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In situ preparation and transport properties of YBa2Cu3O7 films on sapphire with Zr(Y)O2 buffer layers

Journal of applied physics. Bd. 70. H. 11. 1991 S. 6934 - 6938

Erscheinungsjahr: 1991

ISBN/ISSN: 1089-7550 ; 0021-8979

Publikationstyp: Zeitschriftenaufsatz

Sprache: Englisch

Doi/URN: 10.1063/1.349819

Volltext über DOI/URN

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Inhaltszusammenfassung


YBa2Cu3O7 films on sapphire substrates prepared by laser ablation show c?axis?oriented growth and critical temperatures as high as Tc(R=0)=90 K. Due to diffusion processes and the formation of a nonsuperconducting intermediate layer the critical current density Jc is comparatively low. To overcome these difficulties the sapphire substrates were covered by Zr(Y)O2 films acting as diffusion barriers. The preparation of these films was performed by laser ablation using a multitarget system. The ...YBa2Cu3O7 films on sapphire substrates prepared by laser ablation show c?axis?oriented growth and critical temperatures as high as Tc(R=0)=90 K. Due to diffusion processes and the formation of a nonsuperconducting intermediate layer the critical current density Jc is comparatively low. To overcome these difficulties the sapphire substrates were covered by Zr(Y)O2 films acting as diffusion barriers. The preparation of these films was performed by laser ablation using a multitarget system. The structure and the surfaces of the films were characterized by x?ray diffraction and scanning electron microscopy, respectively. The transport properties of the superconductor films are similar to those on suited substrates. Critical current densities up to Jc (77 K)=5×105 A/cm2 were achieved. In order to gain information about the pinning mechanisms measurements of the dependencies of Jc on the orientation between the crystal c axis and the external magnetic fields were carried out using samples with different buffer layer thicknesses. From the received data no indication of pinning by point defects in addition to the intrinsic planar pinning mechanism was detected.» weiterlesen» einklappen

Autoren


Adrian, G. (Autor)
Grabe, G. (Autor)
Wilkens, W. (Autor)
Huth, M. (Autor)
Walkenhorst, A. (Autor)

Klassifikation


DFG Fachgebiet:
Physik der kondensierten Materie

DDC Sachgruppe:
Physik

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