The influence of porosity on the superconducting properties of Y-Ba-Cu-O single grains

The trapped field in Y-Ba-Cu-O (YBCO) bulk single grain superconductors correlates directly with the critical current density J (c), which, in turn, is dependent on the microstructure of the bulk material. It has been shown recently and indirectly that porosity influences J (c) of these technologically important materials, in addition to the presence of well-researched Y2BaCuO5 (Y-211) particles in the bulk sample. In this work, we report the direct impact of porosity on the critical current density of a single grain YBCO bulk superconductor using 3D x-ray computer tomography scans and superconducting quantum interference device measurements. It is concluded that porosity has a considerably more substantial impact on the measured critical current density than Y-211 on the micrometre scale with, predictably, a decrease in porosity leading to an increase in J (c). J (c) is directly proportional to the trapped field, so any method that can reduce porosity, therefore, improves J (c), and, subsequently, the trapped field of these technologically important bulk superconductors.

Automated summary

We report the direct impact of porosity on the critical current density of a single grain YBCO bulk superconductor using 3D x-ray computer tomography scans and superconducting quantum interference device measurements. The study shows that porosity has a considerably more substantial impact on the measured critical current density than Y-211 on the micrometre scale, with a decrease in porosity leading to an increase in J (c). Any method that can reduce porosity improves J (c) and the trapped field of these technologically important bulk superconductors.