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非对称条形纳磁体的铁磁共振频率和自旋波模式
引用本文:陈亚博,杨晓阔,危波,吴瞳,刘嘉豪,张明亮,崔焕卿,董丹娜,蔡理. 非对称条形纳磁体的铁磁共振频率和自旋波模式[J]. 物理学报, 2020, 0(5): 209-217
作者姓名:陈亚博  杨晓阔  危波  吴瞳  刘嘉豪  张明亮  崔焕卿  董丹娜  蔡理
作者单位:空军工程大学基础部;空军通信士官学校有线通信系
基金项目:国家自然科学基金(批准号:61804184,11975311);空军工程大学校长基金(批准号:XZJK2018034)和空军工程大学预先研究基金(批准号:YNJC19070502,YNJC19070504)资助的课题~~
摘    要:通过建立微波激励下的非对称条形多铁纳磁体的微磁模型,研究了倾斜角和缺陷角对该形纳磁体的铁磁共振谱和自旋波模式的影响.通过对微磁仿真得到的动态磁化数据进行分析发现,非对称条形纳磁体倾斜角度增加,铁磁共振频率随之增加,而这一现象与纳磁体的缺陷角度无关.倾斜角不变,非对称条形纳磁体的铁磁共振频率与缺陷角度呈单调递增关系,并且不同缺陷角度纳磁体的自旋波模式显示出极大的差异.非对称条形纳磁体与矩形纳磁体相比,它的自旋波模式局部化,具体为非对称条形纳磁体的自旋波模式不对称且高进动区域存在于边缘,表现为非对称边缘模式.倾斜角改变导致纳磁体内部退磁场变化,引起纳磁体边缘模式的移动,而中心模式对倾斜角的变化并不敏感.最后,对建立的模型在高频微波磁场激励下的磁损耗进行了分析,验证了模型的可靠性.这些结论说明缺陷角和倾斜角可用于纳磁体自旋波模式和铁磁共振频率的调谐,所得结果为可调纳磁微波器件的设计提供了重要的理论依据和思路.

关 键 词:非对称条形纳磁体  铁磁共振  自旋波模式  微波器件

Ferromagnetic resonance frequency and spin wave mode of asymmetric strip nanomagnet
Chen Ya-Bo,Yang Xiao-Kuo,Wei Bo,Wu Tong,Liu Jia-Hao,Zhang Ming-Liang,Cui Huan-Qing,Dong Dan-Na,Cai Li. Ferromagnetic resonance frequency and spin wave mode of asymmetric strip nanomagnet[J]. Acta Physica Sinica, 2020, 0(5): 209-217
Authors:Chen Ya-Bo  Yang Xiao-Kuo  Wei Bo  Wu Tong  Liu Jia-Hao  Zhang Ming-Liang  Cui Huan-Qing  Dong Dan-Na  Cai Li
Affiliation:(Department of Foundation,Air Force Engineering University,Xi’an 710051,China;Department of Wired Communications,Air Force Communications NCO Academy,Dalian 116100,China)
Abstract:Recently, the operating frequency of nanomagnetic logic device has reached the spin wave frequency of nanomagnets. Therefore, the dynamic magnetic properties of nanomagnets, which are excited by microwave magnetic field, have been explored by many researchers. In this paper, the micro-magnetic model of asymmetric strip nanomagnets under microwave excitation is established. By using the anisotropic stress field(along the xaxis direction) that is generated by a constant voltage and the SINC function microwave magnetic field(along the y-axis direction) to excite the nanomagnets at the same time, the effects of tilt angle and defect angle on the ferromagnetic resonance(FMR) spectrum and spin wave mode of the asymmetric strip nanomagnets are studied. Spectral analysis is performed on the micromagnetic simulation data. Simulation results show that as the tilt angle of the asymmetric strip nanomagnet increases, the ferromagnetic resonance frequency increases.What is more, this phenomenon is independent of the defect angle of the nanomagnet. When the tilt angle is constant, there exists a monotonically increasing relation between the ferromagnetic resonance frequency of the asymmetric strip nanomagnet and the defect angle. The spin wave modes of the nanomagnets differ a lot as defect angle changes. The asymmetric strip nanomagnet is compared with the rectangle nanomagnet, and the spin wave mode of the asymmetric strip nanomagnet is localized. Specifically, the spin wave mode of the asymmetric strip nanomagnets is asymmetric and the high precession region exists at the edge, which is termed asymmetric edge mode. The changes of the tilt angle lead to the changes in the demagnetizing field inside the nanomagnet, which gives rise to the movement of the edge mode. However, the center mode is not sensitive to the change of tilt angle. Finally, the magnetic loss of the model under the excitation of high frequency microwave magnetic field is analyzed and the reliability of the model is verified. These findings indicate that the defect angle and tilt angle can be used to tune the spin wave mode and the ferromagnetic resonance frequency of nanomagnets, and thus providing an important theoretical basis for designing the tunable microwave nanomagnetic devices.
Keywords:asymmetric strip nanomagnet  ferromagnetic resonance(FMR)  spin wave mode  microwave devices
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