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主管单位 中华人民共和国
工业和信息化部
主办单位 中国材料研究学会
哈尔滨工业大学
主编 苑世剑 国际刊号ISSN 1005-0299 国内刊号CN 23-1345/TB

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引用本文:李艳,陈将伟,谢国治,陶志阔.铁磁性纳米片间相互作用对其微波磁性的影响[J].材料科学与工艺,2019,27(2):90-96.DOI:10.11951/j.issn.1005-0299.20170063.
LI Yan,CHEN Jiangwei,XIE Guozhi,TAO Zhikuo.Influences of the interaction of ferromagnetic nanosheets on their microwave magnetic properties[J].Materials Science and Technology,2019,27(2):90-96.DOI:10.11951/j.issn.1005-0299.20170063.
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铁磁性纳米片间相互作用对其微波磁性的影响
李艳, 陈将伟, 谢国治, 陶志阔
(南京邮电大学 电子科学与工程学院,南京 210003)
摘要:
在铁磁性元素中,交换能、偶极能和各向异性能之间存在复杂的竞争,因此,这种结构化介质的静态和动态性能与构成材料的固有磁特性,各个元素的形状和尺寸等有着密切的关系.这些多个自由度提供了对于通常未构图的磁性薄膜不可达到的新性能.本文通过将所研究的系统划分成立方体网格的三维阵列来对其进行建模,研究具有不同相对位置、纳米片间距、磁各向异性方向的两矩形铁磁性纳米片的微波磁性能.研究发现:与单个矩形铁磁性纳米片相比,具有不同相对位置、纳米片间距的两矩形铁磁性纳米片共振峰频率分布发生变化;当两矩形纳米片磁各向异性方向所呈角度由0°增加到30°时,其磁性质没有明显变化,而从30°到90°时,其磁性质对磁各向异性方向变化比较敏感.通过调控纳米片的相对位置、纳米片间距以及磁各向异性方向可以制备具有良好性能的吸收材料.
关键词:  铁磁性纳米片  微磁学模拟  静态磁矩分布  磁谱  异性能  交换能  退磁能
DOI:10.11951/j.issn.1005-0299.20170063
分类号:O441
文献标识码:A
基金项目:国家自然科学基金资助项目(61574079).
Influences of the interaction of ferromagnetic nanosheets on their microwave magnetic properties
LI Yan, CHEN Jiangwei, XIE Guozhi, TAO Zhikuo
(School of Electronic Science and Engineering, Nanjing University of Posts and Telecommunications, Nanjing 21003, China) [HJ1.4mm]
Abstract:
Submicron ferromagnetic elements have received extensive attention due to their wide applications in magnetic recording, microwave devices and advanced magnetic absorbing material. The static and dynamic properties of such structured media depend intimately on various aspects such as the intrinsic magnetic characteristics of constitutive materials, and the shape and size of the individual elements, and so on. These multiple degrees of freedom provide a new performance that can not be achieved for the normally unstructured magnetic films. In this paper, we divide the system into three dimensional array of cubic grids to model it, and study the microwave magnetic properties of two rectangular ferromagnetic nanosheets with different relative positions, nanosheet spacing and magnetic anisotropy direction.Compared to the single rectangular ferromagnetic nanosheets, the resonance peak frequency distribution of the two rectangular ferromagnetic nanosheets with different relative positions and the particle spacing were found to change. When the angle of the magnetic anisotropy of the two rectangular nanosheets was increased from 0 to 30 degrees, the magnetic properties of the films was not changed significantly, but the magnetic properties were sensitive to the variation of the magnetic anisotropy direction in the range from 30 to 90 degrees. Therefore, we can prepare a good performance of the absorption material by adjusting the relative position, the particle spacing and the direction of the magnetic anisotropy.
Key words:  ferromagnetic nanosheets  micro-magnetic simulation  equilibrium configuration  magnetic spectrum  anisotropy energy  exchange energy  demagnetization energy

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