In this study, we address the design of a pair of metamaterial surfaces capable of maintaining out-of-phase reflection coefficients over a wide frequency band. Our design is based on the genetic optimization of configurations composed of gangbuster-type frequency-selective surfaces laid on thin metal-backed dielectric substrates. An application example involving Bragg-scattering suppression in strip arrays is presented in order to assess the performance and to illustrate potential applications toreduction/control of radar cross-section signatures.
Metamaterial surface pairs genetically-optimized for wide-band out-of-phase mutual response
Galdi V;V. Pierro;
2008-01-01
Abstract
In this study, we address the design of a pair of metamaterial surfaces capable of maintaining out-of-phase reflection coefficients over a wide frequency band. Our design is based on the genetic optimization of configurations composed of gangbuster-type frequency-selective surfaces laid on thin metal-backed dielectric substrates. An application example involving Bragg-scattering suppression in strip arrays is presented in order to assess the performance and to illustrate potential applications toreduction/control of radar cross-section signatures.File in questo prodotto:
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