English

Spin-flip reflection at the normal metal-spin superconductor interface

Superconductivity 2017-11-20 v1

Abstract

We study spin transport through a normal metal-spin superconductor junction. A spin-flip reflection is demonstrated at the interface, where a spin-up electron incident from the normal metal can be reflected as a spin-down electron and the spin 2×/22\times \hbar/2 will be injected into the spin superconductor. When the (spin) voltage is smaller than the gap of the spin superconductor, the spin-flip reflection determines the transport properties of the junction. We consider both graphene-based (linear-dispersion-relation) and quadratic-dispersion-relation normal metal-spin superconductor junctions in detail. For the two-dimensional graphene-based junction, the spin-flip reflected electron can be along the specular direction (retro-direction) when the incident and reflected electron locates in the same band (different bands). A perfect spin-flip reflection can occur when the incident electron is normal to the interface, and the reflection coefficient is slightly suppressed for the oblique incident case. As a comparison, for the one-dimensional quadratic-dispersion-relation junction, the spin-flip reflection coefficient can reach 1 at certain incident energies. In addition, both the charge current and the spin current under a charge (spin) voltage are studied. The spin conductance is proportional to the spin-flip reflection coefficient when the spin voltage is less than the gap of the spin superconductor. These results will help us get a better understanding of spin transport through the normal metal-spin superconductor junction.

Keywords

Cite

@article{arxiv.1711.06419,
  title  = {Spin-flip reflection at the normal metal-spin superconductor interface},
  author = {Peng Lv and Ai-Min Guo and Huaiyu Li and Chunxiao Liu and X. C. Xie and Qing-Feng Sun},
  journal= {arXiv preprint arXiv:1711.06419},
  year   = {2017}
}

Comments

11 pages, 9 figures

R2 v1 2026-06-22T22:49:01.650Z