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Explore the finite temperature thermal Hall response of chiral topological phases in this 42-minute conference talk delivered at the International Centre for Theoretical Sciences. Delve into the theoretical framework governing how chiral topological materials respond thermally at non-zero temperatures, examining the unique transport properties that emerge from their topological nature. Learn about the mathematical formulations and physical mechanisms underlying thermal Hall conductivity in these exotic quantum states of matter. Understand how temperature affects the thermal transport characteristics and discover the implications for experimental observations and potential applications. Gain insights into the intersection of topology, thermodynamics, and condensed matter physics through detailed analysis of chiral edge modes and their contribution to thermal transport phenomena. This presentation forms part of the Discussion Meeting on Frontiers in Quantum Condensed Matter Physics, bringing together cutting-edge research on quantum materials and their emergent properties.
