We experimentally demonstrate that spatial beam self-cleaning can be highly efficient when obtained with a few-mode excitation in graded-index multimode optical fibers. By using 160 ps long, highly chirped (6 nm bandwidth at -3dB) optical pulses at 1562 nm, we demonstrate a one-decade reduction of the power threshold for spatial beam self-cleaning, with respect to previous experiments using pulses with laser wavelengths at 1030-1064 nm. Self-cleaned beams remain spatio-temporally stable for more than a decade of their peak power variation. The impact of input pulse temporal duration is also studied.
Highly efficient few-mode spatial beam self-cleaning at 15µm / Leventoux, Y.; Parriaux, A.; Sidelnikov, O.; Granger, G.; Jossent, M.; Lavoute, L.; Gaponov, D.; Fabert, M.; Tonello, A.; Krupa, K.; Desfarges-Berthelemot, A.; Kermene, V.; Millot, G.; Février, S.; Wabnitz, S.; Couderc, V.. - In: OPTICS EXPRESS. - ISSN 1094-4087. - 28:10(2020), pp. 1-12. [10.1364/OE.392081]
Highly efficient few-mode spatial beam self-cleaning at 15µm
Wabnitz, S.;
2020
Abstract
We experimentally demonstrate that spatial beam self-cleaning can be highly efficient when obtained with a few-mode excitation in graded-index multimode optical fibers. By using 160 ps long, highly chirped (6 nm bandwidth at -3dB) optical pulses at 1562 nm, we demonstrate a one-decade reduction of the power threshold for spatial beam self-cleaning, with respect to previous experiments using pulses with laser wavelengths at 1030-1064 nm. Self-cleaned beams remain spatio-temporally stable for more than a decade of their peak power variation. The impact of input pulse temporal duration is also studied.File | Dimensione | Formato | |
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