Litcius/Paper detail

Fully Kinetic Simulations of Proton-beam-driven Instabilities from Parker Solar Probe Observations

Luca Pezzini, A. N. Zhukov, F. Bacchini, Giuseppe Arrò, Rodrigo A. López, Alfredo Micera, Maria Elena Innocenti, Giovanni Lapenta

2024The Astrophysical Journal12 citationsDOIOpen Access PDF

Abstract

Abstract The expanding solar wind plasma ubiquitously exhibits anisotropic nonthermal particle velocity distributions. Typically, proton velocity distribution functions (VDFs) show the presence of a core and a field-aligned beam. Novel observations made by the Parker Solar Probe (PSP) in the innermost heliosphere have revealed new complex features in the proton VDFs, namely anisotropic beams that sometimes experience perpendicular diffusion. In this study, we use a 2.5D fully kinetic simulation to investigate the stability of proton VDFs with anisotropic beams observed by PSP. Our setup consists of a core and an anisotropic beam population that drift with respect to each other. This configuration triggers a proton beam instability from which nearly parallel fast magnetosonic modes develop. Our results demonstrate that before this instability reaches saturation, the waves resonantly interact with the beam protons, causing perpendicular heating at the expense of the parallel temperature.

Topics & Concepts

PhysicsProtonSolar windInstabilityAnisotropyBeam (structure)HeliosphereComputational physicsAtomic physicsDistribution functionPopulationPlasmaOpticsNuclear physicsMechanicsSociologyQuantum mechanicsDemographySolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsAstro and Planetary Science