受贝壳启发的偏振敏感声调元传感器

arXiv - PHYS - Classical Physics Pub Date : 2024-04-11 DOI:arxiv-2404.07529

Y. Liu, V. F. Dal Poggetto, A. S. Gliozzi, N. M. Pugno, F. Bosia, M. Tortello

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引用次数: 0

摘要

生物灵感已被广泛证明是设计创新结构和装置的有力方法。最近，这一概念已扩展到弹性、动力学和超材料领域。在本文中，我们提出了一种受贝壳启发的超传感器，它可以同时执行空间频率映射并充当偏振器。该结构源于一种通用参数设计，它包含多种具有不同圆形截面和曲率半径的螺旋几何结构，所有这些都会导致同位行为。通过优化过程，我们得到了一种平面几何形状，它使我们能够同时实现正交极化模式的同调，从而有可能控制极化以及沿螺旋轴的频率最大值的空间分布。我们展示了该装置的多功能性，并讨论了其在声学和传感领域的可能应用。

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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Seashell-inspired polarization-sensitive tonotopic metasensor

Bioinspiration has widely been demonstrated to be a powerful approach for the design of innovative structures and devices. Recently, this concept has been extended to the field of elasticity, dynamics, and metamaterials. In this paper, we propose a seashell-inspired metasensor that can simultaneously perform spatial frequency mapping and act as a polarizer. The structure emerges from a universal parametric design that encompasses diverse spiral geometries with varying circular cross sections and curvature radii, all leading to tonotopic behavior. Adoption of an optimization process leads to a planar geometry that enables us to simultaneously achieve tonotopy for orthogonally polarized modes, leading to the possibility to control polarization as well as the spatial distribution of frequency maxima along the spiral axis. We demonstrate the versatility of the device and discuss the possible applications in the field of acoustics and sensing.

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arXiv - PHYS - Classical Physics

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