Electromagnetic modelling of 3D periodic structure containing magnetized or polarized ellipsoids |
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Authors: | M Y Koledintseva |
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Institution: | (1) Department Materials Research Centr, University of Missouri-Rolla, 115 Emerson Electric Co Hall, Rolla, MO 65409, USA |
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Abstract: | Coupling matrix and coupling coefficient concepts are applied to the interaction of an incident plane wave with a regular
array of small magnetized or polarized ellipsoids, placed in a homogeneous surrounding medium. In general case, the angle
of incidence and polarization of the plane wave upon an array of ellipsoids can be arbitrary. In this model, it is assumed
that all the ellipsoids are the same, and the direction of their magnetization is also the same. The direction of magnetization
is arbitrary with respect to the direction of the propagation of the incident wave and to the boundary plane between the first
medium, where the incident wave comes from, and the array material under study. Any magnetized or polarized ellipsoid is represented
as a system of three orthogonal elementary magnetic radiators (EMR) and/or three orthogonal elementary electric radiators
(EER). Mutual interactions of individual radiators in the array through the incident plane wave and corresponding scattered
electromagnetic fields are taken into account. The electrodynamic characteristics — reflection from the surface of the semi-infinite
array (in particular, containing uniaxial hexagonal ferrite resonators), transmission through the array, and absorption are
analyzed. |
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Keywords: | semi-infinite 3D array ellipsoidal scatterers elementary magnetic and electric radiators hexagonal ferrite resonators Floquet harmonics coupling matrix coupling coefficient reflection transmission absorption |
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