扭曲单层二维+莫伊里光子晶体和双层莫伊里光子晶体中的光致密性

IF 2.1 4区 物理与天体物理 Q2 OPTICS
Steve Kamau, N. Hurley, Anupama B. Kaul, Jingbiao Cui, Yuankun Lin
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引用次数: 0

摘要

扭曲光子晶体是石墨烯等扭曲单层材料的光子类似物,其光学特性研究仍处于起步阶段。本文报告了在 z 方向存在弱调制的扭曲单层 2D+ 摩尔纹光子晶体和双层摩尔纹重叠摩尔纹光子晶体的光学特性。在弱耦合双层莫尔雷-重叠-莫尔雷光子晶体中,光源的局部性随着扭曲角度的增大而减弱,这与哈佛大学研究小组在参考文献 37 和 38 中报告的扭曲双层光子晶体的结果相似,尽管在前一种情况下存在梯度模式。然而,在强耦合情况下,光源被紧密地定位在大扭转角双层光子晶体的 AA 叠层区域。对于单层二维+莫伊里光子晶体,当单层二维+莫伊里光子晶体集成在玻璃衬底上时,Ex 偏振的光源可以定位并形成共振模式。这项研究为 2D+ 摩尔纹光子晶体在未来片上光电集成中的应用提供了可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Light Confinement in Twisted Single-Layer 2D+ Moiré Photonic Crystals and Bilayer Moiré Photonic Crystals
Twisted photonic crystals are photonic analogs of twisted monolayer materials such as graphene and their optical property studies are still in their infancy. This paper reports optical properties of twisted single-layer 2D+ moiré photonic crystals where there is a weak modulation in z direction, and bilayer moiré-overlapping-moiré photonic crystals. In weak-coupling bilayer moiré-overlapping-moiré photonic crystals, the light source is less localized with an increasing twist angle, similar to the results reported by the Harvard research group in References 37 and 38 on twisted bilayer photonic crystals, although there is a gradient pattern in the former case. In a strong-coupling case, however, the light source is tightly localized in AA-stacked region in bilayer PhCs with a large twist angle. For single-layer 2D+ moiré photonic crystals, the light source in Ex polarization can be localized and forms resonance modes when the single-layer 2D+ moiré photonic crystal is integrated on a glass substrate. This study leads to a potential application of 2D+ moiré photonic crystal in future on-chip optoelectronic integration.
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来源期刊
Photonics
Photonics Physics and Astronomy-Instrumentation
CiteScore
2.60
自引率
20.80%
发文量
817
审稿时长
8 weeks
期刊介绍: Photonics (ISSN 2304-6732) aims at a fast turn around time for peer-reviewing manuscripts and producing accepted articles. The online-only and open access nature of the journal will allow for a speedy and wide circulation of your research as well as review articles. We aim at establishing Photonics as a leading venue for publishing high impact fundamental research but also applications of optics and photonics. The journal particularly welcomes both theoretical (simulation) and experimental research. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Electronic files and software regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material.
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