Emergent Topology Arises in Quantum-Critical CeRu4Sn6
TL;DR Summary
Researchers at TU Wien report that the quantum material CeRu4Sn6 enters a quantum-critical regime at ultra-low temperatures where electrons lose their particle-like character, yet the system hosts an emergent topological semimetal state. They observed a spontaneous (anomalous) Hall effect without an external magnetic field, linking quantum fluctuations to topology and suggesting that topological properties can arise even when the conventional particle-picture fails. The work also points to a generalized, emergent view of topology and proposes focusing on quantum-critical materials to discover new topological phases.
Topics:science#ceru4sn6#condensed-matter-physics#emergent-topological-semimetal#physics#quantum-criticality#topology
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