140ND 140PM EC DECAY (9.2 S) 2009WI18,1975KE09 18NDS 201812
140ND H TYP=FUL$AUT=N. NICA$CIT=NDS 154, 1 (2018)$CUT=20-Nov-2018$
140ND c Dataset based on unevaluated XUNDL file compiled by
140ND2c B. Singh (McMaster) from 2009Wi18
140ND c 2009Wi18: measured E|g, I|g, |g|g, |g|g(|q), mixing ratios
140ND2c using eight Compton-suppressed high-purity Ge clover detectors at
140ND3c the Wright Nuclear Structure Laboratory (WNSL) at Yale University.
140ND c 1975Ke09: measured |g, |g|g, |b{++}
140ND c Others:
140ND c 1968Bl14,1970Ar17,1973HaWA,1973VaYZ,1975Za10: |g, |g|g
140ND c 1973VaYZ: ce
140ND c 1983Al06: |b{++}
140ND c Level scheme of 1975Ke09 is confirmed and extended by 2009Wi18 which
140ND2c also give more precise |g ray energies and intensities, reason for
140ND2c which all these were adopted from 2009Wi18. The normalization is that
140ND2c of 1975Ke09
140ND c 2009Wi18 give combined level scheme from both 9.2 s, 1+ g.s. and
140ND2c 5.95 min, 8- isomer |e+|b{++} decays. The only common decay path of
140ND2c them is the 773.6|g that uniquely decays from the first excited state
140ND2c of both levels schemes, the combined relative intensity of which
140ND2c is given as 100 {I5} by 2009Wi18 (all the other |g and |e+|b{++}
140ND2c paths are separate). As the only transition populating the 774 level
140ND2c in the |e+|b{++} decay of the isomer is the 1028.1|g, its intensity,
140ND2c I(1028.1|g) = 81, gives the intensity of the 773.6|g in this decay,
140ND2c which leaves 19 parts for the intensity of this transition in the
140ND2c level scheme of the |e+|b{++} decay of g.s.
140ND cG RI$ Relative intensities are obtained from |g|g coin data
140ND2CG normalized to 100 parts for 773.6|g (2009Wi18) for both 140PM EC GS
140ND2CG DECAY (9.2 S) and 140PM EC isomer DECAY (5.95 M). By separation 19
140ND2CG parts are taken by the 773.6G for 140PM EC GS DECAY (9.2 S) which
140ND2CG is kept here as normalizing figure, while 81 parts are taken by the
140ND2CG 140PM EC isomer DECAY (5.95 M)
140ND cG M$From |a(K)exp (1973VaYZ, normalized to |a(K)(773|g)=3.3|*10{+-3}
140ND2cG (E2), I|g from 1975Ke09) and |g|g(|q) (2009Wi18)
140ND cG M$A{-2} and A{-4} coefficients are from email reply from E. Williams,
140ND2cG (2009Wi18) to XUNDL compiler November 25, 2009
140ND cG MR$ From |g|g(|q) (2009Wi18)
140ND cG RI(H)$From singles data (2009Wi18)
140ND cG E(A) Observed only by 1975Za10.
140ND cG E(B) Observed only by 1975Ke09.
140ND DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
140ND CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
140ND2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
140ND cL E$ From least-squares fit to the E|g's.
140ND cL J,T$Adopted values
140ND cL J(C)$From |g|g(|q) (2009Wi18)
140PM P 0.0 1+ 9.2 S 2 6045 24
140PM cP E,J,T$ From Adopted Levels, Gammas dataset
140PM cP QP$ From 2017Wa10
140ND N 0.27 3 1.00
140ND cN NR$|SI|g(g.s.)=6.4% {I6}; I|b{++}/I(773|g)=17.8 {I16} (1975He09)
140ND PN 3
140ND G 159.8 3 3.6 10 A
140ND CG %IG=1.0 25, using the calculated normalization.
140ND G 477.1 3 9.7 19 A
140ND CG %IG=2.6 4, using the calculated normalization.
140ND G 1013.8 3 2.7 11 A
140ND CG %IG=0.7 3, using the calculated normalization.
140ND G 1138.7 3 5.7 21 A
140ND CG %IG=1.5 5, using the calculated normalization.
140ND G 1204.8 3 7.0 15 A
140ND CG %IG=1.9 4, using the calculated normalization.
140ND G 1941.9 7 0.46 10 B
140ND CG %IG=0.12 3, using the calculated normalization.
140ND L 0.0 0+ 3.37 D 2
140ND2 L %EC=100
140ND cL T,%EC$from Adopted Levels
140ND E 6045 24 83.6 6 10.0 2 4.334 14 93.6 6
140NDS E EAV=2309 12$CK=0.0908 12$CL=0.01269 16$CM+=0.00362 5
140ND cE E$from 2017Au03, based on 6080 {I100} (1975Ke09), 6090 {I40}
140NDxcE (1983Al06), 6020 {I30} (1995Ve08)
140ND L 773.48 8 2+ 1.40 PS 11
140ND E 2.3 4 0.46 8 5.55 8 2.8 5
140NDS E EAV=1943 12$CK=0.1385 20$CL=0.0194 3$CM+=0.00553 8
140ND G 773.74 6 19 1 E2 0.00396
140ND CG %IG=5.1 6, using the calculated normalization.
140NDS G KC=0.00334 5$LC=0.000483 7$MC=0.0001028 15
140NDS G NC=2.29E-5 4$OC=3.42E-6 5$PC=2.01E-7 3
140ND cG E from 1974FiZF
140ND cG M$from K/L=6.3 {I10} (1973VaYZ); |a(K)exp=2.7|*10{+-3} {I5} (1973VaYZ)
140ND L 1412.86 12 0+ C
140ND E 0.45 8 0.14 3 5.95 9 0.59 11
140NDS E EAV=1643 12$CK=0.203 3$CL=0.0285 5$CM+=0.00814 13
140ND G 639.4 1 2.2 3 E2 0.00624
140ND CG %IG=0.59 10, using the calculated normalization.
140ND cG M$from |a(K)exp=5.4|*10{+-3} {I13} (1973VaYZ)
140ND2 G A2=+0.33 1 $ A4=+1.00 1
140NDS G KC=0.00523 8$LC=0.000792 11$MC=0.0001694 24
140NDS G NC=3.77E-5 6$OC=5.57E-6 8$PC=3.12E-7 5
140ND cG $ |g|g(|q) for 639-774 cascade (2009Wi18)
140ND G 1412.9 50.0038 LTE0 ?
140ND cG RI$|<50.0038 limit from 1973VaYZ
140ND cG M$from |a(K)exp>4.0|*10{+-1}; K/L=4.6 {I14} (1973VaYZ)
140ND L 1489.30 8 (2)+ C
140ND E 1.34 17 0.45 6 5.43 6 1.79 23
140NDS E EAV=1607 12$CK=0.213 4$CL=0.0299 5$CM+=0.00854 13
140ND G 716.1 1 3.3 3 M1+E2 -1.22 14 0.0058619
140ND CG %IG=0.88 12, using the calculated normalization.
140ND cG M$from |a(K)exp=3.9|*10{+-3} {I6} (1973VaYZ)
140ND2 G A2=+0.388 2 $ A4=+0.225 3
140NDS G KC=0.00498 17$LC=0.000693 19$MC=0.000147 4
140NDS G NC=3.29E-5 9$OC=4.95E-6 14$PC=3.07E-7 11
140ND cG $ |g|g(|q) for 716-774 cascade (2009Wi18)
140ND G 1489.2 1 4.3 2 (E2) 1.07E-3
140ND CG %IG=1.15 13, using the calculated normalization.
140NDS G KC=0.000860 12$LC=0.0001125 16$MC=2.37E-5 4
140NDS G NC=5.30E-6 8$OC=8.05E-7 12$PC=5.22E-8 8$IPC=7.26E-5 11
140ND cG M$from |a(K)exp=6.1|*10{+-4} {I49} (1973VaYZ)
140ND L 1934.99 13 3-
140ND G 1161.5 1 0.14 2
140ND CG %IG=0.037 7, using the calculated normalization.
140ND G 1935 1 0.2 LT H
140ND CG %IG=0.03 3, using the calculated normalization.
140ND L 2139.68 12 2+ 152 FS 62
140ND cL E$ possible one-phonon mixed-symmetry state, strongly mixed with
140ND2cL fully-symmetric neighboring 2+ state (2009Wi18)
140ND E 0.086 15 0.053 9 6.23 8 0.139 24
140NDS E EAV=1305 11$CK=0.323 5$CL=0.0455 8$CM+=0.01297 21
140ND G 1366.2 1 0.42 4 M1(+E2) -0.08 8 0.001683
140ND CG %IG=0.112 16, using the calculated normalization.
140ND2 G A2=+0.24 3 $ A4=+0.08 3
140NDS G KC=0.001410 21$LC=0.000182 3$MC=3.84E-5 6
140NDS G NC=8.60E-6 13$OC=1.315E-6 20$PC=8.82E-8 14$IPC=3.72E-5 6
140ND cG $ |g|g(|q) for 1366-774 cascade (2009Wi18)
140ND G 2139.2 4 0.2 LT H
140ND CG %IG=0.03 3, using the calculated normalization.
140ND L 2332.12 13 2+
140ND cL E$ possible one-phonon mixed-symmetry state, strongly mixed with
140ND2cL fully-symmetric neighboring 2+ state (2009Wi18)
140ND E 0.085 23 0.065 17 6.10 12 0.15 4
140NDS E EAV=1216 11$CK=0.366 6$CL=0.0515 8$CM+=0.01469 23
140ND G 1558.6 1 0.31 3 M1+E2 -0.19 9 1.31E-32
140ND CG %IG=0.083 12, using the calculated normalization.
140ND2 G A2=+0.06 8 $ A4=-0.05 8
140NDS G KC=0.001041 18$LC=0.0001340 23$MC=2.82E-5 5
140NDS G NC=6.32E-6 11$OC=9.67E-7 17$PC=6.49E-8 12$IPC=0.0001027 15
140ND cG $ |g|g(|q) for 1558-774 cascade (2009Wi18)
140ND G 2333.2 6 0.5 LT H
140ND CG %IG=0.07 7, using the calculated normalization.
140ND L 2358.59 13 0+ C
140ND E 0.090 17 0.070 13 6.06 9 0.16 3
140NDS E EAV=1204 11$CK=0.372 6$CL=0.0524 9$CM+=0.01495 24
140ND G 1585.1 1 0.60 7 E2 9.97E-4
140ND CG %IG=0.160 25, using the calculated normalization.
140ND2 G A2=+0.39 5 $ A4=+0.97 7
140NDS G KC=0.000764 11$LC=9.94E-5 14$MC=2.09E-5 3
140NDS G NC=4.68E-6 7$OC=7.11E-7 10$PC=4.64E-8 7$IPC=0.0001072 15
140ND cG $ |g|g(|q) for 1585-774 cascade (2009Wi18)
140ND L 2466.85 12 2+
140ND E 0.027 8 0.024 7 6.50 13 0.051 15
140NDS E EAV=1155 11$CK=0.398 6$CL=0.0561 9$CM+=0.01602 25
140ND G 977.5 1 0.028 5
140ND CG %IG=0.0075 16, using the calculated normalization.
140ND G 1693.5 2 0.06 1 M1+E2 -0.9 +6-4 0.001079
140ND CG %IG=0.016 4, using the calculated normalization.
140ND2 G A2=-0.24 10 $ A4=-0.07 12
140NDS G KC=0.00078 8$LC=0.000101 10$MC=2.12E-5 20
140NDS G NC=4.8E-6 5$OC=7.3E-7 7$PC=4.8E-8 5$IPC=0.000157 5
140ND cG $ |g|g(|q) for 1694-774 cascade (2009Wi18)
140ND G 2467.1 6 0.2 LT H
140ND CG %IG=0.03 3, using the calculated normalization.
140ND L 2546.75 10 0+ C
140ND E 0.20 3 0.20 3 5.56 7 0.40 6
140NDS E EAV=1118 11$CK=0.419 7$CL=0.0590 9$CM+=0.0168 3
140ND G 1057.6 1 0.9 1
140ND CG %IG=0.24 4, using the calculated normalization.
140ND G 1773.1 1 0.58 7 E2 9.06E-4
140ND CG %IG=0.154 25, using the calculated normalization.
140ND2 G A2=+0.30 3 $ A4=+1.15 5
140NDS G KC=0.000619 9$LC=7.98E-5 12$MC=1.679E-5 24
140NDS G NC=3.76E-6 6$OC=5.72E-7 8$PC=3.76E-8 6$IPC=0.000186 3
140ND cG $ |g|g(|q) for 1773-774 cascade (2009Wi18)
140ND L 2584.99 13 0+ C
140ND E 0.029 5 0.030 6 6.37 9 0.059 11
140NDS E EAV=1100 11$CK=0.429 7$CL=0.0604 9$CM+=0.0173 3
140ND G 1811.5 1 0.22 3 E2 8.95E-4
140ND CG %IG=0.059 10, using the calculated normalization.
140ND2 G A2=+0.33 1 $ A4=+0.90 2
140NDS G KC=0.000595 9$LC=7.66E-5 11$MC=1.611E-5 23
140NDS G NC=3.60E-6 5$OC=5.49E-7 8$PC=3.61E-8 5$IPC=0.000203 3
140ND cG $ |g|g(|q) for 1811-774 cascade (2009Wi18)
140ND L 2610.93 10 (2+) C
140ND E 0.056 10 0.060 11 6.06 8 0.116 21
140NDS E EAV=1089 11$CK=0.435 7$CL=0.0614 10$CM+=0.0175 3
140ND G 1121.7 1 0.08 1
140ND CG %IG=0.021 4, using the calculated normalization.
140ND G 1837.4 1 0.25 3 (E2) 8.89E-4
140ND CG %IG=0.067 11, using the calculated normalization.
140ND2 G A2=-0.31 4 $ A4=+0.15 5
140NDS G KC=0.000579 9$LC=7.45E-5 11$MC=1.567E-5 22
140NDS G NC=3.51E-6 5$OC=5.34E-7 8$PC=3.52E-8 5$IPC=0.000215 3
140ND cG $ |g|g(|q) for 1837-774 cascade (2009Wi18)
140ND G 2610.0 5 0.2 LT H
140ND CG %IG=0.03 3, using the calculated normalization.
140ND L 2713.80 13 2+
140ND E 0.039 7 0.047 8 6.14 8 0.086 15
140NDS E EAV=1042 11$CK=0.464 7$CL=0.0654 10$CM+=0.0187 3
140ND G 1940.3 1 0.32 4 M1+E2 -0.96 +35-260.000964
140ND CG %IG=0.085 14, using the calculated normalization.
140ND2 G A2=-0.25 10 $ A4=+0.05 11
140NDS G KC=0.00059 3$LC=7.5E-5 4$MC=1.58E-5 8
140NDS G NC=3.54E-6 17$OC=5.4E-7 3$PC=3.62E-8 19$IPC=0.000274 6
140ND cG $ |g|g(|q) for 1940-774 cascade (2009Wi18)
140ND L 2832.80 13(2+)
140ND E 0.0099 17 0.014 2 6.63 8 0.024 4
140NDS E EAV=987 11$CK=0.497 7$CL=0.0703 10$CM+=0.0201 3
140ND G 2059.3 1 0.09 1
140ND CG %IG=0.024 4, using the calculated normalization.
140ND2 G A2=+0.03 2 $ A4=-0.05 2
140ND cG $ |g|g(|q) for 2059-774 cascade (2009Wi18)
140ND L 2908.60 13 0+ C
140ND E 0.0010 2 0.0017 2 7.54 7 0.0027 4
140NDS E EAV=953 11$CK=0.519 7$CL=0.0734 11$CM+=0.0210 3
140ND G 2135.1 1 0.010 1 E2 8.67E-4
140ND CG %IG=0.0027 4, using the calculated normalization.
140ND2 G A2=+0.28 6 $ A4=+1.1 1
140NDS G KC=0.000440 7$LC=5.61E-5 8$MC=1.179E-5 17
140NDS G NC=2.64E-6 4$OC=4.02E-7 6$PC=2.67E-8 4$IPC=0.000356 5
140ND cG $ |g|g(|q) for 2135-774 cascade (2009Wi18)
140ND L 3035.88 18 (1,2)
140ND E 0.0033 6 0.0064 11 6.92 8 0.0097 16
140NDS E EAV=895 11$CK=0.557 8$CL=0.0788 11$CM+=0.0225 3
140ND G 896.1 2 0.005 4
140ND CG %IG=0.0013 11, using the calculated normalization.
140ND G 1623.1 2 0.031 1
140ND CG %IG=0.0083 9, using the calculated normalization.
140ND L 3139.90 13 0+ C
140ND E 0.0067 12 0.015 3 6.51 8 0.022 4
140NDS E EAV=848 11$CK=0.588 8$CL=0.0833 11$CM+=0.0238 3
140ND G 2366.4 1 0.08 1 E2 8.91E-4
140ND CG %IG=0.021 4, using the calculated normalization.
140ND2 G A2=+0.5 3 $ A4=+1.1 4
140NDS G KC=0.000366 6$LC=4.64E-5 7$MC=9.74E-6 14
140NDS G NC=2.18E-6 3$OC=3.33E-7 5$PC=2.22E-8 4$IPC=0.000466 7
140ND cG $ |g|g(|q) for 2366-774 cascade (2009Wi18)
140ND L 3506.71 22 0+,1,2
140ND E 0.0040 7 0.018 3 6.32 8 0.022 4
140NDS E EAV=684 11$CK=0.693 7$CL=0.0985 10$CM+=0.0282 3
140ND G 2733.2 2 0.08 1
140ND CG %IG=0.021 4, using the calculated normalization.