Revisitation of superconductivity in K2Cr3As3 based on the six-band model

Abstract

We investigate the pairing symmetry of the newly synthesized quasi-one-dimension K2Cr3As3 superconductor based on the six-band model. We adopt standard random-phase-approximation to study the Hubbard-Hund model of the system. Our results confirm the conclusions obtained from our previous three-band model: the triplet pz and fy3-3x2y wave pairings serve as the leading pairing symmetries in the weak and strong Hund's rule coupling regimes, respectively. For physically realistic parameters, the triplet pz-wave pairing driven by ferromagnetic fluctuations is the leading pairing symmetry of the system. The consistency between the results of these two models suggests that the obtained pz-wave pairing symmetry is physical and model-independent.