Institute for Advanced Study Informal Astrophysics Seminar
General Relativistic Magnetohydrodynamic Accretion Disks: Simulations and Theory
Standard accretion disk models fold the physics of magnetic fields and
turbulence into a constant viscosity parameter, alpha. Applications such
as black hole spin measurements can be sensitive to the details of
magnetic fields and turbulence, so more realistic disk models are needed.
I will present simulations of three-dimensional, magnetohydrodynamic
accretion disks in the Kerr metric for a range of black hole spins and
disk thicknesses. I will discuss models extending standard disk theory
based on insights from the simulations. I have found an analytical,
relativistic thin disk solution with a more realistic inner boundary
condition than the standard Novikov and Thorne solution. I will emphasize
recent results for the dependence of the alpha-viscosity parameter on
radius and a one-dimensional model that captures the shape of alpha(r). I
will discuss the impact of these developments on black hole spin
measurements.
Date & Time
September 13, 2012 | 11:00am – 12:00pm
Location
Bloomberg Hall, Astrophysics LibrarySpeakers
Affiliation
Harvard-Smithsonian Center for Astrophysics