Design of a new two-dimensional optical biosensor using photonic crystal waveguides and a nanocavity

H. Mohsenirad, S. Olyaee, M. Seifouri
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引用次数: 13

Abstract

Abstract In this paper, a two-dimensional photonic crystal biosensor for medical applications based on two waveguides and a nanocavity is presented. The waveguides and nanocavity are created by introducing line and point defects into a photonic crystal, respectively. It could be shown that by injecting an analyte into a sensing hole, and thus changing its refractive index, may shift the resonant wavelength. The proposed structure is designed for the wavelength range of 1.5259–1.6934 μm. Sensitivity, the most important biosensor parameter, was studied and found to be approximately equal to 83.75 nm/refractive index units (RIU). An important specification of this structure is its very small dimensions. Two-dimensional finite-difference time domain and plane-wave expansion methods were used for both to simulate the proposed structure and to obtain the band diagrams.
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利用光子晶体波导和纳米腔的新型二维光学生物传感器的设计
摘要本文提出了一种基于双波导和纳米腔的二维医学光子晶体生物传感器。波导和纳米腔分别是通过在光子晶体中引入线缺陷和点缺陷而产生的。结果表明,通过将分析物注入传感孔中,从而改变其折射率,可以使谐振波长发生移位。该结构的波长范围为1.5259 ~ 1.6934 μm。灵敏度是生物传感器最重要的参数,其值约为83.75 nm/ RIU。这种结构的一个重要特点是它的尺寸非常小。采用二维时域有限差分法和平面波展开法对所提出的结构进行了模拟,并得到了带图。
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