具有对称性的纳米条带中手性自旋纹理之间的演化与竞争。

Evolution and competition between chiral spin textures in nanostripes with symmetry.

作者信息

Jena Jagannath, Göbel Börge, Kumar Vivek, Mertig Ingrid, Felser Claudia, Parkin Stuart

机构信息

Max Planck Institute of Microstructure Physics, Weinberg 2, 06120 Halle, Germany.

Institute of Physics, Martin Luther University Halle-Wittenberg, 06099 Halle, Germany.

出版信息

Sci Adv. 2020 Dec 4;6(49). doi: 10.1126/sciadv.abc0723. Print 2020 Dec.

DOI:10.1126/sciadv.abc0723

PMID:33277247

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7821896/

Abstract

Chiral spin textures are of considerable interest for applications in spintronics. It has recently been shown that magnetic materials with symmetry can sustain several distinct spin textures. Here, we show, using Lorentz transmission electron microscopy, that single and double chains of antiskyrmions can be generated at room temperature in nanostripes less than 0.5 μm in width formed from the Heusler compound MnPtPdSn. Typically, truncated helical spin textures are formed in low magnetic fields, whose edges are terminated by half antiskyrmions. These evolve into chains of antiskyrmions with increasing magnetic field. Single chains of these objects are located in the middle of the nanostripes even when the stripes are much wider than the antiskyrmions. Moreover, the chains can even include elliptical Bloch skyrmions depending on details of the applied magnetic field history. These findings make materials special and highly interesting for applications such as magnetic racetrack memory storage devices.

摘要

手性自旋纹理在自旋电子学应用中具有相当大的吸引力。最近的研究表明，具有特定对称性的磁性材料可以维持几种不同的自旋纹理。在此，我们利用洛伦兹透射电子显微镜表明，在由赫斯勒化合物MnPtPdSn形成的宽度小于0.5μm的纳米条带中，室温下可以产生单链和双链反斯格明子。通常，在低磁场中会形成截断的螺旋自旋纹理，其边缘由半反斯格明子终止。随着磁场增加，这些纹理会演变成反斯格明子链。即使纳米条带比反斯格明子宽得多，这些物体的单链仍位于纳米条带的中间。此外，根据所施加磁场历史的细节，这些链甚至可以包括椭圆形布洛赫斯格明子。这些发现使得该材料对于诸如磁记录轨道存储设备等应用而言特别且极具吸引力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6c9e/7821896/47fb8e45a244/abc0723-F1.jpg

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具有对称性的纳米条带中手性自旋纹理之间的演化与竞争。

Evolution and competition between chiral spin textures in nanostripes with symmetry.

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