The role of the thermal properties of electrons on the dispersion properties of Alfv\'en waves in space plasmas

Autor: Villarroel-Sepúlveda, Nicolás, Moya, Pablo S., López, Rodrigo A., Verscharen, Daniel
Rok vydání: 2024
Předmět:
Druh dokumentu: Working Paper
Popis: Context. The transition from left-hand to right-hand polarized Alfv\'en waves depends on the wavenumber, the ratio of kinetic to magnetic pressure $\beta$, temperature anisotropy, and ion composition of the plasma. Along with the temperature anisotropy, the electron-to-proton temperature ratio $T_e/T_p$ is of great relevance for the characterization of the thermal properties of a plasma. This ratio varies significantly between different space plasma environments. Thus, studying how variations on this ratio affect the polarisation properties of electromagnetic waves becomes highly relevant for our understanding of the dynamics of space plasmas. Aim. We present an extensive study on the effect of the thermal properties of electrons on the behaviour and characteristics of Alfv\'enic waves in fully kinetic linear theory, as well as on the transition from electromagnetic ion-cyclotron (EMIC) to kinetic Alfv\'en waves (KAW). Method. We solve the fully kinetic dispersion relation for oblique electromagnetic waves of the Alfv\'en branch in a homogenous Maxwellian electron-proton plasma. We quantify the effect of the thermal properties of electrons by varying the electron-to-proton temperature ratio for different configurations of the propagation angle, $\beta_p=8\pi nkT_p/B^2$, and wavenumber. Results. We show that the temperature ratio $T_e/T_p$ has strong and non-trivial effects on the polarisation of the Alfv\'enic modes, especially at kinetic scales and $\beta_e+\beta_p>0.5$. We conclude that electron inertia plays an important role in the kinetic scale physics of the KAW in the warm plasma regime, and thus cannot be excluded in hybrid models for computer simulations.
Comment: 13 pages, 7 figures
Databáze: arXiv