English

Circumbinary discs: Numerical and physical behaviour

Earth and Planetary Astrophysics 2018-06-14 v2

Abstract

We study the evolution of circumbinary disks under the gravitational influence of the binary using two-dimensional hydrodynamical simulations to investigate the impact of disk and binary parameters on the dynamical aspects of the disk. To distinguish between physical and numerical effects we apply three hydrodynamical codes. First we analyse in detail numerical issues concerning the conditions at the boundaries and grid resolution. We then perform a series of simulations with different binary (eccentricity, mass ratio) and disk parameters (viscosity, aspect ratio) starting from a reference model with Kepler-16 parameters. Concerning the numerical aspects we find that the inner grid radius must be of the order of the binary semi-major axis, with free outflow conditions applied such that mass can flow onto the central binary. A closed inner boundary leads to unstable evolutions. We find that the inner disk turns eccentric and precesses for all investigated physical parameters. The precession rate is slow with periods (TprecT_\mathrm{prec}) starting at around 500 binary orbits (TbinT_\mathrm{bin}) for high viscosity and large H/RH/R where the inner hole is smaller and more circular. Reducing α\alpha and H/RH/R increases the gap size and TprecT_\mathrm{prec} reaches 2500 TbinT_\mathrm{bin}. For varying binary mass ratios qbinq_\mathrm{bin} the gap size remains constant whereas TprecT_\mathrm{prec} decreases for increasing qbinq_\mathrm{bin}. For varying binary eccentricities ebine_\mathrm{bin} we find two separate branches in the gap size and eccentricity diagram. The bifurcation occurs at around ecrit0.18e_\mathrm{crit} \approx 0.18 where the gap is smallest with the shortest TprecT_\mathrm{prec}. For ebine_\mathrm{bin} smaller and larger than ecrite_\mathrm{crit} the gap size and TprecT_\mathrm{prec} increase. Circular binaries create the most eccentric disks.

Keywords

Cite

@article{arxiv.1704.08130,
  title  = {Circumbinary discs: Numerical and physical behaviour},
  author = {Daniel Thun and Wilhelm Kley and Giovanni Picogna},
  journal= {arXiv preprint arXiv:1704.08130},
  year   = {2018}
}

Comments

20 pages, 25 figures, published in A&A, language edited version

R2 v1 2026-06-22T19:28:30.176Z