Interplay between tetragonal magnetic order, stripe magnetism, and superconductivity in iron-based materials

Abstract

Motivated by recent experiments in Ba1-xKxFe2As2 [A. E. B\"ohmer et al, to be published], we analyze the type of spin-density wave (SDW) order in doped iron-pnictides and the discontinuities of the superconducting transition temperature Tc in the coexistence phase with SDW magnetism. By tracking the magnetic transition line TN(x) towards optimal doping within an itinerant fermionic model, we find a sequence of transitions from the stripe-orthorhombic (C2) SDW order to the tetragonal (C4) order and then back to the C2 order. We argue that the superconducting Tc has two discontinuities -- it jumps to a smaller value upon entering the coexistence region with the C4 magnetic phase, and then jumps to a larger value inside the SDW state when it crosses the boundary between the C4 and C2 SDW orders. The full agreement with the experimental phase diagram provides a strong indication that the itinerant approach is adequate to describe the physics of weakly/moderately doped iron-pnictides.