从 Arktika-M 1 号上的 MSU-GS 数据检索云液态水路径

IF 0.9 4区地球科学 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Izvestiya Atmospheric and Oceanic Physics Pub Date : 2024-01-31 DOI:10.1134/s0001433823090062

A. A. Filei, Yu. A. Shamilova

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引用次数: 0

摘要

摘要本文介绍了一种从俄罗斯水文气象卫星 Arktika-M 1 上的日间 MSU-GS 测量数据中检索云水路径的方法。该技术基于波长为 0.55 和 4.0 μm 的电磁辐射与云粒子相互作用的物理原理。将 MSU-GS 辐射计得出的云水路径估计值与 AMSU/MHS 和 AHI 辐射计数据得出的类似估计值进行了比较。根据比较结果，所需的水滴云云水路径估计值在允许的测量误差范围内，不超过 50 克/平方米。同时，由于其设计特点，MSU-GS 辐射计无法以所需精度检索冰云的云水路径。与 AHI 辐射计数据相比，根据 MSU-GS 数据估算的冰云云水路径平均低估 110 克/平方米，均方根误差为 158 克/平方米。云水路径估计值被引入地理信息系统 Arktika-M，该系统以接近实时的方式提供 Arktika-M 1 数据及其专题处理结果。

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Retrieval of Cloud Liquid Water Path from MSU-GS Data Onboard Arktika-M 1

Abstract

This paper presents a method for cloud water path retrieval from daytime MSU-GS measurements onboard the Russian hydrometeorological satellite Arktika-M 1. The technique is based on the physical principles of the interaction of electromagnetic radiation with cloud particles at wavelengths of 0.55 and 4.0 μm. Cloud water path estimates obtained from the MSU-GS radiometer are compared with similar estimates from the AMSU/MHS and AHI radiometer data. Based on the results of the comparison, the required estimates of the cloud water path of drop clouds are within the permissible limits of the measurement error, not exceeding 50 g/m². At the same time, due to its design features, the MSU-GS radiometer does not allow retrieving the cloud water path of ice clouds with the required accuracy. On average, the cloud water path estimate of ice clouds according to the MSU-GS data is underestimated by 110 g/m², and the root-mean-square error is 158 g/m², when compared to the AHI radiometer data. The estimates of the cloud water path are introduced into the geographic information system Arktika-M, which provides access to the Arktika-M 1 data and the results of their thematic processing in a near real time mode.

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来源期刊

Izvestiya Atmospheric and Oceanic Physics 地学-海洋学

CiteScore

1.40

自引率

28.60%

发文量

审稿时长

6-12 weeks

期刊介绍： Izvestiya, Atmospheric and Oceanic Physics is a journal that publishes original scientific research and review articles on vital issues in the physics of the Earth’s atmosphere and hydrosphere and climate theory. The journal presents results of recent studies of physical processes in the atmosphere and ocean that control climate, weather, and their changes. These studies have possible practical applications. The journal also gives room to the discussion of results obtained in theoretical and experimental studies in various fields of oceanic and atmospheric physics, such as the dynamics of gas and water media, interaction of the atmosphere with the ocean and land surfaces, turbulence theory, heat balance and radiation processes, remote sensing and optics of both media, natural and man-induced climate changes, and the state of the atmosphere and ocean. The journal publishes papers on research techniques used in both media, current scientific information on domestic and foreign events in the physics of the atmosphere and ocean.