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Constantine L. XAPLANTERIS, Eleni D. FILIPPAKI. Influence of an External DC Electric Current on Plasma Cleaning Rate: an Application on the Enlarged Plasma-Surface Theory[J]. Plasma Science and Technology, 2013, 15(5): 448-454. DOI: 10.1088/1009-0630/15/5/11
Citation: Constantine L. XAPLANTERIS, Eleni D. FILIPPAKI. Influence of an External DC Electric Current on Plasma Cleaning Rate: an Application on the Enlarged Plasma-Surface Theory[J]. Plasma Science and Technology, 2013, 15(5): 448-454. DOI: 10.1088/1009-0630/15/5/11

Influence of an External DC Electric Current on Plasma Cleaning Rate: an Application on the Enlarged Plasma-Surface Theory

  • During the last decades many researchers have been occupied with other plasma ap- plications apart from the big challenge which the thermonuclear fusion poses. Many experiments have been carried out on the plasma behavior in contact with a solid surface; when the surface material consists of chemical compounds (e.g. oxides of metals), then the plasma chemistry takes place. The present paper contains the final experimental and theoretical work of Plasma Labora- tory at \Demokritos", which consists of an elaboration of plasma sheath parameters adapted to experimental conditions, a suitable choice of plasma gases (either H2 or N2), and an electric po- tential current enforcement on objects. Additionally, a brief theory is given to explain the results, with a short reference to both boundary phenomena in thermonuclear reactors and low pressure plasma of glow discharges, so as to reveal the similarities and di®erences of these two cases. An extensive examination of the treated objects by X-ray di®raction method (XRD) gives results in agreement with the theoretical predictions. Using this improvement on plasma restoration system, (a combination of electric current on metallic object into suitable plasma), it is shown that better results can be achieved on the cleaning and conservation of archaeological objects.
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