Abstract
Dielectric barrier discharges (DBD) are receiving a lot of attention because of their potential to influence boundary layer flows and also for their potential medical applications. We treat discharges in pure N 2 at atmospheric pressure. We neglect complex chemistry. The only effect of this kind that we consider is ionization of N 2 by electron impact. We use the particle in cell (PIC) code MAGIC to calculate the electromagnetic fields and the ion and electron properties. The discharge is so fast that the neutral atoms have no time to move and are considered to be at rest. We calculate the momentum imparted to the neutral gas by collisions with the ions and electrons. This has been called the electrohydrodynamic (EHD) force. The goal is to produce sufficient force to have a significant effect upon the boundary layer flow.
