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Nonlinear beam self-imaging and self-focusing dynamics in a GRIN multimode optical fiber: theory and experiments

Tobias Hansson, Alessandro Tonello, Tigran Mansuryan, Fabio Mangini, Mario Zitelli, Mario Ferraro, Alioune Niang, Rocco Crescenzi, Stefan Wabnitz, Vincent Couderc

2020Optics Express74 citationsDOIOpen Access PDF

Abstract

Beam self-imaging in nonlinear graded-index multimode optical fibers is of interest for many applications, such as implementing a fast saturable absorber mechanism in fiber lasers via multimode interference. We obtain a new exact solution for the nonlinear evolution of first and second order moments of a laser beam of arbitrary transverse shape carried by a graded-index multimode fiber. We have experimentally directly visualized the longitudinal evolution of beam self-imaging by means of femtosecond laser pulse propagation in both the anomalous and the normal dispersion regime of a standard telecom graded-index multimode optical fiber. Light scattering out of the fiber core via visible photo-luminescence emission permits us to directly measure the self-imaging period and the beam dynamics. Spatial shift and splitting of the self-imaging process under the action of self-focusing are also revealed.

Topics & Concepts

OpticsMulti-mode optical fiberPhysicsLight beamOptical fiberDispersion (optics)LaserBeam (structure)Laser beam qualityNonlinear opticsSelf-focusingPulse shapingSelf-phase modulationFemtosecondNonlinear systemFiber laserPulse (music)Saturable absorptionBeam parameter productPolarization-maintaining optical fiberPhotonic-crystal fiberTransverse planeMaterials scienceScatteringFemtosecond pulse shapingForward scatterCore (optical fiber)Graded-index fiberFiber Bragg gratingAmplified spontaneous emissionBeam diameterNonlinear Photonic SystemsAdvanced Fiber Laser TechnologiesPhotonic Crystal and Fiber Optics
Nonlinear beam self-imaging and self-focusing dynamics in a GRIN multimode optical fiber: theory and experiments | Litcius