We list in this table all the lines of neutron-capture elements that were used to derive abundances. The wavelengths, excitation potentials, and oscillator strengths are listed, together with references for the oscillator strengths. Also listed are the equivalent widths of the lines in CS 31082-001, and the derived abundances. The word "syn'' in Col. 5 denotes that spectral synthesis techniques were used rather than the equivalent width to derive the abundance.

**Table A.1:** Linelist, equivalent width and abundances for the neutron-capture elements in CS 31082-001.
$\lambda$	Exc. Pot.	$\log gf$	Ref.	W	$\log \epsilon$
(Å)	(eV)			(mÅ)
Sr II
4077.709	0.00	0.170	1	syn	0.70
4161.792	2.94	-0.600	1	syn	0.75
4215.519	0.00	-0.170	1	syn	0.70
Y II
3774.331	0.13	0.210	2	86.0	-0.29
3788.694	0.10	-0.070	2	83.0	-0.14
3818.341	0.13	-0.980	2	45.0	-0.15
3950.352	0.10	-0.490	2	69.4	-0.16
4398.013	0.13	-1.000	2	45.0	-0.23
4883.684	1.08	0.070	2	42.4	-0.27
5087.416	1.08	-0.170	2	28.6	-0.32
5123.211	0.99	-0.830	2	10.6	-0.30
5200.406	0.99	-0.570	2	19.8	-0.25
5205.724	1.03	-0.340	2	26.0	-0.28
Zr II
3836.762	0.56	-0.060	3	61.0	0.24
4161.213	0.71	-0.720	3	40.0	0.57
4208.977	0.71	-0.460	3	45.0	0.40
4317.299	0.71	-1.380	3	13.0	0.54
4496.980	0.71	-0.590	3	35.0	0.30
Nb II
3215.591	0.44	-0.190	4^a	syn	-0.55
Ru I
3436.736	0.15	0.015	5^a	syn	0.40
3498.942	0.00	0.310	5^a	syn	0.28
3728.025	0.00	0.270	5^a	syn	0.20
3798.898	0.15	-0.040	5^a	syn	0.40
3799.349	0.00	0.020	5^a	syn	0.45
Rh I
3396.819	0.00	0.050	4^a	syn	-0.40
3434.885	0.00	0.450	4^a	syn	-0.45
3692.358	0.00	0.174	4^a	syn	-0.40
Pd I
3242.700	0.81	-0.070	4^a	syn	0.00
3404.579	0.81	0.320	4^a	syn	-0.18
3634.690	0.81	0.090	4^a	syn	0.00
Ag I
3280.679	0.00	-0.050	4^a	syn	-0.95
3382.889	0.00	-0.377	4^a	syn	-0.70

Table A.1: continued.
$\lambda$ Exc. Pot. $\log gf$ Ref. W $\log \epsilon$

(Å) (eV) (mÅ)

Ba II

3891.776 2.51 0.280 6 syn 0.15

4130.645 2.72 0.560 6 syn 0.20

4554.029 0.00 0.170 6 syn 0.40

4934.076 0.00 -0.150 6 syn 0.60

5853.668 0.60 -1.010 6 syn 0.50

6141.713 0.70 -0.070 6 syn 0.40

La II

3849.006 0.00 -0.450 7^a syn -0.60

4086.709 0.00 -0.070 7^b syn -0.55

4123.218 0.32 0.130 7^b syn -0.65

5122.988 0.32 -0.850 7^b syn -0.58

6320.376 0.17 -1.520 7^b 7.0 -0.61

Ce II

4073.474 0.48 0.320 8 26.3 -0.45

4083.222 0.70 0.240 8 21.0 -0.24

4120.827 0.32 -0.240 8 16.0 -0.37

4127.364 0.68 0.240 8 21.0 -0.27

4222.597 0.12 -0.180 1 33.0 -0.25

4418.780 0.86 0.310 8 14.0 -0.38

4486.909 0.30 -0.360 1 22.0 -0.14

4562.359 0.48 0.330 1 31.0 -0.41

4628.161 0.52 0.260 1 26.6 -0.40

Pr II

3964.262 0.22 -0.400 8 syn -0.80

3964.812 0.05 0.090 9 28.0 -0.99

3965.253 0.20 -0.130 9 18.0 -0.84

4062.805 0.42 0.330 10 37.0 -0.70

5220.108 0.80 0.170 9 7.3 -1.01

5259.728 0.63 -0.070 9 8.1 -0.93

Nd II

3973.260 0.63 0.430 11 syn -0.17

4018.823 0.06 -0.880 12 19.0 -0.20

4021.327 0.32 -0.170 13 35.0 -0.22

4061.080 0.47 0.300 11 62.0 0.07

4069.265 0.06 -0.400 13 34.4 -0.32

4109.448 0.32 0.180 11 syn 0.15

4232.374 0.06 -0.350 13 34.5 -0.39

4446.384 0.20 -0.630 12 35.0 0.04

4462.979 0.56 -0.070 11 38.0 -0.03

5130.586 1.30 0.100 11 13.3 -0.00

5212.361 0.20 -0.700 13 14.6 -0.48

5234.194 0.55 -0.460 12 16.0 -0.25

5249.576 0.98 0.080 14 20.0 -0.16

5293.163 0.82 -0.200 14 21.3 -0.04

5311.453 0.99 -0.560 14 5.4 -0.16

5319.815 0.55 -0.350 14 27.7 -0.06

5361.467 0.68 -0.400 13 12.6 -0.29

5442.264 0.68 -0.900 13 4.2 -0.31

Sm II

3793.978 0.10 -0.500 15 19.0 -0.71

3896.972 0.04 -0.580 15 21.0 -0.66

4023.222 0.04 -0.830 15 16.0 -0.57

4068.324 0.43 -0.710 15 7.0 -0.65

4318.927 0.28 -0.270 15 33.0 -0.45

4499.475 0.25 -1.010 15 13.0 -0.30

4519.630 0.54 -0.430 15 18.0 -0.37

4537.941 0.48 -0.230 15 16.0 -0.71

4577.688 0.25 -0.770 15 18.0 -0.38

Table A.1: continued.
$\lambda$ Exc. Pot. $\log gf$ Ref. W $\log \epsilon$

(Å) (eV) (mÅ)

Eu II

3724.931 0.00 -0.090 16^b syn -0.59

3930.499 0.21 0.270 16^b syn -0.78

3971.972 0.21 0.270 16^b syn -0.84

4129.725 0.00 0.220 16^b syn -0.77

4205.042 0.00 0.210 16^b syn -0.66

4435.578 0.21 -0.110 16^b syn -0.76

4522.581 0.21 -0.670 16^b syn -0.91

6437.640 1.32 -0.320 16^b syn -0.88

6645.064 1.38 0.120 16^b 3.0 -0.72

Gd II

3768.396 0.08 0.250 17 61.0 -0.33

3796.384 0.03 0.030 18 63.0 -0.13

3836.915 0.49 -0.320 4^a 19.0 -0.27

3844.578 0.14 -0.510 17 30.0 -0.22

3916.509 0.60 0.060 17 22.0 -0.45

4037.893 0.73 0.070 18 15.0 -0.53

4085.558 0.56 -0.230 18 17.0 -0.37

4130.366 0.73 0.140 18^a 25.0 -0.32

4191.075 0.43 -0.680 17 18.0 -0.06

Tb II

3658.886 0.13 -0.010 19^b 12.5 -1.27

3702.853 0.13 0.440 19^b 33.0 -1.19

3848.734 0.00 0.280 19^b 38.0 -1.34

3874.168 0.00 0.270 19^b 29.0 -1.19

3899.188 0.37 0.330 19^b 17.0 -1.23

4002.566 0.64 0.100 19^b 4.0 -1.38

4005.467 0.13 -0.020 19^b 17.3 -1.23

Dy II

3869.864 0.00 -0.940 20 29.3 -0.21

3996.689 0.59 -0.190 20 32.6 -0.20

4011.285 0.93 -0.630 20 5.5 -0.32

4103.306 0.10 -0.370 20 61.2 -0.01

4468.138 0.10 -1.500 20 8.5 -0.27

5169.688 0.10 -1.660 20 5.5 -0.38

Er II

3692.649 0.05 0.138 21 syn -0.25

3786.836 0.00 -0.640 21 46.0 -0.26

3830.482 0.00 -0.360 21 58.5 -0.26

3896.234 0.05 -0.240 22 64.0 -0.19

3938.626 0.00 -0.520 8 38.0 -0.40

Tm II

3700.256 0.03 -0.290 8 25.0 -1.28

3761.333 0.00 -0.250 8 syn -1.10

3795.760 0.03 -0.170 8 28.0 -1.34

3848.020 0.00 -0.520 8 syn -1.25

Hf II

3399.793 0.00 -0.490 23 syn -0.50

3719.276 0.61 -0.870 8 syn -0.70

Os I

4135.775 0.52 -1.260 8 9.0+syn 0.52

4260.848 0.00 -1.440 8 12.0+syn 0.21

4420.468 0.00 -1.530 24 syn 0.50

Ir I

3513.648 0.00 -1.260 4^a 34.0+syn 0.20

3800.120 0.00 -1.450 4^a syn 0.20

Pb I

4057.807 1.32 -0.170 25^a syn <-0.2

Table A.1: continued.
$\lambda$ Exc. Pot. $\log gf$ Ref. W $\log \epsilon$

(Å) (eV) (mÅ)

Th II

3351.229 0.19 -0.600 26^a 7.0+syn -0.95

3433.999 0.23 -0.537 26^a 10.0+syn -1.05

3435.977 0.00 -0.670 26^a 14.0+syn -1.05

3469.921 0.51 -0.129 26^a 10.0+syn -1.00

3675.567 0.19 -0.840 26^a 5.0+syn -0.92

4019.129 0.00 -0.228 26^a 31.0+syn -1.03

4086.521 0.00 -0.929 26^b 10.0+syn -0.95

4094.747 0.00 -0.885 26^a 7.0+syn -0.95

U II

3859.571 0.036 -0.067 27^a syn -1.92

^a Not in Sneden et al. (1996).

^b $\log gf$ different than in Sneden et al. (1996).

1: Gratton & Sneden (1994); 2: Hannaford et al. (1982); 3: Biémont et al. (1981); 4: VALD: Bell heavy; 5: Wickliffe et al. (1994); 6: Gallagher (1967); 7: Lawler et al. (2001a); 8: Sneden et al. (1996) (From Kurucz compilation); 9: Goly et al. (1991); 10: Goly et al. (1991), Lage & Whaling (1976); 11: Maier & Whaling (1977); 12: Ward et al. (1984, 1985), modified (Sneden et al. 1996); 13: Corliss & Bozman (1962), modified (Sneden et al. 1996); 14: Maier & Whaling (1977), Ward et al. (1984, 1985); 15: Biemont et al. (1989); 16: Lawler et al. (2001b); 17: Corliss & Bozman (1962); 18: Bergström et al. (1988); 18: Bergstrom et al. (1988); 19: Lawler et al. (2001c); 20: Kusz (1992), Biémont & Lowe (1993); 21: Musiol & Labuz (1993); 22: Biémont & Youssef (1984); 23: Andersen et al. (1975); 24: Kwiatkowski et al. (1984); 25: Reader & Sansonetti (1986); 26: Nilsson et al. (2001a); 27: Nilsson et al. (2001b).

Appendix A: Line list and atomic data