sg:pub.10.1007/s00340-004-1557-8 - Springer Nature SciGraph

Article Info

DATE

2004-08

AUTHORS

G. Méchain, A. Couairon, Y.-B. André, C. D’Amico, M. Franco, B. Prade, S. Tzortzakis, A. Mysyrowicz, R. Sauerbrey

ABSTRACT

We report long-range self-channeling in air of multiterawatt femtosecond laser pulses with large negative initial chirps. The peak intensity in the light channels is at least one order of magnitude lower than required for multiphoton ionization of air molecules. A detailed comparison is made between experiments and realistic 3+1-dimensional numerical simulations. It reveals that the mechanism limiting the growth of intensity by filamentation is connected with broken revolution symmetry in the transverse diffraction plane. More... »

PAGES

379-382

References to SciGraph publications

1999-04. Electrical conductivity of long plasma channels in air generated by self-guided femtosecond laser pulses in APPLIED PHYSICS B

2000-10. Remote sensing of the atmosphere using ultrashort laser pulses in APPLIED PHYSICS B

2002-01. Filamentation of femtosecond laser pulses in turbulent air in APPLIED PHYSICS B

2003-03. A LIDAR technique to measure the filament length generated by a high-peak power femtosecond laser pulse in air in APPLIED PHYSICS B

Journal

TITLE

Applied Physics B

ISSUE

VOLUME

Subjects

FOR: Optical Physics

FOR: Physical Sciences

Author Affiliations

Laboratoire d'Optique Appliquée

Center of Theoretical Physics

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s00340-004-1557-8

DOI

http://dx.doi.org/10.1007/s00340-004-1557-8

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1040374633

Indexing Status Check whether this publication has been indexed by Scopus and Web Of Science using the SN Indexing Status Tool

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33	″	schema:description	We report long-range self-channeling in air of multiterawatt femtosecond laser pulses with large negative initial chirps. The peak intensity in the light channels is at least one order of magnitude lower than required for multiphoton ionization of air molecules. A detailed comparison is made between experiments and realistic 3+1-dimensional numerical simulations. It reveals that the mechanism limiting the growth of intensity by filamentation is connected with broken revolution symmetry in the transverse diffraction plane.
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