Effect of electron irradiation on superconductivity in single crystals of Ba(Fe1-xRux)2As2 (x=0.24)

Abstract

A single crystal of isovalently substituted Ba(Fe1-xRux)2As2 (x=0.24) was sequentially irradiated with 2.5 MeV electrons up to a maximum dose of 2.1 × 1019 electrons/cm2. The electrical resistivity was measured in - situ at T=22 K during the irradiation and ex - situ as a function of temperature between subsequent irradiation runs. Upon irradiation, the superconducting transition temperature, Tc, decreases and the residual resistivity, 0, increases. We find that electron irradiation leads to the fastest suppression of Tc compared to other types of artificially introduced disorder, probably due to the strong short-range potential of the point-like irradiation defects. A more detailed analysis within a multiband scenario with variable scattering potential strength shows that the observed Tc vs. 0 is fully compatible with s pairing, in contrast to earlier claims that this model leads to a too rapid a suppression of Tc with scattering.