Interplay Between Nematic Order and Superconductivity

Explore the complex relationship between nematic order and superconductivity in this 33-minute conference talk from the Workshop on Frontiers in Quantum Materials. Delve into the fundamental physics governing how nematic phases—characterized by broken rotational symmetry while preserving translational symmetry—interact with superconducting states in quantum materials. Examine the theoretical frameworks and experimental evidence that illuminate how nematic fluctuations can influence Cooper pair formation and superconducting transition temperatures. Investigate the role of electronic anisotropy in unconventional superconductors and discover how nematic order parameters compete or cooperate with superconducting order parameters. Learn about cutting-edge research methodologies used to probe these quantum phases and understand the implications for designing novel superconducting materials with enhanced properties. Gain insights into the broader context of quantum materials research and how the interplay between different electronic orders shapes the phase diagrams of strongly correlated electron systems.