On accretion flow penetration of magnetospheres |
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Authors: | C Litwin R Rosner D Q Lamb |
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Institution: | Department of Astronomy &Astrophysics, The University of Chicago, 5640 South Ellis Avenue, Chicago, IL 60637, USA |
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Abstract: | We address the problem of plasma penetration of astrophysical magnetospheres, an important issue in a wide variety of contexts, ranging from accretion in cataclysmic variables to flows in protostellar systems. We point out that under well-defined conditions, penetration can occur without any turbulent mixing (driven, for example, by Rayleigh–Taylor or Kelvin–Helmholtz instabilities) caused by charge polarization effects, if the inflowing plasma is bounded in the direction transverse to both the flow velocity and the magnetic field. Depolarization effects limit the penetration depth, which nevertheless can, under specific circumstances, be comparable to the size of the magnetosphere. We discuss the effect of ambient medium on plasma propagation across the stellar magnetic field and determine the criteria for deep magnetosphere penetration. We show that, under conditions appropriate to magnetized white dwarfs in AM Her type cataclysmic variables, charge polarization effects can lead to deep penetration of the magnetosphere. |
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Keywords: | accretion accretion discs magnetic fields polarization stars: magnetic fields novae cataclysmic variables |
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