SPH Simulations of Accretion Disks and Narrow Rings
S.T.Maddison, J.R.Murray & J.J.Monaghan
Abstract
We model a massless viscous disk using Smoothed Particle Hydrodynamics
(SPH) and note that it evolves according to the Lynden-Bell & Pringle
theory (1974) until a non-axisymmetric instability develops at the
inner edge of the disk. This instability may have the same origin as
the instability of initially axisymmetric viscous disks discussed by
Lyubarskij et al. (1994). To clarify the evolution we evolved single
and double rings of particles. It is actually inconsistent with the
SPH scheme to set up a single ring as an initial condition because SPH
assumes a smoothed initial state. As would be expected from an SPH
simulation, the ring rapidly breaks up into a band. We analyse the
stability of the ring and show that the predictions are confirmed by the
simulation.
smaddison@swin.edu.au
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