ARGON-TITANIUM HOLLOW CATHODE AFTERGLOW

D. Ohebsian; N. Sadeghi; C. Trassy; J.M. Mermet

doi:doi:10.1051/jphyscol:1979749

Numéro		J. Phys. Colloques Volume 40, Numéro C7, Juillet 1979 XIV^e Conférence Internationale sur les Phénomènes d'Ionisation dans les Gaz / XIVth International Conference on Phenomena in Ionized Gases


Page(s)		C7-99 - C7-100
DOI		https://doi.org/10.1051/jphyscol:1979749

XIV^e Conférence Internationale sur les Phénomènes d'Ionisation dans les Gaz / XIVth International Conference on Phenomena in Ionized Gases

J. Phys. Colloques 40 (1979) C7-99-C7-100
DOI: 10.1051/jphyscol:1979749

ARGON-TITANIUM HOLLOW CATHODE AFTERGLOW

D. Ohebsian¹, N. Sadeghi¹, C. Trassy et J.M. Mermet²

¹ Laboratoire de Spectrométrie Physique, Université Scientifique et Médicale de Grenoble, BP. 53, 38041 Grenoble cedex, France.
² Laboratoire de Physico-Chimie Industrielle I.N.S.A. 69621 Villeurbanne Cedex, France.

Abstract
The mechanisms of the energy transfer between metastable and ionic species of the rare gases and metallic atoms are responsible for the laser action in rare gas-metal vapor discharge. Knowledge of the mechanisms of the production and loss of the metallic species in a rare gas plasma is therefore very inportant. The pulsed afterglow technique has already been used to study the excited metallic ion production in He-Cd, He-Zn (1) and He-Pb (2) discharge. In these experiments, the discharge cell containing metal pellets is placed inside an oven to produce the metal vapor at desired pressure. But this technique cannot be used for the metals having a high boiling point. For example a density of 10¹¹ atoms cm^-3 is obtained at 210°C for Zinc but at 1300°C for Titanim.