Characterization of a Filtered High Current Pulsed Cathodic Vacuum Arc Plasma Source: Plasma Transport Analysis

• Published in: AIP conference proceedings Vol. 993; no. 1; pp. 337 - 340
• Main Authors: Sangines, R, Andruczyk, D, Tarrant, R N, Bilek, M M M, McKenzie, D R
• Format: Journal Article
• Language: English
• Published: United States 01.01.2008
• Subjects: CATHODES; CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS; ELECTRIC ARCS; ELECTRON DENSITY; MAGNETIC FIELDS; MAGNETIC FILTERS; PLASMA; PLASMA CONFINEMENT; PLASMA DIAGNOSTICS; PLASMA PRODUCTION; PULSES; RADIATION TRANSPORT; SUBSTRATES; TITANIUM
• ISBN: 9780735405127; 0735405123
• ISSN: 0094-243X; 1551-7616
• DOI: 10.1063/1.2909142

Studies of plasma behavior produced by a filtered high current pulsed cathodic vacuum arc system are reported. Titanium plasma is initiated from the cathode by surface flash over triggering at the centre of the cathode disk. The multiple arc spots move outwards due to their mutual repulsion and the arc current pulse is terminated as the arc spots reach the edge of the cathode disk. The plasma moves into a positively biased quarter-torus magnetic filter and is guided towards the substrate position located 150 mm beyond the filter exit. Electron density and plasma current measurements have been employed to analyze the transport of the plasma associated with different cathode currents, and its dependence on confining magnetic field and bias conditions. For a given cathode current, the optimum plasma transport to the substrate requires the right combination of the strength of the confining magnetic field and the magnetic filter positive bias. The optimum values of these two parameters were found to increase with increasing cathode current. Initially the optimum throughput of plasma increases more strongly than the arc current (roughly 1.5 times the increase in the current); however, at high cathode current regimes (2.4 kA) a significant change of the plasma behavior is seen and transport efficiency is reduced.