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High-Temperature Superfluidity in Double-Bilayer Graphene

2013; American Physical Society; Volume: 110; Issue: 14 Linguagem: Inglês

10.1103/physrevlett.110.146803

1092-0145

Andrea Perali, David T. Neilson, A. R. Hamilton,

Superconductivity in MgB2 and Alloys

Exciton bound states in solids between electrons and holes are predicted to form a superfluid at high temperatures. We show that by employing atomically thin crystals such as a pair of adjacent bilayer graphene sheets, equilibrium superfluidity of electron-hole pairs should be achievable for the first time. The transition temperatures are well above liquid helium temperatures. Because the sample parameters needed for the device have already been attained in similar graphene devices, our work suggests a new route toward realizing high-temperature superfluidity in existing quality graphene samples.