Acoustic Bound States in the Continuum and Exceptional Points in Coupled Helmholtz Resonators

arXiv - PHYS - Classical Physics Pub Date : 2024-05-12 DOI:arxiv-2405.07383

Mariia Krasikova, Felix Kronowetter, Mikhail Kuzmin, Sergey Krasikov, Marcus Maeder, Tao Yang, Anton Melnikov, Steffen Marburg, Andrey Bogdanov

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Abstract

Resonant states underlie a variety of metastructures that exhibit remarkable capabilities for effective control of acoustic waves at subwavelength scales. The development of metamaterials relies on the rigorous mode engineering providing the implementation of the desired properties. At the same time, the application of metamaterials is still limited as their building blocks are frequently characterized by complicated geometry and can't be tuned easily. In this work, we consider a simple system of coupled Helmholtz resonators and study their properties associated with the tuning of coupling strength and symmetry breaking. We numerically and experimentally demonstrate the excitation of quasi-bound state in the continuum in the resonators placed in a free space and in a rectangular cavity. It is also shown that tuning the intrinsic losses via introducing porous inserts can lead to spectral splitting or merging of quasi-bound states in the continuum and occurrence of exceptional points. The obtained results will open new opportunities for the development of simple and easy-tunable metastructures based on Helmholtz resonances.

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耦合亥姆霍兹谐振器中的连续和异常点的声学边界态

共振态是各种超材料结构的基础，它们在亚波长尺度有效控制声波方面表现出非凡的能力。与此同时，超材料的应用仍然受到限制，因为其构件通常具有复杂的几何形状，而且不容易调谐。在这项工作中，我们考虑了一个简单的亥姆霍兹耦合谐振器系统，并研究了它们与耦合强度和对称性破坏的调整相关的特性。我们通过数值和实验证明了放置在自由空间和矩形腔中的谐振器在连续体中激发的准束缚态。实验还表明，通过引入多孔插入物来调整固有损耗，可导致连续体中准束缚态的光谱分裂或合并，并出现异常点。获得的结果将为开发基于亥姆霍兹共振的简单易调的转移结构带来新的机遇。

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arXiv - PHYS - Classical Physics

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