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Electronics and nanoelectronics
Bachelor program: Electronics and nanoelectronics
The object (mission) of the educational program
To train bachelor students which are able to perform scientific, research, professional industrial and technological activity in the field of micro- and nanoelectronics in sphere of design, computer modelling, constructing of micro- and nanoelectronics devices, technology of microelectronics and nanoelectronics element base, research on physics of semiconductors, dielectrics, low-dimensional systems, and microelectronics element base.
Scope of the educational program:
240 credits, 4 yearsLanguage of instruction:
RussianEducational program design considers features and requirements of regional labor market (including regional features of professional activity of alumni and requirements of employees), up-to-date state and prospects of development of the research in fundamental semiconductor physics. Combination of research and industrial technological tasks allow alumni to get wide knowledge and get necessary competences in the field of semiconductor devices.
- Foreign Language
- History
- Philosophy
- Mathematical analyses
- Linear algebra
- Physics
- Information technologies and basics in programming
- Basics of Project activity
- Life safety
- Theoretical Basics of electrical engineering
- Metrology, standardization and certification
- Law
- Materials of electronic devices
- Engineering and computer graphics
- Schematics
- Basics of personal and communicative culture (Culture of scientific and business speech, Culture and personality)
- Basics on design and production technology of electronic devices
- Microprocessor devices
- AI systems and machine learning
- Chemistry
- Information technologies for professional activity
- Physics of the condensed state
- Analysis and control methods for nanostructured materials and systems
- Solid state electronics
- Nanostructured materials
- Special chapters of mathematics
- Methods of mathematical physics
- Semiconductor physics
- Quantum mechanics and statistical physics
- Methods of mathematical modelling
- Physical basics of electronics
- Professional software
- Quantum and optical electronics
- Microoptics and photonics
- Digital signal processing
- Applied mechanics
- Physical foundations of micro- and nanosystem devices
- Microsystem devices components
- Components of microsystems technology
- Basics of electronic component base design
- Basics of computer-aided design systems for large integrated circuits
- Processes of planar technology
- Physical and chemical bases of micro- and nanotechnology processes
- Microelectromechanics
- Mathematical modeling of electronic systems
- Economics and management of production systems
- Physical culture and sport
- Internship to acquire basic professional skills