Two layer metamaterials for selective frequency transmission in the terahertz region (Presentation Recording)

SPIE NanoScience + Engineering Pub Date : 2015-10-05 DOI:10.1117/12.2188966

M. Landau

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Abstract

We have fabricated a metamaterial tunable filter for dynamic frequency selection in the terahertz region. The metamaterial consists of a sandwich of two meta-surfaces grown on high resistivity silicon wafers. The first meta-surface consists of a two-dimensional array of gold double split ring resonators and the second meta-surface consisits of an array of gold cut rods. Both meta-surfaces are fabricated for a response in the terahertz region. Our terahertz pulses are produced using the standard Austin switch technique. The terahertz pulse is focused onto the two meta-surfaces which are sandwiched together to produce a transmission window. Together, with the right orientation, translation, and parallelism of the two meta-surfaces, we achieve filtering of terahertz pulses. Since the unit cells for the inclusions are on the order of 100 microns, control of the translation, orientation, and parallelism of the two meta-surfaces with respect to each other and with respect to the orientation and direction of the impinging terahertz field is a challenge. We describe our technique for doing this and present data on our frequency filtering in the terahertz.

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用于太赫兹区域选择性频率传输的两层超材料(演示记录)

我们制作了一个用于太赫兹区域动态频率选择的超材料可调谐滤波器。这种超材料由生长在高电阻硅晶片上的两个超表面组成。第一元表面由金双裂环谐振器的二维阵列组成，第二元表面由金切割棒阵列组成。这两种元表面都是为太赫兹区域的响应而制造的。我们的太赫兹脉冲是用标准的奥斯汀开关技术产生的。太赫兹脉冲聚焦在两个被夹在一起的元表面上，形成一个传输窗口。结合两个元表面的正确方向、平移和平行度，我们实现了太赫兹脉冲的滤波。由于内含物的单元格在100微米量级，因此控制两个元表面相对于彼此以及相对于撞击太赫兹场的方向和方向的平移、方向和平行度是一个挑战。我们描述了我们的技术，并介绍了我们在太赫兹频率滤波的数据。

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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SPIE NanoScience + Engineering

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