非局部 Ohta-Kawasaki 模型的渐近兼容方案

IF 2.1 3区 数学 Q1 MATHEMATICS, APPLIED
Wangbo Luo, Yanxiang Zhao
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引用次数: 0

摘要

我们研究了非局部 Ohta-Kawasaka 模型的傅立叶谱方法在多维空间的渐近相容性,该模型是我们之前工作(Y. Zhao and W. Luo, Physica D 458 (2024), 133989)中提出的模型的更广义版本。通过引入空间变量的傅立叶配位离散化,我们证明了在周期域上的二维和三维渐近相容性。对于时间离散化,我们采用了二阶反向微分公式法。我们证明,对于某些非局部核,所提出的时间离散化方案继承了能量耗散规律。在数值实验中,我们验证了所提方案的渐近相容性、二阶时间收敛率和能量稳定性。更重要的是,当在模型中应用某些非局部核时,我们发现了一种新颖的方格模式。此外,我们的数值实验证实,对于某些特定的非局部核,存在二维最佳气泡数量的上限。最后,我们用数值方法探讨了非局部水平线诱导的促进/移动效应,这与我们早期工作(Y. Zhao and W. Luo, Physica D 458 (2024), 133989)中的理论研究一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Asymptotically compatible schemes for nonlocal Ohta–Kawasaki model
We study the asymptotical compatibility of the Fourier spectral method in multidimensional space for the nonlocal Ohta–Kawasaka model, a more generalized version of the model proposed in our previous work (Y. Zhao and W. Luo, Physica D 458 (2024), 133989). By introducing the Fourier collocation discretization for the spatial variable, we show that the asymptotical compatibility holds in 2D and 3D over a periodic domain. For the temporal discretization, we adopt the second‐order backward differentiation formula method. We prove that for certain nonlocal kernels, the proposed time discretization schemes inherit the energy dissipation law. In the numerical experiments, we verify the asymptotical compatibility, the second‐order temporal convergence rate, and the energy stability of the proposed schemes. More importantly, we discover a novel square lattice pattern when certain nonlocal kernel are applied in the model. In addition, our numerical experiments confirm the existence of an upper bound for the optimal number of bubbles in 2D for some specific nonlocal kernels. Finally, we numerically explore the promotion/demotion effect induced by the nonlocal horizon , which is consistent with the theoretical studies presented in our earlier work (Y. Zhao and W. Luo, Physica D 458 (2024), 133989).
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来源期刊
CiteScore
7.20
自引率
2.60%
发文量
81
审稿时长
9 months
期刊介绍: An international journal that aims to cover research into the development and analysis of new methods for the numerical solution of partial differential equations, it is intended that it be readily readable by and directed to a broad spectrum of researchers into numerical methods for partial differential equations throughout science and engineering. The numerical methods and techniques themselves are emphasized rather than the specific applications. The Journal seeks to be interdisciplinary, while retaining the common thread of applied numerical analysis.
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