评估透射和反射配置下的拉曼光谱降噪方法

Q3 Agricultural and Biological Sciences Current Applied Science and Technology Pub Date : 2024-03-20 DOI:10.55003/cast.2024.259042

W. Sassuvun, P. Buranasiri, S. Wicharn, C. Puttharugsa, P. Limnonthakul, S. Limwichean, S. Plaipichit

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引用次数: 0

摘要

这项工作包括使用两种不同的降噪方法，比较从两种不同的拉曼光谱配置中获得的拉曼信号。激发光源是波长为 532 纳米的激光二极管。利用长通滤波器和聚焦透镜阻挡来自激发光源的激发光，并集中拉曼信号，因为与激发光信号相比，拉曼信号的性质较弱。在使用长通滤波器进行绿色激光二极管照明时，波长为 532 nm 的光被阻挡。研究了两种配置：透射拉曼光谱（TRS）和反射拉曼光谱（RRS）。比较了两种配置的拉曼信号，并研究和比较了箱车平均法和温哥华拉曼算法（VRA）降噪方法。结果表明，透射构型的拉曼信号高于反射构型的拉曼信号，而箱车平均法和 VRA 法都能有效降低噪声信号。

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Evaluating Noise Reduction Methods for Raman Spectroscopy in Transmission and Reflection Configurations

This work involved comparing Raman signals obtained from two different Raman spectroscopy configurations, using two distinct noise reduction methods. The excitation light source was a laser diode with a wavelength of 532 nm. A long-pass filter and focusing lens were utilized to block the excited light from the source and concentrate the Raman signals due to their weaker nature compared to the excited light signals. Light of 532 nm wavelength was blocked during green laser diode illumination using a long-pass filter. Two configurations were studied: transmission Raman spectroscopy (TRS) and reflection Raman spectroscopy (RRS). Raman signals from both configurations were compared, and the boxcar averaging and Vancouver Raman algorithm (VRA) noise reduction methods were investigated and compared. The results showed that Raman signals from the transmission configuration were higher than those from the reflection configuration, and noise signals were effectively reduced using both the boxcar averaging and VRA methods.

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来源期刊

Current Applied Science and Technology Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)

CiteScore

1.50

自引率

0.00%

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