Maarten Beens scite author profile

We present an experimental and theoretical investigation of all-optical switching by single femtosecond laser pulses. Our experimental results demonstrate that, unlike rare earth-transition metal ferrimagnetic alloys, Pt/Co/[Ni/Co] N /Gd can be switched in the absence of a magnetization compensation temperature, indicative for strikingly different switching conditions. In order to understand the underlying mechanism, we model the laser-induced magnetization dynamics in Co/Gd bilayers and GdCo alloys on an equal footing, using an extension of the microscopic threetemperature model to multiple magnetic sublattices and including exchange scattering. In agreement with our experimental observations, the model shows that Co/Gd bilayers can be switched for an arbitrary thickness of the Co layer, i.e, even far away from compensating the total Co and Gd magnetic moment. We identify the switching mechanism in Co/Gd bilayers as a front of reversed Co magnetization that nucleates at the Co/Gd interface and propagates through the Co layer driven by exchange scattering. arXiv:1908.07292v1 [cond-mat.mes-hall]

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Phenomenology of current-induced skyrmion motion in antiferromagnets

Velkov

Gomonay

Beens

et al. 2016

New J. Phys.

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We study current-driven skyrmion motion in uniaxial thin film antiferromagnets in the presence of the Dzyaloshinskii-Moriya interactions and in an external magnetic field. We phenomenologically include relaxation and current-induced torques due to both spin-orbit coupling and spatially inhomogeneous magnetic textures in the equation for the Néel vector of the antiferromagnet. Using the collective coordinate approach we apply the theory to a two-dimensional antiferromagnetic skyrmion and estimate the skyrmion velocity under an applied DC electric current.

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s−d model for local and nonlocal spin dynamics in laser-excited magnetic heterostructures

2020

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The role of intermixing in all-optical switching of synthetic-ferrimagnetic multilayers

Beens

Lalieu

Duine

et al. 2019

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We present a theoretical study of single-pulse all-optical switching (AOS) in synthetic-ferrimagnetic multilayers. Specifically, we investigate the role of interface intermixing in switching Co/Gd bilayers. We model the laser-induced magnetization dynamics in Co/Gd bilayers using the microscopic three-temperature model for layered magnetic systems. Exchange scattering is included, which mediates angular momentum transfer between the magnetic sublattices. In this work, each layer is represented by one atomic monolayer of a GdCo alloy with an arbitrary Co concentration, allowing Co/Gd bilayers with an intermixed interface to be modelled. Our results indicate that within the model intermixing of the Co/Gd interface reduces the threshold fluence for AOS significantly. We show that intermixing does not qualitatively affect the switching mechanism and leads to an increase of the propagation speed of the switching front.

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Magnons versus electrons in thermal spin transport through metallic interfaces

Beens

Heremans

Tserkovnyak

et al. 2018

J. Phys. D: Appl. Phys.

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We develop a theory for spin transport in magnetic metals that treats the contribution of magnons and electrons on equal footing. As an application we consider thermally-driven spin injection across an interface between a magnetic metal and a normal metal, i.e., the spin-dependent Seebeck effect. We show that the ratio between magnonic and electronic contribution scales as T /T C T F /T C , with the Fermi temperature T F and the Curie temperature T C . Since, typically, T C T F , the magnonic contribution may dominate the thermal spin injection, even though the interface is more transparent for electronic spin current.

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Maarten Beens

Comparing all-optical switching in synthetic-ferrimagnetic multilayers and alloys

Phenomenology of current-induced skyrmion motion in antiferromagnets

s−d model for local and nonlocal spin dynamics in laser-excited magnetic heterostructures

The role of intermixing in all-optical switching of synthetic-ferrimagnetic multilayers

Magnons versus electrons in thermal spin transport through metallic interfaces

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