Transport coefficients defined by arrival time spectra of electron swarms in krypton gas

13 November 1990

journal article
Published by IOP Publishing in Journal of Physics D: Applied Physics

Vol. 23 (11) , 1384-1389
https://doi.org/10.1088/0022-3727/23/11/006

Abstract

A method of analysis for the swarm parameters deduced directly from the arrival time spectra (ATS) of an electron swarm in gases is presented. In this method the electron swarm parameters, defined as the space derivatives of the moments of the arrival time of the electron density distribution, are calculated using the new continuity equation derived from the Boltzmann equation, for the first time in a real gas. The method is applied to deduce the electron energy distributions and swarm parameters in krypton gas at E/p₀=50, 100 and 150 V cm^-1 Torr^-1, utilising the conventional two-term expansion for solution of the Boltzmann equation, and good agreement with the result by Monte Carlo simulation is obtained.

Keywords

This publication has 8 references indexed in Scilit:

Evolution equation and transport coefficients defined by arrival-time spectra of swarms
Journal of Physics D: Applied Physics, 1990
Boltzmann equation analysis of electron collision cross sections and swarm parameters for krypton
Journal of Physics D: Applied Physics, 1989
A multi-term Boltzmann equation analysis of electron swarms in gases
Journal of Physics D: Applied Physics, 1988
The application of a modified form of theSN method to the calculation of swarm parameters of electrons in a weakly ionised equilibrium medium
Journal of Computational Physics, 1983
Extended Boltzmann analysis of electron swarm experiments
Physical Review A, 1981
Kinetic Theory of Charged Particle Swarms in Neutral Gases
Australian Journal of Physics, 1980
The development of electron avalanches in argon at high E/N values. II. Boltzmann equation analysis
Journal of Physics D: Applied Physics, 1977
Theory of Electron Diffusion Parallel to Electric Fields. I. Theory
Physical Review B, 1969