Superconducting nanoribbon with a constriction: A quantum-confined Josephson junction

L. Flammia, L.-F. Zhang, L. Covaci, A. Perali, and M. V. Milošević

Phys. Rev. B 97, 134514 – Published 17 April 2018

Abstract

Extended defects are known to strongly affect nanoscale superconductors. Here, we report the properties of superconducting nanoribbons with a constriction formed between two adjacent step edges by solving the Bogoliubov-de Gennes equations self-consistently in the regime where quantum confinement is important. Since the quantum resonances of the superconducting gap in the constricted area are different from the rest of the nanoribbon, such constriction forms a quantum-confined S-S'-S Josephson junction, with a broadly tunable performance depending on the length and width of the constriction with respect to the nanoribbon, and possible gating. These findings provide an intriguing approach to further tailor superconducting quantum devices where Josephson effect is of use.

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Received 7 March 2018

DOI:https://doi.org/10.1103/PhysRevB.97.134514

Physics Subject Headings (PhySH)

Impurities in superconductors Josephson effect s-wave

Condensed Matter, Materials & Applied Physics

Authors & Affiliations

L. Flammia^1,2, L.-F. Zhang^1,*, L. Covaci¹, A. Perali³, and M. V. Milošević^1,†

¹Departement Fysica, Universiteit Antwerpen, Groenenborgerlaan 171, B-2020 Antwerpen, Belgium
²School of Science and Technology, Physics Division, University of Camerino, 62032 Camerino, Italy
³School of Pharmacy, Physics Unit, University of Camerino, 62032 Camerino, Italy

^*lingfeng.zhang@uantwerpen.be
^†milorad.milosevic@uantwerpen.be

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Vol. 97, Iss. 13 — 1 April 2018

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