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Selected Publications (2021)

[71] Wang H Z, Zhang J, Shi Q Q, et al. Earth wind as a possible exogenous source of lunar surface hydration. Astrophysical Journal Letters, 2021, 907(2).

[70] 李晨帆, 姚佩雯, 刘翔, 等. 面向中国深空探测任务的行星数据系统的设计与实现 J 遥感学报. 2021, 25(02): 599-613.

Selected Publications (2020)

[69] Zhang L, Wu Z, Ling Z. Particle Swarm Optimization (PSO) for improving the accuracy of ChemCam LIBS sub-model quantitative method. Earth Science Informatics, 2020, 13(4): 1485-1497.

[68] Yao P, Li C, Wang B, et al. Evaluating the Dust Storm Probability in Isidis-Elysium Planitia, a Tentative Landing Area of China's First Mars Mission (Tianwen-1). Earth and Space Science, 2020, 7(8).

[67] Shi E, Wang A, Ling Z. MIR, VNIR, NIR, and Raman spectra of magnesium chlorides with six hydration degrees: Implication for Mars and Europa. Journal of Raman Spectroscopy, 2020, 51(9): 1589-1602.

[66] Qiao L, Head J W, Wilson L, et al. The Cauchy 5 Small, Low-Volume Lunar Shield Volcano: Evidence for Volatile Exsolution - Eruption Patterns and Type 1/Type 2 Hybrid Irregular Mare Patch Formation. Journal of Geophysical Research-Planets, 2020, 125(2).

[65] Qiao L, Head J W, Ling Z, et al. Lunar Irregular Mare Patches: Classification, Characteristics, Geologic Settings, Updated Catalog, Origin, and Outstanding Questions. Journal of Geophysical Research-Planets, 2020, 125(7).

[64] Qi, X.; Ling, Z.; Zhang, J.; Chen, J.; Cao, H.; Liu, C.; Qiao, L.; Fu, X.; He, Z.; Xu, R.; Liu, J.; Zou, Y., Photometric Normalization of Chang'e-4 Visible and Near-Infrared Imaging Spectrometer Datasets: A Combined Study of In-Situ and Laboratory Spectral Measurements. Remote Sensing 2020, 12 (19).

[63] Liu C, Ling Z, Zhang J, et al. Laboratory Raman and VNIR spectroscopic studies of jarosite and other secondary mineral mixtures relevant to Mars. Journal of Raman Spectroscopy, 2020, 51(9): 1575-1588.

[62] Li J, Zhang L, Wu Z, et al. Autonomous Martian rock image classification based on transfer deep learning methods. Earth Science Informatics, 2020, 13(3): 951-963.

[61] Li B, Zhang J, Yue Z, et al. Deriving terrain factors from high-resolution lunar images: A case study of the Mons Rumker Region. Geomorphology, 2020, 358.

[60] Fu X, Jia L, Wang A, et al. Thermal stability of akaganeite and its desiccation process under conditions relevant to Mars. Icarus, 2020, 336.

[59] Fu X-H, Qiao L, Zhang J, et al. The subsurface structure and stratigraphy of the Chang'E-4 landing site: orbital evidence from small craters on the Von Karman crater floor. Research in Astronomy and Astrophysics, 2020, 20(1).

[58] Chen J, Ling Z, Qiao L, et al. Mineralogy of Chang'e-4 landing site: preliminary results of visible and near-infrared imaging spectrometer. Science China-Information Sciences, 2020, 63(4).

[57] Cao X, Zhang L, Wu Z, et al. Quantitative analysis modeling for the ChemCam spectral data based on laser-induced breakdown spectroscopy using convolutional neural network. Plasma Science & Technology, 2020, 22(11).

[56] Cao H, Chen J, Fu X, et al. Raman and infrared spectroscopic perspectives of lunar meteorite Northwest Africa 4884. Journal of Raman Spectroscopy, 2020, 51(9): 1652-1666.

[55] 王越, 王彪, 王汛, 等. 火星探测任务着陆区选址和地质分析 J 深空探测学报(中英文). 2020, 7(04): 371-383.

[54] 张乐豪, 张立, 武中臣, 等. 基于Inception网络的好奇号火星车地面标样LIBS光谱定量建模 J 光子学报. 2020, 49(06): 58-66.

[53] 付晓辉, 凌宗成, 周琴, 等. 火星陨石和火星表面泥岩中蚀变过程对比研究 J 地学前缘. 2020, 27(04): 340-354.

Selected Publications (2019)

[52] Qiao L, Ling Z, Head J W, et al. Analyses of Lunar Orbiter Laser Altimeter 1,064-nm Albedo in Permanently Shadowed Regions of Polar Crater Flat Floors: Implications for Surface Water Ice Occurrence and Future In Situ Exploration. Earth and Space Science, 2019, 6(3): 467-488.

[51] Qiao L, Head J W, Ling Z, et al. Geological Characterization of the Ina Shield Volcano Summit Pit Crater on the Moon: Evidence for Extrusion of Waning-Stage Lava Lake Magmatic Foams and Anomalously Young Crater Retention Ages. Journal of Geophysical Research-Planets, 2019, 124(4): 1100-1140.

[50] Qiao L, Ling Z, Fu X, et al. Geological characterization of the Chang'e-4 landing area on the lunar farside. Icarus, 2019, 333: 37-51.

[49] Ling Z, Qiao L, Liu C, et al. Composition, mineralogy and chronology of mare basalts and non-mare materials in Von Karman crater: Landing site of the Chang'E-4 mission. Planetary and Space Science, 2019, 179.

[48] Li B, Yue Z, Zhang J, et al. High-Resolution Terrain Analysis for Lander Safety Landing and Rover Path Planning Based on Lunar Reconnaissance Orbiter Narrow Angle Camera Images: A Case Study of China's Chang'e-4 Probe. Earth and Space Science, 2019, 6(3): 398-410.

[47] Chen J, Jolliff B L, Wang A, et al. Petrogenesis and Shock Metamorphism of Basaltic Lunar Meteorites Northwest Africa 4734 and 10597. Journal of Geophysical Research-Planets, 2019, 124(10): 2583-2598.

[46] Cao H, Chen J, Ling Z. Laboratory synthesis and spectroscopic studies of hydrated Al-sulfates relevant to Mars. Icarus, 2019, 333: 283-293.

[45] 郭恺琛, 武中臣, 朱香平, 等. 基于主成分载荷空间距离的LIBS特征谱线选择及矿物元素丰度识别方法研究(英文) J 光子学报. 2019, 48(10): 173-184.

Selected Publications (2018)

[44] Wu Z, Wang A, Farrell W M, et al. Forming perchlorates on Mars through plasma chemistry during dust events. 2018, 504: 94.

[43] Qiao L, Head J W, Xiao L, et al. The role of substrate characteristics in producing anomalously young crater retention ages in volcanic deposits on the Moon: Morphology, topography, subresolution roughness, and mode of emplacement of the Sosigenes lunar irregular mare patch. Meteoritics & Planetary Science, 2018, 53(4): 778-812.

[42] Li B, Ling Z, Zhang J, et al. Displacement-length ratios and contractional strains of lunar wrinkle ridges in Mare Serenitatis and Mare Tranquillitatis. Journal of Structural Geology, 2018, 109: 27-37.

[41] Li B, Ling Z, Zhang J, et al. Geological mapping of lunar highland crater Lalande: Topographic configuration, morphology and cratering process. Planetary and Space Science, 2018, 151: 85-96.

[40] 徐伟杰, 武中臣, 朱香平, 等. 基于光谱融合的火星表面相关矿物分类方法研究 J 光谱学与光谱分析. 2018, 38(06): 1926-1932.

Selected Publications (2017)

[39] Liu C, Ling Z, Cao F, et al. Comparative Raman and visible near-infrared spectroscopic studies of jarosite endmember mixtures and solid solutions relevant to Mars. Journal of Raman Spectroscopy, 2017, 48(11): 1676-1684.

[38] Li B, Ling Z, Zhang J, et al. Rock size-frequency distributions analysis at lunar landing sites based on remote sensing and in-situ imagery. Planetary and Space Science, 2017, 146: 30-39.

[37] Fu X, Wang A, Krawczynski M J. Characterizing amorphous silicates in extraterrestrial materials: Polymerization effects on Raman and mid-IR spectral features of alkali and alkali earth silicate glasses. Journal of Geophysical Research-Planets, 2017, 122(5): 839-855.

[36] Chen J, Ling Z, Li B, et al. Compositions and possible sources of lunar meteorite NWA 4884. Acta Geologica Sinica (English Edition), 2017, 91(suppl.1): 1-2.

[35] Cao F, Ling Z, Ni Y. Chemical and spectroscopic investigations of K-H<inf>3</inf>O-Na jarosite solid solutions applicable for Mars explorations. Journal of Raman Spectroscopy, 2017, 48(11): 1544-1553.

Selected Publications (2016)

[34] Wu Z, Wang A, Ling Z. Spectroscopic study of perchlorates and other oxygen chlorides in a Martian environmental chamber. Earth and Planetary Science Letters, 2016, 452: 123-132.

[33] Sun L, Ling Z, Zhang J, et al. Lunar iron and optical maturity mapping: Results from partial least squares modeling of Chang'E-1 IIM data. Icarus, 2016, 280: 183-198.

[32] Ling Z, Cao F, Ni Y, et al. Correlated analysis of chemical variations with spectroscopic features of the K-Na jarosite solid solutions relevant to Mars. Icarus, 2016, 271: 19-29.

[31] Li B, Wang X, Zhang J, et al. The relative and absolute age determination of rilles in southwest Aristarchus region. Planetary and Space Science, 2016, 124: 84-93.

[30] Li B, Wang X, Zhang J, et al. Lunar textural analysis based on WAC-derived kilometer-scale roughness and entropy maps. Planetary and Space Science, 2016, 125: 62-71.

[29] Chen J, Ling Z, Li B, et al. Abundance and distribution of radioelements in lunar terranes: Results of Chang'E-1 gamma ray spectrometer data. Advances in Space Research, 2016, 57(3): 919-927.

[28] 张江, 凌宗成, 李勃, 等. 月球Reiner Gamma漩涡地区物质的光度行为及分类 J 岩石学报. 2016, 32(01): 113-118.

[27] 孙灵芝, 凌宗成, 张江, 等. 基于辐射传输模型的月表铁镁质矿物定量反演:以嫦娥三号着陆区为例 J 岩石学报. 2016, 32(01): 43-52.

[26] 孙灵芝, 凌宗成, 张江, 等. 月表镁尖晶石矿物的光谱特征与遥感探测:以第谷撞击坑为例 J 中国科学:物理学 力学 天文学. 2016, 46(02): 74-82.

[25] 凌宗成, 张江, 刘建忠, 等. 嫦娥一号干涉成像光谱仪数据再校正与全月铁钛元素反演 J 岩石学报. 2016, 32(01): 87-98.

[24] 李勃, 凌宗成, 张江, 等. 嫦娥三号着陆区月海玄武岩的年龄、成因及地质意义 J 岩石学报. 2016, 32(01): 19-28.

[23] 胡亚超, 张路路, 武中臣, 等. 微型化拉曼光谱系统的搭建及其在矿物分析中的应用 J 物理实验. 2016, 36(10): 34-36+40.

[22] 陈剑, 凌宗成, 李勃, 等. 嫦娥二号γ谱数据反演月表Fe元素分布 J 中国科学:物理学 力学 天文学. 2016, 46(02): 59-66.

Selected Publications (2015)

[21] Zhang J, Ling Z C, Liu J Z, et al. Lunar absolute reflectance as observed by chang’E-1 imaging interferometer. Science China: Physics, Mechanics and Astronomy, 2015, 58(8).

[20] Ling Z, Wang A. Spatial distributions of secondary minerals in the Martian meteorite MIL 03346,168 determined by Raman spectroscopic imaging. Journal of Geophysical Research-Planets, 2015, 120: 1141.

[19] Ling Z, Jolliff B L, Wang A, et al. Correlated compositional and mineralogical investigations at the Chang′e-3 landing site. Nature Communications, 2015, 6.

[18] Li B, Ling Z, Zhang J, et al. Automatic Detection and Boundary Extraction of Lunar Craters Based on LOLA DEM Data. Earth Moon and Planets, 2015, 115(1-4): 59-69.

[17] Li B, Ling Z, Zhang J, et al. Texture descriptions of lunar surface derived from LOLA data: Kilometer-scale roughness and entropy maps. Planetary and Space Science, 2015, 117: 303-311.

Selected Publications (2014)

[16] 张鹏彦, 武中臣, 凌宗成, 等. 质谱检测技术在火星探测中的应用 J 中国科学:化学. 2014, 44(05): 807-810.

[15] 武中臣, 凌宗成, 张江, 等. 反射定标板污染对典型月球矿物定量分析影响的研究 J 地学前缘. 2014, 21(06): 129-136.

[14] 孙灵芝, 凌宗成, 刘建忠. 月球东海盆地的矿物光谱特征及遥感探测 J 地学前缘. 2014, 21(06): 188-203.

[13] 凌宗成, 刘建忠, 张江, 等. 基于“嫦娥一号”干涉成像光谱仪数据的月球岩石类型填图:以月球雨海—冷海地区(LQ-4)为例 J 地学前缘. 2014, 21(06): 107-120.

[12] 李勃, 凌宗成, 张江, 等. “嫦娥三号”着陆区月壤下伏玄武岩单元划分和充填过程研究 J 地学前缘. 2014, 21(06): 155-164.

Selected Publications (2013)

[11] Zhang J, Ling Z, Zhang W, et al. Photometric modeling of the Moon using Lommel-Seeliger function and Chang'E-1 IIM data. Chinese Science Bulletin, 2013, 58(36): 4588-4592.

[10] 张江, 凌宗成. 月球表面光度行为的地域依赖性分析 J 中国科学:物理学 力学 天文学. 2013, 43(11): 1465-1469.

[9] 凌宗成, 张江, 武中臣, 等. 月球Aristarchus地区的物质成分与岩石类型分布 J 中国科学:物理学 力学 天文学. 2013, 43(11): 1403-1410

Selected Publications (2012)

[8] 孙灵芝, 凌宗成, 刘建忠. 美国阿波罗月球样品的处理与保存 J 地学前缘. 2012, 19(06): 128-136.

Selected Publications (2011)

[7] Ling Z C, Wang A, Jolliff B L. Mineralogy and geochemistry of four lunar soils by laser-Raman study. 2011, 211: 101.

[6] Ling Z, Zhang J, Liu J, et al. Preliminary results of TiO2 mapping using Imaging Interferometer data from Chang'E-1. Chinese Science Bulletin, 2011, 56(20): 2082-2087.

[5] Ling Z, Zhang J, Liu J, et al. Preliminary results of FeO mapping using Imaging Interferometer data from Chang'E-1. Chinese Science Bulletin, 2011, 56(4-5): 376-379.

[4] Ling Z, Wang A, Jolliff B L. A systematic spectroscopic study of four Apollo lunar soils. Journal of Earth Science, 2011, 22(5): 578-585.

[3] 凌宗成, 张江, 刘建忠, 等. 嫦娥一号干涉成像光谱仪数据TiO_2反演初步结果 J 科学通报. 2011, 56(16): 1257-1263.

Selected Publications (2010)

[2] Ling Z C, Wang A. A systematic spectroscopic study of eight hydrous ferric sulfates relevant to Mars. Icarus, 2010, 209(2): 422-433.

[1] 凌宗成, 张江, 刘建忠, 等. “嫦娥一号”干涉成像光谱仪数据FeO反演初步结果 J 科学通报. 2010, 55(35): 3373-3377.