Educational program

More details
Code – Speciality

8D05301 - Technical physics
The aim of the educational program

Training of PhD doctors with innovative thinking, possessing advanced resource-efficient technologies in the modern industrial industry, able to integrate into the world of industrial business and solving socially important problems of the national and regional industry market.
Graduate model
Graduate qualification Professional sphere:

higher education institutions, research institutes, research centers, design, technological and constructive organizations, management bodies, educational institutions (teacher training schools, gymnasiums, lyceums, colleges, special. schools of physics and mathematics), industrial production, etc.
The object of professional occupation:

- research institutes of physics and mechanics, informatics and other organizations of natural and technical profile;
- higher education institutions of state and non-state ownership;
- public administration in the field of education and natural sciences;
- organizations of different forms of ownership, using physical models in their work.
Types of professional occupation:

Educational doctoral programs are implemented in the scientific and pedagogical direction of training and provide in-depth specialized training, allowing graduates to subsequently successfully engage in scientific, pedagogical, managerial and expert activities.
Functions of professional occupation:

Scientific and research activities:

- the study of new scientific results, scientific literature or research projects in accordance with the profile of the object of professional activity;

- application of science-intensive technologies and software packages for solving applied problems in the field of physics,
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 the research;

- research and development of mathematical models, algorithms, methods, software, tools on the subject of research projects;

- preparation of scientific reviews, abstracts and bibliography on the subject of research;

- participation in scientific seminars, scientific-thematic conferences, symposia;

- preparation of scientific and technical publications;

Organizational and management activities:

- development and implementation of quality management processes of production activities related to the creation and use of information systems;

- compliance with the code of professional ethics;

- planning of research activities and resources required for the implementation of production processes;

- development of methods and mechanisms for monitoring and assessing the quality of production processes related to the creation and use of information systems.
Graduate competences map
Formed core competencies Program outcome
1. The ability to assess various situations on the basis of a holistic systematic scientific worldview and make managerial decisions Conduct research activities based on the principles of the thermodynamic approach in the field of condensed matter physics using modern research methods
2. The ability to carry out cultural and speech communication using modern communication tools and technologies Possess the skills of modern methods of processing results and methods of numerical modeling of electron beam processing processes used in the manufacture of products
3. Ability to perform written and oral scientific communication, including document preparation, and use information and analytical systems and databases for scientific work. Know the main stages and principles of scientific research, modern methods of collecting, processing and analyzing scientific information, requirements for the design of scientific publications and reports.
4. The ability to use knowledge about the modern physical picture of the world, the structure of matter to understand the surrounding world and natural phenomena. Take part in the development and implementation of scientific projects, research and development work, increase scientific productivity and publication activity, work with national and international databases.
5. The ability to understand the nature of structural-phase transformations and their physico-chemical essence, master the methods of physical research, processing and interpretation of the obtained data To have knowledge of various types of structural-phase transformations in condensed media.
6. Conducting lessons: ability to plan and conduct lessons Be able to teach, develop teaching materials and transfer knowledge at the highest level of education, effectively interact in international research teams, conduct scientific discussions, and present results.
Modular Curriculum
Base disciplines Profiling disciplines Additional types of study