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Martin, G,Kaviraj, S,Volonteri, M,Simmons, B D,Devriendt, J E G,Lintott, C J,Smethurst, R J,Dubois, Y,Pichon, C Oxford University Press 2018 MONTHLY NOTICES- ROYAL ASTRONOMICAL SOCIETY Vol.476 No.2
<P>Understanding the processes that drive the formation of black holes (BHs) is a key topic in observational cosmology. While the observed M-BH-M-Bulge correlation in bulge-dominated galaxies is thought to be produced by major mergers, the existence of an M-BH-M star relation, across all galaxy morphological types, suggests that BHs may be largely built by secular processes. Recent evidence that bulge-less galaxies, which are unlikely to have had significant mergers, are offset from the M-BH-M-Bulge relation, but lie on the MBH-M star relation, has strengthened this hypothesis. Nevertheless, the small size and heterogeneity of current data sets, coupled with the difficulty in measuring precise BH masses, make it challenging to address this issue using empirical studies alone. Here, we use Horizon-AGN, a cosmological hydrodynamical simulation to probe the role of mergers in BH growth over cosmic time. We show that (1) as suggested by observations, simulated bulge-less galaxies lie offset from the main MBH-MBulge relation, but on the M-BH-M star relation, (2) the positions of galaxies on the M-BH-M star relation are not affected by their merger histories, and (3) only similar to 35 per cent of the BH mass in today's massive galaxies is directly attributable to merging - the majority (similar to 65 per cent) of BH growth, therefore, takes place gradually, via secular processes, over cosmic time.</P>