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In 1979 she successfully graduated from the Tomsk Polytechnic Institute with a degree in engineering physics. Since 1980 has been working at the Problem Research Laboratory of Electronics for Dielectrics and Semiconductors (PNIL EDiP) of the Tomsk Polytechnic Institute, first as an engineer, then as a junior research fellow and after defending in 2005 a thesis on specialty 25.20.00 "Interrelation of the parameters of electromagnetic signals with a change in tension -deformed state of rocks "in the position of a senior research officer, which he works on until now. Since 1980 I have been engaged in scientific research on the study of the main regularities of mechanoelectric transformations in rocks. Within the group, laboratory and field studies were carried out to identify the degree of deformation of landslide displacements on the landslides of Tomsk and the Crimea. In 1981 she was a member of the All-Union Expedition to conduct an experiment to activate landslide displacement. At the same time, work began on the use of mechanoelectric transformations to control the shock hazard of rock massifs in the Tashtagolskoye iron ore deposit in the Kemerovo Region. In 1983, the implementation of the RVINS-P-02 devices developed at the PNIL EDID was carried out in the production association "Sibruda". The development of a method for monitoring the changes in the stress-strain state of rock massifs and the forecast of the shock hazard with respect to the parameters of the recorded electromagnetic signal at the Tashtagolsky mine is also currently being carried out. With my participation, works are being carried out to test the operating equipment developed in the PNlL EDiP in the Tashtagol mine at a depth of up to 800 m with explosive mining technology for ore bodies with an explosion energy of 102 to 109 J. Currently, I am working with the group on creating a geoinformation monitoring system for the change Strained-deformed state of rock massifs and the forecast of shock hazard on the basis of mechanoelectric transformations. In addition to field studies, fundamental studies of mechanoelectric transformations under static and dynamic effects on rock samples are conducted to determine the effect of moisture, structural and textural features, mineral composition and the effect of various physical fields on the parameters of the electromagnetic signal and study the possibility of using the obtained dependencies to monitor the change in tension -deformed state of the rock massif and forecast geodynamic phenomena. According to the results of the research, important scientific results were obtained, namely, the relationship between the number of double electrical layers and the parameters of EMC was determined under the acoustic action on dielectric materials. Regularities in the EMC amplitude are revealed when the charge state of dielectric materials and contacting layers change. The influence of the duration of acoustic influence on the spectral characteristics of EMC is established. The amplitude-frequency parameters of the EMC revealed the stages of changes in the stress-strain state, namely, compaction, formation of the source of fracture and pre-destruction of rock samples. The regularities of excitation and relaxation of the NDS of rock massifs during the mass technological explosions at the iron ore deposit are revealed. Experimentally, when studying at the Tashtagolsky mine, it was determined that the best propagation of electromagnetic signals occurs at the contacts of rocks. This ensures reliable reception of useful information signals from the zone of impending destruction and with the redistribution of NDS in the mountain range. The change in the frequency of electromagnetic signals at different stages of relaxation of the rock massif with an explosive effect is established. The novelty and perspective of the work carried out is that the proposed approach makes it possible to investigate the process of destruction in time, which is an unquestionable contribution to geomechanics and physics of destruction.
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