Graphene-enabled electrically controlled terahertz meta-lens

Weiguang Liu; Bin Hu; Zongduo Huang; Hongyu Guan; Heting Li; Xinke Wang; Yan Zhang; Hongxing Yin; Xiaolu Xiong; Juan Liu; Yongtian Wang

doi:10.1364/PRJ.6.000703

Graphene-enabled electrically controlled terahertz meta-lens

Weiguang Liu, Bin Hu^*, Zongduo Huang, Hongyu Guan, Heting Li, Xinke Wang, Yan Zhang, Hongxing Yin, Xiaolu Xiong, Juan Liu, Yongtian Wang

^*此作品的通讯作者

光电学院

科研成果: 期刊稿件 › 文章 › 同行评审

92 引用（Scopus）

摘要

Metasurfaces have become a new photonic structure for providing potential applications to develop integrated devices with small thickness, because they can introduce an abrupt phase change by arrays of scatterers. To be applied more widely, active metasurface devices are highly desired. Here, a tunable terahertz meta-lens whose focal length is able to be electrically tuned by ∼4.45λ is demonstrated experimentally. The lens consists of a metallic metasurface and a monolayer graphene. Due to the dependence of the abrupt phase change of the metasurface on the graphene chemical potential, which can be modulated using an applied gate voltage, the focal length is changed from 10.46 to 12.24 mm when the gate voltage increases from 0 to 2.0 V. Experimental results are in good agreement with the theoretical hypothesis. This type of electrically controlled meta-lens could widen the application of terahertz technology.

源语言	英语
页（从-至）	703-708
页数	6
期刊	Photonics Research
卷	6
期	7
DOI	https://doi.org/10.1364/PRJ.6.000703
出版状态	已出版 - 1 7月 2018

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abstract = "Metasurfaces have become a new photonic structure for providing potential applications to develop integrated devices with small thickness, because they can introduce an abrupt phase change by arrays of scatterers. To be applied more widely, active metasurface devices are highly desired. Here, a tunable terahertz meta-lens whose focal length is able to be electrically tuned by ∼4.45λ is demonstrated experimentally. The lens consists of a metallic metasurface and a monolayer graphene. Due to the dependence of the abrupt phase change of the metasurface on the graphene chemical potential, which can be modulated using an applied gate voltage, the focal length is changed from 10.46 to 12.24 mm when the gate voltage increases from 0 to 2.0 V. Experimental results are in good agreement with the theoretical hypothesis. This type of electrically controlled meta-lens could widen the application of terahertz technology.",

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AU - Liu, Weiguang

AU - Hu, Bin

AU - Huang, Zongduo

AU - Guan, Hongyu

AU - Li, Heting

AU - Wang, Xinke

AU - Zhang, Yan

AU - Yin, Hongxing

AU - Xiong, Xiaolu

AU - Liu, Juan

AU - Wang, Yongtian

PY - 2018/7/1

Y1 - 2018/7/1

N2 - Metasurfaces have become a new photonic structure for providing potential applications to develop integrated devices with small thickness, because they can introduce an abrupt phase change by arrays of scatterers. To be applied more widely, active metasurface devices are highly desired. Here, a tunable terahertz meta-lens whose focal length is able to be electrically tuned by ∼4.45λ is demonstrated experimentally. The lens consists of a metallic metasurface and a monolayer graphene. Due to the dependence of the abrupt phase change of the metasurface on the graphene chemical potential, which can be modulated using an applied gate voltage, the focal length is changed from 10.46 to 12.24 mm when the gate voltage increases from 0 to 2.0 V. Experimental results are in good agreement with the theoretical hypothesis. This type of electrically controlled meta-lens could widen the application of terahertz technology.

AB - Metasurfaces have become a new photonic structure for providing potential applications to develop integrated devices with small thickness, because they can introduce an abrupt phase change by arrays of scatterers. To be applied more widely, active metasurface devices are highly desired. Here, a tunable terahertz meta-lens whose focal length is able to be electrically tuned by ∼4.45λ is demonstrated experimentally. The lens consists of a metallic metasurface and a monolayer graphene. Due to the dependence of the abrupt phase change of the metasurface on the graphene chemical potential, which can be modulated using an applied gate voltage, the focal length is changed from 10.46 to 12.24 mm when the gate voltage increases from 0 to 2.0 V. Experimental results are in good agreement with the theoretical hypothesis. This type of electrically controlled meta-lens could widen the application of terahertz technology.

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Graphene-enabled electrically controlled terahertz meta-lens

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