Diffraction Phenomena in Time-varying Metal-based Metasurfaces
Abstract
This paper presents an analytical framework for the analysis of time-varying metal-based metamaterials. Concretely, we particularize the study to time-modulated metal-air interfaces embedded between two different semi-infinite media that are illuminated by monochromatic plane waves of frequency . The formulation is based on a Floquet-Bloch modal expansion, which takes into account the time periodicity of the structure (, and integral-equation techniques. It allows to extract the reflection/transmission coefficients as well as to derive nontrivial features about the dynamic response and dispersion curves of time-modulated metal-based screens. In addition, the proposed formulation has an associated analytical equivalent circuit that gives physical insight to the diffraction phenomenon. Similarities and differences between space- and time-modulated metamaterials are discussed via the proposed circuit model. Finally, some analytical results are presented to validate the present framework. A good agreement is observed with numerical computations provided by a self-implemented finite-difference time-domain (FDTD) method. Interestingly, the present results suggest that time-modulated metal-based screens can be used as pulsed sources (when ), beamformers () to redirect energy in specific regions of space, and analog samplers ().
Cite
@article{arxiv.2206.09684,
title = {Diffraction Phenomena in Time-varying Metal-based Metasurfaces},
author = {Antonio Alex-Amor and Salvador Moreno-Rodriguez and Pablo Padilla and Juan F. Valenzuela-Valdes and Carlos Molero},
journal= {arXiv preprint arXiv:2206.09684},
year = {2023}
}