Bandwidth and Efficiency Enhancement of Cavity-Backed Slot Antenna Using a Substrate Removal

The resonant frequency of a circular patch antenna with and without circular cavity is measured. The patch miniaturization in the presence of the cavity is proved. Different methods of reducing resonant frequencies and broadening bandwidth without significantly reducing antenna gain are presented. C

Loading an aperture-coupled ca¨ity-backed slot antenna with a metal post is shown to produce an asymmetrical field distribution in the slot aperture. This field distribution gi¨es rise to a far-field pattern which is directed away from the boresight of the antenna. Theoretical and experimental resul

## Abstract Radiation efficiency and impedance bandwidth of optimally matched conductor‐backed coplanar waveguide‐fed slot dipoles on two‐layer substrates are investigated as a function of bottom substrate layer height. It is demonstrated that low radiation efficiency due to parasitic parallel‐plat

## Abstract A cavity‐backed slot antenna array using a single waveguide‐fed subarray is proposed to reduce feed‐line loss, increase radiation efficiency, and make the feed network simple. A subarray consists of 2 × 4 slot elements backed by a single cavity. By proper choice of dimensions, it is sho