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Global Room‐Temperature Superconductivity in Graphite

Y. Kopelevich, José Luiz Rodrigues Torres, Róbson Rosa da Silva, Felipe Souza Oliveira, M. C. Diamantini, Carlo A. Trugenberger, V. M. Vinokur

2023Advanced Quantum Technologies11 citationsDOIOpen Access PDF

Abstract

Abstract Room temperature superconductivity under normal conditions has been a major challenge of physics and material science since its discovery. Here the global room‐temperature superconductivity observed in cleaved highly oriented pyrolytic graphite carrying dense arrays of nearly parallel surface line defects is reported. The multiterminal measurements performed at the ambient pressure in the temperature interval 4.5 K ≤ T ≤ 300 K and at magnetic fields 0 ≤ B ≤ 9 T applied perpendicular to the basal graphitic planes reveal that the superconducting critical current I c ( T , B ) is governed by the normal state resistance R N ( T , B ) so that I c ( T , B ) is proportional to 1/ R N ( T , B ). Magnetization M ( T , B ) measurements of superconducting screening and hysteresis loops together with the critical current oscillations with temperature that are characteristic for superconductor‐ferromagnet‐superconductor Josephson chains, provide strong support for the occurrence of superconductivity at T > 300 K. A theory of global superconductivity emerging in the array of linear structural defects is developed which well describes the experimental findings and demonstrate that global superconductivity arises as a global phase coherence of superconducting granules in linear defects promoted by the stabilizing effect of underlying Bernal graphite via tunneling coupling to the three dimensional (3D) material.

Topics & Concepts

SuperconductivityCondensed matter physicsHighly oriented pyrolytic graphiteMaterials scienceGraphiteCoherence lengthQuantum tunnellingScanning tunneling microscopePhysicsComposite materialGraphene research and applicationsPhysics of Superconductivity and MagnetismSuperconductivity in MgB2 and Alloys
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