Topological Transition in Spiral Elastic Valley Metamaterials

Shuaifeng Li, Jinkyu Yang
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引用次数: 7

Abstract

Elastic valley metamaterials offer an excellent platform to manipulate elastic waves and have potential applications in energy harvesting and elastography. Here we introduce a series of strategies to realize topological transition in spiral elastic valley metamaterials by parameter modulations. We show the evolution of Berry curvature and valley Chern number as a function of inherent parameters of spiral, which further results in a general scheme to achieve topological valley edge states. Our strategy leverages multiple degrees of freedom in spiral elastic valley metamaterials to provide enhanced opportunities for desired topological states.
螺旋弹性谷超材料的拓扑跃迁
弹性谷材料提供了一个很好的平台来操纵弹性波,在能量收集和弹性成像方面具有潜在的应用前景。本文介绍了一系列通过参数调制实现螺旋弹性谷超材料拓扑跃迁的策略。我们将Berry曲率和谷Chern数的演化作为螺旋固有参数的函数,从而得到了实现拓扑谷边状态的一般方案。我们的策略利用螺旋弹性谷超材料的多个自由度,为所需的拓扑状态提供增强的机会。
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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