140ND 140PM EC DECAY (5.95 M) 1975KE09,2009WI18 18NDS 201812
140ND H TYP=FUL$AUT=N. NICA$CIT=NDS 154, 1 (2018)$CUT=20-Nov-2018$
140ND c 1975Ke09: measured |g, |g|g, |b{++} at Foster Radiation Laboratory
140ND2c at McGill University
140ND c 2009Wi18 (and 2009WiZV): measured E|g, I|g, |g|g, |g|g(|q), mixing
140ND2c ratios using eight Compton-suppressed high-purity Ge clover detectors
140ND3c at the Wright Nuclear Structure Laboratory (WNSL) at Yale University.
140ND c Others: 1966At04, 1967Bl27, 1973VaYZ, 1973HaWA, 1974FiZF, 1975Za10.
140ND c Measured: |g, ce (semi), |g|g (semi-semi), |b{++} (scin).
140ND c Of the two main references presented above 1975Ke09 give separate
140ND2c level schemes for each of the 9.2 s, 1+ g.s. and for the 5.95 min,
140ND2c 8- isomer |e+|b{++} decays, while 2009Wi18 give a single level scheme
140ND2c for both decays. The evaluator attempted a separation of the 2009Wi18
140ND2c data into two separate level schemes based on the fact the only
140ND2c common element of the two level schemes is the 773|g from the first
140ND2c 2+ state to g.s. in {+140}Nd (and all spins in 2009Wi18 data seem to
140ND2c cluster either around 1+ or around 8-). However when checking the
140ND2c intensity balances some anomalous situations were found. For example
140ND2c the levels 2276, 5- and 2366, 6+ whose J|p values were established
140ND2c independently of the |e+|b{++} decay, have their beta feeding in
140ND2c accordance with these J|p values in the level scheme of 1975Ke09;
140ND2c however with the data from 2009Wi18 the feeding of the 2276 level
140ND2c is about 10 times bigger which would be compatible with a spin value
140ND2c closer to 8, while the feeding of the 2366 level is negative indicating
140ND2c a very forbidden beta branch, so a much smaller spin value than 6.
140ND2c As these assignments are incompatible with the independently
140ND2c established J|p values, and with the fact that the separation of the
140ND2c two level schemes could be much more properly done by the authors, the
140ND2c evaluator did not include in the present dataset the data
140ND2c from 2009Wi18 (except where mentioned below). The interested reader
140ND2c can see the xundl file available online (compiled after 2009Wi18
140ND2c by B. Karamy and B. Singh (McMaster).
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 DG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
140ND2DG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
140ND cG RI$Relative intensities from 1975Ke09
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 E(A) Weak |g observed only by 1975Za10.
140ND cG E(B) Weak |g observed by 1975Ke09.
140ND cL E$From least-squares fit to the E|g's
140ND cL J,T Adopted values
140PM P 0.0+X 28 8- 5.95 M 5 6045 24
140PM cP E$x=431 {I28} (difference of Q values for |e decay of 9.2 s
140PM2cP and 5.95 min of {+140}Pm, 2017Au03)
140PM cP J,T$from {+140}Pm Adopted Levels
140PM cP QP$from 2017Wa10
140ND N 1.00 1.0 1.0
140ND cN NR |SI|g(g.s.)=100%.
140ND PN 5
140ND G 257.9 41.4 8 A
140ND G 635.1 40.4 A
140ND G 651.8 40.5 3 A
140ND G 880.4 40.5 4 A
140ND G 1110.3 50.20 4 B
140ND G 1261.9 41.0 3 A
140ND G 1486.4 50.12 3 B
140ND G 1733.8 40.3 1 A
140ND G 1837.8 40.2 1 A
140ND G 1907.1 50.40 5 B
140ND G 1957.4 50.22 4 B
140ND G 2240.3 50.20 4 B
140ND G 2247.6 50.14 3 B
140ND G 2407.7 100.02 1
140ND L 0.0 0+ 3.37 D 2
140ND2 L %EC=100
140ND cL %EC$from Adopted Levels
140ND L 773.60 102+ 1.40 PS 11
140ND G 773.74 6 100 5E2 0.00396
140NDS G KC=0.00334 5$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), syst.
140ND L 1801.70 104+
140ND G 1028.19 7 100 2E2 0.00211
140ND cG E from 1974FiZF
140ND cG M from |a(K)exp=1.7|*10{+-3} {I2}
140ND2 G A2=+0.09 1 $ A4=+0.04 1
140NDS G KC=0.00180 3$LC=0.000247 4$MC=5.22E-5 8
140NDS G NC=1.165E-5 17$OC=1.755E-6 25$PC=1.091E-7 16
140ND cG $ |g|g(|q) for 1028-774 cascade
140ND L 2221.51 107- 0.60 MS 5 M1
140ND E 4249 28 63.4 17 27.8 10 5.173 21 91.2 22
140NDS E EAV=1467 18$CK=0.258 7$CL=0.0362 9$CM+=0.01034 25
140ND cE E$from Q(|e)=6484 {I70} measured by 1975Ke09 and adjusted by 2012AU05
140ND2cE to 6471 {I28}
140ND G 419.81 1 92 2E3 0.0598
140NDS G KC=0.0437 7$LC=0.01256 18$MC=0.00282 4
140NDS G NC=0.000619 9$OC=8.54E-5 12$PC=2.64E-6 4
140ND cG E from 1974FiZF
140ND cG M from |a(K)exp=4.7|*10{+-2} {I4} (1975Ke09), K/L=3.9 {I6}
140NDxcG (1973VaYZ)
140ND L 2275.93 135-
140ND E 0.3 LT 0.1 LT 7.5 GT 0.4 LT
140NDS E EAV=1442 18$CK=0.267 7$CL=0.0375 9$CM+=0.0107 3
140ND G 474.2 1 1.0 2E1 0.00445
140NDS G KC=0.00382 6$LC=0.000498 7$MC=0.0001048 15
140NDS G NC=2.34E-5 4$OC=3.52E-6 5$PC=2.21E-7 3
140ND cG M from |a(K)exp=0.005 {I6}
140ND L 2366.23 136+
140ND E 0.35 9 0.18 4 7.34 11 0.53 13
140NDS E EAV=1400 17$CK=0.283 7$CL=0.0398 10$CM+=0.0114 3
140ND G 90.1 2 0.19 3E1 0.345 6
140NDS G KC=0.291 5$LC=0.0422 7$MC=0.00891 14
140NDS G NC=0.00196 3$OC=0.000281 5$PC=1.430E-5 22
140ND cG M from |a(K)exp=0.26 {I20}
140ND G 144.9 1 0.35 4E1 0.0940
140NDS G KC=0.0800 12$LC=0.01107 16$MC=0.00233 4
140NDS G NC=0.000516 8$OC=7.56E-5 11$PC=4.18E-6 6
140ND cG M from |a(K)exp=0.11 {I7}
140ND G 564.5 2 0.20 10E2 0.00855
140NDS G KC=0.00713 10$LC=0.001119 16$MC=0.000240 4
140NDS G NC=5.33E-5 8$OC=7.83E-6 11$PC=4.22E-7 6
140ND L 2842.23 13 7(-)
140ND E 0.16 8 0.13 7 7.36 23 0.29 15
140NDS E EAV=1180 17$CK=0.384 9$CL=0.0542 13$CM+=0.0155 4
140ND G 566.30 30.29 15
140ND L 2943.22 13(6+,7-)
140ND E 0.21 8 0.19 7 7.17 17 0.40 15
140NDS E EAV=1134 17$CK=0.410 10$CL=0.0577 14$CM+=0.0165 4
140ND G 667.3 10.20 10
140ND G 721.7 10.20 10
140ND L 3060.75 147-
140ND E 0.26 6 0.29 6 6.97 10 0.55 12
140NDS E EAV=1080 17$CK=0.441 10$CL=0.0621 15$CM+=0.0177 4
140ND G 695.1 2 0.20 4(E1) 0.00192
140NDS G KC=0.001652 24$LC=0.000212 3$MC=4.46E-5 7
140NDS G NC=9.95E-6 14$OC=1.506E-6 22$PC=9.70E-8 14
140ND G 839.1 1 0.50 10M1(+E2) 0.0042 10
140NDS G KC=0.0036 8$LC=0.00049 10$MC=0.000103 19
140NDS G NC=2.3E-5 5$OC=3.5E-6 7$PC=2.2E-7 6
140ND L 3238.8 5 8-
140ND E 0.26 5 0.35 6 6.83 8 0.61 11
140NDS E EAV=999 17$CK=0.490 11$CL=0.0692 16$CM+=0.0198 5
140ND G 177.8 1 0.12 2 M1(+E2) 0.286 7
140NDS G KC=0.224 15$LC=0.049 16$MC=0.0107 37
140NDS G NC=0.00234 78$OC=3.29E-4 92$PC=1.3E-5 3
140ND G 1017.3 4 0.45 10M1+E2 0.0027 6
140NDS G KC=0.0023 5$LC=0.00031 6$MC=6.5E-5 12
140NDS G NC=1.5E-5 3$OC=2.2E-6 5$PC=1.4E-7 4
140ND L 3418.51 157,8,9(-)
140ND E 1.3 1 2.4 2 5.95 4 3.7 3
140NDS E EAV=917 17$CK=0.543 11$CL=0.0768 16$CM+=0.0219 5
140ND G 1197.0 13.8 2
140ND L 3672.73 157(-)
140ND E 0.13 2 0.35 5 6.70 7 0.48 7
140NDS E EAV=802 17$CK=0.619 11$CL=0.0877 16$CM+=0.0251 5
140ND G 1306.4 20.11 3
140ND G 1396.8 10.13 3
140ND G 1451.6 50.24 5
140ND L 4349.32 257,8,9
140ND E 0.011 4 0.14 6 6.86 18 0.15 6
140NDS E EAV=501 17$CK=0.785 7$CL=0.1121 10$CM+=0.0321 3
140ND G 930.8 20.15 6
140ND L 4366.9 87,8,9(-)
140ND E 0.051 9 0.70 10 6.15 7 0.75 11
140NDS E EAV=493 17$CK=0.788 7$CL=0.1126 10$CM+=0.0322 3
140ND G 2145.4 80.75 10