Self-collimated electromagnetic jets from magnetized accretion disks - The even-symmetry case

Self-collimated electromagnetic jets from magnetized accretion disks - The even-symmetry case

This paper extends the previous treatment (Lovelace et al., 1987) of the origin of self-collimated EM jets to the case of even field symmetry, where the magnetic flux function Psi(r, z) is an even function of z. A viscous resistive accretion disk is assumed to surround a black hole with a force-free...

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Veröffentlicht in:The Astrophysical journal 1990-05, Vol.355 (1), p.38-43
Hauptverfasser: Wang, J. C. L., Sulkanen, M. E., Lovelace, R. V. E.
Format: Artikel
Sprache:eng
Schlagworte:
ACCRETION DISKS
Astronomy
ASTROPHYSICS
BLACK HOLES
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
Earth, ocean, space
Exact sciences and technology
FLUID MECHANICS
Fundamental aspects of astrophysics
Fundamental astronomy and astrophysics. Instrumentation, techniques, and astronomical observations
HYDRODYNAMICS
MAGNETIC FIELD CONFIGURATIONS
MAGNETIC FLUX
MAGNETOHYDRODYNAMICS
Magnetohydrodynamics and plasmas
MECHANICS 640102 > Astrophysics & Cosmology-- Stars & Quasi-Stellar, Radio & X-Ray Sources
PLASMA JETS
SYMMETRY
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Zusammenfassung:This paper extends the previous treatment (Lovelace et al., 1987) of the origin of self-collimated EM jets to the case of even field symmetry, where the magnetic flux function Psi(r, z) is an even function of z. A viscous resistive accretion disk is assumed to surround a black hole with a force-free plasma outside of the disk. Inside the disk, the induction equation is solved for Psi(r, z) and the toroidal magnetic field. Outside the disk, previous results are used to study the formation of self-collimated EM jets. In contrast with the odd-symmetry case, for even symmetry the toroidal magnetic field acts to vertically compress the disk; a comparatively large toroidal magnetic field can exist inside the disk; and an appreciable fraction (possibly all) of the available accretion power can go into the jets.
ISSN:0004-637X
1538-4357
DOI:10.1086/168738