High sensitivity of sensors based on two-dimensional photonic crystal

2011 Saudi International Electronics, Communications and Photonics Conference (SIECPC) Pub Date : 2011-04-24 DOI:10.1109/SIECPC.2011.5877004

F. Bougriou, T. Bouchemat, M. Bouchemat, N. Paraire

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引用次数: 9

Abstract

Photonic crystals (PCs) have achieved a lot of research significance due to their projected applications. Their use as sensors is enabled due to their well-defined physical properties such as reflectance/ transmittance, superior levels of sensitivity resulting in precise detection limits. In this paper, we propose an ultracompact RI (refractive index) sensor based on single line photonic crystal waveguide structure. The properties of the sensor are simulated using the finite-difference time-domain (FDTD) method. The transmission spectrums of the sensor with different ambient refractive indices are calculated. The calculation results show that a change in ambient RI is apparent; the sensitivity of the sensor is achieved. The radius of the air holes localized at each side of the line defect is optimized to realize high sensitivity, wide measurement range and improved transmission. Development of sensor designs that enhance sensitivity is especially important because it allows detection of lower concentrations of analytes. For instance, refractive index (RI) sensing techniques detect an analyte by a local refractive index shift.

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基于二维光子晶体的高灵敏度传感器

光子晶体具有广阔的应用前景，具有重要的研究意义。由于其明确定义的物理特性，如反射率/透射率，优越的灵敏度水平导致精确的检测极限，因此可以将其用作传感器。本文提出了一种基于单线光子晶体波导结构的超紧凑型折射率传感器。采用时域有限差分(FDTD)方法对传感器的性能进行了仿真。计算了不同环境折射率下传感器的透射光谱。计算结果表明，环境RI变化明显;实现了传感器的灵敏度。优化了定位在线路缺陷两侧的气孔半径，实现了高灵敏度、宽测量范围和提高透射率。提高灵敏度的传感器设计的发展尤其重要，因为它允许检测低浓度的分析物。例如，折射率(RI)传感技术通过局部折射率位移检测分析物。

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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2011 Saudi International Electronics, Communications and Photonics Conference (SIECPC)

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