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FU TFYREAFNM Relativistic astrophysics
Name in Czech: Relativistická astrofyzika
master's full-time specialized
Included in the programme: FU TFYZNM Theoretical physics

Parts of the final state examination and its content

Final State Examination has three parts:
1) Master's thesis defence,
2) Theoretical physics,
3) Relativistic astrophysics

Theoretical physics part verifies the knowledge from the following fundamental thematic areas of studies in programme Physics:
Theory of relativity, Quantum mechanics, Statistical physics, Quantum theory fundamentals, Material structure fundamentals and Mathematical analysis in extent of corresponding courses of fundamental study profile, which are common to all specializations.

Relativistic astrophysics part verifies the knowledge typical for this specialization, i.e., the knowledge of relativistic astrophysics parts that form content of following fundamental study profile courses: Process in the vicinity of black holes, Relativistic physics and astrophysics II, Compact stars and Compact objects with magnetic fields.

Parts of State Rigours Examination and their contents

The State Rigours Examination has two parts:
1) Rigour theis defence,
2) Relativistic astrophysics

Relativistic astrophysics part verifies the knowledge relativistic astrophysics parts, which form the contents of following of the fundamental master study profile courses: Process in the vicinity of black holes, Relativistic physics and astrophysics II, Compact stars, Compact objects with magnetic fields, and the knowledge of advanced relativistic astrophysics parts associated with the rigour thesis topic.

Suggestion of theses topics and the topics of defended theses

Diploma thesis proposals:
- Effect of neutron stars rotation on phenomena in their vicinity,
- Electrically charged toroidal structures in relativistic spacetimes,
- Alternative theories of gravity.

Defended diploma thesis
(topics are part of relativistic astrophysics and defended in actual master study programme Physics, followed by the proposed study programme Theoretical physics ):
- Properties of Hartle-Thorne spacetimes,
- Electrically charged toroidal structures rotating around magnetized Schwarzschild black hole,
- Study of radiation from point source on general geodesics in spacetimes of compact objects,
- Model of satellite galaxy motion including effect of dark energy.

Rigour thesis topics propposal:
- Phase transitions in compact stars,
- Electromagnetic radiation from accretion disks in vicinity of black holes.

Recommended progress through the study plan

Compulsory courses

Code Name Guarantor Type of Completion Extent and Intensity Credits Term Profile Cat.
FU:TFNSP0001Relativistic Physics and Astrophysics I J. Scheezk 4/2/08 1Z
FU:TFNSP0002Quantum Mechanics P. Lichardzk 4/2/08 1Z
FU:TFNSP0003Mathematical Methods in Physics F. Blaschkezk 3/2/07 1-
FU:TFNSP0004Statistical Physics and Kinetic M. Blaschkezk 2/2/06 2P
FU:TFNSP0005Quantum Field Theory I F. Blaschkezk 4/2/08 2P
FU:TFNSP0006Numerical Methods in Physics J. Scheezk 1/4/07 2P
FU:TFNSP0007Solid State Physics I. Hubačzk 2/1/05 3P
FU:TFNSP0008Cosmology Z. Stuchlíkzk 3/2/07 4P
FU:TFNSP0009Diploma Thesis J. Scheez 0/3/05 4-
61 credits

Povinné předměty specializace

Code Name Guarantor Type of Completion Extent and Intensity Credits Term Profile Cat.
FU:TFNRAF0001Processes in Vicinity of Blackholes Z. Stuchlíkzk 4/2/08 1Z
FU:TFNRAF0002Relativistic Physics and Astrophysics II J. Scheezk 4/2/08 2P
FU:TFNRAF0003Compact Stars M. Urbaneczk 3/1/06 3P
FU:TFNRAF0004Relativistic Astrophysics Seminar I M. Urbanecz 0/2/02 3-
FU:TFNRAF0005Compact Objects with Magnetic Fields J. Kovářzk 2/2/06 4P
FU:TFNRAF0006Relativistic Astrophysics Seminar II M. Urbanecz 0/2/02 4-
32 credits

Povinně volitelné předměty – typ B

Code Name Guarantor Type of Completion Extent and Intensity Credits Term Profile Cat.
FU:TFNPV0001Plasma Physics A. Tursunovzk 2/2/06 1-
FU:TFNPV0002Gravitational Waves M. Urbaneczk 2/2/06 1-
FU:TFNPV0003Deterministic chaos M. Kološzk 2/2/06 1-
FU:TFNPV0004Data Processing and Interpretation G. Törökzk 1/3/06 2-
FU:TFNPV0005Introduction to Solitons F. Blaschkezk 2/2/06 2-
FU:TFNPV0006Dense Matter Equations of State M. Urbaneczk 2/2/06 3-
FU:TFNPV0007Groups and Symmetries in Particle Physics J. Juráňzk 2/2/06 3-
FU:TFNPV0008Many Particles Quantum Theory I. Hubačzk 2/2/06 3-
FU:TFNPV0009Temperature Fluctuations of CMBR J. Scheezk 2/2/06 3-
FU:TFNPV0010Numerical Astrophysics M. Urbaneczk 1/3/06 3-
FU:TFNPV0011Quantum Chromodynamics P. Lichardzk 3/1/06 4-
FU:TFNPV0012Accreting Relativistic Binary Systems G. Törökzk 2/2/06 4-
72 credits