Application of a novel CFIE for electromagnetic scattering by dielectric objects

## Abstract In this paper, we present a fast analysis of electromagnetic scattering by arbitrarily shaped 3D homogeneous dielectric objects. The solution is based on the PMCHW integral equation formulation. The method of moments (MoM) is used to solve the integral equations and the precorrected fas

The standard hybrid finite-element boundary-integral ( ) FE᎐BI technique has been extended to deal with the problem of electromagnetic scattering from buried objects. The presence of the ground᎐air interface is taken into account by using the half-space Green's function, thus reducing the number of

## Abstract In this article, the electromagnetic analysis of arbitrarily shaped three‐dimensional homogenous dielectric objects located above a lossy half space is considered with a well‐conditioned surface integral equation. The electric‐magnetic current combined‐field integral equation (JMCFIE) i

state. In spite of these differences, the three structures show fairly similar modal properties.

## Abstract In this study, a new and computational effective method related to electromagnetic scattering from arbitrary shaped dielectric objects is proposed. This method is based on Taylor series expansion of fields with unknown coefficients on the circles that are inside and outside of object. B

## Abstract The wavelet matrix transform approach, in combination with the conventional method of moments, is used to solve the problem of electromagnetic scattering by a dielectric cylinder. First, the problem is formulated in terms of the integral equation for the field of a harmonic source in th