DocumentCode
1222220
Title
Triggering and guiding of an upward positive leader from a ground rod with an ultrashort laser pulse. I. Experimental results
Author
Comtois, Daniel ; Pepin, Henri ; Vidal, Francois ; Rizk, Farouk A M ; Chien, Ching-Yuan ; Johnston, Tudor Wyatt ; Kieffer, Jean-Claude ; La Fontaine, Bruno ; Martin, Francois ; Potvin, Carl ; Couture, Pierre ; Mercure, Hubert P. ; Bondiou-Clergerie, Anne
Author_Institution
Inst. Nat. de la Recherche Scientifique-Energie, Materiaux et Telecommun., Varennes, Que., Canada
Volume
31
Issue
3
fYear
2003
fDate
6/1/2003 12:00:00 AM
Firstpage
377
Lastpage
386
Abstract
Using a plasma channel produced by an ultrashort laser pulse, we have studied the laser triggering and guiding of a positive leader from the tip of a 2-m vertical rod standing on the bottom plane of a 7-m plane-plane gap. The purpose of this setup was to reproduce in the laboratory the electric field conditions leading to the onset of a positive upward leader from a ground rod as a downward negative leader is approaching during a thunderstorm, in order to demonstrate the working principle of a possible future laser lightning rod. The leader triggering properties of the laser-created plasma channel have been studied as a function of the synchronization of the laser pulse with the voltage impulse applied to the gap. We show that the laser pulse reduces the inception voltage of the leader compared to its normal value and that the laser plasma channel guides the propagation of the upward leader at a velocity ten times higher than that of an ordinary leader, with a significantly lower charge per unit length. We show that laser guiding of the leader significantly reduces the breakdown voltage of the gap and that the effect of the laser channel at the end of a lightning rod can be compared quite favorably with the effect of an additional metal rod of the same length.
Keywords
lightning; plasma production by laser; thunderstorms; downward negative leader; electric field; future laser lightning rod; ground rod; laser-created plasma channel; metal rod; plane-plane gap; plasma channel; synchronization; thunderstorm; ultrashort laser pulse; upward positive leader; voltage impulse; Bonding; Laboratories; Laser theory; Lightning; North America; Optical propagation; Optical pulses; Plasma properties; Power industry; Voltage;
fLanguage
English
Journal_Title
Plasma Science, IEEE Transactions on
Publisher
ieee
ISSN
0093-3813
Type
jour
DOI
10.1109/TPS.2003.811650
Filename
1206743
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