Twin microstructure design in the high-temperature superconductor with nanoparticles addition for enhanced

Abstract

Twin microstructure design in the high-temperature superconductor (YBCO) with nanoparticles addition for enhanced critical current Jc is considered. The influence of the nanoparticles’ size and density on their ability to create stable twinning surroundings and increase the trapped magnetic field Htr is theoretically analyzed. The sequence of steps to perform twin nanostructure design in the twinned high-temperature superconductors with nanoparticles addition for large Htr and enhanced Jc is formulated. Theoretical consideration is compared with experimental measurements related to the flux pinning efficiency of the YBCO matrix with twinned microtructures formed by nanoparticles addition.