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Explore anomalous Landau levels in inhomogeneous magnetic flux configurations in this 43-minute conference talk by Krishanu Roychowdhury from the International Centre for Theoretical Sciences. Delve into the quantum mechanical behavior of charged particles in spatially varying magnetic fields and discover how inhomogeneous flux distributions lead to anomalous properties in the resulting Landau level structure. Learn about the theoretical framework governing these systems and understand the implications for quantum phases of matter. Examine the mathematical formalism describing particle dynamics in non-uniform magnetic environments and investigate how spatial variations in flux density modify the standard Landau level spectrum. This presentation is part of the "Generalised symmetries and anomalies in quantum phases of matter" program, which brings together researchers to explore cutting-edge developments in symmetry concepts, anomalies, and their applications to understanding exotic quantum states including symmetry-protected topological phases and fracton systems.
