中文

Convection-Dominated Accretion Flows

天体物理学 2009-10-31 v2

摘要

Non-radiating, advection-dominated, accretion flows are convectively unstable. We calculate the two-dimensional (r-theta) structure of such flows assuming that (1) convection transports angular momentum inwards, opposite to normal viscosity and (2) viscous transport by other mechanisms (e.g., magnetic fields) is weak (alpha << 1). Under such conditions convection dominates the dynamics of the accretion flow and leads to a steady state structure that is marginally stable to convection. We show that the marginally stable flow has a constant temperature and rotational velocity on spherical shells, a net flux of energy from small to large radii, zero net accretion rate, and a radial density profile proportional to r^{-1/2}, flatter than the r^{-3/2} profile characteristic of spherical accretion flows. This solution accurately describes the full two-dimensional structure of recent axisymmetric numerical simulations of advection-dominated accretion flows.

关键词

引用

@article{arxiv.astro-ph/9912440,
  title  = {Convection-Dominated Accretion Flows},
  author = {Eliot Quataert and Andrei Gruzinov},
  journal= {arXiv preprint arXiv:astro-ph/9912440},
  year   = {2009}
}

备注

final version accepted by ApJ; discussion expanded, references added