A Panchromatic Study of the X-ray Binary Population in NGC 300 on Sub-Galactic Scales

Abstract

The population-wide properties and demographics of extragalactic X-ray binaries (XRBs) correlate with the star formation rates (SFRs), stellar masses (M), and environmental factors (such as metallicity, Z) of their host galaxy. Although there is evidence that XRB scaling relations (LX/SFR for high mass XRBs [HMXBs] and LX/M for low mass XRBs [LMXBs]) may depend on metallicity and stellar age across large samples of XRB-hosting galaxies, disentangling the effects of metallicity and stellar age from stochastic effects, particularly on subgalactic scales, remains a challenge. We use archival X-ray through IR observations of the nearby galaxy NGC 300 to self-consistently model the broadband spectral energy distribution and examine radial trends in its XRB population. We measure a current (<100 Myr) SFR of 0.180.08 M yr-1 and M= (2.15+0.26-0.14)×109 M. Although we measure a metallicity gradient and radially resolved star formation histories that are consistent with the literature, there is a clear excess in the number of X-ray sources below 1037 erg s-1 that are likely a mix of variable XRBs and additional background AGN. When we compare the subgalactic LX/SFR ratios as a function of Z to the galaxy-integrated LX-SFR-Z relationships from the literature, we find that only the regions hosting the youngest (30 Myr) HMXBs agree with predictions, hinting at time evolution of the LX-SFR-Z relationship.

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