Gate-controlled terahertz focusing based on graphene-loaded metasurface

Naeem Ullah; Weiguang Liu; Guocui Wang; Zongyuan Wang; Ata Ur Rahman Khalid; Bin Hu; Juan Liu; Yan Zhang

doi:10.1364/OE.381765

Gate-controlled terahertz focusing based on graphene-loaded metasurface

Naeem Ullah, Weiguang Liu, Guocui Wang, Zongyuan Wang, Ata Ur Rahman Khalid, Bin Hu^*, Juan Liu, Yan Zhang

^*Corresponding author for this work

School of Optics and Photonics

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

40 Citations (Scopus)

Abstract

Metasurfaces have proven their great application potentials in terahertz (THz) wave modulations. However, realizing an active metasurface retaining lensing functionality in the THz frequency regime is still highly desired. Here a metalens, featuring electrically tunable focal length, based on propagation phase delay, is proposed and demonstrated experimentally. To have full control over the designed lens functionality, a gold thin film etched with a C-shaped aperture antenna array covered by monolayer graphene is used. By applying a bias voltage to the graphene, the phase control of the antenna array is changed, and thus the focus of the linearly polarized THz beam can be flexibly tuned from 7.13mm to 8.25mm. The proposed approach has a promising perspective for a variety of applications in communication, reconfigurable flat optics and real-time imaging in THz regime.

Original language	English
Pages (from-to)	2789-2798
Number of pages	10
Journal	Optics Express
Volume	28
Issue number	3
DOIs	https://doi.org/10.1364/OE.381765
Publication status	Published - 3 Feb 2020

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title = "Gate-controlled terahertz focusing based on graphene-loaded metasurface",

abstract = "Metasurfaces have proven their great application potentials in terahertz (THz) wave modulations. However, realizing an active metasurface retaining lensing functionality in the THz frequency regime is still highly desired. Here a metalens, featuring electrically tunable focal length, based on propagation phase delay, is proposed and demonstrated experimentally. To have full control over the designed lens functionality, a gold thin film etched with a C-shaped aperture antenna array covered by monolayer graphene is used. By applying a bias voltage to the graphene, the phase control of the antenna array is changed, and thus the focus of the linearly polarized THz beam can be flexibly tuned from 7.13mm to 8.25mm. The proposed approach has a promising perspective for a variety of applications in communication, reconfigurable flat optics and real-time imaging in THz regime.",

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AU - Ullah, Naeem

AU - Liu, Weiguang

AU - Wang, Guocui

AU - Wang, Zongyuan

AU - Khalid, Ata Ur Rahman

AU - Hu, Bin

AU - Liu, Juan

AU - Zhang, Yan

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AB - Metasurfaces have proven their great application potentials in terahertz (THz) wave modulations. However, realizing an active metasurface retaining lensing functionality in the THz frequency regime is still highly desired. Here a metalens, featuring electrically tunable focal length, based on propagation phase delay, is proposed and demonstrated experimentally. To have full control over the designed lens functionality, a gold thin film etched with a C-shaped aperture antenna array covered by monolayer graphene is used. By applying a bias voltage to the graphene, the phase control of the antenna array is changed, and thus the focus of the linearly polarized THz beam can be flexibly tuned from 7.13mm to 8.25mm. The proposed approach has a promising perspective for a variety of applications in communication, reconfigurable flat optics and real-time imaging in THz regime.

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Gate-controlled terahertz focusing based on graphene-loaded metasurface

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