Heat Transport and Rectification via Quantum Asymmetries

Explore heat transport and rectification phenomena through quantum asymmetries in this conference talk from the Latin American Quantum Alliance (LAQuA) event. Delve into the fundamental principles governing thermal energy flow in quantum systems and discover how asymmetric quantum properties can be leveraged to control and direct heat transport. Learn about the theoretical frameworks and mathematical models used to describe quantum thermal rectification, where heat flows preferentially in one direction over another. Examine specific quantum systems and configurations that exhibit thermal rectification behavior, including the role of quantum coherence, entanglement, and non-equilibrium dynamics in these processes. Understand the potential applications of quantum thermal rectifiers in quantum technologies, energy harvesting, and thermal management at the nanoscale. Gain insights into current research developments in quantum thermodynamics and the emerging field of quantum thermal devices from a leading researcher at UNAM Mexico.