English

A superconducting full-wave bridge rectifier

Applied Physics 2025-03-25 v5

Abstract

Superconducting thin-film electronics are attractive for their low power consumption, fast operating speeds, and ease of interface with cryogenic systems such as single-photon detector arrays, and quantum computing devices. However, the lack of a reliable superconducting two-terminal asymmetric device, analogous to a semiconducting diode, limits the development of power-handling circuits, fundamental for scaling up these technologies. Existing efforts to date have been limited to single-diode proofs of principle and lacked integration of multiple controllable and reproducible devices to form complex circuits. Here, we demonstrate a robust superconducting diode with tunable polarity using the asymmetric vortex surface barrier in niobium nitride micro-bridges, achieving a 43% peak rectification efficiency, and showing half-wave rectification up to 120 MHz. We then realize and integrate several such diodes into a bridge rectifier circuit on a single microchip that performs continuous full-wave rectification up to 3 MHz and AC-to-DC conversion of a 50 MHz signal in periodic bursts with an estimated peak power efficiency of 50%.

Keywords

Cite

@article{arxiv.2406.12175,
  title  = {A superconducting full-wave bridge rectifier},
  author = {Matteo Castellani and Owen Medeiros and Alessandro Buzzi and Reed A. Foster and Marco Colangelo and Karl K. Berggren},
  journal= {arXiv preprint arXiv:2406.12175},
  year   = {2025}
}
R2 v1 2026-06-28T17:09:41.318Z