Non-equlibrium phenomena lead to many fascinating effects in various areas of physics. Often one finds astonishing parallels between quite different disciplines: For example, ultra-cold atoms or ions in traps display very similar mechanisms to electrons and phonons in solids. Further parallels exist between the creation of electron-positron pairs in extremely strong laser fields (so far only a prediction) and other effects such as nuclear fusion or the dielectric break-down in semi-conductor diodes. On a completely different scale, effects in extreme environments, such as around black hole or in the early universe, do also display interesting analogies to laboratory systems, e.g., ultra-cold atoms or ions in traps.
In the Institute of Theoretical Physics at HZDR, such non-equlibrium phenomena are investigated by predominantly analytical means. Key aspects include strong-field physics (in collaboration with the Institute of Radiation Physics), the fascinating properties of the promising material graphene (in collaboration with the Institute of Ion Beam Physics and Materials Research), as well as strongly correlated systems (which provides a link to the Dresden High Magnetic Field Laboratory).
- Dresden University of Technology
- Helmholtz Institute Jena
- University Duisburg-Essen
- Quantum Simulators for Fundamental Physics
- School for Quantum Sensors for Fundamental Physics
- Parya Katoorani has started on June 1st
Active third-party funded projects
- CRC 1242: Non-Equilibrium Dynamics of Condensed Matter in the Time Domain