Acceleration of energetic particles by whistler waves in active space experiment with charged particle beams injection

TL;DR: In this paper, a dispersion relation of whistler waves has been derived, and first-order perturbation theory has been employed to obtain the growth rate of whistlers in the presence of parallel as well as oblique electron beam.

TL;DR: In this article, the effect of fluctuations of dust grains on the parametric up conversion of lower hybrid waves into a whistler wave in a complex plasma is studied, and the growth rate Γ (sec−1) scales linearly with the amplitude of the pump waves, and it increases as the amplitudes of the lower hybrid pump waves increase.

TL;DR: In this article, the beam-plasma instability for a two-wave longitudinal interaction has been considered and the growth of instability depends on the frequency and wavenumber detunings between these longitudinal waves one of them is a slow beam mode with negative or zero wave energy defined near the linear stability boundary.

TL;DR: In this article, the beam-plasma interaction effects during the active space experiment with electron and Xe-ion beam injections in an ionospheric plasma have been studied during the Intercosmos-25 station (IK-25) and Magion-3 subsatellite.

TL;DR: The use of Artificial Electron Beams as Probes of the Distant Magnetosphere has been studied in the past as discussed by the authors, and the use of artificial electron beams as probes of the distant magnetosphere has also been studied.

TL;DR: In this article, the authors deal with short, intensive bursts of field-aligned electrons observed during the active plasma experiment on board the MAGION-3 satellite and analyze the observed events, discuss the possible mechanisms of the particle spreading, and the role of the main satellite's activity as a possible source of these events.

TL;DR: An unusual signature of return current and spacecraft charging potential was observed during the Space Experiments with Particle Accelerators (SEPAC) 1 mission launched on November 28, 1983 as mentioned in this paper, during neutral gas releases from the magnetoplasma-dynamic arcjet (MPD) concurrent with firings of the PICPAB (Phenomena Induced by Charged Particle Beams) electron gun and was recorded by the instruments of the SEPAC diagnostic package.