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Detection of the formation of water clusters sharply inhomogeneous magnetic microdomain structures

Keywords:

N.I. Sinitsyn – Dr. Sc. (Phys.-Math.), Professor, Deputy Director on Research and Development,  Saratov branch of Kotel'nikov IRE of RAS
E-mail: info@soire.renet.ru
V.A. Elkin – Ph. D. (Eng.), Associate Professor, Senior Research Scientist, Saratov branch of Kotel'nikov IRE of RAS
E-mail: Vlaelkin@gmail.com
O.V. Betsky – Dr. Sc. (Phys.-Math.), Professor, Head of Laboratory, Saratov branch of Kotel'nikov IRE of RAS
E-mail: betskii@yandex.ru


It is shown for the first time that constant homogeneous magnetic fields do not lead to cluster formation in water-containing media. The formation of clusters of water by microdomain high-gradient magnetic fields has been discovered, which may prove to be an important factor in the development of new principles of biomedical electron radio-electronic nanotechnologies. A measuring device has been created that allows measuring the intensity of the transmitted layer of IR radiation at different stages of the formation of water clusters in the layer. Water clusters were formed by sharply non-uniform magnetic fields of micro-rhodium films of iron-yttrium garnet, which contact the surface of the water layer. Stretched clusters formations in the water layer cause its clarification in the IR range because the water dipoles bound in the clusters absorb weakly the infrared radiation of the middle region. The time dependence of the intensity of IR radiation passing through a thin layer of water under the influence of a sharply inhomogeneous magnetic field is shown and the effect of a constant uniform magnetic field on the IR transparency of this layer of water is investigated. The effect of EHF radiation in the frequency range 53−78 GHz, vertically incident on the contact area of water and films, was studied. On the graph of the dependence of the IR transparency of the cluster-containing layer of water on the frequency incident on the EHF radiation, there are darkening areas and bleaching. This is a significant fact for the use of film sharply non-homogeneous magnetic structures in biomedical radioelectronic nanotechnologies. Opportunities to create methods for magnetically controlled effects of EHF and THz radiation on water-containing media and biotissues are being discovered. The obtained results show that the formation of water clusters by the non-uniform magnetic fields of microdomain systems opens the prospects for the development of new principles for the creation of highly effective biomedical radioelectronic nanotechnologies for EHF and THz ranges.

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