Abstract :
Barrier discharges, also known as dielectric-barrier discharges or silent discharges, provide a simple technology to establish nonequilibrium plasma conditions in atmospheric-pressure gases. This property has led to a number of industrial applications, including ozone generation, surface modification, pollution control, CO2 lasers, excimer lamps, and flat plasma-display panels. Depending on a variety of gas properties, operating parameters, and boundary conditions, the discharge can exhibit pronounced filamentary character, self-organized regular-discharge patterns, or completely diffuse appearance. The literature on these different types of barrier discharges is reviewed, and the underlying physical phenomena are discussed. Relative recent investigations on low-current density diffuse barrier discharges suggest novel applications of fairly "mild" plasmas for sterilization and disinfection purposes and utilizing their selective influence on biological cells.
Keywords :
discharges (electric); plasma density; plasma dielectric properties; CO2 lasers; atmospheric-pressure gases; biological cells; boundary conditions; current density; dielectric-barrier discharges; diffuse appearance; diffuse barrier discharges; disinfection purposes; excimer lamps; filamentary barrier discharges; flat plasma-display panels; gas properties; industrial applications; mild plasmas; nonequilibrium plasma conditions; operating parameters; ozone generation; patterned barrier discharges; physical phenomena; pollution control; self-organized regular-discharge patterns; silent discharges; sterilization; surface modification; Atmospheric-pressure plasmas; Dielectrics; Gases; Industrial control; Plasma applications; Plasma properties; Pollution control; Surface contamination; Surface discharges; Surface emitting lasers;
