Tunable graphene-based metasurface for an ultra-low sidelobe terahertz phased array antenna

Yu Wang; Yue Wang; Qingyan Li; Yu Zhang; Shiyu Yan; Chunhui Wang

doi:10.1364/OE.433200

Tunable graphene-based metasurface for an ultra-low sidelobe terahertz phased array antenna

Yu Wang
, Yue Wang
, Qingyan Li
, Yu Zhang
, Shiyu Yan
, Chunhui Wang^*

^*Corresponding author for this work

School of Astronautics

Harbin Institute of Technology
Geling Institute of Artificial Intelligence and Robotics

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

In this paper, we propose an all-solid-state, electrically tunable, and reflective graphene metasurface array that can generate a specific phase or continuous scanning between 0° and 352.5° in the terahertz band. By optimizing the structural parameters of the metasurface, the average reflectivity can reach 68.3%, and the maximum reflectivity variation range is only 30%. We also simulate the results that an electrically tunable terahertz phased array can be achieved by adjusting the Fermi levels of a monolayer graphene resonator. The maximum deflection of the reflected beam is 46.05°, and the resolution can be improved to 1.10°. It should be noted that the sidelobe energy only accounts for 1.06% of the main lobe energy, due to the slight change in reflectivity with the phase gradient.

Original language	English
Pages (from-to)	26865-26875
Number of pages	11
Journal	Optics Express
Volume	29
Issue number	17
DOIs	https://doi.org/10.1364/OE.433200
State	Published - 16 Aug 2021

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abstract = "In this paper, we propose an all-solid-state, electrically tunable, and reflective graphene metasurface array that can generate a specific phase or continuous scanning between 0° and 352.5° in the terahertz band. By optimizing the structural parameters of the metasurface, the average reflectivity can reach 68.3\%, and the maximum reflectivity variation range is only 30\%. We also simulate the results that an electrically tunable terahertz phased array can be achieved by adjusting the Fermi levels of a monolayer graphene resonator. The maximum deflection of the reflected beam is 46.05°, and the resolution can be improved to 1.10°. It should be noted that the sidelobe energy only accounts for 1.06\% of the main lobe energy, due to the slight change in reflectivity with the phase gradient.",

author = "Yu Wang and Yue Wang and Qingyan Li and Yu Zhang and Shiyu Yan and Chunhui Wang",

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AU - Wang, Yu

AU - Wang, Yue

AU - Li, Qingyan

AU - Zhang, Yu

AU - Yan, Shiyu

AU - Wang, Chunhui

PY - 2021/8/16

Y1 - 2021/8/16

N2 - In this paper, we propose an all-solid-state, electrically tunable, and reflective graphene metasurface array that can generate a specific phase or continuous scanning between 0° and 352.5° in the terahertz band. By optimizing the structural parameters of the metasurface, the average reflectivity can reach 68.3%, and the maximum reflectivity variation range is only 30%. We also simulate the results that an electrically tunable terahertz phased array can be achieved by adjusting the Fermi levels of a monolayer graphene resonator. The maximum deflection of the reflected beam is 46.05°, and the resolution can be improved to 1.10°. It should be noted that the sidelobe energy only accounts for 1.06% of the main lobe energy, due to the slight change in reflectivity with the phase gradient.

AB - In this paper, we propose an all-solid-state, electrically tunable, and reflective graphene metasurface array that can generate a specific phase or continuous scanning between 0° and 352.5° in the terahertz band. By optimizing the structural parameters of the metasurface, the average reflectivity can reach 68.3%, and the maximum reflectivity variation range is only 30%. We also simulate the results that an electrically tunable terahertz phased array can be achieved by adjusting the Fermi levels of a monolayer graphene resonator. The maximum deflection of the reflected beam is 46.05°, and the resolution can be improved to 1.10°. It should be noted that the sidelobe energy only accounts for 1.06% of the main lobe energy, due to the slight change in reflectivity with the phase gradient.

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ER -

Tunable graphene-based metasurface for an ultra-low sidelobe terahertz phased array antenna

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