149DY 149HO EC DECAY (21.0 S) 1994ME13,1990ALZH 22NDS 202210
149DY H TYP=FUL$AUT=Balraj Singh and Jun Chen$CIT=NDS 185, 2 (2022)$
149DY2 H CUT=23-Aug-2022$
149DY c 1994Me13 (also 1989Me13): {+149}Ho ions were produced via
149DY2c fusion-evaporation reactions with 5.4 MeV/nucleon {+58}Ni beam on
149DY3c {+94,95}Mo targets at ISOLDE, GSI, separated by the GSI online
149DY4c separator and deposited on a transport tape. The |g- and x-rays were
149DY5c detected with a planar and two coaxial Ge(Li) detectors. Measured E|g,
149DY6c I|g, I(x-ray), |g|g-coin, |g(x-ray)coin, |g(t). Deduced levels, J|p,
149DY7c parent T{-1/2}, conversion coefficients, |g-ray multipolarities, GT
149DY7c strengths. Comparisons with TAGS spectrum in 1990AlZU, and with
149DY8c theoretical calculations. Configurations are suggested for all the
149DY9c levels reported in this decay.
149DY c 1990AlZH (also 1993Al03, 1991AlZY,1990AlZU,1990AlZJ): measured
149DY2c total-absorption gamma spectrum (TAGS); deduced I(|e+|b{++}) feedings
149DY3c and |b-strength functions.
149DY c Others:
149DY c |g, |g|g: 1979To01 (three |g rays reported), 1982Ba75 (two |g rays
149DY2c reported), 1987ElZZ
149DY c T{-1/2} ({+149}Ho): 1979To01, 1982Ba75, 1993Al03
149DY c Q(|e): 1993Al03 (from total |g absorption), 1991Ke11 (|b{++}|g),
149DY2c 1984HaZD (|e/|b{++}), 1983Al06 (|b{++},|g)
149DY c For the decay scheme, high-resolution |g-ray study in 1994Me13 gives
149DY2c total decay energy deposit of 5610 keV {I260} as compared to the
149DY3c expected value of 6048 keV {I13}. TAGS data in 1990AlZH suggests that
149DY4c |?25% of I(|e+|b{++}) intensity above 1070 keV is missing discrete
149DY5c |g-ray data, but much of this missing intensity seems collected in
149DY6c the |g-ray intensity of the 1090.7-keV |g ray, as the transition
149DY7c intensity balance at the 1090.7-keV level gives apparent I(|e+|b{++})
149DY8c feeding of 59% versus 33% from TAGS data.
149DY cE TI$Based on |g-intensity balance from high-resolution data
149DY2cE in 1994Me13, when |g-ray data are available, and TAGS data in 1990AlZH,
149DY3cE when no |g-ray data are available. Exception is for 1090.7 level, where
149DY4cE comparison between the two sets of data is used and I(|e+|b{++})
149DY5cE feedings is assigned from TAGS data, as the value from these data is
149DY6cE about half as compared to that from high-resolution |g-ray data. From
149DY7cE high-resolution |g-ray data, I(|e+|b{++}) feedings of |>2% are
149DY8cE considered by evaluators as fairly reliable, when compared to
149DY9cE corresponding values from TAGS data. Weaker feedings (<2%) are
149DYAcE considered as upper limits as these can be affected
149DYBcE by missing |g rays from higher levels. Summed I(|e+|b{++}) feeding for
149DYCcE all the levels (including pseudolevels) listed here is 100.8%,
149DYDcE whereas above the 3490 level (highest known level from high-resolution
149DYEcE |g-ray data), total feeding from TAGS data adds to 7.3%.
149DY cE TI(p)$Intensity per 100 decays from TAGS data in 1990AlZH, with a bin
149DY2cE width of 28.5 keV. In Table 4 of 1990AlZH, listed intensities are per
149DY3cE 100,000 decays of {+149}Ho.
149DY cE TI(q)$Negative (non-physical) intensity from TAGS data in 1990AlZH
149DY cE TI(r)$No excited states in {+149}Dy have been reported below 1034 keV
149DY2cE in any of the decays or reactions, thus this feeding to a pseudolevel
149DY3cE is treated by evaluators as questionable. Total I(|e+|b{++}) feeding
149DY4cE from TAGS data in 1990AlZH adds to 2.0% in the excitation range of
149DY5cE 840-980 keV
149DY cE LOGFT$For I(|e+|b{++}) feedings <2%, values are treated as lower
149DY2cE limits as the decay scheme from high-resolution |g-ray data
149DY3cE is incomplete
149DY cG E,RI$From 1994Me13, unless otherwise noted.
149DY cG RI(D)$Estimated from |g|g-coin spectra (1994Me13)
149DY cG E(A)$Poor fit in level scheme, deviation is |?0.8 keV
149DY cG M,MR$From ce data in 1994Me13, given under comments. The same values
149DY2cG are given in the Adopted Gammas.
149DY cL $The decay scheme is mainly from 1994Me13, with pseudolevels added
149DY2cL from TAGS data, where no high-resolution |g-ray data are available
149DY3cL in 1994Me13
149DY cL E$From a least-squares fit to |g-ray energies, except for the
149DY2cL pseudolevels, which are taken from TAGS data in 1990AlZH
149DY cL E(P)$Pseudolevel from TAGS data in 1990AlZH; uncertainty is from
149DY2cL bin width of 28.5 keV in the analysis of TAGS data.
149DY cL E(X)$No excited states in {+149}Dy have been reported below 1034 keV
149DY2cL in any of the decays or reactions, thus this pseudolevel and
149DY3cL associated weak I(|e+|b{++}) feeding is treated by evaluators as
149DY4cL questionable
149DY cL J,T$From the Adopted Levels.
149HO P 0.0 (11/2-) 21.0 S 2 6048 13
149HO cP J,T$From {+149}Ho Adopted Levels
149HO cP QP$From 2021Wa16
149DY N 1.0 1.0 1.0
149DY cN NR$1994Me12 provide photon intensities per 1000 decays, with
149DY2cN statistical uncertainties as well as those from spectral complexity.
149DY3cN Evaluators divide I|g values in 1994Me12 by a factor of 10. Methodology
149DY4cN of measuring absolute |g intensities is not described in 1994Me13
149DY PN 3
149DY L 0.0 7/2- 4.2 M 2
149DY L 855 14 P ?
149DYF L FLAG=X
149DY E 0.16 0.05 0.208 r ?
149DYS E EAV=1900.8 90$CK=0.2132 22$CL=0.0317 4$CM+=0.00931 10
149DY L 884 14 P ?
149DYF L FLAG=X
149DY E 0.25 0.09 0.340 r ?
149DYS E EAV=1887.3 90$CK=0.2165 22$CL=0.0322 4$CM+=0.00945 10
149DY L 912 14 P ?
149DYF L FLAG=X
149DY E 0.27 0.09 0.363 r ?
149DYS E EAV=1874.2 90$CK=0.2197 22$CL=0.0327 4$CM+=0.00959 10
149DY L 941 14 P ?
149DYF L FLAG=X
149DY E 0.39 0.14 0.532 r ?
149DYS E EAV=1860.7 90$CK=0.2230 23$CL=0.0332 4$CM+=0.00974 10
149DY L 969 14 P ?
149DYF L FLAG=X
149DY E 0.39 0.14 0.534 r ?
149DYS E EAV=1847.6 90$CK=0.2263 23$CL=0.0337 4$CM+=0.00988 10
149DY L 1073.31 9 (13/2)+
149DY E 1.1 3 0.46 11 6.1 1.6 4
149DYS E EAV=1798.9 61$CK=0.2391 17$CL=0.03559 25$CM+=0.01044 8
149DY cE TI$see comment for I(|e+|b{++}) feeding of 1090.7 level from TAGS data
149DY2cE in 1990AlZH and comparison with high-resolution data in 1994Me13
149DY G 1073.3 1 6.37 7 E3 0.00557 8 C
149DYS G KC=0.00455 6$LC=0.000788 11$MC=0.0001763 25
149DYS G NC=4.06E-5 6$OC=5.76E-6 8$PC=2.78E-7 4
149DY cG E$weighted average of 1073.1 {I2} (1994Me13) and 1073.3 {I1}
149DY2cG (1979To01). Other: 1073.2 (1982Ba75)
149DY cG RI$others: I(1073|g)/I(1091|g)=13 {I1}/100 (1979To01), 15/100
149DY2cG (1982Ba75)
149DY L 1090.74 12(9/2-)
149DY E 24 4 9.5 14 4.8 1 33 5
149DYS E EAV=1790.8 61$CK=0.2413 17$CL=0.03593 25$CM+=0.01054 8
149DY cE TI$1.885% for 1169 {I14}; 4.208% for 1140 {I14}; 6.949% for 1112 {I14};
149DY2cE 8.571% for 1083 {I14}; 7.120% for 1055 {I14}; 4.633% for 1026 {I14};
149DY3cE 1.584% for 998 {I14}; or a total of 35% in a peak between 1000-1170
149DY4cE keV, centered around 1085 keV from TAGS data (Table 4 and Fig. 9) in
149DY5cE 1990AlZH, likely corresponds to I(|e+|b{++}) feeding to primarily the
149DY6cE 1091 and a minor fraction to 1073 level. 1994Me13, in their Fig. 7b
149DY7cE is compared their deduced feeding of 59% {I2} from high-resolution
149DY8cE |g-ray data in 1994Me13 to that in Fig. 9 of 1990AlZH in TAGS data,
149DY9cE which showed that I(|e+|b{++}) feeding to the 1091 level from
149DYAcE high-resolution |g-ray data was about half of that in the TAGS data
149DYBcE in 1990AlZH. Based on TAGS data, evaluators assign 33% {I5} feeding
149DYCcE to the 1091 level, where uncertainty of 15% is arbitrary. For the
149DYDcE 1073 level, I(|e+|b{++}) feeding is from high-resolution |g-ray data.
149DY G 1090.4 3 74.4 15 C
149DY cG E$weighted average of 1090.7 {I2} (1994Me13) and 1090.1 {I1}
149DY2cG (1979To01). Other: 1090.8 (1982Ba75)
149DY cG RI$quoted uncertainty of |?0.2% in 1994Me13 is unrealistically low;
149DY2cG it has been increased by a factor of 10 by the evaluators.
149DY L 1197 14 P
149DY E 0.22 0.10 0.316 p
149DYS E EAV=1741.3 89$CK=0.255 3$CL=0.0380 4$CM+=0.01116 12
149DY L 1226 14 P ?
149DY E q ?
149DY cE $I(|e+|b{++})=-0.261%
149DY L 1254 14 P ?
149DY E q ?
149DY cE $I(|e+|b{++})=-0.016%
149DY L 1283 14 P
149DY E 0.16 0.07 0.233 p
149DYS E EAV=1701.3 89$CK=0.267 3$CL=0.0398 5$CM+=0.01168 12
149DY L 1311 14 P ?
149DY E q ?
149DY cE $I(|e+|b{++})=-0.068%
149DY L 1340 14 P ?
149DY E q ?
149DY cE $I(|e+|b{++})=-0.123%
149DY L 1368 14 P ?
149DY E q ?
149DY cE $I(|e+|b{++})=-0.177%
149DY L 1397 14 P ?
149DY E q ?
149DY cE $I(|e+|b{++})=-0.162%
149DY L 1425 14 P
149DY E 0.010 0.006 0.016 p
149DYS E EAV=1635.4 89$CK=0.288 3$CL=0.0430 5$CM+=0.01261 13
149DY L 1454 14 P
149DY E 0.027 0.014 0.041 p
149DYS E EAV=1621.9 89$CK=0.293 3$CL=0.0437 5$CM+=0.01281 14
149DY L 1482 14 P
149DY E 0.14 0.08 0.222 p
149DYS E EAV=1609.0 89$CK=0.297 3$CL=0.0443 5$CM+=0.01301 14
149DY L 1511 14 P
149DY E 0.38 0.21 0.593 p
149DYS E EAV=1595.5 89$CK=0.302 4$CL=0.0450 5$CM+=0.01321 14
149DY L 1539 14 P
149DY E 0.47 0.27 0.744 p
149DYS E EAV=1582.6 89$CK=0.306 4$CL=0.0457 5$CM+=0.01341 14
149DY L 1583.60 14 (11/2-)
149DY E 1.3 1 0.75 8 5.8 1 2.0 2
149DYS E EAV=1561.9 61$CK=0.3138 22$CL=0.0468 4$CM+=0.01374 10
149DY cE TI$0.728% for 1596 {I14}; 0.844% for 1568 {I14}; and 0.697% for 1624
149DY2cE {I14} or a total of 2.3% from TAGS data (1990AlZH)
149DY G 511 2 0.52 15 DC
149DY G 1583.6 2 4.48 7 C
149DY cG $Other: E|g=1583.6 {I2}, I(1583.6|g)/I(1091.0|g)=9 {I2} /100 (1979To01)
149DY L 1663.45 16 (9/2+)
149DY E 1.3 1 0.86 8 5.68 4 2.2 2
149DYS E EAV=1525.0 60$CK=0.3275 23$CL=0.0489 4$CM+=0.01435 11
149DY cE TI$0.702% for 1653 {I14} from TAGS data (1990AlZH)
149DY G 590.1 5 0.45 15 DC
149DY G 1663.4 2 3.53 7 C
149DY L 1703.73 20 (11/2)+
149DY E 0.60 12 0.40 8 6.0 1.0 2
149DYS E EAV=1506.4 60$CK=0.3347 24$CL=0.0500 4$CM+=0.01466 11
149DY cE TI$0.532% for 1681 {I14} from TAGS data (1990AlZH)
149DY G 613.0 2 0.19 4 C
149DY G 630.3 5 1.04 15M1(+E2) 2.5 LT 0.0131 35 C
149DYS G KC=0.0110 30$LC=0.00163 34$MC=0.00036 7
149DYS G NC=8.3E-5 17$OC=1.20E-5 26$PC=6.6E-7 20
149DY cG M,MR$from |a(K)exp=0.011 {I3}
149DY L 1712.80 18 (9/2-)
149DY E 1.0 1 0.68 4 5.8 1.7 1
149DYS E EAV=1502.2 60$CK=0.3363 24$CL=0.0502 4$CM+=0.01474 11
149DY cE TI$0.622% for 1710 {I14} from TAGS data (1990AlZH)
149DY G 1712.9 2 1.97 4 C
149DY L 1738 14 P
149DY E 0.24 0.17 0.411 p
149DYS E EAV=1490.6 89$CK=0.341 4$CL=0.0509 6$CM+=0.01494 16
149DY L 1782.21 30 (7/2+) ?
149DY E 0.11 2 0.22 4 8.1 0.33 6 1U?
149DYS E EAV=1456.9 58$CK=0.5456 25$CL=0.0833 4$CM+=0.02454 12
149DY cE TI$0.305% for 1767 {I14} from TAGS data (1990AlZH)
149DY cE $For first-forbidden unique transition, log| {If{+1u}t} should be >8.5
149DY G 1782.2 3 0.33 6 ?
149DY L 1795 14 P
149DY E 0.17 0.12 0.292 p
149DYS E EAV=1464.3 89$CK=0.351 4$CL=0.0525 6$CM+=0.01540 16
149DY L 1824 14 P
149DY E 0.17 0.12 0.290 p
149DYS E EAV=1450.9 88$CK=0.357 4$CL=0.0533 6$CM+=0.01564 17
149DY L 1853 14 P
149DY E 0.16 0.12 0.275 p
149DYS E EAV=1437.5 88$CK=0.362 4$CL=0.0541 6$CM+=0.01589 17
149DY L 1881 14 P
149DY E 0.19 0.14 0.333 p
149DYS E EAV=1424.6 88$CK=0.368 4$CL=0.0549 6$CM+=0.01613 17
149DY L 1910 14 P
149DY E 0.19 0.15 0.341 p
149DYS E EAV=1411.3 88$CK=0.373 4$CL=0.0558 6$CM+=0.01638 17
149DY L 1938 14 P
149DY E 0.16 0.13 0.290 p
149DYS E EAV=1398.4 88$CK=0.379 4$CL=0.0566 6$CM+=0.01663 17
149DY L 1967 14 P
149DY E 0.14 0.12 0.262 p
149DYS E EAV=1385.1 88$CK=0.385 4$CL=0.0575 6$CM+=0.01689 18
149DY L 1995 14 P
149DY E 0.10 0.09 0.193 p
149DYS E EAV=1372.2 88$CK=0.391 4$CL=0.0584 6$CM+=0.01714 18
149DY L 2023 14 P
149DY E p
149DY L 2052 14 P ?
149DY E q ?
149DY cE $I(|e+|b{++})=-0.083%
149DY L 2081 14 P
149DY E 0.011 0.011 0.022 p
149DYS E EAV=1332.7 88$CK=0.408 4$CL=0.0611 7$CM+=0.01794 18
149DY L 2109 14 P
149DY E 0.005 0.005 0.010 p
149DYS E EAV=1319.9 88$CK=0.414 5$CL=0.0620 7$CM+=0.01820 19
149DY L 2138 14 P
149DY E 0.05 0.05 0.102 p
149DYS E EAV=1306.6 88$CK=0.421 5$CL=0.0629 7$CM+=0.01848 19
149DY L 2165.86 28(9/2,11/2,13/2)+
149DY E 0.2 1 0.2 1 6.2 0.4 1
149DYS E EAV=1293.8 60$CK=0.427 3$CL=0.0639 5$CM+=0.01875 13
149DY cE TI$0.177% for 2166 {I14}; 0.192% for 2195 {I14} from TAGS data
149DY2cE (1990AlZH)
149DY G 462.1 3 0.23 6 M1(+E2) 1.0 LT 0.032 4 C
149DYS G NC=0.000204 18$OC=2.95E-5 30$PC=1.62E-6 27
149DYS G KC=0.027 4$LC=0.0040 4$MC=0.00088 8
149DY cG M,MR$from |a(K)exp=0.029 {I6}
149DY G 1092.6 4 0.2 1 DC
149DY L 2223 14 P
149DY E 0.16 0.18 0.343 p
149DYS E EAV=1267.6 88$CK=0.439 5$CL=0.0658 7$CM+=0.01932 19
149DY L 2252 14 P
149DY E 0.16 0.18 0.345 p
149DYS E EAV=1254.4 88$CK=0.446 5$CL=0.0668 7$CM+=0.01961 20
149DY L 2291.81 22 (11/2-,13/2-)
149DY E 0.21 2 0.24 3 6.1 0.45 5
149DYS E EAV=1236.2 60$CK=0.455 3$CL=0.0681 5$CM+=0.02001 14
149DY cE TI$0.504% for 2280 {I14} from TAGS data (1990AlZH)
149DY G 1218.5 2 0.45 5 C
149DY L 2312.22 30 (9/2-,11/2-)
149DY E 0.3 1 0.4 1 5.9 0.7 1
149DYS E EAV=1226.9 60$CK=0.460 3$CL=0.0688 5$CM+=0.02022 14
149DY cE TI$0.613% for 2309 {I14} from TAGS data (1990AlZH)
149DY G 2312.2 3 0.70 7
149DY L 2321.19 24 (9/2-,11/2-)
149DY E 0.54 9 0.66 11 5.7 1.2 2
149DYS E EAV=1222.8 60$CK=0.462 3$CL=0.0691 5$CM+=0.02031 14
149DY cE TI$0.850% for 2337 {I14} from TAGS data (1990AlZH)
149DY G 1230.4 4 0.26 11 C
149DY G 2321.2 3 0.97 11
149DY L 2358.0 6 (9/2-,11/2-)
149DY E 0.057 18 0.073 22 6.6 0.13 4
149DYS E EAV=1205.9 60$CK=0.470 3$CL=0.0704 5$CM+=0.02069 14
149DY cE TI$0.863% for 2366 {I14} from TAGS data (1990AlZH)
149DY G 694.5 6 0.13 4 DC
149DY L 2402.51 31 (11/2-,13/2-)
149DY E 0.094 17 0.13 2 6.4 0.22 4
149DYS E EAV=1185.6 60$CK=0.481 3$CL=0.0720 5$CM+=0.02116 14
149DY cE TI$1.047% for 2394 {I14} from TAGS data (1990AlZH)
149DY G 1329.2 3 0.22 4 C
149DY L 2409.18 22 (9/2-,11/2-)
149DY E 0.72 4 0.98 6 5.5 1.7 1
149DYS E EAV=1182.6 60$CK=0.482 3$CL=0.0723 5$CM+=0.02123 14
149DY cE TI$1.112% for 2423 {I14} from TAGS data (1990AlZH)
149DY G 1318.5 3 1.30 5 C
149DY G 2409.1 3 0.39 8
149DY L 2466.24 29 (9/2-,11/2-)
149DY E 0.82 8 1.2 1 5.4 1 2.0 2
149DYS E EAV=1156.6 60$CK=0.496 4$CL=0.0743 5$CM+=0.02183 14
149DY cE TI$1.135% for 2451 {I14} from TAGS data (1990AlZH)
149DY G 1375.2 3 1.76 10 C
149DY G 2467.4 6 0.26 11 A ?
149DY L 2487.24 19 (9/2-,11/2-)
149DY E 0.60 4 0.90 6 5.5 1.5 1
149DYS E EAV=1147.0 60$CK=0.501 4$CL=0.0751 5$CM+=0.02206 14
149DY cE TI$1.077% for 2480 {I14}; 0.964% for 2508 {I14} from TAGS data
149DY2cE (1990AlZH)
149DY G 1396.5 2 0.61 7 C
149DY G 2487.2 3 0.87 6
149DY L 2537 14 P
149DY E 0.40 0.64 1.042 p
149DYS E EAV=1124.4 87$CK=0.513 5$CL=0.0769 7$CM+=0.02260 21
149DY L 2565 14 P
149DY E 0.34 0.55 0.894 p
149DYS E EAV=1111.7 87$CK=0.520 5$CL=0.0780 7$CM+=0.02290 21
149DY L 2594 14 P
149DY E 0.34 0.59 0.930 p
149DYS E EAV=1098.5 87$CK=0.527 5$CL=0.0790 8$CM+=0.02322 21
149DY L 2607.10 26 (11/2-)
149DY E 0.3 1 0.4 1 5.8 0.7 1
149DYS E EAV=1092.6 59$CK=0.530 4$CL=0.0795 5$CM+=0.02336 15
149DY cE TI$0.950% for 2622 {I14} from TAGS data (1990AlZH)
149DY G 1534.0 5 0.15 5 C
149DY G 2607.0 3 0.53 5
149DY L 2651 14 P
149DY E 0.34 0.61 0.952 p
149DYS E EAV=1072.6 87$CK=0.541 5$CL=0.0812 8$CM+=0.02385 22
149DY L 2679 14 P
149DY E 0.32 0.60 0.920 p
149DYS E EAV=1059.9 87$CK=0.548 5$CL=0.0822 8$CM+=0.02416 22
149DY L 2718.5 4 (9/2-,11/2-) ?
149DY E 0.074 23 0.15 5 6.2 0.22 7 ?
149DYS E EAV=1042.0 59$CK=0.557 4$CL=0.0837 5$CM+=0.02460 15
149DY cE TI$see comment for feeding to the 2728.6 level
149DY G 2718.5 4 0.22 7 ?
149DY L 2728.65 32(9/2-,11/2-,13/2-)
149DY E 0.351 14 0.71 3 5.5 1.06 4
149DYS E EAV=1037.4 59$CK=0.560 4$CL=0.0841 5$CM+=0.02471 15
149DY cE TI$1.144% for 2708 {I14}; 1.284% for 2736 {I14} from TAGS data
149DY2cE (1990AlZH), probably corresponds to feeding to 2728.6 and 2718.5 levels
149DY G 1637.9 3 1.06 4 C
149DY L 2789.18 22 (9/2-,11/2-)
149DY E 0.63 3 1.4 1 5.22 3 2.0 1
149DYS E EAV=1010.0 59$CK=0.575 4$CL=0.0864 5$CM+=0.02539 15
149DY cE TI$1.562% for 2764 {I14} from TAGS data (1990AlZH)
149DY G 1125.7 2 1.15 5 C
149DY G 1698.5 4 0.86 8 C
149DY L 2827.34 19 (11/2-)
149DY E 2.1 3 4.8 6 4.7 1 6.9 9
149DYS E EAV=992.8 59$CK=0.584 4$CL=0.0878 5$CM+=0.02581 15
149DY cE TI$1.661% for 2793 {I14}; 1.768% for 2822 {I14}; and 1.743% for 2850
149DY2cE {I14} from TAGS data (1990AlZH) for a total of 5.2%
149DY G 1114.8 3 0.32 5 C
149DY G 1736.6 5 3.8 8 DC
149DY cG E$1736.8 in Fig. 4 of 1994Me13
149DY G 1753.4 4 0.60 15 C
149DYF G FLAG=AD$
149DY G 2827.4 3 2.20 8
149DY L 2882.83 23 (11/2-,13/2-)
149DY E 0.37 3 0.93 7 5.4 1.3 1
149DYS E EAV=967.7 59$CK=0.598 4$CL=0.0899 5$CM+=0.02643 15
149DY cE TI$1.629% for 2878 {I14} from TAGS data (1990AlZH)
149DY G 1791.9 3 0.46 5 C
149DY G 1809.7 3 0.79 11 C
149DY L 2907 14 P
149DY E 0.43 1.10 1.526 p
149DYS E EAV=956.8 87$CK=0.604 5$CL=0.0908 8$CM+=0.02670 22
149DY L 2936 14 P
149DY E 0.36 0.96 1.324 p
149DYS E EAV=943.8 87$CK=0.611 5$CL=0.0919 8$CM+=0.02702 22
149DY L 2964 14 P
149DY E 0.33 0.92 1.251 p
149DYS E EAV=931.1 86$CK=0.618 5$CL=0.0930 8$CM+=0.02733 22
149DY L 2980.41 25 (9/2-,11/2-)
149DY E 0.2 1 0.6 1 5.5 0.8 1
149DYS E EAV=923.8 59$CK=0.622 4$CL=0.0936 5$CM+=0.02751 15
149DY cE TI$1.187% for 2993 {I14} from TAGS data (1990AlZH)
149DY G 1889.7 3 0.34 6 C
149DY G 2980.3 4 0.45 8
149DY L 3014.2 4 (9/2-,11/2-) ?
149DY E 0.045 12 0.14 4 6.2 0.18 5 ?
149DYS E EAV=908.5 59$CK=0.630 4$CL=0.0949 5$CM+=0.02789 15
149DY cE TI$1.220% for 3021 {I14} from TAGS data (1990AlZH)
149DY G 3014.2 4 0.18 5 ?
149DY L 3049.6 4 (9/2-,11/2-,13/2-)
149DY E 0.1 1 0.4 1 5.7 0.5 1
149DYS E EAV=892.6 59$CK=0.638 4$CL=0.0962 5$CM+=0.02827 15
149DY cE TI$1.258% for 3050 {I14} from TAGS data (1990AlZH)
149DY G 1958.8 4 0.47 7 C
149DY L 3079.13 14 (11/2-)
149DY E 1.1 1 3.9 2 4.69 2 5.0 2
149DYS E EAV=879.4 59$CK=0.645 3$CL=0.0973 5$CM+=0.02859 14
149DY cE TI$1.290% for 3078 {I14}; 1.213% for 3106 {I14} from TAGS data
149DY2cE (1990AlZH)
149DY G 1415.6 3 0.53 5 C
149DY G 1495.5 2 1.65 4 C
149DY G 1988.4 2 1.97 8 C
149DY G 2006.0 5 0.23 9 C
149DY G 3079.1 3 0.62 6
149DY L 3129.52 20 (11/2-)
149DY E 0.28 4 1.0 2 5.3 1.3 2
149DYS E EAV=856.7 59$CK=0.657 3$CL=0.0991 5$CM+=0.02914 14
149DY cE TI$1.160% for 3135 {I14} from TAGS data (1990AlZH)
149DY G 1545.9 2 0.90 7 C
149DY G 2056.2 5 0.19 11 C
149DY G 3129.5 4 0.25 5
149DY L 3180.05 23(9/2-,11/2-,13/2-)
149DY E 0.2 1 0.7 1 5.4 0.9 1
149DYS E EAV=834.1 59$CK=0.669 3$CL=0.1009 5$CM+=0.02967 14
149DY cE TI$1.143% for 3192 {I14}; 1.119% for 3164 {I14} from TAGS data
149DY2cE (1990AlZH)
149DY G 2089.3 2 0.87 7 C
149DY L 3202.55 29 (9/2-,11/2-)
149DY E 0.08 2 0.3 1 5.7 0.4 1
149DYS E EAV=824.0 59$CK=0.674 3$CL=0.1017 5$CM+=0.02991 14
149DY cE TI$1.043% for 3221 {I14} from TAGS data (1990AlZH)
149DY G 2111.8 3 0.26 5 C
149DY G 3202.5 6 0.15 6
149DY L 3249 14 P
149DY E 0.16 0.73 0.893 p
149DYS E EAV=803.2 86$CK=0.684 5$CL=0.1033 7$CM+=0.03039 20
149DY L 3277 14 P
149DY E 0.15 0.68 0.827 p
149DYS E EAV=790.7 86$CK=0.690 5$CL=0.1043 7$CM+=0.03067 20
149DY L 3312.52 30(9/2-,11/2-,13/2-)
149DY E 0.1 1 0.7 2 5.4 0.8 2
149DYS E EAV=774.8 58$CK=0.698 3$CL=0.1055 5$CM+=0.03103 13
149DY cE TI$0.802% for 3306 {I14} from TAGS data (1990AlZH)
149DY G 1729.0 3 0.41 4 C
149DY G 2221.4 6 0.40 16 C
149DY L 3348.66 32(9/2-,11/2-,13/2-)
149DY E 0.08 2 0.4 1 5.6 0.5 1
149DYS E EAV=758.7 58$CK=0.706 3$CL=0.1067 5$CM+=0.03138 13
149DY cE TI$0.743% for 3335 {I14} from TAGS data (1990AlZH)
149DY G 2257.9 3 0.46 7 C
149DY L 3362.8 4 (9/2-,11/2-)
149DY E 0.06 2 0.3 1 5.7 0.4 1
149DYS E EAV=752.4 59$CK=0.709 3$CL=0.1072 5$CM+=0.03152 13
149DY cE TI$0.643% for 3363 {I14} from TAGS data (1990AlZH)
149DY G 3362.8 4 0.44 7
149DY L 3392 14 P
149DY E 0.08 0.47 0.552 p
149DYS E EAV=739.3 86$CK=0.715 4$CL=0.1081 7$CM+=0.03180 19
149DY L 3420 14 P
149DY E 0.07 0.41 0.477 p
149DYS E EAV=726.8 86$CK=0.720 4$CL=0.1090 6$CM+=0.03206 18
149DY L 3449 14 P
149DY E 0.06 0.41 0.467 p
149DYS E EAV=713.9 85$CK=0.726 4$CL=0.1099 6$CM+=0.03233 18
149DY L 3490.42 25 (9/2-,11/2-)
149DY E 0.1 1 0.6 1 5.4 0.7 1
149DYS E EAV=695.5 58$CK=0.7339 25$CL=0.1112 4$CM+=0.03271 12
149DY cE TI$0.417% for 3477 {I14}; 0.457% for 3505 {I14} from TAGS data
149DY2cE (1990AlZH)
149DY G 2399.7 3 0.39 7 C
149DY G 3490.3 4 0.31 6
149DY L 3534 14 P
149DY E 0.047 0.374 0.421 p
149DYS E EAV=676.1 85$CK=0.742 4$CL=0.1125 6$CM+=0.03309 17
149DY L 3563 14 P
149DY E 0.047 0.394 0.441 p
149DYS E EAV=663.3 85$CK=0.747 4$CL=0.1133 6$CM+=0.03333 17
149DY L 3591 14 P
149DY E 0.027 0.239 0.266 p
149DYS E EAV=650.8 85$CK=0.752 4$CL=0.1141 6$CM+=0.03357 16
149DY L 3620 14 P
149DY E 0.033 0.312 0.345 p
149DYS E EAV=638.0 85$CK=0.757 4$CL=0.1149 6$CM+=0.03380 16
149DY L 3648 14 P
149DY E 0.027 0.273 0.300 p
149DYS E EAV=625.6 85$CK=0.761 3$CL=0.1156 5$CM+=0.03402 15
149DY L 3677 14 P
149DY E 0.022 0.247 0.269 p
149DYS E EAV=612.8 85$CK=0.766 3$CL=0.1163 5$CM+=0.03425 15
149DY L 3705 14 P
149DY E 0.021 0.253 0.274 p
149DYS E EAV=600.4 85$CK=0.770 3$CL=0.1171 5$CM+=0.03445 15
149DY L 3734 14 P
149DY E 0.019 0.241 0.260 p
149DYS E EAV=587.6 85$CK=0.774 3$CL=0.1178 5$CM+=0.03466 14
149DY L 3762 14 P
149DY E 0.018 0.250 0.268 p
149DYS E EAV=575.2 85$CK=0.778 3$CL=0.1184 5$CM+=0.03486 14
149DY L 3791 14 P
149DY E 0.016 0.232 0.248 p
149DYS E EAV=562.4 85$CK=0.782 3$CL=0.1191 5$CM+=0.03506 13
149DY L 3819 14 P
149DY E 0.014 0.224 0.238 p
149DYS E EAV=550.1 85$CK=0.7860 25$CL=0.1197 5$CM+=0.03524 13
149DY L 3848 14 P
149DY E 0.011 0.195 0.206 p
149DYS E EAV=537.3 85$CK=0.7896 24$CL=0.1203 4$CM+=0.03543 12
149DY L 3876 14 P
149DY E 0.011 0.206 0.217 p
149DYS E EAV=524.9 85$CK=0.7930 23$CL=0.1209 4$CM+=0.03560 12
149DY L 3905 14 P
149DY E 0.011 0.220 0.231 p
149DYS E EAV=512.2 85$CK=0.7963 22$CL=0.1215 4$CM+=0.03577 12
149DY L 3933 14 P
149DY E 0.010 0.213 0.223 p
149DYS E EAV=499.8 85$CK=0.7993 21$CL=0.1220 4$CM+=0.03593 11
149DY L 3962 14 P
149DY E 0.007 0.178 0.185 p
149DYS E EAV=487.1 84$CK=0.8022 20$CL=0.1225 4$CM+=0.03609 11
149DY L 3990 14 P
149DY E 0.005 0.134 0.139 p
149DYS E EAV=474.7 84$CK=0.8049 19$CL=0.1230 4$CM+=0.03623 10
149DY L 4019 14 P
149DY E 0.004 0.121 0.125 p
149DYS E EAV=462.0 84$CK=0.8076 18$CL=0.1235 4$CM+=0.03638 10
149DY L 4047 14 P
149DY E 0.004 0.128 0.132 p
149DYS E EAV=449.7 84$CK=0.8100 17$CL=0.1239 3$CM+=0.03651 10
149DY L 4076 14 P
149DY E 0.003 0.115 0.118 p
149DYS E EAV=437.0 84$CK=0.8123 16$CL=0.1244 3$CM+=0.03665 9
149DY L 4104 14 P
149DY E 0.003 0.110 0.113 p
149DYS E EAV=424.7 84$CK=0.8144 15$CL=0.1248 3$CM+=0.03677 9
149DY L 4133 14 P
149DY E 0.002 0.095 0.097 p
149DYS E EAV=411.9 84$CK=0.8164 14$CL=0.1252 3$CM+=0.03689 8
149DY L 4161 14 P
149DY E 0.002 0.100 0.102 p
149DYS E EAV=399.6 84$CK=0.8182 13$CL=0.12553 25$CM+=0.03700 8
149DY L 4190 14 P
149DY E 0.002 0.114 0.116 p
149DYS E EAV=386.9 84$CK=0.8199 12$CL=0.12589 24$CM+=0.03711 8
149DY L 4218 14 P
149DY E 0.001 0.096 0.097 p
149DYS E EAV=374.6 84$CK=0.8214 11$CL=0.12622 23$CM+=0.03722 7
149DY L 4247 14 P
149DY E 0.002 0.114 0.116 p
149DYS E EAV=361.9 84$CK=0.8229 10$CL=0.12654 22$CM+=0.03732 7
149DY L 4275 14 P
149DY E 0.00123 0.105 0.106 p
149DYS E EAV=349.6 84$CK=0.8241 9$CL=0.12684 21$CM+=0.03741 7
149DY L 4304 14 P
149DY E 0.001 0.128 0.129 p
149DYS E EAV=336.9 84$CK=0.8253 8$CL=0.12713 19$CM+=0.03750 6
149DY L 4332 14 P
149DY E 0.001 0.112 0.113 p
149DYS E EAV=324.6 84$CK=0.8263 7$CL=0.12740 18$CM+=0.03758 6
149DY L 4361 14 P
149DY E 0.001 0.103 0.104 p
149DYS E EAV=311.9 84$CK=0.8273 6$CL=0.12766 18$CM+=0.03767 6
149DY L 4389 14 P
149DY E 0.001 0.083 0.084 p
149DYS E EAV=299.6 84$CK=0.8281 6$CL=0.12790 17$CM+=0.03774 6
149DY L 4418 14 P
149DY E 0.071 0.071 p
149DYS E EAV=286.8 84$CK=0.8288 5$CL=0.12814 16$CM+=0.03782 5
149DY L 4446 14 P
149DY E 0.074 0.074 p
149DYS E EAV=274.5 85$CK=0.8294 4$CL=0.12836 15$CM+=0.03789 5
149DY L 4475 14 P
149DY E 0.071 0.071 p
149DYS E EAV=261.7 86$CK=0.8299 4$CL=0.12858 15$CM+=0.03796 5
149DY L 4503 14 P
149DY E 0.056 0.056 p
149DYS E EAV=249.2 85$CK=0.8303 3$CL=0.12878 14$CM+=0.03802 5
149DY L 4532 14 P
149DY E 0.063 0.063 p
149DYS E EAV=236.5 87$CK=0.8306 2$CL=0.12898 13$CM+=0.03809 5
149DY L 4560 14 P
149DY E 0.051 0.051 p
149DYS E EAV=224.1 85$CK=0.8308 2$CL=0.1292 2$CM+=0.03815 5
149DY L 4589 14 P
149DY E 0.050 0.050 p
149DYS E EAV=211.2 85$CK=0.8310 1$CL=0.1294 2$CM+=0.03821 5
149DY L 4617 14 P
149DY E 0.035 0.035 p
149DYS E EAV=198.8 86$CK=0.8311$CL=0.1295 2$CM+=0.03827 4
149DY L 4646 14 P
149DY E 0.041 0.041 p
149DYS E CK=0.8312$CL=0.1297 2$CM+=0.03834 4
149DY L 4674 14 P
149DY E 0.043 0.043 p
149DYS E CK=0.8311$CL=0.1299 2$CM+=0.03840 4
149DY L 4703 14 P
149DY E 0.037 0.037 p
149DYS E CK=0.8311$CL=0.1301 2$CM+=0.03846 5
149DY L 4731 14 P
149DY E 0.022 0.022 p
149DYS E CK=0.8310 1$CL=0.1302 2$CM+=0.03852 5
149DY L 4760 14 P
149DY E 0.021 0.021 p
149DYS E CK=0.8308 2$CL=0.1304 2$CM+=0.03858 5
149DY L 4788 14 P
149DY E 0.038 0.038 p
149DYS E CK=0.8306 2$CL=0.1306 2$CM+=0.03865 5
149DY L 4817 14 P
149DY E 0.042 0.042 p
149DYS E CK=0.8304 2$CL=0.13081 14$CM+=0.03871 5
149DY L 4845 14 P
149DY E 0.050 0.050 p
149DYS E CK=0.8302 2$CL=0.13101 14$CM+=0.03878 5
149DY L 4874 14 P
149DY E 0.046 0.046 p
149DYS E CK=0.8299 2$CL=0.13122 15$CM+=0.03886 5
149DY L 4902 14 P
149DY E 0.041 0.041 p
149DYS E CK=0.8296 2$CL=0.13143 16$CM+=0.03893 6
149DY L 4931 14 P
149DY E 0.029 0.029 p
149DYS E CK=0.8293 3$CL=0.13167 16$CM+=0.03901 6
149DY L 4959 14 P
149DY E 0.014 0.014 p
149DYS E CK=0.8290 3$CL=0.13190 17$CM+=0.03910 6
149DY L 4988 14 P
149DY E 0.022 0.022 p
149DYS E CK=0.8287 3$CL=0.13216 18$CM+=0.03919 7
149DY L 5016 14 P
149DY E 0.005 0.005 p
149DYS E CK=0.8283 3$CL=0.13243 19$CM+=0.03928 7
149DY L 5045 14 P
149DY E 0.009 p
149DYS E CK=0.8279 3$CL=0.13272 21$CM+=0.03938 7
149DY L 5073 14 P
149DY E 0.004 p
149DYS E CK=0.8275 3$CL=0.13302 22$CM+=0.03949 8
149DY L 5102 14 P
149DY E 0.018 p
149DYS E CK=0.8271 3$CL=0.13335 23$CM+=0.03960 8
149DY L 5130 14 P
149DY E 0.025 p
149DYS E CK=0.8266 4$CL=0.13369 25$CM+=0.03972 9
149DY L 5159 14 P
149DY E 0.023 p
149DYS E CK=0.8261 4$CL=0.1341 3$CM+=0.03985 10
149DY L 5187 14 P
149DY E 0.017 p
149DYS E CK=0.8256 4$CL=0.1344 3$CM+=0.03999 10
149DY L 5216 14 P
149DY E 0.010 p
149DYS E CK=0.8250 4$CL=0.1349 3$CM+=0.04014 11
149DY L 5244 14 P
149DY E 0.005 p
149DYS E CK=0.8244 5$CL=0.1353 4$CM+=0.04030 12
149DY L 5273 14 P
149DY E 0.013 p
149DYS E CK=0.8237 5$CL=0.1358 4$CM+=0.04047 13
149DY L 5301 14 P
149DY E 0.016 p
149DYS E CK=0.8230 6$CL=0.1364 4$CM+=0.04066 14
149DY L 5330 14 P
149DY E 0.021 p
149DYS E CK=0.8222 6$CL=0.1369 5$CM+=0.04086 15
149DY L 5358 14 P
149DY E 0.013 p
149DYS E CK=0.8213 7$CL=0.1376 5$CM+=0.04108 16
149DY L 5387 14 P
149DY E 0.005 p
149DYS E CK=0.8204 7$CL=0.1383 5$CM+=0.04133 18
149DY L 5415 14 P ?
149DY E q ?
149DY cE $I(|e)=-0.002%
149DY L 5444 14 P ?
149DY E q ?
149DY cE $I(|e)=-0.001%
149DY L 5472 14 P
149DY E 0.002 p
149DYS E CK=0.8170 10$CL=0.1408 7$CM+=0.04222 25
149DY L 5501 14 P
149DY E 0.008 p
149DYS E CK=0.8156 11$CL=0.1419 8$CM+=0.0426 3
149DY L 5529 14 P
149DY E 0.009 p
149DYS E CK=0.8140 12$CL=0.1430 9$CM+=0.0430 3
149DY L 5558 14 P
149DY E 0.016 p
149DYS E CK=0.8122 14$CL=0.1444 10$CM+=0.0435 4
149DY L 5586 14 P
149DY E 0.013 p
149DYS E CK=0.8102 16$CL=0.1458 12$CM+=0.0440 4
149DY L 5615 14 P
149DY E 0.004 p
149DYS E CK=0.8078 18$CL=0.1476 14$CM+=0.0446 5
149DY L 5643 14 P ?
149DY E q ?
149DY cE $I(|e)=-0.002%
149DY L 5672 14 P ?
149DY E q ?
149DY cE $I(|e)=-0.005%
149DY L 5700 14 P
149DY E 0.008 p
149DYS E CK=0.798 3$CL=0.1549 23$CM+=0.0472 8
149DY L 5729 14 P
149DY E 0.011 p
149DYS E CK=0.793 4$CL=0.158 3$CM+=0.0485 10
149DY L 5757 14 P
149DY E 0.021 p
149DYS E CK=0.787 5$CL=0.163 4$CM+=0.0500 13
149DY L 5786 14 P
149DY E 0.018 p
149DYS E CK=0.780 7$CL=0.168 5$CM+=0.0520 17
149DY L 5814 14 P
149DY E 0.010 p
149DYS E CK=0.770 9$CL=0.175 7$CM+=0.0546 23
149DY L 5843 14 P
149DY E 0.003 p
149DYS E CK=0.756 13$CL=0.186 10$CM+=0.058 4
149DY L 5871 14 P
149DY E 0.003 p
149DYS E CK=0.736 20$CL=0.200 15$CM+=0.064 6