Theoretical and experimental investigation of cylindrical dielectric resonator antennas

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

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

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

## The radiation from two different broadside dielectric resonator antenna arrays, shaping the E, and E+ field components, has been theoretically modeled and experimentally verified. The gains of the two arrays hace been incieased by factors of 2.6 and 1.6, respectively, compared with the gain of a

This letter describes a modal-expansion analysis of a cylindrical dielectric resonator antenna fed by an embedded coaxial probe. The analysis is facilitated by introducing a cylindrical magnetic wall to enclose the resonator, and then the resulting structure can be treated as a cascaded wa¨eguide di

In this study, we report two four-element linear broadside arrays shaping the E and E field components. The radiating elements are probe-fed cylindrical dielectric resonator antennas. The arrays are analytically formulated, numerically simulated, and experimentally tested. The resonant frequency, ra