178W 178RE EC DECAY 2001KI10,1970GO20 09NDS 200907
178W H TYP=FUL$AUT=E. Achterberg, O.A. Capurro, G.V. Marti$
178W 2 H CIT=NDS 110, 1473 (2009)$CUT=31-May-2008$
178W c 2001Ki10: {+178}Re isotope formed in the {+173}Yb({+11}B,6n) reaction
178W 2c at E=73 MeV, and also obtained from the decay chain of {+178}Ir isotope
178W 3c formed in the {+164}Er({+19}F,5n) reaction at E=110 MeV.
178W 4c Measured E|g, I|g, |g|g, |g|g(t), |g|g(|q), ce using the CAESAR array
178W 5c consisting of six Compton-suppressed Ge detectors, and a
178W 6c superconducting solenoid spectrometer for electrons
178W c 1970Go20: Sources of {+178}Re produced by the {+181}Ta({+3}He,xn)
178W 2c and W(p,xn) reactions at E=72 and 54 MeV, respectively.
178W 2c Measured E|g, I|g, |g|g coin, |b|g coin, E(ce), Ice.
178W 2c Detectors: Ge(Li), scin, Si(Li).
178W cE $I(|e+|b{++}) deduced by the evaluators from the total transition
178W xcE intensity balances at each level, using the intensity data from
178W xCE 2001Ki10, and those from 1970Go20, where no data from 2001Ki10
178W xCE were available. No levels have been established in the region 2.1 to
178W xCE 3.3 MeV by these |b decay studies. This suggests that the intensity
178W xCE balances, and consequent |b feedings and deduced log {Ift} values,
178W xCE should be regarded with caution, as there may be unobserved |g-ray
178W xCE intensity leading to changes in the |b feedings listed below. However
178W xCE these unobserved intensities are assumed to be rather small, as all
178W xCE known levels in the mentioned gap have J values of 8 or higher (see
178W xCE adopted levels dataset), and therefore any |b feeding can be expected
178W xCE to be very small.
178W cE IB,IE$Values obtained using theoretical |e/|b{++} ratios.
178W cG $Experimental restrictions in 2001Ki10 did not allow detecting
178W xcG transitions higher than E|g|?1.9 MeV. Some observed, but unplaced,
178W xcG transitions of 1970Go20 have been placed by
178W xcG 2001Ki10 in the level scheme. All experimental conversion
178W xcG and |g-|g directional correlation coefficients are from 2001Ki10,
178W xcG except when otherwise noted. Quoted relative
178W xCG |g-ray intensities from 2001Ki10 have been normalized to the
178W xCG I|g(237) value from 1970Go20.
178W CG E$Energy values from 2001Ki10 unless noted
178W xCG otherwise. An uncertainty of 0.2 keV has been assigned to the
178W xCG |g-ray energies from 2001Ki10.
178W cG M$Multipolarities on the basis of conversion coefficients
178W 3cG from 2001Ki10 and 1970Go20, and from |g-|g directional
178W 3cG correlation coefficient measurements from 2001Ki10.
178W 4cG Conversion coefficients quoted from 1970Go20 have been normalized
178W 5cG to |a(K,237keV,E2,theo)=0.1064 by the evaluators. Some
178W xCG multipolarities have been tentatively assigned by the evaluators,
178W xCG based mainly on the J|p values of the connected levels.
178W cG MR$Mixing ratios from 2001Ki10
178W cG RI$|g-ray intensities from 2001Ki10, unless otherwise noted.
178W cG E(X),RI(X)$Not seen by 1970Go20
178W CG E(Y),RI(Y)$From 1970Go20, |g ray not seen by 2001Ki10.
178W CG E(Z)$|g ray seen by 1970Go20 but not placed in their level scheme;
178W xCG placed by 2001Ki10.
178W cL E$From least-squares fit to E|g's
178W CL BAND(A)$ GS band
178W CL BAND(B)$ |g band
178W CL BAND(C)$ |b band
178W CL BAND(D)$ KPI=2- band
178W CL BAND(E)$ KPI=0+ band
178RE P 0 (3+) 13.2 M 2 4.76E3 3
178RE cP $T{-1/2} from 2003Au02, Q(|b{++}) from 2003Au03.
178W N 0.9565 1.0 1.0
178W cN NR From decay scheme assuming |SI(|g+ce)(g.s.)=100%.
178W PN 3
178W G 962.8 5 0.40 15
178W X G FLAG=Y
178W G 1289.0 100.5 3
178W X G FLAG=Y
178W G 1377.2 100.4 2
178W X G FLAG=Y
178W G 1499.4 5 0.6 2
178W X G FLAG=Y
178W G 1580.0 100.5 2
178W X G FLAG=Y
178W G 1608.5 4 0.7 2
178W X G FLAG=Y
178W G 1708.2 4 0.3 1
178W X G FLAG=Y
178W G 1744.6 5 0.5 2
178W X G FLAG=Y
178W G 1795.6 7 0.2 1
178W X G FLAG=Y
178W G 1833.9 8 0.7 2
178W X G FLAG=Y
178W G 1836.0 150.2 1
178W X G FLAG=Y
178W G 1893.3 8 0.5 2
178W X G FLAG=Y
178W G 1924.7 8 0.4 2
178W X G FLAG=Y
178W G 2016.3 8 0.3 1
178W X G FLAG=Y
178W G 2053.0 8 0.4 1
178W X G FLAG=Y
178W G 2133.1 8 0.6 1
178W X G FLAG=Y
178W G 2263.7 8 0.20 7
178W X G FLAG=Y
178W G 2306.6 8 0.20 7
178W X G FLAG=Y
178W G 2312.1 8 0.4 1
178W X G FLAG=Y
178W G 2455.9 7 0.21 7
178W X G FLAG=Y
178W G 2997.6 6 0.7 2
178W X G FLAG=Y
178W G 3133.6 5 0.3 1
178W X G FLAG=Y
178W G 3164.0 6 0.5 2
178W X G FLAG=Y
178W G 3182.0 6 0.27 8
178W X G FLAG=Y
178W G 3188.1 6 0.54 15
178W X G FLAG=Y
178W G 3217.2 6 0.27 8
178W X G FLAG=Y
178W G 3232.5 6 0.21 7
178W X G FLAG=Y
178W G 3247.5 6 0.18 7
178W X G FLAG=Y
178W G 3254.2 6 0.36 12
178W X G FLAG=Y
178W G 3257.5 6 0.36 12
178W X G FLAG=Y
178W G 3376.0 6 0.10 3
178W X G FLAG=Y
178W G 3417.2 6 0.59 7
178W X G FLAG=Y
178W G 3428.1 8 0.28 9
178W X G FLAG=Y
178W G 3431.4 6 0.62 9
178W X G FLAG=Y
178W G 3441.2 6 0.31 10
178W X G FLAG=Y
178W G 3525.7 8 0.10 3
178W X G FLAG=Y
178W G 3544.2 8 0.05 2
178W X G FLAG=Y
178W G 3559.0 8 0.06 2
178W X G FLAG=Y
178W L 0.0 0+ A
178W L 106.03 11 2+ A
178W E 10 5 9 4 6.54 21 19 9
178W S E EAV=1644 14$CK=0.407 5$CL=0.0661 9$CM+=0.0204 3
178W G 106.0 2 24.5 13E2 3.10
178W cG M$|a(L)exp=2.1 {I4}, |a(M)exp+|a(N)exp=0.54 {I11} (1970Go20)
178W L 343.01 12 4+ A
178W E 10 2 12 2 6.39 8 22 4
178W S E EAV=1535 14$CK=0.447 6$CL=0.0728 9$CM+=0.0225 3
178W CE E|b=3.30 {I18} (measured in coin with 237.3|g) (1970Go20).
178W xCE Other: 3.1 (1957Ha04).
178W G 237.0 2 46.5 13E2 0.176
178W CG The intensity of this transition has been used by the
178W xCG evaluators for normalization of the 2001Ki10 I|g values to those of
178W xCG 1970Go20.
178W cG M$A{-2}=+0.08 {I2}, A{-4}=+0.02 {I2} (2001Ki10).
178W xcG |a(K)exp=0.12 (1968Be53); |a(K)theo=0.1064.
178W xDG The theoretical |a(K,E2) value for this transition was adopted by
178W xDG 1970Go20 as normalization for their experimental CC data (value
178W xDG updated to current BRICC value of 1.064 by evaluators - 12-jul-2008).
178W L 694.58 15 6+ A
178W E 0.9 9 1.6 16 7.2 5 2.5 25
178W S E EAV=1375 14$CK=0.511 6$CL=0.0835 10$CM+=0.0258 3
178W G 351.7 2 5.8 3E2 0.0535
178W cG M from adopted gammas; GS rotational band member.
178W L 1044.82 17 2- D
178W E 1.7 2 4.1 6 6.70 7 5.8 8
178W S E EAV=1216 14$CK=0.578 6$CL=0.0946 10$CM+=0.0292 3
178W G 938.8 2 10.4 3E1(+M2) 0.015 14
178W cG M$|a(K)exp=0.0056 {I19} (1970Go20). |a(K)exp=0.00152 {I11},
178W 3cG |a(L)exp=0.00016 {I4}, A{-2}=+0.17 {I3} (2001Ki10)
178W L 1082.62 14 2+ C
178W CL J$From E0 component in 976-keV |g-ray to J|p=2+ 106-keV level.
178W E 0.38 3 0.92 7 7.34 4 1.3 1
178W S E EAV=1199 14$CK=0.585 6$CL=0.0958 10$CM+=0.0296 3
178W G 739.7 2 0.24 6E2 0.00845
178W CG M$Transition to J|p=4+ 343-keV level.
178W G 976.5 2 2.32 13E0+M1+E2 -12.3 +28-640.004768
178W CG M$|a(K)exp=0.024 {I6} (1970Go20). A{-2}=0.00 {I6}, A{-4}=+0.22 {I7}.
178W xCG |a(K)exp=0.0076 {I5}, |a(L)exp=0.00110 {I14}, |a(M)exp=0.00035 {I5};
178W cG $q{+2}(E0/E2)=0.94 {I13}; X(E0/E2)=0.045 {I6} (2001Ki10)
178W L 1110.65 13 2+ B
178W CL J From E0 component in 1004.6 |g-ray to J|p=2+ 106-keV level.
178W E 0.45 6 1.15 14 7.24 6 1.60 20
178W S E EAV=1187 14$CK=0.590 6$CL=0.0967 10$CM+=0.0299 3
178W G 767.8 2 0.40 9E2 0.00780
178W CG M$Transition to J|p=4+ 343-keV level.
178W G 1004.6 2 0.41 9E0+M1+E2 +2 GT 0.0050 6
178W cG M$|a(K)exp=0.0090 {I8}, |a(L)exp=0.0010 {I2}.
178W cG $q{+2}(E0/E2)=1.5 {I3}; X(E0/E2)=0.076 {I+14-13} (2001Ki10)
178W G 1110.6 2 1.29 7E2 0.00366
178W cG M$|a(K)exp=0.00276 {I17}
178W L 1120.54 17 3- D
178W E 1.3 1 3.4 4 6.77 5 4.7 5
178W S E EAV=1182 14$CK=0.592 6$CL=0.0970 10$CM+=0.0300 3
178W G 75.7 2 0.11 6M1(+E2) 11.4 10
178W X G FLAG=X
178W G 777.6 2 6.0 3E1(+M2) +0.02 2 0.002897
178W cG M$|a(K)exp<0.0055 (1970Go20); a(K)exp=0.0068 {I15},
178W 3cG A{-2}=-0.15 {I6}, A{-4}=-0.3 {I6}.
178W DG MR$Inconsistency between |d and |a(K) experimental values.
178W xDG An |a(K) value of 0.0024 is obtained from the experimental |d value
178W L 1225.70 19 4- D
178W E 0.2 1 0.5 2 7.55 19 0.7 3
178W S E EAV=1135 14$CK=0.612 6$CL=0.1004 10$CM+=0.0310 3
178W G 180.9 2 0.59 7(E2) 0.434
178W G 882.7 2 0.78 7E1 0.00225
178W cG M$|a(K)exp < 0.002
178W L 1236.70 16 3+ B
178W E 0.43 10 1.3 3 7.16 11 1.7 4
178W S E EAV=1130 14$CK=0.614 6$CL=0.1007 10$CM+=0.0311 3
178W G 893.6 2 0.88 9E2 0.00566
178W X G FLAG=X
178W cG M$|a(K)exp=0.0048 {I6}
178W G 1130.7 2 1.81 13E2+M1 +6.9 +77-240.0036111
178W X G FLAG=Z
178W cG M$|a(K)exp=0.00282 {I18}; A{-2}=-0.07 {I6}, A{-4}=-0.21 {I8}
178W L 1275.39 15 4+ C
178W CL J$From E0 component in 932-keV |g-ray to J|p=4+ 342-keV level.
178W E 0.71 12 2.2 4 6.92 8 2.9 5
178W S E EAV=1112 14$CK=0.622 6$CL=0.1020 10$CM+=0.0315 3
178W G 192.5 2 0.13 3 E2 0.351
178W X G FLAG=X
178W G 580.8 2 0.56 10E2 0.01460
178W X G FLAG=X
178W G 932.4 2 2.52 14E0+M1+E2 -6.6 +15-300.0053312
178W cG M$|a(K)exp=0.061 {I10} (1970Go20). |a(K)exp=0.0176 {I11},
178W xcG |a(L)exp=0.0027 {I2}, |a(M)exp=0.0014 {I2}, A{-2}=-0.07 {I5},
178W xcG A{-4}=+0.14 {I6}.
178W cG $q{+2}(E0/E2)=3.2 {I3}; X(E0/E2)=0.140 {I13} (2001Ki10)
178W G 1169.4 2 0.107 23E2 0.00331
178W DG Transition doubly placed in 1970Go20
178W L 1294.57 15 0+ E
178W CL J$From decay by E0 1294-keV |g-ray to J|p=0+ g.s.
178W E 0.07 2 0.2 1 7.89 15 0.3 1
178W S E EAV=1104 14$CK=0.625 6$CL=0.1026 10$CM+=0.0317 3
178W G 1188.7 2 0.29 9(E2) 0.00321
178W X G FLAG=X
178W G 1294.4 2 E0
178W X G FLAG=X
178W cG TI TI=0.024 {I2}, deduced by evaluators from experimental
178W xcG values |a{-K}/|a{-L}=5.6 {I8} and Ice(K)=0.044 {I3} (2001Ki10).
178W cG $q{+2}(E0/E2)=26 {I2} and X(E0/E2)=1.73 {I12} (2001Ki10)
178W L 1345.01 17 5- D
178W E 0.44 7 1.5 2 7.07 7 1.9 3
178W S E EAV=1081 14$CK=0.634 6$CL=0.1041 10$CM+=0.0322 3
178W G 224.5 2 0.71 13(E2) 0.210
178W X G FLAG=X
178W G 650.4 2 0.70 4(E1) 0.00409
178W X G FLAG=Z
178W G 1002.0 2 0.39 7E1 1.78E-3
178W X G FLAG=X
178W cG M$|a(K)exp=0.0025 {I5}
178W L 1380.41 16 4+ B
178W CL J$From E0 component in 1037-keV |g-ray to J|p=4+ 342-keV level.
178W E 0.58 9 2.0 3 6.92 7 2.6 4
178W S E EAV=1065 14$CK=0.641 6$CL=0.1052 10$CM+=0.0325 3
178W G 685.8 2 0.35 9(E2) 0.00998
178W CG See comment for the 683.8 keV |g ray.
178W G 1037.4 2 1.63 11E0+M1+E2 -1.9 +7-12 0.0052 9
178W cG M$|a(K)exp=0.0051 {I5}, |a(L)exp=0.00063 {I12}; A{-2}=+0.14 {I10},
178W 2cG A{-4}=+0.35 {I11}
178W cG $q{+2}(E0/E2)=0.7 {I5}; X(E0/E2)=0.014 {I18} (2001Ki10)
178W DG MR$Inconsistency between |d and |a(K) experimental values (evaluators)
178W xDG An |a(K) value of 0.0093 is obtained from the experimental |d value
178W G 1274.4 2 0.75 10E2 0.00282
178W cG M$|a(K)exp=0.0019 {I2}
178W L 1417.79 14 2+ E
178W CL J$From E0 component in 1311-keV |g-ray to J|p=2+ 106-keV level.
178W E 0.43 7 1.6 2 7.02 7 2.0 3
178W S E EAV=1048 14$CK=0.648 6$CL=0.1064 10$CM+=0.0329 3
178W G 335.3 2 0.12 3 (M1,E2) 0.11 5
178W X G FLAG=X
178W G 1311.5 2 1.40 19E0+M1+E2 0.0038 12
178W X G FLAG=Z
178W cG M$|a(K)exp=0.0149 {I13}, |a(L)exp=0.00255 {I28}, |a(M)exp=0.00092 {I12}
178W cG $q{+2}(E0/E2)=6.9 {I+7-17}; X(E0/E2)=0.61 {I+7-15}
178W G 1417.9 2 0.59 10E2 0.00233
178W X G FLAG=Z
178W cG M$|a(K)exp=0.0016 {I3}
178W L 1449.48 14 2+
178W E 0.68 11 2.6 4 6.79 7 3.3 5
178W S E EAV=1034 14$CK=0.653 6$CL=0.1074 10$CM+=0.0332 3
178W G 1106.6 2 0.88 12E2 0.00369
178W cG M$|a(K)exp=0.0030 {I4}
178W G 1343.3 2 0.83 16E2 0.00256
178W cG M$|a(K)exp=0.0018 {I3}
178W G 1449.5 2 1.68 10E2 0.00225
178W cG M$|a(K)exp=0.00172 {I16}
178W L 1545.8 3
178W E 0.28 7 1.2 3 7.10 12 1.5 4
178W S E EAV=991 14$CK=0.670 6$CL=0.1103 9$CM+=0.0341 3
178W G 501.0 2 1.62 9
178W X G FLAG=Z
178W L 1556.28 20 6+ C
178W E 0.09 2 0.4 1 7.57 9 0.5 1
178W S E EAV=986 14$CK=0.672 6$CL=0.1106 9$CM+=0.0342 3
178W G 280.7 2 0.36 6E2 0.1039
178W X G FLAG=X
178W G 861.9 2 0.12 3 (M1,E2) 0.010 4
178W X G FLAG=X
178W L 1572.75 19 5+ B
178W E 0.14 4 0.7 2 7.36 11 0.8 2
178W S E EAV=979 14$CK=0.675 6$CL=0.1111 9$CM+=0.0343 3
178W G 878.2 2 0.22 4 (M1,E2) 0.010 4
178W X G FLAG=X
178W G 1229.7 2 0.63 7(M1,E2) 0.0044 14
178W L 1598.02 18 4+ E
178W CL J$From E0 component in 1255-keV |g-ray to J|p=4+ 342-keV level.
178W E 0.54 7 2.6 3 6.76 6 3.1 4
178W S E EAV=968 14$CK=0.679 6$CL=0.1118 9$CM+=0.0346 3
178W G 1255.1 2 2.19 19E0+M1+E2 0.0042 14
178W cG M$|a(K)exp=0.0101 {I8}, |a(M)exp=0.00059 {I7}
178W cG $q{+2}(E0/E2)=3.7 {I+4-9}; X(E0/E2)=0.30 {I+3-7} (2001Ki10)
178W G 1491.9 2 1.40 23E2 0.00214
178W cG M$|a(K)exp=0.00166 {I16}
178W L 1641.68 19
178W E 0.18 3 0.92 17 7.19 8 1.1 2
178W S E EAV=948 14$CK=0.687 5$CL=0.1131 9$CM+=0.0349 3
178W G 521.2 2 0.88 19
178W X G FLAG=Z
178W G 1298.6 2 0.25 7
178W X G FLAG=X
178W L 1703.94 16 4+
178W E 0.31 6 1.7 3 6.91 9 2.0 4
178W S E EAV=920 14$CK=0.697 5$CL=0.1148 9$CM+=0.0355 3
178W G 1009.4 2 0.34 4 (E2) 0.00442
178W X G FLAG=X
178W cG M$|a(K)exp=0.0042 {I9}
178W G 1361.0 2 0.75 10(M1) 0.00455
178W cG M$|a(K)exp=0.0041 {I4}
178W G 1597.8 2 1.03 9(E2) 0.00193
178W L 1718.27 15 4+
178W E 0.35 6 2.0 3 6.84 8 2.3 4
178W S E EAV=914 14$CK=0.699 5$CL=0.1152 9$CM+=0.0356 3
178W G 481.5 2 0.93 14(M1,E2) 0.043 20
178W X G FLAG=X
178W G 607.7 2 0.44 9(E2) 0.01314
178W G 635.7 2 0.60 13(E2) 0.01184
178W G 1375.2 2 0.39 7(M1,E2) 0.0035 10
178W X G FLAG=X
178W L 1728.6 3
178W E 0.083 12 0.48 7 7.45 7 0.56 8
178W S E EAV=909 14$CK=0.701 5$CL=0.1155 9$CM+=0.0357 3
178W G 683.8 2 0.59 7
178W CG Seen, together with the 685.8 keV |g ray, as a single peak
178W xCG at 684.1 keV in 1970Go20
178W L 1764.4 3
178W E 0.08 3 0.50 16 7.42 15 0.58 19
178W S E EAV=893 14$CK=0.706 5$CL=0.1165 9$CM+=0.0360 3
178W G 538.7 2 0.61 7
178W X G FLAG=Z
178W L 1864.2 4(4+)
178W E 0.17 6 1.2 4 7.00 16 1.4 5
178W S E EAV=849 14$CK=0.721 5$CL=0.1192 8$CM+=0.03685 25
178W G 1169.5 5 0.8 4(E2) 0.00331 &
178W X G FLAG=Y
178W CG Transition doubly placed in 1970Go20, not placed here by
178W xCG 2001Ki10.
178W G 1521.4 10 0.4 2(M1,E2) 0.0028 8
178W X G FLAG=Y
178W G 1758.2 6 0.7 2(E2) 1.70E-3
178W X G FLAG=Y
178W L 1939.41 24
178W E 0.024 9 0.20 7 7.78 16 0.22 8
178W S E EAV=816 14$CK=0.732 5$CL=0.1211 8$CM+=0.03744 24
178W G 1596.4 2 0.23 7
178W X G FLAG=X
178W L 1962.9 3
178W E 0.052 10 0.44 8 7.42 8 0.49 9
178W S E EAV=805 14$CK=0.735 5$CL=0.1217 8$CM+=0.03762 24
178W G 842.4 2 0.51 14
178W X G FLAG=X
178W L 1997.43 18
178W E 0.08 1 0.7 1 7.19 6 0.8 1
178W S E EAV=790 14$CK=0.740 4$CL=0.1225 8$CM+=0.03789 23
178W G 1654.1 2 0.65 9
178W X G FLAG=X
178W G 1891.7 2 0.20 6
178W X G FLAG=X
178W L 2121.32 24
178W E 0.055 11 0.63 12 7.21 9 0.68 13
178W S E EAV=735 14$CK=0.756 4$CL=0.1253 7$CM+=0.03877 21
178W G 1778.3 2 0.66 13
178W X G FLAG=X
178W L 3301.3 4
178W E 1.1 3 6.44 12 1.1 3
178W S E CK=0.8154 2$CL=0.14028 23$CM+=0.04365 9
178W G 2957.6 5 1.9 4
178W X G FLAG=Y
178W G 3196.0 5 0.5817
178W X G FLAG=Y
178W L 3369.1 3(2+)
178W E 1.4 3 6.29 10 1.4 3
178W S E CK=0.8150 3$CL=0.14080 24$CM+=0.04384 9
178W G 2247.8 8 0.4315(E1) 1.17E-3
178W X G FLAG=Y
178W G 2287.0 6 0.6521(M1,E2) 0.0016025 &
178W X G FLAG=Y
178W G 2324.6 8 0.4321(E1) 1.20E-3 &
178W X G FLAG=Y
178W G 3025.0 5 1.0 3
178W X G FLAG=Y
178W G 3263.6 6 0.9 3
178W X G FLAG=Y
178W G 3369.5 6 0.3411
178W X G FLAG=Y
178W L 3383.4 5
178W E 0.50 14 6.73 13 0.50 14
178W S E CK=0.8149 3$CL=0.14091 24$CM+=0.04388 9
178W G 3277.4 6 0.8 3
178W X G FLAG=Y
178W G 3383.3 6 0.28 9
178W X G FLAG=Y
178W L 3499.5 4
178W E 0.75 19 6.47 12 0.75 19
178W S E CK=0.8138 4$CL=0.1419 3$CM+=0.04424 11
178W G 3156.8 5 1.3 4
178W X G FLAG=Y
178W G 3392.9 6 0.3913
178W X G FLAG=Y
178W L 3505.9 5
178W E 0.36 10 6.78 13 0.36 10
178W S E CK=0.8138 4$CL=0.1419 3$CM+=0.04426 11
178W G 3399.4 6 0.7319
178W X G FLAG=Y
178W G 3506.7 8 0.09 4
178W X G FLAG=Y
178W L 3512.1 4
178W E 1.56 25 6.14 8 1.56 25
178W S E CK=0.8137 4$CL=0.1420 3$CM+=0.04428 11
178W G 2287.0 6 0.6521 &
178W X G FLAG=Y
178W G 3168.6 5 1.9 4
178W X G FLAG=Y
178W G 3406.1 6 1.0 3
178W X G FLAG=Y
178W G 3512.0 8 0.21 6
178W X G FLAG=Y
178W L 3515.2 5 (2+)
178W E 0.49 15 6.64 14 0.49 15
178W S E CK=0.8137 4$CL=0.1420 3$CM+=0.04429 11
178W G 3172.2 6 0.7 3(E2) 1.33E-3
178W X G FLAG=Y
178W G 3409.0 8 0.3913(M1,E2) 0.0015317
178W X G FLAG=Y
178W L 3551.2 4
178W E 1.9 2 6.03 6 1.9 2
178W S E CK=0.8132 4$CL=0.1424 3$CM+=0.04442 11
178W G 2324.6 8 0.4321 &
178W X G FLAG=Y
178W G 2468.020 0.4321
178W X G FLAG=Y
178W G 3208.5 5 1.6 4
178W X G FLAG=Y
178W G 3445.2 6 2.0221
178W X G FLAG=Y
178W L 3580.4 5
178W E 0.39 10 6.69 12 0.39 10
178W S E CK=0.8128 5$CL=0.1427 4$CM+=0.04453 12
178W G 3237.6 6 0.6721
178W X G FLAG=Y
178W G 3474.0 8 0.21 6
178W X G FLAG=Y
178W L 3585.7 5
178W E 0.36 12 6.72 15 0.36 12
178W S E CK=0.8127 5$CL=0.1427 4$CM+=0.04455 12
178W G 3242.9 6 0.6021
178W X G FLAG=Y
178W G 3479.3 8 0.21 6
178W X G FLAG=Y
178W L 3595.0 5
178W E 0.47 15 6.60 14 0.47 15
178W S E CK=0.8126 5$CL=0.1428 4$CM+=0.04458 12
178W G 3251.6 5 0.9 3
178W X G FLAG=Y
178W G 3489.9 8 0.17 4
178W X G FLAG=Y
178W L 3634.6 5
178W E 0.71 15 6.39 10 0.71 15
178W S E CK=0.8120 5$CL=0.1432 4$CM+=0.04474 13
178W G 2036.5 8 0.6521
178W X G FLAG=Y
178W G 3291.6 6 0.4917
178W X G FLAG=Y
178W G 3528.7 8 0.4515
178W X G FLAG=Y
178W L 3706.5 5
178W E 0.34 8 6.65 11 0.34 8
178W S E CK=0.8108 6$CL=0.1441 4$CM+=0.04507 15
178W G 3011.8 6 0.3211
178W X G FLAG=Y
178W G 3363.6 6 0.4313
178W X G FLAG=Y
178W L 3807.3 4
178W E 0.37 12 6.52 15 0.37 12
178W S E CK=0.8088 7$CL=0.1456 5$CM+=0.04561 19
178W G 3112.3 5 0.6521
178W X G FLAG=Y
178W G 3464.9 6 0.19 4
178W X G FLAG=Y
178W L 3810.9 5
178W E 0.37 12 6.52 15 0.37 12
178W S E CK=0.8087 7$CL=0.1456 5$CM+=0.04563 19
178W G 3116.3 5 0.6521
178W X G FLAG=Y
178W G 3467.7 8 0.19 4
178W X G FLAG=Y