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Explore the fascinating quantum properties of kagome lattice materials through this 25-minute conference talk examining the charge density wave and superconductor states in the Cs1−xRbxV3Sb5 system. Delve into cutting-edge research on this novel quantum material that exhibits both charge density wave ordering and superconductivity, two competing electronic phases that make kagome systems particularly intriguing for condensed matter physics. Learn about the experimental techniques used to study these quantum states and understand how chemical substitution (replacing cesium with rubidium) affects the electronic properties of this three-dimensional kagome lattice. Gain insights into the interplay between geometric frustration, electronic correlations, and emergent quantum phenomena in these materials, which are at the forefront of quantum materials research. Discover the implications of these findings for understanding unconventional superconductivity and charge ordering in frustrated lattice systems, presented as part of the Workshop on Frontiers in Quantum Materials.
