Classifying topological floppy modes in the continuum

Ian Tan, Anton Souslov
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Abstract

In floppy mechanical lattices, robust edge states and bulk Weyl modes are manifestations of underlying topological invariants. To explore the universality of these phenomena independent of microscopic detail, we formulate topological mechanics in the continuum. By augmenting standard linear elasticity with additional fields of soft modes, we define a continuum version of Maxwell counting, which balances degrees of freedom and mechanical constraints. With one additional field, these augmented elasticity theories can break spatial inversion symmetry and harbor topological edge states. We also show that two additional fields are necessary to harbor Weyl points in two dimensions, and define continuum invariants to classify these states. In addition to constructing the general form of topological elasticity based on symmetries, we derive the coefficients based on the systematic homogenization of microscopic lattices. By solving the resulting partial differential equations, we efficiently predict coarse-grained deformations due to topological floppy modes without the need for a detailed lattice-based simulation. Our discovery formulates novel design principles and efficient computational tools for topological states of matter, and points to their experimental implementation in mechanical metamaterials.
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连续体中拓扑软模的分类
在软机械晶格中,稳健的边缘态和体韦尔模式是底层拓扑不变性的体现。为了探索这些现象的普遍性,使其与微观细节无关,我们提出了连续体拓扑力学。通过用软模的附加场来增强标准线弹性,我们定义了麦克斯韦计数的连续体版本,它平衡了自由度和力学约束。通过一个附加场,这些增强弹性理论可以打破空间反转对称性,并蕴藏拓扑边缘态。我们还证明了在二维中容纳韦尔点需要两个额外的场,并定义了连续不变式来对这些状态进行分类。除了基于对称性构建拓扑弹性的一般形式之外,我们还根据微观晶格的系统同质化推导出了系数。通过求解得到的偏微分方程,我们可以有效地预测拓扑软模引起的粗粒度变形,而无需进行基于晶格的详细模拟。我们的发现为物质的拓扑状态提出了新的设计原则和高效的计算工具,并指出了在机械超材料中的实验实现。
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