Phase diagram of doped BaFe2As2 superconductor under broken C4 symmetry

Abstract

We develop a minimal multiorbital tight-binding model with realistic hopping parameters. The model breaks the symmetry of the tetragonal point group by lowering it from C4 to D2d, which accurately describes the Fermi surface evolution of the electron-doped BaFe2-xCoxAs2 and hole-doped Ba1-yKyFe2As2 compounds. An investigation of the phase diagram with a mean-field t-U-V Bogoliubov-de Gennes Hamiltonian results in agreement with the experimentally observed electron- and hole-doped phase diagram with only one set of t, U and V parameters. Additionally, the self-consistently calculated superconducting order parameter exhibits s-wave pairing symmetry with a small d-wave pairing admixture in the entire doping range, % The superconducting s + d-wave order parameter which is the subtle result of the weakly broken symmetry and competing interactions in the multiorbital mean-field Hamiltonian.