Optical Path Length Calibration: A Standard Approach for Use in Absorption Cell-Based IR-Spectrometric Gas Analysis

J. Nwaboh, O. Witzel, A. Pogány, O. Werhahn, V. Ebert
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引用次数: 13

Abstract

We employed a comparison method to determine the optical path length of gas cells which can be used in spectroscopic setup based on laser absorption spectroscopy or FTIR. The method is based on absorption spectroscopy itself. A reference gas cell, whose length is ap rioriknown and desirably traceable to the international system of units (SI), and a gas mixture are used to calibrate the path length of a cell under test. By comparing spectra derived from pressure-dependent measurements on the two cells, the path length of the gas cell under test is determined. The method relies neither on the knowledge of the gas concentration nor on the line strength parameter of the probed transition which is very rarely traceable to the SI and of which the uncertainty is often relatively large. The method is flexible such that any infrared light source and infrared active molecule with isolated lines can be used. We elaborate on the method, substantiate the method by reporting results of this calibration procedure applied to multipass and single pass gas cells of lengths from 0.38 m to 21 m, and compare this to other methods. The relative combined uncertainty of the path length results determined using the comparison method was found to be in the ±0.4% range.
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光程长度校准:一种用于基于吸收池的红外光谱气体分析的标准方法
我们采用比较的方法来确定气体电池的光程长度,该方法可用于基于激光吸收光谱或FTIR的光谱设置。该方法是基于吸收光谱本身。参考气体池,其长度是已知的,并期望可溯源到国际单位制(SI),气体混合物被用来校准被测电池的路径长度。通过比较从两个电池上的压力相关测量得到的光谱,确定了待测气体电池的路径长度。该方法既不依赖于气体浓度的知识,也不依赖于探测跃迁的线强度参数,这些参数很少可追溯到SI,并且其不确定性通常相对较大。该方法具有灵活性,可以使用任何红外光源和具有隔离线的红外活性分子。我们详细阐述了该方法,通过报告该校准程序应用于长度为0.38 m至21 m的多通和单通气池的结果来证实该方法,并将其与其他方法进行比较。对比法测定的路径长度结果的相对组合不确定度在±0.4%范围内。
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