\begin{table}%t7
 \caption{\label{tab:lcfinal}Final photometric parameters for \baur\ from fitting the \wire\
and Hipparcos light curves, the spectroscopic light ratio of NJ94 and several times of
minimum light. The quadratic LD~law was used with independently-optimised LD~coefficients
for the two stars. The upper part of the table contains directly optimised parameters and
the lower part contains dependent parameters. The uncertainties have been multiplied by
$\sqrt{\chi^2_{\rm \ red}}$.}
\small %\centering
$$
\begin{tabular}{l l r@{~$\pm$~}l} \hline \hline
Parameter                     & Symbol                      & \mc{Value}                  \\
\hline
Sum of relative radii         & $r_{\rm A}+r_{\rm B}$       &      0.30290    & 0.00054   \\
Ratio of radii                & $k$                         &      0.9300     & 0.0097    \\
Orbital inclination (deg)    & $i$                         &     76.80       & 0.10      \\
Eccentricity term             & $e\cos\omega$               &   $-$0.00002    & 0.00001   \\
Eccentricity term             & $e\sin\omega$               &      0.00183    & 0.00040   \\
Linear LD~coefficient         & $u_{\rm A}$                 &      0.210      & 0.074     \\
Linear LD~coefficient         & $u_{\rm B}$                 &      0.187      & 0.069     \\
Non-linear LD~coefficient     & $v_{\rm A}$                 &      0.248      & 0.111     \\
Non-linear LD~coefficient     & $v_{\rm B}$                 &      0.277      & 0.108     \\
\hline
Relative radius of star A     & $r_{\rm A}$                 &      0.15694    & 0.00081   \\
Relative radius of star B     & $r_{\rm B}$                 &      0.14595    & 0.00082   \\
Light ratio                   & $\ell_{\rm B}/\ell_{\rm A}$ &      0.854      & 0.016     \\
Orbital eccentricity          & $e$                         &      0.00183    & 0.00040   \\
Longitude of periastron (deg) & $\omega$                    &     90.47       & 0.26      \\
\hline \end{tabular} $$
\end{table}