Publications Details

PIC-MCC Analysis of a High-Pressure Nanosecond Pulse Discharge Breakdown in Helium

Echo, Zakari S.; Boerner, Jeremiah J.; Grillet, Anne M.

Nanosecond pulsed discharges provide versatile experimental and computational testbeds for the exploration of fundamental plasma physics. In particular, the fast rise time and short duration produce plasmas which are both spatially diffuse and uniform enough to probe experimentally and confine the kinetics of interest to sufficiently short time scales to be computationally tractable. This work will focus on validation of particle-in-cell with Monte Carlo collisions (PIC-MCC) modeling and analysis of plasma phenomenon during and after formation of the conductive plasma channel of a nanosecond pulse discharge in helium at 200 Torr and 300 K over a 1 cm gap. The validation will compare results of the simulation to measurements of electron number density, temperature, 1D electron energy distribution function, and Townsend ionization coefficient, as well as ion mobility. Analysis of the stochastic nature of the electron avalanche ahead of the ionization wave front and of significant ionization overshoot in the presheath region is also performed.