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Analytical and Numerical Analysis of Circumbinary Disk Dynamics. I. Coplanar Systems

We present an analytical and numerical study of a system composed of a stellar binary pair and a massless, locally isothermal viscous accretion disk that is coplanar to the binary orbital plane. Analytically, we study the effect of the binary’s gravitational potential over short timescales through t...

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Published in:	The Astrophysical journal 2024-09, Vol.973 (1), p.18
Main Authors:	Mahesh, Siddharth, McWilliams, Sean T., Pirog, Michal
Format:	Article
Language:	English
Subjects:	Accretion Astrophysical black holes Astrophysical fluid dynamics Circumstellar disks Computational methods Orbital resonances Orbital theory
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creator	Mahesh, Siddharth McWilliams, Sean T. Pirog, Michal
description	We present an analytical and numerical study of a system composed of a stellar binary pair and a massless, locally isothermal viscous accretion disk that is coplanar to the binary orbital plane. Analytically, we study the effect of the binary’s gravitational potential over short timescales through the stability of epicyclic orbits, and over long timescales by revisiting the concept of resonant torques. Numerically, we perform two-dimensional Newtonian simulations of the disk-binary system over a range of binary mass ratios. We find that the results of our simulations are consistent with those of previous numerical studies. We additionally show, by comparison of the analytical and numerical results, that the circumbinary gap is maintained on the orbital timescale through the driving of epicyclic instabilities, and does not depend on resonant torquing, contrary to the standard lore. While our results are applicable to any disk-binary system, we highlight the importance of this result in the search for electromagnetic and gravitational-wave signatures from supermassive black hole binaries.
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subjects	Accretion Astrophysical black holes Astrophysical fluid dynamics Circumstellar disks Computational methods Orbital resonances Orbital theory
title	Analytical and Numerical Analysis of Circumbinary Disk Dynamics. I. Coplanar Systems
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