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A 301 W narrow-linewidth in-band pumped Er:Yb co-doped fiber amplifier at 1585 nm and related modeling for dynamics study and optimization

Guohao Fu, Guanzhong Li, Weilong Yu, Pei Li, Dan Li, Qirong Xiao, Mali Gong, Ping Yan

2024High Power Laser Science and Engineering16 citationsDOIOpen Access PDF

Abstract

Abstract To overcome Yb lasing, a kilowatt-level 1535 nm fiber laser is utilized to in-band pump an Er:Yb co-doped fiber (EYDF) amplifier. The output power of a 301 W narrow-linewidth EYDF amplifier operating at 1585 nm, with 3 dB bandwidth of 150 pm and ${M}^2$ < 1.4, is experimentally demonstrated. To the best of our knowledge, it is the highest output power achieved in L-band narrow-linewidth fiber amplifiers with good beam quality. Theoretically, a new ion transition behavior among energy levels for in-band pumping EYDF is uncovered, and a spatial-mode-resolved nonlinearity-assisted theoretical model is developed to understand its internal dynamics. Numerical simulations reveal that the reduction in slope efficiency is significantly related to excited-state absorption (ESA). ESA has a nonlinear hindering effect on power scaling. It can drastically lower the pump absorption and slope efficiency with increasing pump power for in-band pumped EYDF amplifiers. Meanwhile, optimized approaches are proposed to improve its power to the kilowatt level via in-band pumping.

Topics & Concepts

Laser linewidthMaterials scienceFiber amplifierDopingAmplifierOptoelectronicsDynamics (music)FiberOpticsPhysicsLaserAcousticsCMOSComposite materialPhotonic Crystal and Fiber OpticsOptical Network TechnologiesAdvanced Fiber Optic Sensors
A 301 W narrow-linewidth in-band pumped Er:Yb co-doped fiber amplifier at 1585 nm and related modeling for dynamics study and optimization | Litcius