Properties of intra-cluster low-mass X-ray binaries in Fornax globular clusters

TL;DR

This study characterizes the properties of intra-cluster low-mass X-ray binaries in Fornax globular clusters, revealing differences in their luminosity functions and spectral hardness compared to galaxy-hosted counterparts, and exploring their dependence on cluster color and location.

Contribution

It provides the first comparative analysis of intra-cluster and galaxy-hosted GC-LMXBs in Fornax, highlighting differences in their X-ray properties and spatial distributions.

Findings

Intra-cluster GC-LMXBs follow a power-law luminosity function similar to field LMXBs.

Intra-cluster GC-LMXBs tend to have harder X-ray spectra than galaxy-hosted ones.

The likelihood of red GCs hosting LMXBs decreases with galactocentric distance.

Abstract

We present a study of the intra-cluster population of low-mass X-ray binaries (LMXB) residing in globular clusters (GC) in the central 1 $deg^2$ of the Fornax galaxy cluster. Differently from previous studies, which were restricted to the innermost regions of individual galaxies, this work is aimed at comparing the properties of the intra-cluster population of GC-LMXBs with those of the host galaxy. We use VLT Survey Telescope (VST) and Chandra observations. We identify 168 LMXBs residing in GCs and divide it into host-galaxy and intra-cluster objects based on their distance from the nearest galaxy in terms of effective radius. We found 82 intra-cluster GC-LMXBs and 86 objects that are hosted in galaxies. We perform a Gaussian mixture model to divide the population into red and blue GCs. As has been found for the innermost regions of galaxies, LMXBs tend to form in red and bright GCs in intra-cluster space as well. We find, however, that the likelihood of a red GC to host an LMXB decreases with galactocentric distance, but it remains approximately constant for the blue GC population. Investigating the X-ray properties of the LMXBs residing in GCs, we find a difference in the X-ray luminosity function between the intra-cluster and host-galaxy sample: both follow a power-law down to $\sim 8.5\times 10^{37}$ erg s$^{-1}$, which is consistent with field LMXBs for the intra-cluster sample, while the latter agree with previous estimates for LMXBs in GCs. We detect a tentative difference in the hardness ratio of two populations, where the intra-cluster GC-LMXBs appear to have harder spectra than the host-galaxy objects. We find the same trend when we compare red and blue GC-LMXBs: the spectra of the blue sample are harder spectra than those of the red sample. This result could suggest a relation between the spectral properties of LMXBs and the host GC colour and therefore its metallicity.