Theory of Superconductivity in Strongly Correlated Electron Systems

Abstract

In the correlated electron system with the pseudogap, there are full-gapped domains and Fermi-arced domains coexisting. Those domains are created by the quantum-fluctuated antiferromagnetic fluctuations that generate the short-ranged attractive potential to produce the Fermi arcs and the superconductivity. In the full-gapped domains, s-wave or (dx2-y2 idxy)-wave symmetry of the electron pairs is favored. In the Fermi-arced domains, only dx2-y2-wave symmetry of pairs is stable. Superconductivity of different pairing symmetry coexists in different domains, as well. Different from the Cooper pairs, the correlated electrons pair up in the real space with an energy gap. Gapless states, on the contrary, hinder the development of superconductivity.