Superconducting order parameter structure in the nematic phase of iron-based materials

Abstract

We consider the effect of the nematic order on the formation of the superconducting state in iron pnictides and chalcogenides. Nematic order with the B2g symmetry is modelled as the d-type Pomeranchuk instability and treated within the mean-field approach. Calculated nematic order parameter depends on the nematic interaction coefficient and abruptly changes with the coefficient's increase. The superconducting solution is obtained within the spin-fluctuation pairing theory. We show that the leading solution in the nematic phase has a sπ structure. From the critical temperature Tc estimations, we conclude that the nematic superconducting state of the sπ type is more favorable than the usual s and dx2-y2 type states appearing in the absence of the nematicity.

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