In-field dependences of the critical current density Jc in GdBa2Cu3O7-d coated conductors produced by Zr irradiation and post-annealing at low temperatures

Abstract

We report the influence of 6 MeV Zr4+ irradiation and post-irradiation annealing (200 C) in the in-field dependences of the critical current densities Jc of 1.3 μm thick GdBa2Cu3O7-d coated conductors grown by co-evaporation. Samples were irradiated with 6 MeV Zr4+ and fluences between 2.3x1011 cm-2 and 3x1012 cm-2. The correlation between the superconducting critical temperature Tc and in-field dependences of critical current densities Jc has been analyzed. In addition, random disorder introduced by irradiation was reduced by thermal annealed at 200 C. The analysis of our experimental findings indicates that the optimal irradiation (reducing random disorder by annealing) results in the suppression of the self-field Jc of 10 \% and in-field Jc enhancements nearly doubled at about 5 T. A clear correlation between Tc, disorder and self-field Jc is observed. Additional random disorder and nanoclusters suppress systematically Tc and increase the flux creep relaxation at intermediate temperatures (reducing the characteristic glassy μ value).