T-strip-fed high-permittivity rectangular dielectric resonator antenna for broadband applications

## Abstract In this paper, the advantages of using L‐shaped microstrip feed to excite a rectangular dielectric resonator antenna (DRA) by electromagnetic coupling are presented. This feeding technique enhances the bandwidth and gain of the antenna without affecting its size. The experimental result

## Abstract The radiation characteristics of a microstrip‐line‐excited rectangular dielectric resonator antenna (DRA) are studied experimentally. The radiation characteristics and excitation of different modes are highly influenced by the orientation of the DR, feed line parameters, and finite size

## Abstract A very‐high‐permittivity (ε~__r__~ = 100) multiband dielectric‐eye resonator antenna is presented. The compact antenna, excited by a microstrip line, resonates at two frequencies centered around the 1.9‐GHz and 2.4‐GHz bands with identical polarization. The behavior of the antenna at di

## Abstract A novel broadband design of square‐disk dielectric resonator (DR) antennas with a very high relative permittivity of 90.5 is presented. Broadband operation is achieved by loading two narrow conducting strips of suitable lengths, which results in dual‐resonance excitation and leads to a

## Abstract In this article, the measurement results of the dielectric resonator antenna with high‐permittivity have been presented. With this technique, a 5.4% bandwidth (return loss < −10 dB) of center frequency at about 3.5 GHz for application in WiMAX has successfully been achieved. The copolar

## Abstract A 60‐GHz coplanar waveguide (CPW)‐fed dielectric‐resonator‐above‐patch (DRAP) antenna using micromachining technology is presented. In the proposed structure, the patch is elevated in the air with support of a dielectric‐post, and a rectangular dielectric resonator antenna (RDRA) is fix