EFFECT OF ELECTROMAGNETIC PROPAGATION ON THE MAGNETOSTATIC MODES,

Abstract

The second-order effect of electromagnetic propagation on the esentially static-field distribution of the magnetostatic modes of a ferromagnetic sample is obtained by an iteration type technique. It is found that the magneto static potential constitutes the source in a mathematical sense for a second-order correct field distribution. The internal sample fields are investigated for a ferrite cylinder enclosed between parallel conducting plates and they are found to consist of resonant modes whose fre quencies are determined from a characteristic equation. These frequencies reduce to those of the magnetostatic modes in the limit of vanish ingly-small wave numbers. For a nonzero wave number the frequencies differ from the correspond ing magnetostatic limits by an amount which depends on the sample shape. The resonant fre quencies are size-dependent as contrasted to the size-independent magnetc modes. It was found that no resonant frequencies are possible above a critical value which depends on the spacing between the plates. A sample mode, whose resonant frequency is in a region forbidden to the magnetostatic modes, can exist if the sample size exceeds a critical value. (Author)

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 1963

Accession Number

AD0412709

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