Title :
Electrostatic Instability of an AC-Driven Discharge in Dense Air
Author :
Auzas, Frederic ; Makarov, Maxime ; Puech, Vincent ; Tardiveau, Pierre
Author_Institution :
Renault Technocentre, Guyancourt
Abstract :
The results of fast imaging of a streamerlike discharge dynamics around a pin electrode under quasi-continuous ac excitation in air at 1-20 bar are presented. Under a relatively low pressure of 1-3 bar, the discharge filaments show a long smooth and well-branched pattern. As the pressure increases, they get smaller and become twisted. Based on the presented photographs, it was proposed that an electrostatic instability induces secondary radial filaments developing around primary channels, which change the initial straight shape of the discharge.
Keywords :
air; electrostatic discharge; plasma instability; dense air; electrostatic instability; fast imaging; pressure 1 bar to 20 bar; quasicontinuous AC excitation; secondary radial filaments; streamerlike discharge dynamics; AC-driven discharge; electrostatic instability; fast imaging; high pressure;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2008.924454
