# Observation of Spin-Orbit Effects with Spin Rotation Symmetry

**Authors:** Alisha M. Humphries, Tao Wang, Eric R. J. Edwards, Shane R. Allen,, Justin M. Shaw, Hans T. Nembach, John Q. Xiao, T. J. Silva, Xin Fan

arXiv: 1704.08998 · 2018-01-30

## TL;DR

This paper reports a novel spin-orbit effect near NM/FM interfaces that allows generating spin currents with arbitrary polarization by using in-plane charge currents and collinear magnetization, differing from conventional effects.

## Contribution

It demonstrates a new spin-orbit effect with unique symmetry, enabling spin current polarization control in magnetic bilayers.

## Key findings

- Observed a spin-orbit effect with different symmetry from the spin Hall effect.
- Showed that spin polarization can be rotated about magnetization.
- Enabled generation of perpendicularly polarized spin currents with in-plane charge currents.

## Abstract

The spin-orbit interaction enables interconversion between a charge current and a spin current. It is usually believed that in a nonmagnetic metal (NM) or at a NM/ferromagnetic metal (FM) bilayer interface, the symmetry of spin-orbit effects (SOE) requires that the spin current, charge current and spin orientation are all orthogonal to each other. Here we show the observation of a SOE near the NM/FM interface that exhibits a very different symmetry from the conventional spin Hall effect, insofar as the spin polarization is further rotated about the magnetization. These results imply that a perpendicularly polarized spin current can be generated with an in-plane charge current simply by use of a FM/NM bilayer with magnetization collinear to the charge current. The ability to generate a spin current with arbitrary polarization using typical magnetic materials will greatly benefit the development of magnetic memories.

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Source: https://tomesphere.com/paper/1704.08998