Educational program

Code – Speciality 8D05302 - Technical physics
The aim of the educational program

Training of highly qualified, in-demand specialists in the field of physics, condensed matter physics, nanotechnology and additive technologies, adapted to the conditions of the market economy, able to analyze, know and perform the full range of production tasks through a combination of research, design, business.
Graduate model
Graduate qualification Professional sphere:

higher education institutions, research institutes, research centers, design, technological and constructive organizations, management bodies, industrial production, etc.
The object of professional occupation:

1. Solids: study of the structure, properties and behavior of materials under various conditions, development of new materials with certain properties. 2. Semiconductors: study of electronic and optical properties of semiconductor materials, development of new semiconductor devices and devices. 3. Optics and laser technology: study of the physical principles of operation of optical and laser systems, development of new methods and devices for optical communications, laser processing of materials and other applications. 4. Nanotechnology: study of the properties and behavior of materials on the nanoscale, development of new nanomaterials and nanodevices. 5. Plasma physics: study of the physical properties of plasma and its interaction with solids, development of new methods for plasma processing of materials. 6. Electronics: study of the electronic properties of materials and devices, development of new electronic devices and systems. 7. Physics of the atomic and molecular level: study of the structure and properties of atoms and molecules, development of new methods of analysis and control. 8. Physics of elementary particles: study of the structure and properties of elementary particles, development of new methods of detection and measurement.
Types of professional occupation:

1. Research work in the field of solid state physics, semiconductor physics, optics, laser technology, nanotechnology, plasma physics and other related fields.

2. Development of new materials and technologies for electronics, optics, laser technology and other areas.

3. Creation and development of new instruments and devices based on new materials and technologies.

4. Work as a researcher and expert in various companies and enterprises.

5. Work in government agencies and scientific institutes dealing with problems of physics and electronics.
Functions of professional occupation:

1. Research function: conducting scientific research in the field of technical physics, including the development of new methods and instruments, data analysis, modeling and experiments.

2. Analytical function: analysis and processing of obtained results and data, identification of patterns and trends, assessment of the effectiveness of developed methods and devices.

3. Design function: development of concepts and projects of new technical systems and devices based on the obtained scientific results, creation of prototypes and models.

4. Experimental function: Conducting experiments to test hypotheses and test new methods and devices, as well as collect data for further analysis.

5. Publication function: writing scientific articles and reports at conferences, publishing research results in scientific journals.

6. Consulting function: consulting colleagues and specialists in the field of technical physics, providing expert assessments and recommendations.

7. Managerial function: participation in the organization and management of scientific projects and laboratories, coordination of team work and distribution of tasks.
Graduate competences map
Formed core competencies Program outcome
1. The ability to critically analyze and evaluate modern scientific achievements, generate new ideas when solving research and practical problems. Apply methods of optimization, analysis of options, search for solutions to multi-criteria problems, taking into account uncertainties in design, and formulate technical specifications.
2. The ability to design and carry out complex research based on a holistic systemic scientific worldview. Apply methods and principles of measurements and research in the field of plasma beam and electric discharge technologies, as well as methods of theoretical and experimental study of the composition, structure and properties of solids of various natures (metals, polymers).
3. Willingness to use modern methods and technologies of scientific communication in the state and foreign languages. Analyze professional information resources when planning and processing the results of scientific research.
4. The ability to plan and solve problems of one’s own professional and personal development. Organize innovative activities at the enterprise, prepare feasibility studies for innovative projects, create programs for the development of new products and technologies.
5. Possession of scientifically based methodology of theoretical and experimental research in the field of professional activity. Select new methods for calculating modern physical installations and devices, develop methods for recording ionizing radiation, methods for assessing the quantitative characteristics of nuclear materials.
6. Ability to develop and use modern methods of scientific research and their application in industrial research activities. Assess the current state of science, apply a modern approach to modeling various phenomena in the field of plasma physics.
Modular Curriculum
Base disciplines Profiling disciplines Additional types of study