Investigation of low-pressure discharges for elaboration of equipment and technology for pulse electron-beam evaporation and ion-plasma deposition of nanostructurized coatings.

 Obtaining of different coatings by electron-beam evaporation in vacuum is one of the most widely using methods. However, obtaining of coatings from multicomponent materials, as well as from chemical compounds, which are inclined to thermal dissociation, is really difficult with using of continuous heating during evaporation. For deposition of such coatings applying of pulsing evaporation by electron beam, generated in high voltage glow discharge with cold cathode, with activation of steam and gas fluxes in the evaporation zone by low-pressure discharge, is very perspective.

New theory and experimental means of measurement for building new study about the gravity anomaly lows

In the given work the investigation of potentialities and expediency of using integrating gyroscopic gravimeter as a gravimeter of airborne gravimetric system are performed with the aim of increasing the accuracy of measurements of gravitational acceleration values. The peculiarities of work of integrating gyro gravimeter are investigated with the help of computer in the static operation mode and the dynamic one under the condition of harmonic action of perturbations.

Development of the theory of construction the sensors systems end using the IP end the nano-microtechnologie

The advent of nano-technology and advances in communications has made it technologically feasible and economically viable to develop low-power devices that integrate general-purpose computing with multi-purpose sensing and wireless communications capabilities. It is expected that sensor networks will have a significant impact on a wide array of applications ranging to scientific, to industrial, to health-care, to domestic, to environmental.

An Improvement of Ground Surveillance Optoelectronic System's Functional and Tactical Properties

The project is dedicated to current importance direction of instrument-making industry - the increasing of complex efficiency of infrared (IR) optoelectronic reconnaissance systems (OERS).

The prosecution of project consisted of three harmonized function boxes:

- mathematical modeling of information transformation in IR OERS, search of major links of the system, researches of the informative system behaviour under various conditions and at different influences;

Research and development of technological bases for increasing of efficiency plasma spray coatings with magnetic acts.

The base energetic  characteristics of plasmatrons on complicated gases mixtures are researched;  experimental researches of the role of electromagnetic fields on the formation gas-powders streams in the processes of plasma spraying  are fixed; working models of equipment are developed; influence of regime parameters on the results of the quantity of plasma coatings from the materials different physical nature  is studied; the main peculiarities of coatings are pointed out; technological recommendations on application of magnetic controlling of formation plasma coatings are proposed

The trial model of the system for oncological disease treatment with photodynamic therapy method.

The treatment of the oncological diseases with photodynamic therapy method (PDT) is based on the cancerous cells selective destruction owing to the residues of photochemical reactions taken place into the malignant tumors those have accumulated photosensitizer selectively when dosed exposing of the light with specific wavelength.

Research and development of the technology of laser cutting of medical implants (stents).

There was developed a highly efficient technology of medical stents' manufacturing  by means of focused laser beam.

 The developed technology lets us to cut stents  from tube workpieces (material – stainless steel, nitinol etc.) with any complexity of the stent's pattern. In order to implement the developed technology a trial version of industrial laser system that consists of Q-switched YAG laser, beam delivery and focusing system, assyst gas delivery system, monitor and control system and workpiece movement and protection system was developed.

Development of non-invasive technologies and high resolution systems for early diagnosis of cardiovascular diseases

Theoretical foundations of non-invasive high resolution technologies for early diagnosis of cardiovascular system are given. Algorithms and programs for early diagnosis of cardiovascular system based on the development of techniques for pattern recognition of structural components electrocardiogram are developed. The technique of component analysis of heart rate variability based on orthogonal dyadic wavelet analysis is presented.

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