English

Spin superfluid Josephson oscillator

Mesoscale and Nanoscale Physics 2018-07-04 v1

Abstract

The magnetic analogue of the Josephson effect can be exploited to develop a new class of nano-spin oscillators that we denote as spin superfluid Josephson oscillators. Such a device, consisting of two exchange coupled easy-plane metallic ferromagnets separated by a thin normal metal spacer, is proposed and analyzed. A spin chemical potential difference drives a 2π2\pi precession of the in-plane magnetization of each ferromagnet. The 2π2 \pi precession angle gives maximum values of the giant magnetoresistance, resulting in large output power compared to conventional spin Hall oscillators. An applied ac current results in a time-averaged magnetoresistance with Shapiro-like steps. The multistate mode-locking behavior exhibited by the spin Shapiro steps may be explored for applications in neuromorphic computing. As an experimental characterization method, electrical measurements of spin superfluid Josephson junctions can provide additional signatures of spin superfluidity.

Keywords

Cite

@article{arxiv.1807.01045,
  title  = {Spin superfluid Josephson oscillator},
  author = {Yizhou Liu and Igor Barsukov and Ilya Krivorotov and Yafis Barlas and Roger K. Lake},
  journal= {arXiv preprint arXiv:1807.01045},
  year   = {2018}
}
R2 v1 2026-06-23T02:49:06.745Z