Training period 1 year 9 months
Educational and scientific program, characterized by interdisciplinary and systematic nature, focused on modern scientific achievements in the fields of information and nanotechnology.
Uniqueness of the program
Interdisciplinary approach: The program combines knowledge from various fields of science, creating a holistic understanding of micro- and nanosystems engineering.
Information component: Based on the uniqueness of the analysis and consideration of the information component of signals that are created, received and processed in micro- and nanoelectronic systems.
Modern methods: Application of advanced methods of receiving and processing signals that are inherent in the world of micro- and nanoscale structures.
Our goal
To bring together like-minded people, future leaders in the field of:
- Information technology
- Bio- and nanotechnology
- Modern STEM education
We strive to create an environment for the development of innovative thinking and practical application of knowledge in the field of micro- and nanosystem engineering.
Objects of study
- Physical processes and phenomena: Study of fundamental physical processes at the micro- and nanolevel.
- Information, nano- and biotechnology: Integration of various technological areas to create innovative solutions.
- Physical foundations of device development: Creation of equipment and devices for micro- and nanoelectronics.
- Methods of receiving and processing signals: Development and improvement of methods for working with signals in micro- and nanoelectronics.
Characteristics of the educational and scientific program
- Integrity and interdisciplinary approach
- Systematicity in study and research
- Focus on modern scientific achievements
- Integration of theoretical knowledge and practical skills
- Focus on innovative technologies and methods
Structure of the educational and scientific program
- Physics of nanostructured materials: Study of the properties and behavior of materials at the nanoscale, their structure and application possibilities.
- Natural disciplines: Comprehensive study of fundamental sciences to understand processes in micro- and nanosystems.
- Scientific and technical disciplines: Practical application of knowledge to solve complex natural science problems.
Practical direction
The educational and scientific program “Information microelectronic systems and nanotechnologies” includes a set of sections and directions aimed at solving complex natural science problems for practical applications.
The program provides the formation of the necessary competencies for work in modern high-tech industries and scientific institutions.
Synergy of education and production
- Educational approach: Formation of a theoretical knowledge base and understanding of fundamental processes
- Scientific approach: Development of research skills and critical thinking
- Production needs: Solving physical, technical and engineering problems of modern production
The program creates conditions for the formation of synergy of the educational and scientific approach with the needs of modern production on the path of development of higher education.