Electron Avalanche Structure Determined by Random Walk Theory

Electron Avalanche Structure Determined by Random Walk Theory
Author: Gerald W. Englert
Publisher:
Total Pages: 52
Release: 1973
Genre: Electric discharges through gases
ISBN:

A self-consistent avalanche solution which accounts for collective long range Coulomb interactions as well as short range elastic and inelastic collisions between electrons and background atoms is made possible by a random walk technique. Results show that the electric field patterns in the early formation stages of avalanches in helium are close to those obtained from theory based on constant transport coefficients. Regions of maximum and minimum induced electrostatic potential phi are located on the axis of symmetry and within the volume covered by the electron swarm. As formation time continues, however, the region of minimum phi moves to slightly higher radii and the electric field between the extrema becomes somewhat erratic. In the intermediate formation periods the avalanche growth is slightly retarded by the high concentration of ions in the tail which oppose the external electric field. Eventually the formation of ions and electrons in the localized regions of high field strength more than offset this effect causing a very abrupt increase in avalanche growth.

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Author:
Publisher:
Total Pages: 888
Release: 1973
Genre: Aeronautics
ISBN: