经典随机偶极相互作用中的自旋混沌动力学

M. Momeni
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引用次数: 0

摘要

研究了在不考虑Gilbert阻尼参数的情况下,用Landau-Lifshitz-Gilbert方程描述的偶极-偶极相互作用磁化动力学的随机性质。结果表明,复杂动态状态的发生一方面取决于相互作用的空间各向异性,另一方面取决于晶格几何形状。从磁化波动的高阶矩可以观察到,随扰动强度的不同,可以得到规则和混沌两种重要的动力学状态。利用标准偏差原理得到的赫斯特指数,分析了磁化波动的相关性和持久性。结果还表明,随着系统相关参数的变化,系统从反相关到正相关的转变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spin Chaos Dynamics in Classical Random Dipolar Interactions
The stochastic nature of magnetization dynamics of dipole–dipole interactions described by the Landau–Lifshitz–Gilbert equation without considering the Gilbert damping parameter is investigated. It is shown that the occurrence of the complex dynamic states depends on the spatial anisotropy of interactions on one hand and the lattice geometry on the other. It is observed from the higher-order moments of the magnetization fluctuations that two significant dynamical regimes, regular and chaos, may be obtained depending on the perturbation strength. Relying on the Hurst exponent obtained by the standard deviation principle, the correlation and persistence of the magnetization fluctuations are analyzed. The results also exhibit a transition from an anti-correlated to a positively correlated system as the relevant parameters of the system vary.
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