Theory for superconductivity in alkali chromium arsenides A2Cr3As3 (A=K,Rb,Cs)

Abstract

We propose an extended Hubbard model with three molecular orbitals on a hexagonal lattice with D3h symmetry to study recently discovered superconductivity in A2Cr3As3 (A=K,Rb,Cs). Effective pairing interactions from paramagnon fluctuations are derived within the random phase approximation, and are found to be most attractive in spin triplet channels. At small Hubbard U and moderate Hund's coupling, the pairing arises from 3-dimensional (3D) γ band and has a spatial symmetry fy(3x2-y2), which gives line nodes in the gap function. At large U, a fully gapped p-wave state, pzz dominates at the quasi-1D α -band.