Péridier Library Abstract Archive

Abstract No. UT 351

Title: The Variability of Active Galactic Nuclei and the Radial Transport of Vertical Magnetic Flux
Author(s): Seok Jae Park and Ethan T. Vishniac
Keywords: black holes, galaxies: active, MHD
E-Mail: Ethan T. Vishniac (to request a full copy of this paper)
Preprint: 9602133 Document source or PostScript
Release date: 02/27/96 12:39:15
Publication status: Astrophysical Journal, in press
Comments: 15 pages, 0 figures

We consider the radial buoyancy of vertical magnetic field lines in radiation and gas pressure dominated accretion disks. We find that in addition to radial drift driven by turbulent diffusion and biased by the global field geometry, there are buoyancy effects which tend to move magnetic flux outward. In gas pressure dominated disks the poloidal magnetic field will move outward at a rate comparable to its inward advection. On the other hand, in a radiation pressure dominated disk the poloidal magnetic field will usually move outward faster than it is advected inward. This implies that the fields in disks in active galactic nuclei are generated at small radii by an internal disk dynamo and that variations in the mass transfer rate will lead directly to a modulation of the nonthermal emission from the disk.