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Paper detail

Spin-current mediated exchange coupling in MgO-based magnetic tunnel junctions

Heterostructures composed of ferromagnetic layers that are mutually interacting through a nonmagnetic spacer are at the core of magnetic sensor and memory devices. In the present study, layer-resolved ferromagnetic resonance was used to investigate the coupling between the magnetic layers of a Co/MgO/Permalloy magnetic tunnel junction. Two magnetic resonance peaks were observed for both magnetic layers, as probed at the Co and Ni L3 x-ray absorption edges, showing a strong interlayer interaction through the insulating MgO barrier. A theoretical model based on the Landau-Lifshitz-Gilbert-Slonczewski equation was developed, including exchange coupling and spin pumping between the magnetic layers. Fits to the experimental data were carried out, both with and without a spin pumping term, and the goodness of the fit was compared using a likelihood ratio test. This rigorous statistical approach provides an unambiguous proof of the existence of interlayer coupling mediated by spin pumping.

preprint2021arXivOpen access
L. GladczukP. DluzewskiK. LasekP. AleshkevychD. M. BurnG. van der LaanT. Hesjedal
cond-mat.mtrl-sci
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L. GladczukP. DluzewskiK. LasekP. AleshkevychD. M. BurnG. van der LaanT. Hesjedal

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