федеральное государственное автономное образовательное учреждение высшего образования
«Самарский национальный исследовательский университет имени академика С.П. Королева»
Dean, professor, Doctor of Engineering Platonov Igor Artemevich

Contact:
1, Akademika Pavlova
Room 202, Department 22A,
443011, Samara, Russia
Phone:
+7 (846) 334-54-30
Website: https://vk.com/phys_su

The curriculum of the Faculty is based on the idea of combining theoretical education and experimental education. Special training in physics, mathematics and programming is conducted in parallel with the study of a wide range of humanitarian subjects. The main principle of training physicists is the studying through research.

In the first two years students receive general training. Experimental training starts in a general physics, in laboratories students meet with the basics of mechanics, molecular physics, electricity, optics, electronics, radio engineering, atomic and nuclear physics. In senior courses, students study electrodynamics, thermodynamics, quantum mechanics, methods of mathematical physics. Programming and mathematical modeling courses and computer practice have become an integral part of the curriculum. The scientific work of students is carried out in various areas of physics: theoretical physics, optics and spectroscopy, physics of semiconductors and metals, radio physics and radio electronics. The Faculty implements four areas of training: fundamental physics, optics and laser physics, solid state physics and semiconductor nanoelectronics, chemical physics, physics and chemistry of atomic and molecular processes.

The curriculum at the Faculty of Physics is aimed at the training highly qualified specialists who have theoretical and practical competencies in the most relevant areas of modern physics (micro- and nanoelectronics, quantum physics, laser physics, chemical physics) and are able to conduct scientific research using modern instrumentation (including complex physical equipment) and information technology. Studying in scientific laboratories, students receive practical skills in working with various experimental facilities: laser systems, optical and electronic measuring systems, radio systems, etc. Knowledge of information technology disciplines such as: programming, numerical methods and mathematical modeling, the graphic programming language LabView, modern information technologies for data analysis and mathematical information processing allow for the preparation a specialist who can process large volumes of information and make analyses.