\begin{table}%t1
\caption{\label{tab:fragments}The number of fragments and their masses for each case of metallicity versus rotational energy.}
\small%\centering
\par
\begin{tabular}{ccccc}
\hline \hline\noalign{\smallskip}
Metallicity & Rot. energy & No. of fragments & Average fragment mass & Individual fragment masses \\
$Z/Z_{\odot}$ & $\beta_{0}$ & $N_{\rm f}$ & $\langle M_{\rm f} \rangle$/$M_{\odot}$ & $\langle M_{\rm f} \rangle$/$M_{\odot}$ \\
 \hline \noalign{\smallskip}
$10^{0}$	& $10^{-1}$	& 8	& 2810.5	& 746.9, 1658.2, 2221.0, 3067.8, 3228.8, 3503.6, 3901.4, 4149.8\\
		& $10^{-2}$	& 5	& 5354.6	& 1818.4, 5505.1, 6238.3, 6363.6, 6847.7\\
		& $10^{-3}$	& 3	& 9363.1	& 6047.6, 7196.2, 14~845.5\\
		& $10^{-4}$	& 2	& 14~075.5	& 13~699.2, 14~451.8\\
		& $0$		& 2	& 14~218.3	& 7390.8, 21~045.8\\\noalign{\smallskip}
$10^{-1}$	& $10^{-1}$	& 7	& 2619.4	& 17.8, 1754.1, 2918.7, 3082.4, 3474.2, 3517.1, 3566.8\\
		& $10^{-2}$	& 4	& 6050.4	& 3824.5, 4782.9, 5971.7, 9586.6\\
		& $10^{-3}$	& 1	& 27~235.0	& No fragmentation\\
		& $10^{-4}$	& 1	& 27~849.9	& No fragmentation\\
		& $0$		& 1	& 27~693.8	& No fragmentation\\
\noalign{\smallskip}
$10^{-2}$	& $10^{-1}$	& 9\tablefootmark{*}	& 783.0		& 53.7, 134.0, 231.0, 256.7, 273.0, 598.4, 632.8, 1374.9, 3492.5\\
		& $10^{-2}$	& 1	& 23~935.9	& No fragmentation\\
		& $10^{-3}$	& 1	& 27~067.5	& No fragmentation\\
		& $10^{-4}$	& 1	& 27~795.2	& No fragmentation\\
		& $0$		& 1	& 28~178.1	& No fragmentation\\
\noalign{\smallskip}
$10^{-3}$	& $10^{-1}$	& 9\tablefootmark{*}	& 551.0		& 28.7, 167.2, 236.1, 308.2, 585.2, 711.1, 821.4, 1037.1, 1064.0\\
		& $10^{-2}$	& 1	& 24~624.6	& No fragmentation\\
		& $10^{-3}$	& 1	& 27~122.4	& No fragmentation\\
		& $10^{-4}$	& 1	& 27~821.3	& No fragmentation\\
		& $0$		& 1	& 28225.5	& No fragmentation\\
\hline
\end{tabular}
    \tablefoot{\tablefoottext{*}{The upper limits on the number of fragments.}}
\end{table}