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一种用于多变量多孔弹性板散射的马蒂厄函数边界谱方法及其在超材料和声学中的应用

A Mathieu function boundary spectral method for scattering by multiple variable poro-elastic plates, with applications to metamaterials and acoustics.

作者信息

Colbrook Matthew J, Kisil Anastasia V

机构信息

Department of Applied Mathematics and Theoretical Physics, University of Cambridge, Wilberforce Road, Cambridge CB3 0WA, UK.

Department of Mathematics, The University of Manchester, Manchester, M13 9PL, UK.

出版信息

Proc Math Phys Eng Sci. 2020 Sep;476(2241):20200184. doi: 10.1098/rspa.2020.0184. Epub 2020 Sep 23.

DOI:10.1098/rspa.2020.0184
PMID:33071575
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7544365/
Abstract

Many problems in fluid mechanics and acoustics can be modelled by Helmholtz scattering off poro-elastic plates. We develop a boundary spectral method, based on collocation of local Mathieu function expansions, for Helmholtz scattering off multiple variable poro-elastic plates in two dimensions. Such boundary conditions, namely the varying physical parameters and coupled thin-plate equation, present a considerable challenge to current methods. The new method is fast, accurate and flexible, with the ability to compute expansions in thousands (and even tens of thousands) of Mathieu functions, thus making it a favourable method for the considered geometries. Comparisons are made with elastic boundary element methods, where the new method is found to be faster and more accurate. Our solution representation directly provides a sine series approximation of the far-field directivity and can be evaluated near or on the scatterers, meaning that the near field can be computed stably and efficiently. The new method also allows us to examine the effects of varying stiffness along a plate, which is poorly studied due to limitations of other available techniques. We show that a power-law decrease to zero in stiffness parameters gives rise to unexpected scattering and aeroacoustic effects similar to an acoustic black hole metamaterial.

摘要

流体力学和声学中的许多问题都可以通过亥姆霍兹波从多孔弹性板的散射来建模。我们基于局部马蒂厄函数展开的配置法,开发了一种边界谱方法,用于二维中多个可变多孔弹性板的亥姆霍兹散射。这种边界条件,即变化的物理参数和耦合薄板方程,给当前方法带来了相当大的挑战。新方法快速、准确且灵活,能够计算数千(甚至数万)个马蒂厄函数的展开式,因此使其成为处理所考虑几何形状的理想方法。我们将其与弹性边界元方法进行了比较,发现新方法更快且更准确。我们的解表示直接提供了远场方向性的正弦级数近似,并且可以在散射体附近或其上进行评估,这意味着近场可以稳定且高效地计算。新方法还使我们能够研究沿板的刚度变化的影响,由于其他现有技术的局限性,这方面的研究较少。我们表明,刚度参数呈幂律下降至零会产生意想不到的散射和气动声学效应,类似于声学黑洞超材料。

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