A multifrequency coaxial-fed metal coated dielectric resonator antenna

## Abstract Hexagonal dielectric resonator antenna (HDRA) for multifrequency operation is proposed and investigated experimentally. The proposed antenna, excited by a single coaxial feed, resonates at four frequencies centered at 2.215, 2.784, 3.445, and 3.955 GHz with identical polarization. The r

A coaxial-fed hexagonal dielectric resonator antenna (HDRA) producing circular polarization is investigated experimentally. Circular polarization is achieved by exciting the orthogonal HE 11␦ modes of the HDRA in phase quadrature. The return-loss, impedance, and radiation characteristics are studied

A stacked dielectric resonator antenna DRA , composed of an annular ring excited by a coaxial probe and two cylindrical ( ) dielectric resonators CDRs , is studied experimentally for three-frequency band operation. A maximum frequency ratio of 1.75 is achie¨ed between higher and lower frequencies, a

The characteristics of the dielectric resonator antenna top loaded by a circular conducting disk with different diameters is studied experimentally. It is found that antenna parameters such as the resonant frequency, the input impedance, and the far-field radiation pattern, are affected tremendously

laser (EXFO FLS2600). The transmitted optical power is measured with a powermeter (HP 81532A), working in the 800 -1700-nm range. Both the optical source and detector are connected to a computer by GPIB links. By varying the wavelength of the tunable source laser and measuring the transmitted power,

## Abstract A dielectric resonator antenna of triangle shape is examined numerically and experimentally. The geometry is an equilateral triangular dielectric volume over a ground plane, and is excited by a coaxial probe to provide a broadside radiation pattern. An approximate expression is used to