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Proceedings Paper

Switching of Electron Conduction Current by Molecular Photoelectron-Detachment and Photodissociation Process
Author(s): Long C. Lee; Wen C. Wang
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Paper Abstract

The molecular processes that increases a discharge current by photoelectron detachment of negative ions and decreases the current by photodissociation products could be applied for the development of fast and high repetition-rated opening switches. To demonstrate this principle, a switching of electron conduction current by laser irradiation on a DC discharge medium was investigated. The discharge current sharply increased after the discharge medium was irradiated by a laser pulse, and then decreased to a small fraction of the original DC current. Our results show that the magnitude and pulse duration of a current switching can be controlled by SOC12 pressure, laser power, and laser interaction volume.

Paper Details

Date Published: 18 May 1987
PDF: 3 pages
Proc. SPIE 0735, Pulse Power for Lasers, (18 May 1987); doi: 10.1117/12.938041
Show Author Affiliations
Long C. Lee, San Diego State University (United States)
Wen C. Wang, San Diego State University (United States)


Published in SPIE Proceedings Vol. 0735:
Pulse Power for Lasers
Tom R. Burkes, Editor(s)

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