Abstract
Until 29 May 2020, the Visible and Near-Infrared Imaging Spectrometer (VNIS) onboard the Yutu-2 Rover of the Chang’e-4 (CE-4) has acquired 96 high-resolution surface in-situ imaging spectra. These spectra were acquired under different illumination conditions, thus photometric normalization should be conducted to correct the introduced albedo differences before deriving the quantitative mineralogy for accurate geologic interpretations. In this study, a Lommel–Seeliger (LS) model and Hapke radiative transfer (Hapke) model were used and empirical phase functions of the LS model were derived. The values of these derived phase functions exhibit declining trends with the increase in phase angles and the opposition effect and phase reddening effect were observed. Then, we discovered from in-situ and laboratory measurements that the shadows caused by surface roughness have significant impacts on reflectance spectra and proper corrections were introduced. The validations of different phase functions showed that the maximum discrepancy at 1500 nm of spectra corrected by the LS model was less (~3.7%) than that by the Hapke model (~7.4%). This is the first time that empirical phase functions have been derived for a wavelength from 450 to 2395 nm using in-situ visible and near-infrared spectral datasets. Generally, photometrically normalized spectra exhibit smaller spectral slopes, lower FeO contents and larger optical maturity parameter (OMAT) than spectra without correction. In addition, the band centers of the 1 and 2 μm absorption features of spectra after photometric normalization exhibit a more concentrated distribution, indicating the compositional homogeneity of soils at the CE-4 landing site.
Highlights
On 3 January 2019, Chang’e-4 (CE-4) landed in the South Pole–Aitken (SPA) basin on the lunar farside and released the Yutu-2 rover
The rover is equipped with four payloads including Panoramic Cameras (PCAMs), a Visible and Near-Infrared Imaging Spectrometer (VNIS), Lunar Penetrating Radars (LPRs), and international-joint Advanced Small Analyzed for Neutrals (ASANs), to investigate the morphology, mineral composition, subsurface structure, and energetic neutral atoms (ENAs) of the CE-4 landing site and travel path [1]
We focus on the determination of the best models for photometric normalization of CE-4 VNIS datasets using data acquired over 18 lunar days
Summary
On 3 January 2019, Chang’e-4 (CE-4) landed in the South Pole–Aitken (SPA) basin on the lunar farside and released the Yutu-2 rover. Ninety-six hyperspectral measurements were performed (for 18 lunar days until 29 May 2020) over relatively uniform terrain and the rover is still active as of 23 September This valuable dataset provides critical observations for uncovering the mineralogy and rock lithologies on the Von Kármán crater floor in South Pole–Aitken (SPA) basin of the lunar farside [2,3,4,5,6]. Note that these in-situ spectral datasets were acquired with different illumination conditions (e.g., incident aRnegmloete(Si)e,nes.m20i2s0s,i1o2n, xaFnOgRlePE(eE)R, aRnEdVIpEWhase angle (g)). It is widely known that in addition to mineral3oogfy reflected light entering the spectrometer is influenced by illumination conditions, causing albedo dcioffrerreecntceedsrdeufleecttoanobcesebrevtawtieoenngtehoemLeStrainesd[H7]a. pTkheums, opdheoltso,mtheitsrisctundoyrmaiamlizsattoioonbtsahionutlhdebbeecsot-nfidtupchteadse tofunnocrtmioanlsizwe itthhestehespinectetrnatttooagsettanrodbaurdstilVluNmISinsaptieocntrcaolnddaittaiosnet(si a=n3d0◦b,eett=er0◦c,ogns=tr3a0i◦n) tbheefoprheodteormiveintrgic thperoqpuearntiteitsaotifvleunmairnseoraillsoagtytfhoerCacEc-u4rlaatnedgienoglosigtiec. interpretations
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