基于双波段太赫兹超材料的气体折射率传感吸收体

2022 International Conference on Emerging Trends in Engineering and Medical Sciences (ICETEMS) Pub Date : 2022-11-18 DOI:10.1109/ICETEMS56252.2022.10093544

Shruti, S. Pahadsingh, B. Appasani

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引用次数: 0

摘要

本研究旨在设计基于双波段太赫兹超材料的吸收器，用于探测二氧化碳、氦、氢等气体的折射率。该设计基于砷化镓衬底上的组合六方环谐振器，在3.3175 THz和3.5787 THz下分别获得了99.068%和97.41%的高吸收率。在3.3175 THz处，q因子和FoM值分别为151.69和51.288，这是非常高的，适合于传感应用，因此可以制作折射率传感器。折射率在n=1 ~ 1.1之间变化，某些气体的折射率在此范围内，灵敏度为1.121 THz/RIU。并进行了参数化分析，选择了所提设计的各几何参数的最优值。利用电流分布图对吸附机理进行了深入研究。该吸收器适用于有害气体和有毒气体的检测。

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A Dual Band THz Metamaterial based Absorber for Gas Refractive Index Sensing

This research work aims to design dual band terahertz metamaterial based absorber for sensing the refractive index of gases like carbon dioxide, helium, hydrogen etc. This proposed design is based on combined hexagonal rings resonators on Gallium Arsenide substrate which attains a very high absorption rate of 99.068% and 97.41% at 3.3175 THz and 3.5787 THz respectively. Q-factor and Figure of Merit (FoM) was found to be 151.69 and 51.288 respectively at 3.3175 THz which is quiet high and suitable for sensing applications and thus makes refractive index sensor. The refractive index was varied from n=1 to 1.1 as the refractive index of some gasses falls between this range and the sensitivity was found to be 1.121 THz/RIU. Parametric analysis was also done to chose the optimum value of all the geometric parameters of the proposed design. The absorption mechanism was also deeply studied by current distribution plot. This proposed absorber is suitable for sensing the harmful and toxic gases.

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2022 International Conference on Emerging Trends in Engineering and Medical Sciences (ICETEMS)

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