Pairing State with a time-reversal symmetry breaking in FeAs based superconductors

Abstract

We investigate the competition between the extended s-wave and dx2-y2-wave pairing order parameters in the iron-based superconductors. Because of the frustrating pairing interactions among the electron and the hole fermi pockets, a time reversal symmetry breaking s+id pairing state could be favored. We analyze this pairing state within the Ginzburg-Landau theory, and explore the experimental consequences. In such a state, spatial inhomogeneity induces supercurrent near a non-magnetic impurity and the corners of a square sample. The resonance mode between the s and dx2-y2-wave order parameters can be detected through the B1g-Raman spectroscopy.