Zhen-Lin Jia, Shu-Chen Wang, Tong Li, Xiao-Wei Jin and De-Sheng Xue
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引用次数: 0
Abstract
Dynamics of magnetization M driven by microwave are derived analytically from the nonlinear Landau–Lifshitz–Gilbert equation. Analytical M and susceptibility are obtained self-consistently under a positive circularly polarized microwave field, , with frequency , which is perpendicular to a static field, . It is found that the orbital of M is always a cone along H. However, with increasing h the polar angle of M initially increases, then keeps 90° when in ferromagnetic resonance (FMR) mode, where is Gilbert damping constant and is gyromagnetic ratio. These effects result in a nonlinear variation of FMR signal as h increases to , where the maximum of resonance peak decreases from a steady value, linewidth increases from a decreasing trend. These analytical solutions provide a complete picture of the dynamics of M with different h and H.
从非线性 Landau-Lifshitz-Gilbert 方程分析得出微波驱动的磁化 M 的动力学。在正圆极化微波场(频率为 ,垂直于静态场(H))下,自洽地得到了分析磁化率和磁感应强度。 然而,随着 h 的增大,磁化率的极角开始增大,然后在铁磁共振(FMR)模式下保持 90°,其中吉尔伯特阻尼常数为 ,回旋磁比为 。这些效应导致 FMR 信号随着 h 的增大呈非线性变化,共振峰的最大值从稳定值减小,线宽从减小趋势增大。这些分析解提供了不同 h 和 H 时 M 的动态全貌。
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