Subsurface Structures at the Chang'e-3 Landing Site: Interpretations from Orbital and In-Situ Imagery Data

被引：6

作者：

Le Qiao ^{[1
]}

Zhiyong Xiao ^{[1
]}

Jiannan Zhao ^{[1
]}

Long Xiao ^{[1
]}

机构：

[1] Planetary Science Institute, School of Earth Sciences, China University of Geosciences

来源：

Journal of Earth Science | 2016年 / 27卷 / 04期

基金：

中国国家自然科学基金;

关键词：

Chang’e-3; subsurface structure; impact cratering; Lunar Penetrating Radar; lunar exploration;

D O I：

暂无

中图分类号：

P184.5 [月球表面物理及观测方法]; V476.3 [月球探测器];

学科分类号：

070401 ; 082503 ;

摘要：

The Chang’e-3(CE-3) spacecraft successfully landed on one of the youngest mare surfaces on the Moon in December 2013. The Yutu rover carried by CE-3 was equipped with a radar system that could reveal subsurface structures in unprecedented details, which would facilitate understanding regional and global evolutionary history of the Moon. Based on regional geology, cratering scaling, and morphological study, here we quantify the subsurface structures of the landing site using high-resolution orbital and in-situ imagery data. Three layers of lunar regolith, two layers of basalt units, and one layer of ejecta deposits are recognized at the subsurface of the landing site, and their thicknesses are deduced based on the imagery data. These results could serve as essential references for the on-going interpretation of the CE-3 radar data. The ability to validate our theoretical subsurface structure using CE-3 in-situ radar observations will improve the methods for quantifying lunar subsurface structure using crater morphologies and scaling.

引用

页码：707 / 715

页数：9

共 15 条

[1]

The preliminary processing and analysis of LPR Channel-2B data from Chang’E-3[J]. ZHAO Na,ZHU Pei Min,YANG Ke Si,YUAN Yue Feng,GUO Shi Li.Science China（Physics,Mechanics ＆ Astronomy）. 2014(12)

[2]

Geologic characteristics of the Chang’E-3 exploration region[J]. ZHAO JianNan,HUANG Jun,QIAO Le,XIAO ZhiYong,HUANG Qian,WANG Jiang,HE Qi,XIAO Long.Science China（Physics,Mechanics ＆ Astronomy）. 2014(03)

[3] Geologic investigation and mapping of the Sinus Iridum quadrangle from Clementine, SELENE, and Chang'e-1 data [J].

Chen ShengBo ;

Meng ZhiGuo ;

Cui TengFei ;

Lian Yi ;

Wang JingRan ;

Zhang XuQing .

SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY, 2010, 53 (12) :2179-2187

[4]

High precision landing site mapping and rover localization for Chang’e-3 mission[J] . ZhaoQin Liu,KaiChang Di,Man Peng,WenHui Wan,Bin Liu,LiChun Li,TianYi Yu,BaoFeng Wang,JianLiang Zhou,HongMin Chen.Science China Physics, Mechanics ＆ Astronomy . 2015 (1)

[5]

Regolith thickness over Sinus Iridum: Results from morphology and size-frequency distribution of small impact craters[J] . Fa, Wenzhe,Liu, Tiantian,Zhu, Meng-Hua,Haruyama, Junichi.Journal of Geophysical Research. Planets . 2014 (8)

[6]

Geological features and evolution history of Sinus Iridum, the Moon[J] . Le Qiao,Long Xiao,Jiannan Zhao,Qian Huang,Junichi Haruyama.Planetary and Space Science . 2014

[7]

Timing and characteristics of the latest mare eruption on the Moon[J] . Tomokatsu Morota,Junichi Haruyama,Makiko Ohtake,Tsuneo Matsunaga,Chikatoshi Honda,Yasuhiro Yokota,Jun Kimura,Yoshiko Ogawa,Naru Hirata,Hirohide Demura,Akira Iwasaki,Takamitsu Sugihara,Kazuto Saiki,Ryosuke Nakamura,Shingo Kobayashi,Yoshiaki Ishihara,Hiroshi Takeda,Harald Hiesinger.Earth and Planetary Science Letters . 2010 (3)

[8]

The titanium contents of lunar mare basalts[J] . Thomas A.GIGUERE,G. JeffreyTAYLOR,B. RayHAWKE,Paul G.LUCEY.Meteoritics ＆ Planetary Science . 2010 (1)

[9]

A new technique for estimating the thickness of mare basalts in Imbrium Basin[J] . Thomson, Bradley J.,Grosfils, Eric B.,J. Bussey, D. Ben,Spudis, Paul D..Geophysical Research Letters . 2009 (12)

[10] Compositional and temporal investigation of exposed lunar basalts in the Mare Imbrium region [J].

Bugiolacchi, Roberto ;

Guest, John E. .

ICARUS, 2008, 197 (01) :1-18

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