\begin{table}%t3
\caption{\label{em_lines}Fiducial model emission line spectrum.}              
%\centering
\par
\begin{tabular}{l l l}       
\hline\hline \noalign{\smallskip}                 
$\lambda_{\rm rest}$ & $\log$($L$ [erg s$^{-1}$]) & $I/I_{\hbeta}$ \\     
\hline                         
\ion{O}{vi} 1035 & 40.984 & 0.007\\       
\ion{Si}{iii} 1207 & 41.589 & 0.026 \\
\lya\ 1215 & 44.724 & 36.011\\
\ion{N}{v} 1240 & 42.229& 0.115\\
\ion{Si}{iv} 1397    & 42.564  & 0.249\\
\ion{O}{iv} 1402 & 42.416 & 0.177 \\
\ion{N}{iv}] 1486 &42.938 & 0.590\\
\ion{C}{iv} 1549 & 44.054 & 7.698\\
\ion{He}{ii} 1640 & 43.026 & 0.7217 \\
\ion{C}{iii}] 1909    & 42.985 & 0.657 \\
$[$\ion{O}{ii}] 3727 & 41.411 & 0.018\\
\ion{He}{ii}  4686 & 42.127 & 0.0911\\
$[$\ion{O}{iii}] 5007 &43.936 & 5.865\\
\halpha\ 6563 & 43.625 & 2.867\\
\hline                                    
\end{tabular}
\tablefoot {Note that no resonance line absorption is accounted for in these values. For the doublets, including [\ion{O}{iii}]~4959, 5007~\AA, the number represents the sum of the two lines.}
\end{table}