Detection of viral and bacterial diseases using 2D photonic crystal-based elliptical ring resonator sensor

IF 1.1 4区物理与天体物理 Q4 NANOSCIENCE & NANOTECHNOLOGY

Journal of Nanophotonics Pub Date : 2023-04-01 DOI:10.1117/1.JNP.17.026004

Archana Sahoo, A. Varshney

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Abstract

Abstract. Our proposed work analyzes and models the photonic crystal (PhC)-based elliptical ring resonator for detecting viral and bacterial infections. Optical sensors show extreme results as sensing devices. So, they are broadly accepted in the medical field for the rapid and effective diagnosis of diseases. Optical biosensors are designed to detect cancer, malaria, typhoid, tuberculosis, etc. The principle behind the working of optical biosensors is a shift in the peak resonance wavelength corresponding to the small changes in the refractive index values. Due to the rapid mutation and replication of viral pathogens in the human cell nucleus, there is high demand for sensors that provide accurate results for viral and bacterial diseases in seconds. Hence, optical biosensors can give results in a short amount of time with a high sensitivity. The proposed sensor achieved a high sensitivity of 881.25 nm / RIU for tuberculosis and 555.55 nm / RIU for hepatitis B. The quality factor and figure of merit is also calculated, and their values come out to be 624.37 and 346.38, respectively, in the case of typhoid and Bacillus cereus. The platform used for simulating the analytes is the finite-difference time-domain.

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基于二维光子晶体的椭圆环谐振器传感器检测病毒和细菌疾病

摘要我们提出的工作分析和建模基于光子晶体（PhC）的椭圆环谐振器，用于检测病毒和细菌感染。光学传感器作为传感设备显示出极端的结果。因此，它们在医学领域被广泛接受，能够快速有效地诊断疾病。光学生物传感器被设计用于检测癌症、疟疾、伤寒、结核病等。光学生物传感器工作的原理是峰值共振波长的变化与折射率值的微小变化相对应。由于病毒病原体在人类细胞核中的快速突变和复制，对能够在几秒钟内为病毒和细菌疾病提供准确结果的传感器的需求很高。因此，光学生物传感器可以在短时间内以高灵敏度给出结果。所提出的传感器实现了881.25的高灵敏度纳米 / 结核病RIU和555.55 纳米 / 还计算了乙型肝炎的RIU。伤寒和蜡样芽孢杆菌的质量因子和优值分别为624.37和346.38。用于模拟分析物的平台是时域有限差分。

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来源期刊

Journal of Nanophotonics 工程技术-光学

CiteScore

2.60

自引率

6.70%

发文量

审稿时长

3 months

期刊介绍： The Journal of Nanophotonics publishes peer-reviewed papers focusing on the fabrication and application of nanostructures that facilitate the generation, propagation, manipulation, and detection of light from the infrared to the ultraviolet regimes.