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      The evolution of a binary in a retrograde circular orbit embedded in an accretion disk

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          Abstract

          Supermassive black hole binaries may form as a consequence of galaxy mergers. Both prograde and retrograde orbits have been proposed. We study a binary of a small mass ratio, q, in a retrograde orbit immersed in and interacting with a gaseous accretion disk in order to estimate time scales for inward migration leading to coalescence and the accretion rate to the secondary component. We employ both semi-analytic methods and two dimensional numerical simulations, focusing on the case where the binary mass ratio is small but large enough to significantly perturb the disk. We develop the theory of type I migration for this case and determine conditions for gap formation finding that then inward migration occurs on a time scale equal to the time required for one half of the secondary mass to be accreted through the unperturbed disk, with accretion onto the secondary playing only a minor role. The semi-analytic and fully numerical approaches are in good agreement, the former being applicable over long time scales. Inward migration induced by interaction with the disk alleviates the final parsec problem. Accretion onto the secondary does not significantly affect the orbital evolution, but may have observational consequences for high accretion efficiency. The binary may then appear as two sources of radiation rotating around each other. This study should be extended to consider orbits with significant eccentricity and the effects of gravitational radiation at small length scales. Note too that torques acting between a circumbinary disk and a retrograde binary orbit may cause the mutual inclination to increase on a timescale that can be similar to, or smaller than that for orbital evolution, depending on detailed parameters. This is also an aspect for future study (abridged).

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          CONSTANT ELECTROMAGNETIC FIELDS

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            Author and article information

            Journal
            13 October 2014
            Article
            10.1051/0004-6361/201424359
            1410.3250
            6c95bac2-63f4-4296-b42a-4187feee0357

            http://arxiv.org/licenses/nonexclusive-distrib/1.0/

            History
            Custom metadata
            A&A 576, A29 (2015)
            24 pages, 18 figures, accepted for publication in A&A. For movies of the simulations see http://astro.qmul.ac.uk/people/sijme-jan-paardekooper/publications
            astro-ph.HE

            High energy astrophysical phenomena
            High energy astrophysical phenomena

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