Theoretical Analysis of Microwave and Millimeter Wave Integrated Circuits Based on Magnetic Films

Abstract

An inversion algorithm is presented based on a recently developed inversion method referred to as the Renormalized Source-Type Integral Equation approach. The objective is to overcome some of the limitations and difficulties of the iterative Born technique. It recasts the inversion, nonlinear in nature, in terms of the solution of a set of linear equations; however, the final inversion equation is still nonlinear. The derived inversion equation is an exact equation which sums up the iterative Neuman (or Born) series diverges; hence, the name Renormalized Source-Type Integral Equation Approach. The coupled-wave theory is generalized to analyze the diffraction of waves by chiral gratings for arbitrary angle of incidence and polarizations. Numerical results are illustrated for the Stokes parameters of diffracted Floquet modes versus the thickness of chiral gratings with various chiralities. Both horizontal and vertical incidences are considered for illustration. The diffracted waves from chiral gratings are in general elliptically polarized; and at some particular instances, it is possible for chiral gratings to convert a linearly polarized incident field into two nearly circularly polarized Floquet modes propagating in different directions.

Document Details

Document Type

Technical Report

Publication Date

Nov 01, 1990

Accession Number

ADA229746

Entities

Tags