English

The Josephson diode effect in supercurrent interferometers

Mesoscale and Nanoscale Physics 2022-12-23 v1 Superconductivity Quantum Physics

Abstract

A Josephson diode is a non-reciprocal circuit element that supports a larger dissipationless supercurrent in one direction than in the other. In this work, we propose and theoretically study a class of Josephson diodes based on supercurrent interferometers containing mesoscopic Josephson junctions, such as point contacts or quantum dots, which are not diodes themselves but possess non-sinusoidal current-phase relations. We show that such Josephson diodes have several important advantages, like being electrically tunable and requiring neither Zeeman splitting nor spin-orbit coupling, only time-reversal breaking by a magnetic flux. We also show that our diodes have a characteristic AC response, revealed by the Shapiro steps. Even the simplest realization of our Josephson diode paradigm that relies on only two junctions can achieve efficiencies of up to 40%\sim40\% and, interestingly, far greater efficiencies are achievable by concatenating multiple interferometer loops.

Keywords

Cite

@article{arxiv.2205.04469,
  title  = {The Josephson diode effect in supercurrent interferometers},
  author = {Rubén Seoane Souto and Martin Leijnse and Constantin Schrade},
  journal= {arXiv preprint arXiv:2205.04469},
  year   = {2022}
}
R2 v1 2026-06-24T11:11:53.501Z