Josephson Current in Rashba-Based Superconducting Nanowires with Geometric Misalignment: Rashba-Based Superconducting Nanowires with Geometric Misalignment
Publication date
2018-03-09
Authors
Ying, Z. J.
Cuoco, M.
Gentile, P.
Ortix, Carmine
Editors
Advisors
Supervisors
Document Type
Part of book
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taverne
Abstract
We investigate the properties of a weak link between two Rashba-based superconducting nanowires with geometric misalignment. By applying an external magnetic field the system can be driven into a topological non-trivial regime. We demonstrate that the Josephson current can be modulated in amplitude and sign through the variation of the applied field and, remarkably, via the angle controlling the spin-orbit locking mismatch at the interface of the nanowires. The proposed setup with misaligned coplanar nanowires provides the building block configuration for the manipulation of coherent transport via geometric-controlled mixing/splitting of interface states.
Keywords
curved nanostructures, Rashba spin-orbit coupling, superconducting nanowire, topological states, Taverne, Electrical and Electronic Engineering, Electronic, Optical and Magnetic Materials, Atomic and Molecular Physics, and Optics
Citation
Ying, Z J, Cuoco, M, Gentile, P & Ortix, C 2018, Josephson Current in Rashba-Based Superconducting Nanowires with Geometric Misalignment : Rashba-Based Superconducting Nanowires with Geometric Misalignment. in 2017 16th International Superconductive Electronics Conference, ISEC 2017. IEEE, pp. 1-3, 16th International Superconductive Electronics Conference, ISEC 2017, Napoli, Italy, 12/06/17. https://doi.org/10.1109/ISEC.2017.8314198, conference