Ion dynamics in an e × B Hall plasma accelerator

Abstract

We show the time evolution of the ion velocity distribution function in a Hall plasma accelerator during a 20 kHz natural, quasi-periodic plasma oscillation. We apply a time-synchronized laser induced fluorescence technique at different locations along the channel midline, obtaining time- and spatially resolved ion velocity measurements. Strong velocity and density fluctuations and multiple ion populations are observed throughout the so-called "breathing mode" ionization instability, opening an experimental window into the detailed ion dynamics and physical processes at the heart of such devices.