This paper presents a preliminary investigation of the Scattering Matrix Method (SMM) for use in the inverse design of metasurfaces aimed at achieving anomalous reflection. We focus on optimizing the dimensions of cylindrical scatterers uniformly arranged near a planar perfectly conducting surface to control the scattered field and suppress specular reflection. The optimal configuration is achieved through the combined use of global optimization via Very Fast Annealing and local optimization using the Nonlinear Programming Solver. Due to the fact that mutual interaction matrices remain constant at each iteration, this approach significantly reduces computation time without compromising accuracy. The obtained results have been verified using commercial electromagnetic software.
Preliminary Investigation of Scattering Matrix Method as Inverse Design Tool for Metagratings / Abdullin, Renat; Battaglia, Giada M.; Morabito, Andrea F.; Isernia, Tommaso; Crocco, Lorenzo; Palmeri, Roberta. - (2025), pp. 1-4. (Intervento presentato al convegno 19th European Conference on Antennas and Propagation, EuCAP 2025 tenutosi a Stockholm, Sweden nel 2025) [10.23919/eucap63536.2025.10999370].
Preliminary Investigation of Scattering Matrix Method as Inverse Design Tool for Metagratings
Abdullin, Renat;Battaglia, Giada M.;Morabito, Andrea F.;Isernia, Tommaso;Palmeri, Roberta
2025-01-01
Abstract
This paper presents a preliminary investigation of the Scattering Matrix Method (SMM) for use in the inverse design of metasurfaces aimed at achieving anomalous reflection. We focus on optimizing the dimensions of cylindrical scatterers uniformly arranged near a planar perfectly conducting surface to control the scattered field and suppress specular reflection. The optimal configuration is achieved through the combined use of global optimization via Very Fast Annealing and local optimization using the Nonlinear Programming Solver. Due to the fact that mutual interaction matrices remain constant at each iteration, this approach significantly reduces computation time without compromising accuracy. The obtained results have been verified using commercial electromagnetic software.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
