The origin of the Ultraluminous X-ray Sources

Abstract

Recently, several ultraluminous X-ray (ULX) sources were shown to host a neutron star (NS) accretor. We perform a suite of evolutionary calculations which show that, in fact, NSs are the dominant type of ULX accretor. Although black holes (BH) dominate early epochs after the star-formation burst, NSs outweigh them after a few 100 Myr and may appear as late as a few Gyr after the end of the star formation episode. If star formation is a prolonged and continuous event (i.e., not a relatively short burst), NS accretors dominate ULX population at any time in solar metallicity environment, whereas BH accretors dominate when the metallicity is sub-solar. Our results show a very clear (and testable) relation between the companion/donor evolutionary stage and the age of the system. A typical NS ULX consists of a 1.3\,M NS and 1.0\,M Red Giant. A typical BH ULX consist of a 8\,M BH and 6\,M main-sequence star. Additionally, we find that the very luminous ULXs (LX1041 erg/s) are predominantly BH systems (9\,M) with Hertzsprung gap donors (2\,M). Nevertheless, some NS ULX systems may also reach extremely high X-ray luminosities (1041 erg/s).