# Monte Carlo study of the exchange bias effect in Co/CoO core-shell   nanowires

**Authors:** A. Patsopoulos, D. Kechrakos

arXiv: 1706.02395 · 2017-06-26

## TL;DR

This study uses Monte Carlo simulations to explore how an antiferromagnetic shell affects the magnetic behavior and reversal mechanisms of Co/CoO core-shell nanowires, revealing suppressed coercivity and enhanced wall mobility.

## Contribution

It provides new insights into the exchange bias effect and magnetization reversal mechanisms in core-shell nanowires through detailed simulation analysis.

## Key findings

- Coupling to the antiferromagnetic shell suppresses coercivity.
- A secondary reversal mechanism with coherent rotation is activated.
- Uncompensated interface moments act as nucleation centers.

## Abstract

We study the magnetic properties of cylindrical ferromagnetic core - antiferromagnetic shell nanowires using Monte Carlo simulations and a classical Heisenberg Hamiltonian in order to elucidate the impact of the oxidized shell on the magnetic properties and the magnetization reversal mechanism. We find that the coupling to the antiferromagnetic shell leads to suppression of the coercivity and emergence of a weak exchange bias effect. Comparison of the magnetization reversal mechanism in the bare and the surface-oxidized nanowire reveals that the domain wall propagation and annihilation remains the dominant reversal mechanism in surface oxidized nanowires as in their ferromagnetic counterparts. However, the interface exchange coupling introduces a secondary reversal mechanism activated in the central part of the wire with characteristics of coherent rotation, which acts in synergy to wall propagation leading to enhancement of the wall mobility. This effect is more pronounced in nanowires with large exchange bias values and is attributed to the uncompensated interface moments that act as nucleation centers for magnetization reversal. Our results are in good agreement with recent measurements in Co and Co/CoO nanowires.

## Full text

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## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/1706.02395/full.md

## References

38 references — full list in the complete paper: https://tomesphere.com/paper/1706.02395/full.md

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Source: https://tomesphere.com/paper/1706.02395