Microstripline fed dual-frequency dielectric resonator antenna

demonstrate that the collision frequency c represents the loss mechanism of plasma. ## 4. CONCLUSION The FDTD analysis of a plasma whip antenna has been presented in this paper and the main algorithm of the (FD) 2 TD implementation has been discussed. The numerical results show that the plasma fre

## Abstract A dual‐frequency cylindrical dielectric resonator antenna is presented. This paper proposes a configuration in which the shape and volume of the radiating structure remain unchanged. The behaviour of this antenna after altering some of its attributes is investigated. © 2003 Wiley Period

band-stop filter can be made more compact by using only one array of SRRs in the ground plane centered under the microstrip line. A study has also been made with regard to the precision of the milling process so as to show that the dimensions of the SRRs play a crucial role in determining the frequ

## Abstract A compact half‐cylindrical dielectric resonator antenna (DRA) made from a high‐permittivity (ε~r~ = 69) ceramic material is investigated. A microstrip transmission line excites the DRA. The DRA shows broad and stable radiation characteristics across a matching band of 2.32 to 2.5 GHz wi

A novel hybrid antenna structure that combines a rectangular dielectric resonator and a CPW-fed slot with tuning stub is proposed. The proposed antenna is designed to resonate at the lower (2.4 GHz) and upper (5.3 GHz) 802.11 WLAN frequency bands, respectively. Comparisons between the simulation and

## Abstract Two feeding designs for achieving dual orthogonal linear polarization operations of dielectric resonator (DR) antennas fed by microstrip lines are demonstrated. The microstrip feedlines can be placed directly under the DR or conformal to the surface of the DR. Good dual‐polarization exc