Development of High Frequency Numerical Simulation Tools for Electromagnetic Scattering and Radiation Problems in Frequency and Time Domain

Abstract

Report developed under STTR contract for topic AF01-T009. The main objective of the Phase I effort was to setup a framework for the wavefront (WF) evolution technique and to investigate the feasibility of incorporating, in a fashion consistent with reciprocity, of the edge diffraction effects into the WF approach. A wavefront is defined as a surface on which the propagating fields have a constant phase. Main advantages of the WF evolution approach, compared to the conventional ray tracing, are that (i) it maintains an approximately constant ray-ray spacing, h, even in processes involving multiple reflection and diffraction; this is achieved due to the dynamic adjustment of the number of rays; (ii) it allows for a precise, second order in h, determination of shadow and reflection boundaries; and, (iii) it allows, in a natural way, for the consistent inclusion of multiple diffraction mechanisms and diffraction occurring in combination with reflection processes. In Phase I we initiated the implementation of the geometrical construction of the reflected and diffracted WFs and the corresponding evaluation of the associated fields.

Document Details

Document Type

Technical Report

Publication Date

Nov 04, 2002

Accession Number

ADA409386

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