Astronomy and Astrophysics – Astrophysics
Scientific paper
2002-11-28
Astrophys.J. 582 (2003) 869-892
Astronomy and Astrophysics
Astrophysics
49 pages with 22 figures, Accepted for ApJ, January 2003 high res. figures at: http://www.mpia.de/homes/klahr
Scientific paper
10.1086/344743
In this paper we present the global baroclinic instability as a source for vigorous turbulence leading to angular momentum transport in Keplerian accretion disks. We show by analytical considerations and three-dimensional radiation hydro simulations that, in particular, protoplanetary disks have a negative radial entropy gradient, which makes them baroclinic. Two-dimensional numerical simulations show that a baroclinic flow is unstable and produces turbulence. These findings are tested for numerical effects by performing a simulation with a barotropic initial condition which shows that imposed turbulence rapidly decays. The turbulence in baroclinic disks transports angular momentum outward and creates a radially inward bound accretion of matter. Potential energy is released and excess kinetic energy is dissipated. Finally the reheating of the gas supports the radial entropy gradient, forming a self consistent process. We measure accretion rates in our 2D and 3D simulations of dotM= - 1E-9 - 1E-7 Msun/yr and viscosity parameters of alpha = 1E-4 - 1E-2, which fit perfectly together and agree reasonably with observations. The turbulence creates pressure waves, Rossby waves, and vortices in the R-phi plane of the disk. We demonstrate in a global simulation that these vortices tend to form out of little background noise and to be long-lasting features, which have already been suggested to lead to the formation of planets.
Bodenheimer Peter
Klahr Hubert
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