Super broadband light source: a promising master oscillator source for high brightness and high-power fiber amplifiers

光学 光纤激光器 材料科学 放大器 激光器 激光功率缩放 激光线宽 保偏光纤 色散位移光纤 激光束质量 光电子学 光纤 光纤传感器 物理 CMOS芯片 激光束
作者
Qi Chen,Wei Li,Yu Deng,Yisha Chen,Wei Liu,Zhiyong Pan,Zilun Chen,Pengfei Ma,Zefeng Wang
出处
期刊:Optics Express [Optica Publishing Group]
卷期号:32 (16): 27373-27373 被引量:1
标识
DOI:10.1364/oe.529668
摘要

Stimulated Raman scattering (SRS) and transverse mode instability (TMI) effects are crucial limitation factors for further power scaling of high-power fiber amplifiers with near-diffraction-limited beam quality. It is an important research direction to carry out laser system optimization from the perspective of seed construction. In this work, we experimentally investigated the impact of utilizing different seed lasers on the SRS and TMI characteristics in high power ytterbium-doped fiber amplifiers. Both the phase modulated single frequency fiber laser (PMSFL), fiber oscillator laser (FOL), and superfluorescent fiber source (SFS) as a typical type of temporally stable broadband light source (SBLS) are employed as seed lasers. The experimental results indicated that the SRS intensity in the fiber amplifier is influenced by the properties of the seed laser source. Notably, the SRS threshold of the SBLS could be comparable to that of a low-noise PMSFL source. There is a significant increase in TMI threshold when employing SBLS as a seed laser in high-power fiber amplifiers, which is 3.86 times that of the injected seed laser with a 3 dB narrow linewidth of 0.74 nm. Considering the combined threshold characteristics of SRS and TMI, it can be found that SBLS is a promising master oscillator source for high brightness and high-power fiber amplifiers. Our work could provide a good reference for the selection of a master oscillator source, and we believe that it is an important direction to go beyond the power limitation of high-power fiber lasers by constructing a light source with broader spectral linewidth and temporal stability.
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