Graphene ohmic losses notably hinder the efficiency of graphene-based terahertz (THz) devices. Hybrid metal-graphene structures have recently been proposed to mitigate this issue in a few passive devices, namely waveguide and Vivaldi antennas, as well as frequency selective surfaces. In this work, such a technique is extensively investigated to optimize the radiation performance of a THz Fabry-Perot cavity leaky-wave antenna based on a hybrid metal-graphene metasurface consisting of a lattice of square metallic patches interleaved with a complementary graphene strip grating. Theoretical, numerical, and full-wave results demonstrate that, by properly selecting the unit-cell features, a satisfactory trade-off among range of reconfigurability, antenna directivity, and losses can be achieved. The proposed antenna can find application in future wireless THz communications.
Reconfigurable THz leaky-wave antennas based on innovative metal-graphene metasurfaces / Negri, E.; Fuscaldo, W.; Burghignoli, P.; Galli, A.. - In: JOURNAL OF PHYSICS D. APPLIED PHYSICS. - ISSN 0022-3727. - 57:48(2024). [10.1088/1361-6463/ad7302]
Reconfigurable THz leaky-wave antennas based on innovative metal-graphene metasurfaces
Negri E.;Fuscaldo W.;Burghignoli P.;Galli A.
2024
Abstract
Graphene ohmic losses notably hinder the efficiency of graphene-based terahertz (THz) devices. Hybrid metal-graphene structures have recently been proposed to mitigate this issue in a few passive devices, namely waveguide and Vivaldi antennas, as well as frequency selective surfaces. In this work, such a technique is extensively investigated to optimize the radiation performance of a THz Fabry-Perot cavity leaky-wave antenna based on a hybrid metal-graphene metasurface consisting of a lattice of square metallic patches interleaved with a complementary graphene strip grating. Theoretical, numerical, and full-wave results demonstrate that, by properly selecting the unit-cell features, a satisfactory trade-off among range of reconfigurability, antenna directivity, and losses can be achieved. The proposed antenna can find application in future wireless THz communications.| File | Dimensione | Formato | |
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