Theoretical study of the Electron energy distribution Function and the ionization coefficient for pure Krypton, Chlorine discharge and their mixtures | ||
Kirkuk Journal of Science | ||
Article 1, Volume 12, Issue 2, June 2017, Pages 141-159 PDF (0 K) | ||
DOI: 10.32894/kujss.2017.124952 | ||
Author | ||
Gulala Muhammad Faraj | ||
Abstract | ||
Theoretical calculations performed on the electron energy distribution function (EEDF) and ionization coefficient ( ) in pure Krypton (Kr) and pure chlorine (Cl2) and their mixtures by using Boltzmann transport equation. The numerical solutions are utilized within the international computer code kinema-Elendif. The results have been compared successfully with other researcher's results and there was a good agreements. A set of electron cross-section data have been used in the calculation. The calculated distribution function found to be remarked non-Maxwellian that have energy variations which reflect the import electron-molecule energy exchange processes. It is noted that a small quantity of Cl2 add to pure Kr affects the electron energy distribution function and the ionization coefficient of the mixtures. | ||
Keywords | ||
Plasma; Electron Energy Distribution Function; Boltzmann transport equation; ionization coefficient; gas Discharges; Gas laser | ||
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