Magnetically Arrested Disk: An Energetically Efficient Accretion Flow
Abstract
We consider an accretion flow model originally proposed by Bisnovatyi-Kogan & Ruzmaikin (1974), which has been confirmed in recent 3D MHD simulations. In the model, the accreting gas drags in a strong poloidal magnetic field to the center such that the accumulated field disrupts the axisymmetric accretion flow at a relatively large radius. Inside the disruption radius, the gas accretes as discrete blobs or streams with a velocity much less than the free-fall velocity. Almost the entire rest mass energy of the gas is released as heat, radiation and mechanical/magnetic energy. Even for a non-rotating black hole, the efficiency of converting mass to energy is of order 50% or higher. The model is thus a practical analog of an idealized engine proposed by Geroch and Bekenstein.
Keywords
Cite
@article{arxiv.astro-ph/0305029,
title = {Magnetically Arrested Disk: An Energetically Efficient Accretion Flow},
author = {Ramesh Narayan and Igor V. Igumenshchev and Marek A. Abramowicz},
journal= {arXiv preprint arXiv:astro-ph/0305029},
year = {2015}
}
Comments
4 pages, 2 figure, new refs added, in print in PASJ