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Macroscopic Persistent Currents in Laser Ablated YBa2Cu3O7-X Films

Published online by Cambridge University Press:  28 February 2011

B. Stritzker
Affiliation:
Institut für Schicht-und Ionentechnik, KFA, D-5170 Julien,
P. Leiderer
Affiliation:
Fakultät für Physik, Universität Konstanz, FRG
R. Feile
Affiliation:
Institut für Physik, Universität Mainz, FRG
U. KrÜGer
Affiliation:
Institut für Schicht-und Ionentechnik, KFA, D-5170 Julien,
W. Zander
Affiliation:
Institut für Schicht-und Ionentechnik, KFA, D-5170 Julien,
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Abstract

Thin films of YBa2Cu3O7-x have been produced in situ by laser ablation. As the condensation of the superconducting film is done onto hot substrates (600 - 780°C) at high oxygen pressures (~ 1 mbar), this techniques does not require any special postannealing step. Thus the total process time amounts to less than 10 min. Films were found to be polycrystalline with the c-axis preferentially oriented normal to the substrate plane on single crystalline (001) SrTiO3 and (random) ZrO2, as measured by ion channeling (Xmin = 5.5 % on SrTiO3), x-ray scattering and TEM. Complete superconducting transitions above 90 K with transition widths of about 1 K have been observed even on YSZ substrates. Critical current densities, jc (77 K), of more than 2 x 106 A/cm2 could be obtained on SrTiO3-substrates. The high quality of the thin films over large areas was demonstrated by the measurement of persistent superconducting current densities at 77 K in the order of 105 A/cm2 in a 1.5 mm broad ring of 9 mm diameter. No dissipation of this persistent current could be observed during one hour. Measurements of the same film after 8 months in normal air showed a 40 % decrease of jc and a stronger decrease of jc with an externed magnetic field, suggesting that in the meantime the macroscopic ring current density is dominated by intergranular weak links.

Type
Research Article
Copyright
Copyright © Materials Research Society 1990

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References

1 Dijkkamp, D., Venkatesan, T., Wu, X.D., Shaheen, S.A., Jisrawi, N., Min-Lee, Y.H., Mc Lean, W.L. and Croft, M., Appl. Phys. Lett, 51, 619 (1987).Google Scholar
2 Fröhlingsdorf, J., Zander, W. and Stritzker, B., Sol. State Comm. 67, 965 (1988).Google Scholar
3 Fröhlingsdorf, J., Zander, W., Stritzker, B., Feile, R. and Leiderer, P., Physica C 159, 513 (1989).Google Scholar
4 Leiderer, P. and Feile, R., Z. Phys. B 70, 141 (1988).Google Scholar