Surface quality control of thin SiN layer by optical measurements

IF 0.5 Q4 OPTICS Photonics Letters of Poland Pub Date : 2021-09-30 DOI:10.4302/PLP.V13I3.1096

Jakub Gierowski, Sandra Pawłowska

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Abstract

Fiber optic interferometers have a wide range of applications including biological and chemical measurements. Nevertheless, in case of a reflective interferometer setup, standard silver mirrors cannot be used in every measurement, due to their chemical activity. In this work, we investigate the surface quality of a thin optical layer of silicon nitride (SiN) which can serve as an alternative material for silver mirrors. We present measurements carried out with a Fabry-Perot fiber optic interferometer working in a reflective mode. Measurement results allow us to determine the surface quality of the investigated layer. Full Text: PDF ReferencesK. Karpienko, M.S. Wróbel, M. Jedrzejewska-Szczerska, "Determination of refractive index dispersion using fiber-optic low-coherence Fabry-Perot interferometer: implementation and validation", Opt Express, 53, 077103 (2014). CrossRef Jedrzejewska-Szczerska M., Gnyba M., Kosmowski B. B. "Low-coherence fibre-optic interferometric sensors", Acta Phys. Pol. A 120, 621 (2011). CrossRef M. Jedrzejewska-Szczerska "Response of a new low-coherence Fabry-Perot sensor to hematocrit levels in human blood",Sensors 14(4), 6965 (2014). CrossRef M. Kosowska, D. Majchrowicz, K.J. Sankaran, M. Ficek, K. Haenen, M. Szczerska, "Doped Nanocrystalline Diamond Films as Reflective Layers for Fiber-Optic Sensors of Refractive Index of Liquids", Materials 12, 2124 (2019). CrossRef Shou-YiChang, Yi-Chung Huang, "Analyses of interface adhesion between porous SiO2 low-k film and SiC/SiN layers by nanoindentation and nanoscratch tests", Microelectron. Eng. 84(2), 319 (2007). CrossRef X. Wang, C. Wang, X. Shen, F. Sun, "Potential Material for Fabricating Optical Mirrors: Polished Diamond Coated Silicon Carbide". Appl. Opt. 56, 4113 (2017). CrossRef G. Coppola, P. Ferraro, M. Iodice, S. De Nicola, "Method for measuring the refractive index and the thickness of transparent plates with a lateral-shear, wavelength-scanning interferometer", Appl. Opt. 42, 3882 (2003). CrossRef H. Mäckel, R. Lüdemann, "Detailed study of the composition of hydrogenated SiNx layers for high-quality silicon surface passivation", J. Appl, Phys. 92, 2602 (2002). CrossRef N. Atman, M. Krzywinski, "Visualizing samples with box plots", Nat. Methods, 11(2), 119 (2014). CrossRef M. Vignesh, R. Balaji, "Data analysis using Box and Whisker Plot for Lung Cancer", International Conference on Innovations in Power and Advanced Computing Technologies,(2017). CrossRef

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用光学测量方法控制薄氮化硅层的表面质量

光纤干涉仪具有广泛的应用，包括生物和化学测量。然而，在反射干涉仪设置的情况下，由于其化学活性，标准银镜不能用于每次测量。在这项工作中，我们研究了氮化硅(SiN)薄光学层的表面质量，它可以作为银镜的替代材料。我们介绍了在反射模式下工作的法布里-珀罗光纤干涉仪进行的测量。测量结果使我们能够确定所研究层的表面质量。全文:PDF ReferencesKKarpienko, M.S. Wróbel, M. Jedrzejewska-Szczerska，“光纤低相干法布里-珀罗干涉仪的折射率色散测定:实现与验证”，光学精密工程，53,077103(2014)。[8]刘建军，刘建军，刘建军，等。“低相干光纤干涉传感器”，物理学报。波尔。[j] .中国科学院学报，2011。[10]王晓峰，王晓峰，王晓峰，等。一种新型低相干法布里-珀罗传感器对人体血液红细胞比容的响应研究[j] .中国生物医学工程学报，2014,33(4):663 - 667。CrossRef M. Kosowska, D. Majchrowicz, K. j . Sankaran, M. Ficek, K. Haenen, M. Szczerska，“液体折射率光纤传感器中掺杂纳米晶金刚石薄膜的反射层”，材料12,21(2019)。黄义忠，“基于纳米压痕和纳米划痕测试的多孔SiO2低k膜与SiC/SiN层界面黏附分析”，《微电子》。工程物理学报，2004,26(2)，319(2007)。引用本文:王晓霞，王春霞，沈晓霞，孙峰，“制备光学镜面的潜在材料:抛光金刚石涂层碳化硅”。达成。选择56,4113(2017)。CrossRef G. Coppola, P. Ferraro, M. Iodice, S. De Nicola，“用横向剪切波长扫描干涉仪测量透明板折射率和厚度的方法”，applied。选择42,3882(2003)。CrossRef H. Mäckel, R. l demann，“高质量硅表面钝化的氢化SiNx层组成的详细研究”，J. applied, Phys. 92, 2602(2002)。CrossRef N. Atman, M. Krzywinski，“基于箱形图的样本可视化”，数学学报，11(2)，119(2014)。CrossRef M. Vignesh, R. Balaji，“基于Box and Whisker Plot的肺癌数据分析”，计算机科学与技术，(2017)。CrossRef

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Photonics Letters of Poland OPTICS-

CiteScore

1.40

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0.00%

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