THE RESOLUTION OF THE THERMODYNAMIC PARADOX AND THE THEORY OF GUIDED WAVE PROPAGATION IN ANISOTROPIC MEDIA.

Abstract

The resolution of the so-called thermodynamic paradox is presented in this paper. It is shown, in direct contradiction to the results of several previously published papers, that the cutoff modes (evanescent modes having complex propagation constants) can carry power in a waveguide containing ferrite. The errors in all previous 'proofs' which purport to show that the cutoff modes cannot carry power are uncovered. The boundary value problem underlying the paradox is studied in detail; it is shown that, although the solution is somewhat complicated, there is nothing paradoxical about it. The general problem of electromagnetic wave propagation through rectangular guides filled inhomogeneously in cross-section with transversely magnetized ferrite is also studied. The problem is split into TE and TM parts and scalarized. Application of the standard waveguide techniques reduces the TM part to the well-known self-adjoint Sturm Liouville eigenvalue equation. The TE part, however, leads in general to a non-self-adjoint eigenvalue equation. This equation and the associated expansion problem are studied in detail. Expansion coefficients and actual fields are determined for a particular problem. (Author)

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 1968

Accession Number

AD0671960

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