Unveiling Novel Aspects of Superconductivity in Twisted Trilayer Graphene

Explore groundbreaking research on superconductivity in twisted trilayer graphene through this 47-minute conference talk delivered at the International Centre for Theoretical Sciences. Delve into novel aspects of superconducting behavior in this unique material system as presented by Mitali Banerjee during the Discussion Meeting on Frontiers in Quantum Condensed Matter Physics. Discover how twisted trilayer graphene exhibits unconventional superconducting properties that challenge traditional understanding of superconductivity mechanisms. Learn about the experimental techniques used to investigate these phenomena and the theoretical frameworks needed to explain the observed behaviors. Examine the role of band topology, geometry, and strong correlations in enabling superconductivity in this twisted graphene system. Understand how this research contributes to the broader field of quantum condensed matter physics, where conventional paradigms of broken symmetries and well-defined quasiparticles must be expanded to incorporate new concepts like topological order and quantum entanglement. Gain insights into how this work fits within the context of ongoing efforts to understand unconventional superconductors and strange metals, representing part of the vibrant dialogue between cutting-edge experiments and theoretical developments in condensed matter physics.