QUANTUM EFFECTS IN TWO-DIMENSIONAL FILMS OF SUPERCONDUCTORS AT T HIGHER THAN CRITICAL TEMPERATURE.

[In Russian. / En russe.]

Author(s) : GERSENZON M. E., GUBANKOV V. N., ZURAVLEV Ju. E.

Type of article: Article

Summary

THE MAGNETIC FIELD AND TEMPERATURE DEPENDENCES OF THE RESISTANCE OF THIN ALUMINIUM AND NIOBIUM FILMS ARE INVESTIGATED AT TEMPERATURES HIGHER THAN 1 (TC IS THE SUPERCONDUCTING TRANSITION TEMPERATURE). THE ANOMALOUS BEHAVIOUR OF THE FILM RESISTANCES CAN BE DESCRIBED ADEQUATELY BY THE THEORY OF WEAK LOCALIZATION AND INTERELECTRON INTERACTION EFFECTS IN TWO-DIMENSIONAL DISORDERED SYSTEMS. THE ABSOLUTE VALUES AND TEMPERATURE DEPENDENCES OF THE INTERELECTRON COUPLING CONSTANT AND INELASTIC SCATTERING TIME OF THE CONDUCTIVITY ELECTRONS IN THE FILMS ARE DETERMINED.

Details

  • Original title: [In Russian. / En russe.]
  • Record ID : 1984-0486
  • Languages: Russian
  • Source: Z. eksp. teor. Fiz. - vol. 85 - n. 1
  • Publication date: 1983
  • Document available for consultation in the library of the IIR headquarters only.

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