Effect of Adding Krypton Gas to SF6 Gas on Electronic Distribution Function and Electronic Transport Coefficients |
Khalid S. Jebur
Iraqi Ministry of Education, General Directorate of Education, Rusafa 3, Baghdad, Iraq |
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By using the EEDF program, the Boltzmann equation for the steady state was solved to study the electron energy distribution function f(u) and electron transport coefficients for SF6 sulfur gas and its mixtures in different concentrations with the krypton gas. Krypton gas was used as an inert gas and mixed with SF6 gas. The behavior of the gas varies depending on its concentration in the mixture and the strength of the reduced electric field. The difference in the type of gas and the type of mixture leads to a difference in the electronic energy distribution function and thus a difference in the electronic transport coefficients. The effect of reduced electric field strength E/N on f(u) and electron transport coefficients has also been studied numerically in the 10-600 Td range, where 1 Td =1×10-17 V cm2. |
DOI:10.12693/APhysPolA.140.332 topics: EEDF program, krypton gas, SF6 gas, electron transport coefficients |