日本地球惑星科学連合2022年大会

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[J] ポスター発表

セッション記号 M (領域外・複数領域) » M-SD 宇宙開発・地球観測

[M-SD42] 将来の衛星地球観測

2022年6月1日(水) 11:00 〜 13:00 オンラインポスターZoom会場 (36) (Ch.36)

コンビーナ:本多 嘉明(千葉大学環境リモートセンシング研究センター)、コンビーナ:高薮 縁(東京大学 大気海洋研究所)、コンビーナ:Sobue Shinichi(Japan Aerospace Exploration Agency)、コンビーナ:小原 慧一(宇宙航空研究開発機構)、座長:高橋 暢宏(名古屋大学 宇宙地球環境研究所)

11:00 〜 13:00

[MSD42-P01] High resolution multi-angular polarimeter for the cloud and aerosol monitoring and the comprehension of physical processes

*Souichiro Hioki1Makiko Nakata2Itaru Sano2、Sonoyo Mukai3 (1.Université de Lille、2.Kindai University、3.The Kyoto College of Graduate Studies for Informatics)

キーワード:Polarimetry, Remote Sensing, Atmosphere, Cloud, Aerosol

In next 20 years, the impacts of the climate change are expected to be clearly perceivable in many aspects of geophysical observations while the human activities experience an unprecedented transformation. Developed nations will continue on the path of decarbonization whereas emerging economies in Asia and Africa will industrialize and urbanize. Such remarkable changes of human activities consequently bring a change in the emission pattern of anthropogenic greenhouse gases and aerosol particles which will have a profound impact on the public health, urban pollution, and future projection of climate. There is, therefore, a pressed need for the global assessment of the changing climatic and pollution baselines due to the fast-changing socioeconomic landscape in next 20 years.

With this context, we propose an wide-swath high-resolution multi-viewing polarimeter with following overarching objectives: (1) the quantification of aerosol particles that changes year after year in response to the climate change and socioeconomic factors, (2) the estimation of cloud-top altitude and aerosol plume height, and (3) the investigation of cloud microphysical process, including the cloud-aerosol interaction. The proposed sensor profit from the heritage of successful GCOM-C/SGLI sensor, with significant improvements in spatial resolution and accuracy of polarimetric measurements. The new continuous multi-viewing capability and high spatial resolution enable us to quantify the aerosols over populated cities and steep mountains, as well as to measure the altitude of cloud and aerosol plumes. The wide field-of-view inherited from SGLI makes the frequent global coverage possible and leads to the responsive analysis of massive aerosol emitting events such as forest fire and volcanic eruptions. In addition, the combination of multi-viewing capability and high spatial resolution results in frequent observation of cloud sides. Such a measurement provides a new dataset of 3-D distribution of cloud microphysical properties that leads to improve the existing theory of cloud microphysics.