Title :
Comparative study of REBa2Cu3O7 films for coated conductors
Author :
Jia, Q.X. ; Maiorov, B. ; Wang, H. ; Lin, Y. ; Foltyn, S.R. ; Civale, L. ; MacManus-Driscoll, J.L.
Author_Institution :
Supercond. Technol. Center, Los Alamos Nat. Lab., NM, USA
fDate :
6/1/2005 12:00:00 AM
Abstract :
We carried out systematic investigation on the processes and characteristics of REBa2Cu3O7 or RE123 (RE=Nd, Sm, Eu, Dy, Ho, Er, and Yb) films on single crystal SrTiO3 for coated conductors. The higher transition temperature, the higher growth rate, and the much better surface morphology for the large RE´s such as Nd123, Sm123, and Eu123 make them attractive for thick films. The larger processing window for some other RE123 materials such as Dy123 and Yb123, on the other hand, makes them striking for scale-up and fabrication of long-length conductors. In the case of mixed RE´s, enhanced pinning from ion size variance is also observed. We present our comparative study of the field- and angle-dependent critical current densities between these RE123 and Y123 films.
Keywords :
barium compounds; critical current density (superconductivity); high-temperature superconductors; rare earth compounds; superconducting thin films; superconducting transition temperature; surface morphology; Dy123; DyBa2Cu3O7; ErBa2Cu3O7; Eu123; EuBa2Cu3O7; HoBa2Cu3O7; NdBa2Cu3O7; Ndl23; RE123 films; REBa2Cu3O7 films; Sm123; SmBa2Cu3O7; SrTiO3; Yb123; YbBa2Cu3O7; angle-dependent critical current density; coated conductors; epitaxial growth; field-dependent critical current density; growth rate; ion size variance; laser ablation; long-length conductors; rare earth compounds; single crystal SrTiO3; superconducting films; surface morphology; thick films; transition temperature; Conducting materials; Conductive films; Erbium; Laboratories; Laser ablation; Pulsed laser deposition; Superconducting films; Superconducting materials; Superconducting transition temperature; Surface morphology; Epitaxial growth; laser ablation; rare earth compounds; superconducting films;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2005.847797
