\begin{table}%t1
%\centering
\par
\caption{\label{table-1}The AGILE cientific Performance.}
\small \begin{tabular}{lc}
\hline \hline
{\bf Gamma-ray imaging detector (GRID)} &      \\
\hline
Energy range & 30 MeV--50~GeV    \\
Field of view &  $\sim$2.5~sr \\
Flux sensitivity ($E > 100$ MeV, 5$\sigma$ in 10$^{6}$~s) &  $3 \times 10 ^{-7}$  (ph~cm$^{-2}$~s$^{-1}$)   \\
Angular resolution  at 100~MeV  (68\% cont. radius)   &  3.5~degrees   \\
Angular resolution  at 400~MeV  (68\% cont. radius)   &  1.2~degrees   \\
Source location accuracy (high Gal. lat., 90\% C.L.)  &  $\sim$15~arcmin  \\
Energy resolution   (at 400~MeV)      & $\Delta$$E/E \sim$ 1   \\
Absolute time resolution    & $\sim$2~$\mu$s  \\
Deadtime  & $\sim$100--200~$\mu$s \\
\hline
{\bf  Hard X-ray imaging detector (Super-AGILE)}  &      \\
 %\hline
 Energy range & 18--60~keV  \\
 Single (1-dim.) detector FOV (FW at zero sens.) &  $107^{\circ}\times 68^{\circ}$   \\
 Combined (2-dim.) detector FOV  (FW at zero sens.)&  $68^{\circ}\times68^{\circ}$   \\
 Sensitivity (18--60 keV, 5$\sigma$ in 1~day)   &  $\sim${\ch 15} mCrab    \\
 Angular resolution (pixel size)     &   6 arcmin    \\
 Source location accuracy ($S/N\sim10$)  &  $\sim$1--2 arcmin     \\
 Energy resolution {\ch(FWHM)}          & $\Delta E  \sim$ {\ch 8}~keV     \\
 Absolute time resolution & $\sim$2~$\mu$s \\
 \hline
 {\bf Mini-calorimeter}  &  \\
% \hline
 Energy range  & 0.35--50~MeV \\
 Energy resolution ({\ch at 1.3~MeV })  &  {\ch 13\% FWHM }   \\
  Absolute time resolution & $\sim$3~$\mu$s  \\
 Deadtime (for each of the 30~CsI bars)    & $\sim$20~$\mu$s \\
 \hline
 \end{tabular}
 \label{tab-payload}
 \end{table}