Abstract
Many classes of transient solar phenomena, such as flares, flare sprays, and eruptive prominences, cause major disruptions in the magnetic geometry of the overlying corona. Typically, the results from Skylab indicate that pre-existing closed magnetic loops in the corona are torn open by the force of the disruption. We examine here some of the theoretical consequences to be expected during the extended relaxation phase which must follow such events. This phase is characterized by a gradual reconnection of the outward-distended field lines. In particular, the enhanced coronal expansion which occurs on open field lines just before they reconnect appears adequate to supply the large downward mass fluxes observed in Ha loop prominence systems that form during the post-transient relaxation. In addition, this enhanced flow may produce nonrecurrent high speed streams in the solar wind after such events. Calculations of the relaxation phase for representative field geometries and the resulting flow configurations are described.
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New address: Los Alamos Scientific Laboratory, Los Alamos, N.M. 87545, U.S.A.
The National Center for Atmospheric Research is sponsored by the National Science Foundation.
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Kopp, R.A., Pneuman, G.W. Magnetic reconnection in the corona and the loop prominence phenomenon. Sol Phys 50, 85–98 (1976). https://doi.org/10.1007/BF00206193
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DOI: https://doi.org/10.1007/BF00206193