微波臭氧分析仪器中三种高分辨率实时光谱仪的比较

2020 16th Specialist Meeting on Microwave Radiometry and Remote Sensing for the Environment (MicroRad) Pub Date : 2020-11-16 DOI:10.1109/MicroRad49612.2020.9342608

Eric Sauvageat, M. Kotiranta, K. Hocke, R. Gomez, G. Nedoluha, A. Murk

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引用次数: 4

摘要

我们提出了一个数字实时光谱仪的比较，用于地基辐射测量分析痕量气体在大气中。2019年1月至6月，我们利用连接在同一前端的三台不同光谱仪对110.836 GHz的大气臭氧过渡线进行了平行观测。它可以比较和描述一段较长时间内的臭氧光谱，并涵盖广泛的气象条件。我们表明，与其他最先进的光谱仪相比，来自Acqiris AC240的光谱有系统的偏差。它有一个不同的光谱斜率和负偏置在线中心的8%左右。偏倚随大气不透明度的变化而变化，其来源多种多样。使用一些简单的校正，我们表明来自AC240的偏差可以在数据处理期间进行校正，这对于从该后端导出的大量时间序列非常感兴趣。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Comparison of three high resolution real-time spectrometers for microwave ozone profiling instruments

We present a comparison of digital real-time spectrometers used in ground-based radiometry for the profiling of trace gases in the middle-atmosphere. From January to June 2019, we performed parallel observations of the atmospheric ozone transition line at 110.836 GHz with three different spectrometers connected to the same front-end. It allows to compare and characterize the ozone spectra over an extended period of time and covering a wide range of meteorological conditions. We show that the spectra derived from the Acqiris AC240 is systematically biased compared to other state-of-the-art spectrometers. It has a different spectral slope and a negative bias at the line center on the order of 8 percent. The bias evolves with the atmospheric opacity and originates from various sources. Using some simple corrections, we show that the bias from the AC240 can be corrected during data processing which is of high interest for the numerous time series derived from this back-end.

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2020 16th Specialist Meeting on Microwave Radiometry and Remote Sensing for the Environment (MicroRad)

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