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The Erratic Path to Coalescence of LISA Massive Black Hole Binaries in Subparsec-resolution Simulations of Smooth Circumnuclear Gas Disks

Rafael Souza Lima, Lucio Mayer, Pedro R. Capelo, Elisa Bortolas, Thomas Quinn

2020The Astrophysical Journal26 citationsDOIOpen Access PDF

Abstract

Abstract We perform high-resolution simulations to follow the orbital decay of 5 × 10 5 and 10 7 M ⊙ massive black hole (MBH) pairs embedded in a circumnuclear gas disk (CND), from the CND scale (100 pc) down to 0.1–0.01 pc, the scale at which a circumbinary disk (CBD) could form. The MBHs’ erratic orbital evolution is characterized by three stages: (i) a slow initial decay that leads to some circularization; (ii) a fast-migration phase, analogous to type III migration for massive planets in protoplanetary disks, in which angular momentum is efficiently drained by disk-driven torques arising from the co-orbital region of the secondary MBH, at a distance of 1–3 Hill radii; and (iii) a very slow decay phase, in which orbital angular momentum can even increase. In this last stage, a CBD forms when the parsec-scale decay rate becomes small enough to allow sufficient time for a cavity to be carved. When this happens, the MBH separation nearly stalls in our higher-resolution run. We suggest an empirically modified gap-opening criterion that takes into account such timescale effects, as well as other deviations from standard assumptions. Interestingly, a CBD does not form in the lower-resolution runs, resulting in a faster subparsec decay. Our findings show that the subparsec MBH pairing in gaseous disks is a stochastic and fragile process. Additional mechanisms, such as the stellar-driven hardening, may be necessary to guarantee that the gravitational wave emission phase is entered and the MBHs become accessible to future detectors such as the Laser Interferometer Space Antenna.

Topics & Concepts

PhysicsOrbital decayAstrophysicsAngular momentumProtoplanetary diskBlack hole (networking)Coalescence (physics)Scale heightAstronomyPlanetClassical mechanicsRouting protocolSatelliteRouting (electronic design automation)Computer networkComputer scienceLink-state routing protocolAstrophysical Phenomena and ObservationsAstrophysics and Star Formation StudiesGalaxies: Formation, Evolution, Phenomena
The Erratic Path to Coalescence of LISA Massive Black Hole Binaries in Subparsec-resolution Simulations of Smooth Circumnuclear Gas Disks | Litcius