基于超材料的太赫兹变换器

A. V. Sabluk, A. Basharin
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引用次数: 1

摘要

自20世纪80年代初以来,太赫兹范围(0.1至10太赫兹)一直受到基础科学和应用科学的关注。由于其独特的特性,太赫兹辐射被广泛应用于光谱学、无损缺陷检查和安全系统等领域。设计高效的太赫兹吸收器和转换器是目前太赫兹技术发展的主要任务。在这项工作中,频率选择性高q超材料被用于制造太赫兹-红外转换器。转换器由一个超材料基的太赫兹吸收器组成,该吸收器涂有一层微米厚的石墨层,可以在红外范围内重新发射吸收的能量。我们对所建议的辐射变换器进行了电动力学和相关的热力学计算。数值模拟结果表明,电磁辐射吸收系数为99.998%,解析计算的变换器效率为93.8%。由于这些先进的参数,建议太赫兹变换器可以在广泛的运输安全检查和缺陷检查任务中找到它的应用。
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Metamaterial-based terahertz converter
Since the early 1980s the terahertz range (0.1 to 10 THz) attracts permanent attention of fundamental and applied science. Due to its unique properties terahertz radiation is used in a wide range of applications such as spectroscopy, non-destructive defectoscopy and security systems. The design of high-efficiency terahertz absorbers and converters is currently the main task in the development of terahertz technologies. In this work a frequency selective high-Q metamaterial is used for the fabrication of a terahertz-to-infrared converter. The converter consists of a metamaterial-based terahertz absorber coated with a micrometer-thick graphite layer that reemits the absorbed energy in the infrared range. We have carried out electrodynamic and the related thermodynamic calculations of the suggested radiation converter. Numerical simulations yield an electromagnetic radiation absorption coefficient of 99.998% and an analytically calculated converter efficiency of 93.8%. Thanks to these advanced parameters suggested terahertz converter can find it’s applications in a wide range of transportation security inspection and defectoscopy tasks.
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