\begin{table}%t1
\caption{\label{table}Model parameters.}
%\centerline
{\small
\begin{tabular}{lll}
\hline\hline\noalign{\smallskip}
\multicolumn{2}{l}{Parameter [units]} & values\\[0.001cm]
\hline\noalign{\smallskip}
$R_{\star}$ &Stellar radius [cm] &  1.5$\times10^{12}$  \\[0.001cm]
$T_{\star}$ & Stellar temperature [K] & $3\times10^{4}$  \\[0.001cm] 
$r_{\rm orb}$ &Orbital radius [cm] & $3.4\times10^{12}$  \\[0.001cm]
$\theta$ &Viewing angle & ${\pi}/6$  \\[0.001cm]
\hline\noalign{\smallskip}
$M_{\rm BH}$ &BH mass [$M_{\odot}$]& 20\\[0.001cm]
$h_{0}$ &Jet initial point [R$_{\rm Sch}$] & 50  \\[0.001cm]
$h_{\rm int}$ &Height above compact object [cm] & $10^{13}$  \\[0.001cm]
$\varrho$ &Equipartition parameter & 0.1 \\[0.01cm]
$\Gamma_{\rm jet}$ &Jet bulk Lorentz factor & 1.4\\[0.001cm]
$B$ & Magnetic field [G] & 0.9 \\[0.001cm]
$\eta$ &Acceleration efficiency& 0.1\\[0.001cm]
$L_{\rm jet}$ &Jet kinetic power [erg s$^{-1}$] & $10^{37}$ \\[0.001cm]
$a$ &Hadron-to-lepton energy ratio & 100 \\[0.001cm]
$q_{\rm rel}$ &Jet content of relativistic particles & 5\% \\[0.001cm]
$R_{\rm jet}$ &Jet radius [$h_{\rm int}$] &  0.1  \\[0.001cm]
$e$ &Thickness  of the ``one  zone'' [$h_{\rm int}$] & 0.05  \\[0.001cm]
$\zeta$ &Particle injection index & 2.8\\[0.001cm]
$\dot{M}_{\star}$ &Stellar mass loss rate [$M_{\odot}$~yr$^{-1}$] & $3\times 10^{-6}$  \\[0.001cm]
$v_{\infty}$ &Terminal wind velocity [cm s$^{-1}$] & $2\times10^{8}$  \\[0.001cm]
\hline
\end{tabular}}	
  \tablefoot{Those related to the absorption are listed first.}
\end{table}