Title :
Effect of Gas Mixture on Plasma Jet Discharge Morphology
Author :
Leiweke, Robert J. ; Sands, Brian L. ; Ganguly, Biswa N.
Author_Institution :
UES, Inc., Dayton, OH, USA
Abstract :
The morphology of plasma emission from a streamerlike atmospheric pressure plasma jet initiated inside a glass capillary has been measured with a high spatial resolution for a gas flow of pure helium and He with a 5% Ar admixture using 5-ns time-gated intensified charge-coupled device imaging. In the pure helium plasma jet, emission remains annular and converges gradually along the core gas-air interface. With a 5% argon admixture, however, the plasma emission is initially annular inside the glass capillary but converges to the flow axis within 5 mm outside the capillary tip.
Keywords :
argon; charge-coupled devices; discharges (electric); gas mixtures; helium; plasma diagnostics; plasma jets; He-Ar; core gas-air interface; gas mixture; glass capillary; plasma emission; plasma jet discharge morphology; pressure 1 atm; size 5 mm; spatial resolution; streamer-like atmospheric pressure plasma jet; time-gated intensified charge-coupled device imaging; Argon; Discharges; Helium; Logic gates; Morphology; Plasmas; Streaming media; Atmospheric pressure plasma jet; discharge morphology; spatiotemporally resolved imaging;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2139228
