Quantum Geometry in Non-Equilibrium Moire Materials by Martin Claassen

Explore the fascinating realm of quantum geometry in non-equilibrium moire materials through this comprehensive lecture by Martin Claassen. Delve into cutting-edge research on periodically and quasi-periodically driven complex systems as part of the International Centre for Theoretical Sciences' program. Gain insights into topics such as terahertz and infrared driven quantum matter, shaken optical lattices and cold atoms, Floquet time crystals, localization-delocalization physics in quasi-periodically driven systems, and dynamics of gauge theories. Discover the valuable interplay between theory and experiment in this field, where brute force numerical calculations often fail, making quantum simulation experiments crucial. Learn from experts in closed quantum systems with time-dependent Hamiltonians, open quantum systems, and gauge theory of coupling between matter and radiation. Enhance your understanding of complex quantum phenomena and their potential applications in this 1 hour and 15 minutes long presentation.

Quantum Geometry in Non-equilibrium Moire Materials by Martin Claassen