Strong nonreciprocal thermal radiation based on topological edge state in one-dimensional photonic crystal with Weyl semimetal

IF 5 2区 工程技术 Q1 ENGINEERING, MECHANICAL International Journal of Heat and Mass Transfer Pub Date : 2023-09-01 DOI:10.1016/j.ijheatmasstransfer.2023.124259
Min Luo, Yu Xiao
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引用次数: 3

Abstract

Kirchhoff's law is the theoretical basis for characterizing thermal radiation. The construction of nonreciprocal thermal radiation needs to violate Kirchhoff's law, in which its existing methods usually utilize the magneto-optical effect with an external magnetic field. However, natural materials' relatively weak magneto-optical response in the thermal wavelength range requires a strong or moderate magnetic field. Fortunately, the unique topologically nontrivial electronic state and inherent time-reversal symmetry breaking of Weyl semimetals can exhibit highly unusual and extremely large gyrotropic optical responses in the mid-infrared band without an external magnetic field, which provides a new way to violate Kirchhoff's law. This work theoretically investigates the nonreciprocity of a multilayer structure in which a Weyl semimetal is embedded in two one-dimensional photonic crystals. The results show that the absorptivity and emissivity of the structure almost completely violate Kirchhoff's law over a broad range of angles (7° ∼ 51°) and frequencies (56.4 THz ∼ 65.3 THz) without any external magnetic field. We also discuss the effects of the incident angle, the axial vector of the Weyl semimetal, and the thickness of the Weyl semimetal on the characteristics of nonreciprocal thermal radiation. Furthermore, the electric field distribution reveals that the structurally excited topological edge states significantly enhance the local electric field in the vicinity of the Weyl semimetal, providing positive conditions for the realization of perfect strong nonreciprocal thermal radiation. We hope this work may contribute to the design of strong nonreciprocal thermal emitters.

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基于拓扑边缘态的一维Weyl半金属光子晶体强非互易热辐射
基尔霍夫定律是表征热辐射的理论基础。非互易热辐射的构造需要违反基尔霍夫定律,其现有方法通常利用外加磁场的磁光效应。然而,天然材料在热波长范围内相对较弱的磁光响应需要较强或中等强度的磁场。幸运的是,Weyl半金属独特的拓扑非平凡电子态和固有的时间反转对称性破缺可以在没有外磁场的情况下在中红外频段表现出非常不寻常和极大的回旋性光学响应,这为违反基尔霍夫定律提供了一种新的途径。这项工作从理论上研究了Weyl半金属嵌入两个一维光子晶体中的多层结构的非互易性。结果表明,在没有外加磁场的情况下,该结构的吸收率和发射率在较宽的角度(7°~ 51°)和频率(56.4 THz ~ 65.3 THz)范围内几乎完全违反基尔霍夫定律。我们还讨论了入射角、Weyl半金属的轴向矢量和Weyl半金属的厚度对非倒易热辐射特性的影响。此外,电场分布表明,结构激发的拓扑边缘态显著增强了Weyl半金属附近的局部电场,为实现完美的强非互易热辐射提供了积极条件。我们希望这项工作能对强非互易热辐射体的设计有所贡献。
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来源期刊
CiteScore
10.30
自引率
13.50%
发文量
1319
审稿时长
41 days
期刊介绍: International Journal of Heat and Mass Transfer is the vehicle for the exchange of basic ideas in heat and mass transfer between research workers and engineers throughout the world. It focuses on both analytical and experimental research, with an emphasis on contributions which increase the basic understanding of transfer processes and their application to engineering problems. Topics include: -New methods of measuring and/or correlating transport-property data -Energy engineering -Environmental applications of heat and/or mass transfer
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