\begin{table}%t3 %\centering {\small \caption {{\label{scaling}Scaling parameters of NGC~6266, 47~Tuc, M~28, M~4, M~71, NGC~6366, M~55, and NGC~288.}} \begin{tabular}{lccccc cccccc} \hline \hline \noalign{\smallskip} (1) & (2) & (3) & (4) & (5) & (6) & (7) & (8) & (9) & (10) & (11) & (12) \\ Cluster & log $\rho_0$ & $r_{\rm c}$ & $d$ & $M_{\rm V}$ & $\Gamma$ & $M_{\rm h}$ & Source & Background & Member & IDs. & Reference\tablefootmark{a} \\ & ($L_\odot ~{\rm pc}^{-3}$) & (\arcsec) & (kpc) &&&&&&&&\\ \hline NGC~6266 & 5.14 & 10.8 & 6.9 & $-$9.19 & 37.07 & 8.24 & 51 & 2--3 & 48--49 & 2\tablefootmark{c} & 1, 2, 3 \\ 47~Tuc & 4.81 & 24.0 & 4.5 & $-$9.4 & 24.91 & 10.0 & 79 & $\sim$16 & $63\pm4$ & 53-63 & 4 \\ M~28 & 4.75 & 14.4 & 5.6 & $-$8.33 & 11.29 & 3.73 & 26 & 2--3 & 23--24 & 2\tablefootmark{c} & 1, 5 \\ M~4 & 4.01 & 49.8 & 1.73 & $-$6.9 & 1.0 & 1.0 & 6 & 1--3 & 3--5 & 5 & 1, 6 \\ M~71 & 3.05 & 37.8 & 4.0 & $-$5.6 & 0.11 & 0.30 & 14 & 1--7 & 10~$\pm$~3 & 4--9 & 7 \\ NGC~6366 & 2.42 & 109.8 & 3.6 & $-$5.77 & 0.08 & 0.33 & 5 & 2--5 & $1^{+2}_{-1}$ & $\sim$1 & 8 \\ M~55 & 2.15 & 169.8 & 5.3 & $-$7.6 & 0.18 & 1.82 & 16 & 5--12 & $8^{+3}_{-4}$ & 2--4 & 8 \\ NGC~288\tablefootmark{b} & 1.80 & 85.0 & 8.4 & $-$6.7 & 0.03 & 0.83 & 11 & 4-11 & $4^{+3}_{-4}$ & 2-5 & 9 \\ \hline \end{tabular}} \par \tablefoot {Columns~2--5 give the values for central density ($\rho_0$), core-radius ($r_{\rm c}$), distance ($d$), and absolute visual magnitude ($M_{\rm V}$) come from \citet[ version of February 2003]{1996harris}. For M~4, the values of $\rho_0$ and $M_{\rm V}$ are computed for the distance and reddening of Richer et~al.~(1997). Columns~6 and~7 are the collision number, which is computed from $\Gamma \equiv \rho_0^{1.5}\ r_{\rm c}^2$ and the half mass from $M_{\rm h} \propto 10^{-0.4M_V}$ \citep{2006kong}. Values for $\Gamma$ and $M_{\rm h}$ are normalized to the value of M~4. Column~8 shows the total number of sources detected within the half-mass radius. Column~9 is the number of expected fore/background sources. Column~10 gives the number of expected cluster members plus error. Column~11 shows the number of X-ray sources (with $L_{\rm X,0.5{-}6.0~keV} > 4\times10^{30}$~erg~s$^{-1}$) which have optical or/and radio counterparts associated with the cluster, or spectrally confirmed qLMXBs. The last column gives the reference paper. These globular clusters are ordered on the central density. \\ \noindent \tablefoottext{a}{For each cluster, the basic data for this table were extracted from: 1. \citet{2003pooley}; 2. \citet{2008cocozza}; 3. \citet{2007trepl}; 4. \citet{2005heinke}; 5. \citet{2003becker}; 6. \citet{2004bassa}; 7. this work; 8. \citet{2008bassa}; 9. \citet{2006kong}.} \tablefoottext{b}{NGC~288 was not observed long enough to reach this luminosity limit of $L_{\rm X} \sim 4.0 \times 10^{30}$ erg~s$^{-1}$ in the 0.5--6.0~keV range. Its limiting luminosity is $\sim$$ 5.7 \times 10^{30}$~erg~s$^{-1}$. However, we keep this cluster's data, as a lower limit, since we have so few constraints on low-density clusters.} \tablefoottext{c}{No information about the optical counterparts to X-ray sources.}} \end{table}