Core-antiresonance-based terahertz cavities and applications [Invited]

IF 3.3 2区 物理与天体物理 Q2 OPTICS
Yongpeng Han, Yangjun Mei, Chang Liu, Li Lao, Yao Yao, Jiahao Xiao, Jiayu Zhao, Yan Peng
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引用次数: 0

Abstract

This work presents a brief review of our recent research on an antiresonant mechanism named core antiresonant reflection (CARR), which leads to a broadband terahertz (THz) spectrum output with periodic dips at resonant frequencies after its transmission along a hollow-core tubular structure (e.g., a paper tube). The CARR theory relies only on parameters of the tube core (e.g., the inner diameter) rather than the cladding, thus being distinct from existing principles such as the traditional antiresonant reflection inside optical waveguides (ARROWs). We demonstrate that diverse tubular structures, including cylindrical, polyhedral, spiral, meshy, and notched hollow tubes with either transparent or opaque cladding materials, as well as a thick-walled hole, could indeed become CARR-type resonators. Based on this CARR effect, we also perform various applications, such as pressure sensing with paper-folded THz cavities, force/magnetism-driven chiral polarization modulations, and single-pulse measurements of the angular dispersion of THz beams. In future studies, the proposed CARR method promises to support breakthroughs in multiple fields by means of being extended to more kinds of tubular entities for enhancing their interactions with light waves in an antiresonance manner.
基于核反共振的太赫兹空腔及其应用[特邀]
本文简要回顾了我们最近对一种名为核心反共振反射(CARR)的反谐振机制的研究,该机制导致宽带太赫兹(THz)频谱输出在沿空心核心管状结构(例如纸管)传输后在谐振频率处具有周期性下降。CARR理论只依赖于管芯的参数(如内径),而不是包层,因此与现有的原理(如传统的光波导内部抗共振反射)不同。我们证明了各种管状结构,包括圆柱形,多面体,螺旋形,网状和缺口空心管,透明或不透明的包层材料,以及厚壁孔,确实可以成为carr型谐振器。基于这种CARR效应,我们还进行了各种应用,例如用纸折叠的太赫兹腔的压力传感,力/磁驱动的手性极化调制,以及太赫兹光束角色散的单脉冲测量。在未来的研究中,所提出的CARR方法有望通过扩展到更多种类的管状实体,以反共振方式增强其与光波的相互作用,从而支持多个领域的突破。
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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来源期刊
Chinese Optics Letters
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.
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