Guided Waves on Scalar and Tensorial Reactance Surfaces Modulated by Periodic Functions. A Circuital Approach
Massimiliano Casaletti

TL;DR
This paper introduces a circuit-based method to analyze wave propagation on scalar and tensorial reactance surfaces with periodic modulation, extending existing techniques and applicable to metasurface antenna design.
Contribution
It generalizes the Oliner method to tensorial and periodically modulated reactance surfaces using an equivalent circuit approach.
Findings
Derived propagation characteristics and field distributions for modulated surfaces.
Numerical results for surface and leaky wave solutions.
Discussion on applications to metasurface antennas.
Abstract
A technique to derive the propagation characteristics and field distributions of waves guided by scalar and tensorial reactance surfaces modulated by periodic or discrete Fourier spectrum functions in the propagation direction is presented. The method, based on an equivalent lumped circuits approach, can be seen as a generalization of the Oliner method for the TM propagation on scalar sinusoidally modulated reactance surfaces. Numerical results are obtained for both surface wave and leaky wave solutions. The relevance of these studies to modulated metasurface antennas is discussed.
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