Theory Group, Department of Condensed Matter Physics

Quantum Dots, Superconducting Heterostructures, Quantum Phase Transistions, Autonomous Quantum Resources, Quantum Materials

We primarily study superconducting heterostructures with quantum dots which can potentially form future qubits. By combination of advanced numerical methods such as Numerical Renormalization Group,  Quantum Monte Carlo, and/or Quantum Neural Network States and (semi)analytical methods we investigate equilibrium properties (e.g., ground state phase diagram) as well as dynamics (e.g., microwave response or post-quench dynamics) of such systems. Furthermore, we address the questions connected with the generation of autonomous quantum resources by designed coupling of systems of interest to dissipative bath(s). Finally, we study interaction of 2D materials with ultrashort and ultrastrong light pulses with potential applications in valleytronics.   

 

Charles University, Faculty of Mathematics and Physics
Ke Karlovu 3, 121 16 Praha 2, Czech Republic
VAT ID: CZ00216208

HR Award at Charles University

4EU+ Alliance