The evolution of Black Hole scaling relations in galaxy mergers

Abstract

We study the evolution of black holes (BHs) on the MBH-sigma and MBH-Mbulge planes as a function of time in disk galaxies undergoing mergers. We begin the simulations with the progenitor black hole masses being initially below (Delta log MBH=-2), on (Delta log MBH=0) and above (Delta log MBH=0.5) the observed local relations. The final relations are rapidly established after the final coalescense of the galaxies and their BHs. Progenitors with low initial gas fractions (fgas=0.2) starting below the relations evolve onto the relations (Delta log MBH=-0.18), progenitors on the relations stay there (Delta log MBH=0) and finally progenitors above the relations evolve towards the relations, but still remaining above them (Delta log MBH=0.35). Mergers in which the progenitors have high initial gas fractions (fgas=0.8) evolve above the relations in all cases (Delta log MBH=0.5). We find that the initial gas fraction is the prime source of scatter in the observed relations, dominating over the scatter arising from the evolutionary stage of the merger remnants. The fact that BHs starting above the relations do not evolve onto the relations, indicates that our simulations rule out the scenario in which overmassive BHs evolve onto the relations through gas-rich mergers. By implication our simulations thus disfavor the picture in which supermassive BHs develop significantly before their parent bulges.