A simple dual-band frequency selective surface

## Abstract The new concept for realizing a dual‐band electromagnetic band‐gap (EBG) resonator antenna using a simple, single‐sided frequency selective surface (FSS) is demonstrated experimentally.The reversal of the gradient of the FSS reflection coefficient phase response, around a FSS resonance

## Abstract In this article, a novel miniaturized dual‐band frequency selective surface (FSS) with close band spacing is presented, in which each periodic cell consists of double square loops with different capacitive loadings. The dimension of the unit cell is miniaturized by loading with ceramic

## Abstract A pin diode‐loaded active doubly periodic flat strip FSS is shown to act as a dynamic screen. It is shown that by means of d.c. bias control, we can utilize the screen in, (1) transmission mode as a dual band electromagnetic shutter, or with the inclusion of a ground plane in reflection

## Abstract A dual band frequency selective surface (FSS) based on circular aperture‐coupled patches is presented. The technique is based on using two same structures with different sizes. A special topology is proposed to arrange the two different sizes structures. Each structure is composed of tw

Two arrays of single-ping slots with different radii supported on either si& of a thin dielectric substrate form frequency-selectiiv surfaces fFSSs) with a iiery narrow bandpass transmission responses. The -10-dB bandwidths are less than 10%. Their high angular stabiliry, mechanical fktibility, and

## Abstract The frequency‐selective property of an array of rectangular dipole microstrip patches, resonant at two frequencies in the J band and two other frequencies in the Ku band, has been investigated experimentally. Measured data indicate that the electromagnetic wave transmits well through th