Scattering by Dipole Loops near Interfaces

## Abstract We outline specific features of numerical simulations of metamaterial wedges and interfaces. We study the effect of different positioning of a grid in the Yee method, which is necessary to obtain consistent convergence in modelling of interfaces with metamaterials characterized by negat

The scattering of incident plane elastic, or fluid, body waves and interfacial waves by an arbitrarily orientated subsurface crack is considered. The crack lies in an infinite elastic half-space that is coupled to an overlying fluid half-space. Material parameters relevant for water-metal and water-

across every diode. Furthermore, it is expected that the higher the values of the surface-mount resistors, the smaller the microwave ohmic losses in the passband FSS region will be. Having incorporated the surface-mount resistors, the experiment for the single diode-C FSS was repeated. The results

Radiation from vertical dipole antennas, which are located over or under the surface of lossy earth, is analysed by the finite-difference time-domain (FDTD) method in cylindrical coordinates. A novel generalized perfectly matched layer (PML) has been developed and used for the truncation of the loss

The equivalent dipole moment method, which was used to model the isotropic media, is extended and applied to the analysis of the electromagnetic scattering characteristics of arbitrarily shaped multilayer electric anisotropic media in this work. The initial motivation to put forward this method is b