Vol 22, No 1 (2019)

The characteristics of the four-wave radiation converter in a transparent liquid have been analyzed with considering the normal size distribution of nanoparticles contained in it. Shown that in the dependences of the amplitude reflection coefficient and the output time of the band half-width of spatial frequencies cut out by such a radiation converter to steady-state value from dispersion there are extremes at which the reflection coefficient takes the greatest value and the output time takes the smallest value.

Uniqueness of solution of problem of synthesis of wave impedance two-link stepped transformer with Chebyshev frequency characteristic is proved.

The singular integral equation of a thin tubular vibrator is considered. This paper analyzed the dependence of the eigenvalues of the integral operator of the singular integral equation on the frequency and geometric dimensions of the vibrator with the determination of their asymptotic behavior at small lengths and small radii of the vibrator. It is shown that these dependences admit a simple polynomial approximation, and it is shown that an approximation in harmonic functions can be used for the eigenfunctions of an integral operator. Results can be used as the basis for constructing a approximate solutions of current on the tubular vibrator.

The features of the functioning of a non-parametric, frequency-selective communication channel with intersymbol interference are analyzed, in which APSK- N -signal for data transmission is used. The stability of data transfer rate increasing in such channel using proposed approach based on the «transparency windows» utilizing is studied. In this study the equally probable law of symbol values in modulating sequence was used. The stability «transparency windows» in the presence of a destabilizing factor as a frequency detuning is estimated. In addition, the influence on the stability of the «transparency window” of measurement errors of the envelope and phase produced by the receiver has been evaluated. Based on the study, recommendations were made to improve the speed in such communication channels.

The results of the research of silicon carbide thin films obtained by high-frequency magnetron sputtering on various types substrates are presented. The surface morphology of silicon carbide was studied by scanning electron microscopy. Surface roughness was measured using a profilometer. The phase composition and structural perfection of the films were determined by x-ray phase analysis and Raman scattering. The method of silicon carbide layers optical parameters calculation based on experimentally obtained spectra of natural light normal reflection from the structure and from the substrate is developed. The refractive index, extinction coefficient and specific conductivity of silicon carbide films are calculated depending on the wavelength of the incident light.