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I was born in 1958 in Tomsk, am a citizen of Russia. In 1975 I graduated from high school and enrolled at the radio physical Faculty of TSU (specialty - "Optoelectronic devices") from which I graduated in 1980 (diploma engineer) . After graduating from Tomsk State University (TSU) in 1981 I worked as an engineer in Atmospheric Optics Institute of Siberian Branch of Russian Academy of Sciences. From 1983 to 1986 I studied at the graduate school. The theme my dissertation was “The study electrical properties of thin-film systems metal-insulator-metal in extreme environmental conditions and electrical fields”. In 1995 I defended my dissertation and received a degree of Candidate of Technical Sciences. Since 1996 I working in Рroblem research laboratory of electronics, dielectrics and semiconductors , first as a senior researcher assistant (1996-2012) and later as a leading researcher. Directions of scientific and technical activities: Investigation of diffusion-controlled processes in ionic crystals and oxide ceramics at heating of materials by powerful beam of accelerated electrons. Radiation - thermal modification of properties of oxide ceramics. Work experience in TPU: 20 years. While working at the TPU I have published more than 100 scientific papers, 2 monograph. Author of 25 inventions.
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Research work Research interests. 1. The interaction of charged particle beams with ionic dielectrics. 2. Investigation of diffusion-controlled processes in ionic crystals and oxide ceramics at heating of materials by powerful beams of high-energy electrons; 3. Modification of properties of oxide ceramics under irradiation by beams charged particles. 4. Development of principle new radiation technologies of ceramics sintering and modification its properties. The main scientific results. It have been revealed the phenomenon of high-temperature radiation-stimulated diffusion of impurities in ionic crystals. The phenomena on of the radiation accelerated diffusion of oxygen in polycrystalline ferrites under action of an intensive electronic irradiation on ceramic material has been established. The results can be used in the fabrication of polycrystalline ferrite materials with the desired level of oxygen stoichiometry and the physical properties. The basic regularities of changing the properties of surface layers of oxide ceramics by irradiating an intense beams of low-energy electrons and accelerated ions were established. The experimental data is used to develop radiation-thermal methods of processing of ceramic materials.
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