Master in Theoretical Physics and Astrophysics
Vilnius, Lithuania
DURATION
2 Years
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
01 Jul 2025*
EARLIEST START DATE
01 Sep 2025
TUITION FEES
EUR 6,000 / per year **
STUDY FORMAT
On-Campus
* for citizens of EU/EFTA | 1 May for applicants from non-EU/EFTA
** for non-EU students | 5266€ per year EU students | application fee EUR 100
Introduction
During the four semesters of their studies, students will have hands-on instruction in parallel computing methods for scientific applications, computational optimisation approaches and artificial intelligence as compulsory courses.
In addition, they can choose from a range of theoretical physics and astrophysics courses, which include mathematical modelling, non-local mathematical physics, physical kinetics, spectrometry, data mining, star atmospheres, advanced statistical physics, response theory, cosmology, quantum theory of atoms and molecules, quantum information, low-temperature physics, quantum thermodynamics and the physics of galaxies. For, every semester students join research groups for practice and to gain experience in research.
Why choose this programme?
- The present technologies of multi-scale supercomputing involve a broad range of problems, which require specialists with an original and creative mindset reinforced by the scientific theoretical tools of material science. Our programme is designed to prepare such specialists.
- This is achieved by learning the latest “unfinished” subjects of theoretical physics and by practising scientific research interfaced with supercomputing and emerging quantum computing.
Career Opportunities
- Our graduates are welcomed in strategical positions in various companies, including roles relating to data mining and analysis, decision-making and optimisation.
- Positions in financial organisations, public administration and international businesses.
- Some of our students join academic and research institutions worldwide, for a guaranteed career in an academic area.
- Software development in R&D companies.
Curriculum
Scope of studies: 120 ECTS credits
Length: 2 years
1st Semester
Compulsory Courses
- Methods of Parallel Computing in Physics
- Scientific Research Work I/III
Elective Courses
- Synergetics
- Physical Kinetics
- Non-Local Mathematical Physics
- Methods of Data Analysis
- Quantum Field Theory I/II
- Instruments and Methods in Astrospectroscopy
- Star Atmospheres
2nd Semester
Compulsory Courses
- Computational Optimization
- Scientific Research Work II/III
Elective Courses
- Astrobiology
- Quantum Statistical Physics
- Quantum Field Theory II/II
- Quantum Information and Cryptography
- Theory of Atoms, Molecules and Molecular Compounds
- Methods of Spectroscopic Data Analysis
- Evolution of Stars
3rd Semester
Compulsory Courses
- Scientific Research Work III/III
Elective Courses
- Artificial Intelligence
- Galaxy Physics
- Classical and Quantum Molecular Dynamics
- Non-equilibrium Statistical Physics
- Low Temperature Physics
- Selected Courses in Astrophysics
- Open Problems in Astrophysics
4th Semester
Compulsory Courses
- Master Thesis
Program Outcome
- Expertise in optimisation and automation including artificial intelligence
- Expertise in supercomputing
- Expertise in advanced mathematical/theoretical physics