Solar flare model: Comparison of the results of numerical simulations and observations |
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| Authors: | I. M. Podgorny E. V. Vashenyuk A. I. Podgorny |
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| Affiliation: | 1.Institute of Astronomy,Russian Academy of Sciences,Moscow,Russia;2.Polar Geophysical Institute,Russian Academy of Sciences,Apatity,Russia;3.Lebedev Physical Institute,Russian Academy of Sciences,Moscow,Russia |
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| Abstract: | ![]()
The electrodynamic flare model is based on numerical 3D simulations with the real magnetic field of an active region. An energy of ∼1032 erg necessary for a solar flare is shown to accumulate in the magnetic field of a coronal current sheet. The thermal X-ray source in the corona results from plasma heating in the current sheet upon reconnection. The hard X-ray sources are located on the solar surface at the loop foot-points. They are produced by the precipitation of electron beams accelerated in field-aligned currents. Solar cosmic rays appear upon acceleration in the electric field along a singular magnetic X-type line. The generation mechanism of the delayed cosmic-ray component is also discussed. |
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