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Power scaling of Raman fiber amplifier based on the optimization of temporal and spectral characteristics

Yizhu Chen, Jiaxin Song, Jun Ye, Tianfu Yao, Jiangming Xu, Hu Xiao, Jinyong Leng, Pu Zhou

2020Optics Express22 citationsDOIOpen Access PDF

Abstract

We comprehensively study the effects of temporal and spectral optimization on single-mode Raman fiber amplifiers. Amplified spontaneous emission sources and ytterbium-doped fiber lasers are employed as seed or pump lasers for comparison, and passive fibers are utilized as gain media. The influences of various parameters of the laser on 2 nd order Raman threshold and maximum output power are investigated experimentally, including bandwidth, seed power, wavelength separation between pump and seed laser, and temporal stability. With the 190 m passive fiber, the output power increases from 99.5 W to 142.4 W, corresponding to 43.1% improvement through the optimization of seed laser power, pump wavelength and temporal performance of pump source in this amplifier, which has guidance on the establishment of high-power single-mode Raman fiber amplifiers.

Topics & Concepts

Fiber laserMaterials scienceOpticsAmplified spontaneous emissionLaserLaser power scalingAmplifierRaman spectroscopyDouble-clad fiberOptical amplifierDispersion-shifted fiberLaser pumpingPolarization-maintaining optical fiberOptoelectronicsOptical fiberFiber optic sensorPhysicsCMOSPhotonic Crystal and Fiber OpticsOptical Network TechnologiesAdvanced Fiber Laser Technologies