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Tailored supercontinuum generation using genetic algorithm optimized Fourier domain pulse shaping

Mathilde Hary, Lauri Salmela, Piotr Ryczkowski, Francesca Gallazzi, John M. Dudley, Goëry Genty

2023Optics Letters15 citationsDOIOpen Access PDF

Abstract

We report the generation of a spectrally tailored supercontinuum using Fourier-domain pulse shaping of femtosecond pulses injected into a highly nonlinear fiber controlled by a genetic algorithm. User-selectable spectral enhancement is demonstrated over the 1550-2000-nm wavelength range, with the ability to both select a channel with target central wavelength and bandwidth in the range of 1-5 nm. The spectral enhancement factor relative to unshaped input pulses is typically ∼5-20 in the range 1550-1800 nm and increases for longer wavelengths, exceeding a factor of 160 around 2000 nm. We also demonstrate results where the genetic algorithm is applied to the enhancement of up to four spectral channels simultaneously.

Topics & Concepts

SupercontinuumOpticsPulse shapingFemtosecondBandwidth (computing)Fourier transformWavelengthSelf-phase modulationMaterials scienceNonlinear opticsTime domainPhysicsLaserComputer scienceTelecommunicationsPhotonic-crystal fiberComputer visionQuantum mechanicsAdvanced Fiber Laser TechnologiesPhotonic Crystal and Fiber OpticsOptical Network Technologies
Tailored supercontinuum generation using genetic algorithm optimized Fourier domain pulse shaping | Litcius