Correlated electronic structure of Pb10-xCux(PO4)6O

Abstract

Recently, above-room temperature superconductivity was reported in the Cu doped lead apatite Pb10-xCux(PO4)6O, dubbed LK-99. By relaxing the structure with Cu substitution, we derive a four-band low-energy model with two 3/4 filled bands of predominantly Cu dxz and dyz character and two filled O px and py bands. This model is further downfolded to a two-band Cu-dxz/yz model. Using ab-initio derived interaction parameters, we perform dynamical mean field theory calculations to determine the correlated electronic structure in the normal state. These calculations yield a Mott insulator at x=1 and a strongly correlated non-Fermi liquid metal upon doping. The very large interaction versus bandwidth ratio U/W≈ 30-50 and the local moment paramagnetic behavior in the relevant filling regime are hard to reconcile with diamagnetism and high-temperature superconductivity. Hence, our calculations suggest that this behavior should come from a component with a different stoichiometry.