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基于COMSOL的纳米傅里叶红外光谱系统数值模型
引用本文:陈楠,王玥,王博雨,夏洋,刘涛. 基于COMSOL的纳米傅里叶红外光谱系统数值模型[J]. 光谱学与光谱分析, 2021, 41(4): 1125-1130. DOI: 10.3964/j.issn.1000-0593(2021)04-1125-06
作者姓名:陈楠  王玥  王博雨  夏洋  刘涛
作者单位:中国科学院微电子研究所,北京 100029;中国科学院大学,北京 100049;中国科学院微电子研究所,北京 100029;北京市微电子制备仪器设备工程技术研究中心,北京 100029;中国科学院微电子研究所,北京 100029;北京交通大学理学院,北京 100044;中国科学院微电子研究所,北京 100029;中国科学院大学,北京 100049;北京市微电子制备仪器设备工程技术研究中心,北京 100029
基金项目:国家自然科学基金国家重大科研仪器研制专项(61427901);中国科学院科研装备研制项目(YJKYYQ20180033)资助。
摘    要:傅里叶红外光谱(FTIR)是材料表征的一种重要手段,然而受限于光的衍射极限,传统傅里叶红外光谱仪的极限空间分辨率在微米量级,无法应用于纳米材料的表征.纳米傅里叶红外光谱(Nano-FTIR)是一种新兴的超分辨光谱表面分析技术,其以纳米级空间分辨率、宽光谱范围和高化学灵敏性的特点在纳米材料表征研究中展现了巨大的潜力.定性...

关 键 词:纳米傅里叶红外光谱  散射式扫描探针显微镜  COMSOL  有限元仿真  数值模型
收稿时间:2020-03-23

Research on Numerical Model of Nano-FTIR System Based on COMSOL
CHEN Nan,WANG Yue,WANG Bo-yu,XIA Yang,LIU Tao. Research on Numerical Model of Nano-FTIR System Based on COMSOL[J]. Spectroscopy and Spectral Analysis, 2021, 41(4): 1125-1130. DOI: 10.3964/j.issn.1000-0593(2021)04-1125-06
Authors:CHEN Nan  WANG Yue  WANG Bo-yu  XIA Yang  LIU Tao
Affiliation:1. Institute of Microelectronics of the Chinese Academy of Sciences, Beijing 100029, China2. University of Chinese Academy of Sciences, Beijing 100049, China3. College of Science, Beijing Jiaotong University, Beijing 100044, China4. Beijing Research Center of Engineering and Technology of Instrument and Equipment for Microelectronics Fabrication, Beijing 100029, China
Abstract:Fourier infrared spectroscopy(FTIR)technology is an important method for material characterization.However,it is limited by the diffraction limit.The spatial resolution limit of traditional Fourier infrared spectrometer is on the order of micrometers and cannot be applied to the characterization of nanomaterials.Nano Fourier transforms infrared spectroscopy(Nano-FTIR)is an emerging super-resolution spectroscopic surface analysis technology,which exhibits tremendous performance in nanomaterial characterization research with the characteristics of nano-scale spatial resolution,wide spectral range and high chemical sensitivity.Qualitative and quantitative research on the source of the high spatial resolution of Nano-FTIR signals and the extraction process of spectral signals in the system can provide the important basis for the design and development of Nano-FTIR instruments and the interpretation of sample spectral characterization results.Based on the typical instrument structure and basic working principles,an equivalent research model is established in the multi-physics finite element analysis software COMSOL,and the important details of the model and the numerical calculation process are explained separately.In the simulation study,the model first calculated the electromagnetic field enhancement in the model space based on Maxwell’s electromagnetic wave theory,and then simulated the“line sweep”process of the probe at the interface between two materials with large differences in dielectric constants,discussed the near-field enhancement of the tip-sample and the spatial resolution of the signal.Subsequently,a numerical model was proposed with the scattered power of the probe and sample as the research object,and the process of the modulation and demodulation extraction of the signal by the probe tapping,different incident angle of light and demodulation frequencies were also discussed.Finally,in order to verify the rationality of the model,the spectral responses of SiO 2 thin film samples of three thicknesses of 20,100 and 300 nm in the wavenumber range of 900~1250 cm-1were simulated,and the simulated spectra were compared with the measured results.The results show that as the thickness of the sample increases,the spectral signal is correspondingly enhanced and predicted spectra in agreement with the experimental spectra.Spectra predicted by our model are more consistent in peak shape compare with spectra simulated by the tip-sample electric field strength used to some previous studies.The proposed numerical model can be used for the prediction of Nano-FTIR spectra,in addition,the model also has certain generality,and can be used for Tip-enhanced Raman spectra and Terahertz spectra based on scattering near-field optical microscopy(s-SNOM)technology.
Keywords:Nano-FTIR  s-SNOM  COMSOL  Finite element simulation  Numerical model
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