG (1991Ch05);
140CE cG $K/L=7.4 {I3}, K:L1:M1=100:16:3 (1967Ka12)
140CE cG MR from 1982Mi03. Others: -0.04 {I1} or -0.07 {I1} (1991Ch05),
140CE2cG -0.04 {I2} (1973Sa01)
140CE cG RI I|g=21.74 {I19} in 1977De34
140CE G 815.772 1924.4 2M1+(E2) -0.03 1 0.00470
140CES G KC=0.00404 6$LC=0.000521 8$MC=0.0001085 16
140CES G NC=2.41E-5 4$OC=3.92E-6 6$PC=3.05E-7 5
140CE cG E other: 815.735 {I40} (1970Ke06)
140CE cG M |a(K)exp=0.0042 {I4}; |a(L)exp=0.0006 {I1} (1991Ch05),
140CExcG K/L=7.0 {I12} (1967Ka12)
140CE cG MR others: +0.007 {I9} (1982Mi03),
140CE2cG -0.04 {I1} (1976Ga12,1973Sa01), -0.031 {I5} (1971Wi23), -0.0 (1980Ka32)
140CE cG RI I|g=24.78 {I18} in 1977De34
140CE L 2464.09 43-
140CE cL T |<1 ns (1993Gr08)
140CE B 5.52 7 8.443 6
140CES B EAV=465.32 72
140CE G 867.846 205.77 7E1+M2 0.0012010
140CES G KC=0.00104 8$LC=0.000131 12$MC=2.72E-5 24
140CES G NC=6.0E-6 6$OC=9.8E-7 9$PC=7.4E-8 7
140CE cG M |a(K)exp=0.0010 {I2} (1991Ch05)
140CE cG MR$M2 mixing not adopted because is incompatible with
140CE2cG the recommended upper limit (RUL) for B(M2)(W.u.). Values:
140CE2cG -0.044 {I20} (1991Ch05), +0.04 {I2} (1982Mi03), -0.034 {I7} (1976Ga12),
140CE2cG +0.25 {I2} (1973Sa01), -0.031 {I5} (1971Wi23), -0.00 {I5} (1980Ka32)
140CE G 2464.1 50.012 2
140CE L 2480.93 34+ 22 PS 7
140CE cL T from 1995Ma75; other: 3.2 ns {I3} from 1990PeZR
140CE B 1.124 20 9.112 8
140CES B EAV=458.22 72
140CE G 68.916 6 0.079 2M1 3.46
140CES G KC=2.95 5$LC=0.405 6$MC=0.0848 12
140CES G NC=0.0188 3$OC=0.00304 5$PC=0.000228 4
140CE cG M |a(K)exp=2.0 {I5}; K/L=6.0 {I23}, L:L2:L3=1:<0.15:<0.05
140CExcG (1967Ka12)
140CE G 131.117 8 0.49 1M1+E2 -0.13 +2-5 0.553 9
140CES G KC=0.470 7$LC=0.0661 22$MC=0.0139 5
140CES G NC=0.00307 11$OC=0.000495 15$PC=3.61E-5 6
140CE cG M |a(K)exp=0.50 {I3}; K/L=5.6 {I6}, L:L2:L3=8.9 {I25}:0.9
140CExcG {I2}:1.0 (1967Ka12)
140CE cG MR from 1982Mi03. Others: +0.15 {I18} (1991Ch05), -0.33 {I4}
140CExcG (1976Ga12)
140CE cG E from 1966Ba36
140CE G 397.52 5 0.077 5(E2) 0.0206
140CES G KC=0.01699 24$LC=0.00289 4$MC=0.000616 9
140CES G NC=0.0001349 19$OC=2.09E-5 3$PC=1.166E-6 17
140CE cG M |a(K)exp=0.03 {I2}
140CE L 2515.77 3 4+ 2.5 PS LE
140CE cL T from 1995Ma75; 1972Bo33 report T{-1/2}=42 ps {I11} for 2516,
140CE2cL 2521 or 2547 levels
140CE B 5.63 5 8.368 5
140CES B EAV=443.55 72
140CE G 432.493 123.04 3M1+E2 -0.04 2 0.0224
140CES G KC=0.0192 3$LC=0.00253 4$MC=0.000527 8
140CES G NC=0.0001170 17$OC=1.90E-5 3$PC=1.461E-6 21
140CE cG M |a(K)exp=0.019 {I1} (1991Ch05,1967Ka12); K/L=6.7 {I9}
140CExcG (1967Ka12)
140CE cG MR$adopted value (from (n,n'|g), 1993Go23); others: -0.54 {I5} 1982Mi03
140CE2cG (for J=3); -0.57 {I5} (1976Ga12),
140CE2cG -0.55 {I1} (1973Sa01), -0.36 {I2} (1971Wi23); -0.37 {I8} or -0.41 {I6}
140CE3cG (1991Ch05) (for J=3+); |d=+0.05 {I1} or +0.13 {I+18-15} (1991Ch05)
140CExcG (for J=4+)
140CE G 919.550 232.79 3E2 0.00242
140CES G KC=0.00207 3$LC=0.000281 4$MC=5.87E-5 9
140CES G NC=1.298E-5 19$OC=2.08E-6 3$PC=1.496E-7 21
140CE cG M$adopted value (from (n,n'|g), 1993Go23); M1+E2 from a(K)exp=0.0025
140CE2cG {I6} (1991Ch05) not adopted becasue it results in ambiguous J|p for
140CE2cG parent level.
140CE cG MR$if M1+E2: +2.6 {I4} (1982Mi03, for J=3); +1.9 {I+5-4} (1991Ch05)
140CE2cG (for J=3+); |d=+0.07 {I10} (1991Ch05) (for J=4+); -0.08 {I+6-2}
140CE2cG (1973Sa01)
140CE L 2521.43 32+ 2.4 PS LE
140CE cL T from 1995Ma75; others: |<0.1 ns (1966Bu19); |<0.15 ns
140CE2cL (1990PeZR). 1972Bo33 report T{-1/2}=42 ps 11 for 2516, 2521 or 2547
140CE3cL levels
140CE B 11.05 8 8.067 4
140CES B EAV=441.18 72
140CE cB E$1244 {I20} from 1967Ka12
140CE cB E from 1967Ka12
140CE G 109.422 110.230 4M1+E2 +0.26 2 0.952 15
140CES G KC=0.790 12$LC=0.128 4$MC=0.0271 8
140CES G NC=0.00597 18$OC=0.000939 25$PC=5.98E-5 9
140CE cG M |a(K)exp=0.82 {I6}; K/L=5.6 {I4}, L:L2:L3=13 {I3}:1.5
140CExcG {I5}:1.0 (1967Ka12)
140CE G 173.543 9 0.133 4M1 0.252
140CES G KC=0.215 3$LC=0.0291 4$MC=0.00609 9
140CES G NC=0.001351 19$OC=0.000219 3$PC=1.658E-5 24
140CE cG M |a(K)exp=0.19 {I4}; K/L=8.1 {I13} (1967Ka12)
140CE G 438.5 50.041 10
140CE cG $I|g|<0.0014 from 1982Ad02. Others: 0.006 {I3} (1980Ka32), 0.021 {I10}
140CE2cG (1970Ka18)
140CE G 618.12 50.039 4
140CE cG RI others: 0.049 {I6} (1980Ka32), |?0.045 (1970Ka18),
140CE2cG 0.044 {I22} (1968Ba18), 0.014 {I3} (1982Ad02)
140CE cG M |a(K)exp<0.16
140CE G 925.189 217.23 7E2+M1 -0.22 4 0.003446
140CES G KC=0.00296 5$LC=0.000381 6$MC=7.92E-5 12
140CES G NC=1.76E-5 3$OC=2.86E-6 5$PC=2.22E-7 4
140CE cG M |a(K)exp=0.0026 {I3} (1991Ch05); K/L=9 {I3} (1967Ka12);
140CE2cG |a(pair)/|a(K)exp=1.82 {I10} (1968Be57)
140CE cG MR others: -0.10 {I4} (1982Mi03), -0.15 {I7} (1973Sa01), -0.16
140CE2cG {I+7-6} (1980Ka32)
140CE G 2521.40 5 3.63 4E2 8.81E-4
140CES G KC=0.000293 5$LC=3.65E-5 6$MC=7.55E-6 11
140CES G NC=1.676E-6 24$OC=2.73E-7 4$PC=2.13E-8 3$IPC=0.000542 8
140CE cG M |a(K)exp=0.00034 {I4}; K/L=7.7 {I14} (1967Ka12)
140CE L 2547.24 41+ 4.0 PS LE
140CE cL T from 1995Ma75; 1972Bo33 report T{-1/2}=42 ps {I11} for 2516,
140CExcL 2521 or 2547 levels
140CE B 0.622 8 9.964 7 1U
140CES B EAV=438.21 69
140CE G 950.987 260.544 7M1+(E2) +0.01 7 0.00327
140CES G KC=0.00282 4$LC=0.000361 5$MC=7.52E-5 11
140CES G NC=1.669E-5 24$OC=2.72E-6 4$PC=2.12E-7 3
140CE cG M |a(K)exp=0.0025 {I9}
140CE cG MR from 1982Mi03. Others: +0.06 {I7} (1991Ch05), +0.10 {I3}
140CE2cG (1976Ga12), +0.06 {I+3-1} (1980Ka32)
140CE G 2547.34 110.106 3M1 9.62E-4
140CES G KC=0.000318 5$LC=3.97E-5 6$MC=8.24E-6 12
140CES G NC=1.83E-6 3$OC=2.99E-7 5$PC=2.36E-8 4$IPC=0.000593 9
140CE cG M |a(K)exp=0.00032 {I8}
140CE L 2899.66152+
140CE B 0.109 7 9.49 3
140CES B EAV=287.07 67
140CE cB E$857 {I15} from 1972Na04
140CE cB E from 1972Na04
140CE G 1303.5 40.044 7
140CE G 2899.61 160.070 2E2 9.79E-4
140CES G KC=0.000230 4$LC=2.84E-5 4$MC=5.88E-6 9
140CES G NC=1.306E-6 19$OC=2.13E-7 3$PC=1.669E-8 24$IPC=0.000714 10
140CE cG M |a(K)exp=0.00026 {I6}
140CE L 3001.12142+
140CE B 0.082 9 9.42 5
140CES B EAV=247.71 66
140CE G 1097.20 230.024 5
140CE G 1405.20 170.062 7
140CE L 3118.55162+
140CE B 0.0248 10 9.685 18
140CES B EAV=203.47 64
140CE G 3118.51 160.026 1(E2) 1.04E-3
140CES G KC=0.000203 3$LC=2.50E-5 4$MC=5.18E-6 8
140CES G NC=1.149E-6 16$OC=1.87E-7 3$PC=1.472E-8 21$IPC=0.000808 12
140CE cG M |a(K)exp=0.00025 {I10}; |a(pair)/|a(K)exp=2.77 {I78}
140CExcG (1968Be57)
140CE L 3320.4 62+
140CE B 0.0038 3 9.94 4
140CES B EAV=131.52 62
140CE G 3320.4 6 0.0040 3(E2) 1.10E-3
140CES G KC=0.000182 3$LC=2.24E-5 4$MC=4.64E-6 7
140CES G NC=1.030E-6 15$OC=1.680E-7 24$PC=1.322E-8 19$IPC=0.000892 13
140CE cG M |a(K)exp=0.00021 {I15}; |a(pair)/|a(K)exp=4.2 {I28}
140CExcG (1968Be57)
140CE L 3394.8625(4-)
140CE B 0.025 15 8.9 3
140CES B EAV=106.54 57
140CE G 1045.05 240.026 15
140CE cG RI others: 0.016 {I4} (1982Ad02), 0.024 {I4} (1980Ka32)
140CE L 3473.58 183-
140CE B 0.054 7 8.18 6
140CES B EAV=81.19 54
140CE G 992.9 50.014 5
140CE G 1877.29 190.043 4
140CE L 3520.8714(4+)
140CE B 0.0134 19 8.53 7
140CES B EAV=66.54 52
140CE G 1924.62 130.014 2
140CE cG RI others: 0.006 {I2} (1982Ad02), 0.014 {I3} (1980Ka32)