Conical dielectric resonator antennas excited by a coaxial probe

## 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

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

## Abstract A simple metal‐coated dielectric resonator antenna with a coaxial feed producing multiple frequencies with similar polarization is reported. The characteristics of the antenna at all these frequencies are measured. The experimental results show that, the antenna produces broad patterns

In this article, a fast and efficient technique for the analysis of a coaxial probe fed dielectric resonator antenna is presented, which is 100 times faster than the previously reported analysis. The method is implemented by manipulating the Green's function such that the source and field terms are

## Abstract A low‐profile equilateral‐triangular dielectric resonator antenna (DRA) of very high permittivity (ε~r~ = 82) is excited with the use of a rectangular waveguide. It is found that the present configuration has a very wide impedance bandwidth of 11.4%, which is 3.8 times of that of the pr

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,