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Probing the topologically trivial nature of end states in antiferromagnetic atomic chains on superconductors

Lucas Schneider, Philip Beck, Levente Rózsa, Thore Posske, Jens Wiebe, R. Wiesendanger

2023Nature Communications20 citationsDOIOpen Access PDF

Abstract

Spin chains proximitized by s-wave superconductors are predicted to enter a mini-gapped phase with topologically protected Majorana modes (MMs) localized at their ends. However, the presence of non-topological end states mimicking MM properties can hinder their unambiguous observation. Here, we report on a direct method to exclude the non-local nature of end states via scanning tunneling spectroscopy by introducing a locally perturbing defect on one of the chain's ends. We apply this method to particular end states observed in antiferromagnetic spin chains within a large minigap, thereby proving their topologically trivial character. A minimal model shows that, while wide trivial minigaps hosting end states are easily achieved in antiferromagnetic spin chains, unrealistically large spin-orbit coupling is required to drive the system into a topologically gapped phase with MMs. The methodology of perturbing candidate topological edge modes in future experiments is a powerful tool to probe their stability against local disorder.

Topics & Concepts

MAJORANAAntiferromagnetismPhysicsSuperconductivityCondensed matter physicsPhase (matter)Scanning tunneling spectroscopySpin (aerodynamics)Topology (electrical circuits)Quantum tunnellingQuantum mechanicsMathematicsThermodynamicsCombinatoricsTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsQuantum many-body systems
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