English

Josephson diode effect: a phenomenological perspective

Superconductivity 2025-07-01 v1

Abstract

As a novel quantum phenomenon with nonreciprocal supercurrent, the Josephson diode effect was intensively studied in recent years. Here, we construct a generalized resistively capacitance shunted junction (RCSJ) model as a low-energy effective/phenomenological theory for a general Josephson junction. For the ideal diode effect defined by unequal critical currents Ic+Ic|I_{c+}|\ne|I_{c-}|, both inversion I\mathcal{I} and time-reversal T\mathcal{T} symmetries are required to be broken. It can be further divided into two classes: intrinsic (T\mathcal{T}-breaking for the junction itself) and extrinsic (T\mathcal{T}-breaking under external current reversion). In addition, a pseudo diode effect (T\mathcal{T}-breaking not necessary) can be defined by Ic+=Ic|I_{c+}|=|I_{c-}| but unequal retrapping currents Ir+Ir|I_{r+}|\ne|I_{r-}|, for which noise current is further shown to produce the diode feature effectively. Finally, when radio-frequency AC external current exists, the Shapiro steps appear and can be used to distinguish the above three types of the diode effect. Our work provides a unified framework for studying the Josephson diode effect and can be applied to design workable superconducting circuits incorporating the Josephson diode as a fundamental circuit element.

Keywords

Cite

@article{arxiv.2506.23200,
  title  = {Josephson diode effect: a phenomenological perspective},
  author = {Da Wang and Qiang-Hua Wang and Congjun Wu},
  journal= {arXiv preprint arXiv:2506.23200},
  year   = {2025}
}

Comments

5 pages, 3 figures, 1 table

R2 v1 2026-07-01T03:38:25.323Z