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The 2020 skyrmionics roadmap
Journal of Physics D: Applied Physics ( IF 3.4 ) Pub Date : 2020-06-28 , DOI: 10.1088/1361-6463/ab8418
C Back 1 , V Cros 2 , H Ebert 3 , K Everschor-Sitte 4 , A Fert 2 , M Garst 5 , Tianping Ma 6 , S Mankovsky 3 , T L Monchesky 7 , M Mostovoy 8 , N Nagaosa 9, 10 , S S P Parkin 6 , C Pfleiderer 1 , N Reyren 2 , A Rosch 11, 12 , Y Taguchi 9 , Y Tokura 9, 10 , K von Bergmann 13 , Jiadong Zang 14
Affiliation  

The notion of non-trivial topological winding in condensed matter systems represents a major area of present-day theoretical and experimental research. Magnetic materials offer a versatile platform that is particularly amenable for the exploration of topological spin solitons in real space such as skyrmions. First identified in non-centrosymmetric bulk materials, the rapidly growing zoology of materials systems hosting skyrmions and related topological spin solitons includes bulk compounds, surfaces, thin films, heterostructures, nano-wires and nano-dots. This underscores an exceptional potential for major breakthroughs ranging from fundamental questions to applications as driven by an interdisciplinary exchange of ideas between areas in magnetism which traditionally have been pursued rather independently. The skyrmionics Roadmap provides a review of the present state of the art and the wide range of research directions and strategies currently under way. These are, for instance...

中文翻译:

2020 Skyrmionics路线图

凝聚态系统中非平凡拓扑绕组的概念代表了当今理论和实验研究的主要领域。磁性材料提供了一个多功能平台,特别适合在天体等真实空间中探索拓扑自旋孤子。最早在非中心对称的散装材料中发现的,容纳天体离子和相关拓扑自旋孤子的材料系统的快速生态学包括散装化合物,表面,薄膜,异质结构,纳米线和纳米点。这强调了重大突破的巨大潜力,从基本问题到应用,这是磁学领域之间跨学科交流思想的驱动,而传统上,磁学领域是相对独立地追求的。Skyrmionics路线图提供了对当前技术水平以及目前正在进行的广泛研究方向和策略的回顾。例如,这些是...
更新日期:2020-06-29
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