Possible spin-triplet f-wave pairing due to disconnected Fermi surfaces in NaxCoO2· yH2O

Abstract

We propose that spin-triplet pairing mechanism due to disconnected Fermi surfaces proposed in our previous study [Phys. Rev. B 63 174507 (2001)] may be at work in a recently discovered superconductor NaxCoO2 · y H2O. We introduce a single band effective model that takes into account the pocket-like Fermi surfaces along with the van Hove singularity near the K point found in the band calculation results. Applying fluctuation exchange method and solving the linearized \'Eliashberg equation, the most dominant pairing is found to have spin-triplet f-wave symmetry, where the nodes of the gap function do not intersect the pocket Fermi surfaces. Presence of finite Tc is suggested in sharp contrast with cases when the gap nodes intersect the Fermi surface.

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