Physical and functional effects of radiation interaction with electrotechnical and biological systems

The Project encompasses investigations of physical and functional effects of electromagnetic and particle radiation on electrotechnical and biological systems. The Project is divided into four subprojects. Mathematical modeling of the interaction of radiation with electrotechnical and biological systems is performed within "The Modeling" subproject. Subproject entitled "Effects of working conditions on the characteristics of electrotechnical materials and components" explores the phenomena encountered in electrotechnical materials and components caused by radiation as well as by temperature change and thermal stresses, with a view to determining the applicability of components in hostile environments and indicating methods of their radiation hardening. Subproject "Processes in gases caused by discharges and defects in oxides caused by radiation and electrical stress" comprises investigations in gases at low pressures that take place prior to, during and after electrical breakdown, as well as of defects in oxide regions of semiconductor components produced by radiation and high electric fields. Research within the subproject "Interaction of radiation with biological materials and materials in detection systems used for optimizing medical application of ionizing radiation" focuses on the study of the interaction of radiation with materials significant in medical uses of radiation sources, with the aim of providing accurate assessment of radiation loads and lowering the risk.