Temperature-dependent s s++ transitions in the multiband model for Fe-based superconductors with impurities

Abstract

We study the dependence of the superconducting gaps on both the disorder and the temperature within the two-band model for iron-based materials. In the clean limit, the system is in the s state with the sign-changing gaps. Scattering by nonmagnetic impurities leads to the change of sign of the smaller gap thus resulting in a transition from the s to the s++ state with the sign-preserving gaps. We show here that the transition is temperature-dependent, thus, there is a line of s s++ transition in the temperature-disorder phase diagram. There exists a narrow range of impurity scattering rates, where the disorder-induced s s++ transition occurs at low temperatures, but then the low-temperature s++ state transforms back to the s state at higher temperatures. With increasing impurity scattering rate, temperature of such s++ s transition shifts to the critical temperature Tc and only the s++ state is left for higher amount of disorder.