First Principle Description of Plasma Expansion Using the Expanding Box Model

TL;DR

This paper develops a first-principles kinetic theory for radially expanding plasmas using the Expanding Box Model, bridging microscopic Vlasov equations with macroscopic fluid descriptions in astrophysical contexts.

Contribution

It introduces a novel first-principles derivation of the Vlasov equation in the EB frame, linking kinetic and MHD descriptions of plasma expansion.

Findings

Expansion modifies the Vlasov equation with non-inertial forces.

Derived integral moments recover standard fluid equations.

Results confirm consistency between kinetic and MHD frameworks.

Abstract

Multi-scale modeling of expanding plasmas is crucial for understanding the dynamics and evolution of various astrophysical plasma systems such as the solar and stellar winds. In this context, the Expanding Box Model (EBM) provides a valuable framework to mimic plasma expansion in a non-inertial reference frame, co-moving with the expansion but in a box with a fixed volume, which is especially useful for numerical simulations. Here, fundamentally based on the Vlasov equation for magnetized plasmas and the EBM formalism for coordinates transformations, for the first time we develop a first-principles description of radially expanding plasmas in the EB frame. From this approach, we aim to fill the gap between simulations and theory at microscopic scales to model plasma expansion at the kinetic level. Our results show that expansion introduces non-trivial changes in the Vlasov equation (in the EB frame), especially affecting its conservative form through non-inertial forces purely related to the expansion. In order to test the consistency of the equations, we also provide integral moments of the modified Vlasov equation, obtaining the related expanding moments (i.e., continuity, momentum, and energy equations). Comparing our results with the literature, we obtain the same fluids equations (ideal-MHD), but starting from a first principles approach. We also obtained the tensorial form of the energy/pressure equation in the EB frame. These results show the consistency between the kinetic and MHD descriptions. Thus, the expanding Vlasov kinetic theory provides a novel framework to explore plasma physics at both micro and macroscopic scales in complex astrophysical scenarios.