Upward shift of the vortex solid phase in high-temperature-superconducting wires through high density nanoparticle addition

We show a simple and effective way to improve the vortex irreversibility line up to very high magnetic fields (60T) by increasing the density of second phase BaZrO(3) nanoparticles. (Y(0.77),Gd(0.23))Ba(2)Cu(3)O(y) films were grown on metal substrates with different concentration of BaZrO(3) nanoparticles by the metal organic deposition method. We find that upon increase of the BaZrO(3) concentration, the nanoparticle size remains constant but the twin-boundary density increases. Up to the highest nanoparticle concentration (n ~ 1.3 × 10(22)/m(3)), the irreversibility field (H(irr)) continues to increase with no sign of saturation up to 60 T, although the vortices vastly outnumber pinning centers. We find extremely high H(irr), namely H(irr) = 30 T (H||45°) and 24 T (H||c) at 65 K and 58 T (H||45°) and 45 T (H||c) at 50K. The difference in pinning landscape shifts the vortex solid-liquid transition upwards, increasing the vortex region useful for power applications, while keeping the upper critical field, critical temperature and electronic mass anisotropy unchanged.