about the programme
The Quantum Technologies master’s programme prepares students for advanced multidisciplinary research and development in the fields of quantum physics, optics, lasers, and nanomaterials. The programme combines modern theory with practical applications and focuses on topics such as quantum mechanics and communication, light–matter interactions, and solid-state physics. Students work on individual projects and their master’s theses, both of which often lead to discoveries publishable in professional journals.
Programme content
Students will attend core courses focused on:
- quantum optics and quantum field theory
- quantum information and communication
- quantum programming.
Career prospects
Graduates have extensive knowledge of mathematics, physics, and informatics, all of which they are capable of applying in the field of quantum technologies and technical practice. They can operate laboratory equipment, independently analyze problems, and keep up with developments in their field. Graduates can pursue careers in research, as well as in the development of modern technologies, quantum computers and their algorithms, lasers, and nanotechnologies. They can work in research institutions or in the technological industry, both domestically and internationally. Graduates interested in further education can continue in the follow-up doctoral study programme
state final exam
Compulsory subject
Methods of Quantum Technologies
Optional subjects
Quantum Theory of Field
Quantum Optics
Theory of Solids
Quantum Generators of Optical Radiation
Quantum Information and Communication