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The formation of prominences by thermal instability: A numerical study

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Abstract

A two-dimensional model of prominence formation in a region containing a magnetic neutral sheet is constructed for a variety of initial conditions, assuming the coronal plasma to be described by the usual hydromagnetic approximation, with infinite electric conductivity. In each case the magnetic field is initially vertical, varying antisymmetrically with respect to the neutral sheet, to a maximum value at a distance of 70 000 km from the neutral sheet. In the first case, the plasma is initially in hydrostatic equilibrium, whereas in successive cases, the pressure is assumed to be of such a value that the plasma is in lateral equilibrium of total pressure (gas plus magnetic). In a variation of this case, the value of the solar gravitational field was artificially reduced, and the effects considered.

Large lateral motions are produced in each case, thus apparently inhibiting the condensation of prominences, with the exception of the unrealistic case of artificially reduced gravity. The results suggest that consideration either of a third component of the magnetic field (horizontal and parallel to the neutral sheet), or a finite conductivity, allowing magnetic recombination across the neutral sheet, or both, would more realistically represent the problem and might thus show the development of prominences.

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Author notes

  1. Stephen F. Mason

    Present address: Department of Physics, St. Norbert College, 54115, DePere, WI, U.S.A.

Authors and Affiliations

  1. Department of Physics and Astronomy, University of Wyoming, 82071, Laramie, WY, U.S.A.

    Stephen F. Mason & R. J. Bessey

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  1. Stephen F. Mason
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  2. R. J. Bessey
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Mason, S.F., Bessey, R.J. The formation of prominences by thermal instability: A numerical study. Sol Phys 83, 121–134 (1983). https://doi.org/10.1007/BF00148247

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  • DOI: https://doi.org/10.1007/BF00148247

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