太赫兹区高灵敏PCF化学传感的比较分析

IF 0.5 Q4 OPTICS Photonics Letters of Poland Pub Date : 2020-12-17 DOI:10.4302/PLP.V12I4.999

Mohammad S. Islam, Anwar Sadath, Md. Rakibul Islam, M. Faisal

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引用次数: 0

摘要

目前，光子晶体光纤（PCF）被用于不同领域的传感目的。在这项工作中，我们提出了一种基于PCF的化学（苯和乙醇）传感器。使用基于有限元法（FEM）的软件COMSOL 5.3a来研究所提出的结构的数值特性。从数值分析中，我们获得了高灵敏度和低损耗的最佳芯直径210µm。我们提出的PCF适用于广泛的核心直径和太赫兹频谱。由于其简单的设计结构，该模型的制造非常简单。全文：PDF参考文献Md.F.H.Arif，Md.J.H.Biddut，“一种用于液体分析物传感应用的具有高灵敏度、高非线性、高双折射和低限制损耗的新型光子晶体光纤结构”，传感生物传感研究，12，8（2017）。CrossRef P.Kumar，Md.H.Bikash，K.Ahmed，S.Sen，“太赫兹传播中的新型六面体光子晶体光纤：设计与分析”，《光子学》6（1），32（2019）。CrossRef S.Asaduzzaman，K.Ahmed，T.Bhuiyan，T.Farah，“化学传感中的混合光子晶体光纤”，SpringerPlus 5，748（2016）。CrossRef Md.S.Islam，J.Sultana，J.Atai，D.Abbott，S.Rana，M.R.Islam，“宽带应用的超低损耗混合芯多孔光纤”，应用。选择56（4），1232（2017）。CrossRef S.Atakaramaians，S.Afshar，H.Ebendorff Heideprime，M.Nagel，B.M.Fischer，D.Abbott，T.M.Monro，“太赫兹多孔纤维：设计、制造和实验表征”，Opt。Expr。17（16），14053（2009）。CrossRef

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Comparative Analysis of Highly Sensitive PCF for Chemical Sensing in THz Regime

Nowadays photonic crystal fiber (PCF) is used for sensing purposes in different fields. In this work, we have proposed a PCF based chemical (Benzene and Ethanol) sensor. Finite Element Method (FEM) based software COMSOL 5.3a is used to investigate the numerical characteristics for the proposed structure. From the numerical analysis, we obtained high sensitivity with low losses for an optimum core diameter of 210 µm. Our proposed PCF works on a broad range of core diameters and THz frequency spectra. The fabrication of this model is very simple due to its simplistic design structure. Full Text: PDF ReferencesMd.F.H. Arif, Md.J.H. Biddut, "A new structure of photonic crystal fiber with high sensitivity, high nonlinearity, high birefringence and low confinement loss for liquid analyte sensing applications", Sensing Bio-Sensing Res. 12, 8 (2017). CrossRef P. Kumar, Md.H. Bikash, K. Ahmed, S. Sen, "A Novel Hexahedron Photonic Crystal Fiber in Terahertz Propagation: Design and Analysis", Photonics 6(1), 32 (2019). CrossRef S. Asaduzzaman, K. Ahmed, T. Bhuiyan, T. Farah, "Hybrid photonic crystal fiber in chemical sensing", SpringerPlus 5, 748 (2016). CrossRef Md.S. Islam, J. Sultana, J. Atai, D. Abbott, S. Rana, M.R. Islam, "Ultra low-loss hybrid core porous fiber for broadband applications", App. Opt. 56(4), 1232 (2017). CrossRef S. Atakaramians, S. Afshar, H. Ebendorff-Heidepriem, M. Nagel, B.M. Fischer, D. Abbott, T.M. Monro, "THz porous fibers: design, fabrication and experimental characterization", Opt. Expr. 17(16), 14053 (2009). CrossRef

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Photonics Letters of Poland OPTICS-

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1.40

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