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Main Authors: Jordan, Lucas M., Wehner, Dennis, Kuiper, Rolf
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2407.16610
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author Jordan, Lucas M.
Wehner, Dennis
Kuiper, Rolf
author_facet Jordan, Lucas M.
Wehner, Dennis
Kuiper, Rolf
contents Previous simulations of cataclysmic variables studied either the quiescence, or the outburst state in multiple dimensions or they simulated complete outburst cycles in one dimension using simplified models for the gravitational torques. We self-consistently simulate complete outburst cycles of normal and superoutbursts in cataclysmic variable systems in two dimensions. We study the effect of different $α$ viscosity parameters, mass transfer rates, and binary mass ratios on the disk luminosities, outburst occurrence rates, and superhumps. We simulate non-isothermal, viscous accretion disks in cataclysmic variable systems using a modified version of the FARGO code with an updated equation of state and a cooling function designed to reproduce s-curve behavior. Our simulations can model complete outburst cycles using the thermal tidal instability model. We find higher superhump amplitudes and stronger gravitational torques than previous studies, resulting in better agreement with observations.
format Preprint
id arxiv_https___arxiv_org_abs_2407_16610
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Two-dimensional simulations of disks in close binaries: Simulating outburst cycles in cataclysmic variables
Jordan, Lucas M.
Wehner, Dennis
Kuiper, Rolf
High Energy Astrophysical Phenomena
Previous simulations of cataclysmic variables studied either the quiescence, or the outburst state in multiple dimensions or they simulated complete outburst cycles in one dimension using simplified models for the gravitational torques. We self-consistently simulate complete outburst cycles of normal and superoutbursts in cataclysmic variable systems in two dimensions. We study the effect of different $α$ viscosity parameters, mass transfer rates, and binary mass ratios on the disk luminosities, outburst occurrence rates, and superhumps. We simulate non-isothermal, viscous accretion disks in cataclysmic variable systems using a modified version of the FARGO code with an updated equation of state and a cooling function designed to reproduce s-curve behavior. Our simulations can model complete outburst cycles using the thermal tidal instability model. We find higher superhump amplitudes and stronger gravitational torques than previous studies, resulting in better agreement with observations.
title Two-dimensional simulations of disks in close binaries: Simulating outburst cycles in cataclysmic variables
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2407.16610