| Dmitry Abanin |
Quantum materials, such as Dirac semimetals and topological insulators, as well as non-equilibrium quantum many-body physics and many-body localization. |
| Camille Bonvin |
Cosmology, large-scale structure, relativistic effects |
| Ruth Durrer |
Cosmology and particle physics. |
| Jean-Pierre Eckmann |
Mathematical physics. Infinite dimensional dynamical systems. Systems out of equilibrium. Mathematical problems in biology. |
| Andrey Katz |
High-energy physics |
| Karsten Kruse |
Biological physics |
| Lucas Lombriser |
Cosmology, large-scale structure, gravitational waves, dark energy, modified gravity |
| Martin Kunz |
Cosmology, primordial universe, dark energy. |
| Michele Maggiore |
Gravitational waves. Cosmology of the primordial universe. |
| Marcos Mariño |
Mathematical aspects of string and quantum field theory, topological string theory, topological quantum field theory, quantum gravity, non-perturbative methods in quantum field theory. |
| Antonio Riotto |
Cosmology and astroparticles. |
| Francesco Riva |
Particle physics: theory and phenomenology |
| Julian Sonner |
String Theory and Holography; applications of holography to many-body physics, especially non-equilibrium physics. |
| Eugene Sukhorukov |
Mesoscopic systems away from equilibrium: Shot noise, electron counting statistics, quantum measurement and electronic entanglement. |
| Peter Wittwer |
Non-perturbative aspects of nonlinear partial differential equations, renormalization group techniques and mathematical physics. |
