High Temperature Superconductivity with Strong Correlations and Disorder: Possible Relevance to Cu-doped Apatite

Abstract

We examine the properties of topological strongly correlated superconductor with bond disorder on triangular lattice and demonstrate that our theoretical (t-J-U) model exhibits some unique features of the Cu-doped apatite Pb10-xCux(PO4)6O. Namely, the paired state appears only for carrier concentration 0.8 n < 1 per Cu and is followed by a close-by phase separation into the superconducting and Mott insulating parts. Furthermore, a moderate amount of the bond disorder ( t / t 20 \%) does not alter essentially the topology with robust Chern number C=2 which diminishes beyond that limit. A room-temperature superconductivity is attainable only for the exchange to hopping ratio J/|t| 1 if one takes the bare bandwidth suggested by current DFT calculations. The admixture of s-wave pairing component is induced by the disorder. The results have been obtained within statistically consistent variational approximation (SGA).