基于一维声子晶体的新型液体传感器

2022 International Conference of Advanced Technology in Electronic and Electrical Engineering (ICATEEE) Pub Date : 2022-11-26 DOI:10.1109/ICATEEE57445.2022.10093698

Zakaria Zoubiri, A. Kahlouche, M. Bouras

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引用次数: 0

摘要

声子带隙结构是弹性特性被空间调制的周期性复合材料。事实上，多层结构提供了一类新的传感器。当这些结构用作传感器时，它们对超声波的行为取决于液体参数的变化。这些变化可以通过测量带隙内的孤立传输峰来检测。在本文中，我们对由N双层钢/聚氯乙烯堆叠形成的1双声子晶体进行了理论研究。利用传递矩阵法(TMM)，计算出的透射峰谐振频率对液体的性质和特性表现出高度的敏感性。这表明类似的结构为液体传感器提供了一个新的平台。

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New liquid sensor based on one-dimensional phononic crystal

Phononic band gaps structures are periodic composite materials whose elastic properties are modulated spatially. Indeed, multilayer structures provide a new class of sensors. When these structures are used as sensors, their behavior to ultrasound waves depends on the variations of the liquid parameters. These changes can be detected by measuring an isolated transmission peak inside the band gap. Throughout this paper, we perform a theoretical study of a 1Dphononic crystal which formed by stacking of N bi-layers of Steel/PVC. Using transfer matrix method (TMM), the results clearly demonstrates that the calculated transmission peak resonant frequency appears highly sensitive to the nature and properties of the liquid. This shows that similar structures provide a novel platform for liquid sensors.

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2022 International Conference of Advanced Technology in Electronic and Electrical Engineering (ICATEEE)

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