Electromagnetic pulse propagation in dispersive planar dielectrics

## Abstract A multiresolution time‐domain (MRTD) technique based on Haar wavelets has been applied to model the propagation of waves in dispersive materials, using a discretization of the convolution equation that governs the behaviour of the media. To validate the method, the reflection coefficien

## Abstract A method for the time‐domain simulation of electromagnetic wave propagation in two‐level dielectric media is developed. The technique involves using transmission‐line modelling (TLM) and 𝒵‐transform methods to develop an algorithm to simulate the Maxwell–Bloch equations. The approach is

In analytical studies, we investigated induced-field patterns and SAR distributions in a lossy, dispersive, homogeneous, dielectric sphere typical of muscle tissue as irradiated by a plane-wave pulse train consisting of a pulse-modulated sinusoidal carrier wave. Calculations were made for carrier fr

The propagation of ¨ery short electrical pulses on tapered nonuniform planar transmission lines is rigorously in¨estigated. The application field concerns the circuitry for impedance matching of semiconductor lasers and photodiodes in high-speed optoelectronics. For this purpose, frequency-and time-

High-speed electromagnetic characteristics of an organic light-emitting diode (OLED) are explored in this paper. When a highfrequency (ϳ14 GHz) microwave pulse is injected into an OLED, the pulse is split into two peaks: one peak is delayed by 1.725 ns and another one is advanced by 0.183 ns, which

## This article presents an application ofthe fractional deric~atiiv concept to the modeling of the time-domain propagation in d i s p e n i ~~ Cole-Cole media. A recirrsiiv finite-diference-time-domain (FDTD) fomiulation is dei eloped to sol1.e the special differential equation that is obtained. T