谷光子晶体

IF 7.7 2区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY

Advances in Physics: X Pub Date : 2021-01-01 DOI:10.1080/23746149.2021.1905546

Jian-Wei Liu, Fulong Shi, Xin-Tao He, Guo-Jing Tang, Wen-Jie Chen, Xiaodong Chen, Jianwen Dong

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引用次数: 38

摘要

拓扑光子学是一个新兴领域，以其新颖的设计光流的方法吸引了人们的极大兴趣。在拓扑保护的作用下，拓扑光子系统的表面模式具有单向传输、抗缺陷和抗干扰的鲁棒性，满足了快速增长的信息处理需求。谷光子晶体作为一种拓扑光子系统，不仅支持保护表面模式，而且易于微纳加工。这些优点表明它在构建高性能光子器件甚至光子集成电路方面具有广阔的前景。本文综述了谷光子晶体的性质及其研究进展。首先简要介绍了系统的原理和结构，然后讨论了系统的鲁棒传输问题。此外，还介绍了基于谷光子晶体的片上器件的原型。谷光子晶体作为光子学的一个视角，有望成为研究纳米光子学和实现先进集成光子学器件的良好平台。图形抽象

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Valley photonic crystals

ABSTRACT Topological photonics is an emerging field that attracts enormous interest for its novel ways to engineer the flow of light. With the help of topological protection, the surface modes of topological photonic systems have intriguing properties, such as the unidirectional propagation, robust transmission against defects and disorders, which meet the rapidly growing demands for information processing. Valley photonic crystals, as one kind of topological photonic systems, not only support protected surface modes, but also are friendly to micro-nano fabrication. These advantages show that it has broad prospects in constructing high-performance photonic devices or even photonic integrated circuits. Here, we review the properties and development of valley photonic crystals. Firstly, the theory and structure are briefly introduced and then the discussion of robust transmission will be followed. Furthermore, prototypes of on-chip devices based on valley photonic crystals are reviewed. As a perspective in photonics, valley photonic crystal is expected to become a good platform to study nanophotonics and realize advancing integrated photonics devices. Graphical Abstract

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来源期刊

Advances in Physics: X Physics and Astronomy-General Physics and Astronomy

CiteScore

13.60

自引率

0.00%

发文量

审稿时长

13 weeks

期刊介绍： Advances in Physics: X is a fully open-access journal that promotes the centrality of physics and physical measurement to modern science and technology. Advances in Physics: X aims to demonstrate the interconnectivity of physics, meaning the intellectual relationships that exist between one branch of physics and another, as well as the influence of physics across (hence the “X”) traditional boundaries into other disciplines including: Chemistry Materials Science Engineering Biology Medicine