Pairing Symmetry in a Two-Orbital Exchange Coupling Model of Oxypnictides

Abstract

We study the pairing symmetry of a two orbital J1-J2 model for FeAs layers in oxypnictides. We vary the doping and the value of J1 and J2 to compare all possible pairing symmetries in a mean-field calculation. We show that the mixture of an intra-orbital unconventional sx2y2 (kx)(ky) pairing symmetry and a dx2-y2 (kx)-(ky) pairing symmetry is favored in a large part of J1-J2 phase diagram. A pure sx2y2 pairing state is favored for J2>>J1. The signs of the dx2-y2 order parameters in two different orbitals are opposite. While a small dxy (kx)(ky) inter-orbital pairing order coexists in the above phases, the intra-orbital dxy pairing symmetry is not favored even for large values of J2.