S320p.58 — Model of Electric Energy Accumulation for Solar Flares

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Aug 10th at 6:00 PM until 7:30 PM

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Author(s): Valery N. Krivodubskij1

Institution(s): 1. Kyiv National Taras Shevchenko University

The model of accumulation of energy (in the form of electric charges) for solar flares is proposed. We have named this mechanism as "model of the conditioned electric capacitor". Two magnetohydrodynamics effects play the key role in the proposed model. The essence of the first effect is that the turbulent motion sharply reduces the conductivity coefficient of solar plasma (turbulent conductivity). Meanwhile, a strong magnetic field in some parts of the active regions suppresses turbulence (second effect), thereby neutralizing turbulence impact on conductivity. As a result, near the neutral lines of the magnetic field, the portions of solar plasma will be coexisting with different values of conductivity. The electric current, excited by the large-scale plasma hydrodynamic motions across the mean magnetic field, serves as a source for energy accumulation. The electric charges must be accumulated at the boundaries of the region with reduced turbulent conductivity because of the difference of conductivity values near the neutral magnetic lines ("conditioned capacitor"). The subsequent electrical breakdown in the bulk of "capacitor" will serve as a trigger mechanism for releasing the stored energy.