Proton-induced halo formation in charged meteors

Abstract: Despite a very long history of meteor science, our understanding of meteor ablation and its shocked plasma physics is still far from satisfactory as we are still missing the microphysics of meteor shock formation and its plasma dynamics. Here we argue that electrons and ions in the meteor plasma above ∼100 km altitude undergo spatial separation due to electrons being trapped by gyration in the Earth's magnetic field, while the ions are carried by the meteor as their dynamics is dictated by collisions. This sep… Show more

“…However, a recent work by Šiljić, Lunić, Teklić, and Vinković (2018) opened a theoretical possibility for new meteor physics behind the Leonid halo phenomenon. They derive an argument for a charge separation in the meteor head due to the before mentioned differences between the electron and ion magnetization.…”

The challenges in hypervelocity microphysics research on meteoroid impacts into the atmosphere

“…However, a recent work by Šiljić, Lunić, Teklić, and Vinković (2018) opened a theoretical possibility for new meteor physics behind the Leonid halo phenomenon. They derive an argument for a charge separation in the meteor head due to the before mentioned differences between the electron and ion magnetization.…”

The challenges in hypervelocity microphysics research on meteoroid impacts into the atmosphere