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已发表文章(2022年)

[108] H. Bai, P. Liu, X. Fu, et al., Application of elastic net in quantitative analysis of major elements using Martian laser-induced breakdown spectroscopy datasets, Spectrochimica Acta Part B: Atomic Spectroscopy (2022), https://doi.org/10.1016/j.sab.2022.106587.

[107] Li C, Li B, Fu X, et al. Analysis of lunar wrinkle ridges regarding the maximum displacement–length scaling relationship and relevant geological factors[J]. Icarus, 2022: 115361.

[106] Lu, X., Chen, J., Ling, Z. et al. Mature lunar soils from Fe-rich and young mare basalts in the Chang’e-5 regolith samples. Nat Astron (2022). https://doi.org/10.1038/s41550-022-01838-1.

[105] Wan S, Qiao L, Ling Z. Identification and Geomorphometric Characterization of Volcanic Cones in the Marius Hill, the Moon[J]. Journal of Geophysical Research: Planets, e2022JE007207.

[104] 尹承翔, 曹海军, 付晓辉, 陈剑, 张江, 凌宗成 (2022), 嫦娥五号样品——月球遥感定量反演的新地面真值, 中国科学: 物理学 力学 天文学(1674-7275), doi:https://doi.org/10.1360/SSPMA-2022-0297.

[103] Liu, C., Ling, Z., Wu, Z. et al. Aqueous alteration of the Vastitas Borealis Formation at the Tianwen-1 landing site. Commun Earth Environ 3, 280 (2022).

[102] Chen, J., et al. "Digital and global lithologic mapping of the Moon at a 1: 2,500,000 scale." Science Bulletin (2022), 67(20): 2050-2054.

[101] 曹海军,陈剑,乔乐*,付晓辉,卢学金,齐晓彬,万晟,凌宗成*,刘建忠.嫦娥五号着陆区的成分特征与遥感地质研究. 中国科学 物理学 力学 天文学,2022, ISSN 1674-7275, https://doi.org/10.1360/SSPMA-2022-0289.

[100] Fu X, Yin C, Jolliff B L, et al. Understanding the mineralogy and geochemistry of Chang'E-5 soil and implications for its geological significances[J]. Icarus, 2022: 115254.

[99] Jin, G.; Wu, Z.; Ling, Z.; Liu, C.; Liu, W.; Chen, W.; Zhang, L. A New Spectral Transformation Approach and Quantitative Analysis for MarSCoDe Laser-Induced Breakdown Spectroscopy (LIBS) Data.Remote Sens. 2022, 14, 3960. https://doi.org/10.3390/rs14163960

[98] Cao H, Wang C, Chen J, et al. A Raman Spectroscopic and Microimage Analysis Perspective of the Chang'e‐5 Lunar Samples[J]. Geophysical Research Letters, 2022, 49(13): e2022GL099282.

[97] Liu C, Wu Z, Fu X, et al. A Martian Analogues Library (MAL) Applicable for Tianwen-1 MarSCoDe-LIBS Data Interpretation[J]. Remote Sensing, 2022, 14(12): 2937.

[96] Jian Chen, Zongcheng Ling, Bradley L. Jolliff, Lingzhi Sun, Le Qiao, Jianzhong Liu, Xiaohui Fu, Jiang Zhang, Bo Li, Changqing Liu, Xiaobin Qi, Xuejin Lu, Zhiping He, Rui Xu. Radiative transfer modeling of Chang'e-4 spectroscopic observations and interpretation of the South Pole-Aitken compositional anomaly. The Astrophysical Journal Letters, 2022.

[95] Shi E, Wang A, Li H, et al. Gamma‐CaSO4 With Abnormally High Stability From a Hyperarid Region on Earth and From Mars[J]. Journal of Geophysical Research: Planets, 2022, 127(3): e2021JE007108.

[94] Zhang L, Fu X, Wang A, et al. Crystallinity effects on the vibrational spectral features of saponite: Implications for characterizing variable crystalline phyllosilicates on Mars[J]. Icarus, 2022, 379: 114951.

[93] 凌宗成*,刘长卿,柏红春,田尚可,石二彬,刘平,辛艳青,武中臣,付晓辉,张立,张江.基于激光诱导击穿光谱技术的火星表面物质成分探测研究进展[J].矿物岩石地球化学通报,2022,41(01):92-112+7.DOI:10.19658/j.issn.1007-2802.2021.40.106.

已发表文章(2021年)

[92] Lu, X.; Cao, H.; Ling, Z.; Fu, X.; Qiao, L.; Chen, J. Geomorphology, Mineralogy, and Geochronology of Mare Basalts and Non-Mare Materials around the Lunar Crisium Basin. Remote Sens. 2021, 13, 4828. https://doi.org/10.3390/rs13234828

[91] 侯旭婷, 曹海军, 付晓辉, 张江, 李勃, 凌宗成. 月球撞击坑辐射纹的形成和消失机制及可能的年代学应用[J]. 空间科学学报, 2022, 42(1): 127-135.

[90] Wenshuo Mao, Xiaohui Fu, Zhongchen Wu, Jiang Zhang, Zongcheng Ling, Bo Li. The color centers in halite induced by Martian dust activities. Earth and Planetary Science Letters. 2022, 578: 117302. https://doi.org/10.1016/j.epsl.2021.117302

[89] Liu, C.; Ling, Z.; Zhang, J.; Wu, Z.; Bai, H.; Liu, Y . A Stand-Off Laser-Induced Breakdown Spectroscopy (LIBS) System Applicable for Martian Rocks Studies. Remote Sens.2021,13, 4773.https://doi.org/10.3390/rs13234773

[88] Liu C, Liu L, Chen J, et al. Mafic mineralogy assemblages at the Chang’e-4 landing site: A combined laboratory and lunar in situ spectroscopic study. Astronomy & Astrophysics, 2022, 658: A67. Experimental Data

[87] Qiao L, Xu L, Yang Y, et al. Cratering Records in the Chang'e‐5 Mare Unit: Filling the “Age Gap” of the Lunar Crater Chronology and Preparation for Its Recalibration. Geophysical Research Letters, 2021, 48(22): e2021GL095132. doi:10.1029/2021GL095132. 

[86] Qu, H.; Ling, Z.; Qi, X.; Xin, Y.; Liu, C.; Cao, H. A Remote Raman System and Its Applications for Planetary Material Studies. Sensors 2021, 21, 6973. https://doi.org/10.3390/s21216973

[85] Hou, Xuting, Xiaohui Fu, Le Qiao, et al., Absolute model ages of three craters in the vicinity of the Chang'E-5 landing site and their geologic implications. Icarus, 2022. 372: p. 114730. https://doi.org/10.1016/j.icarus.2021.114730

[84] H. Cao, J. Chen, X. Fu,Y. Xin, X. Qi, E. Shi, Z. Ling. Raman spectroscopic and geochemical studies of primary and secondary minerals in Martian meteorite Northwest Africa 10720. Raman Spectrosc, 2021,1.https://doi.org/10.1002/jrs.6254

[83] Qiao Le, Chen Jian, Ling Zongcheng. 2021. Volcanic landforms on the Moon. Acta Geologica Sinica. (Accepted)

[82] Qiao L, Head J W, Wilson L, et al. Mare Domes in Mare Tranquillitatis: Identification, Characterization, and Implications for Their Origin[J]. Journal of Geophysical Research: Planets, e2021JE006888. https://doi.org/10.1029/2021JE006888

[81] Fu X et al., Petrology and geochemistry of lunar feldspathic meteorite Northwest Africa 11111: Insights into the lithology of the lunar farside highlands. Meteoritics & Planetary Science, 2021, 56(10): 1829-1856. https://doi.org/10.1111/maps.13743

[80] Cao H et al. Petrography, Mineralogy, and Geochemistry of a new Lunar Magnesian Feldspathic Meteorite Northwest Africa 11460. Meteoritics & Planetary Science, 2021. https://doi.org/10.1111/maps.13741

[79] Bai H, Bi X, Liu C, et al. Spatial distributions and origin of hydrated sulfate minerals at the mineral bowl in Ophir Chasma, Mars[J]. Planetary and Space Science, 2021: 105323. https://doi.org/10.1016/j.pss.2021.105323

[78] X. Ye, M. Zhang, Z. Wu, L. Xu, L. Zhang, J. Chen, Using Raman spectroscopy to identify spectral features of and detect hydrogen peroxide-potential application for Mars exploration. Raman Spectrosc 2021, 1. https://doi.org/10.1002/jrs.6227

[77] Qiao L, Head J W, Wilson L, et al. Ina Lunar Irregular Mare Patch Mission Concepts: Distinguishing between Ancient and Modern Volcanism Models. The Planetary Science Journal, 2021, 2(2): 66.

[76] Y. Xin, H. Cao, C. Liu, J. Chen, P. Liu, Y. Lu, Z. Ling, A systematic spectroscopic study of laboratory synthesized manganese oxides relevant to Mars. Raman Spectrosc 2021, 1. https://doi.org/10.1002/jrs.6231

[75] Wang, Y.; Li, B.; Zhang, J.; Ling, Z.; Qiao, L.; Chen, S.; Qu, S. The Preliminary Study of Dust Devil Tracks in Southern Utopia Planitia, Landing Area of Tianwen-1 Mission. Remote Sens. 2021, 13, 2601. https:// doi.org/10.3390/rs13132601

[74] Fu, X., Hou, X., Zhang, J., Li, B., Ling, Z., Jolliff, B. L., et al. (2021). Possible non-mare lithologies in the regolith at the chang’E-5 landing site: Evidence from remote sensing data. Journal of Geophysical Research: Planets, 126, e2020JE006797. https://doi.org/10.1029/2020JE006797

[73] Qiao L, Chen J, Xu L, et al. Geology of the Chang'e-5 landing site: Constraints on the sources of samples returned from a young nearside mare. Icarus, 2021, 364: 114480.

[72] Wu, Z.; Ling, Z.; Zhang, J.; Fu, X.; Liu, C.; Xin, Y.; Li, B.; Qiao, L. A Mars Environment Chamber Coupled with Multiple In Situ Spectral Sensors for Mars Exploration. Sensors 2021, 21, 2519. https://doi.org/10.3390/s21072519

[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] Li C F,Yao P W,Liu X,Chen B Y,ZOU H B,Wang B,Zhang J,Li B,Ling Z C and Chen S B. 2021. Design and implementation of a planetary data system for Chinese deep space exploration. National Remote Sensing Bulletin,25(2):599-613[DOI:10.11834/jrs.20210157]

已发表文章(2020年)

[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.

已发表文章(2019年)

[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.

已发表文章(2018年)

[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.

已发表文章(2017年)

[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.

已发表文章2016年)

[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.

已发表文章(2015年)

[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.

已发表文章(2014年)

[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.

已发表文章(2013年)

[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.

已发表文章(2012年)

[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.

已发表文章(2011年)

[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.

已发表文章(2010年)

[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.



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