Kinetics of relativistic axionically active plasma in the field of dynamic aether. Part I: General formalism and new concept of equilibrium states

TL;DR

This paper develops an extended kinetic theory for relativistic axionically active plasma incorporating dynamic aether, introducing a new formalism, force classification, and a novel concept of equilibrium states within this framework.

Contribution

It presents the first complete formalism of an extended plasma theory including aether and axion fields, with a new approach to equilibrium states.

Findings

Formalism of extended plasma theory established

Classification of forces acting on plasma particles

Introduction of a new concept of equilibrium states

Abstract

We establish an extended version of the kinetic theory of the relativistic axionically active multi-component plasma, which is based on the inclusion of a unit time-like vector field, associated with the velocity of dynamic aether, into the scheme of interactions. The proposed extension of the plasma theory can be indicated as semi-phenomenological. This term means that master equations for the gravitational, electromagnetic, pseudoscalar (axionic) and vector (aetheric) fields are derived using the Lagrange formalism, the kinetic equations for the distribution functions are obtained by the methods of the covariant statistics, however, the relativistic forces acting from the listed fields on the plasma particles are reconstructed phenomenologically based on classical analogies. We consider this work as a first part of a trilogy; here we presented, first, the complete formalism of this extended theory, second, the classification of forces, third, the new concept of equilibrium states in the relativistic axionically - aetherically active plasma.