Luminosity functions of X-ray binaries and the dynamical history of their host galaxies
Abstract
The X-ray sources observed in nearby galaxies show brightness distributions (log(N(>S))--log(S) curves) which can be described as single or broken power laws. Single power-law distributions are often found for sources in galaxies with vigorous ongoing star-formation activity, while broken power laws are found in elliptical galaxies and in bulges of spiral galaxies. The luminosity break can be caused by a population of X-ray binaries which contain a neutron star accreting at the Eddington limit or by aging of the X-ray binary population. We show that a simple birth-death model can reproduce single and broken power-law log(N(>S))--log(S) curves. We have found that power-law log(N(>S))--log(S) curves are a consequence of smooth continuous formation of X-ray binaries and a luminosity break is the signature of a starburst episode in the recent past. The luminosity break is robust and is determined by the lifespans of the X-ray binaries relative to the look-back time to the starburst epoch. The model successfully explains the different forms of log(N(>S))--log(S) curves for the disk and bulge sources in the spiral galaxy M81.
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