Enhancement of Tc by disorder in underdoped iron pnictides

Abstract

We analyze how disorder affects the transition temperature Tc of the s+-superconducting state in the iron pnictides. The conventional wisdom is that Tc should rapidly decrease with increasing inter-band non-magnetic impurity scattering, but we show that this behavior holds only in the overdoped region of the phase diagram. In the underdoped regime, where superconductivity emerges from a pre-existing magnetic state, disorder gives rise to two competing effects: breaking of the Cooper pairs, which tends to reduce Tc, and suppression of the itinerant magnetic order, which tends to bring Tc up. We show that for a wide range of parameters the second effect wins, leading to an increase of Tc with disorder in the coexistence state. Our results explain several recent experimental findings and provide another evidence for s+--pairing in the iron pnictides.