Title :
Microwave Discharge as an Effective Tool for Surface Treatment of Small Samples
Author :
Balat-Pichelin, Marianne ; Vesel, Alenka ; Mozetic, Miran
Author_Institution :
Lab. Procedes, Mater. et Energie Solaire, CNRS, Font Romeu, France
Abstract :
Plasma created in different gases using conventional microwave (MW) discharge is presented. The discharge chamber is a quartz tube mounted into a rectangular waveguide. Standing-wave conditions established in the MW cavity allow for creation of plasma in a small volume. The discharge power up to 1200 W allows for treatment of small samples with rather intense plasma. Samples mounted on sample holders with poor thermal contact with cold materials are heated to elevated temperature that allows for intensive surface chemical reactions. Plasma color depends on the type of gas and impurities released from samples as a result of plasma treatment.
Keywords :
high-frequency discharges; impurities; plasma materials processing; rectangular waveguides; surface chemistry; surface treatment; cold materials; discharge chamber; impurities; microwave discharge; plasma color; plasma treatment; power 1200 W; quartz tube; rectangular waveguide; standing-wave conditions; surface chemical reactions; surface treatment; thermal contact; Discharges; Electromagnetic waveguides; Electron tubes; Image color analysis; Optical surface waves; Plasmas; Steel; Microwave (MW) discharge; optical emission; plasma color; surface treatment;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2166564
