Abstract
ABSTRACT The nucleus of our nearest, large galactic neighbour, M31, contains an eccentric nuclear disc – a disc of stars on eccentric, apsidally aligned orbits around a supermassive black hole (SMBH). Previous studies of eccentric nuclear discs considered only an isolated disc, and did not study their dynamics under galaxy mergers (particularly a perturbing SMBH). Here, we present the first study of how eccentric discs are affected by a galactic merger. We perform N-body simulations to study the disc under a range of different possible SMBH initial conditions. A second SMBH in the disc always disrupts it, but more distant SMBHs can shut off differential precession and stabilize the disc. This results in a more aligned disc, nearly uniform eccentricity profile, and suppression of tidal disruption events compared to the isolated disc. We also discuss implications of our work for the presence of a secondary SMBH in M31.
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