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Theory of universal diode effect in three-terminal Josephson junctions

by Jorge Huamani Correa, Michał P. Nowak

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Submission summary

Authors (as registered SciPost users): Jorge Huamani Correa
Submission information
Preprint Link: scipost_202405_00040v1  (pdf)
Date accepted: 2024-07-08
Date submitted: 2024-05-24 14:31
Submitted by: Huamani Correa, Jorge
Submitted to: SciPost Physics
Ontological classification
Academic field: Physics
Specialties:
  • Condensed Matter Physics - Theory
Approaches: Theoretical, Computational

Abstract

We theoretically study the superconducting diode effect in a three-terminal Josephson junction. The diode effect in superconducting systems is typically related to the presence of a difference in the critical currents for currents flowing in the opposite direction. We show that in multi-terminal systems this effect occurs naturally without the need of the presence of any spin interactions and is a result of the presence of a relative shift between the Andreev bound states carrying the supercurrent. On an example of a three-terminal junction, we demonstrate that the non-reciprocal current in one of the superconducting contacts can be induced by proper phase biasing of the other contacts, provided that there are at least two Andreev bound states in the system and the symmetry of the system is broken. This result is confirmed in numerical models describing the junctions in both the short- and long-regime. By optimizing the geometry of the junction, we show that the efficiency of the realized superconducting diode exceeds $35 \%$. We relate our predictions to recent experiments on multi-terminal junctions, in which non-reciprocal supercurrents were observed.

Author indications on fulfilling journal expectations

  • Provide a novel and synergetic link between different research areas.
  • Open a new pathway in an existing or a new research direction, with clear potential for multi-pronged follow-up work
  • Detail a groundbreaking theoretical/experimental/computational discovery
  • Present a breakthrough on a previously-identified and long-standing research stumbling block

Published as SciPost Phys. 17, 037 (2024)


Reports on this Submission

Report #1 by Anonymous (Referee 1) on 2024-6-24 (Invited Report)

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The authors have carefully addressed all my comments and clarified the importance of their work. I recommend publication without further changes required.

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