Crystallinity of the Homogenized Energy Density of Periodic Lattice Systems

Multiscale Model. Simul. Pub Date : 2021-06-15 DOI:10.1137/21m1442073
A. Chambolle, Leonard Kreutz
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引用次数: 2

Abstract

We study the homogenized energy densities of periodic ferromagnetic Ising systems. We prove that, for finite range interactions, the homogenized energy density, identifying the effective limit, is crystalline, i.e. its Wulff crystal is a polytope, for which we can (exponentially) bound the number of vertices. This is achieved by deriving a dual representation of the energy density through a finite cell formula. This formula also allows easy numerical computations: we show a few experiments where we compute periodic patterns which minimize the anisotropy of the surface tension.
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周期晶格系统均一化能量密度的结晶性
研究了周期铁磁Ising系统的均匀化能量密度。我们证明,对于有限范围的相互作用,均质能量密度,识别有效极限,是结晶的,即它的Wulff晶体是一个多面体,我们可以(指数)限制顶点的数量。这是通过有限单元公式推导出能量密度的对偶表示来实现的。这个公式也允许简单的数值计算:我们展示了几个实验,我们计算周期模式,使表面张力的各向异性最小化。
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Multiscale Model. Simul.
Multiscale Model. Simul.
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