Astronomy and Astrophysics – Astrophysics
Scientific paper
2007-03-29
Astrophys.J.665:107-119,2007; Astrophys.J.665:120-156,2007
Astronomy and Astrophysics
Astrophysics
13 pages and figures, ApJ accepted
Scientific paper
10.1086/519235 10.1086/519298
We investigate the physical conditions for the growth of intermediate mass seed black holes assumed to have formed from remnants of the first generation of massive stars. We follow the collapse of high-sigma halos with Tvir > 1e4 K using cosmological, smooth-particle hydrodynamic (SPH) simulations in the standard LCDM model. During collapse of the parent halo the seed holes are incorporated through mergers into larger systems and accrete mass from the surrounding gas. We include a self-consistent treatment of star formation, black hole accretion and associated feedback processes. Even under optimistic assumptions for the seed black hole mass and for efficient merger rates, we find that seed holes in halos M<1e10 Msun never reach the conditions for critical Eddington growth. Most of the black hole growth in this regime is determined by the initial mass and the merger rates. Critical accretion rates are reached, albeit only after a significant delay, at the time of collapse z~7) for 3-4 sigma halos of M~1e11 Msun. Our results imply M_BH = 5e6 Msun (M_halo/1e11 Msun)^0.78 at the time of collapse. The required conditions of Eddington growth to explain the build-up of supermassive black holes (~1e9 Msun), as implied by Sloan quasars at z>6, are therefore hard to meet in such a scenario. Without a 'jump-start' these conditions may be only achieved in extremely rare halos with M_halo > 1e13 Msun that collapsed before z~6. The sub-Eddington regime in which black holes holes accrete at early time implies a small contribution to the reionization by miniquasar but still sufficient to cause appreciable heating of the IGM at z<15-18.
Ciardi Benedetta
Di Matteo Tiziana
Pelupessy Federico I.
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