V. V. Vitko scite author profile

A method of approximate boundary conditions is used to derive dispersion relations for spin-electromagnetic waves (SEWs) propagating in thin ferrite films and in multiferroic layered structures. A high accuracy of this method is proven. It was shown that the spin-electromagnetic wave propagating in the structure composed of a thin ferrite film, a thin ferroelectric film, and a slot transmission line is formed as a result of hybridization of the surface spin wave in the ferrite film and the electromagnetic wave in the slot-line. The structure demonstrates dual electric and magnetic field tunability of the SEW spectrum. The electric field tunability is provided by the thin ferroelectric film. Its efficiency increases with an increase in the thicknesses of the ferrite and ferroelectric films and with a decrease in the slot-line gap width. The theory is confirmed by experimental data.

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Carrier-induced optical bistability in the silicon micro-ring resonators under continuous wave pumping

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Vitko

et al. 2021

Optics Communications

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V. V. Vitko

Raman spectroscopy of copper oxide films deposited by reactive magnetron sputtering

Structural and millimeter-wave characterization of flux grown Al substituted barium hexaferrite single crystals

Microwave Bistability in Active Ring Resonators With Dual Spin-Wave and Optical Nonlinearities

Dispersion characteristics of spin-electromagnetic waves in planar multiferroic structures

Carrier-induced optical bistability in the silicon micro-ring resonators under continuous wave pumping

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