Numerical modeling of NS discharge development in inhomogeneous magnetic field

Numerical characterization of nanosecond pulsed discharges has been conducted in a strong magnetic field environment. Streamer discharge development and plasma generation in pure CO₂ was analyzed when magnetic field was directed along the axis of the discharge cell. Numerical simulations were based of a two-dimensional fluid model. It is shown that strong magnetic field affect dramatically on the plasma formation. The NS streamer diameter decreases significantly, plasma density increases. Calculations were carried out for different magnetic field values for fixed CO₂ pressure P = 50 Torr and fixed NS pulse voltage U = 20 kV. It can be concluded that the streamer discharge sharply changes its characteristics in inhomogeneous magnetic fields and this control mechanism could be used in numerous applications.