Optical Sensing of Correlated and Topological States in 2D

Explore advanced optical sensing techniques for investigating correlated and topological quantum states in two-dimensional materials through this comprehensive physics lecture. Delve into cutting-edge experimental methods used to probe exotic quantum phenomena in 2D systems, examining how optical spectroscopy reveals the underlying physics of strongly correlated electron systems and topological phases. Learn about the theoretical foundations and practical applications of optical sensing in condensed matter physics, with particular emphasis on how light-matter interactions can unveil hidden quantum properties in atomically thin materials. Discover the latest developments in understanding quantum many-body effects, topological insulators, and other emergent phases through sophisticated optical measurement techniques that have revolutionized our ability to study quantum materials at the nanoscale.