Research Progress on On-Orbit Calibration Technology for Far Ultraviolet Payload
Alternative TitleWOS:000510806200004;远紫外光学遥感载荷在轨定标技术研究进展
Fu Li-ping; Jia Nan; Hu Xiu-qing; Mao Tian; Jiang Fang; Wang Yun-gang; Peng Ru-yi; Wang Tian-fang; Wang Da-xin; Dou Shuang-tuan
KeywordFar ultraviolet Remote sensing Space weather On-orbit calibration-IMAGE SPACECRAFT IONOSPHERE GUVI
AbstractFar Ultraviolet wavelengths (FUV 115 to 200 nm) optical remote sensing detection on satellite is one of the most promising technologies on space weather. This technology can be effectively used to obtain some important space environment parameters, such as O, N-2, O-2 column density and profile distribution, total electron content (TEC) of ionosphere and electron density profile. It also yields valuable information on content of plasma, temperature profile of the atmosphere, solar EUV flux and energy particle. In the processes of obtaining these physical parameters quantitatively there is one key step-the radiation calibration, including pre-launch laboratory calibration and on-orbit calibration: the former gives original calibration coefficient of the load before launch; the latter checks the change of the calibration coefficient of the instrument's on-orbit performance after a set period. In the West, FUV technology application to upper atmosphere, ionosphere, magnetosphere and solar activity started in the 1970s, and has been applied to the long-term Space Weather Program Strategic Plan by U.S. federal government. In China, this technology was carried out at the beginning of the 2181 century, and the in-flight calibration is still a research gap now. This paper introduces on-orbit calibration technologies for some representative far ultraviolet payload based on the external standard radiation source, internal radiation standard source and vicarious calibration, and then analyses the data processing method and the results on three kinds of FUV remote sensing: Imager, Spectrometer Imager and Photometer. The results suggest that the best on-orbit calibration method for imager or spectrometer imager is using UV stellar as an external radiation standard; the instrument can catch the known radiation from the stellar; using the radiation from the stellar and the spectral responsibility from the lab, the sensitivity of the instrument will be known as in-flight. The internal standard radiation source, like deuterium lamp, is not a good choice for in-flight calibration becauseradiation itself from lamp attenuates. On single-point detection instrument, like a photometer with limited visual field, the vicarious calibration is a good way to realize on-orbit calibration. During the process of calibration, data selecting and spatio-temporal matching should be cautiously conducted in order to enhance the calibration accuracy.
Indexed BySCI ; CSCD
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Document Type期刊论文
Affiliation1.[Fu Li-ping
2.Jia Nan
3.Jiang Fang
4.Peng Ru-yi
5.Chinese Acad Sci, Natl Space Sci Ctr, Beijing 100190, Peoples R China
6.[Fu Li-ping
7.Jia Nan
8.Jiang Fang
9.Peng Ru-yi
10.Beijing Key Lab Space Environm Explorat, Beijing 100190, Peoples R China
11.[Jia Nan
12.Wang Tian-fang
13.Wang Da-xin
14.Univ Chinese Acad Sci, Beijing 100049, Peoples R China
15.[Hu Xiu-qing
16.Mao Tian
17.China Meteorol Adm, Natl Satellite Meteorol Ctr, Beijing 100081, Peoples R China
Recommended Citation
GB/T 7714
Fu Li-ping,Jia Nan,Hu Xiu-qing,et al. Research Progress on On-Orbit Calibration Technology for Far Ultraviolet Payload[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS,2019,39(12):3673-3680.
APA Fu Li-ping.,Jia Nan.,Hu Xiu-qing.,Mao Tian.,Jiang Fang.,...&Dou Shuang-tuan.(2019).Research Progress on On-Orbit Calibration Technology for Far Ultraviolet Payload.SPECTROSCOPY AND SPECTRAL ANALYSIS,39(12),3673-3680.
MLA Fu Li-ping,et al."Research Progress on On-Orbit Calibration Technology for Far Ultraviolet Payload".SPECTROSCOPY AND SPECTRAL ANALYSIS 39.12(2019):3673-3680.
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