V. Karas, O. Kopacek
Published 2008-11-11Version 1
Magnetic layers are narrow regions where the field direction changes sharply. They often occur in the association with neutral points of the magnetic field. We show that an organised field can produce these structures near a rotating black hole, and we identify them as potential sites of magnetic reconnection. To that end we study the field lines affected by the frame-dragging effect, twisting the magnetic structure and changing the position of neutral points. We consider oblique fields in vacuum. We also include the possibility of translational motion of the black hole which may be relevant when the black hole is ejected from the system. The model settings apply to the innermost regions around black holes with the ergosphere dominated by a super-equipartition magnetic field and loaded with a negligible gas content.
Comments: 10 pages, 3 figures, Classical and Quantum Gravity accepted
Journal: Class. Quantum Grav. 26 (2009) 025004 (9pp)
Magnetic Coupling of a Rotating Black Hole with Advection-Dominated Accretion Flows
Nodal and Periastron Precession of Inclined Orbits in the Field of a Rotating Black Hole
Mapping of electromagnetic negative-phase-velocity propagation in the ergosphere of a rotating black hole
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