Electromagnetic scattering from a dielectric cylinder and the method of lines

The method of lines is used to sol¨e electromagnetic wa¨e scattering from a cylinder with arbitrary shapes. The computational efficiency and accuracy are much better than finite difference method and finite element method.

## Abstract The direct and inverse problems of electromagnetic scattering by cylindrical structures with arbitrary cross sections for E‐polarized line sources are considered. It is shown that the method of lines gives a computationally efficient and accurate procedure for calculating the scattering

An electromagnetic scattering model, which accounts for multiple scattering up to the second order, for a layer of periodically distributed cylinders o¨er a dielectric half space is de¨eloped. This is based on the second-order analytical solutions for two adjacent cylinders. By applying the Monte Ca

## 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

## Abstract The problem of determining the shape of perfectly conducting cylindrical structures with arbitrary cross sections from electromagnetic scattering data is considered. Applying the method of lines, an efficient procedure is found for determining the shape of a cylinder from its electromag

## 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