Floquet-Mode Solutions of Space-Time Modulated Huygens' Metasurfaces
Shulabh Gupta, Tom. J. Smy, Scott A. Stewart

TL;DR
This paper introduces a Floquet mode analysis method for modeling space-time modulated Huygens' metasurfaces, enabling the calculation of scattered harmonic components through a system of linear equations.
Contribution
It presents a rigorous, versatile approach using GSTCs and Floquet modes to analyze the steady-state response of modulated metasurfaces with arbitrary parameters.
Findings
Method validated with FDTD simulations
Accurately predicts harmonic generation
Applicable to various modulation depths and frequencies
Abstract
A rigorous Floquet mode analysis is proposed for a zero thickness space-time modulated Huygens' metasurface to model and determine the strengths of the new harmonic components of the scattered fields. The proposed method is based on Generalized Sheet Transition Conditions (GSTCs) treating a metasurface as a spatial discontinuity. The metasurface is described in terms of Lorentzian electric and magnetic surface susceptibilities, and , respectively, and its resonant frequencies are periodically modulated in both space and time. The unknown scattered fields are then expressed in terms of Floquet modes, which when used with the GSTCs, lead to a system of field matrix equations. The resulting set of linear equations are then solved numerically to determine the total scattered fields. Using a finite-difference time domain (FDTD) solver, the proposed method is…
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Taxonomy
TopicsMetamaterials and Metasurfaces Applications · Advanced Antenna and Metasurface Technologies · Electromagnetic Scattering and Analysis
