Passive elimination of correlated amplitude fluctuations in ultrabroadband supercontinua from highly nonlinear fibers by three-wave mixing
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The nonlinear transformation of fluctuations by frequency broadening is found to produce strong anti-correlations in the spectral output. This effect is investigated by dispersive Fourier transform measurements. We exploit the anti-correlations in order to cancel the intensity noise in a subsequent sum-frequency mixing step. This principle allows for the generation of tunable visible pulses by cascaded nonlinear mixing whilst maintaining the same intensity noise performance as the input pulses. In addition, we demonstrate that the power fluctuations occurring in the process of passive stabilization of the carrier-envelope phase locking via difference frequency generation may be cancelled by an analogous strategy.
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SULZER, Philipp, Cornelius BECKH, Andreas LIEHL, Jeldrik HUSTER, Kilian R. KELLER, Moritz CIMANDER, Philipp HENZLER, Christian TRAUM, Claudius RIEK, Denis V. SELETSKIY, Alfred LEITENSTORFER, 2020. Passive elimination of correlated amplitude fluctuations in ultrabroadband supercontinua from highly nonlinear fibers by three-wave mixing. In: Optics Letters. Optical Society of America (OSA). 2020, 45(17), pp. 4714-4717. ISSN 0146-9592. eISSN 1539-4794. Available under: doi: 10.1364/OL.399269BibTex
@article{Sulzer2020-09-01Passi-50972, year={2020}, doi={10.1364/OL.399269}, title={Passive elimination of correlated amplitude fluctuations in ultrabroadband supercontinua from highly nonlinear fibers by three-wave mixing}, number={17}, volume={45}, issn={0146-9592}, journal={Optics Letters}, pages={4714--4717}, author={Sulzer, Philipp and Beckh, Cornelius and Liehl, Andreas and Huster, Jeldrik and Keller, Kilian R. and Cimander, Moritz and Henzler, Philipp and Traum, Christian and Riek, Claudius and Seletskiy, Denis V. and Leitenstorfer, Alfred} }
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