DocumentCode
1268290
Title
The Capabilities and Applications of FY-3A/B SEM on Monitoring Space Weather Events
Author
Huang, Cong ; Li, Jia-Wei ; Yu, Tao ; Xue, Bing-Sen ; Wang, Chun-Qin ; Zhang, Xian-Guo ; Cao, Guang-Wei ; Liu, Dan-Dan ; Tang, Wei
Author_Institution
Div. of Space Weather, Nat. Satellite Meteorol. Center, Beijing, China
Volume
50
Issue
12
fYear
2012
Firstpage
4975
Lastpage
4985
Abstract
The space environment monitor (SEM), onboard the Chinese meteorological satellites FengYun-3A/B, has the abilities to measure proton flux in 3-300-MeV energy range and electron flux in 0.15-5.7-MeV energy range. SEM can also detect the heavy ion compositions, satellite surface potential, the radiation dose in sensors, and the single events. The space environment information derived from SEM can be utilized for satellite security designs, scientific studies, development of radiation belt models, and space weather monitoring and disaster warning. In this paper, the SEM´s instrument characteristics are introduced, and the postlaunch calibration algorithm is presented. The applications in monitoring space weather events and the service for manned spaceflights are also demonstrated.
Keywords
atmospheric electron precipitation; atmospheric measuring apparatus; atmospheric proton precipitation; atmospheric techniques; calibration; remote sensing; Chinese meteorological satellites; FY-3 SEM applications; FY-3 SEM capabilities; FY-3A SEM; FY-3B SEM; SEM instrument characteristics; Space Environment Monitor; electron flux measurement; electron volt energy 0.15 MeV to 300 MeV; heavy ion compositions; post launch calibration algorithm; proton flux measurement; satellite surface potential; sensor radiation dose; single event measurements; space environment information; space weather event monitoring; Detectors; Extraterrestrial measurements; Proton radiation effects; Radiation effects; Radiation monitoring; Satellites; Space technology; Electron radiation effects; heavy ions; proton radiation effects; radiation monitoring; space technology;
fLanguage
English
Journal_Title
Geoscience and Remote Sensing, IEEE Transactions on
Publisher
ieee
ISSN
0196-2892
Type
jour
DOI
10.1109/TGRS.2012.2207388
Filename
6275489
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