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Explore the fascinating world of moiré superlattices and their emergent quantum phenomena in this comprehensive lecture delivered by Jeong Min (Jane) Park from Princeton University. Delve into the cutting-edge research on twisted bilayer materials and discover how the periodic moiré patterns created by stacking two-dimensional materials at specific angles give rise to extraordinary quantum behaviors. Learn about the fundamental physics underlying these artificial lattice structures and understand how they serve as tunable platforms for investigating strongly correlated electron systems. Examine the experimental techniques used to probe these quantum states and analyze the theoretical frameworks that explain the emergence of superconductivity, correlated insulating phases, and other exotic quantum phenomena in these engineered materials. Gain insights into the latest developments in the field and understand the potential applications of moiré superlattices in quantum technologies and next-generation electronic devices. This presentation, part of the Princeton Summer School for Condensed Matter Physics, provides an in-depth exploration of one of the most exciting frontiers in modern condensed matter physics.
