Title :
Confined Geometry Interactions of Downstream RF-Excited Atmospheric Plasma Wires
Author :
Moore, Cameron A. ; Scott, Doug A. ; Collins, George J.
Author_Institution :
Dept. of Electr. & Comput. Eng., Colorado State Univ., Fort Collins, CO
Abstract :
We report on the generation and propagation of plasma by-products via the electrical excitation of argon gas flowing in an insulating millimeter-sized tube at excitation frequencies of 13.56-25 MHz. An electrode on the outer surface of the tube acted to capacitively couple excitation RF energy (<1 W to tens of watts) into the plasma, resulting in a plume that extends into open air for millimeter distances that are far beyond the main plasma excitation volume (ldquoplasma wiresrdquo). By using identical tubes with flowing argon but with the external electrode grounded, we demonstrate the plasma plume propagation between multiple tubes. Contrary to prior work, the open-air plasma wires propagate opposite the gas flow direction.
Keywords :
argon; high-frequency discharges; plasma production; plasma radiofrequency heating; plasma torches; confined geometry interactions; downstream RF-excited atmospheric plasma wires; electrical excitation; excitation RF energy; excitation frequencies; frequency 13.56 MHz to 25 MHz; insulating millimeter-sized tube; open-air plasma wires; plasma by-products generation; plasma by-products propagation; plasma excitation volume; plasma plume propagation; plasma torches; Argon; Electrodes; Fluid flow; Geometry; Plasma confinement; Plasma devices; Plasma stability; Plasma waves; Radio frequency; Wires; Plasma devices; plasma generation; plasma torches;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2008.924400
