Ivars A. Rozhleys scite author profile

We present a theoretical study of the dispersion and energy properties of the eigenwaves (TEand TM-modes) in a four-layer structure composed of a magneto-optical yttrium iron garnet guiding layer on a dielectric substrate covered by a planar nanocomposite guiding multilayer. The bigyrotropic properties of yttrium-iron garnet are taken into account for obtaining the dispersion equation and an original algorithm for the guided modes identification is proposed. We demonstrated the polarization switching of TE-and TM-modes dependent on the geometrical parameters of the guiding layers. The dispersion diagrams and field profiles are used to illustrate the change of propagation properties with variation of the multilayer thickness ratio of the nanocomposite's layers. The energy flux distributions across the structure are calculated and the conditions of the optimal guiding regime are obtained. The power switching ratio in the waveguide layers of about 6 dB for the wavelength range of 100 nm is shown to be achieved.

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Complex waveguide based on a magneto-optic layer and a dielectric photonic crystal

Panyaev

Dadoenkova

Rozhleys

et al. 2016

Superlattices and Microstructures

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A B S T R A C TWe theoretically investigate the dispersion and polarization properties of the electromagnetic waves in a multi-layered structure composed of a magnetooptical waveguide on dielectric substrate covered by one-dimensional dielectric photonic crystal. The numerical analysis of such a complex structure shows interesting properties in propagation of electromagnetic waves, particularly, polarization filtration of TE-and TM-modes depending on geometrical parameters of the waveguide and photonic crystal. We consider different regimes of the modes propagation inside such a structure: when guiding modes propagate inside the magnetic film and decay in the photonic crystal and vice versa; when they propagate in both magnetic film and photonic crystal.

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Optical properties of a four-layer waveguiding nanocomposite structure in near-IR regime

et al. 2016

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The theoretical study of the optical properties of TE-and TM-modes in a four-layer structure composed of the magneto-optical yttrium iron garnet guiding layer on a dielectric substrate covered by planar nanocomposite guiding multilayer is presented. The dispersion equation is obtained taking into account the bigyrotropic properties of yttrium-iron garnet, and an original algorithm for the guided modes identification is proposed. The dispersion spectra are analyzed and the energy flux distributions across the structure are calculated. The fourfold difference between the partial power fluxes within the waveguide layers is achieved in the wavelength range of 200 nm.

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Hybrid magnetic waveguide and dielectric photonic crystal structure

Lyubchanskii

Panyaev

Rozhleys

et al. 2015

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Complex photonic structure based on magneto-optic waveguide and photonic crystal

Lyubchanskii

Dadoenkova

Panyaev

et al. 2016

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Ivars A. Rozhleys

Four-layer nanocomposite structure as an effective optical waveguide switcher for near-IR regime

Complex waveguide based on a magneto-optic layer and a dielectric photonic crystal

Optical properties of a four-layer waveguiding nanocomposite structure in near-IR regime

Hybrid magnetic waveguide and dielectric photonic crystal structure

Complex photonic structure based on magneto-optic waveguide and photonic crystal

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