结构光纤激光器

ACOFT/AOS 2006 - Australian Conference on Optical Fibre Technology/Australian Optical Society Pub Date : 2006-07-10 DOI:10.1109/ACOFT.2006.4519274

J. Canning

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引用次数: 2

摘要

光子晶体纤维和空气包层纤维为激光技术开辟了前所未有的机遇，包括国防、材料加工和传感。空气孔的存在有利于传感，并允许为各种各样的应用引入材料，如开关和调制。特别值得注意的是空气包层光纤激光器，这是越来越首选的替代聚合物包层光纤激光器的高功率操作。将光栅(包括DFB结构)集成到这些光纤中的能力为未来的全光纤拓扑铺平了道路，在这种拓扑结构中，不需要大量光学器件。然而，为了确保实现这一潜力，仍需要进行大量的研究工作。对OFTC开展的工作进行了回顾，重点介绍了它们的特性和潜力。

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Structured fibre lasers

Photonic crystal fibres and air-clad fibres have opened up unprecedented opportunities in laser-based technologies, including defence, material processing and sensing. The presence of air holes benefits sensing and permits the general introduction of materials for applications as diverse as switching and modulation. Of particular note are air clad fibre lasers, which are an increasingly preferred alternative to polymer clad fibre lasers for high power operation. The ability to incorporate gratings, including DFB structures, into these fibres paves the way for future all-fibre topologies where bulk optics need not be necessary. However, significant research effort remains to ensure that this potential is fulfilled. A review of the work carried out at the OFTC highlighting their properties and potential is presented.

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来源期刊

ACOFT/AOS 2006 - Australian Conference on Optical Fibre Technology/Australian Optical Society

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