Coursera Spring Sale
40% Off Coursera Plus Annual!
Grab it
Explore the fascinating intersection of non-Hermitian physics and Dirac materials in this 57-minute conference talk that delves into emergent Yukawa-Lorentz symmetry and exceptional magic angles. Discover how non-Hermitian effects manifest in Dirac matter systems and learn about the theoretical framework connecting these quantum phenomena to fundamental symmetries. Examine the concept of exceptional magic angles and their role in creating unique electronic properties in two-dimensional materials. Gain insights into the mathematical formalism underlying non-Hermitian quantum mechanics and its applications to condensed matter physics. Understand how Yukawa-Lorentz symmetry emerges in these systems and its implications for the behavior of Dirac fermions. Investigate the topological aspects of non-Hermitian Dirac materials and their potential applications in quantum technologies. This presentation is part of the Program on Anomalies, Topology and Quantum Information in Field Theory and Condensed Matter Physics, offering cutting-edge research perspectives on the interplay between theoretical physics concepts and practical material science applications.
