摘要
本文主要分析了弯曲波导损耗机理,包括传输损耗、辐射损耗、模式转换损耗。重点综述了设计低损耗弯曲波导的方法,包括波导材料、弯曲波导的曲线形状、波导种类、脊型波导的宽度、脊高、弯曲半径、模场分布、弯曲波导曲线形状和其他新型波导结构等。简要概括了近年来设计和制备低损耗弯曲波导的代表性工作。介绍了弯曲波导在集成光学中的应用。通过对弯曲波导的损耗及耦合机制理论的不断完善,实现光在较小弯曲半径的低损耗传输,从而提高集成光学的集成度是弯曲波导今后的发展趋势。
The loss mechanism of bent waveguide including the bending loss,propagation loss,radiation loss and the loss of mode conversion are theorically analysed in this paper. It focuses on the review of the design of low loss bent waveguide,including materials,the shape of bent waveguide,strip or rib waveguide,the width,height and radius of the bent waveguide,the dismatch of mode,the shape of the curve and other newstructures. The representative works on the design and fabrication of low loss bent waveguides are summarized.The development status of the low loss bent waveguide is analysed and its applications in integrated optical are introduced. The future developing trend of bent waveguide is to develope the theory of the loss characterization and wave coupling,and to realize low bending loss with very small bending radii for high desity integration in Photonics Integrated Circuits(PICs).
作者
高峰
秦莉
陈泳屹
贾鹏
陈超
梁磊
陈红
张星
宁永强
GAO Feng QIN Li CHEN Yong-yi JIA Peng CHEN Chao LIANG Lei CHEN Hong ZHANG Xing NING Yong-qiang(State Key Laboratory of Luminescence and Applications, Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, China University of Chinese Academy of Sciences ,Beijing 100049, China)
出处
《中国光学》
EI
CAS
CSCD
2017年第2期176-193,共18页
Chinese Optics
基金
国家自然科学基金资助项目(No.61234004
No.11404327
No.61306086
No.11404327)
国家科技重大专项资助项目(No.2014ZX04001151)
吉林省科技发展计划资助项目(No.20150203007GX
No.20140101172JC
No.20140520132JH)
长春市重大科技攻关计划资助项目(No.14KG006)
长春市科技局计划资助项目(No.15SS02)~~
关键词
弯曲波导
集成光学
SOI
低损耗波导
bent waveguide
integrated optical
Silicon-on-insulator(SOI)
low-loss-waveguide
