Table A.2: Abundances of the iron group elements.
Mult. $\lambda$ (Å) $\log~gf$ Ref.^a $\chi_{{\rm low}}$ W(mÅ) $\log(N_{Z})/N_{\rm tot}$ ) Notes

Sc II    $\log N$ (Sc II)/ $N_{\rm tot}$ = -9.08 $\pm$ 0.15

3 3580.925 -0.070 K, MFW 0.00 2.02 -8.89

2 3613.829 +0.520 K, MFW 177.76 5.81 -8.96

2 3630.742 +0.340 K, MFW 67.76 4.28 -8.94

2 3642.784 +0.180 K, MFW 0.00 2.73 -8.99

7 4246.822 +0.320 K, MFW 2540.95 4.44 -9.37

15 4314.083 -0.100 K, MFW 4987.79 1.96 -9.17

14 4374.457 -0.440 K, MFW 4987.79 1.07 -9.10

31 5526.790 +0.130 K, MFW 14261.32 0.86 -9.19

Ti II    $\log N$ (Ti II)/ $N_{\rm tot}$ = -5.67 $\pm$ 0.11

5 3072.107 -0.620 PTP 225.73 61.34 -5.43

4 3121.598 -2.360 PTP 0.00 16.36 -5.51

4 3130.798 -1.190 PTP 94.10 44.49 -5.54

10 3145.396 -2.600 PTP 983.89 7.31 -5.69

4 3157.393 -2.170 PTP 94.10 18.33 -5.61

10 3161.201 -0.690 PTP 908.02 54.92 -5.57

10 3161.769 -0.550 PTP 983.89 59.71 -5.52

10 3162.566 -0.380 PTP 1087.32 60.63 -5.65

10 3168.518 -0.200 PTP 1215.84 66.26 -5.61

3 3214.767 -1.400 PTP 393.44 38.79 -5.53

2 3222.841 -0.420 PTP 94.10 63.99 -5.55

3 3226.769 -1.840 PTP 225.73 26.00 -5.61

2 3234.514 +0.430 PTP 393.44 86.84 -5.67

23 3236.119 -0.430 PTP 8710.44 48.44 -5.53

2 3236.572 +0.240 PTP 225.73 79.21 -5.70

2 3239.036 +0.070 PTP 94.10 76.96 -5.60

23 3239.661 -0.200 PTP 8744.25 76.96 -5.53

2 3241.983 -0.030 PTP 0.00 76.81 -5.51

23 3249.366 -1.360 PTP 8710.44 24.74 -5.57

2 3251.908 -0.590 PTP 94.10 59.53 -5.55

2 3254.245 -0.560 PTP 393.44 58.86 -5.58

7 3308.803 -1.140 PTP 1087.32 41.01 -5.64

7 3318.023 -1.040 PTP 983.89 46.15 -5.55

7 3343.761 -1.150 PTP 1215.84 40.92 -5.63

7 3346.741 -1.060 PTP 1087.42 45.59 -5.54

1 3361.212 +0.430 PTP 225.73 84.33 -5.69

1 3372.793 +0.280 PTP 94.10 79.51 -5.69

1 3380.279 -0.570 K, MFW 393.44 61.97 -5.44

1 3383.759 +0.160 PTP 0.00 87.01 -5.36

6 3477.180 -0.960 PTP 983.89 46.13 -5.61

6 3489.736 -1.980 PTP 1087.32 17.60 -5.71

6 3500.330 -2.100 PTP 983.89 18.55 -5.56

15 3561.575 -1.940 PTP 4268.58 11.65 -5.81

15 3573.731 -1.490 PTP 4628.58 24.62 -5.66

15 3587.131 -1.590 PTP 4897.65 22.00 -5.65

15 3596.047 -1.030 PTP 4897.65 37.79 -5.58

34 3900.539 -0.200 PTP 9118.26 76.60 -5.96

34 3913.461 -0.420 PTP 8997.71 77.23 -5.73

11 4012.383 -1.840 PTP 4628.58 41.10 -5.67

87 4053.821 -1.130 PTP 15265.62 40.03 -5.76

21 4161.529 -2.360 K, MFW 8744.25 17.44 -5.55

105 4163.644 -0.130 PTP 20891.66 62.40 -5.77

20 4287.873 -1.790 PTP 8710.44 27.82 -5.82

41 4290.215 -0.850 PTP 9395.71 65.27 -5.71

20 4294.094 -0.930 PTP 8744.25 63.27 -5.72

41 4300.042 -0.440 PTP 9518.06 78.06 -5.74

41 4301.922 -1.150 PTP 9363.62 54.33 -5.73

41 4312.860 -1.100 PTP 9518.05 57.56 -5.68

41 4314.971 -1.100 PTP 9363.62 55.37 -5.75

41 4320.950 -1.800 PTP 9395.71 24.78 -5.85

104 4367.652 -0.860 PTP 20 891.66 35.88 -5.80

93 4374.816 -1.610 PTP 16 625.11 21.38 -5.70

104 4386.847 -0.960 PTP 20 951.62 31.82 -5.80

51 4394.059 -1.780 PTP 9850.90 30.58 -5.69

19 4395.031 -0.540 PTP 8744.25 79.02 -5.64

51 4399.765 -1.190 PTP 9975.92 54.35 -5.66

115 4411.072 -0.670 PTP 24 961.03 31.84 -5.84

40 4417.714 -1.190 PTP 9395.71 55.39 -5.66

51 4418.331 -1.970 PTP 9395.71 19.61 -5.80

40 4441.729 -2.330 PTP 9518.06 11.70 -5.76

19 4443.801 -0.720 PTP 8710.44 72.95 -5.65

19 4450.482 -1.520 PTP 8744.25 42.66 -5.72

40 4464.448 -1.810 PTP 9363.62 28.90 -5.74

31 4468.492 -0.600 K, MFW 9118.26 75.93 -5.65

115 4488.325 -0.510 PTP 25 192.79 37.27 -5.84

31 4501.270 -0.770 PTP 8997.71 71.44 -5.63

50 4533.960 -0.530 PTP 9975.92 77.23 -5.64

60 4544.016 -2.580 PTP 10 024.73 6.49 -5.77

50 4563.757 -0.690 PTP 9850.90 68.15 -5.76

82 4571.971 -0.320 PTP 12 676.97 81.77 -5.56

59 4657.206 -2.240 PTP 10 024.73 12.39 -5.79

49 4708.662 -2.340 PTP 9975.92 10.08 -5.80

92 4779.985 -1.370 K, MFW 16 515.86 32.07 -5.65

17 4798.532 -2.680 PTP 8710.44 7.48 -5.69

92 4805.085 -1.100 K, MFW 16 625.11 45.57 -5.57

114 4911.195 -0.610 PTP 25 192.79 36.40 -5.76

113 5069.092 -1.820 PTP 25 192.79 5.75 -5.66

113 5072.287 -1.060 PTP 25 192.79 20.15 -5.75

- 5154.070 -1.750 PTP 12 628.73 22.57 -5.77

86 5185.902 -1.490 PTP 15 265.62 32.05 -5.61

- 5188.687 -1.050 PTP 12 758.11 50.88 -5.72

- 5226.538 -1.260 PTP 12 628.73 44.34 -5.69

103 5268.615 -1.620 K, MFW 20 951.62 11.80 -5.76

- 5336.786 -1.590 PTP 12 758.11 29.32 -5.73

- 5381.021 -1.920 PTP 12 628.73 16.59 -5.78

Cr I    $\log N$ (Cr I)/ $N_{\rm tot}$ = -5.22 $\pm$ 0.09

4 3578.686 +0.409 K, MFW 0.00 6.26 -5.17

4 3593.485 +0.307 K, MFW 0.00 4.52 -5.24

4 3605.329 +0.197 K, MFW 0.00 4.41 -5.14

1 4254.336 -0.114 K, MFW 0.00 6.40 -5.27

1 4274.797 -0.231 K, MFW 0.00 4.23 -5.35

1 4289.717 -0.361 K, MFW 0.00 3.28 -5.34

7 5204.511 -0.208 K, MFW 7593.15 2.54 -5.16

7 5206.037 +0.019 K, MFW 7593.15 4.93 -5.08

7 5208.425 +0.158 K, MFW 7593.15 4.62 -5.25

Cr II    $\log N$ (Cr II)/ $N_{\rm tot}$ = -5.41 $\pm$ 0.07

5 3118.646 -0.000 K, MFW 19 528.25 74.61 -5.38

5 3120.359 +0.120 K, MFW 19 631.17 78.48 -5.38

54 3122.596 -0.110 K, MFW 33 694.15 49.42 -5.25

39 4539.595 -2.280 SL 32 603.40 13.96 -5.42

44 4558.650 -0.410 SL 32 854.31 79.21 -5.34

39 4565.770 -1.860 SL 32 603.40 27.00 -5.43

- 4587.264 -1.648 K, MFW 52 321.01 3.77 -5.53

44 4588.199 -0.643 K, MFW 32 836.68 71.39 -5.35

44 4592.049 -1.217 K, MFW 32 854.95 44.53 -5.58

44 4616.629 -1.291 K, MFW 32 844.76 44.28 -5.51

44 4618.803 -0.860 SL 32 854.95 64.13 -5.35

44 4634.070 -0.990 SL 32 844.76 57.91 -5.41

- 4697.598 -1.882 K, MFW 45 730.58 6.36 -5.44

30 4812.337 -1.995 K, K88 31 168.58 24.44 -5.44

30 4824.127 -0.970 SL 31 219.35 65.81 -5.28

30 4836.229 -2.000 SL 31 117.39 25.57 -5.38

43 5237.329 -1.160 K, MFW 32 854.31 53.12 -5.38

23 5246.768 -2.450 K, MFW 29 951.88 14.55 -5.39

43 5279.880 -2.100 K, MFW 32 854.31 21.07 -5.33

24 5305.860 -2.080 K, MFW 30 864.76 24.27 -5.38

43 5308.440 -1.810 K, MFW 32 836.68 24.04 -5.53

43 5310.700 -2.280 K, MFW 32 844.76 14.54 -5.38

43 5313.590 -1.650 K, MFW 32 854.95 34.42 -5.40

23 5420.922 -2.360 K, MFW 30 307.44 13.80 -5.48

50 5502.067 -1.990 K, MFW 33 618.94 20.73 -5.40

50 5508.606 -2.110 K, MFW 33 521.11 16.35 -5.43

105 6053.466 -2.160 K, MFW 38 269.59 8.21 -5.44

Mn I    $\log N$ (Mn I)/ $N_{\rm tot}$ = -4.20 $\pm$ 0.08

8 3577.868 +0.160 K, MFW 17 052.29 6.54 -4.29

8 3595.107 -0.860 K, MFW 17 451.52 0.75 -4.27

8 3607.526 -0.440 K, MFW 17 282.00 2.21 -4.21

8 3608.481 -0.370 K, MFW 17 451.52 3.18 -4.09

5 4018.100 -0.309 K, MFW 17 052.29 12.27 -4.18

2 4030.753 -0.470 K, MFW 0.00 40.68 -4.18 (W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (41.0,-4.35)^b

2 4034.483 -0.811 K, MFW 0.00 23.85 -4.32 (W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (23.0,-4.50)^b

5 4041.355 +0.258 K, MFW 17 052.29 36.24 -4.02

5 4055.544 -0.070 K, MFW 17 282.00 17.59 -4.20

5 4070.278 -0.950 K, MFW 17 637.15 2.81 -4.22

5 4082.939 -0.354 K, MFW 17 568.48 10.33 -4.20

22 4453.012 -0.490 K, MFW 23 719.52 3.39 -4.24

28 4457.044 -0.555 K, MFW 24 788.05 1.66 -4.43

28 4458.254 +0.042 K, MFW 24 788.05 7.42 -4.33

28 4461.079 -0.380 K, MFW 24 802.25 4.22 -4.18

28 4462.031 +0.320 K, MFW 24 802.25 14.74 -4.25

22 4464.682 -0.104 K, MFW 23 549.20 6.79 -4.31

- 4479.393 +0.010 K, MFW 41 230.30 1.74 -3.99

22 4490.080 -0.522 K, MFW 23 818.87 3.30 -4.21

22 4502.213 -0.345 K, MFW 23 549.20 4.60 -4.26

- 4626.530 +0.210 K, MFW 38 008.70 4.76 -3.92

21 4727.461 -0.470 K, MFW 23 549.20 3.96 -4.20

21 4739.110 -0.490 K, MFW 23 719.52 3.46 -4.23

21 4762.367 +0.425 K, MFW 23 296.67 20.45 -4.24

21 4765.846 -0.080 K, MFW 23 719.52 9.77 -4.14

21 4766.418 +0.100 K, MFW 23 549.20 13.73 -4.14

16 4783.427 +0.042 K, MFW 18 531.64 21.56 -4.12

16 4823.524 +0.144 K, MFW 18 705.37 23.71 -4.14

27 6013.480 -0.251 K, MFW 25 779.32 5.92 -4.13

27 6021.790 +0.034 K, MFW 24 802.25 9.24 -4.19

Mn II    $\log N$ (Mn II)/ $N_{\rm tot}$ = -4.25 $\pm$ 0.04

3 3441.988 -0.272 K, MFW 14 325.86 176.9 -4.27

3 3460.316 -0.542 K, MFW 14 593.82 140.3 -4.25

3 3482.905 -0.740 K, MFW 14 781.19 117.2 -4.28

3 3488.677 -0.864 K, MFW 14 910.18 108.8 -4.26

3 3495.833 -1.218 K, MFW 14 959.84 92.87 -4.15

3 3496.809 -1.687 K, MFW 14 781.19 69.99 -4.27

3 3497.526 -1.330 K, MFW 14 901.18 82.89 -4.26

The Mn II lines used by Jomaron et al. (1999) (JDA)

- 3917.318 -1.147 K, K88 55 759.27 39.59 -4.55 (W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (43.5,-4.52)^b

- 4363.258 -1.909 K, K88 44 899.82 39.35 -4.43 (W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (37.5,-4.54)^b

- 4365.219 -1.350 K, K88 53 017.16 40.60 -4.46 (W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (40.5,-4.59)^b

- 4478.635 -0.950 K, K88 53 597.13 54.37 -4.39 (W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (55.0,-4.66)^b

Fe I    $\log N$ (Fe I)/ $N_{\rm tot}$ = -4.78 $\pm$ 0.08

23 3581.193 +0.406 K, FMW 6928.27 6.90 -4.84

23 3618.768 +0.000 K, FMW 7985.78 2.06 -4.97

43 4005.242 -0.610 K, FMW 12 560.93 1.96 -4.75

43 4045.812 +0.280 K, FMW 11 976.24 12.67 -4.78

43 4071.738 -0.022 K, FMW 12 698.55 6.26 -4.78

42 4202.029 -0.708 K, FMW 11 976.24 1.94 -4.70

419 4219.360 +0.120 K, FMW 28 819.95 1.02 -4.81

152 4235.936 -0.341 K, FMW 19 562.44 1.12 -4.86

42 4271.760 -0.164 K, FMW 11 976.24 6.74 -4.67

41 4383.545 +0.200 K, FMW 11 976.24 12.06 -4.74

41 4404.750 -0.142 K, FMW 12 560.93 6.09 -4.71

41 4415.122 -0.615 K, FMW 12 968.55 2.00 -4.72

Fe II    $\log N$ (Fe II)/ $N_{\rm tot}$ = -4.84 $\pm$ 0.13

173 3906.035 -1.830 K, FMW 44 929.55 15.01 -4.80

3 3914.503 -4.050 K, FMW 13 473.41 4.38 -5.04

173 3935.962 -1.860 K, FMW 44 915.05 16.00 -4.73

3 3938.290 -3.890 K, FMW 13 471.41 8.55 -4.88

3 3945.210 -4.250 K, FMW 13 673.18 3.84 -4.89

28 4122.668 -3.380 K, FMW 20 830.58 10.98 -4.83

27 4128.748 -3.770 K, FMW 20 830.58 6.90 -4.67

28 4178.862 -2.480 K, FMW 20 830.58 34.36 -4.96

28 4258.154 -3.400 K, FMW 21 812.05 7.57 -4.94

27 4273.326 -3.258 K, FMW 21 812.05 10.74 -4.90

28 4296.572 -3.010 K, FMW 21 812.05 19.75 -4.80

27 4303.176 -2.490 K, FMW 21 812.05 34.78 -4.88

28 4369.411 -3.670 K, FMW 22 409.85 5.04 -4.83

27 4385.387 -2.570 K, FMW 22 409.85 24.50 -5.06

32 4413.601 -3.870 K, FMW 21 581.64 2.06 -5.09

27 4416.830 -2.600 K, FMW 22 409.85 30.13 -4.86

37 4491.405 -2.700 K, FMW 23 031.30 24.60 -4.88

38 4508.288 -2.210 K, FMW 23 031.30 37.25 -5.01

37 4515.339 -2.480 K, FMW 23 939.36 31.54 -4.85

37 4520.224 -2.600 K, FMW 22 637.21 29.09 -4.88

38 4522.634 -2.030 K, FMW 22 939.36 44.78 -4.98

38 4541.524 -3.050 K, FMW 23 031.30 17.41 -4.76

186 4549.192 -1.870 K, FMW 47 674.72 15.09 -4.57

38 4549.474 -1.750 K, FMW 22 810.36 53.65 -5.01

37 4555.893 -2.290 K, FMW 22 810.36 34.65 -5.02

38 4576.340 -3.040 K, FMW 22 939.36 18.15 -4.75

37 4582.835 -3.100 K, FMW 22 939.36 12.89 -4.89

38 4583.837 -2.020 K, FMW 22 637.21 55.43 -4.69

38 4620.521 -3.280 K, FMW 22 810.36 10.08 -4.85

186 4635.316 -1.650 K, FMW 47 674.72 18.70 -4.65

43 4656.981 -3.630 K, FMW 23 317.63 5.90 -4.74

37 4666.758 -3.330 K, FMW 22 810.36 9.50 -4.83

25 4670.182 -4.100 K, FMW 20 830.58 2.12 -4.89

43 4731.453 -3.360 K, FMW 23 317.63 13.19 -4.59

42 4923.927 -1.320 K, FMW 23 317.63 75.84 -4.73

36 4993.358 -3.650 K, FMW 22 637.20 4.71 -4.86

42 5018.440 -1.220 K, FMW 23 317.63 83.50 -4.64

35 5132.669 -4.180 K, FMW 22 637.20 2.35 -4.65

42 5169.033 -0.870 K, FMW 23 317.63 88.23 -4.86

49 5197.577 -2.100 K, FMW 26 055.42 36.50 -4.93

49 5234.625 -2.050 K, FMW 25 981.63 37.62 -4.95

- 5247.952 +0.630 K, FMW 84 938.18 11.82 -5.02

185 5272.397 -2.030 K, FMW 48 039.09 9.61 -4.60

49 5276.002 -1.940 K, FMW 25 805.33 39.99 -5.00

41 5284.109 -3.190 K, FMW 23 317.63 13.28 -4.74

49 5316.615 -1.850 K, FMW 25 428.78 47.28 -4.90

49 5425.257 -3.360 K, FMW 25 805.33 3.74 -5.05

- 5506.195 +0.950 K, FMW 84 863.35 21.48 -4.90

55 5534.847 -2.930 K, FMW 26 170.18 16.85 -4.68

- 5961.705 +0.699 K, FMW 86 124.30 13.10 -4.88

46 6084.110 -3.980 K, FMW 25 805.33 1.95 -4.70

74 6149.258 -2.724 K, K88 31 368.45 10.38 -4.81

- 6383.722 -2.271 K, FMW 44 784.76 3.01 -5.05

74 6416.919 -2.850 K, FMW 31 387.95 8.55 -4.78

74 6456.383 -2.300 K, FMW 31 483.176 25.58 -4.64

Ni II    $\log N$ (Ni II)/ $N_{\rm tot}$ = -6.09 $\pm$ 0.16

1 3274.916 -2.805 K03 23 108.28 2.20 -6.03

5 3290.534 -2.755 K03 25 036.38 1.67 -6.08

1 3290.683 -3.016 K03 23 796.18 2.28 -5.76

1 3350.419 -2.355 K03 23 796.18 5.77 -5.94

1 3373.969 -2.006 K03 23 108.28 10.27 -5.99

4 3401.766 -2.682 K03 24 788.20 1.58 -6.17

4 3407.300 -1.855 K03 24 835.93 9.51 -6.07

1 3454.164 -2.146 K03 23 796.18 6.73 -6.04

4 3471.386 -1.902 K03 24 835.93 8.71 -6.06

1 3513.987 -1.507 K03 23 108.28 19.35 -5.97

4 3576.764 -1.676 K03 24 788.20 11.65 -6.08

12 4015.474 -2.410 K03 32 523.54 3.79 -6.35

11 4067.031 -1.834 K03 32 499.53 10.74 -6.41

10 4192.065 -3.270 K03 32 523.54 1.12 -6.04

9 4244.779 -3.095 K03 32 523.54 0.89 -6.31

^a "K'' before another $\log~gf$ source means that the $\log~gf$ is from Kurucz files available at http://kurucz.harvard.edu/linelists/gf100
(FMW) Fuhr et al. (1988); (K88) Kurucz (1988); (K03) Kurucz (2003); (MFW) Martin et al. (1988); (PTP) Pickering et al. (2002); (SL) Sigut & Landstreet (1990).
^b Equivalent widths W and abundances from Jomaron et al. (1999) (JDA).

**Table A.2:** Abundances of the iron group elements.
Mult.	$\lambda$ (Å)	$\log~gf$	Ref.^a	$\chi_{{\rm low}}$	W(mÅ)	$\log(N_{Z})/N_{\rm tot}$ )	Notes
Sc II $\log N$ (Sc II)/ $N_{\rm tot}$ = -9.08 $\pm$ 0.15
3	3580.925	-0.070	K, MFW	0.00	2.02	-8.89
2	3613.829	+0.520	K, MFW	177.76	5.81	-8.96
2	3630.742	+0.340	K, MFW	67.76	4.28	-8.94
2	3642.784	+0.180	K, MFW	0.00	2.73	-8.99
7	4246.822	+0.320	K, MFW	2540.95	4.44	-9.37
15	4314.083	-0.100	K, MFW	4987.79	1.96	-9.17
14	4374.457	-0.440	K, MFW	4987.79	1.07	-9.10
31	5526.790	+0.130	K, MFW	14261.32	0.86	-9.19
Ti II $\log N$ (Ti II)/ $N_{\rm tot}$ = -5.67 $\pm$ 0.11
5	3072.107	-0.620	PTP	225.73	61.34	-5.43
4	3121.598	-2.360	PTP	0.00	16.36	-5.51
4	3130.798	-1.190	PTP	94.10	44.49	-5.54
10	3145.396	-2.600	PTP	983.89	7.31	-5.69
4	3157.393	-2.170	PTP	94.10	18.33	-5.61
10	3161.201	-0.690	PTP	908.02	54.92	-5.57
10	3161.769	-0.550	PTP	983.89	59.71	-5.52
10	3162.566	-0.380	PTP	1087.32	60.63	-5.65
10	3168.518	-0.200	PTP	1215.84	66.26	-5.61
3	3214.767	-1.400	PTP	393.44	38.79	-5.53
2	3222.841	-0.420	PTP	94.10	63.99	-5.55
3	3226.769	-1.840	PTP	225.73	26.00	-5.61
2	3234.514	+0.430	PTP	393.44	86.84	-5.67
23	3236.119	-0.430	PTP	8710.44	48.44	-5.53
2	3236.572	+0.240	PTP	225.73	79.21	-5.70
2	3239.036	+0.070	PTP	94.10	76.96	-5.60
23	3239.661	-0.200	PTP	8744.25	76.96	-5.53
2	3241.983	-0.030	PTP	0.00	76.81	-5.51
23	3249.366	-1.360	PTP	8710.44	24.74	-5.57
2	3251.908	-0.590	PTP	94.10	59.53	-5.55
2	3254.245	-0.560	PTP	393.44	58.86	-5.58
7	3308.803	-1.140	PTP	1087.32	41.01	-5.64
7	3318.023	-1.040	PTP	983.89	46.15	-5.55
7	3343.761	-1.150	PTP	1215.84	40.92	-5.63
7	3346.741	-1.060	PTP	1087.42	45.59	-5.54
1	3361.212	+0.430	PTP	225.73	84.33	-5.69
1	3372.793	+0.280	PTP	94.10	79.51	-5.69
1	3380.279	-0.570	K, MFW	393.44	61.97	-5.44
1	3383.759	+0.160	PTP	0.00	87.01	-5.36
6	3477.180	-0.960	PTP	983.89	46.13	-5.61
6	3489.736	-1.980	PTP	1087.32	17.60	-5.71
6	3500.330	-2.100	PTP	983.89	18.55	-5.56
15	3561.575	-1.940	PTP	4268.58	11.65	-5.81
15	3573.731	-1.490	PTP	4628.58	24.62	-5.66
15	3587.131	-1.590	PTP	4897.65	22.00	-5.65
15	3596.047	-1.030	PTP	4897.65	37.79	-5.58
34	3900.539	-0.200	PTP	9118.26	76.60	-5.96
34	3913.461	-0.420	PTP	8997.71	77.23	-5.73
11	4012.383	-1.840	PTP	4628.58	41.10	-5.67
87	4053.821	-1.130	PTP	15265.62	40.03	-5.76
21	4161.529	-2.360	K, MFW	8744.25	17.44	-5.55
105	4163.644	-0.130	PTP	20891.66	62.40	-5.77
20	4287.873	-1.790	PTP	8710.44	27.82	-5.82
41	4290.215	-0.850	PTP	9395.71	65.27	-5.71
20	4294.094	-0.930	PTP	8744.25	63.27	-5.72
41	4300.042	-0.440	PTP	9518.06	78.06	-5.74
41	4301.922	-1.150	PTP	9363.62	54.33	-5.73
41	4312.860	-1.100	PTP	9518.05	57.56	-5.68
41	4314.971	-1.100	PTP	9363.62	55.37	-5.75
41	4320.950	-1.800	PTP	9395.71	24.78	-5.85
104	4367.652	-0.860	PTP	20 891.66	35.88	-5.80
93	4374.816	-1.610	PTP	16 625.11	21.38	-5.70
104	4386.847	-0.960	PTP	20 951.62	31.82	-5.80
51	4394.059	-1.780	PTP	9850.90	30.58	-5.69
19	4395.031	-0.540	PTP	8744.25	79.02	-5.64
51	4399.765	-1.190	PTP	9975.92	54.35	-5.66
115	4411.072	-0.670	PTP	24 961.03	31.84	-5.84
40	4417.714	-1.190	PTP	9395.71	55.39	-5.66
51	4418.331	-1.970	PTP	9395.71	19.61	-5.80
40	4441.729	-2.330	PTP	9518.06	11.70	-5.76
19	4443.801	-0.720	PTP	8710.44	72.95	-5.65
19	4450.482	-1.520	PTP	8744.25	42.66	-5.72
40	4464.448	-1.810	PTP	9363.62	28.90	-5.74
31	4468.492	-0.600	K, MFW	9118.26	75.93	-5.65
115	4488.325	-0.510	PTP	25 192.79	37.27	-5.84
31	4501.270	-0.770	PTP	8997.71	71.44	-5.63
50	4533.960	-0.530	PTP	9975.92	77.23	-5.64
60	4544.016	-2.580	PTP	10 024.73	6.49	-5.77
50	4563.757	-0.690	PTP	9850.90	68.15	-5.76
82	4571.971	-0.320	PTP	12 676.97	81.77	-5.56
59	4657.206	-2.240	PTP	10 024.73	12.39	-5.79
49	4708.662	-2.340	PTP	9975.92	10.08	-5.80
92	4779.985	-1.370	K, MFW	16 515.86	32.07	-5.65
17	4798.532	-2.680	PTP	8710.44	7.48	-5.69
92	4805.085	-1.100	K, MFW	16 625.11	45.57	-5.57
114	4911.195	-0.610	PTP	25 192.79	36.40	-5.76
113	5069.092	-1.820	PTP	25 192.79	5.75	-5.66
113	5072.287	-1.060	PTP	25 192.79	20.15	-5.75
-	5154.070	-1.750	PTP	12 628.73	22.57	-5.77
86	5185.902	-1.490	PTP	15 265.62	32.05	-5.61
-	5188.687	-1.050	PTP	12 758.11	50.88	-5.72
-	5226.538	-1.260	PTP	12 628.73	44.34	-5.69
103	5268.615	-1.620	K, MFW	20 951.62	11.80	-5.76
-	5336.786	-1.590	PTP	12 758.11	29.32	-5.73
-	5381.021	-1.920	PTP	12 628.73	16.59	-5.78
Cr I $\log N$ (Cr I)/ $N_{\rm tot}$ = -5.22 $\pm$ 0.09
4	3578.686	+0.409	K, MFW	0.00	6.26	-5.17
4	3593.485	+0.307	K, MFW	0.00	4.52	-5.24
4	3605.329	+0.197	K, MFW	0.00	4.41	-5.14
1	4254.336	-0.114	K, MFW	0.00	6.40	-5.27
1	4274.797	-0.231	K, MFW	0.00	4.23	-5.35
1	4289.717	-0.361	K, MFW	0.00	3.28	-5.34
7	5204.511	-0.208	K, MFW	7593.15	2.54	-5.16
7	5206.037	+0.019	K, MFW	7593.15	4.93	-5.08
7	5208.425	+0.158	K, MFW	7593.15	4.62	-5.25
Cr II $\log N$ (Cr II)/ $N_{\rm tot}$ = -5.41 $\pm$ 0.07
5	3118.646	-0.000	K, MFW	19 528.25	74.61	-5.38
5	3120.359	+0.120	K, MFW	19 631.17	78.48	-5.38
54	3122.596	-0.110	K, MFW	33 694.15	49.42	-5.25
39	4539.595	-2.280	SL	32 603.40	13.96	-5.42
44	4558.650	-0.410	SL	32 854.31	79.21	-5.34
39	4565.770	-1.860	SL	32 603.40	27.00	-5.43
-	4587.264	-1.648	K, MFW	52 321.01	3.77	-5.53
44	4588.199	-0.643	K, MFW	32 836.68	71.39	-5.35
44	4592.049	-1.217	K, MFW	32 854.95	44.53	-5.58
44	4616.629	-1.291	K, MFW	32 844.76	44.28	-5.51
44	4618.803	-0.860	SL	32 854.95	64.13	-5.35
44	4634.070	-0.990	SL	32 844.76	57.91	-5.41
-	4697.598	-1.882	K, MFW	45 730.58	6.36	-5.44
30	4812.337	-1.995	K, K88	31 168.58	24.44	-5.44
30	4824.127	-0.970	SL	31 219.35	65.81	-5.28
30	4836.229	-2.000	SL	31 117.39	25.57	-5.38
43	5237.329	-1.160	K, MFW	32 854.31	53.12	-5.38
23	5246.768	-2.450	K, MFW	29 951.88	14.55	-5.39
43	5279.880	-2.100	K, MFW	32 854.31	21.07	-5.33
24	5305.860	-2.080	K, MFW	30 864.76	24.27	-5.38
43	5308.440	-1.810	K, MFW	32 836.68	24.04	-5.53
43	5310.700	-2.280	K, MFW	32 844.76	14.54	-5.38
43	5313.590	-1.650	K, MFW	32 854.95	34.42	-5.40
23	5420.922	-2.360	K, MFW	30 307.44	13.80	-5.48
50	5502.067	-1.990	K, MFW	33 618.94	20.73	-5.40
50	5508.606	-2.110	K, MFW	33 521.11	16.35	-5.43
105	6053.466	-2.160	K, MFW	38 269.59	8.21	-5.44
Mn I $\log N$ (Mn I)/ $N_{\rm tot}$ = -4.20 $\pm$ 0.08
8	3577.868	+0.160	K, MFW	17 052.29	6.54	-4.29
8	3595.107	-0.860	K, MFW	17 451.52	0.75	-4.27
8	3607.526	-0.440	K, MFW	17 282.00	2.21	-4.21
8	3608.481	-0.370	K, MFW	17 451.52	3.18	-4.09
5	4018.100	-0.309	K, MFW	17 052.29	12.27	-4.18
2	4030.753	-0.470	K, MFW	0.00	40.68	-4.18	(W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (41.0,-4.35)^b
2	4034.483	-0.811	K, MFW	0.00	23.85	-4.32	(W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (23.0,-4.50)^b
5	4041.355	+0.258	K, MFW	17 052.29	36.24	-4.02
5	4055.544	-0.070	K, MFW	17 282.00	17.59	-4.20
5	4070.278	-0.950	K, MFW	17 637.15	2.81	-4.22
5	4082.939	-0.354	K, MFW	17 568.48	10.33	-4.20
22	4453.012	-0.490	K, MFW	23 719.52	3.39	-4.24
28	4457.044	-0.555	K, MFW	24 788.05	1.66	-4.43
28	4458.254	+0.042	K, MFW	24 788.05	7.42	-4.33
28	4461.079	-0.380	K, MFW	24 802.25	4.22	-4.18
28	4462.031	+0.320	K, MFW	24 802.25	14.74	-4.25
22	4464.682	-0.104	K, MFW	23 549.20	6.79	-4.31
-	4479.393	+0.010	K, MFW	41 230.30	1.74	-3.99
22	4490.080	-0.522	K, MFW	23 818.87	3.30	-4.21
22	4502.213	-0.345	K, MFW	23 549.20	4.60	-4.26
-	4626.530	+0.210	K, MFW	38 008.70	4.76	-3.92
21	4727.461	-0.470	K, MFW	23 549.20	3.96	-4.20
21	4739.110	-0.490	K, MFW	23 719.52	3.46	-4.23
21	4762.367	+0.425	K, MFW	23 296.67	20.45	-4.24
21	4765.846	-0.080	K, MFW	23 719.52	9.77	-4.14
21	4766.418	+0.100	K, MFW	23 549.20	13.73	-4.14
16	4783.427	+0.042	K, MFW	18 531.64	21.56	-4.12
16	4823.524	+0.144	K, MFW	18 705.37	23.71	-4.14
27	6013.480	-0.251	K, MFW	25 779.32	5.92	-4.13
27	6021.790	+0.034	K, MFW	24 802.25	9.24	-4.19
Mn II $\log N$ (Mn II)/ $N_{\rm tot}$ = -4.25 $\pm$ 0.04
3	3441.988	-0.272	K, MFW	14 325.86	176.9	-4.27
3	3460.316	-0.542	K, MFW	14 593.82	140.3	-4.25
3	3482.905	-0.740	K, MFW	14 781.19	117.2	-4.28
3	3488.677	-0.864	K, MFW	14 910.18	108.8	-4.26
3	3495.833	-1.218	K, MFW	14 959.84	92.87	-4.15
3	3496.809	-1.687	K, MFW	14 781.19	69.99	-4.27
3	3497.526	-1.330	K, MFW	14 901.18	82.89	-4.26
The Mn II lines used by Jomaron et al. (1999) (JDA)
-	3917.318	-1.147	K, K88	55 759.27	39.59	-4.55	(W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (43.5,-4.52)^b
-	4363.258	-1.909	K, K88	44 899.82	39.35	-4.43	(W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (37.5,-4.54)^b
-	4365.219	-1.350	K, K88	53 017.16	40.60	-4.46	(W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (40.5,-4.59)^b
-	4478.635	-0.950	K, K88	53 597.13	54.37	-4.39	(W, log(N/ $N_{\rm tot}$ ) $_{{\rm JDA}}$ ) = (55.0,-4.66)^b
Fe I $\log N$ (Fe I)/ $N_{\rm tot}$ = -4.78 $\pm$ 0.08
23	3581.193	+0.406	K, FMW	6928.27	6.90	-4.84
23	3618.768	+0.000	K, FMW	7985.78	2.06	-4.97
43	4005.242	-0.610	K, FMW	12 560.93	1.96	-4.75
43	4045.812	+0.280	K, FMW	11 976.24	12.67	-4.78
43	4071.738	-0.022	K, FMW	12 698.55	6.26	-4.78
42	4202.029	-0.708	K, FMW	11 976.24	1.94	-4.70
419	4219.360	+0.120	K, FMW	28 819.95	1.02	-4.81
152	4235.936	-0.341	K, FMW	19 562.44	1.12	-4.86
42	4271.760	-0.164	K, FMW	11 976.24	6.74	-4.67
41	4383.545	+0.200	K, FMW	11 976.24	12.06	-4.74
41	4404.750	-0.142	K, FMW	12 560.93	6.09	-4.71
41	4415.122	-0.615	K, FMW	12 968.55	2.00	-4.72
Fe II $\log N$ (Fe II)/ $N_{\rm tot}$ = -4.84 $\pm$ 0.13
173	3906.035	-1.830	K, FMW	44 929.55	15.01	-4.80
3	3914.503	-4.050	K, FMW	13 473.41	4.38	-5.04
173	3935.962	-1.860	K, FMW	44 915.05	16.00	-4.73
3	3938.290	-3.890	K, FMW	13 471.41	8.55	-4.88
3	3945.210	-4.250	K, FMW	13 673.18	3.84	-4.89
28	4122.668	-3.380	K, FMW	20 830.58	10.98	-4.83
27	4128.748	-3.770	K, FMW	20 830.58	6.90	-4.67
28	4178.862	-2.480	K, FMW	20 830.58	34.36	-4.96
28	4258.154	-3.400	K, FMW	21 812.05	7.57	-4.94
27	4273.326	-3.258	K, FMW	21 812.05	10.74	-4.90
28	4296.572	-3.010	K, FMW	21 812.05	19.75	-4.80
27	4303.176	-2.490	K, FMW	21 812.05	34.78	-4.88
28	4369.411	-3.670	K, FMW	22 409.85	5.04	-4.83
27	4385.387	-2.570	K, FMW	22 409.85	24.50	-5.06
32	4413.601	-3.870	K, FMW	21 581.64	2.06	-5.09
27	4416.830	-2.600	K, FMW	22 409.85	30.13	-4.86
37	4491.405	-2.700	K, FMW	23 031.30	24.60	-4.88
38	4508.288	-2.210	K, FMW	23 031.30	37.25	-5.01
37	4515.339	-2.480	K, FMW	23 939.36	31.54	-4.85
37	4520.224	-2.600	K, FMW	22 637.21	29.09	-4.88
38	4522.634	-2.030	K, FMW	22 939.36	44.78	-4.98
38	4541.524	-3.050	K, FMW	23 031.30	17.41	-4.76
186	4549.192	-1.870	K, FMW	47 674.72	15.09	-4.57
38	4549.474	-1.750	K, FMW	22 810.36	53.65	-5.01
37	4555.893	-2.290	K, FMW	22 810.36	34.65	-5.02
38	4576.340	-3.040	K, FMW	22 939.36	18.15	-4.75
37	4582.835	-3.100	K, FMW	22 939.36	12.89	-4.89
38	4583.837	-2.020	K, FMW	22 637.21	55.43	-4.69
38	4620.521	-3.280	K, FMW	22 810.36	10.08	-4.85
186	4635.316	-1.650	K, FMW	47 674.72	18.70	-4.65
43	4656.981	-3.630	K, FMW	23 317.63	5.90	-4.74
37	4666.758	-3.330	K, FMW	22 810.36	9.50	-4.83
25	4670.182	-4.100	K, FMW	20 830.58	2.12	-4.89
43	4731.453	-3.360	K, FMW	23 317.63	13.19	-4.59
42	4923.927	-1.320	K, FMW	23 317.63	75.84	-4.73
36	4993.358	-3.650	K, FMW	22 637.20	4.71	-4.86
42	5018.440	-1.220	K, FMW	23 317.63	83.50	-4.64
35	5132.669	-4.180	K, FMW	22 637.20	2.35	-4.65
42	5169.033	-0.870	K, FMW	23 317.63	88.23	-4.86
49	5197.577	-2.100	K, FMW	26 055.42	36.50	-4.93
49	5234.625	-2.050	K, FMW	25 981.63	37.62	-4.95
-	5247.952	+0.630	K, FMW	84 938.18	11.82	-5.02
185	5272.397	-2.030	K, FMW	48 039.09	9.61	-4.60
49	5276.002	-1.940	K, FMW	25 805.33	39.99	-5.00
41	5284.109	-3.190	K, FMW	23 317.63	13.28	-4.74
49	5316.615	-1.850	K, FMW	25 428.78	47.28	-4.90
49	5425.257	-3.360	K, FMW	25 805.33	3.74	-5.05
-	5506.195	+0.950	K, FMW	84 863.35	21.48	-4.90
55	5534.847	-2.930	K, FMW	26 170.18	16.85	-4.68
-	5961.705	+0.699	K, FMW	86 124.30	13.10	-4.88
46	6084.110	-3.980	K, FMW	25 805.33	1.95	-4.70
74	6149.258	-2.724	K, K88	31 368.45	10.38	-4.81
-	6383.722	-2.271	K, FMW	44 784.76	3.01	-5.05
74	6416.919	-2.850	K, FMW	31 387.95	8.55	-4.78
74	6456.383	-2.300	K, FMW	31 483.176	25.58	-4.64
Ni II $\log N$ (Ni II)/ $N_{\rm tot}$ = -6.09 $\pm$ 0.16
1	3274.916	-2.805	K03	23 108.28	2.20	-6.03
5	3290.534	-2.755	K03	25 036.38	1.67	-6.08
1	3290.683	-3.016	K03	23 796.18	2.28	-5.76
1	3350.419	-2.355	K03	23 796.18	5.77	-5.94
1	3373.969	-2.006	K03	23 108.28	10.27	-5.99
4	3401.766	-2.682	K03	24 788.20	1.58	-6.17
4	3407.300	-1.855	K03	24 835.93	9.51	-6.07
1	3454.164	-2.146	K03	23 796.18	6.73	-6.04
4	3471.386	-1.902	K03	24 835.93	8.71	-6.06
1	3513.987	-1.507	K03	23 108.28	19.35	-5.97
4	3576.764	-1.676	K03	24 788.20	11.65	-6.08
12	4015.474	-2.410	K03	32 523.54	3.79	-6.35
11	4067.031	-1.834	K03	32 499.53	10.74	-6.41
10	4192.065	-3.270	K03	32 523.54	1.12	-6.04
9	4244.779	-3.095	K03	32 523.54	0.89	-6.31

Source LaTeX | All tables | In the text