Theory
Mesoscopic quantum systems and topological phenomena
Strongly correlated electron systems, topology, quantum transport and optics
Quantum many-body theory
Anderson and Many-Body Localization, Quantum non-ergodicity
Quantum Chaos, Integrable systems, Quantum open many-body systems, Exact solutions of Lindblad equation, Ergodicity breaking, Nonequilibrium dynamics, Floquet quantum circuits, Dual-unitary models, Dynamical full counting statistics, Anomalous quantum transport
Superconducting qubits in non-Markovian environment in and out of equilibrium, Nonlinear transport in quantum nanostructures, Entropy cooling for quantum annealers
High-harmonic generation in Weyl semi metals, Weyl physics in SrRuO3 and other pseudo-cubic ruthenates, High-precision calculations of transport applied to optical lattices, Quantum quenches in interacting topological insulators
Ergodicity breaking transitions, Many-body and single-particle quantum chaos, Quantum thermalization, Entanglement in many-body quantum systems
Neural and tensor network quantum modelling, Noise characterization for quantum devices, Engineering transport properties by driving
Quantum impurity physics, numerical renormalization group, subgap states in superconducting quantum devices