Multi-stage amplification of laser near 980 nm enabled by absorption saturation of Yb-doped fiber

IF 2.7 3区计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Optical Fiber Technology Pub Date : 2025-10-24 DOI:10.1016/j.yofte.2025.104456

Maoni Chen , Jianqiu Cao , Shangde Zhou , Qi Zhang , Aimin Liu , Zhihe Huang , Zefeng Wang , Jinbao Chen

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引用次数: 0

Abstract

Multi-stage amplification is significant for up-scaling near-diffraction-limited laser power near 980 nm. However, its feasibility is unclear due to the 1030-nm amplified spontaneous emission (ASE) enhanced by high-power seed light injected into last-stage amplifier. This paper investigates the feasibility of multi-stage amplification near 980 nm by studying the effect of seed light. Interestingly, it is found that the 1030-nm ASE can always be well suppressed with unlimitedly enlarged seed power because of saturation absorption of Yb-doped fiber (YDF), as long as YDF is short enough. More importantly, the shortened YDF is no shorter than the optimum YDF length of pumped amplifier near 980 nm, and thus it will not lower the amplifier efficiency. Thus, multi-stage amplification near 980 nm is feasible without cost of pump efficiency. The experimental demonstration is also given by using a two-stage YDF amplifier, and the record 163.4-W power at 979 nm with M² factor smaller than 1.8 is achieved. This study can provide significant guidance for studying high-power high-brightness fiber lasers near 980 nm and their applications.

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利用掺镱光纤的吸收饱和实现了980 nm附近激光的多级放大

在980 nm附近，多级放大对于提高近衍射极限激光功率具有重要意义。然而，由于高功率种子光注入末级放大器后会增强1030 nm的放大自发发射（ASE），因此其可行性尚不明确。本文通过对种子光效应的研究，探讨了980 nm附近多级放大的可行性。有趣的是，我们发现，只要掺镱光纤（YDF）足够短，在无限放大种子功率的情况下，1030 nm ASE总是可以被很好地抑制。更重要的是，缩短的YDF长度不短于泵浦放大器在980 nm附近的最佳YDF长度，因此不会降低放大器的效率。因此，在不影响泵效率的情况下，在980 nm附近进行多级放大是可行的。利用两级YDF放大器进行了实验验证，在M2因子小于1.8的情况下，在979 nm处获得了163.4 w的创纪录功率。该研究对980 nm附近高功率高亮度光纤激光器的研究及其应用具有重要的指导意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Optical Fiber Technology 工程技术-电信学

CiteScore

4.80

自引率

11.10%

发文量

327

审稿时长

63 days

期刊介绍： Innovations in optical fiber technology are revolutionizing world communications. Newly developed fiber amplifiers allow for direct transmission of high-speed signals over transcontinental distances without the need for electronic regeneration. Optical fibers find new applications in data processing. The impact of fiber materials, devices, and systems on communications in the coming decades will create an abundance of primary literature and the need for up-to-date reviews. Optical Fiber Technology: Materials, Devices, and Systems is a new cutting-edge journal designed to fill a need in this rapidly evolving field for speedy publication of regular length papers. Both theoretical and experimental papers on fiber materials, devices, and system performance evaluation and measurements are eligible, with emphasis on practical applications.