High-field critical current density enhancement in GdBCO coated conductors by cooperative defects

Irradiation can precisely control defects in, and improve the superconducting properties of, REBa2Cu3O7-delta (REBCO, RE: rare earth) coated conductors (CCs). Here we report an effective approach for enhancing the in-field performance of GdBCO CCs. The critical current density (J (c)) of GdBCO films was significantly improved through cooperative defects created by co-irradiation with O ions and protons, especially at low temperatures and high magnetic fields. Surprisingly, the in-field J (c) of commercial CCs can be nearly doubled. The cooperative irradiation-induced defects are uniformly distributed throughout the GdBCO layer, which promotes the overall performance of the CC. Moreover, the dimensions of these irradiation-induced defects closely match the coherence length of REBCO. This simple and efficient method is a practical post-production solution to improve the in-field performance of commercial REBCO CCs.

Automated summary

Irradiation can precisely control defects and improve the superconducting properties of REBa2Cu3O7-delta (REBCO) coated conductors (CCs). Co-irradiation with O ions and protons significantly enhances the critical current density (J (c)) of GdBCO films, especially at low temperatures and high magnetic fields. Commercial CCs can nearly double their in-field J (c) through this cooperative irradiation-induced defect method.