P. B. Isakova, A. G. Zhilkin, D. V. Bisikalo
Published 2016-02-03Version 1
A three-dimensional numerical model for an accretion process investigation in the magnetosphere of a white dwarf in magnetic cataclysmic variables is developed. The model assumes that the white dwarf has a dipole magnetic field with its symmetry axis inclined to the rotation axis. The model is based on the equations of modified MHD, that describe the mean flow parameters in the wave MHD turbulence. Diffusion of the magnetic field and radiative heating and cooling are taken into account. The suitability of the model is confirmed by modeling the accretion in a typical intermediate polar. The computations show that a magnetosphere forms around the accretor, with the accretion occurring via columns. The accretion columns have a curtain-like shape, and arc-shaped zones of energy release form on the surface of the white dwarf in the magnetic poles area as a result of the matter infall.
Comments: 10 pages, 4 figures
Journal: Astronomy Reports, Volume 59, Issue 9, pp.843-850, 2015
Evolution of long-lived globular cluster stars IV. Initial helium content and white-dwarf properties
Dynamical masses of a nova-like variable on the edge of the period gap
The Accretion of Solar Material onto White Dwarfs: No Mixing with Core Material Implies that the Mass of the White Dwarf is Increasing
![QR code for arXiv:1602.01315 [astro-ph.SR]](http://oss.arxitics.com/images/favicon.svg)