All areas of high technology in our modern society are built on physics. A deep understanding of natural physical processes together with the pursuit of knowledge form the basis for numerous applications: Computers, satellites, GPS navigation, lasers, modern imaging in medicine and the Internet are a direct result of basic research in physics.
Physics provides and develops answers to many challenges we face in the present and the future, such as climate, environment and energy and also to fundamental topics, such as the origin of the universe or the wondrous world of quanta.
Study code
UC 066 876
All studiesStudent advisory serviceMinorExtension ProgrammeStudy physics
FAQ
Graduates possess highly specialized knowledge in one of the in-depth studies (Quantum Sciences, Quantum Engineering, Ion- and Applied Physics, Many-body Physics, Computational Physics, Astro- and Particle Physics). They are able to apply their knowledge at the intersections of related sciences by independently formulate and substantiate scientific arguments and to find innovative solutions to problems.
The Master's Programme Physics prepares for a highly qualified occupation in industry and in research as well as for the Doctor of Philosophy Programme Physics. It deepens and widens the abilities and the knowledge in the field of physics that have been acquired during the Bachelor's Programme Physics, and mainly deepens the ability for independent scientific working. Within the context of research-oriented teaching, in-depth study in six different areas is offered:
- Quantum Sciences,
- Quantum Engineering,
- Ion- and Applied Physics,
- Many-body Physics,
- Computational Physics as well as
- Astro- and Particle Physics.
These specialisations can be deepened by a wide range of elective offers. The study programme is concluded with a master's thesis, a resarch paper in a relevant field of physics mentioned, which is included in one of the approx. 30 working groups.
The career fields of the graduates of the Master's Programme Physics are in particular natural science and technology, both in industry and research. Occupational profiles of graduates of the bachelor's programme can be found in fields of science and technolgy where problem-solving capacities and independent implementation of projects are required. Moreover, these activities are also demanded in other fields (e.g. project management, consulting and banking).
Graduates tracking: Shows which occupational fields students enter after graduation
Faculty of Mathematics, Computer Science and Physics Examination Office Information for students with disabilities
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From the field
A supersolid made using photons
Manuele Landini from the University of Innsbruck was part of an international team led by researchers at CNR Nanotec in Lecce, Italy, that has demonstrated the emergence of a supersolid phase of matter in a photonic crystal polariton condensate. This pioneering work, published in Nature, introduces a new platform for exploring supersolidity beyond traditional ultracold atomic systems.
First OS for quantum networks created
An international research team including the group led by Tracy Northup has developed the first operating system designed for quantum networks: QNodeOS. The research, published in Nature, marks a major step forward in transforming quantum networking from a theoretical concept to a practical technology that could revolutionize the future of the internet.
Thousands of dwarf galaxies discovered
The European Space Agency ESA today published new data from its Euclid space telescope. These used for a galactic census undertaken by astronomer Francine Marleau and her team at the Department of Astro- and Particle Physics at the University of Innsbruck: In Euclid images the scientists identified and characterized 2,674 dwarf galaxies.
New type of quantum computer studies the dance of elementary particles
The study of elementary particles and forces is of central importance to our understanding of the universe. Now a team of physicists from the University of Innsbruck and the Institute for Quantum Computing (IQC) at the University of Waterloo show how an unconventional type of quantum computer opens a new door to the world of elementary particles.
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