ON THE RELATION BETWEEN POLE WAVES AND LATERAL WAVES IN SLAB CONFIGURATIONS.
Abstract
The customary analysis of radiation from sources in the presence of a dielectric slab involves a plane wave superposition wherein the boundary conditions are satisfied by a single composite reflection coefficient. The far field is then comprised of the incident and reflected waves as well as a diffracted contribution of surface and leaky waves (pole waves). An alternative formulation is discussed wherein the interface effects are accounted for one at a time and the resulting diffraction field is then shown to involve lateral waves (branch cut waves). The two representations are compared and their respective utility is illustrated by examples. When the source and observation points are located exterior to a large dielectric gap, diffraction effects due to an accumulation of leaky waves are found to be equivalent to a single lateral wave. For source and observation points inside a lossy dielectric slab, the pole wave formulation provides a somewhat more convenient but physically less transparent result than the one comprising lateral waves. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Nov 12, 1964
- Accession Number
- AD0610584
Entities
People
- L. B. Felsen
- T. Tamir
Organizations
- New York University Tandon School of Engineering