HYDRODYNAMIC EFFECTS PRODUCED BY PULSE MICROWAVE DISCHARGES

Abstract

An elementary theory is developed for predicting the strength of pressure waves to be expected from sudden breakdown of a gas by high-frequency electromagnetic waves in a one-dimensional geometry. It is shown that for an uncontrolled breakdown where the local field strength is not carefully matched to the instantaneous plasma condition to avoid strong reflections, the heating effect will be self-limiting and the resultant shock strength depends only on the incident wave frequency and on the initial gas density. Numerical example for microwave breakdown in air indicates that at normal sea level density, the shock wave accompanying the breakdown is generally quite weak (of the order of Mach 1.1 at 100 gc). However, for breakdown at lower air densities, stronger shock waves can be anticipated. Preliminary experimental observations of pressure waves generated in a one-dimensional channel by pulse microwave discharges tended to confirm the general features of the elementary theory but showed somewhat stronger effects than predicted.

Open PDF

Document Details

Document Type
Technical Report
Publication Date
Oct 01, 1962
Accession Number
AD0405807

Entities

People

  • G. P. Theofilos
  • Stanley Lin

Tags

Communities of Interest

  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Air Force
  • Communication Systems
  • Electron Energy
  • Electrons
  • Energy
  • Energy Transfer
  • Frequency
  • Geometry
  • Governments
  • Mach Number
  • Military Research
  • New York
  • Peak Power
  • Pressure Transducers
  • Repetition Rate
  • Sea Level
  • Shock Waves

Fields of Study

  • Physics

Readers

  • Combustion Dynamics and Shock Wave Physics.
  • Mathematics or Statistics
  • Plasma Physics.