Litcius/Paper detail

Superconducting Proximity Effect in <i>d</i>‐Wave Cuprate/Graphene Heterostructures

David Perconte, Dario Bercioux, Bruno Dlubak, Pierre Sénéor, F. S. Bergeret, Javier E. Villegas

2022Annalen der Physik14 citationsDOIOpen Access PDF

Abstract

Abstract Superconducting proximity effects in graphene have received a great deal of attention for over a decade now. This has unveiled a plethora of exotic effects linked to the specificities of graphene's electronic properties. The vast majority of the related studies are based on conventional, low‐temperature superconducting metals with isotropic s ‐wave pairing. Here recent advances made on the less studied case of unconventional high‐temperature superconducting cuprates are reviewed. These are characterized by an anisotropic d ‐wave pairing, whose interplay with Dirac electrons yields very rich physics and novel proximity behaviors. A theoretical analysis is provided and the experiments reported so far are summarized. These unveil hints of proximity‐induced unconventional pairing and demonstrate the gate‐tunable, long‐range propagation of high‐temperature superconducting correlations in graphene. Finally, the fundamental and technological opportunities brought by the theoretical and experimental advances are discussed, together with the interest in extending similar studies to other Dirac materials.

Topics & Concepts

PairingGrapheneSuperconductivityCuprateCondensed matter physicsPhysicsDirac (video compression format)HeterojunctionIsotropyProximity effect (electron beam lithography)ElectronAnisotropyNanotechnologyQuantum mechanicsMaterials scienceNeutrinoElectron-beam lithographyResistLayer (electronics)Graphene research and applicationsQuantum and electron transport phenomenaTopological Materials and Phenomena