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The theoretical description by methods of nonlinear dynamics of experimentally found features of interaction of low-intensive EHF and THZ of radiations with the water containing environment of biofabrics

Keywords:

N.I. Sinitsyn – Dr.Sc. (Phys.-Math), Professor, Academy of Natural Sciences, Deputy Director for Research, Saratov Branch of V.A. Kotelnikov Institute of Radio Engineering and Electronics RAS V.A. Elkin – Ph.D. (Eng.), Associate Professor, Senior Research Scientist, Saratov Branch of V.A. Kotelnikov Institute of Radio Engineering and Electronics RAS N.M. Ryskin – Dr.Sc. (Phys.-Math), Professor, Head of Department, Saratov State University of N.G. Chernyshevskiy; Senior Research Scientist, Saratov Branch of V.A. Kotelnikov Institute of Radio Engineering and Electronics RAS E.N. Starodybova – Software Tester, Joint Stock Company «Opensoft», Saratov O.V. Betskiy – Dr.Sc. (Phys.-Math), Professor, Academy of Natural Sciences, Head of Laboratory. Fryazino Branch of V.A. Kotelnikov Institute of Radio Engineering and Electronics RAS


Molecules of water possess the expressed polarity that allows to be established to branched hydrogen communications in the water environment. At the density of power of the falling electromagnetic radiation of millimetric range 10-20 μW/cm2 the electromagnetic waves of decimeter range extending with small losses are excited in the water containing environment. It is connected with presence at the water containing environment of large clusters from water molecules. The connected water in live systems is especially interesting. Authors for the first time experimentally found the phenomenon of structuration of the water containing environments in physical and biological objects due to creation of chain designs from water molecules from border of contact of water layers with a micro and nanonon-uniform surface of materials. Existence of two resonant doublets of transparency of a sheet of water thickness 0,5mm on 129,2 GHz is revealed; 131,4 GHz and 150,9 GHz, 155,4 GHz. The passing power at these frequencies more than on 25 dB exceeds the corresponding power out of resonant frequencies. It was for the first time observed as well threshold power level of this interaction. In this work, we present the results of theoretical research features of EHF and THz radiation interaction with the water-containing biological environments in order to explain a number of experimentally observed results. We develop a phenomenological model of the water-containing biofabric environment, which is represented as an ensemble of coupled self-excited oscillators. The model describes qualitatively the spectrum of the water-containing environment depending on various parameters: natural frequencies of the environment, external radiation power, and quantitative structure of various cluster structures. The suggested theoretical approach opens the way for development and optimization of novel effective biomedical radio-electronic nanotechnologies in EHF and THz bands.
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