Two-dimensional cylindrical dielectric resonator antenna array

## 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

The FET with the associated sections of transmission lines and radial stub constitute the oscillator part of the circuit, with the patch antenna being the load of the oscillator. The bias of the FET was implemented by feeding the center of the nonradiating edge of the patch antenna. The output of th

## Ž . impedance profile and WrH ratio are plotted in Figure Ž . and c , respectively. The approximate Q-function used in the examples above reduces the convergence speed, and the results considerably depend on the device length. However, the present method enhances the degree of freedom in desi

A comparison with the case of a dielectric nondispersive w x cluster 8 when the shift of the value of the plasma cluster velocity corresponding to the maximum reflectivity of the electromagnetic wave in the waveguide ␤ is lacking shows 1 that the shift of the reflectivity maximum to smaller values o

Two four-element linear aperture-coupled cylindrical dielectric resonator antenna arrays ha¨e been theoretically modeled and experimentally implemented. The arrays produced broadside radiation shaping the E-and H-plane, respecti¨ely. The resonant frequency, return loss, radiation pattern, gain, unlo