\begin{table}%t6 \caption{\label{tab:ewori_spel}Spectroscopic orbital solutions for \EW\ determined from re-analyses of the radial velocity observations by Popper et~al. (\cite{plft86}) and Imbert (\cite{imbert02}).} %\centering \par \begin{tabular}{lrr} \hline \hline\noalign{\smallskip} Parameter: & \multicolumn{1}{c}{Popper et~al.} & \multicolumn{1}{c}{Imbert (adopted)} \\ \hline Adjusted quantities: & & \\ $K_{\rm p}$~(\kms) &$ 73.18 \pm 0.41$ & $72.26 \pm 0.24$ \\ $K_{\rm s}$~(\kms) &$ 75.46 \pm 0.43$ & $75.44 \pm 0.31$ \\ $\gamma_{\rm p}$~(\kms) &$ -7.03 \pm 0.37$ & $-6.00 \pm 0.18$ \\ $\gamma_{\rm s}$~(\kms) &$ -7.21 \pm 0.39$ & $-5.40 \pm 0.24$ \\ Adopted quantities: & & \\ $P$~(days) & 6.93684324 & 6.93684324 \\ $T$~(HJD$-$2~400~000)\tablefootmark{a} & 51877.8014 & 51877.8014 \\ $T_{\rm p}$~(HJD$-$2~400~000)\tablefootmark{b} & 51875.1968 & 51875.1968 \\ $e$ & 0.0758 & 0.0758 \\ $\omega$ ~ (\degr) & 309.1 & 309.1 \\ Derived quantities: & & \\ $M_{\rm p} \sin^3i~{(M_{\odot})}$ &$1.188 \pm 0.015$ &$1.173 \pm 0.010$ \\ $M_{\rm s} \sin^3i~{(M_{\odot}})$ &$1.152 \pm 0.014$ &$1.123 \pm 0.009$ \\ $q = M_{\rm s}/M_{\rm p}$ &$0.970 \pm 0.008$ &$0.958 \pm 0.005$ \\ $a \sin i~{(R_{\odot})}$ &$20.313 \pm 0.081$ &$20.184 \pm 0.054$\\ Other quantities & & \\ pertaining to the fit: & & \\ $N_{obs} (p/s)$ &17/17 &25/24 \\ Time span (days) &1897 &1857 \\ $\sigma_{\rm p}$\tablefootmark{c} ~(\kms) & 1.53& 0.91 \\ $\sigma_{\rm s}$\tablefootmark{c} ~(\kms) & 1.62& 1.16 \\ \hline \end{tabular} \tablefoot {\tablefoottext{a}{Time of periastron;} \tablefoottext{b}{time of central primary eclipse;} \tablefoottext{c}{standard deviation of a single radial velocity.}} \end{table}