The contribution of X-ray binaries to the evolution of late-type galaxies: Evolutionary population synthesis simulations

Abstract

X-ray studies of normal late-type galaxies have shown that non-nuclear X-ray emission is typically dominated by X-ray binaries, and provides a useful measure of star formation activity. We have modeled the X-ray evolution of late-type galaxies over the 14 Gyr of cosmic history, with an evolutionary population synthesis code developed by Hurley et al. Our calculations reveal a decrease of the X-ray luminosity-to-mass ratio L X/M with time, in agreement with observations (Fig.~7a). We show that this decrease is a natural consequence of stellar and binary evolution and mass accumulating process in galaxies. The X-ray-to-optical luminosity ratio L X/L B is found to be fairly constant (around 1030 erg\,s-1L B,-1, Fig.~7b), and insensitive to the star formation history in the galaxies. The nearly constant value of L X/L B is in conflict with the observed increase in L X/L B from z=0 to 1.4. The discrepancy may be caused by intense obscured star formation activity that leads to nonlinear relationship between X-ray and B-band emission.