Optical Fiber Design And Fabrication: Discussion On Recent Developments

1st Workshop on Specialty Optical Fibers and Their Applications Pub Date : 2008-10-01 DOI:10.1063/1.3002552

P. Roy, M. Devautour, L. Lavoute, D. Gaponov, G. Brasse, S. Hautreux, S. Février, C. Restoin, J. Auguste, F. Gérôme, G. Humbert, J. Blondy

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Abstract

Level of emitted power and beam quality of singlemode fiber lasers have been drastically increased at the expense of loss due to bend sensitivity, simplicity of manufacturing and packaging. Furthermore, the extension of the spectral coverage was primarily explored by exploiting non-linear effects, neglecting numerous possible transitions of rare earths. Through different research areas, we demonstrate the possibilities offered by new fiber designs and alternative methods of manufacturing. Photonic Band Gap fibers reconcile diffraction limited beam and large mode area with low bending loss. 80 % slope efficiency is demonstrated together with a robust propagation allowing the fiber to be tightly bent until wounding radii as small as 6 cm. Highly ytterbium doped multimode core surrounded by high refractive index rods fiber exhibits a transverse singlemode behavior under continuous wave laser regime. A robust lp01 mode is observed and filtering effect is clearly observed. A non CVD process based on silica sand vitrification allows the synthesis of large and highly doped core with high index homogeneity, opening the way to design of efficient large mode area fiber lasers. 74% slope efficiency is measured, demonstrating the good quality of the core material. Finally, the use of rare earth (Er3+) doped zirconia nanocrystals in silica matrix offers a large panel of ignored energy transitions for visible or off-usual band of emission.

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光纤设计与制造:最新发展讨论

单模光纤激光器的发射功率水平和光束质量已经大大提高，但由于弯曲灵敏度、制造和包装的简单性，以牺牲损耗为代价。此外，光谱覆盖范围的扩展主要是通过利用非线性效应来探索的，忽略了稀土元素的许多可能的跃迁。通过不同的研究领域，我们展示了新纤维设计和替代制造方法所提供的可能性。光子带隙光纤兼顾了衍射受限光束和大模面积和低弯曲损耗。80%的斜率效率被证明与强大的传播，允许纤维紧密弯曲，直到伤害半径小至6厘米。高掺镱多模芯包绕高折射率棒光纤在连续波激光下表现出横向单模特性。观察到一个鲁棒的lp01模式和滤波效果明显。基于硅砂玻璃化的非CVD工艺可以合成具有高折射率均匀性的大且高掺杂芯，为设计高效的大模面积光纤激光器开辟了道路。测得74%的边坡效率，表明芯材质量良好。最后，在二氧化硅基体中使用稀土(Er3+)掺杂的氧化锆纳米晶体，为可见光或非通常发射波段提供了大量被忽略的能量跃迁。

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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1st Workshop on Specialty Optical Fibers and Their Applications

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