A Chandra Study of The Stellar X-ray Emissivity of Globular Clusters in M\,31 Bulge

Abstract

The X-ray emissivity (i.e., luminosity per unit stellar mass) of globular clusters are an important indicator of their dynamical evolution history. Based on deep archival Chandra observations, we report a stacking analysis of 44 globular clusters (GCs) with 0.5-8 keV luminosities L X 1035 ~erg~s-1 in the M\,31 bulge, which are supposed to be dominated by cataclysmic variables (CVs) and coronally active binaries (ABs). We obtain a significant detection at 5σ level in 0.5-8 keV band. The average X-ray luminosity per GC and the average X-ray emissivity are determined to be 5.3 1.6×1033~erg~s-1 and 13.24.3×1027~erg~ s-1~M-1, respectively. Both of these values are consistent with those of MW GCs. What's more, the measured emissivity of M31 GCs is also consistent with that of the MW field stars. Massive GCs have X-ray luminosities which are marginally higher with less massive ones. Massive GCs also show a lower emissivity (4.5 2.4×1027~erg~s-1~M-1) than less massive ones (15.0 7.8×1027~erg~s-1~M-1), which is consistent with the scenario that the (progenitors of) CVs and ABs were more efficiently destructed via stellar encounters in the more massive GCs. No dependence of the X-ray emissivity on GC color or on the projected galactocentric distance of GCs were found.