Plasma Waves in a Different Frame: a Tutorial for Plasma-based Electron Accelerators

Abstract

Nonlinear, relativistic longitudinal waves with sub-luminal phase velocity vp are the basis of plasma-based electron accelerators. For such application, key properties of the wave are the maximum or ``wave breaking'' amplitude and the corresponding energy gained by electrons trapped in the wave field. Here we show that these properties and the general waveform are obtained with little mathematical complexity by using a Lorentz transformation to a frame co-moving at velocity vp. The transformation reduces the problem to a second-order ordinary differential equation as originally found by Chian [Plasma Phys. 21, 509 (1979)] so that the analysis can exploit the analogy with the mechanical motion of a particle in a potential well. This approach seems particularly suitable for a compact, tutorial introduction to plasma-based electron accelerators with little mathematical complexity.