Basic subjects
Higher Mathematics Physics Computer science Engineering and computer graphics Ecology Theoretical foundations of electrical engineering Metrology, standardization and measuring instruments Chemistry Materials and components of electronic equipment Mathematical modeling methods Circuit design Special sections of physics
Specialized subjects
Microwave devices and devices Physics of wave processes Pulse and digital devices Microwave technology Physical foundations of technical electronics and nanoelectronics Microprocessor devices Technical electrodynamics Application of electronic devices and devices Quantum and optical electronics Quantum mechanics and statistical physics Theoretical foundations of radio electronics Electronic devices for receiving and reproducing images
Program Overview
Students can study modern technological processes of integrated circuits manufacturing, methods of design calculations, construction and modeling of custom integrated circuits using modern CAD (Computer aided design).
- You can learn how to develop and apply the basic processes of micro- and nanosystems technology, drawing up route maps, controlling the parameters of technological environments for the organization of high-tech production of nanoproducts. You will be able to choose technological routes for the manufacture of integrated circuits, to develop design and technological documentation.
- You have the opportunities to get training skills in designing nanoelectronic elements, analyzing and calculating their characteristics. You will master skills to work on modern technological equipment, its installation, adjustment and maintenance, development and organization of metrological support of technological processes of micro- and nanotechnology.
Program Benefits
Students are provided with unlimited access to the electronic information and education of the Southern Federal University. You can use electronic library systems, professional databases and information reference systems. All students have access to the study rooms for self-directed learning where they can make use of computers connected to the Internet.
- Students have access to workspaces for engineering and laboratories. These rooms facilitate hands-on learning of things or system building, interdisciplinary knowledge, and exploration of the social aspects of professional practice.
- The program uses project-oriented learning which involves students in active team interaction within the framework of practical and research activities. It helps them to solve production problems of high-tech companies. There is also research-oriented learning which involves the implementation of research projects in mono- and interdisciplinary teams in professional educational fields.
- Modern technological and research equipment at the world level is used during the educational process. There are such kinds of new equipment as multifunctional Ultra-high Vacuum Nanotechnology facility, Ntegra Spectra Nanolaboratory, the microscopes Solver P47 Pro SPM and Nova NanoLab 600, scanning electron microscope Phenom, a range of educational scanning probe microscopes NanoEducator, plasma chemical deposition facility, plasma chemical etching, electron-ray and magnetron sputtering, industrial laser system.
Prospects. Career & Employment
Industrial companies that make products using microelectronics, radio technology and defense industries. These companies make products using nanotechnology and nanomaterials.
- Research and design organizations in Russia and other countries.
You can work in the following companies:
1. JSK “Micron” – Chipmaker №1 in Russia (Moscow)
2. The Energomera Concern (Stavropol)
3. The "Rostov-on-Don Research Institute of Radio Communications," which is a part of the Federal State Unitinary Enterprise, is a place where people work on different projects related to radio communications.R76
4. JOINT-STOCK COMPANY "NOVOSIBIRSK PLANT OF SEMICONDUCTOR DEVICES VOSTOK"
5. PJSC GRANIT (Rostov-on-Don) etc.
Why is it important to pursue a higher education?
You will become highly qualified specialists at the branches of modern industry. In this sphere you realize knowledge-intensive technologies for the development of new devices of electronics and nanoelectronics.
- Special attention is paid to the training of graduates in the field of obtaining and using new information for electronics and nanoelectronics. Students get the qualification in the field of practical use of devices and devices of microelectronics and solid-state electronics which are in demand in the labor market.