4.6 Article

Broadband and switchable terahertz polarization converter based on graphene metasurfaces

Journal

OPTICS EXPRESS
Volume 29, Issue 16, Pages 24804-24815

Publisher

Optica Publishing Group
DOI: 10.1364/OE.432601

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Funding

  1. National Natural Science Foundation of China [11574140, 11604382]
  2. Natural Science Foundation of Jiangsu Province [BK20160236]

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The proposed broadband and switchable terahertz polarization converters based on graphene metasurfaces exhibit high efficiency in polarization conversion through parameter optimization, making significant progress in THz technology and device applications.
In this work, we propose broadband and switchable terahertz (THz) polarization converters based on either graphene patch metasurface (GPMS) or its complementary structure (graphene hole metasurface, GHMS). The patch and hole are simply cross-shaped, composed of two orthogonal arms, along which plasmonic resonances mediated by Fabry-Perot cavity play a key role in polarization conversion (PC). An incidence of linear polarization will be converted to its cross-polarization (LTL) or circular polarization (LTC), as the reflected wave in the direction of two arms owning the same amplitude and pi phase difference (LTL), or +/-pi/2 phase difference (LTC). Such requirements can be met by optimizing the width and length of two arms, thickness of dielectric layer, and Fermi level EF of graphene. By using GPMS, LTL PC of polarization conversion ratio (PCR) over 90% is achieved in the frequency range of 2.92 THz to 6.26 THz, and by using GHMS, LTC PC of ellipticity chi <= -0.9 at the frequencies from 4.45 THz to 6.47 THz. By varying the Fermi level, the operating frequency can be actively tuned, and the functionality can be switched without structural modulation; for instance, GPMS supports LTL PC as E-F = 0.6 eV and LTC PC of chi >= 0.9 as E-F = 1.0 eV, in the frequency range of 2.69 THz to 4.19 THz. Moreover, GHMS can be optimized to sustain LTL PC and LTC PC of vertical bar chi vertical bar >= 0.9, in the frequency range of 4.96 THz to 6.52 THz, which indicates that the handedness of circular polarization can be further specified. The proposed polarization converters of broad bandwidth, active tunability, and switchable functionality will essentially make a significant progress in THz technology and device applications, and can be widely utilized in THz communications, sensing and spectroscopy. (C) 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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