TY - JOUR
T1 - Embedding of nanoparticles as flux pinning sites in superconducting samples
AU - Koblischka-Veneva, A.
AU - Koblischka, M. R.
AU - Schmauch, J.
N1 - Funding Information:
This work is supported by DFG project Mu959/19 . The thin film samples investigated were prepared at the University of Linz. We further acknowledge collaborations within the European Forum for Processors of Bulk Superconductors (EFFORT), which is funded by the Engineering and Physical Sciences Research Council (EPSRC) of the U.K. government.
PY - 2010/6/1
Y1 - 2010/6/1
N2 - Crystallographic orientations of thin films and bulk, melt-textured YBa2Cu3Ox high-Tc superconductors with embedded Y2Ba4CuMOx (M = Nb, Zr, Ag) nanoparticles are studied by electron backscatter diffraction. The Y 2BaCuO5 particles exhibit no preferred orientation but have a strong negative influence on the matrix orientation. In contrast, the nanoparticles are not disturbing the texture of the YBCO matrix. For the bulk samples, depending on the preparation route, a different particle orientation with respect to the matrix is obtained. Untextured M-2411 nanoparticles are formed by solid state reaction during the melt process by adding oxides (Nb 2O5 or Y2O3) to the precursor powder. Pre-formed Y2Ba4CuMOx particles added to the precursor in the form of pre-reacted nanopowder, exhibit a dominant single orientation related to the surrounding YBCO matrix. In the case of thin films prepared using laser ablation with a bulk YBCO sample with embedded nanoparticles as a target, the nanoparticles are transferred into the thin film, but the transferred M-2411 particles are found to be randomly oriented. Nevertheless, these films exhibit increased flux pinning properties.
AB - Crystallographic orientations of thin films and bulk, melt-textured YBa2Cu3Ox high-Tc superconductors with embedded Y2Ba4CuMOx (M = Nb, Zr, Ag) nanoparticles are studied by electron backscatter diffraction. The Y 2BaCuO5 particles exhibit no preferred orientation but have a strong negative influence on the matrix orientation. In contrast, the nanoparticles are not disturbing the texture of the YBCO matrix. For the bulk samples, depending on the preparation route, a different particle orientation with respect to the matrix is obtained. Untextured M-2411 nanoparticles are formed by solid state reaction during the melt process by adding oxides (Nb 2O5 or Y2O3) to the precursor powder. Pre-formed Y2Ba4CuMOx particles added to the precursor in the form of pre-reacted nanopowder, exhibit a dominant single orientation related to the surrounding YBCO matrix. In the case of thin films prepared using laser ablation with a bulk YBCO sample with embedded nanoparticles as a target, the nanoparticles are transferred into the thin film, but the transferred M-2411 particles are found to be randomly oriented. Nevertheless, these films exhibit increased flux pinning properties.
KW - EBSD
KW - Orientation
KW - Twins
KW - YBCO
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U2 - 10.1016/j.tsf.2009.12.071
DO - 10.1016/j.tsf.2009.12.071
M3 - Article
AN - SCOPUS:77955683844
SN - 0040-6090
VL - 518
SP - 4734
EP - 4737
JO - Thin Solid Films
JF - Thin Solid Films
IS - 16
ER -