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半导体纳米线超材料中热可调的戴亚科诺夫表面波

Thermally tunable Dyakonov surface waves in semiconductor nanowire metamaterials.

作者信息

Moradi Mostafa

机构信息

Interdisciplinary Studies Research Institute, Shahid Beheshti University, Tehran, Iran.

出版信息

Sci Rep. 2023 Jul 31;13(1):12353. doi: 10.1038/s41598-023-39676-4.

Abstract

The development of engineered metamaterials has enabled the fabrication of tunable photonic devices capable of manipulating the characteristics of electromagnetic surface waves. Integration of semiconductors in metamaterials is a proven approach for creating thermally tunable metamaterials through temperature control of the semiconductor carrier density. In this paper, an interface consisting of an isotropic dielectric material as a cover and an indium antimonide (InSb) nanowire metamaterial as a substrate, is theoretically introduced to investigate the propagation conditions of Dyakonov surface waves in terahertz (THz) frequencies. Various temperature-dependent properties of Dyakonov surface waves in such a geometry is studied, including allowed THz regions, angular existence domain, dispersion relation, directionality, localization degree and figure of merit. The proposed configuration due to the presence of significant birefringence in InSb nanowire metamaterial, has potential applications in THz sensing, imaging and spectroscopy.

摘要

工程超材料的发展使得制造能够操纵电磁表面波特性的可调谐光子器件成为可能。将半导体集成到超材料中是一种通过控制半导体载流子密度来创建热可调谐超材料的成熟方法。本文从理论上引入了一种由各向同性介电材料作为覆盖层和锑化铟(InSb)纳米线超材料作为基底组成的界面,以研究太赫兹(THz)频率下戴亚科诺夫表面波的传播条件。研究了这种几何结构中戴亚科诺夫表面波的各种温度相关特性,包括允许的太赫兹区域、角度存在域、色散关系、方向性、局域化程度和品质因数。由于InSb纳米线超材料中存在显著的双折射,所提出的结构在太赫兹传感、成像和光谱学方面具有潜在应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dbbd/10390483/90c2af7dbf9e/41598_2023_39676_Fig1_HTML.jpg

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