六边形磁致伸缩材料中的超快域壁运动:惯性阻尼、磁致伸缩和干摩擦耗散的作用

IF 2.3 3区 工程技术 Q2 MECHANICS
Sarabindu Dolui, Ambalika Halder, Sharad Dwivedi
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引用次数: 0

摘要

本文研究了双层压电磁致伸缩异质结构中的畴壁在压致应变、惯性阻尼和干摩擦耗散影响下的动态特征。我们假设磁致伸缩材料属于横向各向同性六方晶体。分析在惯性 Landau-Lifshitz-Gilbert 方程的框架内进行,该方程描述了磁致伸缩材料内部磁化的超快演化。通过采用经典行波方差分析,研究探讨了磁弹性、干摩擦、惯性阻尼、晶体对称性和可调外部磁场等各种因素如何表征磁畴壁在稳态和跃迁动态状态下的运动。这些结果提供了宝贵的见解,让我们了解这些关键参数如何有效地调节动态特征,如域壁宽度、阈值、沃克击穿和域壁速度。我们还对所获得的分析结果进行了进一步的数值说明,并与最近的观测结果进行了定性比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Ultrafast domain wall motion in hexagonal magnetostrictive materials: role of inertial damping, magnetostriction, and dry-friction dissipation

Ultrafast domain wall motion in hexagonal magnetostrictive materials: role of inertial damping, magnetostriction, and dry-friction dissipation

This article investigates the dynamic features of domain walls in a bilayer piezoelectric-magnetostrictive heterostructure under the influence of piezo-induced strains, inertial damping, and dry friction dissipation. We assume that the magnetostrictive material belongs to the transversely isotropic hexagonal crystal. The analysis is carried out within the framework of the inertial Landau-Lifshitz-Gilbert equation, which describes the ultrafast evolution of magnetization inside the magnetostrictive materials. By employing the classical traveling wave ansatz, the study explores how various factors such as magnetoelasticity, dry friction, inertial damping, crystal symmetry, and a tunable external magnetic field characterize the motion of the magnetic domain walls in both steady-state and precessional dynamic regimes. The results present valuable insights into how these key parameters can effectively modulate dynamic features such as domain wall width, threshold, Walker breakdown, and domain wall velocity. The obtained analytical results are further numerically illustrated, and a qualitative comparison with recent observations is also presented.

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来源期刊
Acta Mechanica
Acta Mechanica 物理-力学
CiteScore
4.30
自引率
14.80%
发文量
292
审稿时长
6.9 months
期刊介绍: Since 1965, the international journal Acta Mechanica has been among the leading journals in the field of theoretical and applied mechanics. In addition to the classical fields such as elasticity, plasticity, vibrations, rigid body dynamics, hydrodynamics, and gasdynamics, it also gives special attention to recently developed areas such as non-Newtonian fluid dynamics, micro/nano mechanics, smart materials and structures, and issues at the interface of mechanics and materials. The journal further publishes papers in such related fields as rheology, thermodynamics, and electromagnetic interactions with fluids and solids. In addition, articles in applied mathematics dealing with significant mechanics problems are also welcome.
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