Educational program

More details
Code – Speciality 7M05301 - Technical physics
(Double-degree EP - National Research Tomsk Polytechnic University)
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:

Areas of science and technology, including the research, development, creation and operation of new materials, technologies, devices and devices.
The object of professional occupation:

Physical processes and phenomena, physical and physical– technological devices, systems and complexes, as well as research, scientific–production, design organizations, enterprises, firms, companies, centers and higher educational institutions.
Types of professional occupation:

- researcher, research engineer and development engineer in the field of theoretical and applied physics, a highly qualified specialist with a high level of knowledge in the field of high-tech and computer technologies, mathematical modeling, energy saving and improving the energy efficiency of various objects, processes and technologies;
-researcher in design and survey, research institutes, teacher in educational institutions (secondary professional, higher).
Functions of professional occupation:

Scientific and research activities:
- study of new scientific results;
- scientific literature or research projects in accordance with the profile of the object of professional activity;
- application of high-tech technologies and software packages for solving applied problems in the field of physics, chemistry, biology, economics, medicine, ecology;
- study of information systems by methods of mathematical forecasting and system analysis;
- study of large systems by modern methods of high-performance computing technologies,
the use of modern supercomputers in ongoing research;
- research and development of mathematical models, algorithms, methods, software,
tools on the subject of ongoing research projects;
- preparation of scientific reviews, abstracts and bibliographies on the subject of research;
- participation in scientific seminars, scientific-thematic conferences, symposia;
- preparation of scientific and technical publications.

Organizational and managerial activities:
- development and implementation of quality management processes for production activities related to the creation and use of information systems;
- compliance with the code of professional ethics;
- planning of research activities and resources necessary for the implementation of production processes;
- development of methods and mechanisms for monitoring and evaluating the quality of production processes related to the creation and use of information systems.
Graduate competences map
Formed core competencies Program outcome
1. Research, assess, analyze and interpret scientific data and research. Conceive ideas while scientific and practical problems solving. Analyze the position of various authors in understanding the essence of scientific knowledge and cognition
2. Possess the skills of correct verbalization, meaningful description of observations, logical modeling of interpretation of the meaning of new phenomena in physical systems Identify cognitive aspects in physics: contextuality, consistency, multidimensionality, complexity and apply methods of analysis, comparison and explanation
3. In-depth knowledge in the field of technical physics necessary for research and teaching. Analyze changes in the structure and properties of materials during irradiation and use a computer to simulate physical processes
4. The ability to freely possess knowledge of the fundamental sections of physics, nuclear physics and biophysics, necessary for solving research problems Be proficient in the technique of analysis and construction of phase equilibrium diagrams in alloys, methods of thermodynamic analysis and computational physics as applied to a solid
5. Analyze the effect of radiation defects on physical properties crystals, as well as the use of dimensional effects on the physical properties of bulk nanomaterials Possess skills in various areas of modern applied physics and modification of materials and be able to use modern information technologies in the educational process
6. Master the theoretical foundations of the development of transformations in metals and alloys, state diagrams for determining the nature of phase and structural transformations Be able to independently learn new research methods using high technologies, new materials and new technological processes and analyze the information received
7. The ability to independently prepare tasks and develop project solutions taking into account the uncertainty factor Take part in the implementation of scientific research and development work, increase scientific productivity and publication activity, work with national and international databases.
8. Possess modern professional knowledge in the field of phase transitions observed in solids, including systems of reduced dimension. Be able to use modern methods of hardening metals and applying hardening coatings
9. Be able to use modern methods of strengthening metals and applying strengthening coatings Own the methodology of complex scientific research of the structure and properties of metals and alloys
Modular Curriculum
Base disciplines Profiling disciplines Additional types of study