Spatial Templates for Studies of Patterns and Interactions in Dielectric-Barrier Discharges

We use various electrode layouts to tailor the profile of the electric field in a two-dimensional (2D) dielectric-barrier-discharge system, thereby creating spatial templates for the lateral distribution of discharge filaments. Our discussion focuses on the formation of patterns and the interactions between filaments in several template configurations. Hexagonal and square lattice templates produce patterns reminiscent of the surface phases of adatoms on crystal surfaces. For the square lattice, a lateral displacement between opposing lattice electrodes modifies the pattern-forming behavior of the system. In a stripe-electrode arrangement, each discharge filament terminates in two dissimilar footprints, and the resulting pattern exhibits smectic behavior. A circular ring template establishes periodic boundary conditions and produces a new pattern in which adjacent filament footprints differ in shape. Finally, electrodes featuring isolated and twinned pins are used to investigate the pairing and clustering of filaments. We find that under certain conditions, filament pairs may stabilize at either of two characteristic bonding distances. We also study the range of distances over which a filament will either prevent the ignition of or annihilate nearby filaments.