Title :
Optical emission spectroscopy in cathodic arc deposition
Author :
Kühn, Michael ; Pintaske, Rainer ; Richter, Frank
Author_Institution :
Inst. of Phys., Tech. Univ. Chemnitz, Germany
fDate :
8/1/1997 12:00:00 AM
Abstract :
Titanium and chromium arc discharges in nitrogen and argon in the pressure range between 10-3 and 1 Pa have been studied using optical emission spectroscopy and electric probes. The pressure dependence of normalized line intensities could be explained in terms of the metal vapor generation at the cathode as well as ion-molecule collisions in the arc plasma far from the cathode. Obviously, inelastic electron collisions do not play a decisive role. The excited levels of metal species were found to be populated according to a Boltzmann distribution. An excitation temperature of about 0.3 eV was calculated for the neutrals, whereas the excitation temperature of ions was somewhat higher. The degree of vibrational excitation of various electronic states of the N2 molecule was found to be nearly the same in Cr and Ti are discharges, respectively. The main result of the present study was that the excitation degree of chromium and titanium are discharges in argon and nitrogen, respectively, is similar
Keywords :
plasma collision processes; plasma deposition; plasma diagnostics; plasma probes; plasma temperature; vacuum arcs; vacuum deposition; 0.001 to 1 Pa; 0.3 eV; Ar; Boltzmann distribution; Cr; Cr arc discharges; N2; Ti; Ti arc discharges; arc plasma; cathodic arc deposition; electric probes; electronic states; excitation temperature; excited levels; inelastic electron collisions; ion-molecule collisions; metal vapor generation; normalized line intensities; optical emission spectroscopy; pressure dependence; vibrational excitation; Arc discharges; Argon; Cathodes; Chromium; Electron optics; Nitrogen; Plasma temperature; Spectroscopy; Stimulated emission; Titanium;
Journal_Title :
Plasma Science, IEEE Transactions on
