HYDROMAGNETICS OF ADVECTIVE ACCRETION FLOWS AROUND BLACK HOLES: REMOVAL OF ANGULAR MOMENTUM BY LARGE-SCALE MAGNETIC STRESSES


Autoria(s): Mukhopadhyay, Banibrata; Chatterjee, Koushik
Data(s)

2015

Resumo

We show that the removal of angular momentum is possible in the presence of large-scale magnetic stresses in geometrically thick, advective, sub-Keplerian accretion flows around black holes in steady state, in the complete absence of alpha-viscosity. The efficiency of such an angular momentum transfer could be equivalent to that of alpha-viscosity with alpha = 0.01-0.08. Nevertheless, the required field is well below its equipartition value, leading to a magnetically stable disk flow. This is essentially important in order to describe the hard spectral state of the sources when the flow is non/sub-Keplerian. We show in our simpler 1.5 dimensional, vertically averaged disk model that the larger the vertical-gradient of the azimuthal component of the magnetic field is, the stronger the rate of angular momentum transfer becomes, which in turn may lead to a faster rate of outflowing matter. Finding efficient angular momentum transfer in black hole disks via magnetic stresses alone, is very interesting when the generic origin of alpha-viscosity is still being explored.

Formato

application/pdf

Identificador

http://eprints.iisc.ernet.in/52248/1/Ast_Jou_807-1_43_2015.pdf

Mukhopadhyay, Banibrata and Chatterjee, Koushik (2015) HYDROMAGNETICS OF ADVECTIVE ACCRETION FLOWS AROUND BLACK HOLES: REMOVAL OF ANGULAR MOMENTUM BY LARGE-SCALE MAGNETIC STRESSES. In: ASTROPHYSICAL JOURNAL, 807 (1).

Publicador

IOP PUBLISHING LTD

Relação

http://dx.doi.org/10.1088/0004-637X/807/1/43

http://eprints.iisc.ernet.in/52248/

Palavras-Chave #Physics
Tipo

Journal Article

PeerReviewed