Fabian R. Lux, Tom Stoiber, Shaoyun Wang, Guoliang Huang, Emil Prodan
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引用次数: 0
Abstract
Frieze groups are discrete subgroups of the full group of isometries of a flat strip. We investigate here the dynamics of specific architected materials generated by acting with a frieze group on a collection of self-coupling seed resonators. We demonstrate that, under unrestricted reconfigurations of the internal structures of the seed resonators, the dynamical matrices of the materials generate the full self-adjoint sector of the stabilized group C*-algebra of the frieze group. As a consequence, in applications where the positions, orientations and internal structures of the seed resonators are adiabatically modified, the spectral bands of the dynamical matrices carry a complete set of topological invariants that are fully accounted by the K-theory of the mentioned algebra. By resolving the generators of the K-theory, we produce the model dynamical matrices that carry the elementary topological charges, which we implement with systems of plate resonators to showcase several applications in spectral engineering. The paper is written in an expository style.
楣群是平面条带等距全群的离散子群。我们在此研究了通过楣群作用于一系列自耦合种子谐振器而产生的特定结构材料的动力学。我们证明,在种子谐振器内部结构不受限制地重新配置的情况下,材料的动力学矩阵会产生楣群稳定群 C* 代数的全自结合扇形。因此,在对种子谐振器的位置、方向和内部结构进行绝热修改的应用中,动力学矩阵的谱带会携带一套完整的拓扑不变式,这些不变式完全由上述代数的 K 理论所解释。通过解析 K 理论的生成器,我们产生了携带基本拓扑电荷的模型动力矩阵,并通过板谐振器系统将其实现,从而展示了光谱工程中的若干应用。本文以说明文的形式撰写。
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