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Table 11

Line list.

Element Isotope f λ χ exc log gf Method Source
Å eV
O i 6300.304 0.000 –9.819 SS x VALD
Mg i 5711.088 4.346 –1.833 SS VALD
Mg i 6318.717 5.108 –1.730 SS VALD
Mg i 6319.237 5.108 –1.950 SS VALD
Si i 5690.425 4.930 –1.870 EW x Smith et al. (2000)
Si i 5793.073 4.930 –2.060 EW x Smith et al. (2000)
Ca i 6161.300 2.523 –1.266 EW VALD
Ca i 6166.440 2.521 –1.142 EW VALD
Ca i 6169.040 2.520 –0.797 EW VALD
Ca i 6169.560 2.520 –0.478 EW VALD
Ca i 6439.080 2.526 0.390 EW VALD
Ca i 6455.610 2.523 –1.340 EW VALD
Ca i 6471.670 2.526 –0.686 EW VALD
Ca i 6493.790 2.521 –0.109 EW VALD
Ca i 6499.650 2.523 –0.818 EW VALD
Ca i 6508.840 2.526 –2.162 EW VALD
Ti i 5648.580 2.490 –0.250 EW x NIST
Ti i 6126.220 1.070 –1.420 EW x NIST
Ti i 6258.100 1.443 –0.350 EW x Smith et al. (2000)
Ti i 6261.110 1.430 –0.480 EW x NIST
Ti i 6303.770 1.440 –1.570 EW x NIST
Ti i 6554.240 1.440 –1.220 EW x NIST
Ti i 6556.080 1.460 –1.080 EW x NIST
Ti i 6599.110 0.900 –2.085 EW x NIST
Ti ii 6491.561 2.061 –1.793 EW x VALD
Ti ii 6559.588 2.048 –2.190 EW x VALD
Ti ii 6606.949 2.061 –2.790 EW x VALD
Na i 5688.205 2.104 –0.460 SS x Shetrone et al. (2003)
Na i 6154.226 2.102 –1.530 SS x NIST
Na i 6160.747 2.104 –1.230 SS x NIST
Sc ii equivalent 5641.001 1.500 –1.131 SS Kurucz (with log gf from VALD)
Sc ii 1 5640.989 1.500 –1.654
5640.996 1.500 –2.143
5641.001 1.500 –1.947
5641.001 1.500 –2.842
5641.006 1.500 –2.027
5641.010 1.500 –2.402
5641.010 1.500 –2.402
5641.014 1.500 –2.147
5641.016 1.500 –2.131
Sc ii equivalent 5667.149 1.500 –1.309 SS Kurucz (with log gf from VALD)
Sc ii 1 5667.136 1.500 –1.903
5667.141 1.500 –2.099
5667.148 1.500 –2.099
5667.154 1.500 –3.284
5667.157 1.500 –2.103
5667.163 1.500 –2.103
5667.167 1.500 –2.358
Sc ii equivalent 5669.042 1.500 –1.200 SS Kurucz (with log gf from VALD)
Sc ii 1 5669.038 1.500 –1.580
5669.044 1.500 –1.677
5669.047 1.500 –1.802
Sc ii equivalent 6604.601 1.357 –1.309 SS Kurucz (with log gf from VALD)
Sc ii 1 6604.582 1.357 –2.505
6604.590 1.357 –2.347
6604.594 1.357 –1.935
6604.596 1.357 –2.358
6604.599 1.357 –2.333
6604.602 1.357 –2.531
6604.604 1.357 –3.029
6604.607 1.357 –4.455
6604.609 1.357 –2.707
6604.611 1.357 –2.505
6604.613 1.357 –2.347
6604.615 1.357 –2.531
6604.615 1.357 –2.358
V i equivalent 6135.361 1.051 –0.746 SS Kurucz
V i 0.0025 6135.361 1.051 –3.348
V i 0.9975 6135.338 1.051 –1.553
6135.338 1.051 –1.532
6135.338 1.051 –1.678
6135.378 1.051 –2.009
6135.378 1.051 –1.532
6135.379 1.051 –1.211
V i equivalent 6150.157 0.301 –1.780 SS Kurucz
V i 0.0025 6150.157 0.301 –4.382
V i 0.9975 6150.076 0.301 –3.207
6150.084 0.301 –3.089
6150.086 0.301 –3.659
6150.096 0.301 –2.971
6150.099 0.301 –3.448
6150.102 0.301 –4.659
6150.113 0.301 –2.859
6150.117 0.301 –3.352
6150.120 0.301 –4.452
6150.133 0.301 –2.755
6150.138 0.301 –3.316
6150.142 0.301 –4.424
6150.159 0.301 –2.659
6150.164 0.301 –3.332
6150.169 0.301 –4.504
6150.188 0.301 –2.569
6150.195 0.301 –3.414
6150.200 0.301 –4.696
6150.222 0.301 –2.485
6150.229 0.301 –3.632
6150.236 0.301 –5.085
V i equivalent 6224.529 0.287 –2.010 SS Kurucz
V i 0.0025 6224.529 0.287 –4.612
V i 0.9975 6224.465 0.287 –3.817
6224.468 0.287 –3.537
6224.470 0.287 –4.838
6224.471 0.287 –3.817
6224.475 0.287 –3.399
6224.478 0.287 –4.139
6224.480 0.287 –3.537
6224.486 0.287 –3.333
6224.490 0.287 –3.692
6224.493 0.287 –3.399
6224.501 0.287 –3.326
6224.506 0.287 –3.361
6224.510 0.287 –3.333
6224.520 0.287 –3.391
6224.526 0.287 –3.098
6224.531 0.287 –3.326
6224.543 0.287 –3.595
6224.550 0.287 –2.879
6224.555 0.287 –3.391
6224.577 0.287 –2.692
6224.584 0.287 –3.595
V i equivalent 6251.827 0.287 –1.340 SS Kurucz
V i 0.0025 6251.827 0.287 –3.942
V i 0.9975 6251.771 0.287 –2.925
6251.788 0.287 –2.721
6251.804 0.287 –2.656
6251.806 0.287 –2.022
6251.817 0.287 –2.663
6251.818 0.287 –2.209
6251.829 0.287 –2.729
6251.829 0.287 –2.428
6251.837 0.287 –2.691
6251.839 0.287 –2.867
6251.844 0.287 –3.022
6251.848 0.287 –3.147
6251.849 0.287 –3.469
6251.853 0.287 –4.168
6251.853 0.287 –2.925
6251.859 0.287 –3.147
6251.859 0.287 –2.721
6251.862 0.287 –2.656
6251.863 0.287 –2.867
6251.864 0.287 –2.729
6251.864 0.287 –2.663
V i equivalent 6274.649 0.267 –1.670 SS Kurucz
V i 0.0025 6274.649 0.267 –4.272
V i 0.9975 6274.607 0.267 –2.933
6274.629 0.267 –2.456
6274.641 0.267 –2.477
6274.655 0.267 –2.153
6274.657 0.267 –2.456
6274.678 0.267 –2.602
V i equivalent 6285.150 0.275 –1.510 SS Kurucz
V i 0.0025 6285.150 0.275 –4.112
V i 0.9975 6285.098 0.275 –3.569
6285.117 0.275 –3.141
6285.122 0.275 –2.704
6285.134 0.275 –2.891
6285.137 0.275 –2.543
6285.148 0.275 –2.715
6285.149 0.275 –2.551
6285.152 0.275 –2.078
6285.157 0.275 –2.715
6285.162 0.275 –2.294
6285.168 0.275 –2.577
6285.172 0.275 –3.016
V i equivalent 6292.825 0.287 –1.470 SS Kurucz
V i 0.0025 6292.825 0.287 –4.072
V i 0.9975 6292.759 0.287 –4.055
6292.777 0.287 –3.645
6292.790 0.287 –2.941
6292.792 0.287 –3.423
6292.802 0.287 –2.745
6292.805 0.287 –3.298
6292.812 0.287 –2.691
6292.816 0.287 –3.247
6292.820 0.287 –2.713
6292.825 0.287 –2.101
6292.826 0.287 –3.277
6292.827 0.287 –2.804
6292.831 0.287 –2.992
6292.832 0.287 –2.242
6292.837 0.287 –2.406
6292.841 0.287 –3.247
6292.841 0.287 –2.604
6292.842 0.287 –2.859
V i equivalent 6531.415 1.218 –0.840 SS Kurucz
V i 0.0025 6531.415 1.218 –3.442
V i 0.9975 6531.382 1.218 –2.492
6531.385 1.218 –2.237
6531.385 1.218 –2.237
6531.388 1.218 –4.145
6531.392 1.218 –2.038
6531.393 1.218 –2.038
6531.397 1.218 –2.902
6531.402 1.218 –1.974
6531.403 1.218 –1.974
6531.408 1.218 –2.185
6531.415 1.218 –2.005
6531.416 1.218 –2.005
6531.423 1.218 –1.779
6531.430 1.218 –2.186
6531.432 1.218 –2.186
6531.440 1.218 –1.487
Cr i 5783.063 3.323 –0.500 SS VALD
Cr i 5787.918 3.322 –0.083 SS VALD
Cr i 6330.091 0.941 –2.920 SS VALD
Fe i 5618.633 4.209 –1.260 EW x Smith et al. (2000)
Fe i 5619.610 4.390 –1.700 EW x Nave et al. (1994)
Fe i 5633.950 4.990 –0.270 EW x Nave et al. (1994)
Fe i 5635.823 4.256 –1.740 EW x Smith et al. (2000)
Fe i 5638.270 4.220 –0.870 EW x Nave et al. (1994)
Fe i 5641.450 4.260 –1.180 EW x Nave et al. (1994)
Fe i 5679.023 4.651 –0.770 EW x Smith et al. (2000)
Fe i 5691.497 4.301 –1.370 EW x Smith et al. (2000)
Fe i 5701.560 2.560 –2.220 EW x Nave et al. (1994)
Fe i 5705.465 4.301 –1.360 EW x Smith et al. (2000)
Fe i 5717.833 4.284 –0.980 EW x Smith et al. (2000)
Fe i 5806.725 4.607 –0.900 EW x Smith et al. (2000)
Fe i 5809.218 3.883 –1.690 EW x Smith et al. (2000)
Fe i 5814.808 4.283 –1.820 EW x Smith et al. (2000)
Fe i 6137.700 2.590 –1.400 EW x Nave et al. (1994)
Fe i 6151.620 2.180 –3.300 EW x Nave et al. (1994)
Fe i 6157.728 4.076 –1.110 EW x Smith et al. (2000)
Fe i 6165.360 4.142 –1.470 EW x Smith et al. (2000)
Fe i 6173.340 2.220 –2.880 EW x Nave et al. (1994)
Fe i 6180.210 2.730 –2.650 EW x Nave et al. (1994)
Fe i 6188.020 3.940 –1.720 EW x Nave et al. (1994)
Fe i 6200.320 2.610 –2.440 EW x Nave et al. (1994)
Fe i 6297.800 2.220 –2.740 EW x Nave et al. (1994)
Fe i 6301.510 3.650 –0.600 EW x adjusted in Pompéia et al. (2008)
Fe i 6302.500 3.690 –0.910 EW x Nave et al. (1994)
Fe i 6322.690 2.590 –2.430 EW x Nave et al. (1994)
Fe i 6335.340 2.200 –2.180 EW x Nave et al. (1994)
Fe i 6336.830 3.690 –1.050 EW x Nave et al. (1994)
Fe i 6344.160 2.430 –2.920 EW x Nave et al. (1994)
Fe i 6355.040 2.840 –2.290 EW x Nave et al. (1994)
Fe i 6358.690 0.860 –4.470 EW x Nave et al. (1994)
Fe i 6380.750 4.190 –1.380 EW x Nave et al. (1994)
Fe i 6380.750 4.190 –1.380 EW x Nave et al. (1994)
Fe i 6392.540 2.280 –4.030 EW x Nave et al. (1994)
Fe i 6393.610 2.430 –1.580 EW x Nave et al. (1994)
Fe i 6408.030 3.690 –1.000 EW x adjusted in Pompéia et al. (2008)
Fe i 6411.660 3.650 –0.720 EW x Nave et al. (1994)
Fe i 6421.351 2.279 –2.010 EW x Smith et al. (2000)
Fe i 6430.860 2.180 –2.010 EW x Nave et al. (1994)
Fe i 6469.193 4.835 –0.620 EW x Smith et al. (2000)
Fe i 6475.630 2.560 –2.940 EW x Nave et al. (1994)
Fe i 6481.880 2.280 –2.980 EW x Nave et al. (1994)
Fe i 6494.990 2.400 –1.270 EW x Nave et al. (1994)
Fe i 6498.950 0.960 –4.700 EW x Nave et al. (1994)
Fe i 6518.370 2.830 –2.300 EW x Nave et al. (1994)
Fe i 6574.250 0.990 –5.020 EW x Nave et al. (1994)
Fe i 6575.040 2.590 –2.710 EW x Nave et al. (1994)
Fe i 6581.220 1.480 –4.860 EW x Nave et al. (1994)
Fe i 6593.871 2.437 –2.420 EW x Smith et al. (2000)
Fe i 6597.561 4.795 –0.920 EW x Smith et al. (2000)
Fe i 6608.040 2.280 –4.030 EW x Nave et al. (1994)
Fe i 6609.120 2.560 –2.690 EW x Nave et al. (1994)
Fe ii 6149.246 3.889 –2.724 EW x Biemont et al. (1991)
Fe ii 6247.560 3.890 –2.329 EW x Biemont et al. (1991)
Fe ii 6416.921 3.891 –2.740 EW x Biemont et al. (1991)
Fe ii 6432.680 2.890 –3.708 EW x Biemont et al. (1991)
Fe ii 6456.390 3.900 –2.075 EW x Biemont et al. (1991)
Fe ii 6516.080 2.890 –3.450 EW x Biemont et al. (1991)
Co i equivalent 5647.234 2.280 –1.560 SS Kurucz
Co i 1 5647.207 2.280 –2.127
5647.220 2.280 –2.343
5647.232 2.280 –2.626
5647.239 2.280 –2.753
5647.243 2.280 –3.065
5647.246 2.280 –2.592
5647.253 2.280 –2.600
5647.259 2.280 –2.764
5647.265 2.280 –3.618
5647.267 2.280 –3.190
5647.269 2.280 –2.764
5647.269 2.280 –2.940
Co i equivalent 6282.634 1.740 –2.160 SS Kurucz
Co i 1 6282.576 1.740 –2.727
6282.610 1.740 –2.943
6282.632 1.740 –3.353
6282.639 1.740 –3.226
6282.655 1.740 –3.192
6282.664 1.740 –3.665
6282.676 1.740 –3.200
6282.677 1.740 –4.218
6282.692 1.740 –3.364
6282.692 1.740 –3.790
6282.703 1.740 –3.540
6282.710 1.740 –3.364
Ni i 6128.980 1.680 –3.330 EW x NIST
Ni i 6175.370 4.090 –0.530 EW x NIST
Ni i 6327.600 1.680 –3.150 EW x NIST
Ni i 6482.810 1.930 –2.630 EW x NIST
Ni i 6532.890 1.935 –3.390 EW x Smith et al. (2000)
Ni i 6586.320 1.950 –2.810 EW x NIST
Cu i equivalent 5782.127 1.642 –1.720 SS Kurucz
Cu i 0.6917 5782.059 1.642 –2.924
5782.066 1.642 –3.225
5782.078 1.642 –2.526
5782.106 1.642 –2.526
5782.117 1.642 –2.526
5782.170 1.642 –2.079
Cu i 0.3083 5782.053 1.642 –3.435
5782.062 1.642 –3.736
5782.074 1.642 –3.037
5782.105 1.642 –3.037
5782.117 1.642 –3.037
5782.173 1.642 –2.590
Y i 6435.004 0.066 –1.070 SS VALD
Zr i 6127.475 0.154 –1.060 SS VALD
Zr i 6134.570 0.000 –1.280 SS VALD
Zr i 6143.180 0.071 –1.100 SS VALD
Ba ii 6141.713 0.704 –0.076 SS VALD
Ba ii equivalent 6496.912 0.604 –0.180 SS Rutten (1978)
Ba ii 0.00106 6496.912 0.604 –3.155
Ba ii 0.00101 6496.912 0.604 –3.176
Ba ii 0.02417 6496.912 0.604 –1.797
Ba ii 0.06592 6496.918 0.604 –2.565
6496.920 0.604 –2.167
6496.900 0.604 –2.866
6496.923 0.604 –2.167
6496.903 0.604 –2.167
6496.908 0.604 –1.720
Ba ii 0.07854 6496.912 0.604 –1.285
Ba ii 0.1123 6496.918 0.604 –2.334
6496.920 0.604 –1.936
6496.900 0.604 –2.635
6496.923 0.604 –1.936
6496.903 0.604 –1.936
6496.908 0.604 –1.489
Ba ii 0.7170 6496.912 0.604 –0.324
La ii equivalent 6262.287 0.403 –1.220 SS Lawler et al. (2001a)
La ii 0.00089 6262.287 0.403 –4.271
La ii 0.99911 6262.114 0.403 –2.901
6262.113 0.403 –3.047
6262.135 0.403 –3.378
6262.134 0.403 –2.718
6262.132 0.403 –2.705
6262.169 0.403 –3.269
6262.166 0.403 –2.596
6262.164 0.403 –2.471
6262.215 0.403 –3.290
6262.212 0.403 –2.535
6262.208 0.403 –2.286
6262.275 0.403 –3.400
6262.271 0.403 –2.531
6262.266 0.403 –2.130
6262.348 0.403 –3.612
6262.343 0.403 –2.597
6262.338 0.403 –1.994
6262.434 0.403 –4.015
6262.429 0.403 –2.802
6262.422 0.403 –1.873
La ii 6320.376 0.173 –1.562 SS VALD
La ii equivalent 6390.477 0.321 –1.410 SS Lawler et al. (2001a)
La ii 0.00089 6390.477 0.321 –4.461
La ii 0.99911 6390.506 0.321 –2.857
6390.503 0.321 –2.778
6390.498 0.321 –3.079
6390.502 0.321 –2.954
6390.497 0.321 –2.595
6390.490 0.321 –2.661
6390.496 0.321 –3.100
6390.489 0.321 –2.536
6390.480 0.321 –2.390
6390.489 0.321 –3.334
6390.479 0.321 –2.570
6390.468 0.321 –2.183
6390.479 0.321 –3.752
6390.468 0.321 –2.752
6390.455 0.321 –2.012
Eu ii equivalent 6437.640 1.319 –0.320 SS Lawler et al. (2001b)
Eu ii 0.478 6437.611 1.319 –1.281
6437.619 1.319 –2.512
6437.629 1.319 –2.512
6437.636 1.319 –1.391
6437.643 1.319 –2.319
6437.650 1.319 –2.319
6437.656 1.319 –1.502
6437.662 1.319 –2.277
6437.666 1.319 –2.277
6437.672 1.319 –1.608
6437.676 1.319 –2.331
6437.679 1.319 –2.331
6437.684 1.319 –1.698
6437.687 1.319 –2.528
6437.689 1.319 –2.528
6437.692 1.319 –1.749
Eu ii 0.522 6437.610 1.319 –1.242
6437.613 1.319 –2.473
6437.624 1.319 –2.473
6437.627 1.319 –1.352
6437.630 1.319 –2.280
6437.634 1.319 –2.280
6437.637 1.319 –1.463
6437.639 1.319 –2.238
6437.640 1.319 –2.238
6437.641 1.319 –2.292
6437.642 1.319 –1.569
6437.642 1.319 –2.489
6437.643 1.319 –1.710
6437.644 1.319 –1.659
6437.644 1.319 –2.292
6437.645 1.319 –2.489
Eu ii equivalent 6645.103 1.380 0.120 SS Lawler et al. (2001b)
Eu ii 0.478 6645.071 1.379 –0.838
6645.078 1.379 –2.144
6645.085 1.379 –3.788
6645.097 1.379 –0.914
6645.104 1.379 –1.949
6645.112 1.379 –3.470
6645.118 1.379 –0.993
6645.126 1.379 –1.904
6645.133 1.379 –3.398
6645.137 1.379 –1.075
6645.144 1.379 –1.956
6645.150 1.379 –3.566
6645.152 1.379 –1.160
6645.158 1.379 –2.151
6645.163 1.379 –1.242
Eu ii 0.522 6645.072 1.379 –2.105
6645.074 1.379 –0.799
6645.074 1.379 –3.749
6645.087 1.379 –0.875
6645.089 1.379 –1.910
6645.094 1.379 –3.431
6645.096 1.379 –0.954
6645.101 1.379 –1.865
6645.104 1.379 –1.036
6645.107 1.379 –3.359
6645.109 1.379 –1.121
6645.110 1.379 –1.917
6645.113 1.379 –1.203
6645.116 1.379 –2.112
6645.116 1.379 –3.527

Notes. For each line, the wavelength λ (Col. 4), excitation potential χexc (Col. 5), oscillator strength log gf (Col. 6) and literature reference (Col. 9) are given. The abundance measurement method is recalled (Col. 7). If a line has hyperfine structure, the label equivalent appear across the Cols. 2 and 3: we provide first the wavelength and oscillator strength of the equivalent line, and below the detailed hyperfine structure for the different isotopes (isotope in Col. 2, isotopic fraction f in Col. 3, isotope-scaled log gf in Col. 6). The last-but-one column indicates lines identical to Pompéia et al. (2008).

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