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Intelligent gain flattening in wavelength and space domain for FMF Raman amplification by machine learning based inverse design

Yufeng Chen, Jiangbing Du, Yuting Huang, Ke Xu, Zuyuan He

2020Optics Express29 citationsDOIOpen Access PDF

Abstract

We propose a machine learning based approach to design few-mode DRAs by using neural networks to optimize the pump wavelengths, powers and mode content in order to obtain flat gain spectrum with low mode-dependent gain (MDG). Based on the proposed intelligent inverse design method, amplification optimization for the random fiber laser based two-mode DRA can be achieved with gain flatness of 1.0 dB and MDG of 0.6 dB at 14.5 dB on-off gain level. For backward pumping four-mode DRA, gain flatness of 0.46 dB and MDG of 0.3 dB can be achieved at 12.5 dB on-off gain.

Topics & Concepts

Flatness (cosmology)FlatteningOpticsRaman amplificationWavelengthAmplified spontaneous emissionFiber laserInverseLaserMaterials scienceComputer sciencePhysicsOptical amplifierMathematicsCosmologyGeometryComposite materialQuantum mechanicsOptical Network TechnologiesPhotonic Crystal and Fiber OpticsAdvanced Fiber Laser Technologies
Intelligent gain flattening in wavelength and space domain for FMF Raman amplification by machine learning based inverse design | Litcius