EXPERIMENTAL DETERMINATION OF ELECTRON CONCENTRATIONS AND EFFECTIVE FREQUENCIES OF ELECTRON COLLISIONS WITH NEUTRAL PARTICLES IN AIR, N2, O2, CO, ARGON, AND CO2 BEHIND SHOCK WAVES,

Abstract

Measurement of radio-wave absorption simultaneously at two frequencies of 37,500 MHz and 18,750 MHz behind a reflected wave in a shock tube indicated that equilibrium ionization is achieved in air and in nitrogen during times of 70-17- Mu sec at 2800-4800 degrees K and at pressures of 0.3-6.20 atm. Comparison of absorption curves with Topler scan of the process of shock wave reflection from the end of a tube made it possible to explain the significant increase of conductivity after it reached an equilibrium value as a result of the additional heating of the gas by the shock wave being reflected from the interface. The measured values of effective cross-sections of electron collisions with neutral particles in air, nitrogen and CO are quite close to the data found in other papers. However, the cross-section tends toward a sharper increase in nitrogen at temperatures higher than 4000K. Cross-section values in molecular oxygen and in CO2 were significantly less in the present investigations than those found by others. (Author)

Document Details

Document Type

Technical Report

Publication Date

Oct 01, 1969

Accession Number

AD0700370

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