基于MDM波导的等离子体诱导透明研究综述(英文)
发布时间:2021-07-10 11:24
等离子体诱导透明(PIT)为设计新的光学滤波器、光开关、光存储以及集成光学器件带来了新的思路。慢光效果使PIT适用于传感器和慢光设备。此外,PIT可以克服光的衍射极限,为在半波长范围内操纵光提供了可能,有利于光学器件的小型化。本文总结了基于金属-电介质-金属(MDM)波导系统的PIT现象的研究,并分析了PIT的物理机理,包括明暗模式相互作用和相耦合诱导透明。其次,回顾了PIT在光学传感、光学滤波、光学开关、慢光器件和光学逻辑器件中的应用。最后,概述了目前需要解决的重要挑战,提供了相应的解决方案,并预测了该领域未来研究的重要方向。
【文章来源】:Journal of Central South University. 2020,27(03)EISCICSCD
【文章页数】:13 页
【文章目录】:
1 Introduction
2 PIT physical mechanism based on MDM waveguides
2.1 Interaction between bright and dark modes
2.2 Phase-coupling-induced transparency
3 Applications of PIT based on MDM waveguides
3.1 Sensors
3.2 Optical filters
3.3 Light switches
3.4 Slow light devices
3.5 Optical logic devices
4 Summary
本文编号:3275823
【文章来源】:Journal of Central South University. 2020,27(03)EISCICSCD
【文章页数】:13 页
【文章目录】:
1 Introduction
2 PIT physical mechanism based on MDM waveguides
2.1 Interaction between bright and dark modes
2.2 Phase-coupling-induced transparency
3 Applications of PIT based on MDM waveguides
3.1 Sensors
3.2 Optical filters
3.3 Light switches
3.4 Slow light devices
3.5 Optical logic devices
4 Summary
本文编号:3275823
本文链接:https://www.wllwen.com/kejilunwen/dianzigongchenglunwen/3275823.html
