P. A. Bespalov scite author profile

The possibility of a strong pitch-angle diffusion regime as well as of turbulent propagation of energetic ions and electrons in flaring loops has been shown. The strong diffusion regime suggests that two regions with a high level of small-scale turbulence are formed in the magnetic trap. Such additional 'turbulent mirrors' scatter energetic particles and, therefore, the flux of precipitating particles decreases and the mean lifetime of electrons and protons in a flaring loop grows. We cannot rule out that the turbulent propagation of the particles can be responsible for the energy dependence of hard X-ray delays as well as the time lag of the gamma-ray line peaks with respect to the hard X-ray peaks as the electrons and ions are accelerated simultaneously. The trap plus turbulent propagation model may also explain the lack of abundant population of 10-100 keV electrons in interplanetary space in proton-rich events and offers new possibilities for flare plasma diagnostics.

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Feasibility study of ionospheric perturbations triggered by monochromatic infrasonic waves emitted with a ground-based experiment

Rapoport

Bespalov

Mityakov

et al. 2004

Journal of Atmospheric and Solar-Terrestrial Physics

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P. A. Bespalov

Non-typical ground-based quasi-periodic VLF emissions observed at L∼5.3 under quiet geomagnetic conditions at night

Consequences of strong pitch-angle diffusion of particles in solar flares

Short-period VLF emissions as solitary envelope waves in a magnetospheric plasma maser

On the origin of time delays in hard X-ray and gamma-ray emission of solar flares

Feasibility study of ionospheric perturbations triggered by monochromatic infrasonic waves emitted with a ground-based experiment

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