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