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SIBERIAN FEDERAL UNIVERSITY

School of Engineering Physics and Radio Electronics

About

School of Engineering Physics and Radio Electronics was founded in 2008 by merging the faculty of Physics, Krasnoyarsk State University, the faculty of Engineering and Physics, and the faculty of Radio Engineering, Krasnoyarsk State Technical University.

The main goal of the school is to prepare scientific and industrial personnel for research organizations, enterprises of the radio engineering industry and communications, as well as for R&D departments of enterprises of heat power engineering, metallurgy, oil and gas industry and medicine of Krasnoyarsk Region and the Siberian region.

Students, postgraduates and academic staff members of the institute win scholarships of President and the Government of the Russian Federation, and are also laureates of the awards of the Head of Krasnoyarsk and Krasnoyarsk Region.

3

levels of higher education

25

educational programs

150

professors and assistant professors

40

Doctors of Sciences

Education

Why you should

join us

Sound academic background
Sound academic background
Highly qualified teachers
Highly qualified teachers
Practically focused
Practically focused
Convenient location
Convenient location

Siberian Federal University has a beautiful and a modern campus, where everyone can find a fulfilling hobby

Photo of SibFU CampusPhoto of SibFU CampusPhoto of SibFU CampusPhoto of SibFU Campus

4

students from Kyrgyzstan

1

student from Tajikistan

1

student from Irak

6

international students

Internship

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Reshetnev Information Satellite Systems, JSC
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Krastsvetmet
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UC Rusal
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Iskra Design Bureau

Testimonials

Photo of Vasiliy

VasiliyPanko

assistant professor


For many years, the Department of Radio Engineering has been conducting research work in various areas of antenna technology and microwave devices:

Antenna arrays with digital beamforming and spatial signal selection; Reflective antenna arrays (relfectarray antennas); Multi-beam broadband lens antennas made of artificial non-uniform dielectric. Ultra-wideband antennas and antenna arrays; Antennas for wireless communication (Wi-Fi, Wi-Max, GSM, LTE); Multi-band reflector antenna feeds; Antennas for navigation systems.

The results obtained are used in satellite navigation systems, radio communications, radio monitoring of the centimeter and millimeter wavelength ranges.

The department has at its disposal all the necessary facilities and resources (a computing center, automated modeling tools, measuring equipment, an anechoic chamber, production equipment), which allows a full cycle of research, modeling, development, production of prototypes and measurement of technical characteristics of various types of antenna systems.

Students and postgraduates are actively involved in the implementation of research and development work.

Photo of Marat

MaratValikhanov

assistant professor


It is important to talk to students in simple terms about difficult things.

Every day people come into contact with radio technology. These can be various devices that receive and transmit information, for example, telephones; control objects, i.e. machines in production, sensors and video cameras; detects objects, i.e. echo sounders, radars, ultrasound, x-rays; help to save a person's life, for example, search for people under avalanches. Even our body, at any given time, interact with different signals that propagate in the air around you and me, for example, cellular and satellite communications and television signals. It becomes clear that radio engineering is used in different areas of life of any person.

The academic staff of the Radio Engineering Department has practical experience in the subjects they teach their students. This allows us to pay special attention to complex things, give out information in small portions, explaining the material in simple words without using complex academic language. Thus, complex, but very important formulas and physical phenomena are more easily perceived by students, which leads to the formation of their knowledge base and allows them to move on to the next complex issues.

After four years of study, during the preparation of bachelor's theses, students carry out calculations and design devices, develop algorithms and program devices, test them, and report the results of their work at student conferences. About half of the third-year students already find work in their specialty, the rest are fully employed after the fourth year.

The knowledge gained during four years of study and practical experience allows students to enter the master's degree program to develop their professional skills. Master's degree program involves solving various scientific problems and the implementation of the results obtained in production. Long-term Master's Degree Program + Production practice shows the high efficiency of this format of interaction between the department and enterprises.

Photo of Gennadiy

GennadiyAldonin

professor


If you are interested in designing electronic devices, then such specialties as electronics and nanoelectronics, design and technology of electronic devices are for you.

What will be taught at the Department of Instrumentation and Nanoelectronics? Design units and modules of electronic devices using modern computer technologies, develop design and technological documentation for future products, organize the production process, configure, regulate and carry out routine repairs of electronic equipment.

The objects of development can be electronic equipment for various purposes for civil and special fields of application.

An important part of our graduates’ activities is the performance of exploratory research and development work. The qualifications of graduates allow them to occupy managerial positions in industrial enterprises.