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Thickness Dependence of the Dzyaloshinskii-Moriya Interaction in Co2FeAl Ultrathin Films: Effects of Annealing Temperature and Heavy-Metal Material

Belmeguenai, M.; Roussigné, Y.; Bouloussa, H.; Chérif, S. M.; Stashkevich, A.; Nasui, M.; Gabor, M. S.; Mora-Hernández, A.; Nicholson, B.; Inyang, O.-O.; Hindmarch, A. T.; Bouchenoire, L.

Thickness Dependence of the Dzyaloshinskii-Moriya Interaction in Co2FeAl Ultrathin Films: Effects of Annealing Temperature and Heavy-Metal Material Thumbnail


Authors

M. Belmeguenai

Y. Roussigné

H. Bouloussa

S. M. Chérif

A. Stashkevich

M. Nasui

M. S. Gabor

A. Mora-Hernández

L. Bouchenoire



Abstract

The interfacial Dzyaloshinskii-Moriya interaction (IDMI) is investigated in Co2FeAl (CFA) ultrathin films of various thicknesses (0.8 nm ≤ tCFA ≤ 2nm) grown by sputtering on Si substrates, using Pt, W, Ir, and MgO buffer or/and capping layers. Vibrating sample magnetometry reveals that the magnetization at saturation (Ms) for the Pt- and Ir-buffered films is higher than the usual Ms of CFA due to the proximity-induced magnetization (PIM) in Ir and Pt estimated to be 19% and 27%, respectively. The presence of PIM in these materials is confirmed using x-ray resonant magnetic reflectivity. Moreover, while no PIM is induced in W, higher PIM is obtained with Pt when it is used as a buffer layer rather than a capping layer. Brillouin light scattering in the Damon-Eshbach geometry is used to investigate the thickness dependences of the IDMI constants from the spin-wave nonreciprocity and the perpendicular anisotropy field versus the annealing temperature. The IDMI sign is found to be negative for Pt / CFA and Ir / CFA, while it is positive for W / CFA. The thickness dependence of the effective IDMI constant for stacks involving Pt and W shows the existence of two regimes similar to that of the perpendicular anisotropy constant due to the degradation of the interfaces as the CFA thickness approaches a critical thickness. The surface IDMI and anisotropy constants of each stack are determined for the thickest samples where a linear thickness dependence of the effective IDMI constant and the effective magnetization are observed. The interface anisotropy and IDMI constants investigated for the Pt / CFA / MgO system show different trends with the annealing temperature. The decrease of the IDMI constant with increasing annealing temperature is probably due to the electronic structure changes at the interfaces, while the increase of the interface anisotropy constant is coherent with the interface quality and disorder enhancement.

Citation

Belmeguenai, M., Roussigné, Y., Bouloussa, H., Chérif, S., Stashkevich, A., Nasui, M., Gabor, M., Mora-Hernández, A., Nicholson, B., Inyang, O.-O., Hindmarch, A., & Bouchenoire, L. (2018). Thickness Dependence of the Dzyaloshinskii-Moriya Interaction in Co2FeAl Ultrathin Films: Effects of Annealing Temperature and Heavy-Metal Material. Physical Review Applied, 9(4), Article 044044. https://doi.org/10.1103/physrevapplied.9.044044

Journal Article Type Article
Acceptance Date Jan 22, 2018
Online Publication Date Apr 30, 2018
Publication Date Apr 30, 2018
Deposit Date May 17, 2018
Publicly Available Date May 17, 2018
Journal Physical Review Applied
Publisher American Physical Society
Peer Reviewed Peer Reviewed
Volume 9
Issue 4
Article Number 044044
DOI https://doi.org/10.1103/physrevapplied.9.044044
Public URL https://durham-repository.worktribe.com/output/1330631

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Copyright Statement
Reprinted with permission from the American Physical Society: Belmeguenai, M., Roussigné, Y., Bouloussa, H., Chérif, S. M., Stashkevich, A., Nasui, M., Gabor, M. S., Mora-Hernández, A., Nicholson, B., Inyang, O.-O., Hindmarch, A. T. & Bouchenoire, L. (2018). Thickness Dependence of the Dzyaloshinskii-Moriya Interaction in Co2FeAl Ultrathin Films: Effects of Annealing Temperature and Heavy-Metal Material. Physical Review Applied 9(4): 044044 © 2018 by the American Physical Society. Readers may view, browse, and/or download material for temporary copying purposes only, provided these uses are for noncommercial personal purposes. Except as provided by law, this material may not be further reproduced, distributed, transmitted, modified, adapted, performed, displayed, published, or sold in whole or part, without prior written permission from the American Physical Society.






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