149HO 149ER EC DECAY (9.6 S) 1989FI01 22NDS 202210
149HO H TYP=FUL$AUT=Balraj Singh and Jun Chen$CIT=NDS 185, 2 (2022)$
149HO2 H CUT=23-Aug-2022$
149HO c 1989Fi01: {+149}Er ions were produced by the {+94}Mo({+58}Ni,2pn)
149HO2c reaction with 242 MeV (center of target) {+58}Ni beam from the Lawrence
149HO3c Berkeley Laboratory SuperHILAC, separated with the OASIS facility
149HO4c online and collected on a moving tape of the counting station. |g rays
149HO5c were detected with a HPGe and two n-Ge detectors; charged particles
149HO6c were detected with a Si |DE-E telescope on one side of the tape and a
149HO7c plastic scintillator on the other side. Measured E|g, I|g,
149HO8c E(x-ray), I(x-ray), |g|g-coin, |g(t), E|b, |b-delayed proton spectra.
149HO9c Deduced levels, J|p, parent T{-1/2}, decay branching ratios,
149HOAc log {Ift}. The 9.6-s and 4-s activities are mixed
149HO c 1985To11: same setup and reaction as 1989Fi01, but with E({+58}Ni)=262
149HO2c MeV at the center of target. Measured E|g, I|g, |g|g-coin. Deduced
149HO3c levels.
149HO c 1984To07: {+149m}Er ions were produced via {+144}Sm({+12}C,7n)
149HO2c with 155 MeV {+12}C beam from the Lawrence Berkeley Laboratory 88-inch
149HO3c cyclotron. Measured |b-delayed protons with a Si |DE-E telescope,
149HO4c decay-time distribution. Deduced T{-1/2}. No |g decay from the isomer
149HO5c is reported.
149HO c 1984ScZT, 1984ScZU: source produced by {+93}Nb({+58}Ni,xnyp) E=5
149HO2c MeV/nucleon. Measured |g, delayed protons
149HO c Other: 1984ScZU (also 1984ScZT, 1985ZuZW). Three |g rays reported at
149HO2c 171.0, 343.7 and 436.6
149HO c Total decay energy deposit of 7246 keV {I197} calculated by RADLIST
149HO2c code is somewhat lower than the expected value of 8339 keV {I67},
149HO3c which indicates the incompleteness of the decay scheme.
149HO cE TI$Deduced from gamma-intensity balance at each level. There
149HO2cE is a gap of about 3 MeV between Q value and last known level
149HO3cE at 5098.7, which allows the possibility that there may be
149HO4cE additional levels and associated |g transitions populated by
149HO5cE {+149}Er decay. For this reason, the decay scheme is considered
149HO6cE incomplete; weak feedings (<0.5% or so) should be treated as upper
149HO7cE limits and associated log| {Ift} values as lower limits
149HO cG $Observed Ho X-ray intensities (relative to 100 for 1171|g):
149HO2cG I(K|a{-1}| x-ray)=137 {I4}, I(K|a{-2}| x-ray)=242 {I5}, I(K|b{-2}
149HO3cG x-ray)=70 {I15}, I(K|b{-1} x-ray)=21 {I2} (1989Fi01). A systematic
149HO4cG uncertainty of 15% should be added to the statistical uncertainty
149HOxcG given here, as stated by 1989Fi01
149HO cG $I(|e)=510 {I40}, I(|b{++})=550 {I140} (1989Fi01) relative to
149HO2cG 100 for 1171|g. Total |e is from K| x-ray intensity and |b{++} is from
149HOxcG |g{+|+} intensity
149HO cG $I(delayed protons from 8.9 s and 4 s isomers)=5.2 {I6}
149HO2cG (1989Fi01) relative to 100 for 1171|g. 1989Fi01 estimate that 63% {I7}
149HO3cG of the protons are from the decay of the 4-s isomer and 37% {I7} proton
149HO4cG intensity is associated with 8.9-s isomer
149HO cG $From singles and delayed proton intensities,
149HO2cG |e/|b{++}=0.83 {I4} (1989Fi01) for delayed proton decay
149HO cG E,RI$From 1989Fi01
149HO cG E(C)$Transition uncertain since a possible 514 line is masked
149HO2cG by intense |g{+|+} line. Intensity quoted here is an upper limit
149HOxcG (1989Fi01)
149HO cG E(D)$Coin with 344|g is inconsistent with this placement
149HO cG RI(E)$Contribution from {+149}Ho |e decay subtracted by 1989Fi01
149HO cG E(F)$Coin with 171|g, 344|g, 437|g is inconsistent with this placement
149HO cG E(G)$Possible coin with 172|g is inconsistent with this placement
149HO cG RI(A)$From |g|g-coin
149HO cG RI(B)$From (x-ray)|g-coin
149HO cG M$From the Adopted Gammas. Supporting evidence from this study is given
149HO2cG under comments, where available.
149HO cL E$From a least-squares fit to |g-ray energies
149HO cL E(U),J(U)$Weakly populated uncertain level in {+149}Er |e decay
149HO2cL (9.6 s). Possible allowed or first-forbidden |e+|b{++} feeding from
149HO3cL (11/2-) parent and |g to (11/2-) g.s. suggests 9/2, 11/2, 13/2
149HO cL J$As proposed in 1989Fi01, unless otherwise noted. All values are
149HO2cL consistent with those in the Adopted Levels
149HO cL J(A)$Probable allowed or first-forbidden |e+|b{++} feeding from
149HO2cL (11/2-) parent suggests 9/2, 11/2, 13/2
149HO cL J(B)$Probable allowed or first-forbidden |e+|b{++} feeding from
149HO2cL (11/2-) parent and |g to 7/2+ suggest 9/2, 11/2+. J|p=(9/2-)
149HO3cL is supported by expected dominance of h{-11/2} proton to h{-9/2}
149HO4cL neutron component in the |b transitions (1989Fi01)
149HO cL J(D)$From the Adopted Levels
149HO cL J(E)$This J|p is inconsistent with log| {Ift}=6.2-6.4 from (11/2-). Low
149HO2cL log| {Ift} value may be due to unobserved |g transitions from higher
149HO3cL levels
149HO cL T$From the Adopted Levels
149ER P 741.69 23 (11/2-) 9.6 S 6 7900 30
149ER cP E,J,T$From {+149}Er Adopted Levels
149ER cP QP$From 2021Wa16
149HO N 0.111 4 0.965 7 1.0363
149HO PN 4
149HO cN BR$%IT=3.5 {I7} (1989Fi01)
149HO cN NR$|S(I(|g+ce) of |g rays to g.s.+49)=97.8 {I20}; assuming %(|e+|b{++})
149HO2cN (to g.s.)<4% and %|ep=0.18 {I2} (1989Fi01)
149HO L 0.0 (11/2-) 21.0 S 2 D
149HO E 4 LT 0.2 LT 6.5 GT 4 LT ?
149HOS E EAV=3538 15$CK=0.0514 6$CL=0.00767 9$CM+=0.002259 25
149HO cE TI$from log| {Ift}|>6.5 (based on measured TAGS spectrum in 1985Al08)
149HO2cE for a similar (11/2- isomer in {+147}Dy to 11/2-, 50.6 level in
149HO3cE {+147}Tb) |e transition, as also assumed by 1989Fi01. For other N=81
149HO4cE isotones, 11/2- isomer decay to 11/2- daughter state, following are
149HO5cE the log| {Ift} values, as given in the ENSDF database: 6.2 for {+145}Gd
149HO6cE isomer to {+145}Eu decay, 6.5 for {+143}Sm isomer to {+143}Pm decay,
149HO7cE and >6.9 for {+141}Nd isomer to {+141}Pr decay.
149HO L 48.82 22 (1/2+) 56 S 3 DM
149HO2 L %EC+%B+=100
149HO L 220.32 19 (3/2+) D
149HO G 171.5 1 69 9 M1 0.566 8 C
149HO2 G %IG=7.4 10
149HOS G NC=0.00360 5$OC=0.000524 7$PC=2.94E-5 4
149HOS G KC=0.476 7$LC=0.0702 10$MC=0.01549 22
149HO cG RI$total intensity from 9.6-s and 4-s isomers=76 {I9} (1989Fi01) out of
149HO2cG which 7 {I3} is assigned to 4-s isomer
149HO cG M$|a(K)exp=0.57 {I7}, from summed x-ray and |g-ray intensity
149HO L 564.25 19 (5/2+) D
149HOF L FLAG=E
149HO E 3.1 12 0.26 10 6.5 3.4 13 ?
149HOS E EAV=3267 15$CK=0.0631 8$CL=0.00942 11$CM+=0.00278 4
149HO cE LOGFT$too low for |DJ|p=3. Apparent |e feeding is probably due
149HO2cE to missing |g transitions to this level
149HO G 343.9 1 67 8 (M1) 0.0853 12 C
149HO2 G %IG=7.2 9
149HOS G KC=0.0720 10$LC=0.01043 15$MC=0.002297 32
149HOS G NC=0.000534 7$OC=7.78E-5 11$PC=4.41E-6 6
149HO cG RI$total intensity from 8.9-s and 4-s isomers=69 {I8} (1989Fi01) out of
149HO2cG which 2 {I1} is assigned to 4-s isomer
149HO cG M$|a(K)exp(344|g+437|g)=0.14 {I3} consistent with M1 for both
149HO2cG transitions. |a(K)exp is deduced from summed x-ray and |g-intensity
149HO G 515.4 12 LT C ?
149HO2 G %IG<1.3
149HO L 1000.99 17 (7/2+) D
149HO E 1.3 LT 0.29 LT 8.7 GT 1.6 LT 1U?
149HOS E EAV=2994 14$CK=0.1494 17$CL=0.0226 3$CM+=0.00667 8
149HO cE TI$-0.3 {I19} from intensity balance
149HO G 436.7 1 42 7 (M1) 0.0456 6 C
149HO2 G %IG=4.5 8
149HOS G KC=0.0385 5$LC=0.00554 8$MC=0.001219 17
149HOS G NC=0.000283 4$OC=4.13E-5 6$PC=2.349E-6 33
149HO cG M$see comment for 343.9|g
149HO G 780.7 1 29 12 DC
149HO2 G %IG=3.1 13
149HO L 1171.08 7 A
149HO E 7.2 11 0.76 11 5.9 1 8.0 12
149HOS E EAV=2976 15$CK=0.0798 10$CL=0.01193 15$CM+=0.00352 5
149HO G 1171.0 1 100 10 C
149HO2 G %IG=10.7 11
149HO L 1183.71 20 A
149HO E 0.58 20 0.061 21 7.0 2 0.64 22
149HOS E EAV=2970 15$CK=0.0802 10$CL=0.01199 15$CM+=0.00353 5
149HO G 1183.7 2 6 2
149HO2 G %IG=0.64 22
149HO L 1277.11 10 (9/2-) B
149HO E 2.2 5 0.24 5 6.4 1 2.4 5
149HOS E EAV=2926 15$CK=0.0833 11$CL=0.01246 16$CM+=0.00367 5
149HO G 106.0 10 3 AP AC
149HO2 G %IG AP 0.32
149HO G 1277.1 1 26 3 C
149HO2 G %IG=2.78 34
149HO L 1380.10 10 (15/2+) D
149HO E 1.9 3 0.50 8 8.4 1 2.4 4 1U
149HOS E EAV=2818 14$CK=0.1727 21$CL=0.0262 3$CM+=0.00773 10
149HO G 1380.1 1 34 3 C
149HO2 G %IG=3.64 35
149HO L 1415.0 3 (7/2+) D
149HO E 0.3 3 0.08 8 9.1 5 0.4 4 1U?
149HOS E EAV=2802 14$CK=0.1750 21$CL=0.0265 4$CM+=0.00783 10
149HO G 413.0 10 2 1 C
149HO2 G %IG=0.21 11
149HO G 851.0 5 3 1 C
149HO2 G %IG=0.32 11
149HO G 1194.5 5 6 2 DC
149HO2 G %IG=0.64 22
149HO L 1530.94 8 A
149HO E 5.2 6 0.65 8 5.9 1 5.9 7
149HOS E EAV=2805 15$CK=0.0925 12$CL=0.01384 18$CM+=0.00408 6
149HO G 359.9 1 8 2 C
149HO2 G %IG=0.86 22
149HO G 1530.9 1 47 5
149HO2 G %IG=5.0 6
149HO L 1552.10 8 A
149HO E 2.8 4 0.35 4 6.2 1 3.1 4
149HOS E EAV=2795 15$CK=0.0933 12$CL=0.01396 18$CM+=0.00411 6
149HO G 172.4 10 3 AP AC
149HO2 G %IG AP 0.32
149HO G 380.9 1 7 2 C
149HO2 G %IG=0.75 22
149HO G 1552.2 1 19 3
149HO2 G %IG=2.04 33
149HO L 1560.11 10 (15/2-) D
149HOF L FLAG=E
149HO E 3.0 4 0.38 5 6.2 1 3.4 4
149HOS E EAV=2791 15$CK=0.0936 12$CL=0.01401 18$CM+=0.00413 6
149HO cE LOGFT$too low for |DJ=(2), |D|p=no. Apparent |e feeding is probably due
149HO2cE to missing |g transitions to this level
149HO G 1560.1 1 32 3
149HO2 G %IG=3.43 35
149HO L 1601.9 5 A
149HO E 1.6 4 0.20 6 6.4 1 1.8 5
149HOS E EAV=2771 15$CK=0.0953 13$CL=0.01426 19$CM+=0.00420 6
149HO G 222.0 10 6 AP AC
149HO2 G %IG AP 0.64
149HO G 323.8 10 3 1 AC
149HO2 G %IG=0.32 11
149HO G 1602.0 10 12 4 FC
149HO2 G %IG=1.3 4
149HO L 1648.91 10 A
149HO E 4.1 5 0.53 7 6.0 1 4.6 6
149HOS E EAV=2748 15$CK=0.0972 13$CL=0.01454 19$CM+=0.00429 6
149HO G 1648.9 1 43 5
149HO2 G %IG=4.6 6
149HO L 1706.92 20 A
149HO E 3.6 4 0.49 6 6.0 1 4.1 5
149HOS E EAV=2721 15$CK=0.0996 13$CL=0.01491 20$CM+=0.00439 6
149HO G 327.1 10 3 AP AC
149HO2 G %IG AP 0.32
149HO G 1706.9 2 35 4
149HO2 G %IG=3.7 5
149HO L 1735.31 20 A
149HO E 3.8 4 0.52 6 6.0 1 4.3 5
149HOS E EAV=2707 15$CK=0.1009 13$CL=0.01509 20$CM+=0.00445 6
149HO G 1735.3 2 40 4
149HO2 G %IG=4.3 5
149HO L 1765.80 10 A
149HO E 4.0 4 0.55 6 6.0 1 4.5 5
149HOS E EAV=2693 15$CK=0.1022 14$CL=0.01529 20$CM+=0.00451 6
149HO G 163.1 10 4 AP AC
149HO2 G %IG AP 0.43
149HO G 1765.8 1 38 4
149HO2 G %IG=4.1 5
149HO L 1828.9 3 A
149HO E 0.66 19 0.09 3 6.7 1 0.75 22
149HOS E EAV=2663 15$CK=0.1050 14$CL=0.01572 21$CM+=0.00463 7
149HO G 1828.9 3 7 2
149HO2 G %IG=0.75 22
149HO L 1997.46 18 A
149HO E 1.4 3 0.22 4 6.3 1 1.6 3
149HOS E EAV=2583 15$CK=0.1130 16$CL=0.01693 23$CM+=0.00499 7
149HO G 826.4 2 7 2 C
149HO2 G %IG=0.75 22
149HO G 1997.4 3 8 2
149HO2 G %IG=0.86 22
149HO L 2071.92 20 A
149HO E 0.28 9 0.045 15 7.0 2 0.32 11
149HOS E EAV=2548 15$CK=0.1168 16$CL=0.01750 24$CM+=0.00516 7
149HO G 2071.9 2 3 1
149HO2 G %IG=0.32 11
149HO L 2135.0 5 A
149HO E 0.37 19 0.06 3 6.9 2 0.43 22
149HOS E EAV=2518 15$CK=0.1202 17$CL=0.01800 25$CM+=0.00530 8
149HO G 2135.0 5 4 2 G?
149HO2 G %IG=0.43 21
149HO L 2148.72 20 A
149HO E 0.55 19 0.09 3 6.7 2 0.64 22
149HOS E EAV=2511 15$CK=0.1209 17$CL=0.01811 25$CM+=0.00534 8
149HO G 2148.7 2 6 2
149HO2 G %IG=0.64 22
149HO L 2177.52 10 A
149HO E 1.7 3 0.29 6 6.2 1 2.0 4
149HOS E EAV=2498 15$CK=0.1225 17$CL=0.0183 3$CM+=0.00541 8
149HO G 2177.5 1 19 3
149HO2 G %IG=2.04 33
149HO L 2209.1 3 (9/2-) B
149HO E 0.73 21 0.13 4 6.5 1 0.86 25
149HOS E EAV=2483 15$CK=0.1243 17$CL=0.0186 3$CM+=0.00549 8
149HO G 1208.5 5 3 1 C
149HO2 G %IG=0.32 11
149HO G 2209.0 3 5 2
149HO2 G %IG=0.54 22
149HO L 2221.92 10 A
149HO E 1.28 20 0.22 3 6.3 1 1.50 23
149HOS E EAV=2477 15$CK=0.1250 18$CL=0.0187 3$CM+=0.00552 8
149HO G 2221.9 1 14 2
149HO2 G %IG=1.50 22
149HO L 2226.86 17 (9/2-) B
149HO E 1.9 3 0.33 6 6.1 1 2.2 4
149HOS E EAV=2474 15$CK=0.1253 18$CL=0.0188 3$CM+=0.00553 8
149HO G 1225.8 2 9 3 C
149HO2 G %IG=0.96 32
149HO G 2226.9 2 12 2
149HO2 G %IG=1.29 22
149HO L 2267.28 10 (9/2-) B
149HO E 1.0 3 0.18 5 6.4 1 1.2 3
149HOS E EAV=2455 15$CK=0.1276 18$CL=0.0191 3$CM+=0.00563 8
149HO G 1267.9 5 4 2 C
149HO2 G %IG=0.43 21
149HO G 2267.2 1 7 2
149HO2 G %IG=0.75 22
149HO L 2297.3 5 (9/2-) B
149HO E 0.54 20 0.10 4 6.6 2 0.64 24
149HOS E EAV=2441 15$CK=0.1293 18$CL=0.0194 3$CM+=0.00571 8
149HO G 1295.0 10 2 1 C
149HO2 G %IG=0.21 11
149HO G 2297.6 5 4 2
149HO2 G %IG=0.43 21
149HO L 2317.62 20 A
149HO E 1.4 3 0.26 6 6.2 1 1.7 4
149HOS E EAV=2431 15$CK=0.1305 18$CL=0.0196 3$CM+=0.00577 8
149HO G 2317.6 2 16 3
149HO2 G %IG=1.71 33
149HO L 2321.72 10 (9/2-) B
149HO E 2.7 5 0.50 9 5.9 1 3.2 6
149HOS E EAV=2429 15$CK=0.1308 19$CL=0.0196 3$CM+=0.00578 8
149HO G 1045.6 10 4 2 AC
149HO2 G %IG=0.43 21
149HO G 1320.4 5 6 3 EC
149HO2 G %IG=0.64 32
149HO G 2321.7 1 20 3
149HO2 G %IG=2.14 33
149HO L 2326.82 20 A
149HO E 1.0 4 0.19 8 6.4 2 1.2 5
149HOS E EAV=2427 15$CK=0.1311 19$CL=0.0196 3$CM+=0.00579 8
149HO G 2326.8 2 11 4
149HO2 G %IG=1.2 4
149HO L 2368.0 11 A
149HO E 1.2 2 0.22 3 6.3 1 1.4 2
149HOS E EAV=2408 15$CK=0.1336 19$CL=0.0200 3$CM+=0.00590 9
149HO G 1367.0 10 0.8 AP
149HO2 G %IG AP 0.086
149HO G 2368.3 2 12 2 ?
149HO2 G %IG=1.29 22
149HO L 2381.32 20 A
149HO E 0.5 3 0.10 6 6.6 3 0.6 4
149HOS E EAV=2401 15$CK=0.1344 19$CL=0.0201 3$CM+=0.00594 9
149HO G 2381.3 2 6 3
149HO2 G %IG=0.64 32
149HO L 2449.8 6 (9/2-) B
149HO E 0.8 4 0.1 1 6.4 3 0.9 5
149HOS E EAV=2369 15$CK=0.1387 20$CL=0.0208 3$CM+=0.00613 9
149HO G 1448.8 5 8 4 C
149HO2 G %IG=0.9 4
149HO L 2469.38 19 (9/2-) B
149HO E 2.2 7 0.45 15 6.0 2 2.7 9
149HOS E EAV=2360 15$CK=0.1400 20$CL=0.0210 3$CM+=0.00619 9
149HO G 1468.1 5 14 7 C
149HO2 G %IG=1.5 8
149HO G 2469.4 2 11 3
149HO2 G %IG=1.18 32
149HO L 2493.3 6 (9/2-) B
149HO E 0.9 3 0.19 7 6.3 2 1.1 4
149HOS E EAV=2348 15$CK=0.1416 20$CL=0.0212 3$CM+=0.00626 9
149HO G 1492.3 5 4 2 C
149HO2 G %IG=0.43 21
149HO G 2491.9 5 6 3 ?
149HO2 G %IG=0.64 32
149HO L 2499.4 5 U ?
149HO E 0.27 9 0.054 19 6.9 2 0.32 11 ?
149HOS E EAV=2345 15$CK=0.1420 20$CL=0.0213 3$CM+=0.00627 9
149HO G 2499.4 5 3 1 ?
149HO2 G %IG=0.32 11
149HO L 2512.52 20 A
149HO E 0.71 18 0.15 4 6.4 1 0.86 22
149HOS E EAV=2339 15$CK=0.1429 21$CL=0.0214 3$CM+=0.00631 9
149HO G 2512.5 2 8 2
149HO2 G %IG=0.86 22
149HO L 2580.42 20 A
149HO E 0.53 18 0.11 4 6.5 2 0.64 22
149HOS E EAV=2307 15$CK=0.1475 21$CL=0.0221 4$CM+=0.00652 10
149HO G 2580.4 2 6 2
149HO2 G %IG=0.64 22
149HO L 2591.4 4 A
149HO E 0.44 18 0.10 4 6.6 2 0.54 22
149HOS E EAV=2302 15$CK=0.1483 22$CL=0.0222 4$CM+=0.00655 10
149HO G 2591.4 4 5 2
149HO2 G %IG=0.54 22
149HO L 2607.41 10 (9/2-) B
149HO E 1.5 3 0.32 7 6.1 1 1.8 4
149HOS E EAV=2295 15$CK=0.1494 22$CL=0.0224 4$CM+=0.00660 10
149HO G 1605.0 10 2 AP C
149HO2 G %IG AP 0.21
149HO G 2607.4 1 15 3
149HO2 G %IG=1.61 33
149HO L 2633.3 4 A
149HO E 0.17 9 0.038 20 7.0 2 0.21 11
149HOS E EAV=2282 15$CK=0.1512 22$CL=0.0227 4$CM+=0.00668 10
149HO G 2633.3 4 2 1
149HO2 G %IG=0.21 11
149HO L 2677.1 5 (9/2-) B
149HO E 0.5 3 0.1 1 6.5 3 0.6 4
149HOS E EAV=2262 15$CK=0.1544 23$CL=0.0232 4$CM+=0.00683 10
149HO G 1676.1 4 6 3 C
149HO2 G %IG=0.64 32
149HO L 2714.8 3 A
149HO E 0.35 18 0.08 4 6.7 2 0.43 22
149HOS E EAV=2244 15$CK=0.1572 23$CL=0.0236 4$CM+=0.00695 11
149HO G 2714.8 3 4 2
149HO2 G %IG=0.43 21
149HO L 2804.5 5 U ?
149HO E 0.09 5 0.022 12 7.2 3 0.11 6 ?
149HOS E EAV=2202 15$CK=0.1641 24$CL=0.0246 4$CM+=0.00726 11
149HO G 2804.5 5 1.0 5 ?
149HO2 G %IG=0.11 5
149HO L 2825.0 11 (9/2-) B
149HO E 0.64 18 0.16 4 6.4 1 0.80 22
149HOS E EAV=2192 15$CK=0.1657 25$CL=0.0249 4$CM+=0.00733 11
149HO G 1824.0 10 0.5 AP C
149HO2 G %IG AP 0.054
149HO G 2824.9 4 7 2 ?
149HO2 G %IG=0.75 22
149HO L 2851.2 11 U ?
149HO E 0.26 9 0.064 22 6.8 2 0.32 11 ?
149HOS E EAV=2180 15$CK=0.1678 25$CL=0.0252 4$CM+=0.00742 11
149HO G 2851.2 11 3 1 ?
149HO2 G %IG=0.32 11
149HO L 2901.7 4 U ?
149HO E 0.17 9 0.043 23 6.9 2 0.21 11 ?
149HOS E EAV=2156 15$CK=0.172 3$CL=0.0258 4$CM+=0.00761 12
149HO G 2901.7 4 2 1 ?
149HO2 G %IG=0.21 11
149HO L 2914.0 11 (9/2-) B
149HO E 0.33 9 0.085 23 6.6 1 0.41 11
149HOS E EAV=2150 15$CK=0.173 3$CL=0.0260 4$CM+=0.00766 12
149HO G 1913.0 10 0.8 AP C
149HO2 G %IG AP 0.086
149HO G 2913.5 3 3 1 ?
149HO2 G %IG=0.32 11
149HO L 2935.7 6 A
149HO E 0.17 9 0.044 23 6.9 2 0.21 11
149HOS E EAV=2140 14$CK=0.175 3$CL=0.0262 4$CM+=0.00774 12
149HO G 2935.7 6 2 1
149HO2 G %IG=0.21 11
149HO L 2939.3 9 U ?
149HO E 0.11 5 0.029 13 7.1 2 0.14 6 ?
149HOS E EAV=2138 15$CK=0.175 3$CL=0.0263 4$CM+=0.00775 12
149HO G 2939.3 9 1.3 5 ?
149HO2 G %IG=0.14 5
149HO L 2965.5 3 A
149HO E 0.17 9 0.045 23 6.9 2 0.21 11
149HOS E EAV=2126 14$CK=0.177 3$CL=0.0266 4$CM+=0.00785 12
149HO G 2965.5 3 2 1
149HO2 G %IG=0.21 11
149HO L 2977.8 3 A
149HO E 0.25 9 0.068 23 6.7 2 0.32 11
149HOS E EAV=2120 14$CK=0.179 3$CL=0.0268 4$CM+=0.00790 12
149HO G 2977.8 3 3 1
149HO2 G %IG=0.32 11
149HO L 2992.3 3 (9/2-) B
149HO E 0.86 16 0.24 4 6.2 1 1.1 2
149HOS E EAV=2113 14$CK=0.180 3$CL=0.0270 4$CM+=0.00796 12
149HO G 1991.0 10 6 AP C
149HO2 G %IG AP 0.64
149HO G 2992.3 3 4 2
149HO2 G %IG=0.43 21
149HO L 2996.66 25 A
149HO E 0.9 3 0.26 9 6.1 2 1.2 4
149HOS E EAV=2111 14$CK=0.180 3$CL=0.0270 4$CM+=0.00797 12
149HO G 1581.6 2 7 3 C
149HO2 G %IG=0.75 32
149HO G 2996.7 3 4 2
149HO2 G %IG=0.43 21
149HO L 3001.0 11 (9/2-) B
149HO E 0.42 9 0.12 2 6.5 1 0.54 11
149HOS E EAV=2109 14$CK=0.181 3$CL=0.0271 4$CM+=0.00799 12
149HO G 2000.0 10 3 AP C
149HO2 G %IG AP 0.321
149HO2 G %IG AP 0.28 $
149HO G 3001.1 4 2 1 ?
149HO2 G %IG=0.21 11
149HO L 3005.0 3 (9/2-) B
149HO E 0.59 9 0.16 2 6.3 1 0.75 11
149HOS E EAV=2107 14$CK=0.181 3$CL=0.0272 4$CM+=0.00801 12
149HO G 2004.0 10 4 AP C
149HO2 G %IG AP 0.43
149HO G 3005.0 3 3 1
149HO2 G %IG=0.32 11
149HO L 3049.0 3 A
149HO E 0.42 17 0.12 5 6.5 2 0.54 22
149HOS E EAV=2087 14$CK=0.185 3$CL=0.0278 5$CM+=0.00818 13
149HO G 3049.0 3 5 2
149HO2 G %IG=0.54 22
149HO L 3061.0 9 U ?
149HO E 0.08 5 0.022 13 7.2 3 0.10 6 ?
149HOS E EAV=2081 14$CK=0.186 3$CL=0.0279 5$CM+=0.00823 13
149HO G 3061.0 9 0.9 5 ?
149HO2 G %IG=0.10 5
149HO L 3125.0 11 (9/2-) B
149HO E 0.31 8 0.092 25 6.6 1 0.40 11
149HOS E EAV=2051 14$CK=0.192 3$CL=0.0288 5$CM+=0.00850 13
149HO G 2124.0 10 0.7 AP C
149HO2 G %IG AP 0.075
149HO G 3125.3 3 3 1 ?
149HO2 G %IG=0.32 11
149HO L 3174.9 5 U ?
149HO E 0.16 8 0.05 3 6.8 2 0.21 11 ?
149HOS E EAV=2028 14$CK=0.197 3$CL=0.0296 5$CM+=0.00871 14
149HO G 3174.9 5 2 1 ?
149HO2 G %IG=0.21 11
149HO L 3226.2 4 U ?
149HO E 0.16 8 0.05 3 6.8 2 0.21 11 ?
149HOS E EAV=2004 14$CK=0.202 3$CL=0.0303 5$CM+=0.00894 14
149HO G 3226.2 4 2 1 ?
149HO2 G %IG=0.21 11
149HO L 3263.1 3 U ?
149HO E 0.24 8 0.08 3 6.6 2 0.32 11 ?
149HOS E EAV=1987 14$CK=0.206 4$CL=0.0309 5$CM+=0.00911 14
149HO G 3263.1 3 3 1 ?
149HO2 G %IG=0.32 11
149HO L 3305.8 3 U ?
149HO E 0.12 6 0.040 20 6.9 2 0.16 8 ?
149HOS E EAV=1967 14$CK=0.210 4$CL=0.0316 5$CM+=0.00931 15
149HO G 3305.8 3 1.5 7 ?
149HO2 G %IG=0.16 8
149HO L 3325.2 4 U ?
149HO E 0.08 4 0.028 15 7.0 3 0.11 6 ?
149HOS E EAV=1958 14$CK=0.212 4$CL=0.0319 5$CM+=0.00940 15
149HO G 3325.2 4 1.0 5 ?
149HO2 G %IG=0.11 5
149HO L 3338.4 3 U ?
149HO E 0.24 8 0.08 3 6.6 2 0.32 11 ?
149HOS E EAV=1951 14$CK=0.214 4$CL=0.0321 5$CM+=0.00946 15
149HO G 3338.4 3 3 1 ?
149HO2 G %IG=0.32 11
149HO L 3536.3 8 U ?
149HO E 0.15 8 0.06 3 6.7 2 0.21 11 ?
149HOS E EAV=1859 14$CK=0.236 4$CL=0.0355 6$CM+=0.01047 17
149HO G 3536.3 8 2 1 ?
149HO2 G %IG=0.21 11
149HO L 3795.1 6 U ?
149HO E 0.14 7 0.07 4 6.6 2 0.21 11 ?
149HOS E EAV=1738 14$CK=0.270 5$CL=0.0406 7$CM+=0.01198 19
149HO G 3795.0 6 2 1 ?
149HO2 G %IG=0.21 11
149HO L 3828.3 12 U ?
149HO E 0.07 4 0.036 20 6.8 3 0.11 6 ?
149HOS E EAV=1723 14$CK=0.275 5$CL=0.0413 7$CM+=0.01219 20
149HO G 3828.2 12 1.0 5 ?
149HO2 G %IG=0.11 5
149HO L 3885.6 5 U ?
149HO E 0.3 3 0.2 1 6.2 4 0.5 4 ?
149HOS E EAV=1696 14$CK=0.283 5$CL=0.0426 7$CM+=0.01256 20
149HO G 3885.5 5 5 3 ?
149HO2 G %IG=0.54 32
149HO L 4003.2 4 U ?
149HO E 0.06 3 0.036 18 6.8 2 0.10 5 ?
149HOS E EAV=1642 14$CK=0.301 5$CL=0.0453 8$CM+=0.01336 22
149HO G 4003.1 4 0.9 4 ?
149HO2 G %IG=0.10 4
149HO L 4037.3 13 U ?
149HO E 0.02 1 0.01 1 7.3 3 0.03 2 ?
149HOS E EAV=1626 14$CK=0.306 5$CL=0.0461 8$CM+=0.01360 22
149HO G 4037.2 13 0.3 2 ?
149HO2 G %IG=0.032 21
149HO L 4086.4 5 U ?
149HO E 0.13 7 0.08 4 6.5 2 0.21 11 ?
149HOS E EAV=1603 14$CK=0.314 5$CL=0.0473 8$CM+=0.01395 23
149HO G 4086.3 5 2 1 ?
149HO2 G %IG=0.21 11
149HO L 4236.0 10 U ?
149HO E 0.03 2 0.02 2 7.0 4 0.05 4 ?
149HOS E EAV=1534 14$CK=0.339 6$CL=0.0512 8$CM+=0.01509 24
149HO G 4235.9 10 0.5 3 ?
149HO2 G %IG=0.054 32
149HO L 4386.0 7 U ?
149HO E 0.06 3 0.04 3 6.6 3 0.10 6 ?
149HOS E EAV=1465 14$CK=0.367 6$CL=0.0553 9$CM+=0.0163 3
149HO G 4385.9 7 0.9 5 ?
149HO2 G %IG=0.10 5
149HO L 4413.5 3 A
149HO E 0.24 12 0.19 10 6.0 2 0.43 22
149HOS E EAV=1452 14$CK=0.372 6$CL=0.0561 9$CM+=0.0166 3
149HO G 4413.4 3 4 2
149HO2 G %IG=0.43 21
149HO L 4433.9 4 U ?
149HO E 0.12 6 0.09 5 6.3 2 0.21 11 ?
149HOS E EAV=1443 14$CK=0.376 6$CL=0.0567 9$CM+=0.0167 3
149HO G 4433.8 4 2 1 ?
149HO2 G %IG=0.21 11
149HO L 4441.4 3 A
149HO E 0.18 6 0.14 5 6.1 2 0.32 11
149HOS E EAV=1440 14$CK=0.377 6$CL=0.0569 9$CM+=0.0168 3
149HO G 4441.3 3 3 1
149HO2 G %IG=0.32 11
149HO L 4552.5 8 U ?
149HO E 0.03 1 0.02 1 6.9 2 0.05 2 ?
149HOS E EAV=1388 14$CK=0.399 6$CL=0.0603 10$CM+=0.0178 3
149HO G 4552.4 8 0.5 2 ?
149HO2 G %IG=0.054 22
149HO L 4616.8 5 U ?
149HO E 0.05 3 0.04 2 6.6 3 0.09 5 ?
149HOS E EAV=1359 14$CK=0.412 7$CL=0.0623 10$CM+=0.0184 3
149HO G 4616.7 5 0.8 4 ?
149HO2 G %IG=0.09 4
149HO L 4622.4 3 U ?
149HO E 0.22 11 0.21 11 5.9 2 0.43 22 ?
149HOS E EAV=1356 14$CK=0.413 7$CL=0.0625 10$CM+=0.0184 3
149HO G 4622.3 3 4 2 ?
149HO2 G %IG=0.43 21
149HO L 4645.6 4 U ?
149HO E 0.10 6 0.11 6 6.2 2 0.21 11 ?
149HOS E EAV=1346 14$CK=0.418 7$CL=0.0632 10$CM+=0.0187 3
149HO G 4645.5 4 2 1 ?
149HO2 G %IG=0.21 11
149HO L 4652.1 4 A
149HO E 0.10 5 0.11 6 6.2 2 0.21 11
149HOS E EAV=1343 14$CK=0.420 7$CL=0.0634 10$CM+=0.0187 3
149HO G 4652.0 4 2 1
149HO2 G %IG=0.21 11
149HO L 4661.68 20 A
149HO E 0.21 11 0.22 11 5.9 2 0.43 22
149HOS E EAV=1338 14$CK=0.422 7$CL=0.0637 10$CM+=0.0188 3
149HO G 4661.6 2 4 2
149HO2 G %IG=0.43 21
149HO L 4676.7 4 U ?
149HO E 0.10 5 0.11 6 6.2 2 0.21 11 ?
149HOS E EAV=1332 14$CK=0.425 7$CL=0.0642 10$CM+=0.0189 3
149HO G 4676.6 4 2 1 ?
149HO2 G %IG=0.21 11
149HO L 4699.68 20 A
149HO E 0.78 19 0.82 21 5.3 1 1.6 4
149HOS E EAV=1321 14$CK=0.430 7$CL=0.0649 10$CM+=0.0192 3
149HO G 4699.6 2 15 3
149HO2 G %IG=1.61 33
149HO L 4706.1 10 A
149HO E 0.06 3 0.07 4 6.4 3 0.13 7
149HOS E EAV=1318 14$CK=0.431 7$CL=0.0652 10$CM+=0.0192 3
149HO G 4706.0 10 1.2 6 B
149HO2 G %IG=0.13 6
149HO L 4750.0 8 U ?
149HO E 0.06 3 0.06 3 6.4 2 0.12 6 ?
149HOS E EAV=1298 14$CK=0.440 7$CL=0.0666 10$CM+=0.0197 3
149HO G 4749.9 8 1.1 5 ?
149HO2 G %IG=0.12 5
149HO L 4822.9 6 U ?
149HO E 0.03 2 0.04 3 6.6 4 0.07 5 ?
149HOS E EAV=1265 14$CK=0.456 7$CL=0.0691 11$CM+=0.0204 3
149HO G 4822.8 6 0.7 4 ?
149HO2 G %IG=0.07 4
149HO L 4851.1 9 U ?
149HO E 0.03 2 0.04 3 6.6 4 0.07 5 ?
149HOS E EAV=1252 14$CK=0.463 7$CL=0.0700 11$CM+=0.0207 3
149HO G 4851.0 9 0.7 4 ?
149HO2 G %IG=0.07 4
149HO L 5079.2 10 A
149HO E 0.054 AP 0.086 AP 6.2 AP 0.14 AP
149HOS E EAV=1148 14$CK=0.515 7$CL=0.0781 11$CM+=0.0231 4
149HO G 5079.1 10 1.3 AP B
149HO2 G %IG AP 0.14
149HO L 5098.7 10 A
149HO E 0.053 AP 0.087 AP 6.2 AP 0.14 AP
149HOS E EAV=1139 14$CK=0.520 7$CL=0.0788 11$CM+=0.0233 4
149HO G 5098.6 10 1.3 AP B
149HO2 G %IG AP 0.14