Pairing in the iron arsenides: A functional RG treatment

Abstract

We study the phase diagram of a microscopic model for the superconducting iron arsenides by means of a functional renormalization group. Our treatment establishes a connection between a strongly simplified two-patch model by Chubukov et al (2008 Phys. Rev. B 78 134512) and a five-bandanalysis by Wang et al (2008 arXiv:0805.3343 and arXiv:0807.0498). For a wide parameter range, the dominant pairing instability occurs in the extended s-wave channel. The results clearly show the relevance of pair scattering between electron and hole pockets. We also give arguments that the phase transition between the antiferromagnetic phase for the undoped system and the superconducting phase may be first order. © IOP Publishing Ltd and Deutsche Physikalische Gesellschaft.