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Helium Ions Put Magnetic Skyrmions on the Track

Roméo Juge, Kaushik Bairagi, Kumari Gaurav Rana, J. Vogel, M. Sall, D. Mailly, Van Tuong Pham, Qiang Zhang, Naveen Sisodia, Michael Foerster, Lucía Aballe, M. Belmeguenai, Yves Roussigné, S. Auffret, L. D. Buda-Prejbeanu, Gilles Gaudin, D. Ravelosona, Olivier Boulle

2021Nano Letters135 citationsDOIOpen Access PDF

Abstract

Magnetic skyrmions are deemed to be the forerunners of novel spintronic memory and logic devices. While their observation and their current-driven motion at room temperature have been demonstrated, certain issues regarding their nucleation, stability, pinning, and skyrmion Hall effect still need to be overcome to realize functional devices. Here, we demonstrate that focused He+-ion-irradiation can be used to create and guide skyrmions in racetracks. We show that the reduction of the perpendicular magnetic anisotropy and Dzyaloshinskii–Moriya interaction in the track defined by ion-irradiation leads to the formation of stable isolated skyrmions. Current-driven skyrmion motion experiments and simulations reveal that the skyrmions move along the irradiated track, resulting in the suppression of the skyrmion Hall effect, and that the maximum skyrmion velocity can be enhanced by tuning the magnetic properties. These results open up a new path to nucleate and guide magnetic skyrmions in racetrack devices.

Topics & Concepts

SkyrmionCondensed matter physicsSpintronicsNucleationRacetrack memoryIonPhysicsTrack (disk drive)Hall effectMaterials scienceMagnetic fieldFerromagnetismQuantum mechanicsElectrical engineeringComputer scienceOperating systemThermodynamicsEngineeringComputer memoryMemory refreshSemiconductor memoryMagnetic properties of thin filmsAdvanced Memory and Neural ComputingFerroelectric and Negative Capacitance Devices
Helium Ions Put Magnetic Skyrmions on the Track | Litcius