Development of basic assumptions of mechanisms of creating nanostructures in dielectrics influenced by high energy ions.
The problem of creation and study of properties of nanostructures in solids, creation of nanoporous materials is an important task of nanophysics.
Study of conditions of structure modification, optical and nano-mechanical properties of LiF crystals, irradiated with high speed ions using methods of absorption spectroscopy, scanning electron and atomic force microscopy and nanoindentation.
Cross chips (along the track) irradiated by LiF crystal ions are studies for the first time, after chemical etching using methods of atomic force and scanning electron microscopy and nanoindentation. Elucidation of processes of creation of nanostructures and nanoporous materials.
Development of basic assumptions of mechanisms of creation and properties of nanocrystallites in crystalline dielectrics, which allows creation of the necessary nanostructures within the crystal, creation of nanoporous materials with possible applications for micro-, nano-electronics, and micro-, nano - electromechanical systems.
Scope of Application
Micro-, nano-electronics, nano-electromechanical systems, membrane technologies.
The project is executed over the program of the Ministry of Education and Science of the Republic of Kazakhstan “Grant financing of scientific research” for 2012-2014 (6 000 thousand tenge for 2012).