Evaluation of antenna radiation Q using FDTD method

The design of FSSs with double-square-loop patch elements has been illustrated theoretically and experimentally. The differential evolution strategy, a very efficient optimization algorithm, is employed to tune the FSS unit-cell dimensions. The equivalent-circuit model (ECM), a fast computation meth

## Abstract Since the input impedance of half wavelength dipole antenna is well known, therefore, a dipole antenna is frequently used to validate the computational electromagnetic method. Though its structure is relatively simple, it is not a simple problem for the most computational electromagneti

## Abstract This paper presents numerical analyses of a plasma‐column antenna using the finite‐difference time‐domain (FDTD) technique. We have simulated simple plasma‐antenna configurations (monopoles) to demonstrate some of their properties. We have evaluated the field distribution around the pla

## Abstract A printed meander antenna is studied using the FDTD method. The influence of a number of antenna parameters (dielectric constant, substrate thickness, and presence of ground plane) on the input impedance and radiation pattern of the antenna is examined. It is found that a 60% size reduc

The analysis of two inno¨ati¨e coplanar wa¨eguide-fed planar antennas, applying a simulation tool based on the finite-difference ( ) time-domain method FDTD in a nonuniformly discretized grid, is presented in this paper. A planar slot and in¨erted F-antenna are designed, realized, and tested. The in