Triplet pz-wave pairing in quasi one dimensional A2Cr3As3 superconductors

Abstract

We construct minimum effective models to investigate the pairing symmetry in the newly discovered quasi-one-dimensional superconductor K2Cr3As3. We show that a minimum three-band model based on the dz2, dxy and dx2-y2 orbitals of one Cr sublattice can capture the band structures near Fermi surfaces. In both weak and strong coupling limits, the standard random phase approximation (RPA) and mean-field solutions consistently yield the triplet pz-wave pairing as the leading pairing symmetry for physically realistic parameters. The triplet pairing is driven by the ferromagnetic fluctuations within the sublattice. The gap function of the pairing state possesses line gap nodes on the kz=0 plane on the Fermi surfaces.