HIGH CRITICAL CURRENT DENSITY IN NEUTRON-IRRADIATED BULK YBa2Cu3O7

Abstract

Bulk melt-textured YBa ₂ Cu ₃ O ₇ irradiated by fast neutrons has been investigated. We observed: (1) a critical current density (J_c) determined magnetically at 77 K exceeds 5×10⁵ A/cm ² in 0.1 T, 2×10⁵ A/cm ² in 1 T, and 1.2×10³ A/cm ² in 5.0 T; (2) at 5 K, J_c is >2.1×10⁷ A/cm ² in 0.5 T, ~1.8×10⁷ A/cm ² at 1 T and >8×10⁶ A/cm ² in 5.0 T and (3) the J_c-anisotropy decreases rapidly with the external field (H), e.g. at 77 K, it becomes 1 at ~4.8 T with J_c ~3×10³ A/cm ². We also found that (1) such a J_c-enhancement is most effective in low H but less so in high H, (2) the enhancement is temperature independent at low H, (3) the pinning potential remains unchanged to within ~10% as J_c varies by a factor of 15, and (4) thermal annealing up to 600°C recovers the un-irradiated state. These results and their implications are presented and discussed.