Strongly Enhanced Stimulated Brillouin Backscattering in an Electron-Positron Plasma

TL;DR

This paper demonstrates that stimulated Brillouin backscattering is significantly enhanced in electron-positron plasmas, challenging previous assumptions and supported by a generalized theory and particle-in-cell simulations.

Contribution

It introduces a generalized three-wave coupling theory for two-species plasmas with arbitrary mass ratios, revealing novel behaviors in electron-positron plasmas.

Findings

Enhanced stimulated Brillouin backscattering in electron-positron plasmas

Violations of common assumptions about plasma wave behavior

Three-wave parametric interaction occurs in electron-positron limit

Abstract

Stimulated Brillouin backscattering of light is shown to be drastically enhanced in electron-positron plasmas, in contrast to the suppression of stimulated Raman scattering. A generalized theory of three-wave coupling between electromagnetic and plasma waves in two-species plasmas with arbitrary mass ratios, confirmed with a comprehensive set of particle-in-cell simulations, reveals violations of commonly-held assumptions about the behavior of electron-positron plasmas. Specifically, in the electron-positron limit three-wave parametric interaction between light and the plasma acoustic wave can occur, and the acoustic wave phase velocity differs from its usually assumed value.