Electron transport parameters in CO2: scanning drift tube measurements and kinetic computations

• Published in: Plasma sources science & technology Vol. 26; no. 6
• Main Authors: Vass, M, Korolov, I, Loffhagen, D, Pinhão, N, Donkó, Z
• Format: Journal Article
• Language: English
• Published: IOP Publishing 05.05.2017
• Subjects: drift tube measurements; electron transport coefficients; kinetic theory and computations
• ISSN: 0963-0252; 1361-6595
• DOI: 10.1088/1361-6595/aa6789

This work presents the transport coefficients of electrons (bulk drift velocity, longitudinal diffusion coefficient, and effective ionization frequency) in CO2 measured under time-of-flight conditions over a wide range of the reduced electric field, 15 Td ≤ E N ≤ 2660 Td , in a scanning drift tube apparatus. The data obtained in the experiments are also applied to determine the effective steady-state Townsend ionization coefficient. These parameters are compared to the results of previous experimental studies, as well as to the results of various kinetic computations: solutions of the electron Boltzmann equation under different approximations (multiterm and density gradient expansions) and Monte Carlo simulations. The experimental data extend the range of E/N compared with previous measurements and are consistent with most of the transport parameters obtained in these earlier studies. The computational results point out the range of applicability of the respective approaches to determine the different measured transport properties of electrons in CO2. They also demonstrate the need for further improvement of the electron collision cross section data for CO2 taking into account the present experimental data.