140BA 140CS B- DECAY 1986RO16 18NDS 201812
140BA H TYP=FUL$AUT=N. NICA$CIT=NDS 154, 1 (2018)$CUT=20-Nov-2018$
140BA c 1997Gr09,1996Gr20,1996GrZY,1996GrZZ,1994He33,1994He45,1992Gr21,1992Gr18
140BA2c : measured |b, |b|g with total absorption |g-ray spectrometer (TAGS)
140BA2c at INEL ISOL and compared with simulated spectra to produce I(|b{+-})
140BA3c distributions
140BA c 1986Ro16,1973Sc18,1974Sc14: measured |g, |g|g
140BA c 1986Ro16,1976Al05: measured |g|g(|q)
140BA c 1989Ma38: measured |g|g(t)
140BA c 1981De25,1973Ad04,1973Sc18,1968Al06: measured |b, |b|g
140BA c Others: 1961Wa14, 1962Wa34, 1963Zh01, 1966Zh02, 1966Ar08, 1967Bo46,
140BA2c 1969Ca03, 1969NaZT, 1969ToZY, 1971Kr22, 1972AdZV, 1972Eh02,
140BA3c 1974Gr29, 1975Al11.
140BA c Decay scheme proposed by 1986Ro16
140BA cB $|b feeding is based on I|g data from 1986Ro16 and |b(g.s.)=35.9% {I17}
140BA2cB (1997Gr09).
140BA cB $1997Gr09 (TAGS) used the level scheme from 1994Pe19 for simulated
140BA2cB spectra, while previously 1994He45 (TAGS, same authors and method) had
140BA2cB used the level scheme of 1987Pe07. 1997Gr09 comment that the 1987Pe07
140BA2cB level scheme provide a closer fit to the measured TAGS spectrum than
140BA2cB does the 1994Pe19 level scheme, which differ essentially by the data
140BA2cB from 1986Ro16, taken only by 1994Pe19. However 1994Pe19 ignored that
140BA2cB twelve levels of 1986Ro16 are tentative, which account for most of
140BA2cB the difference. These levels are properly marked here
140BA cB $For |b measurements see also 1981De25, 1973Ad04, 1973Sc18,
140BA2cB 1968Al06, 1966Zh02.
140BA cB $When the calculated feeding overlaps zero within three standard
140BA2cB deviations, the code GTOL (part of ENSDF Analysis Programs)
140BA2cB calculates estimated upper limits (90% confidence level) which are
140BA2cB given by evaluator in the table comments (see
140BA2cB "Statistics for Nuclear and Particle Physics", Louis Lyons,
140BA2cB Cambridge University Press, 1986)
140BA cB E av E|b=1890 {I40} (1982Al01)
140BA cB IB Presented in the comments are data of 1997Gr09; see also
140BA2cB 1994He45 (Table 2)
140BA cG E,RI$From 1986Ro16 for E|g<3700 and from 1974Sc14 for E|g>3700
140BA cG MR From |g|g(|q) (1986Ro16). No transitions of significant
140BA2cG intensities have multipole order greater than two (1986Ro16)
140BA cG M From |g|g(|q). It was assumed that M2 cannot compete
140BA2cG with E1; therefore, D+Q are M1+E2 and Q |g's are E2
140BA DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
140BA cG MR$If no value given it was assumed |d=1.00 for E2/M1,
140BA2cG |d=1.00 for E3/M2 and |d=0.10 for the other multipolarities
140BA cL E$From a least-squares fit to E|g data (normalized |h{+2}=1.61>
140BA2cL critical |h{+2}=1.26)
140BA cL J$Adopted values.
140BA cL J(A)$From 1986Ro16 based on mult, |d, and log| {Ift} (literature
140BA2cL results were considered where available)
140BA cL T$From Adopted Levels
140BA cL E(D)$Not supported by coincidence information (1974Sc14)
140CS P 0.0 1- 63.7 S 3 6219 10
140CS cP E,J,T$From {+140}Cs Adopted Levels
140CS cP QP$From 2017Wa10
140BA N 0.0529 20 1.00
140BA cN NR |b(g.s.)=35.9% {I17} (1997Gr09)
140BA PN 5
140BA G 771.0 90.8 3
140BA cG %I|g=0.042 {I16}
140BA G 1024.1 32.3 3
140BA cG %I|g=0.122 {I17}
140BA G 1109.5 101.2 5
140BA cG %I|g=0.06 {I3}
140BA G 1129.65 523 @
140BA cG %I|g=1.22 {I5}
140BA G 1411.1 101.8 5
140BA cG %I|g=0.10 {I3}
140BA G 1473.6 71.2 3
140BA cG %I|g=0.063 {I16}
140BA G 1479.2 91.0 3
140BA cG %I|g=0.053 {I16}
140BA G 1767.3 91.0 3
140BA cG %I|g=0.053 {I16}
140BA G 1780.5 51.0 3
140BA cG %I|g=0.053 {I16}
140BA G 1911.7 151.0 4
140BA cG %I|g=0.053 {I22}
140BA G 1942.8 101.2 5
140BA cG %I|g=0.06 {I3}
140BA G 2147.0 27.3 3
140BA cG %I|g=0.386 {I22}
140BA G 2383.5 60.9 4
140BA cG %I|g=0.048 {I22}
140BA G 2452.4 151.0 5
140BA cG %I|g=0.05 {I3}
140BA G 2694.3 151.0 8
140BA cG %I|g=0.05 {I5}
140BA G 3023.2 23.5 2
140BA cG %I|g=0.185 {I13}
140BA G 3166.1 100.5 2
140BA cG %I|g=0.026 {I11}
140BA G 3285.2 53.0 5
140BA cG %I|g=0.16 {I3}
140BA G 3544.8 41.7 3
140BA cG %I|g=0.090 {I17}
140BA G 3756.4 5 2.2 4
140BA cG %I|g=0.116 {I22}
140BA G 3786.4 8 1.4 5
140BA cG %I|g=0.07 {I3}
140BA G 3825.4 15 0.4 2
140BA cG %I|g=0.021 {I11}
140BA G 3829.5 10 0.5 2
140BA cG %I|g=0.026 {I11}
140BA G 4075.7 6 0.9 3
140BA cG %I|g=0.048 {I16}
140BA G 4108.1 8 1.0 3
140BA cG %I|g=0.053 {I16}
140BA G 4210.1 8 1.0 4
140BA cG %I|g=0.053 {I22}
140BA G 4237.6 8 0.7 3
140BA cG %I|g=0.037 {I16}
140BA G 4381.4 8 0.6 2
140BA cG %I|g=0.032 {I11}
140BA G 4472.8 8 1.0 3
140BA cG %I|g=0.053 {I16}
140BA G 4499.6 10 0.6 2
140BA cG %I|g=0.032 {I11}
140BA G 4525.3 8 1.3 4
140BA cG %I|g=0.069 {I22}
140BA G 4531.4 6 1.0 3
140BA cG %I|g=0.053 {I16}
140BA G 4786.3 10 0.4 2
140BA cG %I|g=0.021 {I11}
140BA G 4813.2 10 0.4 2
140BA cG %I|g=0.021 {I11}
140BA G 5228.2 15 0.2 2
140BA cG %I|g=0.011 {I11}
140BA L 0.0 0+ 12.751 D 4
140BA2 L %B-=100
140BA B 35.9 17 7.052 21
140BAS B EAV=2738.9 47
140BA cB E$measured value 6208 {I25} (1981De25). Others: 6210 {I50} (2001Ko07);
140BA2cB 6199 {I25} (1993Gr17); 6210 {I20} (1992Pr04); 6330 {I100} (1973Sc18);
140BA2cB 6177 {I40} (1978Wu04)
140BA cB IB from 1997Gr09
140BA L 602.31 52+ 7.2 PS +15-6
140BA cL T$other value 9.7 {I41} ps (1989Ma38)
140BA B 14.9 18 7.24 6
140BAS B EAV=2456.2 47
140BA cB E$measured value 5646 {I50} (1981De25). Others: 5700 {I100} (1973Sc18),
140BA2cB 5200 {I100} (1973Ad04), 5180 {I100} (1966Zh02)
140BA cB IB 10.07 from 1997Gr09
140BA G 602.25 5 1000 30E2 0.00600
140BAS G KC=0.00508 8$LC=0.000729 11$MC=0.0001513 22
140BAS G NC=3.24E-5 5$OC=4.84E-6 7$PC=3.09E-7 5
140BA cG %I|g=52.9 {I18}
140BA cG %I|g=53.3 {I18}
140BA L 1130.54 74+ A
140BA B 0.13 9 9.1 3 ?
140BAS B EAV=2208.2 47
140BA cB IB 0.0 from 1997Gr09
140BA G 528.25 5 55.2 8E2 0.00848
140BAS G KC=0.00715 10$LC=0.001060 15$MC=0.000220 3
140BAS G NC=4.71E-5 7$OC=7.00E-6 10$PC=4.32E-7 6
140BA cG %I|g=2.92 {I12}
140BA L 1510.64 62+ A
140BA B 3.7 3 7.51 4
140BAS B EAV=2029.8 47
140BA cB E$measured value 4700 {I70} (1981De25)
140BA cB IB 3.36 from 1997Gr09
140BA G 908.25 5 163 4E2+M1 -0.60 +18-170.0028911
140BAS G KC=0.00249 10$LC=0.000317 11$MC=6.51E-5 22
140BAS G NC=1.41E-5 5$OC=2.16E-6 8$PC=1.59E-7 7
140BA cG %I|g=8.6 {I4}
140BA L 1802.84 8 3- A
140BA B
140BA cB IB$negative feeding -1.30 {I21} from intensity balence
140BA G 672.1 4 21.7 10(E1+M2) +0.13 +7-6 0.0020 4
140BAS G KC=0.0017 3$LC=0.00021 5$MC=4.4E-5 9
140BAS G NC=9.5E-6 20$OC=1.4E-6 3$PC=1.05E-7 22
140BA cG %I|g=1.15 {I7}
140BA cG M$D+Q from |g|g(|q); E1+M2 from decay scheme.
140BA G 1200.3 1 89.9 6(E1) 5.74E-4
140BAS G KC=0.000472 7$LC=5.76E-5 8$MC=1.175E-5 17
140BAS G NC=2.53E-6 4$OC=3.89E-7 6$PC=2.88E-8 4$IPC=3.02E-5 5
140BA cG %I|g=4.75 {I18}
140BA cG MR -0.02 {I2}
140BA cG M from |g|g(|q), E1 from decay scheme.
140BA L 1823.80 100+ A
140BA B 1.65 11 7.73 3
140BAS B EAV=1883.0 47
140BA cB IB 1.46 from 1997Gr09
140BA G 1221.4 1 45.0 4E2 1.20E-3
140BAS G KC=0.001024 15$LC=0.0001312 19$MC=2.69E-5 4
140BAS G NC=5.80E-6 9$OC=8.86E-7 13$PC=6.37E-8 9$IPC=9.00E-6 13
140BA cG %I|g=2.38 {I9}
140BA L 1951.5 3 3+ A
140BA B 0.04 LE 9.3 GE ?
140BAS B EAV=1823.2 47
140BA cB $GTOL upper limit (method 1): 0.04
140BA cB IB 0.04 from 1997Gr09
140BA G 820.9 4 4.7 3M1+E2 0.0034 6
140BAS G KC=0.0029 5$LC=0.00038 6$MC=7.8E-5 11
140BAS G NC=1.68E-5 24$OC=2.6E-6 4$PC=1.8E-7 4
140BA cG %I|g=0.249 {I19}
140BA cG MR |d=-4.6 to -0.43 (for J=3)
140BA L 1993.53 102+ A
140BA B 0.50 14 8.18 13
140BAS B EAV=1803.5 47
140BA cB IB 0.48 from 1997Gr09
140BA G 1391.25 1035.1 6M1+E2 +0.18 +5-6 1.22E-32
140BAS G KC=0.001014 15$LC=0.0001263 19$MC=2.59E-5 4
140BAS G NC=5.59E-6 9$OC=8.60E-7 13$PC=6.46E-8 10$IPC=4.30E-5 6
140BA cG %I|g=1.86 {I8}
140BA G 1993.5 39.9 4
140BA cG %I|g=0.52 {I3}
140BA cG %I|g=0.53 {I3}
140BA L 2061.2
140BA B ?
140BA cB IB 0.30 from 1997Gr09
140BA L 2138.27 123(+) A
140BA B 0.60 8 8.03 6
140BAS B EAV=1735.7 47
140BA cB IB 0.24 from 1997Gr09
140BA G 627.5 32.9 3
140BA cG %I|g=0.153 {I17}
140BA G 1008.1 2 15.6 5(M1+E2) -4.5 +14-260.001814
140BAS G KC=0.00156 4$LC=0.000203 5$MC=4.18E-5 9
140BAS G NC=8.99E-6 19$OC=1.37E-6 3$PC=9.67E-8 24
140BA cG %I|g=0.82 {I4}
140BA G 1536.2 212.0 4D+Q
140BA cG %I|g=0.63 {I4}
140BA cG MR +0.04 {I+13-12} or +3.6 {I+3.7-1.3}
140BA L 2204.11 112+,3 A
140BA B 0.19 LE 8.5 GE
140BAS B EAV=1704.9 47
140BA cB $GTOL upper limit (method 1): 0.19
140BA cB IB 0.60 in 1997Gr09
140BA G 400.8 50.6 3
140BA cG %I|g=0.032 {I16}
140BA G 693.4 52.0 10
140BA cG %I|g=0.11 {I6}
140BA G 1072.9 103.7 4
140BA cG %I|g=0.196 {I23}
140BA G 1601.8 19.5 4
140BA cG %I|g=0.50 {I3}
140BA cG MR |d=+0.55 {I+23-15} (J=2); for J=3 |d=-0.08 {I11} or
140BA2cG |d>+5.0 or <-33.8
140BA L 2237.21 72+ A
140BA B 2.8 3 7.32 5
140BAS B EAV=1689.4 47
140BA cB IB 1.44 in 1997Gr09
140BA G 413.4 33.5 5
140BA cG %I|g=0.19 {I3}
140BA G 726.2 51.3 10
140BA cG %I|g=0.07 {I6}
140BA G 1634.9 1 47.9 6M1+E2 +1.00 2 8.79E-4
140BAS G KC=0.000648 10$LC=8.06E-5 12$MC=1.651E-5 24
140BAS G NC=3.56E-6 5$OC=5.48E-7 8$PC=4.08E-8 6$IPC=0.0001300 19
140BA cG %I|g=2.53 {I10}
140BA G 2237.3 156 3
140BA cG %I|g=2.96 {I19}
140BA cG %I|g=2.99 {I19}
140BA L 2309.89 152+,1 A
140BA B 0.77 9 7.84 6
140BAS B EAV=1655.5 47
140BA cB IB 0.48 in 1997Gr09
140BA G 798.9 82.2 3
140BA cG %I|g=0.116 {I17}
140BA G 1707.4 224.1 5D+Q
140BA cG %I|g=1.27 {I6}
140BA cG MR$-0.31 {I5} (for J=1), +0.20 {I7} (for J=2)
140BA G 2309.3 64.9 10
140BA cG %I|g=0.26 {I6}
140BA cG %I|g=0.26 {I6}
140BA L 2320.32 18(3-)
140BA B ?
140BA cB IB 0.097 in 1997Gr09
140BA G 809.8 101.0 5
140BA cG %I|g=0.05 {I3}
140BA G 1190.0 154.1 2
140BA cG %I|g=0.217 {I14}
140BA G 1718.1 25.4 4
140BA cG %I|g=0.286 {I24}
140BA L 2429.52 81,2+ A
140BA B 1.25 9 7.58 4
140BAS B EAV=1599.6 47
140BA cB IB 2.64 in 1997Gr09
140BA G 918.3 28.2 2 D+Q
140BA cG %I|g=0.434 {I19}
140BA cG MR for J=1 |d=-0.16 {I+32-34}; for J=2 |d>-0.04 or <-2.0
140BA G 1827.3 27.3 4
140BA cG %I|g=0.39 {I3}
140BA G 2429.6 122.7 4
140BA cG %I|g=1.20 {I5}
140BA cG %I|g=1.21 {I5}
140BA L 2521.87 10 1,2(+)
140BA B 3.0 3 7.15 5
140BAS B EAV=1556.4 47
140BA cB IB 2.64 in 1997Gr09
140BA G 1010.4 107.8 5
140BA cG %I|g=0.41 {I3}
140BA G 1918.7 53.8 6
140BA cG %I|g=0.20 {I4}
140BA G 2521.9 161 4
140BA cG %I|g=3.23 {I24}
140BA cG %I|g=3.25 {I24}
140BA L 2663.9 4
140BA G 1154.2 150.7 2
140BA cG %I|g=0.037 {I11}
140BA G 2061.5 42.4 4
140BA cG %I|g=0.127 {I22}
140BA G 2663.7 100.5 3 &
140BA cG %I|g=0.026 {I16}
140BA cG %I|g=0.027 {I16}
140BA L 2692.0 4 2
140BA B 0.13 5 8.43 17
140BAS B EAV=1477.1 47
140BA cB IB 0.0 in 1997Gr09
140BA G 740.8 101.1 4
140BA cG %I|g=0.058 {I22}
140BA G 889.1 80.7 4 &
140BA cG %I|g=0.037 {I22}
140BA G 1181.4 80.4 3
140BA cG %I|g=0.021 {I16}
140BA G 2089.7 100.9 3 &
140BA cG %I|g=0.048 {I16}
140BA L 2703.98 10 1- A
140BA B 3.36 15 7.007 21
140BAS B EAV=1471.5 47
140BA cB IB 3.48 in 1997Gr09
140BA G 2101.7 1 57.2 6E1+M2 -0.09 3 8.80E-4
140BAS G KC=0.000191 5$LC=2.30E-5 7$MC=4.70E-6 13
140BAS G NC=1.01E-6 3$OC=1.56E-7 5$PC=1.17E-8 4$IPC=0.000660 10
140BA cG %I|g=3.02 {I12}
140BA G 2703.7 212.1 3
140BA cG %I|g=0.64 {I3}
140BA cG %I|g=0.65 {I3}
140BA L 2782.05 23 2(+),3+
140BA B 0.13 6 8.38 20
140BAS B EAV=1435.2 47
140BA cB IB 0.060 in 1997Gr09
140BA G 643.5 50.7 3
140BA cG %I|g=0.037 {I16}
140BA G 1270.9 42.4 3
140BA cG %I|g=0.127 {I17}
140BA G 1651.1 52.8 5 &
140BA cG %I|g=0.15 {I3}
140BA G 2180.3 80.9 5
140BA cG %I|g=0.05 {I3}
140BA L 2787.53 17 1(-),2(+)
140BA B 0.25 6 8.09 11
140BAS B EAV=1432.6 47
140BA cB IB 0.0 from 1997Gr09
140BA G 984.5 91.5 5
140BA cG %I|g=0.08 {I3}
140BA G 1276.6 52.1 5
140BA cG %I|g=0.11 {I3}
140BA G 2185.2 25.2 3
140BA cG %I|g=0.275 {I19}
140BA G 2788.2 61.9 3
140BA cG %I|g=0.100 {I17}
140BA cG %I|g=0.101 {I17}
140BA L 2870.63 11 2+ A
140BA B 1.03 9 7.43 4
140BAS B EAV=1393.9 47
140BA cB IB 1.56 in 1997Gr09
140BA G 1068.0 101.4 5
140BA cG %I|g=0.07 {I3}
140BA G 2268.3 1 22.6 4M1+E2 -0.19 8 8.50E-4
140BAS G KC=0.000356 6$LC=4.37E-5 7$MC=8.94E-6 13
140BAS G NC=1.93E-6 3$OC=2.98E-7 5$PC=2.25E-8 4$IPC=0.000440 7
140BA cG %I|g=1.20 {I5}
140BA L 2873.78 17 1(+),2(+)
140BA B 0.22 13 8.1 3
140BAS B EAV=1392.5 47
140BA cB IB 0.49 in 1997Gr09
140BA G 881.1 51.1 3
140BA cG %I|g=0.058 {I16}
140BA G 1363.3 54.9 3
140BA cG %I|g=0.259 {I19}
140BA G 2873.6 28.1 3
140BA cG %I|g=0.428 {I23}
140BA cG %I|g=0.432 {I23}
140BA L 2932.58 82- A
140BA B 5.42 24 6.676 21
140BAS B EAV=1365.1 47
140BA cB IB 4.55 in 1997Gr09
140BA G 411.7 81.6 6
140BA cG %I|g=0.08 {I4}
140BA G 695.5 55.4 10
140BA cG %I|g=0.29 {I6}
140BA G 728.9 61.7 5
140BA cG %I|g=0.09 {I3}
140BA G 794.6 61.6 4 &
140BA cG %I|g=0.085 {I22}
140BA G 939.0 50.4 3 &
140BA cG %I|g=0.021 {I16}
140BA G 1129.65 5 23 APM1+E2 +1.7 2 0.001524 @
140BAS G KC=0.00131 3$LC=0.000168 4$MC=3.45E-5 7
140BAS G NC=7.43E-6 16$OC=1.136E-6 24$PC=8.23E-8 19$IPC=1.088E-6 16
140BA cG %I|g=1.2 {I6}
140BA G 1422.0 513.8 10 D+Q +0.41 +53-29 @
140BA cG %I|g=0.73 {I6}
140BA G 2330.5 170.2 7 D+Q
140BA cG %I|g=3.71 {I15}
140BA cG MR +0.41 {I+53-29} or |d<-3.2 or >+2.9
140BA L 2973.35 21
140BA B .06 LE 8.6 GE ?
140BAS B EAV=1346.2 47
140BA cB $GTOL upper limit (method 1): 0.06
140BA cB IB 2.64 in 1997Gr09
140BA G 735.9 310.9 5
140BA cG %I|g=0.58 {I4}
140BA L 3098.65 15 1(+),2(+)
140BA B 0.14 13 8.2 4 ?
140BAS B EAV=1288.0 47
140BA cB IB 0.12 in 1997Gr09
140BA G 862.3 140.8 5 &
140BA cG %I|g=0.04 {I3}
140BA G 893.4 50.7 4
140BA cG %I|g=0.037 {I22}
140BA G 1146.9 41.5 2 &
140BA cG %I|g=0.079 {I11}
140BA G 2496.6 25.5 3
140BA cG %I|g=0.291 {I20}
140BA G 3098.6 32.6 3
140BA cG %I|g=0.137 {I17}
140BA cG %I|g=0.139 {I17}
140BA L 3451.44 19 1(-),2(+)
140BA B 0.79 7 7.20 4
140BAS B EAV=1125.0 46
140BA cB IB 1.92 in 1997Gr09
140BA G 1627.2 101.8 8
140BA cG %I|g=0.10 {I5}
140BA G 1648.5 101.4 4
140BA cG %I|g=0.074 {I22}
140BA G 1940.2 81.9 5
140BA cG %I|g=0.10 {I3}
140BA G 3451.45 209.8 4
140BA cG %I|g=0.52 {I3}
140BA cG %I|g=0.52 {I3}
140BA L 3520.5 3 1(+),2
140BA B 0.85 6 7.12 4
140BAS B EAV=1093.2 46
140BA cB IB 024 in 1997Gr09
140BA G 1381.8 91.1 3
140BA cG %I|g=0.058 {I16}
140BA G 1526.8 81.2 4 &
140BA cG %I|g=0.063 {I22}
140BA G 2009.9 314.6 6
140BA cG %I|g=0.77 {I5}
140BA L 3526.5 4(1+,2+)
140BA B 0.36 8 7.49 10
140BAS B EAV=1090.4 46
140BA cB IB 0.36 in 1997Gr09
140BA G 862.3 140.8 5 &
140BA cG %I|g=0.04 {I3}
140BA G 1288.5 82.2 6
140BA cG %I|g=0.12 {I4}
140BA G 1323.4 71.3 3
140BA cG %I|g=0.069 {I16}
140BA G 1701.8 152.5 10
140BA cG %I|g=0.13 {I6}
140BA G 3526.6 51.6 3
140BA cG %I|g=0.085 {I17}
140BA cG %I|g=0.085 {I17}
140BA L 3601.7 5 1(-),2(+)
140BA B 0.73 10 7.13 6
140BAS B EAV=1055.9 46
140BA cB IB 0.90 in 1997Gr09
140BA G 1171.6 200.5 4 &
140BA cG %I|g=0.026 {I22}
140BA G 1281.1 101.2 5
140BA cG %I|g=0.06 {I3}
140BA G 1291.9 102.8 6 &
140BA cG %I|g=0.15 {I4}
140BA G 1396.4 151.2 8
140BA cG %I|g=0.06 {I5}
140BA G 1799.3 82.8 10 &
140BA cG %I|g=0.15 {I6}
140BA G 3601.8 95.3 6
140BA cG %I|g=0.28 {I4}
140BA cG %I|g=0.28 {I4}
140BA L 3656.08 11 2 A
140BA B 4.6 3 6.30 3
140BAS B EAV=1031.0 46
140BA cB IB 3.18 in 1997Gr09
140BA G 873.2 61.3 5
140BA cG %I|g=0.07 {I3}
140BA G 1418.5 77.0 10
140BA cG %I|g=0.37 {I6}
140BA G 1517.0 53.8 4 &
140BA cG %I|g=0.201 {I23}
140BA G 1853.4 166 3D+Q -0.24 11
140BA cG %I|g=3.49 {I21}
140BA G 3053.3 221.4 5D+(Q) -0.04 11
140BA cG %I|g=1.13 {I5}
140BA L 3845.3 6 ?
140BA B 0.053 16 8.10 14
140BAS B EAV=944.5 46
140BA cB IB 0.54 from 1997Gr09
140BA G 3845.2 6 1.0 3 ?
140BA cG %I|g=0.053 {I16}
140BA L 3851.00 91 A
140BA B 1.77 19 6.57 5
140BAS B EAV=941.9 46
140BA cB IB 4.19 in 1997Gr09
140BA G 980.7 101.4 5 &
140BA cG %I|g=0.07 {I3}
140BA G 1064.0 72.4 3 &
140BA cG %I|g=0.127 {I17}
140BA G 1146.9 41.5 2 &
140BA cG %I|g=0.079 {I11}
140BA G 1422.0 51.0 5 @
140BA cG %I|g=0.05 {I3}
140BA G 1613.9 113.9 3
140BA cG %I|g=0.74 {I4}
140BA G 1857.9 69.4 20
140BA cG %I|g=0.50 {I11}
140BA G 2048.1 35.4 3
140BA cG %I|g=0.286 {I19}
140BA G 2340.00 154.6 6D+Q -0.67 32
140BA cG %I|g=0.24 {I4}
140BA G 3248.5 103.4 10
140BA cG %I|g=0.18 {I6}
140BA G 3851.1 10 0.4 3
140BA cG %I|g=0.021 {I16}
140BA L 3944.06 16 1 A
140BA B 1.34 11 6.62 4
140BAS B EAV=899.6 46
140BA cB IB 1.80 in 1997Gr09
140BA G 969.4 70.5 3
140BA cG %I|g=0.026 {I16}
140BA G 1513.8 52.6 5
140BA cG %I|g=0.14 {I3}
140BA G 1949.9 79.0 8D+Q -0.34 20
140BA cG %I|g=0.48 {I5}
140BA G 2120.0 41.7 3
140BA cG %I|g=0.090 {I17}
140BA G 3341.2 58.0 4 &
140BA cG %I|g=0.42 {I3}
140BA G 3944.1 3 6.4 13
140BA cG %I|g=0.34 {I7}
140BA L 3973.07 12 2 A
140BA B 2.90 18 6.26 3
140BAS B EAV=886.4 46
140BA cB IB 3.24 from 1997Gr09
140BA G 1000.7 51.9 5 &
140BA cG %I|g=0.10 {I3}
140BA G 1040.5 24.5 3
140BA cG %I|g=0.238 {I19}
140BA G 1101.6 101.5 5
140BA cG %I|g=0.08 {I3}
140BA G 1662.9 23.5 3
140BA cG %I|g=0.185 {I18}
140BA G 1735.8 1010.2 20
140BA cG %I|g=0.54 {I11}
140BA G 1835.0 43.5 3
140BA cG %I|g=0.185 {I18}
140BA G 2022.6 92.0 8
140BA cG %I|g=0.11 {I5}
140BA G 2170.0 212.8 4
140BA cG %I|g=0.68 {I4}
140BA G 2462.9 57.0 10D+Q +0.31 +63-39
140BA cG %I|g=0.37 {I6}
140BA G 3371.00 259.7 4D+Q
140BA cG %I|g=0.51 {I3}
140BA cG MR +0.30 {I+22-5} or >+14.4 or <-3.2
140BA L 4032.5 9 1,2 ?
140BA B 0.27 7 7.25 12 ?
140BAS B EAV=859.5 46
140BA cB $GTOL upper limit (method 1): 0.01
140BA cB IB 0.36 from 1997Gr09
140BA G 934.9 30.8 4 ?
140BA cG %I|g=0.042 {I22}
140BA G 1057.2 51.2 4 ?
140BA cG %I|g=0.063 {I22}
140BA cG E$ differs by 3|s from |DE{-levels}
140BA G 1098.6 102.5 5 ?
140BA cG %I|g=0.13 {I3}
140BA G 1158.5 80.3 2 ?
140BA cG %I|g=0.016 {I11}
140BA G 1795.0 101.5 10 & ?
140BA cG %I|g=0.08 {I6}
140BA L 4037.37 16 2
140BA B 1.17 11 6.61 5
140BAS B EAV=857.3 46
140BA cB IB 0.66 from 1997Gr09
140BA G 939.0 50.4 3 &
140BA cG %I|g=0.021 {I16}
140BA G 1064.0 72.4 3 &
140BA cG %I|g=0.127 {I17}
140BA2 G FL=2973.35
140BA G 1104.8 101.2 5
140BA cG %I|g=0.06 {I3}
140BA G 1164.4 200.6 4
140BA cG %I|g=0.032 {I22}
140BA2 G FL=2873.78
140BA G 1607.7 43.6 6
140BA cG %I|g=0.19 {I4}
140BA G 1799.3 82.8 10 &
140BA cG %I|g=0.15 {I6}
140BA G 1899.6 92.1 4
140BA cG %I|g=0.111 {I22}
140BA G 2236.0 153.0 10 &
140BA cG %I|g=0.16 {I6}
140BA G 3435.0 28.5 4
140BA cG %I|g=0.45 {I3}
140BA L 4079.93 13 1(-),2
140BA B 1.47 9 6.47 3
140BAS B EAV=838.0 46
140BA cB IB 1.20 from 1997Gr09
140BA G 980.7 101.4 5 &
140BA cG %I|g=0.07 {I3}
140BA G 1291.9 102.8 6 &
140BA cG %I|g=0.15 {I4}
140BA G 1375.9 42.0 3 &
140BA cG %I|g=0.106 {I17}
140BA G 1651.1 52.8 5 &
140BA cG %I|g=0.15 {I3}
140BA G 1770.2 61.1 3
140BA cG %I|g=0.058 {I16}
140BA G 2086.8 101.8 5
140BA cG %I|g=0.10 {I3}
140BA G 2277.00 1512.4 6
140BA cG %I|g=0.66 {I4}
140BA G 3477.6 33.4 3
140BA cG %I|g=0.180 {I18}
140BA L 4275.1 3 1,2
140BA B 0.48 6 6.79 6
140BAS B EAV=750.3 45
140BA cB IB 0.60 from 1997Gr09
140BA G 1299.2 154.3 3
140BA cG %I|g=0.227 {I18}
140BA G 1339.2 151.8 6
140BA cG %I|g=0.10 {I4}
140BA G 1492.3 51.8 5
140BA cG %I|g=0.10 {I3}
140BA G 2038.5 51.8 3 &
140BA cG %I|g=0.095 {I17}
140BA G 2764.8 41.9 3
140BA cG %I|g=0.100 {I17}
140BA L 4358.79 19 2 A
140BA B 0.65 5 6.59 4
140BAS B EAV=712.9 45
140BA cB IB 0.48 from 1997Gr09
140BA G 1928.2 71.8 3
140BA cG %I|g=0.095 {I17}
140BA G 2038.5 51.8 3 &
140BA cG %I|g=0.095 {I17}
140BA G 2848.2 211.7 5D+Q
140BA cG %I|g=0.62 {I4}
140BA cG MR +0.25 {I+37-20} or -4.3<|d<-2.0
140BA L 4387.8 3 1(-),2
140BA B 0.27 6 6.94 10
140BAS B EAV=700.0 45
140BA cB IB 0.66 from 1997Gr09
140BA G 862.3 140.8 5 &
140BA cG %I|g=0.04 {I3}
140BA G 1454.7 43.0 4 &
140BA cG %I|g=0.159 {I22}
140BA G 2067.7 36.2 3
140BA cG %I|g=0.328 {I20}
140BA L 4395.4 ?
140BAF L FLAG=D
140BA B 0.23 4 7.00 8
140BAS B EAV=696.6 45
140BA cB IB 0.60 from 1997Gr09
140BA G 3793.3 4 4.3 6 ?
140BA cG %I|g=0.23 {I4}
140BA L 4416.0 3 1,2(+)
140BAF L FLAG=D
140BA B 0.28 6 6.90 10
140BAS B EAV=687.5 45
140BA cB IB 0.60 in 1997Gr09
140BA G 760.3 100.7 4
140BA cG %I|g=0.037 {I22}
140BA G 1319.7 200.4 3
140BA cG %I|g=0.021 {I16}
140BA G 1442.4 32.7 3
140BA cG %I|g=0.143 {I17}
140BA G 1542.3 61.4 4
140BA cG %I|g=0.074 {I22}
140BA G 4416.5 6 1.2 3
140BA cG %I|g=0.063 {I16}
140BA L 4499.93 15 1(+),2(+)
140BA B 0.52 8 6.55 7
140BAS B EAV=650.3 45
140BA cB IB 0.42 from 1997Gr09
140BA G 555.5 22.8 2
140BA cG %I|g=0.148 {I12}
140BA G 1795.0 101.5 10 &
140BA cG %I|g=0.08 {I6}
140BA G 1807.9 50.6 4
140BA cG %I|g=0.032 {I22}
140BA G 2362.00 154.2 6
140BA cG %I|g=0.22 {I4}
140BA G 2674.6 51.4 2
140BA cG %I|g=0.074 {I11}
140BA L 4801.16 21 2 ?
140BA B 0.53 6 6.21 5 ?
140BAS B EAV=519.0 43
140BA cB IB 0.58 from 1997Gr09
140BA G 949.4 70.9 3 & ?
140BA cG %I|g=0.048 {I16}
140BA G 2280.3 72.1 6 ?
140BA cG %I|g=0.11 {I4}
140BA G 2371.5 41.9 4 ?
140BA cG %I|g=0.100 {I22}
140BA G 2564.1 71.1 3 ?
140BA cG %I|g=0.058 {I16}
140BA G 2663.7 100.5 3 & ?
140BA cG %I|g=0.026 {I16}
140BA G 2998.2 33.6 2 ?
140BA cG %I|g=0.190 {I13}
140BA L 4981.9 6 0(+),1,2(+) ?
140BAF L FLAG=D
140BA B 0.23 6 6.35 12 ?
140BAS B EAV=442.0 43
140BA cB IB 0.66 in 1997Gr09
140BA G 944.3 100.7 3 ?
140BA cG %I|g=0.037 {I16}
140BA G 949.4 70.9 3 & ?
140BA cG %I|g=0.048 {I16}
140BA G 2459.5 102.0 10 ?
140BA cG %I|g=0.11 {I6}
140BA G 4982.4 8 0.7 3 ?
140BA cG %I|g=0.037 {I16}
140BA L 5109.90 18 1-,2- ?
140BA B 0.64 7 5.73 5 ?
140BAS B EAV=388.6 42
140BA G 1137.5 41.8 2 ?
140BA cG %I|g=0.095 {I12}
140BA G 1454.7 43.0 4 & ?
140BA cG %I|g=0.159 {I22}
140BA G 2236.0 153.0 10 & ?
140BA cG %I|g=0.16 {I6}
140BA G 3115.9 24.3 4 ?
140BA cG %I|g=0.227 {I23}
140BA L 5173.69 18 1-,2- ?
140BAF L FLAG=D
140BA B 0.83 6 5.52 4 ?
140BAS B EAV=362.3 41
140BA cB IB 0.36 in 1997Gr09
140BA G 758.5 100.7 4 ?
140BA cG %I|g=0.037 {I22}
140BA G 1137.5 41.8 2 ?
140BA cG %I|g=0.095 {I12}
140BA G 1517.0 53.8 4 & ?
140BA cG %I|g=0.201 {I23}
140BA G 2387.1 100.8 4 ?
140BA cG %I|g=0.042 {I22}
140BA G 2969.2 28.2 3 ?
140BA cG %I|g=0.434 {I23}
140BA G 4572.1 10 0.4 2 ?
140BA cG %I|g=0.021 {I11}
140BA L 5183.8 10 2- ?
140BAF L FLAG=D
140BA B 0.86 9 5.49 5 ?
140BAS B EAV=358.2 42
140BA cB IB 0.24 in 1997Gr09
140BA G 794.6 61.6 4 & ?
140BA cG %I|g=0.085 {I22}
140BA G 826.9 150.5 3 ?
140BA cG %I|g=0.026 {I16}
140BA G 1526.8 81.2 4 & ?
140BA cG %I|g=0.063 {I22}
140BA G 2250.9 32.9 4 ?
140BA cG %I|g=0.153 {I22}
140BA G 2312.4 81.6 10 ?
140BA cG %I|g=0.08 {I6}
140BA G 2401.1 61.2 2 ?
140BA cG %I|g=0.063 {I11}
140BA G 2477.5 80.9 3 ?
140BA cG %I|g=0.048 {I16}
140BA G 2660.8 100.5 3 ?
140BA cG %I|g=0.026 {I16}
140BA G 3189.5 24.3 4 ?
140BA cG %I|g=0.227 {I23}
140BA G 3671.7 51.7 3 ?
140BA cG %I|g=0.090 {I17}
140BA G 4053.2 10 0.5 3
140BA cG %I|g=0.026 {I16}
140BA L 5310.42 25 1-,2- ?
140BA B 0.44 5 5.57 6 ?
140BAS B EAV=307.1 40
140BA G 1459.3 42.9 4 ?
140BA cG %I|g=0.153 {I22}
140BA G 1784.0 150.8 3 ?
140BA cG %I|g=0.042 {I16}
140BA G 2646.8 51.5 4 ?
140BA cG %I|g=0.079 {I22}
140BA G 3318.7 91.5 4 ?
140BA cG %I|g=0.079 {I22}
140BA G 3507.1 41.7 3 ?
140BA cG %I|g=0.090 {I17}
140BA L 5388.65 17 1- ?
140BAF L FLAG=D
140BA B 1.04 14 5.06 7 ?
140BAS B EAV=276.1 40
140BA cB IB 0.38 in 1997Gr09
140BA G 889.1 80.7 4 & ?
140BA cG %I|g=0.037 {I22}
140BA G 1000.7 51.9 5 & ?
140BA cG %I|g=0.10 {I3}
140BA G 1031.5 32.5 3 ?
140BA cG %I|g=0.132 {I17}
140BA G 1113.6 100.6 4 ?
140BA cG %I|g=0.032 {I22}
140BA G 2456.4 101.5 10 ?
140BA cG %I|g=0.08 {I6}
140BA G 2513.3 154.0 20 & ?
140BA cG %I|g=0.21 {I11}
140BA G 3066.75 252.9 3 & ?
140BA cG %I|g=0.153 {I17}
140BA3 G FL=2320.32
140BA cG E$ differs by 3|s from |DE{-levels}
140BA G 3394 42.2 3 ?
140BA cG %I|g=0.116 {I17}
140BA G 3565.00 252.9 3 & ?
140BA cG %I|g=0.153 {I17}
140BA G 4786.3 10 0.4 2 ?
140BA cG %I|g=0.021 {I11}
140BA L 5588.37 21 2- ?
140BA B 0.83 13 4.74 8 ?
140BAS B EAV=200.0 37
140BA G 1171.6 200.5 4 & ?
140BA cG %I|g=0.026 {I22}
140BA G 1737.5 106.1 20 ?
140BA cG %I|g=0.32 {I11}
140BA G 2656.7 100.3 2 ?
140BA cG %I|g=0.016 {I11}
140BA G 3066.75 252.9 3 & ?
140BA cG %I|g=0.153 {I17}
140BA G 3159.8 100.4 2 ?
140BA cG %I|g=0.021 {I11}
140BA G 3267.6 72.1 4 ?
140BA cG %I|g=0.111 {I22}
140BA G 3383.0 51.1 4 ?
140BA cG %I|g=0.058 {I22}
140BA G 3635.4 92.2 3 ?
140BA cG %I|g=0.116 {I17}
140BA L 5611.2 4 1-,2- ?
140BA B 0.50 12 4.90 11 ?
140BAS B EAV=191.6 37
140BA G 2089.7 100.9 3 & ?
140BA cG %I|g=0.048 {I16}
140BA G 2513.3 154.0 20 & ?
140BA cG %I|g=0.21 {I11}
140BA G 2737.2 130.9 3 ?
140BA cG %I|g=0.048 {I16}
140BA G 3088.7 51.8 3 ?
140BA cG %I|g=0.095 {I17}
140BA G 3303.7 91.3 4 ?
140BA cG %I|g=0.069 {I22}
140BA G 3407.1 100.5 3 ?
140BA cG %I|g=0.026 {I16}
140BA L 5651.11 25 2- ?
140BA B 0.73 6 4.64 5 ?
140BAS B EAV=177.0 37
140BA G 1262.9 61.4 4 ?
140BA cG %I|g=0.074 {I22}
140BA G 1375.9 42.0 3 & ?
140BA cG %I|g=0.106 {I17}
140BA G 2553.6 60.8 4 ?
140BA cG %I|g=0.042 {I22}
140BA G 3341.2 58.0 4 & ?
140BA cG %I|g=0.42 {I3}
140BA G 3412.8 100.5 3 ?
140BA cG %I|g=0.026 {I16}
140BA G 3657.7 100.4 2 ?
140BA cG %I|g=0.021 {I11}
140BA G 3698.9 70.7 3 ?
140BA cG %I|g=0.037 {I16}
140BA L 5765.3 4 2- ?
140BA B 0.56 7 4.42 7 ?
140BAS B EAV=136.6 35
140BA G 2109.2 42.9 5 ?
140BA cG %I|g=0.15 {I3}
140BA G 2666.7 100.6 3 ?
140BA cG %I|g=0.032 {I16}
140BA G 3242.8 105.4 10 ?
140BA cG %I|g=0.29 {I6}
140BA G 3627.9 101.6 3 ?
140BA cG %I|g=0.085 {I17}