\begin{table}%T3
      \caption{\label{tab_1CC_drift_param}\elodie/\sophie~best orbital solution for \thetacyg, considering one planet and a drift.}
      \small%\centering
\par
	\begin{tabular}{l l c}
	  \hline
	  \hline
	  Parameter           &                      & \thetacyg~{\it b} \\
	  \hline
	  $P$                 & [days]               & $154.5 \pm 0.4$  \\
	  $T_0$               & [JD$-$2~450~000]       & $4016 \pm 1$ \\
	  $e$                 &                      & 0 (fixed)    \\
	  $\omega$            & [deg]                & 0            \\
	  $K$                 & [\ms]                & $70 \pm 4$   \\
	  $N_{\rm meas}$      &                      & 253          \\
	  $\sigma_{\rm O{-}C}$      & [\ms]                & 38.7         \\
          reduced $\chi^2$    &                      & 6.1          \\
	  \hline\noalign{\smallskip}
	  $a_1\sin{i}$        & [$10^{-3}$~AU]      & 0.99         \\
	  $f(m)$              & [$10^{-9}$~\Msun]   & 5.5         \\
	  $M_1$               & [\Msun]              & 1.38         \\
	  $m_2\sin{i}$        & [\Mjup]              & 2.29         \\
	  $a$                 & [AU]                 & 0.63         \\
	  \hline\noalign{\smallskip}
	  drift               & [\ms~yr$^{\rm -1}$] & $16 \pm 4$   \\
	  \hline
	\end{tabular} 
    \end{table}