Hybrid simulations demonstrate formation of hammerhead proton distributions via beam-driven right-handed wave instabilities under young solar wind conditions, consistent with quasi-linear theory.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
verdicts
UNVERDICTED 2representative citing papers
Nonlinear hybrid models of PSP-observed anisotropic hot-beam ion VDFs produce combined ion-cyclotron and magnetosonic instabilities whose nonlinear stage yields qualitative agreement with observed hammerhead distributions.
citing papers explorer
-
Hybrid simulations of the proton beam instabilities in the young solar wind. The formation of hammerhead-like distributions
Hybrid simulations demonstrate formation of hammerhead proton distributions via beam-driven right-handed wave instabilities under young solar wind conditions, consistent with quasi-linear theory.
-
Modeling hot, anisotropic ion beams in the solar wind motivated by the Parker Solar Probe observations near perihelia
Nonlinear hybrid models of PSP-observed anisotropic hot-beam ion VDFs produce combined ion-cyclotron and magnetosonic instabilities whose nonlinear stage yields qualitative agreement with observed hammerhead distributions.