An Investigation of Stacked and Embedded Cylindrical Dielectric Resonator Antennas

structures with more than one port, including active elements, and to realize an extremely simple yet efficient combination of an oscillator integrated within an antenna. It has been proven that the design frequency could be attained without any tuning, by directly using the structure dimensions res

Probe-fed cylindrical dielectric resonator antennas CDRAs , with dielectric constant ⑀ s 37 and supported by an infinite ground plane, are simulated using the finite r element method. From this, closed form expressions are obtained for the resonant frequency, directivity, and unloaded Q-factor, appl

## Abstract The article proposes a compact microstrip line fed dielectric resonator antenna with half split circular, cylindrical profile which is experimentally investigated. It shows that at optimum parameters, this low profile, small size antenna gives a wideband response similar to that of its

DRAs offer good radiation characteristics at room temperature, but their performance at low temperatures has not been studied yet.

A microstrip-coupled CDRA excited in the HE mode 11␦ is theoretically and experimentally in¨estigated. The antenna is simulated using the finite-element method. The parameters considered are the resonant frequency, return loss, radiation pattern, directi¨ity, unloaded Q-factor, and impedance bandwid