Level of education: Master programme

Type of instruction: Full-time

Duration: 2 years

Language of instruction: Russian

Courses

  • Adapting and Studying at the University (eLearning)
  • Professional English
  • Atmospheric Electricity
  • Databases in Scientific Research
  • Interaction of Radiation with Matter
  • Introduction to Electrotechnical Materials Science
  • Introduction to the Theory of Climate
  • Problems of Modern Statistical Optics
  • Practice in Geophysics
  • Remote Sensing of Planetary Atmospheres
  • Professional Spanish
  • History and Methodology of Applied Physics and Mathematics
  • Quantum Magnetometry
  • Quantum Theory of Lasers
  • Quantum Chemistry
  • Kinetics of Electrons and Excited Particles in Plasma Devices and Technologies
  • Vibrational and Rotational Spectra of Molecules
  • Computer Simulation. Part 1. Molecular Dynamics
  • Computer Simulation of Polymer Nanocomposites
  • Computer Technologies
  • Concepts of Computational Physics. Part 1
  • Electrophysics. Computational Practicum
  • Magnetohydrodynamics
  • Magnetic Resonance Imaging
  • Methods of Nanosystem Visualisation
  • Methods of Nanostructure Studies. Part 1
  • Methods for Solving Spectral and Evolution Problems in Quantum Physics
  • Methods of Characterisation and Defect States of Semiconductors
  • Molecular Biology. Part 1
  • Molecular Biophysics. Part 2
  • Molecular Spectroscopy of Atmospheric Gases
  • Nonlinear Laser Spectroscopy
  • Nonlinear Problems of Applied Physics
  • Professional German
  • Optics of Surface
  • Optics of Semiconductor Crystals
  • Optical Methods and Phenomena of Quantum Information
  • Fundamentals of Molecular Spectroscopy
  • Fundamentals of Photonics and Optoelectronics
  • Software Packages for Scientific Computing
  • Computational Methods of Modern Physics. Practice
  • Practice in Molecular Spectroscopy
  • Practice in Quantum Optics
  • Practice in Spectroscopic Methods
  • Practice in Applications of Magnetic Resonance in the Geomagnetic Field
  • Practice in Nanobiophysics
  • Practice in Electrophysics
  • Practicum in High Performance Computing
  • Information Technologies in Atmospheric Physics. Practicum
  • Practicum in Quantum Optics
  • Practicum in Computer Simulation of Biomolecular Systems
  • Computer Simulation of Atmospheric Processes. Practicum
  • Practicum in Vibrational-Rotational Spectroscopy
  • Practicum in Optical Spectroscopy of Semiconductor Crystals
  • Programming Technologies. Part 1, Part 2. Practicum
  • Mathematical Modelling of Coherent Interactions. Practicum
  • Photoelectric Properties of Semiconductors. Practicum
  • Practicum in Molecular Dynamics
  • Applied Molecular Spectroscopy
  • Applied Magnetic Resonance Spectroscopy
  • Principles of Lasers
  • Nature of Intermolecular Interactions
  • Problems of Quantum Optics
  • Resonance Methods of Condensed State Research
  • Professional Russian
  • Modern Experimental Techniques of Magnetic Resonance
  • Modern Programming Technologies in Scientific Research. Part 1
  • Practicum in Molecular Biophysics. Part 1
  • Statistical Methods in Technical Tests
  • Group Theory in Solid State Physics
  • Theory of Electronic States in Crystals
  • Thermal Physics and Natural Convection
  • Technology of Semiconductor Nanostructures
  • Fourier Spectroscopy Technique
  • Practical Training
  • Physics of Lasers
  • Physics of High-Temperature Laser Induced Plasma
  • Physical Basics of Acoustic Technologies in Fluids
  • Professional French
  • Fourier Spectroscopy in Atmospheric Research
  • Atmospheric Circulation and Energy. Part 1
  • Numerical Methods for Solving Ordinary Differential Equations
  • Numerical Models of Geophysical Dynamics and Optics. Part 1
  • Nuclear Magnetic Resonance in Solids
  • Electrophysical Processes in Gases
  • Elementary Processes and Ionisation Phenomena in Gases
  • Electro- and Magneto-Optics of Molecules
  • Electrophysical Processes in Liquids
  • Excitons in Low-Dimensional Systems
  • Experimental Research Techniques for High Voltage Processes in Liquids and Gases

Our advantages

  • Students receive fundamental knowledge of physics, mathematics, applied mathematics, and professional programming in modern programming languages.
  • They master state-of-the-art tools of parallel and distributed computing technologies.
  • Fundamental training is combined with practical work in educational and scientific laboratories using the most advanced physical equipment of the resource centres of the St Petersburg University Research Park.
  • Cutting-edge computing, information technology and computer tools are used in teaching and research.

 

Career

The graduates can work at universities and research centres, industry-specific research organisations, R&D companies and IT companies.

Professions

  • Specialist in computer-aided design of technological processes
  • IT specialist in contemporary physics experiment
  • Physicist-researcher
  • Software engineer
  • Programmer
  • Analyst
  • Design engineer

Interested in this programme — set up your personal account to proceed with your application.