Current-Driven Skyrmion Dynamics and Drive-Dependent Skyrmion Hall Effect in an Ultrathin Film

Magnetic skyrmions are chiral spin textures which hold great promise as nanoscale information carriers. Their recent observation at room temperature and their fast current-induced manipulation in multiple repetitions of heavy metal/ferromagnetic stacks have lifted an important bottleneck towards the...

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Veröffentlicht in:	Physical review applied 2019-10, Vol.12 (4), Article 044007
Hauptverfasser:	Juge, Roméo, Je, Soong-Geun, Chaves, Dayane de Souza, Buda-Prejbeanu, Liliana D., Peña-Garcia, José, Nath, Jayshankar, Miron, Ioan Mihai, Rana, Kumari Gaurav, Aballe, Lucia, Foerster, Michael, Genuzio, Francesca, Menteş, Tevfik Onur, Locatelli, Andrea, Maccherozzi, Francesco, Dhesi, Sarnjeet S., Belmeguenai, Mohamed, Roussigné, Yves, Auffret, Stéphane, Pizzini, Stefania, Gaudin, Gilles, Vogel, Jan, Boulle, Olivier
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Sprache:	eng
Schlagworte:	Condensed Matter Materials Science Other Physics
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creator	Juge, Roméo Je, Soong-Geun Chaves, Dayane de Souza Buda-Prejbeanu, Liliana D. Peña-Garcia, José Nath, Jayshankar Miron, Ioan Mihai Rana, Kumari Gaurav Aballe, Lucia Foerster, Michael Genuzio, Francesca Menteş, Tevfik Onur Locatelli, Andrea Maccherozzi, Francesco Dhesi, Sarnjeet S. Belmeguenai, Mohamed Roussigné, Yves Auffret, Stéphane Pizzini, Stefania Gaudin, Gilles Vogel, Jan Boulle, Olivier
description	Magnetic skyrmions are chiral spin textures which hold great promise as nanoscale information carriers. Their recent observation at room temperature and their fast current-induced manipulation in multiple repetitions of heavy metal/ferromagnetic stacks have lifted an important bottleneck towards the practical realisation of skyrmion-based devices. However, the complex spin textures and large power dissipation in these multilayers limit their practical implementation as well as the fundamental understanding of the skyrmion dynamics. Here, we report on the current-driven motion of skyrmions in an ultrathin Pt/Co/MgO model system. We find that skyrmions with diameters in the 100 nm range can move at speeds up to 100 m.s−1−1^{-1}. Our experiments also reveal that the skyrmion Hall effect is markedly drive-dependent. These observations are well substantiated both by a simple analytical model and micromagnetic simulations, which highlight the important role of pinning in the skyrmion dynamics.
doi_str_mv	10.1103/PhysRevApplied.12.044007
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title	Current-Driven Skyrmion Dynamics and Drive-Dependent Skyrmion Hall Effect in an Ultrathin Film
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