Recombination in Xenon and Krypton Afterglows†
- 1 August 1959
- journal article
- research article
- Published by Taylor & Francis in Journal of Electronics and Control
- Vol. 7 (2) , 123-132
- https://doi.org/10.1080/00207215908937193
Abstract
Electron density decay was studied in the afterglow of pulsod electrodeless microwave discharges in krypton and xenon using 3 cm equipment. Each gas contained an unknown impurity of not more than 0-5% of the other. Gas pressure was variod from 3 to 30 mm Hg and ionizing pulse power from 1-5 to 22-5 kw. The xenon afterglow was unaffected by the krypton impurity at pressures above 5 mm Hg and lod to a recombination coefficient of 23 x 10−1 cm3 ion sec at 10 mm Hg. This coefficient increased with pressure above 10 mm Hg, probably caused by pressure limitations on tho microwave method. It is suggested that the krypton afterglow was greatly affected by charge transfer to the xenon impurity. A recombination coefficient of not greater than ion 1. 1×10−6 sec is deduced for krypton.Keywords
This publication has 11 references indexed in Scilit:
- Limitations of the Microwave Cavity Method of Measuring Electron Densities in a PlasmaPhysical Review B, 1957
- Electromagnetic Waves in an Ionized GasPhysical Review B, 1956
- Microwave Determination of the Probability of Collision of Electrons in HeliumPhysical Review B, 1954
- New Developments in the Production and Measurement of Ultra High VacuumJournal of Applied Physics, 1953
- Electron Removal in Krypton AfterglowsPhysical Review B, 1952
- Microwave Determination of the Probability of Collision of Slow Electrons in GasesPhysical Review B, 1951
- Analysis of Ionic Recombination Including Ion Production during MeasurementPhysical Review B, 1951
- Measurement of the Electron Density in Ionized Gases by Microwave TechniquesReview of Scientific Instruments, 1951
- Electron Recombination in HeliumPhysical Review B, 1950
- Conduction and Dispersion of Ionized Gases at High FrequenciesPhysical Review B, 1946