Quantum Electrodynamics of Graphene Landau Levels in a Deep-Subwavelength Hyperbolic Phonon Polariton Cavity

Explore a 45-minute conference talk examining the quantum electrodynamics of graphene Landau levels in deep-subwavelength hyperbolic phonon polariton cavities. Delve into cutting-edge research on controlling quantum many-body states in solid-state systems using classical laser pulses, with particular focus on time-resolved experiments that induce or enhance correlated electron states. Learn about recent developments in superconducting, magnetic, and correlated insulating phases, as well as topological states of matter. Understand how quantum optical techniques and strong cavity fields are being applied to materials science for preparing, manipulating, and studying correlated electron phases. Part of a broader conference bringing together theoretical and experimental researchers from solid state physics and quantum optics backgrounds to explore these emerging directions in quantum materials research.