Internal structure of a thin transonic disk

Abstract

The internal structure of the thin transonic disk accreting onto a nonrotating black hole inside the last stable orbit (r < 3r g) is considered within the hydrodynamical version of the Grad-Shafranov equation. It is shown that in the vicinity of the sonic surface takes place a sharp diminishing of the disk thickness. As a result, in the vertical balance equation the dynamical forces ρ[( v∇) v]θ become important, these on the sonic surface being of the same order as the pressure gradient ∇θ P. In the supersonic region the thickness of the disk is determined by the form of ballistic trajectories rather than by the pressure gradient.

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