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  

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作  者:Guohao Fu Guanzhong Li Weilong Yu Pei Li Dan Li Qirong Xiao Mali Gong Ping Yan 

机构地区:[1]Department of Precision Instrument,Tsinghua University,Beijing,China [2]State Key Laboratory of Precision Space-time Information Sensing Technology,Beijing,China

出  处:《High Power Laser Science and Engineering》2024年第4期24-35,共12页高功率激光科学与工程(英文版)

基  金:supported by the National Natural Science Foundation of China(Nos.62122040,62075113 and 61875103)。

摘  要: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 nonlinearityassisted 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.

关 键 词:Er:Yb co-doped fiber amplifier excited-state absorption in-band pumping ion transition behavior spatial-mode-resolved nonlinearity-assisted theoretical model 

分 类 号:TN248[电子电信—物理电子学] TN722

 

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