Measurement of Complex Permittivity in 0.11–0.27 THz With a Novel Multichannel-Coupled Open Resonator

0 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE microwave and wireless technology letters Pub Date : 2024-09-16 DOI:10.1109/LMWT.2024.3437422
Jin Cheng;Yunpeng Zhang;Jiawei Long;Chengyong Yu;Chong Gao;Hu Zheng;En Li;Lin Qin;Xiangbao Zhu
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Abstract

In this letter, a novel multichannel-coupled open resonator for terahertz (THz) wider frequency range measurement is proposed. The coupling of the THz open resonator is carried out through the cooperation between the PCB coupling sheet and the pressurized flange. The operating frequency of the resonator is extended through the multichannel coupling technology under one cavity. Moreover, an improved plane mirror with a slit and an inspiratory structure is designed to enhance the stability of measurement in the THz range. The proposed system and method are of great significance for characterizing the dielectric property frequency dependence of materials in the THz range.
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利用新型多通道耦合开放式谐振器测量 0.11-0.27 太赫兹的复导率
在这封信中,我们提出了一种用于太赫兹(THz)更宽频率范围测量的新型多通道耦合开放式谐振器。太赫兹开放式谐振器的耦合是通过 PCB 耦合片和加压法兰之间的合作实现的。通过一个腔体下的多通道耦合技术,谐振器的工作频率得以扩展。此外,还设计了带有狭缝和吸气结构的改进型平面镜,以提高太赫兹范围内的测量稳定性。所提出的系统和方法对于表征太赫兹范围内材料的介电特性频率依赖性具有重要意义。
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IEEE microwave and wireless technology letters
IEEE microwave and wireless technology letters
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