Publications by authors named "Anton V Artemyev"
Wave-particle resonance, a ubiquitous process in the plasma universe, occurs when resonant particles observe a constant wave phase to enable sustained energy transfer. Here, we present spacecraft observations of simultaneous Landau and anomalous resonances between oblique whistler waves and the same group of protons, which are evidenced, respectively, by phase-space rings in parallel-velocity spectra and phase-bunched distributions in gyrophase spectra. Our results indicate the coupling between Landau and anomalous resonances via the overlapping of the resonance islands.
View Article and Find Full Text PDFWe present Magnetospheric Multiscale observations showing large numbers of slow electron holes with speeds clustered near the local minimum of double-humped velocity distribution functions of background ions. Theoretical computations show that slow electron holes can avoid the acceleration that otherwise prevents their remaining slow only under these same circumstances. Although the origin of the slow electron holes is still elusive, the agreement between observation and theory about the conditions for their existence is remarkable.
View Article and Find Full Text PDFArticle Synopsis
- NASA's Magnetospheric Multi-Scale (MMS) mission investigates the behavior of plasma turbulence, focusing on how particles are accelerated and heated within this environment.
- The study develops a new kinetic theory to understand magnetic cavities, crucial structures for energy dynamics in plasma.
- By using data from multiple MMS spacecraft, researchers can validate their theory through predictive modeling, demonstrating that these magnetic cavities are self-organized structures similar to those observed in laboratory settings.