A preliminary experience in the use of Chang’E-1 IIM data

The Interference Imaging Spectrometer (IIM) onboard the first lunar satellite of China, Chang’E-1, has acquired 84% of the area between south and north latitude 70°. To contribute to its usability, this paper presents our preliminary experience in the use of IIM data. Firstly, we provide one practic...

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Bibliographic Details
Published inPlanetary and space science Vol. 58; no. 14; pp. 1922 - 1931
Main Authors Wu, Yunzhao, Zheng, Yongchun, Zou, Yongliao, Chen, Jun, Xu, XiSheng, Tang, Zesheng, Xu, Aoao, Yan, Bokun, Gan, Fuping, Zhang, Xia
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2010
Subjects
Absorption band center
Absorption spectra
Calibration
Chang’E-1
Correlation
Craters
Derivatives
IIM
Imaging spectrometers
Inhomogeneity
Lunar spacecraft
Minerals
Moon
Onboard
China, People's Rep
Calibration
IIM
Moon
Chang’E-1
Absorption band center
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Summary:The Interference Imaging Spectrometer (IIM) onboard the first lunar satellite of China, Chang’E-1, has acquired 84% of the area between south and north latitude 70°. To contribute to its usability, this paper presents our preliminary experience in the use of IIM data. Firstly, we provide one practicable method for the on-orbit correction of the inhomogeneity of sensor response. Secondly, aiming at the problem that the spectral range of IIM does not cover the absorption peak of the mafic mineral completely, we explore a method to approximate the absorption band center for IIM data. A strong correlation between the absorption band center and the wavelength at which the first derivative equals to 0 (i.e., stagnation point) was revealed. Based on the corrected data and the correlation, the absorption band center of several large craters was mapped. The distribution of rocks and minerals shown in the map of absorption band center for Aristarchus and Copernicus is in agreement with previous studies but with much finer structure. Horizontal and vertical lithologic diversity was detected in Zucchius crater. This paper demonstrates the potential of IIM data for the identification of lunar rocks due to its high spatial and spectral resolution. In a future study we will produce a global map of the absorption band center with greater accuracy and it is expected that this global map will provide complementary information for other hyperspectral data such as SP on KAGUYA or M 3 on Chandrayaan-1.
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ISSN:0032-0633
1873-5088
DOI:10.1016/j.pss.2010.09.007