Б. В. Сомов scite author profile

Observations with the Hard X-Ray Telescope (HXT) and the Soft X-Ray Telescope (SXT) on board Y ohkoh show that the reconnection process is common to impulsive and gradual Ñares. We apply the collisionless reconnection theoryÈmore exactly, the model of a high-temperature turbulent-current sheet (HTTCS)Èto the coronal conditions derived from the Y ohkoh data on the site and mechanism of magnetic energy transformation into kinetic and thermal energies of "" superhot ÏÏ plasma and accelerated particles. We consider the reconnecting current sheet as the source of Ñare energy and the Ðrst-step mechanism in a two-step acceleration of electrons and ions to high energies. According to our model, reconnected Ðeld lines rapidly move out of the HTTCS, being frozen into superhot plasma, and form magnetic loops on the upstream side of a fast oblique collisionless shock (FOCS) situated above the soft X-rayÈemitting loops of a strong magnetic Ðeld. The electrons and ions energized and preaccelerated by the HTTCS are trapped in magnetic loops. The top of each loop moves with a high speed toward the FOCS, while its feet penetrate through the shock front. For these reasons, two mechanismsÈthe adiabatic heating inside the collapsing trap and acceleration by the shock front at the two feet of the trapÈefficiently increase the particle energy. The lifetime of an individual collapsing trap can be identiÐed with the observed few-second delay to higher energies of hard X-ray and gamma-ray emission. The trap of accelerated electrons can be seen as the coronal hard X-ray "" above-the-loop-top source.ÏÏ Precipitation of accelerated electrons from the trap through the FOCS into the chromosphere is responsible for the hard X-ray "" footpoint sources.ÏÏ The model explains timing, location, and motion of the hard X-ray sources in solar Ñares as well as the observed relative intensity of the coronal and chromospheric hard X-ray sources and other physical properties.

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Particle acceleration in reconnecting current sheets

Litvinenko

1993

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Physical Processes in Solar Flares

Сомов

1992

231

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Hydrodynamic response of the solar chromosphere to an elementary flare burst

Сомов

Сыроватский

Spektor³

1981

Sol Phys

115

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Б. В. Сомов

Collisionless Reconnection and High‐Energy Particle Acceleration in Solar Flares

Particle acceleration in reconnecting current sheets

Physical Processes in Solar Flares

Hydrodynamic response of the solar chromosphere to an elementary flare burst

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