Dual-band hybrid dielectric resonator antenna with CPW-fed slot

Coplanar waveguide-fed dual rectangular ceramic dielectric resonator antennas (DRAs) with inductively coupled slots are experimentally investigated. A double bandwidth is identified by comparing the antenna with a single dielectric resonator antenna (DRA). Input impedance can be easily matched by us

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

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 simple and compact coplanar waveguide (CPW)‐fed antenna for dual‐ and wide‐band wireless applications is presented. By properly embedding slots into a rectangular patch, the designed antenna thus fed by a CPW feedline and, with, including ground plane, only 24 × 25 mm^2^, can lead to

## Abstract In this article, the design and analysis of a CPW‐fed UWB antenna with dual band‐notched characteristics are presented. The measured bandwidth defined by VSWR <2 of the proposed antenna is from 2.8 to 11.7 GHz, except the bandwidths of 3.35–4.35 GHz for WiMAX and C‐band satellite commun

## Abstract A novel ultra‐wideband (UWB) design of a single‐layer coplanar waveguide‐fed planar monopole antenna with dual band‐notched characteristic is presented. By inserting two opened rectangular loop slots to the ground‐notched trapezoidal patch and adjusting the dimensions of the slots, the