Yb3+ doped single-mode silica fibre laser system for high peak power applications

IF 0.5 Q4 OPTICS
M. Franczyk, D. Pysz, Filip Wlodarczyk, I. Kujawa, R. Buczyński
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引用次数: 0

Abstract

We present ytterbium doped silica single-mode fibre components for high power and high energy laser applications. We developed in-house the fibre laser with high efficiency of 65% according to the launched power, the threshold of 1.16W and the fibre length of 20 m. We also elaborated the fibre with 20 µm in diameter core suitable for amplifying the beam generated in oscillator. We implemented made in-house endcaps to prove the utility of the fibre towards high peak power applications. Full Text: PDF References Strategies Unlimited, The Worldwide Market for Lasers: Market Review and Forecast, 2020 DirectLink J. Zhu, P. Zhou, Y. Ma, X. Xu, and Z. Liu, "Power scaling analysis of tandem-pumped Yb-doped fiber lasers and amplifiers", Opt. Express 19, 18645 (2011) CrossRef IPG Photonics, Product information, accessed: October, 2020. DirectLink J.W. Dawson, M. J. Messerly, R. J. Beach, M. Y. Shverdin, E. A. Stappaerts, A. K. Sridharan, P. H. Pax, J. E. Heebner, C. W. Siders, and C. P. J. Barty, "Analysis of the scalability of diffraction-limited fiber lasers and amplifiers to high average power", Opt. Express 16, 13240 (2008) CrossRef W. Koechner, "Solid-State Laser Engineering", Springer Series in Optical Science, Berlin 1999 CrossRef A. V. Smith, and B. T. Do, "Bulk and surface laser damage of silica by picosecond and nanosecond pulses at 1064 nm", Appl. Opt. 47, 4812 (2008), CrossRef M. N. Zervas, C. Codemard, "High Power Fiber Lasers: A Review", IEEE J. Sel. Top. Quantum Electron. 20, 1, 2014 CrossRef D.J. Richardson, J. Nilsson, and W.A. Clarkson, "High power fiber lasers: current status and future perspectives [Invited]", J. Opt. Soc. Am. B, 27, 63, 2010, CrossRef M. Li, X. Chen, A. Liu, S. Gray, J. Wang, D. T. Walton; L. A. Zenteno, "Limit of Effective Area for Single-Mode Operation in Step-Index Large Mode Area Laser Fibers", J. Lightw. Technol., 27, 3010, 2009, CrossRef J. Limpert, S. Hofer, A. Liem, H. Zellmer, A. Tunnermann., S. Knoke, and H. Voelckel, "100-W average-power, high-energy nanosecond fiber amplifier", App.Phys.B 75, 477, 2002, CrossRef
掺Yb3+单模硅光纤激光系统的高峰值功率应用
我们提出了用于高功率高能激光器的掺镱二氧化硅单模光纤元件。根据发射功率,阈值为1.16W,光纤长度为20 m,自主开发了效率高达65%的光纤激光器。我们还设计了直径为20 μ m的光纤芯,适用于放大振荡器产生的光束。我们实施了内部制造的端帽,以证明光纤在峰值功率应用中的实用性。朱俊,周平,马勇,徐晓霞,刘振中,“串联泵浦掺镱光纤激光器和放大器的功率缩放分析”,光子学报,18645 (2011)CrossRef IPG Photonics,产品信息,访问:2020年10月。J.W. Dawson, M. J. Messerly, R. J. Beach, M. Y. Shverdin, E. A. Stappaerts, A. K. Sridharan, P. H. Pax, J. E. Heebner, C. W. Siders, C. P. J. Barty,“衍射受限光纤激光器和放大器的高平均功率可扩展性分析”,光学学报16,13240 (2008)CrossRef W. Koechner,“固体激光器工程”,bb0系列光学科学,柏林1999 CrossRef A. V. Smith, B. T. Do,“1064nm皮秒和纳秒脉冲对二氧化硅体和表面的激光损伤”,applied。光电子工程学报,1999,12(2008),“高功率光纤激光器的研究进展”,中国光电子工程学报。上面。李志强,李志强,李志强,“高功率光纤激光器的研究现状及发展趋势[j] .光子学报,2014,31(1)。点。李明明,陈晓明,刘亚华,王建军,王德华,2010,交叉参考;李立强,“单模光纤的有效工作面积限制”,J. Lightw。抛光工艺。[j] .林珀特,何建军,李建军,等。陈志强,“高功率纳米级光纤放大器的研究”,物理学报,2002,24(3),第1页
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来源期刊
CiteScore
1.40
自引率
0.00%
发文量
24
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