Abstract
Electrodynamic description of bianisotropic particles on the base of strip-line-coupled magnetostatic wave resonators is developed and analytical closed-form expressions for the tensor polarizabilities are obtained for an arbitrary direction of the bias magnetic field and an arbitrary resonator shape. Numerical calculations are performed for a normally magnetized thin-ferrite-film disk resonator with a metal strip on its surface. The principle of the symmetry of kinetic coefficients (the Onsager-Casimir principle) is formulated for media containing dissipative ferrite inclusions and on its base results of the electrodynamic analysis for the tensors of magnetoelectric coupling coefficients are verified.
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