Level of education: specialist

Mode of study: Full-time

Duration of study: 6 years


  • Mechanics
  • Molecular physics
  • Electricity and magnetism
  • Optics
  • Atomic and nuclear physics
  • Physical laboratory practicum
  • Theoretical mechanics
  • Electrodynamics
  • Continuum mechanics
  • Quantum mechanics
  • General theory of probability
  • Statistical physics and physical kinetics
  • Plasma physics
  • Mathematical analysis
  • Higher algebra
  • Analitical geomatry
  • Theory of probability and processing methods of observations
  • Differential equations
  • Differential geometry and  tensorial analysis
  • Mathematical physics
  • Numerical methods
  • Time series analysis
Informatics and programming
  • Programming
  • Operational system UNIX
  • Informatics
  • Computational methods
  • Computational practicum
  • Software in astronomy
  • General astronomy
  • General astrophysics
  • Practical astrophysics
  • Practicum on astronomic observations
  • Spherical astronomy
  • Astrometry
  • Celestial mechanics
  • Stellar astronomy
  • Theoretical astrophysics
  • Radio astronomy
  • Planetary physics
  • Extragalactic astronomy and cosmology
  • History of astronomy
  • Introduction 
  • Astronomic observations
  • Astrophysical observations
  • Practical work
  • Diploma practicum
Elective courses
  • About 60 courses in astronomy

Our advantages

  • One of 10-15 educational programmes in astronomy in the world
  • Research schools, opportunities to carry out research at the University
  • A broad perspective on physics and mathematics provides solid grounds for astronomy, theoretical and experimental physics, fundamental mathematics, and information technologies 
  • Tailor-made approach to each student
  • Career in Russian and abroad

International relations

  • Boston University
  • University of Rome
  • University of Turku
  • Dresden University of Technology
  • University of Paris VI

Scope of research

  • Cosmology: large-scale structure of the Universe,  Вселенной, anisotropy, cosmic microwave background
  • Physics of galaxies: dynamic of interaction and structuring in galaxies and intergalactic space. Gravitational interaction between galaxies. Photometry and polarimetry  of the peculiar galaxies, active nuclei of the galaxies, and quasars, and blazars.
  • Stellar physics: development of the theory and methods of calculation of radiation and substance transport in stellar interior and atmosphere; analysis of  light curves and polarization of young stars, stars with planet-forming disk and galactic X-ray sources
  • Physics of interstellar medium: interstellar extinction and polarization in models of nonspherical multilayer particles, mechanisms of forming of structures in interstellar space and star formation mechanisms
  • Heliophysics: theoretical  solar spectropolarimetry, structures of the atmosphere in millimeter wave band
  • Dynamics of stellar systems: dynamic evolution of the stellar systems, structural, kinematic, and dynamic modelling of the Galaxy 
  • Celestial mechanics: deterministic and  stochastic celestial mechanics, dynamics of the orbits of natural and artificial celestial bodies, extrasolar planets
  • Astrometry: rotary parameters of the Earth in the VLBI observations, GPS-astrometry, astrometry


Practices at:
  • Pulkovo Observatory
  • Special Astrophysical Observatory, Russian Academy of Sciences
  • Institute of Applied Astronomy, Russian Academy of Sciences
  • Institute of Astronomy, Russian Academy of Sciences
  • Pushchino Radio Astronomy Observatory
  • Crimea Astrophysical Observatory

Career: research fellow in astronomy, physics, mathematics, informatics; experts in applied areas; education.