Detecting Micromotion in Periodically Driven Correlated Systems

Explore quantum physics concepts in this 45-minute conference talk from the Kavli Institute for Theoretical Physics, where David Hsieh from Caltech discusses detecting micromotion in periodically driven correlated systems. Delve into the cutting-edge research surrounding the control of quantum many-body states in solid-state systems using classical laser pulses. Learn about recent experimental advances in inducing and enhancing correlated electron states, including superconducting, magnetic, and correlated insulating phases, as well as topological states of matter. Gain insights into the intersection of quantum optics and solid-state physics, exploring how quantum optical techniques and strong cavity fields can be applied to prepare, manipulate, and study correlated electron phases. Part of a broader conference bringing together theoretical and experimental researchers to address new directions in quantum materials research.