材料科学
光纤激光器
激光功率缩放
激光器
光学
激光束质量
光电子学
双包层光纤
纤维
保偏光纤
光纤传感器
物理
激光束
复合材料
作者
Baolai Yang,Chen Shi,Hanwei Zhang,Qing Ye,Haoyang Pi,Rumao Tao,Xiaolin Wang,Pengfei Ma,Jinyong Leng,Zilun Chen,Pu Zhou,Xiaojun Xu,Jinbao Chen,Zejin Liu
标识
DOI:10.1088/1612-202x/aac19f
摘要
With an increasing output power, the power scaling of monolithic fiber laser oscillators faces the severe limitations of stimulated Raman scattering (SRS) and the transverse mode instability (TMI) effect. In this work, we report a high power monolithic fiber laser oscillator with a maximum output power of 5.2 kW, which is realized with a trade-off design between the SRS and TMI. The monolithic fiber laser oscillator is constructed with ytterbium-doped fiber with a core/inner cladding diameter of 25/400 µm and corresponding home-made FBG. High-power 915 nm laser diodes are employed as a pump source and are distributed in a bidirectional-pump configuration. By optimizing the bidirectional pump proportion, the monolithic fiber laser oscillator is scaled up to 5.2 kW with a slope efficiency of ~63%. Operating at 5.2 kW, the intensity of the Raman stokes light is ~22 dB below the signal laser and the beam quality (M2-factor) is ~2.2. To the best of our knowledge, this is a record high power for monolithic fiber laser oscillators.
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