4.4 Article

Design of a Compound Reconfigurable Terahertz Antenna Based on Graphene

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PLASMONICS
卷 -, 期 -, 页码 -

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SPRINGER
DOI: 10.1007/s11468-023-02011-8

关键词

Compound reconfiguration; Terahertz; Dipole antenna; Graphene

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This paper presents the design of a terahertz dipole antenna with compound reconfigurability, allowing control over frequency, radiation pattern, and polarization state. By applying a capacitive load loop (CLL) made of graphene-metal composite material around a pair of orthogonal graphene-based dipole antennas and adjusting the bias voltage, the surface conductivity of graphene can be controlled to achieve compound reconfigurability. The graphene strips on the CLL provide flexibility in radiation characteristics. The operating frequency of the antenna can be reconfigured within the range of 1.40 to 1.84 THz by adjusting the combination of chemical potentials of graphene. Additionally, directional radiation with four beams (0°, 90°, 180°, 270°) in the XOY plane at 1.75 THz can be achieved, and RHCL or LHCL can be controlled within the range of 1.68 to 1.81 THz.
In this paper, a terahertz dipole antenna with compound reconfigurability is designed, which possesses the capability of controlling frequency, radiation pattern, and polarization state. A capacitive load loop (CLL) made of graphene-metal composite material is applied around a pair of mutually orthogonal graphene-based dipole antennas. By controlling the bias voltage, the surface conductivity of graphene is adjusted, enabling compound reconfigurability. The graphene strips on the CLL provide a high degree of freedom for the radiation characteristics of the antenna. By adjusting the combination of chemical potentials of graphene, the operating frequency of the antenna can be reconfigured within the range of 1.40 to 1.84 THz. Moreover, it is possible to control the antenna to achieve directional radiation with four beams (0 & DEG;, 90 & DEG;, 180 & DEG;, 270 & DEG;) in the XOY plane at 1.75 THz, and ranging from 1.68 to 1.81 THz, it can be reconfigured to achieve controllable RHCL or LHCL.

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