Abstract
We have used the radiative MHD equations for an optically thin plasma to carry out a numerical experiment related to the formation of ‘post’-flare loops. The numerical experiment starts with a current sheet that is in mechanical and thermal equilibrium, but which is unstable to both tearing-mode and thermal-condensation instabilities. The current sheet is line-tied at one end to a photospheric-like boundary and evolves asymmetrically. The effects of thermal conduction, resistivity variation, and gravity are ignored. In general, we find that reconnection in the nonlinear stage of the tearing-mode instability can strongly affect the onset of condensations unless the radiative cooling time scale is much smaller than the tearing-mode time scale. When the ambient plasma β is less than 0.2, the reconnection enters a regime where the outflow from the reconnection region is supermagnetosonic with respect to the fast-mode wave speed. In the supermagnetosonic regime the most rapidly condensing regions occur downstream of a fast-mode shock that forms where the outflow impinges on closed loops attached to the photospheric-like boundary. A similar shock-induced condensation might occur during the formation of ‘post’-flare loops.
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Forbes, T.G., Malherbe, J.M. A numerical simulation of magnetic reconnection and radiative cooling in line-tied current sheets. Sol Phys 135, 361–391 (1991). https://doi.org/10.1007/BF00147508
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DOI: https://doi.org/10.1007/BF00147508