V. S. Butylkin

TL;DR: In this article, a new composite medium that possesses simultaneously negative permittivity and permeability in the microwave wavelength range is proposed, which is composed of evanescent waveguide structures responsible for the negative permitivity, with embedded cylindrical elements of a one-dimensional chiral medium accounting for negative permeability.

TL;DR: In this article, the transmission coefficients of linearly polarized waves in a rectangular waveguide along a metastructure formed by a transversely magnetized ferrite plate and double-split rings with varactors indicated the presence of a resonance region of non-reciprocal passage, which is controlled, in contrast to the ferromagnetic resonance, by the electric field.

TL;DR: In this article, the transmission properties of a bianisotropic composite material based on regular gratings of planar double split rings (PDSRs) and a waveguide bianiscotropic composite materials of waveguide structures loaded with such gratings are studied theoretically and experimentally.

TL;DR: In this paper, the effects of non-reciprocal absorbing under interaction between ferromagnetic resonance in ferrite and magnetic resonance in rings (≪ wavelength) which are excited by microwave magnetic field h. Mechanism of control is discussed.

TL;DR: In this article, the dispersion characteristics, the distribution of energy fluxes, and the polarization of the magnetic field of surface waves formed in free space by a bianisotropic-material layer with resonance and anisotropic chirality, permittivity, and permeability are studied theoretically.