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Proximity-Induced Odd-Frequency Superconductivity in a Topological Insulator

Jonas A. Krieger, Anna Pertsova, S. R. Giblin, M. Döbeli, Thomas Prokscha, C. Schneider, Andreas Suter, T. Hesjedal, Alexander V. Balatsky, Z. Salman

2020Physical Review Letters51 citationsDOIOpen Access PDF

Abstract

At an interface between a topological insulator (TI) and a conventional superconductor (SC), superconductivity has been predicted to change dramatically and exhibit novel correlations. In particular, the induced superconductivity by an s-wave SC in a TI can develop an order parameter with a p-wave component. Here we present experimental evidence for an unexpected proximity-induced novel superconducting state in a thin layer of the prototypical TI, Bi_{2}Se_{3} proximity coupled to Nb. From depth-resolved magnetic field measurements below the superconducting transition temperature of Nb, we observe a local enhancement of the magnetic field in Bi_{2}Se_{3} that exceeds the externally applied field, thus supporting the existence of an intrinsic paramagnetic Meissner effect arising from an odd-frequency superconducting state. Our experimental results are complemented by theoretical calculations supporting the appearance of such a component at the interface which extends into the TI. This state is topologically distinct from the conventional Bardeen-Cooper-Schrieffer state it originates from. To the best of our knowledge, these findings present a first observation of bulk odd-frequency superconductivity in a TI. We thus reaffirm the potential of the TI-SC interface as a versatile platform to produce novel superconducting states.

Topics & Concepts

SuperconductivityCondensed matter physicsTopological insulatorPhysicsMeissner effectProximity effect (electron beam lithography)Cooper pairMagnetic fieldInsulator (electricity)Topology (electrical circuits)Materials scienceQuantum mechanicsNanotechnologyLayer (electronics)CombinatoricsElectron-beam lithographyOptoelectronicsMathematicsResistTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsGraphene research and applications
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