# Near-Unity Spin Hall Ratio in Ni$_x$Cu$_{1-x}$ Alloys

**Authors:** Mark W. Keller, Katy S. Gerace, Monika Arora, Erna Krisztina, Delczeg-Czirjak, Justin M. Shaw, and T. J. Silva

arXiv: 1903.00910 · 2019-06-12

## TL;DR

This study demonstrates a near-unity spin Hall ratio in Ni$_x$Cu$_{1-x}$ alloys, revealing a significant spin Hall effect with potential implications for spintronic devices, supported by experimental measurements and theoretical calculations.

## Contribution

First experimental demonstration of a near-unity spin Hall ratio in Ni$_x$Cu$_{1-x}$ alloys, combining ferromagnetic resonance measurements with ab initio calculations.

## Key findings

- Spin Hall ratio $	heta_{SH} \\approx 1$ in Ni$_x$Cu$_{1-x}$ alloys.
- Determined spin diffusion length, spin mixing conductance, and damping parameters.
- Intrinsic spin Hall effect suggested by band structure calculations.

## Abstract

We report a large spin Hall effect in the 3$d$ transition metal alloy Ni$_x$Cu$_{1-x}$ for $x\in\left\{ 0.3,0.75\right\} $, detected via the ferromagnetic resonance of a Permalloy (Py = Ni$_{80}$Fe$_{20}$) film deposited in a bilayer with the alloy. A thickness series at $x$ = 0.6, for which the alloy is paramagnetic at room temperature, allows us to determine the spin Hall ratio $\theta_{\rm{SH}}\approx1$, spin diffusion length $\lambda_{\rm{s}}$, spin mixing conductance $G_{\uparrow\downarrow}$, and damping $\alpha_{\rm{SML}}$ due to spin memory loss . We compare our results with similar experiments on Py/Pt bilayers measured using the same method. Ab initio band structure calculations with disorder and spin-orbit coupling suggest an intrinsic spin Hall effect in Ni$_x$Cu$_{1-x}$ alloys, although the experiments here cannot distinguish between extrinsic and intrinsic mechanisms.

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Source: https://tomesphere.com/paper/1903.00910