Intrinsic reduction of Josephson critical current in short ballistic SNS weak links

Branislav K. Nikolić; J. K. Freericks; P. Miller

doi:10.1103/PhysRevB.64.212507

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Intrinsic reduction of Josephson critical current in short ballistic SNS weak links

Journal article

Peer reviewed

Intrinsic reduction of Josephson critical current in short ballistic SNS weak links

Branislav K. Nikolić, J. K. Freericks and P. Miller

Physical review. B, Condensed matter, Vol.64(21), pp.2125071-2125074

11/2001

DOI: https://doi.org/10.1103/PhysRevB.64.212507

Abstract

Condensed Matter Physics

Superconductivity

We present fully self-consistent calculations of the thermodynamic properties of three-dimensional clean SNS Josephson junctions, where S is an s-wave short-coherence-length superconductor and N is a clean normal metal. The junction is modeled on an infinite cubic lattice such that the transverse width of the S is the same as that of the N, and its thickness is tuned from the short to long limit. Intrinsic effects, such as a reduced order parameter near the SN boundary and finite gap to Fermi energy ratio, depress the critical Josephson current

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Title: Intrinsic reduction of Josephson critical current in short ballistic SNS weak links
Creators: Branislav K. Nikolić
J. K. Freericks - Georgetown University
P. Miller - Brandeis University, Department of Biology
Publication Details: Physical review. B, Condensed matter, Vol.64(21), pp.2125071-2125074
Identifiers: 9924167583301921
Academic Unit: Benjamin and Mae Volen National Center for Complex Systems; Department of Biology; Interdepartmental Program in Neuroscience; Michtom School of Computer Science
Language: English
Resource Type: Journal article

Intrinsic reduction of Josephson critical current in short ballistic SNS weak links

Abstract

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