Cold Atoms, Quantum Simulation, and Driven Quasicrystals - Part 2

Explore the fascinating world of quantum physics in this lecture on cold atoms, quantum simulation, and driven quasicrystals. Delve into the second part of David Weld's presentation, which is part of the "Periodically and Quasi-Periodically Driven Complex Systems" program organized by the International Centre for Theoretical Sciences. Gain insights into cutting-edge research topics such as terahertz and infrared driven quantum matter, shaken optical lattices, Floquet time crystals, and localization-delocalization physics in quasi-periodically driven systems. Learn about the interplay between theory and experiment in quantum systems, and discover how quantum simulation experiments are crucial for understanding complex phenomena that cannot be solved through brute force numerical calculations. This hour-long lecture offers a unique opportunity to engage with advanced concepts in quantum physics and their applications in the study of complex systems.

Cold Atoms, Quantum Simulation, and Driven Quasicrystals (Part II) by David Weld