Study Programmes and Branches of Doctoral Studies
Academic Year 2024/2025
- Algebra, number theory, and mathematical logic
- Atmospheric physics, meteorology and climatology
- Bioinformatics and computational biology
- Biophysics, Chemical and Macromolecular Physics
- Computational linguistics
- Computational mathematics
- Computer Science – Software Systems
- Computer Science – Theory of Computing, Discrete Models and Optimization
- Computer Science – Visual computing and computer games
- General Questions of Mathematics and Computer Science
- Geometry, topology, and global analysis
- Mathematical analysis
- Mathematical and computer modeling
- Particle and Nuclear Physics
- Physics Education and General Problems of Physics
- Physics of Condensed Matter and Materials Research
- Physics of nanostructures and nanomaterials
- Physics of Plasmas and Ionized Media
- Physics of Surfaces and Interfaces
- Physics of the Earth and Planets
- Probability and statistics, econometrics and financial mathematics
- Quantum Optics and Optoelectronics
- Theoretical Computer Science and Artificial Intelligence
- Theoretical Physics, Astronomy and Astrophysics
Study Programme Algebra, number theory, and mathematical logic
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Outline of study: The study program Algebra, number theory and mathematical logic offers students an advanced education in a selected area. The education allows the program graduates to follow contemporary research. It teaches them basics of independent scientific work and how to approach various abstract problems.The programme does not contain specializations.
Details of study:
Study Programme Atmospheric physics, meteorology and climatology
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Bioinformatics and computational biology
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Biophysics, Chemical and Macromolecular Physics
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Computational linguistics
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Outline of study: Computational linguistics is an interdisciplinary scientific field involving mathematics (including topics such as discrete mathematics, statistics and probability), computer science (e.g. algorithmization, machine learning, artificial intelligence) and classical linguistics (e.g. morphology, syntax, language typology). Computational linguistics investigates language from a formal point of view, and it aims at developing methods that could be used in software applications in the field of Natural Language Processing, in which languages in their spoken or written form are handled. The programme does not contain specializations.
Details of study:
Study Programme Computational mathematics
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Computer Science – Software Systems
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Outline of study: The program addresses open topics in software system analysis, development and application. In both theoretical and practical terms, it has foundations in the research of software architectures, programming languages and notations, together with tools and methods for software analysis and construction. These are studied both in general terms and in the context of important software system classes such as the information systems, or the distributed or parallel systems. On the creative side, the program combines projects of basic and applied research, often with strong experimental aspects, with outputs including research prototypes alongside traditional publications.The programme does not contain specializations.
Details of study:
Study Programme Computer Science – Theory of Computing, Discrete Models and Optimization
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Computer Science – Visual computing and computer games
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme General Questions of Mathematics and Computer Science
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Geometry, topology, and global analysis
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Mathematical analysis
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Mathematical and computer modeling
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Particle and Nuclear Physics
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Physics Education and General Problems of Physics
Form of study: full-time
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Physics of Condensed Matter and Materials Research
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Physics of nanostructures and nanomaterials
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Physics of Plasmas and Ionized Media
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Physics of Surfaces and Interfaces
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Physics of the Earth and Planets
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Probability and statistics, econometrics and financial mathematics
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Quantum Optics and Optoelectronics
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Theoretical Computer Science and Artificial Intelligence
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study:
Study Programme Theoretical Physics, Astronomy and Astrophysics
Form of study: full-time, combined
Possible acceptance without taking the entrance examination, for requirements see Admission procedure.
Details of study: