140PM 140SM EC DECAY 1981POZV,1987DE04 18NDS 201812
140PM H TYP=FUL$AUT=N. NICA$CIT=NDS 154, 1 (2018)$CUT=20-Nov-2018$
140PM c Measured: |g, |g|g, ce (1987De04,1981PoZV,1973VaYZ), |b{++}, |b|g
140PMxc (1987De04)
140PM c Others: 1968Bl14, 1970Ar17, 1972De23
140PM cE TI$I(|e+|b{++})(excited states)=25% {I5} from balance of I|g and
140PM2cE I(225|g)/I(716.6|g, {+140}Pm |e decay) (1981PoZV) assuming
140PM3cE I(716.6|g)=0.94% {I18} (1975Ke09);
140PMxcE I(|e+|b{++})(excited states)=23% {I5} (1987De04)
140PM cG $%I|g in comments are calculated using the calculated normalization
140PM cG E,RI From 1981PoZV
140PM cG M |a(K)exp were normalized to |a(K)(E3)=0.044 for 419.9|g in
140PMxcG {+140}Nd
140PM cG E(A) Observed only in 1987De04
140PM cG E,RI$E|g(I|g): 805.1 {I5} (0.47 {I7}), 904.3 {I5} (0.40 {I7}), 1057.8
140PM2cG {I7} (2.1 {I2}), 1409.6 {I7} (0.33 {I20}) were observed only in
140PMxcG 1973VaYZ
140PM DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
140PM DG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
140PM2DG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
140PM cL J Adopted values
140SM P 0.0 0+ 14.82 M 12 2758 27
140SM cP E,J,T$From {+140}Sm Adopted Levels
140SM cP QP$From 2017Wa10
140PM N 0.098 22 1.00
140PM cN NR$|SI(|g+ce)(g.s.)=25 % {I5} (1981PoZV)
140PM PN 3
140PM G 267.5 22.7 4 A
140PM2 G %IG=0.26 7
140PM G 306.0 2 1.3 (E2) 0.0510
140PM2 G %IG=0.13 3
140PMS G KC=0.0402 6$LC=0.00850 12$MC=0.00188 3
140PMS G NC=0.000415 6$OC=5.79E-5 9$PC=2.19E-6 3
140PM cG M |a(K)exp=0.043 {I9} (1973VaYZ)
140PM G 370.3 22.1
140PM2 G %IG=0.21 5
140PM G 811.0 32.6 4 A
140PM2 G %IG=0.25 7
140PM G 1173.3 32.9 5 A
140PM2 G %IG=0.28 8
140PM G 1427.1 31.1
140PM2 G %IG=0.107 25
140PM G 1578.1 34.4
140PM2 G %IG=0.43 10
140PM G 1596.1 31.4
140PM2 G %IG=0.14 3
140PM G 1642.3 31.6
140PM2 G %IG=0.16 4
140PM G 1672.2 30.9
140PM2 G %IG=0.088 20
140PM G 1786.3 31.4
140PM2 G %IG=0.14 3
140PM G 1815.5 31.1
140PM2 G %IG=0.107 25
140PM G 1959.4 32.1
140PM2 G %IG=0.21 5
140PM G 2017.5 31.3
140PM2 G %IG=0.13 3
140PM L 0.0 1+ 9.2 S 2
140PM2 L %EC+%B+=100
140PM cL %EC+%B+$from Adopted Levels
140PM cL T$from Adopted Levels
140PM E 18 2 57 4 4.90 4 75 5
140PMS E EAV=779 18$CK=0.646 12$CL=0.0926 17$CM+=0.0266 5
140PM L 139.94 7(2)-
140PM G 140.0 1 50 E1 0.1068
140PM2 G %IG=4.9 14
140PMS G KC=0.0907 13$LC=0.01273 18$MC=0.00270 4
140PMS G NC=0.000601 9$OC=8.71E-5 13$PC=4.66E-6 7
140PM cG M |a(K)exp=0.090 {I19}, |a(L)exp=0.013 {I2} (1981PoZV),
140PM2cG |a(K)exp=0.08 {I2} (1987De04), |a(K)exp=0.098 {I29}, K/L=7.6 {I15}
140PMxcG (1973VaYZ)
140PM L 225.47 60+,1+,2+
140PM E 0.5 AP 3 AP 6.2 AP 3 AP
140PMS E EAV=678 18$CK=0.706 10$CL=0.1014 15$CM+=0.0291 5
140PM cE E E(|b{++})=2200 {I300} from |b{++}|g (1987De04)
140PM cE TI$estimated upper limit (90% C.L.) from level feeding balance
140PM G 225.4 1 100 M1 0.1599
140PM2 G %IG=9.8 23
140PMS G KC=0.1360 20$LC=0.0188 3$MC=0.00401 6
140PMS G NC=0.000905 13$OC=0.0001367 20$PC=8.70E-6 13
140PM cG M |a(K)exp=0.12 {I2}, |a(L)exp=0.018 {I3} (1981PoZV),
140PM2cG |a(K)exp=0.13 {I2} (1987De04), |a(K)exp=0.14 {I3}, K/L=8.8 {I13}
140PMxcG (1973VaYZ)
140PM cG RI I|g=15% {I3} (1973VaYZ)
140PM L 260.61 7(1,2,3)+
140PM G 35.2 2 0.45 15(M1+E2) 80 75
140PM2 G %IG=0.044 16
140PMS G LC=62 59$MC=14 14
140PMS G NC=3.1 29$OC=0.38 36$PC=0.00110 68
140PM cG RI from 1987De04. |a: from
140PM2cG intensity feeding the 260 level one deduces |a>66. |a=154.5 (E2),
140PM2cG 4.957 (M1).
140PM G 120.8 1 17.0 E1 0.1597
140PM2 G %IG=1.7 4
140PMS G KC=0.1353 20$LC=0.0192 3$MC=0.00409 6
140PMS G NC=0.000908 13$OC=0.0001307 19$PC=6.82E-6 10
140PM cG M |a(K)exp=0.14 {I3}, |a(L)exp=0.020 {I5} (1981PoZV),
140PMxcG |a(K)exp=0.22 {I7} (1973VaYZ)
140PM G 260.6 21.6
140PM2 G %IG=0.16 5
140PM cG M |a(K)exp=0.10 {I4}
140PM L 335.35 9 +
140PM G 109.9 2 4.9 M1 1.182
140PM2 G %IG=0.48 11
140PMS G KC=1.003 15$LC=0.1408 21$MC=0.0301 5
140PMS G NC=0.00678 11$OC=0.001022 16$PC=6.45E-5 10
140PM cG M |a(K)exp=1.1 {I3}, |a(L)exp=0.12 {I3} (1981PoZV),
140PM2cG |a(K)exp=0.87 {I26}, K/L=6.8 {I24} (1973VaYZ)
140PM G 195.4 21.0
140PM2 G %IG=0.098 22
140PM G 335.5 20.5
140PM2 G %IG=0.049 15
140PM L 339.88 7(1,2)+
140PM G 114.6 2 9.6 M1 1.049
140PM2 G %IG=0.94 21
140PMS G KC=0.891 14$LC=0.1249 19$MC=0.0267 4
140PMS G NC=0.00601 9$OC=0.000907 14$PC=5.73E-5 9
140PM cG M |a(K)exp=0.88 {I22}, |a(L)exp=0.13 {I3} (1981PoZV),
140PM2cG |a(K)exp=0.81 {I24}, K/L=7.2 {I20} (1973VaYZ)
140PM G 199.9 2 7.0 E1 0.0408
140PM2 G %IG=0.68 16
140PMS G KC=0.0347 5$LC=0.00477 7$MC=0.001012 15
140PMS G NC=0.000226 4$OC=3.31E-5 5$PC=1.86E-6 3
140PM cG M |a(K)exp=0.028 {I10} (1981PoZV), |a(K)exp=0.054 {I14}
140PMxcG (1973VaYZ)
140PM G 339.8 1 18.0 E2 0.0370 @
140PM2 G %IG=1.8 6
140PMS G KC=0.0295 5$LC=0.00588 9$MC=0.001294 19
140PMS G NC=0.000287 4$OC=4.03E-5 6$PC=1.636E-6 23
140PM cG M |a(K)exp=0.030 {I8}, |a(L)exp=0.0059 {I17} (1981PoZV),
140PM2cG |a(K)exp=0.027 {I5} (1987De04), |a(K)exp=0.028 {I4} (1973VaYZ)
140PM L 344.93 7+
140PM E 0.14 AP 0.96 AP 6.6 AP 1.1 AP
140PMS E EAV=625 18$CK=0.734 10$CL=0.1057 14$CM+=0.0303 4
140PM G 84.4 1 13.0 M1 2.52
140PM2 G %IG=1.3 3
140PMS G KC=2.14 3$LC=0.301 5$MC=0.0643 10
140PMS G NC=0.01449 21$OC=0.00218 4$PC=0.0001376 20
140PM cG M |a(L)exp=0.32 {I8} (1981PoZV), |a(L)exp=0.62 {I25} (1973VaYZ)
140PM G 119.5 2 2.7 M1,E2 1.06 14
140PM2 G %IG=0.26 6
140PMS G KC=0.75 4$LC=0.24 14$MC=0.054 31
140PMS G NC=0.0120 67$OC=0.00160 80$PC=4.1E-5 10
140PM cG M |a(K)exp=0.76 {I27}
140PM G 204.9 21.0
140PM2 G %IG=0.098 22
140PM G 344.9 2 9.6 (E2) 0.0354
140PM2 G %IG=0.9 3
140PMS G KC=0.0283 4$LC=0.00559 8$MC=0.001229 18
140PMS G NC=0.000273 4$OC=3.83E-5 6$PC=1.570E-6 23
140PM cG M |a(K)exp=0.031 {I8} (1981PoZV), |a(K)exp=0.038 {I15}
140PM2cG (1987De04), |a(K)exp=0.030 {I5} (1973VaYZ)
140PM L 415.16 111+
140PM E 0.20 AP 1.6 AP 6.3 AP 1.8 AP
140PMS E EAV=594 18$CK=0.749 9$CL=0.1080 13$CM+=0.0310 4
140PM G 75.3 2 3.9 M1 3.50 6
140PM2 G %IG=0.38 9
140PMS G KC=2.97 5$LC=0.419 7$MC=0.0895 15
140PMS G NC=0.0202 4$OC=0.00304 5$PC=0.000191 3
140PM cG M |a(L)exp=0.28 {I13}
140PM G 189.6 20.4
140PM2 G %IG=0.039 9
140PM G 415.3 21.5
140PM2 G %IG=0.15 5
140PM L 481.22 8+
140PM G 136.4 2 3.6 M1 0.641
140PM2 G %IG=0.35 8
140PMS G KC=0.544 8$LC=0.0762 12$MC=0.01626 24
140PMS G NC=0.00366 6$OC=0.000553 8$PC=3.50E-5 6
140PM cG M |a(K)exp=0.54 {I20} |a(L)exp=0.075 {I29} (1981PoZV),
140PM2cG |a(K)exp=0.45 {I15} (1987De04), |a(K)exp=0.55 {I16}, K/L=8.6 {I30}
140PMxcG (1973VaYZ)
140PM G 141.3 2 3.0 [M1,E2] 0.62 5
140PM2 G %IG=0.29 7
140PMS G KC=0.46 3$LC=0.125 56$MC=0.028 14
140PMS G NC=0.0061 29$OC=8.4E-4 34$PC=2.6E-5 6
140PM cG RI 0.7 {I2} in 1987De04
140PM G 145.7 2 2.6 M1 0.533
140PM2 G %IG=0.25 6
140PMS G KC=0.453 7$LC=0.0632 10$MC=0.01350 20
140PMS G NC=0.00304 5$OC=0.000459 7$PC=2.91E-5 5
140PM cG M |a(K)exp=0.52 {I19}, |a(L)exp=0.056 {I21} (1981PoZV),
140PMxcG |a(K)exp=0.32 {I8} (1973VaYZ)
140PM cG RI 0.9 {I3} in 1987De04
140PM G 220.7 1 8.0 (M1) 0.1693
140PM2 G %IG=0.78 18
140PMS G KC=0.1440 21$LC=0.0199 3$MC=0.00425 6
140PMS G NC=0.000959 14$OC=0.0001448 21$PC=9.21E-6 13
140PM cG M |a(K)exp=0.15 {I4}, |a(L)exp=0.030 {I8} (1981PoZV),
140PM2cG |a(K)exp=0.16 {I4} (1987De04), |a(K)exp=0.15 {I3}, K/L=5.7 {I10}
140PMxcG (1973VaYZ)
140PM G 255.6 2 1.8 (M1) 0.1139
140PM2 G %IG=0.18 4
140PMS G KC=0.0970 14$LC=0.01337 19$MC=0.00285 4
140PMS G NC=0.000643 9$OC=9.71E-5 14$PC=6.19E-6 9
140PM cG |a(K)exp=0.13 {I5} (1981PoZV), |a(K)exp=0.095 {I19}
140PMxcG (1973VaYZ)
140PM G 481.1 21.0
140PM2 G %IG=0.10 3
140PM cG $|a(K)exp=0.012 {I5} (1973VaYZ)
140PM L 503.38 110+,1+,2+
140PM G 158.5 2 6.3 (M1) 0.421
140PM2 G %IG=0.62 14
140PMS G KC=0.358 6$LC=0.0499 8$MC=0.01065 16
140PMS G NC=0.00240 4$OC=0.000362 6$PC=2.30E-5 4
140PM cG M |a(K)exp=0.32 {I11} (1981PoZV), |a(K)exp=0.28 {I10}
140PM2cG (1987De04), |a(K)exp=0.36 {I9}, K/L=6.4 {I16} (1973VaYZ)
140PM G 163.6 2 0.9 (M1) 0.386
140PM2 G %IG=0.088 20
140PMS G KC=0.328 5$LC=0.0457 7$MC=0.00975 14
140PMS G NC=0.00220 4$OC=0.000332 5$PC=2.10E-5 3
140PM cG M |a(K)exp=0.34 {I14}
140PM G 503.3 2 5.7 M1 0.0195
140PM2 G %IG=0.56 17
140PMS G KC=0.01668 24$LC=0.00225 4$MC=0.000478 7
140PMS G NC=0.0001078 16$OC=1.633E-5 23$PC=1.053E-6 15
140PM cG M |a(K)exp=0.015 {I6} (1981PoZV), |a(K)exp=0.013 {I5}
140PMxcG (1973VaYZ)
140PM L 534.04 15(+)
140PM G 308.7 2 0.9 (M1) 0.0689
140PM2 G %IG=0.088 20
140PMS G KC=0.0587 9$LC=0.00805 12$MC=0.001715 25
140PMS G NC=0.000387 6$OC=5.85E-5 9$PC=3.74E-6 6
140PM cG M |a(K)exp=0.054 {I26} (1981PoZV)
140PM G 533.9 2 1.5 (E2) 0.01033
140PM2 G %IG=0.15 5
140PMS G KC=0.00855 12$LC=0.001397 20$MC=0.000302 5
140PMS G NC=6.75E-5 10$OC=9.80E-6 14$PC=4.99E-7 7
140PM cG M |a(K)exp=0.0085 {I25} (1973VaYZ)
140PM L 565.47 7(1+,2+)
140PM G 150.4 2 1.0 (M1) 0.487
140PM2 G %IG=0.098 22
140PMS G KC=0.414 6$LC=0.0578 9$MC=0.01234 18
140PMS G NC=0.00278 4$OC=0.000420 6$PC=2.66E-5 4
140PM cG M |a(K)exp=0.34 {I15} (1981PoZV), |a(K)exp=0.32 {I8} (1973VaYZ)
140PM G 220.6 1 5.0 (M1) 0.1695
140PM2 G %IG=0.49 11
140PMS G KC=0.1442 21$LC=0.0200 3$MC=0.00426 6
140PMS G NC=0.000960 14$OC=0.0001450 21$PC=9.22E-6 13
140PM cG M |a(K)exp=0.15 {I4}, |a(L)exp=0.030 {I8} (1981PoZV),
140PMxcG |a(K)exp=0.16 {I4} (1987De04)
140PM G 339.8 1 1.0 (E2) 0.0370 @
140PM2 G %IG=0.098 22
140PMS G KC=0.0295 5$LC=0.00588 9$MC=0.001294 19
140PMS G NC=0.000287 4$OC=4.03E-5 6$PC=1.636E-6 23
140PM cG M |a(K)exp=0.030 {I8}, |a(L)exp=0.0059 {I17} (1981PoZV)
140PM G 425.6 21.1
140PM2 G %IG=0.107 25
140PM G 565.6 2 3.3 (M1) 0.01457
140PM2 G %IG=0.32 10
140PMS G KC=0.01245 18$LC=0.001672 24$MC=0.000356 5
140PMS G NC=8.02E-5 12$OC=1.215E-5 17$PC=7.84E-7 11
140PM cG M |a(K)exp=0.011 {I5} (1981PoZV), |a(K)exp=0.0090 {I18}
140PMxcG (1973VaYZ)
140PM L 572.11 11(1+,2+)
140PM G 237.0 2 1.0 (M1) 0.1396
140PM2 G %IG=0.098 22
140PMS G KC=0.1188 17$LC=0.01641 24$MC=0.00350 5
140PMS G NC=0.000789 12$OC=0.0001192 17$PC=7.59E-6 11
140PM cG M |a(K)exp=0.11 {I5} (1981PoZV), |a(K)exp=0.12 {I4} (1973VaYZ)
140PM G 311.4 2 2.5 (M1) 0.0674
140PM2 G %IG=0.24 6
140PMS G KC=0.0574 8$LC=0.00786 11$MC=0.001676 24
140PMS G NC=0.000378 6$OC=5.71E-5 8$PC=3.65E-6 6
140PM cG M |a(K)exp=0.047 {I18} (1981PoZV), |a(K)exp=0.055 {I8}
140PMxcG (1973VaYZ)
140PM G 431.9 20.6
140PM2 G %IG=0.059 14
140PM G 572.2 2 3.0 (M1) 0.01416
140PM2 G %IG=0.29 9
140PMS G KC=0.01210 17$LC=0.001624 23$MC=0.000345 5
140PMS G NC=7.79E-5 11$OC=1.180E-5 17$PC=7.62E-7 11
140PM cG M |a(K)exp=0.010 {I5} (1981PoZV)
140PM L 576.27 14(0-,1-,2-)
140PM G 436.3 20.6
140PM2 G %IG=0.059 14
140PM G 576.3 2 4.0 (E1) 0.00300
140PM2 G %IG=0.39 12
140PMS G KC=0.00258 4$LC=0.000336 5$MC=7.12E-5 10
140PMS G NC=1.599E-5 23$OC=2.40E-6 4$PC=1.488E-7 21
140PM cG M |a(K)exp<0.0074 (1981PoZV)
140PM L 652.36 10
140PM G 312.4 21.7
140PM2 G %IG=0.17 4
140PM G 427.0 21.0
140PM2 G %IG=0.098 22
140PM G 652.5 21.7
140PM2 G %IG=0.17 5
140PM L 670.16 16(+)
140PM G 409.5 2 1.6 (M1) 0.0330
140PM2 G %IG=0.16 4
140PMS G KC=0.0282 4$LC=0.00383 6$MC=0.000814 12
140PMS G NC=0.000184 3$OC=2.78E-5 4$PC=1.78E-6 3
140PM cG M |a(K)exp=0.025 {I8} (1973VaYZ)
140PM L 761.35 13(+)
140PM G 421.6 2
140PM G 761.5 2 5.6 (E2) 0.00431
140PM2 G %IG=0.55 17
140PMS G KC=0.00363 5$LC=0.000535 8$MC=0.0001147 16
140PMS G NC=2.57E-5 4$OC=3.80E-6 6$PC=2.16E-7 3
140PM cG M |a(K)exp=0.0040 {I8} (1973VaYZ)
140PM L 808.22 18
140PM G 468.5 31.2 3
140PM2 G %IG=0.12 4
140PM cG E observed only in 1987De04 and 1973VaYZ
140PM cG $|a(K)exp=0.012 {I6} (1973VaYZ)
140PM G 668.2 23.3
140PM2 G %IG=0.32 8
140PM cG $|a(K)exp=0.0037 {I11} (1973VaYZ)
140PM G 808.3 0.6 ?
140PM2 G %IG=0.059 18
140PM L 844.62 110+,1+,2+
140PM E 0.06 AP 2 AP 6.1 AP 2 AP
140PMS E EAV=404 18$CK=0.816 5$CL=0.1185 7$CM+=0.03405 21
140PM G 279.0 2 4.9 (M1) 0.0902
140PM2 G %IG=0.48 11
140PMS G KC=0.0768 11$LC=0.01055 15$MC=0.00225 4
140PMS G NC=0.000507 8$OC=7.67E-5 11$PC=4.89E-6 7
140PM cG M |a(K)exp=0.075 {I21}, |a(L)exp=0.011 {I4} (1981PoZV),
140PM2cG |a(K)exp=0.069 {I10}, K/L=8.7 {I35} (1973VaYZ)
140PM G 341.3 221
140PM2 G %IG=2.1 5
140PM G 844.8 26.2
140PM2 G %IG=0.61 18
140PM L 855.81 11
140PM G 520.5 21.5
140PM2 G %IG=0.15 4
140PM G 630.5 20.6
140PM2 G %IG=0.059 14
140PM G 855.8 21.0
140PM2 G %IG=0.10 3
140PM L 874.29 15
140PM G 648.9 22.5
140PM2 G %IG=0.24 6
140PM G 874.2 24.8
140PM2 G %IG=0.47 14
140PM L 926.33 15
140PM G 586.3 21.7
140PM2 G %IG=0.17 4
140PM G 701.0 22.8
140PM2 G %IG=0.27 7
140PM cG $|a(K)exp=0.0037 {I11} (1973VaYZ)
140PM G 926.3 20.9 ?
140PM2 G %IG=0.09 3
140PM L 951.29 16
140PM G 951.1 22.9
140PM2 G %IG=0.28 9
140PM L 1065.80 16(+)
140PM G 725.8 2 2.3 (M1) 0.00788
140PM2 G %IG=0.22 5
140PMS G KC=0.00674 10$LC=0.000898 13$MC=0.000191 3
140PMS G NC=4.30E-5 6$OC=6.52E-6 10$PC=4.23E-7 6
140PM cG M |a(K)exp=0.0069 {I17} (1973VaYZ)
140PM G 1065.5 50.3 ?
140PM2 G %IG=0.029 9
140PM L 1088.99 20
140PM G 863.5 21.8
140PM2 G %IG=0.18 4
140PM G 1089.1 53.9
140PM2 G %IG=0.38 12
140PM L 1173.91 16
140PM G 608.3 21.4
140PM2 G %IG=0.14 3
140PM L 1278.8 5
140PM G 1018.2 51.5
140PM2 G %IG=0.15 4
140PM G 1053.5 50.9 ?
140PM2 G %IG=0.088 20
140PM L 1594.6 3
140PM E 1 AP 5.9 AP 1 AP
140PMS E CK=0.8388 4$CL=0.1251 3$CM+=0.03608 9
140PM G 1022.6 52.3
140PM2 G %IG=0.22 5
140PM G 1249.5 54.2
140PM2 G %IG=0.41 10
140PM G 1254.7 52.6
140PM2 G %IG=0.25 6
140PM G 1594.7 50.5 ?
140PM2 G %IG=0.049 15
140PM L 1618.2 4
140PM E 1.1 AP 5.8 AP 1.1 AP
140PMS E CK=0.8387 4$CL=0.1252 3$CM+=0.03613 10
140PM cE TI$from level feeding balance
140PM G 1278.1 55.6
140PM2 G %IG=0.55 13
140PM G 1283.0 55.3
140PM2 G %IG=0.52 12
140PM L 1619.25 111+
140PM E 5.8 AP 5.1 AP 5.8 AP
140PMS E CK=0.8386 4$CL=0.1252 3$CM+=0.03614 10
140PM G 445.2 21.4
140PM2 G %IG=0.14 3
140PM G 774.7 24.1
140PM2 G %IG=0.40 9
140PM G 858.0 50.4
140PM2 G %IG=0.039 9
140PM cG RI 7.0 {I9} in 1987De04 (for E|g=858.5 {I2})
140PM G 967.0 21.8
140PM2 G %IG=0.18 4
140PM G 1046.9 51.8
140PM2 G %IG=0.18 4
140PM G 1116.0 52.3
140PM2 G %IG=0.22 5
140PM G 1138.1 318.0
140PM2 G %IG=1.8 4
140PM G 1274.2 316.0
140PM2 G %IG=1.6 4
140PM G 1393.5 312.0
140PM2 G %IG=1.2 3
140PM G 1479.9 51.1
140PM2 G %IG=0.107 25
140PM G 1619.1 50.6 ?
140PM2 G %IG=0.059 18
140PM L 1623.09 151+
140PM E 1.7 AP 5.6 AP 1.7 AP
140PMS E CK=0.8386 4$CL=0.1252 3$CM+=0.03614 10
140PM G 671.6 20.4
140PM2 G %IG=0.039 9
140PM G 862.0 22.0
140PM2 G %IG=0.20 5
140PM G 1119.6 52.4
140PM2 G %IG=0.23 6
140PM G 1278.1 55.6
140PM2 G %IG=0.55 13
140PM G 1283.0 55.3
140PM2 G %IG=0.52 12
140PM G 1397.5 51.5
140PM2 G %IG=0.15 4
140PM G 1623.0 50.3 ?
140PM2 G %IG=0.029 9
140PM L 1670.11 101+
140PM E 5.5 AP 5.1 AP 5.5 AP
140PMS E CK=0.8382 4$CL=0.1256 3$CM+=0.03625 10
140PM G 604.2 22.2
140PM2 G %IG=0.21 5
140PM G 814.5 23.1
140PM2 G %IG=0.30 7
140PM G 825.5 2 7.5 M1 0.00577
140PM2 G %IG=0.73 17
140PMS G KC=0.00494 7$LC=0.000655 10$MC=0.0001390 20
140PMS G NC=3.14E-5 5$OC=4.76E-6 7$PC=3.09E-7 5
140PM cG M |a(K)exp=0.0051 {I18} (1981PoZV), |a(K)exp=0.0039 {I8}
140PMxcG (1973VaYZ)
140PM G 999.9 21.2
140PM2 G %IG=0.12 3
140PM G 1017.8 21.5
140PM2 G %IG=0.15 4
140PM G 1093.9 51.2
140PM2 G %IG=0.12 3
140PM G 1098.0 55.2
140PM2 G %IG=0.51 12
140PM G 1166.7 56.9
140PM2 G %IG=0.67 16
140PM G 1188.9 51.4
140PM2 G %IG=0.14 3
140PM cG RI I|g=0.7 {I2} in 1987De04
140PM G 1324.9 54.4
140PM2 G %IG=0.43 10
140PM G 1330.0 53.1
140PM2 G %IG=0.30 7
140PM G 1444.4 51.4
140PM2 G %IG=0.14 3
140PM G 1530.2 313.0
140PM2 G %IG=1.3 3
140PM G 1670.0 54.4
140PM2 G %IG=0.43 13
140PM L 2017.4 5
140PM G 1677.5 51.8
140PM2 G %IG=0.18 4