Cathode of an Arc in Xenon
- 1 October 1960
- journal article
- research article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 31 (10) , 1709-1714
- https://doi.org/10.1063/1.1735430
Abstract
Energy balance, space charge, and thermionic equations have been combined to provide a description of the mechanism of the cathode in an ac arc, and the quantities required for solution determined experimentally. The experiments were carried out on barium‐activated electrodes in xenon at 1.4 atm and extended over a range of 25–75 amps rms. The work function was found to be 1.77 v at zero‐field and reduced to 1.67 v under Schottky effect of the space charge field. The work function did not change with current, but the Richardson‐Dushman A fell, as the current was raised, to a value of approximately 0.1 at the highest load. The cathode fall varied with phase angle and showed a maximum of 1.2 v at maximum current. The component of current at the cathode carried by ions reduced from 12% to 6% as the load increased.This publication has 5 references indexed in Scilit:
- über wandstabilisierte Xenon-Hochdruck-Langbogenentladungen niedrigen Druckes und geringer thermischer WandbelastungThe European Physical Journal A, 1959
- On the Research and Development of Electron Emitting Substances for Gas DischargesJournal of the Electrochemical Society, 1959
- The Negative Glow and Cathode Spots in Low Pressure Arcs†Journal of Electronics and Control, 1958
- The emission from oxide cathodes in low pressure dischargesBritish Journal of Applied Physics, 1957
- Elektrodenf lle und Bogengradienten in Hochdruckentladungen, insbesondere bei XenonThe European Physical Journal A, 1954