We experimentally and numerically study the ignition of helical-shaped plasma filaments in standard optical fibers. Femtosecond pulses with megawatt peak power with proper off-axis and tilted coupling in the fiber core produce plasma skew rays. These last for distances as long as 1000 wavelengths thanks to a combination of linear waveguiding and the self-channeling effect. Peculiar is the case of graded-index multimode fibers; here the spatial self-imaging places constraints on the helix pitch. These results may find applications for fabricating fibers with helical-shaped core micro-structuration as well as for designing laser components and three-dimensional optical memories.
Helical plasma filaments from the self-channeling of intense femtosecond laser pulses in optical fibers / Mangini, F.; Ferraro, M.; Zitelli, M.; Niang, A.; Mansuryan, T.; Tonello, A.; Couderc, V.; De Luca, A.; Babin, S. A.; Frezza, F.; Wabnitz, S.. - In: OPTICS LETTERS. - ISSN 0146-9592. - 47:1(2022), pp. 1-4. [10.1364/OL.445321]
Helical plasma filaments from the self-channeling of intense femtosecond laser pulses in optical fibers
Mangini, F.;Ferraro, M.;Zitelli, M.;Frezza, F.;Wabnitz, S.
2022
Abstract
We experimentally and numerically study the ignition of helical-shaped plasma filaments in standard optical fibers. Femtosecond pulses with megawatt peak power with proper off-axis and tilted coupling in the fiber core produce plasma skew rays. These last for distances as long as 1000 wavelengths thanks to a combination of linear waveguiding and the self-channeling effect. Peculiar is the case of graded-index multimode fibers; here the spatial self-imaging places constraints on the helix pitch. These results may find applications for fabricating fibers with helical-shaped core micro-structuration as well as for designing laser components and three-dimensional optical memories.File | Dimensione | Formato | |
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