An anisotropic metamaterial-based rectangular resonant cavity

## Abstract In this letter, resonance properties of a miniaturized rectangular cavity resonator (MRCR) based on anisotropic metamaterials bilayer are investigated. The resonance equations for the electromagnetic wave in a rectangular cavity filled with anisotropic metamaterials bilayer are solved a

## Abstract A partially reflective metamaterial surface is designed to have in‐phase reflection property for the purpose of reducing the height of resonant cavity antennas. Since the reflection phase of the in‐phase is close to 0° at the operating band, the cavity height, that is, the distance betw

## Abstract The analysis and design of subwavelength metamaterial‐based resonant cavity antennas are presented. The antennas under investigation are formed by embedding a feeding source in a Fabry‐Perot (FP) cavity composed of a Perfect Electrical Conductor (PEC) surface and a metasurface reflector

## Abstract A high‐gain, low‐profile electromagnetic band‐gap (EBG) resonator antenna based on a thin frequency‐selective‐surface (FSS) superstrate is presented. The superstrate thickness has been reduced from 0.25λ~g~ in the previous design to about 0.06λ~g~ without significantly affecting the ant