Theoretical study of a phononic structure for bio-sensing applications

J. Bonhomme, M. Oudich, P. A. S. Chavez, L. Olive, D. Beyssen, P. Charette, F. Sarry
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Abstract

In this work, we investigate the evolution of the properties of a pillar phononic crystal in order to simplify the fabrication process by reducing the thickness of the layer. The structure is constructed by stacking alternate layers of SiO2 and Tungsten. The reduction of the dimensions moves the band gap to the upper frequencies and it is possible to adjust its aperture with the ratio comparing the radius of the cylinder with the layers’ thickness. On a substrate, the pillars give resonant modes that can be excited by shear surface waves and gives a sharp peak in the transmission spectrum of the surface wave with a very high quality factor. We also study the theoretical mass sensitivity of the device and we propose a numerical method to determine the theoretical maximum sensitivity that could be obtain by the pillars system. This pillar based metasurface presents a very promising mass sensitivity and a possible way to increase the performance of SAW bio-sensors.
生物传感应用声子结构的理论研究
在这项工作中,我们研究了柱状声子晶体性质的演变,以便通过减少层的厚度来简化制造过程。该结构是通过堆叠SiO2和钨的交替层来构建的。尺寸的减小使带隙移动到较高的频率,并且可以通过比较圆柱体半径与层厚度的比率来调节其孔径。在衬底上,柱产生共振模式,这种模式可以被剪切表面波激发,并在表面波的透射谱中产生一个具有非常高质量因子的尖峰。我们还研究了该装置的理论质量灵敏度,并提出了一种数值方法来确定柱系可以获得的理论最大灵敏度。这种基于柱的超表面呈现出非常有前景的质量灵敏度,是提高SAW生物传感器性能的可能途径。
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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