Title :
High Jc YBCO thin films and multilayers grown by chemical solution deposition
Author :
Pomar, Alberto ; Coll, M. ; Cavallaro, A. ; Gazquez, J. ; Gonzá, J.C. ; Mestres, N. ; Sandiumenge, F. ; Puig, T. ; Obradors, X.
Author_Institution :
Inst. de Ciencia de Mater. de Barcelona, CSIC, Bellaterra, Spain
fDate :
6/1/2005 12:00:00 AM
Abstract :
Chemical solution deposition (CSD) has emerged as a very competitive technique to obtain superconducting films of high quality. However, there is still few knowledge about how underlying microstructure can affect the performances of the YBa2Cu3O7-δ (YBCO) films. Here we will summarize our recent progress in this subject. We have grown YBCO thin films by the so called trifluoroacetate route on top of buffer layers also grown by CSD. By modifying the growth conditions of SrTiO3 and BaZrO3 buffer layers we have investigated the influence of surface roughness and grain size. The role of lattice parameter mismatch has been studied by producing multibuffered architectures such as SrTiO3/BaZrO3/LAO. It has been proved that YBCO thin films with critical currents in excess of 1 MA/cm2 at 77 K in self field can be achieved, thus demonstrating the abilities of the CSD technique.
Keywords :
barium compounds; buffer layers; critical current density (superconductivity); grain size; lattice constants; liquid phase deposited coatings; multilayers; organic superconductors; superconducting thin films; surface roughness; titanium compounds; yttrium compounds; zirconium compounds; 77 K; BaZrO3; SrTiO3; TFA-YBCO thin films; YBCO thin films; YBa2Cu3O7; chemical solution deposition; coated conductors; critical currents; grain size; growth conditions; high quality superconducting films; lattice parameter mismatch; microstructure; multibuffered architectures; multilayers; surface roughness; trifluoroacetate route; Buffer layers; Chemicals; Grain size; Lattices; Microstructure; Rough surfaces; Superconducting films; Surface roughness; Transistors; Yttrium barium copper oxide; Chemical solution deposition; TFA-YBCO thin films; coated conductors; critical currents;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2005.847767
