taught in Russian


Master programmes

Type of instruction


Duration of study

two years


  • Modern Problems of Natural Science
  • Differential Equations and Equations of Mathematical Physics
  • Variational Methods in Optimisation Problems
  • Laboratory and Computational Workshop
  • Modelling Charged Particles Dynamics in Accelerators
  • Charged Particles Accelerators
  • Fundamentals of physics and technology of cyclic accelerators
  • Computing Facilities of Dynamic Process Modelling
  • Electrodynamics and Technology of RF and Microwave Frequencies
  • Data Warehouses
  • Modern Computer Technologies in Science
  • Radiation and Particle Detectors
  • Projects Management
  • Modern Software for Modelling and Analysis of Physical Processes
  • Modelling Processes in High-Energy Physics
  • Modern Philosophy and Methodology of Science
  • History of Physics and Applied Mathematics
  • Foreign Language

Scope of research

  • The charged particles accelerators theory  and methods for modelling the dynamics of charged particles in accelerators
  • Methods of applied mathematics and mathematical physics in nuclear physics and elementary particle physics. Modelling of the interaction of particle beams with matter
  • Vacuum technology. Microelectronics and electronic devices
  • Microwave theory and technology
  • Devices and systems for diagnostics and control in accelerator technology
  • Systems of automated control of accelerator and experimental systems.
  • Information technology for physical experiments

Internship and future career

Students are provided with internship placements at the Joint Institute for Nuclear Research in Dubna, Russia.

The graduates can work at the leading accelerator centres in Russia, including JINR, as well as abroad; they can also continue as aspirantura programme students.


  • Software engineer, systems analyst
  • R&D engineer

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