ARTIFICIAL ENGINEERING AND CHARACTERIZATION OF MICRO- AND NANOSCALE ELECTROMAGNETIC METAMATERIALS FOR THE THz SPECTRAL RANGE

B. Casse, H. Moser, M. Bahou, J. Lee, Stephen Inglis, L. Jian
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引用次数: 2

Abstract

Electromagnetic metamaterials are a new class of ordered composite materials made from metallic unit structures that exhibit an electric and magnetic response to an incident electromagnetic wavefield such that ∊ and μ become simultaneously negative. We review the recent progress made in manufacturing and characterizing micro- and nanostructured metamaterials from 1 to 216 THz (300 to 1.4 μm, respectively), at the Singapore Synchrotron Light Source, and discuss new developments towards three-dimensional and multilayered metamaterials structures by means of deep X-ray lithography.
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太赫兹光谱范围内微、奈米级电磁超材料的人工工程与表征
电磁超材料是一类由金属单元结构制成的新型有序复合材料,它们在入射电磁波场中表现出电和磁响应,使其和μ同时变为负值。本文综述了在新加坡同步加速器光源下,在1 ~ 216太赫兹(分别为300 ~ 1.4 μm)范围内制造和表征微纳米结构超材料的最新进展,并讨论了利用深x射线光刻技术在三维和多层超材料结构方面的新进展。
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