In this work, we design and fabricate broadside-radiating edge-fed metasurface antennas with linear polarization employing a spatially-varying isotropic reactance; in order to avoid losses, the antenna is not terminated on a matched load. The design is achieved using a deterministic numerical algorithm for the synthesis of metasurfaces, combined with an accurate modeling of the feeding structure. The procedure effectively keeps into account the open-ended layout of the antennas; remarkably, optimization of radiation, and input impedance matching, results in structures that are of standing-wave type or traveling (leaky)-wave type depending on the substrate. In case of leaky-wave type of result, it is shown that the related open stop-band issue is avoided. The performance of the designed antennas is tested by full-wave simulations and measurements of fabricated prototypes.

Flexible design of broadside-radiating linearly-polarized edge-fed metasurface antennas / Teodorani, Lucia; Zucchi, Marcello; Giordanengo, Giorgio; Gaffoglio, Rossella; Vecchi, Giuseppe. - In: IEEE ACCESS. - ISSN 2169-3536. - ELETTRONICO. - 13:(2025), pp. 174922-174931. [10.1109/access.2025.3616581]

Flexible design of broadside-radiating linearly-polarized edge-fed metasurface antennas

Teodorani, Lucia;Vecchi, Giuseppe
2025

Abstract

In this work, we design and fabricate broadside-radiating edge-fed metasurface antennas with linear polarization employing a spatially-varying isotropic reactance; in order to avoid losses, the antenna is not terminated on a matched load. The design is achieved using a deterministic numerical algorithm for the synthesis of metasurfaces, combined with an accurate modeling of the feeding structure. The procedure effectively keeps into account the open-ended layout of the antennas; remarkably, optimization of radiation, and input impedance matching, results in structures that are of standing-wave type or traveling (leaky)-wave type depending on the substrate. In case of leaky-wave type of result, it is shown that the related open stop-band issue is avoided. The performance of the designed antennas is tested by full-wave simulations and measurements of fabricated prototypes.
2025
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/3004049