Radiation Magnetohydrodynamic Simulation of Sub-Eddington Circumbinary Disk around an Equal-mass Massive Black Hole Binary

Radiation Magnetohydrodynamic Simulation of Sub-Eddington Circumbinary Disk around an Equal-mass Massive Black Hole Binary

We present the first three-dimensional radiation magnetohydrodynamic (RMHD) simulation of a sub-Eddington circumbinary disk (CBD) around an equal-mass massive black hole binary with a total mass of 2 × 10 ^7 M _⊙ on a circular orbit, separated by 100 GM _tot / c ^2 . The inclusion of radiation leads...

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Bibliographic Details
Main Authors: Vishal Tiwari, Chi-Ho Chan, Tamara Bogdanović, Yan-Fei Jiang, Shane W. Davis, Simon Ferrel
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:The Astrophysical Journal
Subjects:
Radiative magnetohydrodynamics
Supermassive black holes
Gravitational wave sources
Accretion
Black hole physics
Gravitation
Online Access:https://doi.org/10.3847/1538-4357/add408
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Summary:We present the first three-dimensional radiation magnetohydrodynamic (RMHD) simulation of a sub-Eddington circumbinary disk (CBD) around an equal-mass massive black hole binary with a total mass of 2 × 10 ^7 M _⊙ on a circular orbit, separated by 100 GM _tot / c ^2 . The inclusion of radiation leads to a denser, thinner, and more filamentary disk compared to nonradiative magnetohydrodynamic simulation, primarily due to reduced pressure support and an altered equation of state. The RMHD disk also features ∼3 times lower accretion rate ( $\approx 0.15\,{\dot{M}}_{{\rm{Edd}}}$ ), weaker accretion streams, and a less pronounced overdensity (a.k.a., “lump”) at the inner edge. Our analysis of the light curves and thermal spectra reveals that the variability induced by the binary–CBD interaction is distinguishable in the optical/UV band, where CBD shines at about 1% of the Eddington luminosity. These findings underscore the crucial role of radiation on the structure and observational properties of CBDs around massive black hole binaries and have implications for detecting electromagnetic counterparts to Laser Interferometer Space Antenna gravitational-wave precursors, and for heavier binaries that are Pulsar Timing Array sources.
ISSN:1538-4357

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