Secular instability in quasi-viscous disc accretion
arXiv:astro-ph/0703304 · doi:10.1086/521042
Abstract
A first-order correction in the $α$-viscosity parameter of Shakura and Sunyaev has been introduced in the standard inviscid and thin accretion disc. A linearised time-dependent perturbative study of the stationary solutions of this "quasi-viscous" disc leads to the development of a secular instability on large spatial scales. This qualitative feature is equally manifest for two different types of perturbative treatment -- a standing wave on subsonic scales, as well as a radially propagating wave. Stability of the flow is restored when viscosity disappears.
15 pages, 2 figures, AASTeX. Added some new material and upgraded the reference list