Перегляд за автором "Mizernik, V. N."
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Публікація Bragg reflection and transmission of light by one-dimensional gyrotropic magnetophotonic crystal(IEEE, 2017) Shmat'ko, A. A.; Mizernik, V. N.; Odarenko, E. N.; Rokhmanova, T. N.Reflection and transmission coefficients for onedimensional magnetophotonic crystal with a bilayer unit cell are obtained in analytical form. The bilayer consists of arbitrary gyrotropic media. Analytical dispersion equation for gyrotropic multilayer periodic structure is obtained. Different regimes of bulk and surface wave’s propagation in structure layers are investigated. System parameters values that correspond to both total reflection and total transmission by gyrotropic Bragg structure are found. The possibility of band structure controlling with an external magnetic field is shown.Публікація Dispersion Properties of a One-dimensional Anisotropic Magnetophotonic Crystal with a Gyrotropic Layer(IEEE, 2016) Shmat'ko, A. A.; Mizernik, V. N.; Odarenko, E. N.; Yampol'skii, V. A.; Rokhmanova, T. N.; Galenko, A. Y.In this work, we obtain the dispersion relation for magnetophotonic one-dimensional crystal with a gyrotropic plasma layer in the analytical form. The numerical analysis of the dispersion relation for waves in the crystal at different parameters of the effective permittivity of the plasma layer is carried out. We predict the propagation of bulk fast and slow waves in such structures. The transmission and forbidden bands in the dispersion diagram for the bulk waves are presented in the area for surface plasma waves.Публікація Dispersion Properties of TM and TE Modes of Gyrotropic Magnetophotonic Crystals(InTech, 2017) Shmat'ko, A. A.; Mizernik, V. N.; Odarenko, E. N.; Lysytsya, V. T.This chapter discusses the propagation of TM and TE waves in the one-dimensional gyrotropic magnetophotonic crystals with ferrite and plasma-like layers. Elements of the transfer matrix are calculated in closed analytical form on the base of electrodynamic problem rigorous solution for arbitrary location of the gyrotropic elements on the structure period. Dispersion equation of the layered periodic structure with gyrotropic elements is obtained. Dispersion properties of the structure for TE and TM modes are analyzed for different configurations of magnetophotonic crystals (ferrite and plasma-like layers). Existence areas of transmission bands for surface and bulk waves are obtained. The effect of problem parameters on the dispersion properties of magnetophotonic crystals for TM and TE modes is investigated. Regimes of complete transmission of wave through limited magnetophotonic crystal are analyzed for bulk and surface waves.Публікація Extraordinary Reflection from Photonic Crystal with Metamaterials(IEEE, 2016) Shmat'ko, A. A.; Kazanko, A. V.; Mizernik, V. N.; Odarenko, E. N.; Yampol'skii, V. A.; Rokhmanova, T. N.We predict an extraordinary perfect reflection of a plane wave from a finite-thickness photonic crystal made of dielectrics and metamaterials. The physical nature of this phenomenon is revealed. We show that this complete reflection is related to a resonance of surface plasmon-polariton wave along the crystal thickness.Публікація Floquet-Bloch Theory for Semiconductor Bragg Structure(2020) Shmat'ko, A. A.; Mizernik, V. N.; Odarenko, E. N.; Krivets, A. S.; Yushchenko ,O. V.The problem of Floquet-Bloch waves propagation in a semiconductor magnetophotonic crystal with a transverse magnetic field was solved. The fundamental solutions of the Hill equation in layers that based on the Floquet theory were obtained in an analytical form. The dispersion equation and its roots are found explicitly. The analysis of the dispersion properties of the structures depending on the material parameters of the layers was carried out. The parameters of gyrotropic layers for the full transmission and reflection of a plane wave for different frequencies through a limited magnetophotonic crystal in modes of surface and bulk waves are determined.Публікація Hyperbolic Magnetophotonic Crystals with Gyrotropic Layers. Dispersion Characteristics(2020) Shmatko, A. A.; Odarenko, E. N.; Mizernik, V. N.We solved the problem of the Floquet-Bloch waves propagation in one-dimensional magnetophotonic crystal with hyperbolic and gyrotropic layers in the presence of a transverse magnetic field. New fundamental solutions of the Hill equation based on the third boundary-value problem with Cauchy boundary conditions are explicitly obtained in crystal layers. The dispersion equation is obtained in analytical form and its roots are found. The dispersion properties of hyperbolic media and magnetophotonic crystals with hyperbolic and gyrotropic layers are analyzed, and the main features of the propagation of TE and TM waves for two types of hyperbolicity in the presence of gyrotropy of the medium layers are elucidated.Публікація Magnetophotonic crystal on base of gyrotropic semiconductor and metamaterial(Lesya Ukrainka Volyn National University, 2018) Odarenko, E. N.; Shmat'ko, A. A.; Mizernik, V. N.; Maslov, V. A.One-dimensional magnetophotonic crystal which contains semiconductor and metamaterial layers is considered. Dispersion properties are investigated within the framework of ABCD matrix method for gyrotropic periodical structures. Surface waves exist conditions are considered for different system parameters. Possibility of narrow-band filters development is shown on the base of multilayered structure under investigation.Публікація Scattering of ElectromagneticWave By Bragg Reflector with Gyrotropic Layers(Springer, 2020) Shmat'ko, A. A.; Mizernik, V. N.; Odarenko, E. N.We solved the problem of scattering of plane wave on a ferrite 1D magnetophotonic crystal controlled by a dc transverse magnetic field. Fundamental solutions of the Hill equation with mixed boundary conditions based on the Floquet-Bloch theory are obtained in an analytical form. The dispersion equation and its roots are found explicitly. The analysis of the dispersion properties of the structures is carried out depending on the material parameters of the ferrite layers. The transmission and reflection coefficients are determined for the gyrotropic crystal with finite number of periods. Two characteristic cases are considered: positive and negative values of the effective permeability of gyrotropic layer. The expressions for spatial distribution of electromagnetic field components are determined at crystal period. The results provide a deeper understanding of the electromagnetic waves propagation behavior in multilayer media with controlled gyrotropic elements. In addition, the obtained analytical expressions simplify the analysis of wave processes in such complex media.Публікація Tunable Angular Spatial Filter Based on 1D Magnetophotonic Crystal(IEEE, 2020) Shmat'ko, A. A.; Odarenko, E. N.; Mizernik, V. N.; Shevchenko, N. G.One dimensional magnetophotonic crystal with gyrotropic plasma layers is considered. Theoretical investigation is performed within the framework of Floquet theory for 1D periodical structures. Dispersion equation, transmission coefficient and reflection one are obtained in explicit form. Scattering of the point source field on the bounded magnetophotonic crystal is investigated for TE waves. Field spatial distributions for different signs of plasma-like medium effective permittivity are calculated. Possibility of angular spatial filtering control is shown both inside magnetophotonic crystal and outside one.