Title :
Spatio-temporal variations in a three-dimensional DC glow discharge via particle-in-cell simulation
Author :
Serikov, Vladimir V. ; Nanbu, Kenichi
Author_Institution :
Adv. Simulation Crew, Nippon Sheet Glass Co. Ltd., Chiba, Japan
fDate :
2/1/1999 12:00:00 AM
Abstract :
A particle-in-cell Monte Carlo collision algorithm has been developed to numerically investigate the three-dimensional structure of a parallel-plate direct current glow discharge. The discharge in argon under a low pressure of 42 mtorr has been simulated as taking place between two circular electrodes in a grounded rectangular chamber. The motion of ions and electrons was calculated in a self-consistent electric field, which was obtained from Poisson´s equation by a fast Fourier transform algorithm at each electron time step. Spatial distributions and temporal behavior of the electric field and discharge macroparameters were analyzed. The oscillations and wavy structure of the discharge characteristics have been revealed
Keywords :
Monte Carlo methods; argon; fast Fourier transforms; glow discharges; plasma diagnostics; plasma simulation; 42 mtorr; Ar; Ar discharge; Poisson equation; circular electrodes; discharge characteristics; discharge macroparameters; electric field macroparameters; electron motion; electron time step; fast Fourier transform algorithm; grounded rectangular chamber; ion motion; low pressure discharge; oscillations; parallel-plate direct current glow discharge; particle-in-cell Monte Carlo collision algorithm; particle-in-cell simulation; self-consistent electric field; spatial distributions; spatio-temporal variations; temporal behavior; three-dimensional DC glow discharge; three-dimensional structure; wavy structure; Argon; Cathodes; Electrodes; Electrons; Fast Fourier transforms; Glow discharges; Kinetic theory; Monte Carlo methods; Plasma simulation; Poisson equations;
Journal_Title :
Plasma Science, IEEE Transactions on
