Enhancing the superconducting properties of Y-Ba-Cu-O by CuO2 site doping

The incorporation of certain rations such as Zn2+ onto the ab-planes of the YBa2Cu3O7-(delta) (123) lattice is known to have effects on the supercondu cting critical transition temperature. On manipulating the distance between the dopant sites, isolated weak superconducting regions with dimensions co mparable to the coherence length of YBCO can be introduced into melt textur ed large YBCO grains. This paper presents a study using electron microprobe analysis, microscopy and transport property measurements on the processing and the distribution of Zn2+ in Zn-YBCO so as to understand as well as opt imize the processing conditions, doping level, T-c, flux pinning behaviour and field trapping properties of these materials. These results were correl ated with the solidification mechanisms of YBCO as well as the size of weak superconducting regions induced by Zn2+.