# Spin diffusion length of Permalloy using spin absorption in lateral spin   valves

**Authors:** Edurne Sagasta, Yasutomo Omori, Miren Isasa, YoshiChika Otani, Luis E., Hueso, F\`elix Casanova

arXiv: 1904.01921 · 2019-04-04

## TL;DR

This study measures the spin diffusion length of Permalloy using spin absorption in lateral spin valves, revealing a linear relationship with conductivity and confirming Elliott-Yafet as the dominant relaxation mechanism.

## Contribution

The paper provides a detailed temperature-dependent analysis of Permalloy's spin diffusion length and establishes a universal relation with resistivity, supported by literature data.

## Key findings

- Spin diffusion length of Permalloy is inversely proportional to resistivity.
- Elliott-Yafet mechanism dominates spin relaxation in Permalloy.
- Established a universal relation: λ_Py ≈ 0.91 / ρ_Py.

## Abstract

We employ the spin absorption technique in lateral spin valves to extract the spin diffusion length of Permalloy (Py) as a function of temperature and resistivity. A linear dependence of the spin diffusion length with conductivity of Py is observed, evidencing that Elliott-Yafet is the dominant spin relaxation mechanism in Permalloy. Completing the data set with additional data found in literature, we obtain $\lambda_{Py}= (0.91\pm 0.04) (f\Omega m^2)/\rho_{Py}$.

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Source: https://tomesphere.com/paper/1904.01921