Methodological notes on the gauge invariance in the treatment of waves and oscillations in plasmas $via$ the Einstein-Vlasov-Maxwell system: Fundamental equations

TL;DR

This paper develops a gauge-invariant formulation of the Einstein-Vlasov-Maxwell system for plasmas, deriving dispersion relations for gravitational waves and analyzing energy exchanges and damping effects.

Contribution

It introduces a gauge-invariant approach to the Einstein-Vlasov-Maxwell system, including non-radiative metric components, applied to plasma wave analysis.

Findings

Derived dispersion relation for gravitational waves in a plasma.

Analyzed Landau damping effects on gravitational waves.

Explored energy exchange mechanisms between plasma and gravitational waves.

Abstract

The theory of gauge transformations in linearized gravitation is investigated. After a brief discussion of the fundamentals of the kinetic theory in curved spacetime, the Einstein-Vlasov-Maxwell system of equations in terms of gauge invariant quantities is established without neglecting the equations of motion associated with the dynamics of the non-radiative components of the metric tensor. The established theory is applied to a non-collisional electron-positron plasma, leading to a dispersion relation for gravitational waves in this model system. The problem of Landau damping is addressed and some attention is given to the issue of the energy exchanges between the plasma and the gravitational wave. In a future paper, a more complete set of approximate dispersion relations for waves and oscillations in plasmas will be presented, including the dynamics of non-radiative components of the metric tensor, with special attention to the problems of the Landau damping and of the energy exchanges between matter, the electromagnetic field and the gravitational field.