磁性材料的磁结构、磁畴和拓扑磁织构

Pub Date : 2015-03-20 DOI:10.7498/APS.64.067503
Zhidong Zhang
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引用次数: 6

摘要

本文首先对磁结构、磁畴和拓扑磁织构及其相互关系作了简要综述。一方面,磁畴是由材料的磁性结构、本征磁性能和微观结构因素决定的。另一方面,磁畴可以控制磁化和退磁过程,也可以控制材料的技术磁性能。拓扑结构与材料的物理性质有密切的关系。近年来人们对涡旋、气泡、介子、斯基米子等拓扑磁性织构的研究越来越关注,并发现这些拓扑织构的拓扑行为与材料的磁性能密切相关。然后从尺寸效应、缺陷和界面等方面介绍了磁性结构、磁畴和拓扑磁性织构的最新研究进展。最后,简要综述了稀土永磁薄膜的微观结构、磁畴和磁性能之间的关系,以及交换耦合纳米盘的拓扑磁织构及其动力学行为的研究成果。从文献综述中可以看出,研究高性能各向异性交换耦合稀土永磁体有利于稀土资源的高效利用。磁畴工程可以通过调整磁性材料的微观结构来获得最佳的磁性能。拓扑的概念被应用到各个研究领域,而拓扑行为对物理性质的贡献也被发现在不同的材料中。磁畴、拓扑磁基态和激发态及其动力学行为的研究对于更好地理解量子拓扑相变和其他拓扑相关现象具有重要意义。这对于理解不同拓扑状态之间的相互关系以及它们与材料磁性能的关系是非常有帮助的,对磁性材料在各个领域的应用也有一定的帮助。
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Magnetic structures, magnetic domains and topological magnetic textures of magnetic materials
This article first gives a brief review of magnetic structures, magnetic domains and topological magnetic textures and their relations. On the one hand, the magnetic domains are determined by the magnetic structures, the intrinsic magnetic properties and the micro-structural factors of a material. On the other hand, the magnetic domains could control the magnetization and demagnetization processes and also the technical magnetic properties of a material. Topology is found to have a close relation with physical properties of material. Recent interest has focused on topological magnetic textures, such as vortex, bubble, meron, skyrmion, and it has been found that the topological behaviors of these topological textures are closely related with magnetic properties of a material. Then this article introduces recent advances in magnetic structures, magnetic domains and topological magnetic textures, from views of the size effect, defects and interfaces. Finally, this article reviews briefly some results of investigation on the relations between microstructures, magnetic domains and magnetic properties of rare-earth permanent magnetic thin films, the topological magnetic textures and their dynamic behaviors of exchange coupled nanodisks. It has been concluded from the reviews on the literature that the investigation on anisotropic exchange-coupled rare-earth permanent magnets with high performance benefits the high efficient utilization of rare-earth resources. One could achieve optimal magnetic properties through magnetic domain engineering by adjusting the microstructures of magnetic materials. The concepts of topology is applied to various research fields, while the contributions from topological behaviors to physical properties are discovered in different materials. The researches on magnetic domains, topological magnetic ground state and excitation states and their dynamic behaviors are very important for a better understanding of quantum topological phase transitions and other topological relevant phenomena. It can be quite helpful for understanding the correlation between different topological states and their relationship with magnetic properties of a material, and also it will definitely contribute to the applications in various fields of magnetic materials.
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