Laser REMPI Triggering of an Air Spark Gap with Nanosecond Jitter

A laser-triggering scheme for air spark gap switches was conceived and investigated for its potential to reduce shot-to-short time jitter. The scheme utilizes a pulsed ultraviolet laser of relatively low energy to generate resonant enhanced multi-photon ionization (REMPI) within the atmospheric air...

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Bibliographic Details
Main Authors: Miles, J.A., Adams, S.F., DeJoseph, C.A., Laber, A.C.
Format: Conference Proceeding
Language:English
Subjects:
Avalanche breakdown
Breakdown voltage
Fiber lasers
Gas lasers
Ionization
Jitter
Optical pulse generation
Resonance
Sparks
Switches
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Summary:A laser-triggering scheme for air spark gap switches was conceived and investigated for its potential to reduce shot-to-short time jitter. The scheme utilizes a pulsed ultraviolet laser of relatively low energy to generate resonant enhanced multi-photon ionization (REMPI) within the atmospheric air medium of the spark gap switch. With an applied voltage below the self-breakdown level, the laser-induced pre-ionization initiated avalanche breakdown within the gap and the subsequent triggering of the switch. This laser induced pre-ionization process relied solely on gas phase ionization and not surface effects, since the laser does not strike either electrode. This triggering scheme produced sub-nanosecond jitter with low enough laser power that it could be transmitted through fiber optics, which would be advantageous for multi-switch triggering of a high current pulse. The laser pre-ionization effects of space charge, electric field distribution, and active species within the gap were analyzed for their role in driving electron multiplication leading to avalanche breakdown below the self-breakdown voltage. Experimental results will be presented, including arc timing and statistical jitter measurements, as well as optical images and spectral analysis of the arc emission.
ISSN:1930-885X
2576-7283
DOI:10.1109/IPMC.2008.4743641