Publication | Closed Access
Sizable Residual Quasiparticle Density of States Induced by Impurity Scattering Effect in Ba(Fe <sub> 1− <i>x</i> </sub> Co <i> <sub>x</sub> </i> ) <sub>2</sub> As <sub>2</sub> Single Crystals
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Citations
21
References
2010
Year
Superconducting MaterialSingle CrystalsEngineeringBismuth-based SuperconductorsSuperconductivityQuantum MaterialsHigh Tc SuperconductorsImpurity Scattering EffectStates InducedLow-temperature SuperconductivityMaterials ScienceHigh-tc SuperconductivityPhysicsCrystalline DefectsFeas PlanesIron-based SuperconductorsSpecific Heat JumpSolid-state PhysicHigh-temperature SuperconductivityApplied PhysicsCondensed Matter Physics
Low-temperature specific heat Cp is measured on Ba(Fe1–xCox)2As2 single crystals in a wide doping region. A sizeable residual specific heat coefficient γ0 is observed in the low temperature limit of all samples. The specific heat jump near Tc, i.e. ΔCp/T|\Tc, is also determined. It is found that –γ0, ΔCP/T|\Tc and Tc all share a similar evolution with doping. These can be well understood within the model of S± pairing symmetry when accounting for the cobalt-dopants as unitary scattering centers in the FeAs planes. Our results reveal a non-trivial impact of impurity scattering in FeAs-based superconductors.
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