On the Exact Matrix Representation for Transverse Magnetic Multiple Scattering by an Infinite Grating of Insulating Dielectric Circular Cylinders at Oblique Incidence

TL;DR

This paper presents an exact matrix-based computational method to determine scattering coefficients for an infinite array of dielectric cylinders under oblique electromagnetic wave incidence.

Contribution

It introduces a novel matrix inversion algorithm for accurately computing scattering coefficients in complex dielectric cylinder gratings at oblique angles.

Findings

Accurate scattering coefficients obtained for dielectric cylinder gratings.

The matrix method efficiently handles oblique incidence scenarios.

Provides a foundation for analyzing electromagnetic scattering in complex structures.

Abstract

A computational algorithm for the exact equations representing the scattering coefficients of an infinite grating of insulating dielectric circular cylinders associated with obliquely incident vertically polarized plane electromagnetic waves is generated by matrix methods, and the solution for the scattering coefficients is acquired by a matrix inversion procedure.