Relativistic Outflows form Active Galactic Nuclei

Abstract

The current popular model for launching, accelerating and collimating astrophysical jets is based on magnetohydrodynamics (MHD). AGN jets are most probably powered by energy extracted from either an accretion disk or a rapidly rotating Black Hole. Some progress in understanding accretion processes for rotating Black Holes has been made: standard disks are truncated at some radius depending on the accretion rate so that disk outflows are driven by the inner hot advective disk. Slow outflows are the norm when the magnetorotational instability is at work for the case of weak fields. In order to achieve Lorentz factors of about 10, strong large-scale magnetic fields must thread the Black Hole's ergosphere. The production of relativistic outflows is then understood within stationary MHD models. In the collimated region, the electrons are boosted to a non-thermal relativistic distribution, which is the basis of all observations.

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