拓扑谷极化微腔中太赫兹波的非线性谐波产生

IF 3.3 2区物理与天体物理 Q2 OPTICS

Chinese Optics Letters Pub Date : 2023-01-01 DOI:10.3788/col202321.081901

Yao Lu, H. Xiong, Yibo Huang, Qiang Wu, Jiwei Qi, Chongpei Pan, Jingjun Xu

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引用次数: 0

摘要

紧凑太赫兹器件，特别是非线性太赫兹元件，由于其在基于太赫兹非线性的传感、通信和计算器件中的潜在应用而受到越来越多的关注。然而，如何有效地增强、控制和限制太赫兹波的非线性谐波，仍然是微尺度太赫兹非线性器件面临的一个巨大挑战。在这项工作中，我们建立了一种在二维拓扑保护的谷光子微腔中基于声子极化增强的巨太赫兹非线性的太赫兹波非线性谐波产生技术。在非中心对称和中心对称非线性材料中都观察到有效太赫兹谐波的产生。这些结果可以为太赫兹高谐波的产生和控制提供有价值的参考，从而开发出新的太赫兹区非线性器件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nonlinear harmonic generation of terahertz waves in a topological valley polaritonic microcavity

Compact terahertz (THz) devices, especially for nonlinear THz components, have received more and more attention due to their potential applications in THz nonlinearity-based sensing, communications, and computing devices. However, effective means to enhance, control, and confine the nonlinear harmonics of THz waves remain a great challenge for micro-scale THz nonlinear devices. In this work, we have established a technique for nonlinear harmonic generation of THz waves based on phonon polariton-enhanced giant THz nonlinearity in a 2D-topologically protected valley photonic microcavity. Effective THz harmonic generation has been observed in both noncentrosymmetric and centrosymmetric nonlinear materials. These results can provide a valuable reference for the generation and control of THz high-harmonics, thus developing new non-linear devices in the THz regime.

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来源期刊

Chinese Optics Letters 物理-光学

CiteScore

5.60

自引率

20.00%

发文量

180

审稿时长

2.3 months

期刊介绍： Chinese Optics Letters (COL) is an international journal aimed at the rapid dissemination of latest, important discoveries and inventions in all branches of optical science and technology. It is considered to be one of the most important journals in optics in China. It is collected by The Optical Society (OSA) Publishing Digital Library and also indexed by Science Citation Index (SCI), Engineering Index (EI), etc. COL is distinguished by its short review period (~30 days) and publication period (~100 days). With its debut in January 2003, COL is published monthly by Chinese Laser Press, and distributed by OSA outside of Chinese Mainland.