\begin{table}%t1
\caption{\label{tab:1}Parameters of the simulations discussed in this paper.}
%%\centerline

{\small 
  \begin{tabular}{lcccccccc}
    \hline\hline\noalign{\smallskip}
    Model & $\gamma_{\rm j}$ & $M_{\rm j}$ & $\rho_{\rm j}/\rho_{\rm a}$ & $\Gamma$& $\varepsilon_{\rm j} (c^2)$ &  $\varepsilon_{\rm a}(c^2)$ & $c_{\rm sj} (c)$ &  Resolution (cells/$R_{\rm j}$)\\
    \hline
    B05 (3D)& 5.0 &  13.2 & 0.1 & 4/3 & 0.42 & 0.042 & 0.35 &  32/64\tablefootmark{a} \\
    B05 (2D)& -- &  -- & -- & -- & -- & -- & -- &  32/$128\times 256$\tablefootmark{b}\\
    D10 (3D)& 10.0 & 14.2 & 0.1 & 4/3 & 60.0 & 6.0 & 0.57 & 32 \\
    B20 (3D)& 20.0 & 54.0 & 0.1 & 4/3 & 0.42 & 0.042 & 0.35 & 32 \\
    B20 (2D)& -- & -- & -- & -- & -- & -- & -- & 32/$128\times 256$\tablefootmark{b}\\
  \hline
  \end{tabular}}
  \tablefoot{\tablefoottext{a}{This simulation was repeated (in the linear regime only) doubling the resolution.}
  \tablefoottext{b}{The numbers correspond to the axial times radial resolution when it is not the same in all the dimensions.}}
\end{table}