High mass X-ray binaries as progenitors of gravitational wave sources
2018
X-ray binaries with black hole (BH) accretors and massive star donors at short orbital periods of a few days can evolve into close binary BH systems (BBH) that merge within the Hubble time through stable mass transfer evolution. From observational point of view, upon the Roche-lobe overflow, such systems will most likely appear as ultra-luminous X-ray sources (ULXs). To study this connection, we compute the mass transfer phase in systems with BH accretors and massive star donors ($M > 15 \,M_\odot$) at various orbital separations and metallicities using the MESA stellar evolution code. In the case of core-hydrogen and core-helium burning donors (cases A and C of mass transfer) we find the typical duration of super-Eddington mass transfer of up to $10^6$ and $10^5 \, \rm yr$ , with rates of $10^{-6}$ and $10^{-5} \,M_\odot \, \rm yr^{-1}$ , respectively. Given that roughly $0.5$ ULXs are found per unit of star formation rate ($\,M_\odot \, \rm yr^{-1}$), and assuming that $10\%$ of all the observed ULXs form merging BBH, we estimate the rate of BBH mergers from stable mass transfer evolution to be at most $10 {\rm ~Gpc}^{-3} {\rm ~yr}^{-1}$.
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