\begin{table}%t7 \caption {\label{tablines}Abundance ratios derived and atomic parameters adopted. } %\centerline {\begin{tabular}{llllrrrrrrrrrrrrrrrrr} \hline\hline Species & ${\rm \lambda}$ & ${\rm \chi_{ex}}$ & C$_6$ & log~$gf$ & \multispan8 [X/Fe] \\ \cline{6-13} \\ & (${\rm \AA}$) & (eV) & (cm$^6$~s$^{-1}$) & & {\bf B-8} & {\bf B-107} & {\bf B-108} & {\bf B118} & {\bf B-122} & {\bf B-128} & {\bf B-130} & {\bf F-121} \\ \noalign{\smallskip} \hline \noalign{\smallskip} % 8 107 108 118 122 128 130 121 OI & 6300.311 & 0.00 &0.30E-31 & --9.716 & +0.3: & -- & -- & -- & -- & -- & +0.5:& +0.5: \\ OI & 6363.79 & 0.00 &0.30E-31 & --10.25 & +0.2: & +0.5: & +0.7: & +0.3: & +0.7: & -- & -- & +0.5: \\ % NaI & 6154.230 & 2.10 & 0.90E-31 & --1.56 & +0.3 & --0.3: & 0.0 & +0.1 & +0.1 & +0.1 & +0.1 & --0.1 \\ NaI & 6160.753 & 2.10 & 0.30E-31 & --1.26 & +0.4 & --0.3: & --0.2 & +0.1 & +0.2 & +0.1 & +0.2 & --0.1 \\ % MgI & 6318.720 & 5.11 & 0.30E-31 & --2.10 & +0.1: & +0.20 & +0.4: & +0.2 & +0.2 & +0.2 & +0.4 & +0.4 \\ MgI & 6319.242 & 5.11 & 0.30E-31 & --2.36 & +0.1: & -- & +0.2: & 0.0 & +0.2 & +0.2 & +0.4 & +0.4 \\ MgI & 6319.490 & 5.11 & 0.30E-31 & --2.80 & +0.1: & +0.20 & +0.4: & +0.2 & +0.2 & +0.4 & +0.4 & +0.4 \\ MgI & 6765.450 & 5.75 & 0.30E-31 & --1.94 & -- & +0.40: & -- & -- & -- & +0.2:& +0.4:& +0.4: \\ % SiI & 6142.494 & 5.62 & 0.30E-31 & --1.50 & +0.2 & +0.2 & +0.4 & +0.2 & 0.0 & +0.2 & +0.4 & +0.2 \\ SiI & 6145.020 & 5.61 & 0.30E-31 & --1.45 & +0.4 & +0.2 & +0.2 & +0.2 & +0.2 & +0.2 & -- & +0.2 \\ SiI & 6155.142 & 5.62 & 0.30E-30 & --0.85 & +0.2 & +0.1 & 0.0 & +0.2 & --0.1 & +0.2 & +0.3 & +0.2 \\ SiI & 6237.328 & 5.61 & 0.30E-30 & --1.01 & +0.4 & +0.2 & +0.2 & +0.3 & +0.2 & +0.3 & +0.4 & +0.4 \\ SiI & 6243.823 & 5.61 & 0.30E-32 & --1.30 & +0.4 & +0.2 & +0.2 & +0.4 & +0.3 & +0.4 & +0.4 & +0.4 \\ SiI & 6414.987 & 5.87 & 0.30E-30 & --1.13 & +0.4: & +0.2 & +0.2 & +0.4 & +0.2 & +0.2 & +0.2 & +0.2 \\ SiI & 6721.844 & 5.86 & 0.90E-30 & --1.17 & +0.4 & +0.3 & +0.2 & +0.3 & -- & +0.2: & +0.4:& -- \\ % CaI & 6156.030 & 2.52 & 4.0E-31 & --2.39 & -- & +0.3 & +0.1 & 0.0 & 0.0 & +0.3 & -- & 0.0: \\ CaI & 6161.295 & 2.51 & 4.0E-31 & --1.02 & +0.2 & 0.0 & +0.3 & 0.0 & +0.3 & +0.2 & +0.3 & +0.3 \\ CaI & 6162.167 & 1.89 & 3.0E-31 & --0.09 & 0.0 & +0.2 & 0.0 & +0.2 & 0.0 & 0.0 & +0.1 & +0.3 \\ CaI & 6166.440 & 2.52 & 3.97E-31 & --0.90 & 0.0 & 0.0 & +0.2 & +0.2 & +0.3 & 0.0 & +0.3 & +0.3 \\ CaI & 6169.044 & 2.52 & 3.97E-31 & --0.54 & +0.3 & +0.1 & +0.1 & +0.2 & +0.3 & +0.3 & +0.1 & +0.3 \\ CaI & 6169.564 & 2.52 & 4.0E-31 & --0.27 & +0.1 & +0.2 & +0.1 & +0.3 & +0.3 & +0.3 & +0.2 & +0.3 \\ CaI & 6439.080 & 2.52 & 3.4E-32 & +0.3 & 0.0 & +0.3 & +0.3 & +0.3 & +0.3 & +0.3 & +0.3 & 0.0 \\ CaI & 6455.605 & 2.52 & 3.39E-32 & --1.35 & +0.3 & 0.0 & +0.3 & +0.3 & +0.3 & -0.1 & +0.4:& +0.3 \\ CaI & 6464.679 & 2.52 & 3.4E-32 & --2.10 & +0.3 & 0.0 & +0.3 & +0.3 & +0.3 & +0.3:& -- & +0.3 \\ CaI & 6471.668 & 2.52 & 3.39E-32 & --0.59 & +0.3 & 0.0 & +0.3 & +0.3 & +0.3 & +0.3 & +0.3 & +0.3 \\ % CaI & 6493.788 & 2.52 & 3.37E-32 & 0.0 & +0.1 & --0.3 & 0.0 & +0.2 & 0.0 & 0.0 & +0.1 & --0.2 \\ CaI & 6499.654 & 2.52 & 3.37E-32 & --0.85 & +0.2 & --0.3 & +0.2 & 0.0 & 0.0 & 0.0 & +0.1 & -0.1 \\ CaI & 6572.779 & 0.00 & 1.75E-32 & --4.32 & +0.1 & 0.0 & +0.3 & +0.3 & +0.2 & 0.0 & +0.2 & 0.0 \\ CaI & 6717.687 & 2.71 & 4.1E-31 & --0.61 & 0.0 & 0.0 & 0.0 & +0.3 & +0.3 & +0.3 & +0.3 & +0.1\\ % TiI & 6126.224 & 1.07 & 1.37E-32 & --1.43 & +0.2 & +0.2 & +0.2 & 0.0 & +0.1 & +0.1 & +0.2 & 0.0 \\ TiI & 6258.110 & 1.44 & 3.17E-32 & --0.36 & 0.0 & 0.0 & +0.2 & 0.0 & +0.2 & +0.2 & 0.0 & +0.1 \\ TiI & 6261.106 & 1.43 & 4.68E-32 & --0.48 & 0.0 & 0.0 & 0.0 & 0.0 & +0.3 & 0.0 & 0.0 & +0.2 \\ TiI & 6303.767 & 1.44 & 3.12E-32 & --1.57 & 0.0: & 0.0 & -- & +0.2 & +0.2:& +0.2: & -- & -- \\ TiI & 6336.113 & 1.44 & 1.86E-32 & --1.74 & -- & -- & +0.2: & +0.3 & +0.3 & 0.0: & -- & +0.3: \\ TiI & 6554.238 & 1.44 & 1.81E-32 & --1.22 & +0.2 & +0.2 & +0.2 & 0.0 & +0.2 & +0.2 & 0.0 & +0.2 \\ TiI & 6556.077 & 1.46 & 1.81E-32 & --1.07 & 0.0 & +0.2 & +0.3 & 0.0 & 0.0 & +0.2 & +0.4 & +0.2 \\ TiI & 6599.113 & 0.90 & 1.96E-32 & --2.09 & +0.2: & +0.3 & +0.2: & +0.3 & +0.2 & +0.2::& +0.4: & +0.1 \\ TiI & 6743.127 & 0.90 & 0.30E-31 & --1.73 & 0.0 & +0.1 & +0.2 & --0.2 & 0.0 & 0.0 & +0.2 & +0.2 \\ TiII& 6491.580 & 2.06 & 0.30E-31 & --2.10 & +0.2 & +0.3 & +0.3 & +0.3 & +0.3 & +0.3 & +0.3 & +0.1 \\ TiII& 6559.576 & 2.05 & 0.30E-31 & --2.35 & +0.3 & 0.0 & +0.3 & +0.3 & +0.3 & +0.3 & +0.3 & +0.2 \\ TiII& 6606.970 & 2.06 & 0.30E-31 & --2.85 & +0.2 & +0.2: & +0.2 & -- & -- & +0.3:& +0.3 & +0.2 \\ % BaII & 6141.727 & 0.70 & & --0.07$^a$ & +1.0 & +0.5 & --0.1 & +0.75 & +0.5 & +1.0 & +0.25 & --0.25 \\ BaII & 6496.908 & 0.60 & & --0.38$^b$ & +0.9 & +0.5 & +0.15 & +1.2 & +0.75 & +0.75 & +0.25 & --0.25 \\ LaII & 6390.480 & 0.32 & & --1.41$^c$ & +0.5 & +0.50 & +0.3 & +0.5 & +0.3:& -- & -- & 0.0:\\ EuII & 6645.127 & 1.38 & & 0.12$^a$ & +0.5 & 0.0: & +0.5: & +0.5 & +0.3:& 0.0: & +0.8 & +0.5 \\ \hline \end{tabular}} \smallskip Column~5 reports the log gf adopted as described in Barbuy et~al. (2007). For the heavy elements~BaII, LaII and EuII, hyperfine structure was taken into account, and the log gf values reported correspond to the equivalent total $\log gf$, adopted from a Hill et~al. (2002), b Rutten (1978), c~Lawler et~al. (2001b). \end{table}