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Main Authors: Xu, Y., Bony, B., Krishnia, S., Victor, R. Torrão, Collin, S., Fert, A., George, J. -M., Cros, V., Jaffrès, H.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2501.00403
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author Xu, Y.
Bony, B.
Krishnia, S.
Victor, R. Torrão
Collin, S.
Fert, A.
George, J. -M.
Cros, V.
Jaffrès, H.
author_facet Xu, Y.
Bony, B.
Krishnia, S.
Victor, R. Torrão
Collin, S.
Fert, A.
George, J. -M.
Cros, V.
Jaffrès, H.
contents In this study, the spin-orbit torque (SOT) in light metal oxide systems is investigated using an experimental approach based on harmonic Hall voltage techniques in out-of-plane (OOP) angular geometry for samples with in-plane magnetic anisotropy. In parallel, an analytical derivation of this alternative OOP harmonic Hall detection geometry has been developed, followed by experimental validation to extract SOT effective fields. In addition, to accurately quantifying SOT, this method allows complete characterization of thermoelectric effects, opening promising avenues for accurate SOT characterization in related systems. In particular, this study corroborates the critical role of naturally oxidized copper interfaced with metallic Cu in the generation of orbital current in Co(2)|Pt(4)|CuOx(3), demonstrating a two-fold increase in damping-like torques compared to a reference sample with an oxidized Al capping layer. These findings offer promising directions for future research on the application aspect of non-equilibrium orbital angular momentum.
format Preprint
id arxiv_https___arxiv_org_abs_2501_00403
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Alternative harmonic detection approach for quantitative determination of spin and orbital torques
Xu, Y.
Bony, B.
Krishnia, S.
Victor, R. Torrão
Collin, S.
Fert, A.
George, J. -M.
Cros, V.
Jaffrès, H.
Materials Science
In this study, the spin-orbit torque (SOT) in light metal oxide systems is investigated using an experimental approach based on harmonic Hall voltage techniques in out-of-plane (OOP) angular geometry for samples with in-plane magnetic anisotropy. In parallel, an analytical derivation of this alternative OOP harmonic Hall detection geometry has been developed, followed by experimental validation to extract SOT effective fields. In addition, to accurately quantifying SOT, this method allows complete characterization of thermoelectric effects, opening promising avenues for accurate SOT characterization in related systems. In particular, this study corroborates the critical role of naturally oxidized copper interfaced with metallic Cu in the generation of orbital current in Co(2)|Pt(4)|CuOx(3), demonstrating a two-fold increase in damping-like torques compared to a reference sample with an oxidized Al capping layer. These findings offer promising directions for future research on the application aspect of non-equilibrium orbital angular momentum.
title Alternative harmonic detection approach for quantitative determination of spin and orbital torques
topic Materials Science
url https://arxiv.org/abs/2501.00403