Oleg G. Morozov

TL;DR: In this paper, the amplitude phase conversion method for forming double frequency oscillations from harmonic signals is proposed based on the fact that phase modulation with certain indexes could decrease an amplitude of initial frequency and produce two symmetric side lobes.

TL;DR: In this article, the metrological aspects of symmetric double frequency and multi frequency reflectometry for Bragg structures are considered, and the authors considered the following systems: a) symmetric multi-frequency reflectometry (MFRR) system for bragg structures control, and b] symmetric DFR system for BRG structures control.

TL;DR: In this article, the information structure of two-frequency radiation is examined and key aspects of its application are discussed concerning to the theory of precision spectral characterization of resonant structures and theory of quasi-harmonic oscillations and potential noise immunity.

TL;DR: In this paper, a power equivalence of pulse probing with high peak power and small duration of a pulse and continuous probing with low power of radiation and big time of supervision is explained, and the fulfilled technique of spatially resolved measurements based on the linear frequency modulation method, and significant progress in the field of creation of high-tech and inexpensive element base (sources of radiation with the big coherence length, broadband devices of radiation parameters control and high speed photoreception devices).

TL;DR: An overview of the basic structures, characteristics, element base and directions of development for microwave photonics systems is presented in this paper in terms of requirements defining the parameters of external amplitude-phase modulation as key process for radio frequency signal generation in the optical range and poly-harmonic laser radiation with components, lying within the radio frequency range.