Nonlinear expansion of the cathode region in atmospheric pressure glow discharge

Abstract

The results of numerical simulation of the cathode region (CR) formation in atmospheric pressure glow discharge in nitrogen are presented. The effect of nonlinear motion of the CR/plasma boundary towards the anode was found. This effect is caused by creation of a two-layer CR structure: an ionization layer near the cathode surface and an ionization-free layer of space charge adjacent to the CR/plasma boundary. Evolution of ion density within the ionization-free layer forces the CR/plasma boundary to move away from the cathode. It is shown that the velocity of CR expansion is proportional to 1/ square root t. In the light of this effect the difference between high- and low-pressure glows is discussed.