FDTD modeling and validation of EM survey tools

This paper is a presentation of the coupling between the finite-difference time-domain method and a circuit simulator tool. This approach enables us to model the interactions between antennas and nonlinear integrated circuits. The beha¨ior of a ''Mickey'' antenna struck by a high-frequency impulsion

Since small-diameter, normal-mode helical antennas are often used for cellular telephones, accurate modeling of these antennas using the FDTD grid is a must if this preferred method, allowing anatomically based heterogeneous simulation of the body, is to be used for calculating the performance of pe

The need for a numerical analysis of a nonuniform grating arises from antenna testing facilities. A hologram type of compact ( ) antenna test range CATR is a recently proposed method for antenna testing at millimeter wa¨elengths. Simulations of the quiet-zone field are done with a two-dimensional fi

Bistability due to the nonlinearity of an optical material has been studied recently and in¨estigated for its potential high-speed all-optical signal-processing applications. As a result, accurate modeling techniques are required for design purposes. In this paper, the finite-( ) difference time-dom

## Abstract A simple novel cavity‐independent method of determination of dielectric properties of arbitrarily shaped materials is presented. Complex permittivity is reconstructed using a neural networking procedure matching the measured and FDTD‐modeled frequency characteristics of the reflection c