Adding a Tuneable Response to a Terahertz Metasurface Using a Graphene Thin Film

Andrew Squires; Xiang Gao; Tim van der Laan; Zhaojun Han; Jia Du

doi:10.1007/s10762-022-00883-1

Adding a Tuneable Response to a Terahertz Metasurface Using a Graphene Thin Film

Andrew Squires^*, Xiang Gao, Tim van der Laan, Zhaojun Han, Jia Du

^*此作品的通讯作者

网络空间安全学院

CSIRO

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

Tuneable terahertz devices are pivotal for the next-generation high-speed wireless communications and sensing technologies. The development of these devices is in its infancy, as significant challenges exist in fabricating terahertz electronics that possess tuneability while maintaining an ultrafast electrical response. In this work, a graphene film is employed as a tuneable conductive ground plate for a gold terahertz metasurface. In this way, a tuning functionality is added to the otherwise non-tuneable metasurface. Using this approach, a proof-of-concept THz transmission modulator is designed, modelled, and experimentally fabricated. The experimental device output is consistent with the simulation. Electrical bias connections are made laterally on the graphene ground, simplifying the fabrication process. This delivers a new and simple approach of adding a tuning functionality to a wide range of terahertz devices.

源语言	英语
页（从-至）	806-818
页数	13
期刊	Journal of Infrared, Millimeter, and Terahertz Waves
卷	43
期	9-10
DOI	https://doi.org/10.1007/s10762-022-00883-1
出版状态	已出版 - 9月 2022

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10.1007/s10762-022-00883-1

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abstract = "Tuneable terahertz devices are pivotal for the next-generation high-speed wireless communications and sensing technologies. The development of these devices is in its infancy, as significant challenges exist in fabricating terahertz electronics that possess tuneability while maintaining an ultrafast electrical response. In this work, a graphene film is employed as a tuneable conductive ground plate for a gold terahertz metasurface. In this way, a tuning functionality is added to the otherwise non-tuneable metasurface. Using this approach, a proof-of-concept THz transmission modulator is designed, modelled, and experimentally fabricated. The experimental device output is consistent with the simulation. Electrical bias connections are made laterally on the graphene ground, simplifying the fabrication process. This delivers a new and simple approach of adding a tuning functionality to a wide range of terahertz devices.",

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AU - Gao, Xiang

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AU - Han, Zhaojun

AU - Du, Jia

PY - 2022/9

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N2 - Tuneable terahertz devices are pivotal for the next-generation high-speed wireless communications and sensing technologies. The development of these devices is in its infancy, as significant challenges exist in fabricating terahertz electronics that possess tuneability while maintaining an ultrafast electrical response. In this work, a graphene film is employed as a tuneable conductive ground plate for a gold terahertz metasurface. In this way, a tuning functionality is added to the otherwise non-tuneable metasurface. Using this approach, a proof-of-concept THz transmission modulator is designed, modelled, and experimentally fabricated. The experimental device output is consistent with the simulation. Electrical bias connections are made laterally on the graphene ground, simplifying the fabrication process. This delivers a new and simple approach of adding a tuning functionality to a wide range of terahertz devices.

AB - Tuneable terahertz devices are pivotal for the next-generation high-speed wireless communications and sensing technologies. The development of these devices is in its infancy, as significant challenges exist in fabricating terahertz electronics that possess tuneability while maintaining an ultrafast electrical response. In this work, a graphene film is employed as a tuneable conductive ground plate for a gold terahertz metasurface. In this way, a tuning functionality is added to the otherwise non-tuneable metasurface. Using this approach, a proof-of-concept THz transmission modulator is designed, modelled, and experimentally fabricated. The experimental device output is consistent with the simulation. Electrical bias connections are made laterally on the graphene ground, simplifying the fabrication process. This delivers a new and simple approach of adding a tuning functionality to a wide range of terahertz devices.

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Adding a Tuneable Response to a Terahertz Metasurface Using a Graphene Thin Film

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