Effect of heavy-ion irradiation on London penetration depth in over-doped Ba(Fe,Co)2As2

Abstract

Irradiation with 1.4 GeV 208Pb ions was used to induce artificial disorder in single crystals of iron-arsenide superconductor Ba(Fe1-xCox)2As2 and to study its effect on the temperature-dependent London penetration depth and transport properties. Study was undertaken on overdoped single crystals with x=0.108 and x=0.127 characterized by notable modulation of the superconducting gap. Irradiation with doses 2.22×1011d/cm2 and 2.4×1011d/cm2, corresponding to the matching fields of Bφ = 6 T and 6.5 T, respectively, suppresses the superconducting Tc by approximately 0.3 to 1 K. The variation of the low-temperature penetration depth in both pristine and irradiated samples is well described by the power-law, λ (T)=ATn. Irradiation increases the magnitude of the pre-factor A and decreases the exponent n, similar to the effect of irradiation in optimally doped samples. This finding supports universal s pairing in Ba(Fe1-xCox)2As2 compounds for the whole Co doping range.