English

The Josephson junction as a quantum engine

Quantum Physics 2023-11-13 v4 Superconductivity Chaotic Dynamics

Abstract

We treat the Cooper pairs in the superconducting electrodes of a Josephson junction (JJ) as an open system, coupled via Andreev scattering to external baths of electrons. The disequilibrium between the baths generates the direct-current bias applied to the JJ. In the weak-coupling limit we obtain a Markovian master equation that provides a simple dynamical description consistent with the main features of the JJ, including the form of the current-voltage characteristic, its hysteresis, and the appearance under periodic voltage driving of discrete Shapiro steps. For small dissipation, our model also exhibits a self-oscillation of the JJ's electrical dipole with frequency Ω=2eV/\Omega = 2 e V / \hbar around mean voltage VV. This self-oscillation, associated with "hidden attractors" of the nonlinear equations of motion, explains the observed production of monochromatic radiation with frequency Ω\Omega and its harmonics. We argue that this picture of the JJ as a quantum engine resolves open questions about the Josephson effect as an irreversible process and could open new perspectives in quantum thermodynamics and in the theory of dynamical systems.

Keywords

Cite

@article{arxiv.2302.04762,
  title  = {The Josephson junction as a quantum engine},
  author = {Robert Alicki and Michał Horodecki and Alejandro Jenkins and Marcin Łobejko and Gerardo Suárez},
  journal= {arXiv preprint arXiv:2302.04762},
  year   = {2023}
}

Comments

27 pages, 9 figures. v2: references added. v3: more references added, several points clarified, discussion of superradiance dynamics in Sec. VI A improved and factor of 2 corrected. v4: typos fixed and other minor improvements. To appear in New Journal of Physics

R2 v1 2026-06-28T08:36:04.841Z