Collimation Effect on THz Transmission Resonances in Metalized and Defected Photonic Structures

Research Trends and Challenges in Physical Science Vol. 1 Pub Date : 2021-08-26 DOI:10.9734/bpi/rtcps/v1/4111f

E. Glushko

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引用次数: 1

Abstract

A photonic crystal resonator optically contacted with a metal film generates in the THz frequency range a system of sharp spikes of electromagnetic quenching matching the reflection spectra of a bore resonator. It was shown that the calculated angle-frequency map of reflection for a metalized polypropilene/air structure contains narrow lines of extraordinary transmission through the metal film. In this work, we found that sharp peaks of electromagnetic transmission can also be generated at certain conditions by the defect containing resonators. The effect depends essentially on the defect position and number of periods. A remarkable property of the considered resonators when a thin inclined line of transmission takes place against the backdrop of perfect reflection can serve as a ground effect in compact and reliable direction control devices and THz radiation collimating devices. Energy concentration and collimation effect in a metalized resonator structure fitted with a stochastic EMW reservoir was evaluated. Enhancement of THz radiation filtering based on peaks of resonant transmission was discussed.

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金属化和缺陷光子结构中太赫兹透射共振的准直效应

与金属薄膜光学接触的光子晶体谐振器在太赫兹频率范围内产生与孔谐振器反射光谱相匹配的电磁猝灭尖峰系统。结果表明，计算得到的金属化聚丙烯/空气结构的反射角频图包含通过金属薄膜的特殊透射的窄线。在这项工作中，我们发现在某些条件下，含缺陷谐振器也可以产生电磁传输的尖峰。效果主要取决于缺陷的位置和周期数。所考虑的谐振器在完全反射背景下发生细倾斜透射线时具有显著的特性，可以作为紧凑可靠的方向控制装置和太赫兹辐射准直装置的地效应。对随机EMW储层金属化谐振腔结构的能量集中和准直效应进行了评价。讨论了利用谐振透射峰增强太赫兹辐射滤波的方法。

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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Research Trends and Challenges in Physical Science Vol. 1

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