The wave nature of Rosensweig instability

IF 1.5 4区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY Chinese Physics B Pub Date : 2023-12-12 DOI:10.1088/1674-1056/ad1485
Liu Li, Decai Li, Zhiqiang Qi, Lu Wang, Zhili Zhang
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Abstract

In this study, the explicit analytical solution of Rosensweig instability spikes’ shapes obtained by Navier-Stokes equation in diverse magnetic field H vertical to the flat free surface of ferrofluids are systematically studied experimentally and theoretically. After carefully analyzing and solving the Navier-Stokes equation in elliptic form, the force balanced surface equations of spikes in Rosensweig instability are expressed as cosine wave in perturbated magnetic field and hyperbolic tangent in large magnetic field, whose results both reveal the wave-like nature of Rosensweig instability. The results of hyperbolic tangent form are perfectly fitted to the experimental results in this paper, which indicates that the analytical solution is basically correct. Using the forementioned theoretical results, the total energy of the spike distribution pattern is calculated. By analyzing the energy components under different magnetic field intensities H, the hexagon-square transition of Rosensweig instability is systematically discussed and explained in an explicit way.
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罗森斯魏格不稳定性的波浪性质
本研究通过实验和理论系统地研究了在垂直于铁流体平坦自由表面的不同磁场 H 中,用纳维-斯托克斯方程求得的罗森斯韦格不稳定性尖峰形状的显式解析解。在对椭圆形式的纳维-斯托克斯方程进行仔细分析和求解后,罗森斯韦格不稳定中的尖峰受力平衡面方程在扰动磁场中表示为余弦波,在大磁场中表示为双曲正切,其结果都揭示了罗森斯韦格不稳定的波状性质。双曲正切形式的结果与本文的实验结果完全吻合,说明解析解基本正确。利用上述理论结果,计算了尖峰分布模式的总能量。通过分析不同磁场强度 H 下的能量分量,系统地讨论并明确解释了罗森斯韦格不稳定性的六方转变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Chinese Physics B
Chinese Physics B 物理-物理:综合
CiteScore
2.80
自引率
23.50%
发文量
15667
审稿时长
2.4 months
期刊介绍: Chinese Physics B is an international journal covering the latest developments and achievements in all branches of physics worldwide (with the exception of nuclear physics and physics of elementary particles and fields, which is covered by Chinese Physics C). It publishes original research papers and rapid communications reflecting creative and innovative achievements across the field of physics, as well as review articles covering important accomplishments in the frontiers of physics. Subject coverage includes: Condensed matter physics and the physics of materials Atomic, molecular and optical physics Statistical, nonlinear and soft matter physics Plasma physics Interdisciplinary physics.
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