Inertial Kinetic-Alfv\'en Turbulence

Abstract

Recent observational and analytical studies suggested that a new regime of kinetic turbulence may exist in plasma environments with low electron beta (Chen and Boldyrev, 2017). Such a regime, termed inertial kinetic-Alfv\'en turbulence, is relevant for the solar corona, Earth's magnetosheath, and other astrophysical systems where the electron and ion plasma beta parameters satisfy the condition βe βi 1. In this paper we present kinetic numerical simulations that confirm existence of the iKAW regime. Specifically, the simulations demonstrate a transition at scales below electron inertial length de when βe βi 1. Spectral slopes and other statistical properties of turbulence at sub-de scales are consistent with the phenomenological theory of inertial kinetic-Alfv\'en turbulence proposed by Chen and Boldyrev (2017) and with the recent observations in the Earth's magnetosheath.