Full-Duplex nonreciprocal beam steering by time-modulated phase-gradient metasurfaces
Full-Duplex nonreciprocal beam steering by time-modulated phase-gradient metasurfaces
We present the concept, theoretical model, and experimental implementation of a full-duplex nonreciprocal-beam-steering transmissive phase-gradient metasurface. Such a metasurface is realized by exploiting the unique properties of the frequency-phase transition in time-modulated twin unit cells. The metasurface may be placed on top of a source antenna to transform the radiation pattern of the source antenna, and introduce different radiation patterns for the transmit and receive states. In contrast to the recently proposed applications of time modulation, here the incident and transmitted waves share the same frequency. The metasurface is endowed with directive, diverse, and asymmetric transmission and reception radiation beams, and tunable beam shapes. Furthermore, these beams can be steered by simply changing the modulation phase. The proposed twin unit cells inherently suppress undesired time harmonics, leading to a high conversion efficiency, which is of paramount importance for practical applications such as point-to-point full-duplex communications.
Taravati, Sajjad
0026f25d-c919-4273-b956-8fe9795b31ce
Eleftheriades, George V.
280bbae6-32df-4af5-bcad-110f38ad72e7
9 July 2020
Taravati, Sajjad
0026f25d-c919-4273-b956-8fe9795b31ce
Eleftheriades, George V.
280bbae6-32df-4af5-bcad-110f38ad72e7
Taravati, Sajjad and Eleftheriades, George V.
(2020)
Full-Duplex nonreciprocal beam steering by time-modulated phase-gradient metasurfaces.
Physical Review Applied, 14 (1), [014027].
(doi:10.1103/PhysRevApplied.14.014027).
Abstract
We present the concept, theoretical model, and experimental implementation of a full-duplex nonreciprocal-beam-steering transmissive phase-gradient metasurface. Such a metasurface is realized by exploiting the unique properties of the frequency-phase transition in time-modulated twin unit cells. The metasurface may be placed on top of a source antenna to transform the radiation pattern of the source antenna, and introduce different radiation patterns for the transmit and receive states. In contrast to the recently proposed applications of time modulation, here the incident and transmitted waves share the same frequency. The metasurface is endowed with directive, diverse, and asymmetric transmission and reception radiation beams, and tunable beam shapes. Furthermore, these beams can be steered by simply changing the modulation phase. The proposed twin unit cells inherently suppress undesired time harmonics, leading to a high conversion efficiency, which is of paramount importance for practical applications such as point-to-point full-duplex communications.
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Published date: 9 July 2020
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Local EPrints ID: 482693
URI: http://eprints.soton.ac.uk/id/eprint/482693
ISSN: 2331-7019
PURE UUID: 583e4b31-047d-4563-b109-bf85f917f032
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Date deposited: 11 Oct 2023 16:53
Last modified: 06 Jun 2024 02:19
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Author:
Sajjad Taravati
Author:
George V. Eleftheriades
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