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Critical current density of superconducting-normal-superconducting Josephson junctions and polycrystalline superconductors in high magnetic fields

Blair, A.I.; Hampshire, D.P.

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Authors

A.I. Blair



Abstract

We investigate the in-field critical current density Jc (B) of superconducting-normal-superconducting (SNS) Josephson junctions (JJs) and polycrystalline superconducting systems with grain boundaries modeled as Josephson-type planar defects, both analytically and through computational time-dependent Ginzburg-Landau (TDGL) simulations in two and three dimensions. For very narrow SNS JJs, we derive analytic expressions for Jc (B) that are high-field solutions for Jc (B) for JJs across the entire applied field range up to the effective upper critical field B∗ c2. They generalize the well-known (low-field) exponential junction thickness dependence for Jc from de Gennes, often used in the Josephson relation. We then extend our analytic expressions to describe wider junctions using physical arguments, and we confirm their agreement with TDGL simulations. These results are then compared with the current densities found in superconductors optimized for high-field applications. They provide an explanation for the Kramer field dependence and inverse power-law grain size dependence widely found in many low-temperature superconductors, and the power-law field dependence Jc (B) ∼ B−0.6 found at intermediate fields in some high-temperature superconductors including powder-in-tube Bi2Sr2Ca2Cu3Ox and RBa2Cu3O7 tapes (R = rare earth). By reanalyzing critical current density data using the mathematical framework derived here and confirmed using TDGL, we enable an analysis of Jc data that provides the local properties of grain boundaries in high-field superconductors and hence a deeper understanding of how grain boundaries influence Jc in high magnetic fields.

Citation

Blair, A., & Hampshire, D. (2022). Critical current density of superconducting-normal-superconducting Josephson junctions and polycrystalline superconductors in high magnetic fields. Physical Review Research, 4(2), Article 023123. https://doi.org/10.1103/physrevresearch.4.023123

Journal Article Type Article
Acceptance Date Mar 30, 2022
Online Publication Date May 16, 2022
Publication Date 2022
Deposit Date Jun 21, 2022
Publicly Available Date Jun 21, 2022
Journal Physical Review Research
Publisher American Physical Society
Peer Reviewed Peer Reviewed
Volume 4
Issue 2
Article Number 023123
DOI https://doi.org/10.1103/physrevresearch.4.023123
Public URL https://durham-repository.worktribe.com/output/1202166

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Publisher Licence URL
http://creativecommons.org/licenses/by/4.0/

Copyright Statement
Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI.






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