On dissipation mechanism in the intrinsic Josephson effect in layered superconductors with d-wave pairing

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Abstract

Conductivity at low temperatures in the regime of the intrinsic Josephson effect in layered superconductors with d-wave pairing and coherent interlayer transfer is studied theoretically. Mechanism of the resistivity related to excitations of the quasiparticles via the d-wave gap is shown to describe main qualitative features of the effect observed at voltages smaller than the amplitude of the superconducting gap. Interaction of the Josephson junctions formed by the superconducting layers due to charging effects is found to be small.

Original languageEnglish
Pages (from-to)205-209
Number of pages5
JournalPhysica C: Superconductivity and its Applications
Volume362
Issue number1-4
DOIs
Publication statusPublished - 1 Sep 2001

Fingerprint

Josephson effect
Superconducting materials
dissipation
Josephson junctions
charging
interlayers
conductivity
electrical resistivity
Electric potential
electric potential
excitation
interactions
Temperature

Keywords

  • High-Tc
  • Josephson effect
  • Layered crystal
  • Plasma mode
  • Superconductor

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Condensed Matter Physics
  • Energy Engineering and Power Technology
  • Electrical and Electronic Engineering

Cite this

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abstract = "Conductivity at low temperatures in the regime of the intrinsic Josephson effect in layered superconductors with d-wave pairing and coherent interlayer transfer is studied theoretically. Mechanism of the resistivity related to excitations of the quasiparticles via the d-wave gap is shown to describe main qualitative features of the effect observed at voltages smaller than the amplitude of the superconducting gap. Interaction of the Josephson junctions formed by the superconducting layers due to charging effects is found to be small.",
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AB - Conductivity at low temperatures in the regime of the intrinsic Josephson effect in layered superconductors with d-wave pairing and coherent interlayer transfer is studied theoretically. Mechanism of the resistivity related to excitations of the quasiparticles via the d-wave gap is shown to describe main qualitative features of the effect observed at voltages smaller than the amplitude of the superconducting gap. Interaction of the Josephson junctions formed by the superconducting layers due to charging effects is found to be small.

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KW - Plasma mode

KW - Superconductor

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