Exciting Moiré Materials for Quantum Light and Matter

Explore quantum many-body states and their control in solid-state systems through this 45-minute conference talk delivered by Ajit Srivastava from Emory University at the Kavli Institute for Theoretical Physics. Delve into the fascinating world of time-resolved experiments on solid-state systems, examining how short strong classical laser pulses can induce or enhance various correlated electron states, including superconducting, magnetic, and correlated insulating phases, as well as topological states of matter. Learn about the intersection of quantum optical techniques and strong cavity fields with materials science, discovering new approaches to preparing, manipulating, and investigating correlated electron phases. Part of a broader conference bringing together theoretical and experimental researchers from solid state and quantum optics backgrounds, this talk contributes to the ongoing dialogue about recent advances and promising new directions in the field of quantum materials.