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丁春雨

研究员,博士生导师

dingchunyu#szu.edu.cn; baci.dingchunyu#gmail.com;

致知楼729室

丁春雨,1989年生于湖南永州,研究员,博士生导师,嫦娥四号任务科学研究核心团队成员,天问二号任务科学目标先期研究团队成员,鹏城孔雀计划高层次人才;2017年毕业于中国科学院国家天文台,获天文学博士学位;2015年获选首届“中国科学院研究生国际合作培养计划”赴意大利公派留学。博士毕业之后相继于中山大学和南方科技大学从事科研与博士后工作,2021年聘任深圳大学高等研究院任现职。长期从事月球与火星雷达观测和行星表面演化过程研究,深度参与了我国“嫦娥工程”月球探测任务和 “天问一号” 火星探测任务。对月球和火星微波雷达的信号分析、地面试验、定标、数据处理和科学解译进行了系统性的研究。迄今在Science Advances, Astronomy & Astrophysics, Geophysical Research Letters等国内外学术期刊上发表SCI论文40余篇,一作/通讯论文23篇,授权国家发明专利4项,主持国家自然科学基金委专项、面上、青年以及鹏城孔雀计划高层次人才科研经费等项目13项和参与3项。担任Nature Astronomy, Geology, IEEE TGRS, GRL, 中国科学、科学通报等国内外期刊审稿专家。


长期招收有志于月球与深空探测研究领域的本科生、研究生、访问学生和博士后等各类人才,欢迎随时联系。


研究生招生专业

·物理学(学术博士和硕士)

·光电信息工程(专业硕士)


研究方向

·月球与行星雷达探测;雷达天文学;天文技术与方法

·月球与深空探测;月球与行星科学;太阳系天体表面过程演化

·月球与行星原位资源勘探;行星地质与探测;月基对地辐射观测与理论


科研与学术工作经历

· 2021-10至今,深圳大学,高等研究院,研究员

· 2017-07至2020-07,中山大学,行星环境与宜居性研究实验室,副研究员


博士后工作经历

· 2020-08至2021-10,南方科技大学,地球与空间科学系,博士后(校长卓越博士后);导师:刘凯军


教育履历

· 2017年,中国科学院大学/国家天文台,月球与深空探测研究部,天文技术与方法,博士学位(硕博连读);导师:李春来(中国探月工程副总设计师)、苏彦(天问一号火星探测任务地面应用系统副总设计师,天问二号探测任务地面应用系统总设计师)

· 2015年,罗马第三大学/国家天体物理研究所(意大利),联合培养博士,火星雷达观测;导师:Roberto Orosei(欧空局火星MARSIS雷达首席科学家)、Elena Pettinelli(欧空局火星MARSIS雷达联合首席科学家)

· 2012年,湖南工业大学,计算机与通信学院,通信工程,学士学位


教授课程

·电磁学(Electromagnetism),本科生课程

·天文学概论(Introduction to Astronomy),本科生课程

·电磁波探测地外天体原理与应用(Electromagnetic Wave Detection of Extraterrestrial Objects Theory and Application),研究生课程


学术与公共服务

1.2018年至今,探月与航天工程中心嫦娥四号任务科学家团组成员

2.2019年至今,探月与航天工程中心天问一号次表层雷达科学团队成员

3.2023年至今,探月与航天工程中心天问二号任务科学目标先期研究团队成员

4.2023年至今,天文期刊Universe (SCIQ2, IF=2.9)“Planetary Radar Astronomy”主题特邀编委

5.2019年至今,国际火星雷达“Searching for Subglacial Water On Mars with Orbiting Ground Penetrating Radars ”核心团组成员,团队网站:https://www.issibern.ch/teams/glacierwateronmars/

6.2021年,火星“天问一号”环绕器雷达MOSIR数据处理软件评审专家

7.2022年至今,国家自然科学基金委评审专家

8.2022年至今,深圳大学高等研究院研究生面试评审专家

9.2022年至今,中国测绘学会深空探测遥感测绘工作委员会委员

10.2023年至今,中国电子学会会员,中国空间科学学会会员

11.2024年,第20届国际探地雷达会议学术委员会委员

12.担任Nature Astronomy, Geology, IEEE TGRS, Geophysical Research Letters, JGR: Planets, ICARUS, IEEE Geoscience and Remote Sensing Letters, Remote Sensing, Geo-spatial Information Science, Journal of Applied Geophysics, Sensors, Electronics, Applied Science,中国科学,科学通报,深空探测学报,天文学进展等国内外期刊审稿专家


科研项目

1.鹏城孔雀计划高层次人才科研经费,月球和行星雷达探测,主持

2.国家自然科学基金委,专项项目,探月雷达勘探嫦娥三号和四号着陆区月球次表层熔岩管道的研究,主持

3.国家自然科学基金委,面上项目,探月雷达观测月球浅表层晚期火山活动遗迹及热流分布研究,主持

4.国家自然科学基金委,青年项目,基于探月雷达数据对月壤内纹层结构的介电特性反演研究,主持

5.广东省自然科学基金委会,面上项目,探月工程嫦娥四号雷达数据对表层月壤内岩石分布与介电特性反演研究,主持

6.深圳市科技创新委员会,面上项目(稳定支持),行星探测工程天问一号巡视器雷达观测火星乌托邦平原着陆区水冰研究,主持

7.中国科学院国家天文台,技术开发,小行星雷达回波仿真研究,主持

8.上海宇航系统工程研究所(中国航天八院805所)基金,月基观测及月球热环境探测技术研究,主持

9.深圳大学青年教师科研启动基金(高水平大学建设二期项目),玉兔二号雷达探测月球次表层结构研究,主持

10.中国科学院月球与深空探测重点实验室,火星梅杜莎槽沟层最西端区域介电特性反演研究,主持

11.中国科学院月球与深空探测重点实验室,嫦娥四号测月雷达对着陆区月壤物理特性的研究,主持

12.中国科学院月球与深空探测重点实验室,非均匀多尺度月壤层模型的建立与应用,主持

13.大学生创新创业训练计划项目,雷达探测地外天体与水冰资源研究,国家级,主持(指导教师)

14.深圳市发展和改革委员会项目,月基探测研究设备购置,骨干

15.中国科学院战略性先导科技专项(B类),撞击坑退化状态的定年方法研究,骨干

16.中国科学院空间科学研究院课题,深空探测数据接收信号合成技术和验证试验,骨干


科研论文

一作/通讯论文(*通讯作者;指导学生)

1.Ding, Chunyu*. Chang Yiren, Su Yan, Wang Jiawei, Minggang Xie. (2024). Rover-Mounted Radar Observation of Discrete Layers within the Top 4 Meters of Regolith at the Chang'E-3 Landing Site, the Moon.IEEE Transactions on Geoscience and Remote Sensing.Vol. 62, pp. 1-16. (SCI, JCR Q1; IF= 8.2)

2.Changzhi Jiang†, Chunyu Ding*, Yan Su, Shuguo Xing, Jiawei Li, Shun Dai. (2024). Water ice and possible habitability in the landing area of Tianwen-1 mission. Space Science Reivew. 220, 35. doi:10.1007/s11214-024-01068-z. (SCI, JCR Q1; IF= 10.3)

3.Naihuan Zheng,Chunyu Ding*, Yan Su, Roberto Orosei. (2024). Rover-Mounted Radar Observation: Future Prospects and Progress in Detecting Shallow Surface Water Ice on Mars.RemoteSensing.16(5), 824. (Special Invitation, SCI, JCR Q1; IF= 5.0)

4.Junyi Zhou†,Chunyu Ding *, Siting Xiong, Yan Su, Jiawei Li, Mengna Chen, Shun Dai. (2024).Radar Observations of Liquid Water in the South Polar Region of Mars: Indications to Astrobiology Perspectives.Universe.10(1):43.(Special Invitation, SCI, JCR Q2; IF= 2.9)

5.Ding, Chunyu*; Li Qingquan; Xu Jiangwan; Lei Zhonghan; Li Jiawei, Su Yan; and Huang Shaopeng*. (2023). Moon-based Ground Penetrating Radar Derivation of the Helium-3 Reservoir in the Regolith at the Chang’E-3 Landing Site.IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing.vol. 16, pp. 2764–2776. doi: 10.1109/JSTARS.2023.3253499 (SCI, JCR Q1; IF= 5.5)

6.Ding, Chunyu,Li Jing*, Rong Hu. (2023). Moon-based Ground Penetrating Radar Observation of the Latest Volcanic Activity at the Chang'E-4 Landing Site.IEEE Transactions on Geoscience and Remote Sensing, vol. 61, pp. 1–10. doi: 10.1109/TGRS.2023.3277992. (SCI, JCR Q1; IF= 8.2).

7.Xiaohang Qiu,Chunyu Ding*. (2023). Radar observation of the lava tubes on the Moon and Mars.Remote Sensing.15(11),2850. https://doi.org/10.3390/rs15112850(SCI, JCR Q1; IF= 5.0)

8.Zhonghan Lei,Chunyu Ding*.(2023).Yutu-2 Radar observations at the Chang'E-4 landing site: The shallow geological structures and its dielectric properties. Universe.9(11), 461.(Special Invitation, SCI, JCR Q2; IF= 2.9)

9.Feiyang Fang,Chunyu Ding*, Jianqing Feng, Yan Su, Ravi Sharma, Iraklis Giannakis. (2023). In-situ Radar Observation of Shallow Lunar Regolith at the Chang’e-5 Landing Site: Research Progress and Perspectives.Remote Sensing.15(21), 5173(Special Invitation, SCI, JCR Q1; IF= 5.0)

10.Ding, Chunyu*;Xiong, Siting; Li, Jing; Su, Yan; and Huang, Shaopeng*. (2022), Yutu-2 Radar Observation of the Lunar Regolith Heterogeneity at the Chang’E-4 Landing Site.Astronomy & Astrophysics, 664, A43. doi: 10.1051/0004-6361/202142803 (SCI, JCR Q1; IF= 6.24)

11.Ding Chunyu, Su Yan*, Lei Zhonghan, Zhang Zongyu, Song Mi, Liu Yuanzhou, Wang Ruigang, LiQingquan, Li Chunlai, Huang Shaopeng*. (2022). Electromagnetic Signal Attenuation Characteristics in the Lunar Regolith Observed by the Lunar Regolith Penetrating Radar (LRPR) Onboard the Chang’E-5 Lander.RemoteSensing.14, 5189. doi:10.3390/rs14205189 (Special Invitation, SCI, JCR Q1; IF= 5.35)

12.Haoqiu Zhou, Xuan Feng*,Chunyu Ding*, Zejun Dong, Cai Liu, Wenjing Liang. (2022).Heterogeneous Weathering Process of Lunar Regolith Revealed by Polarimetric Attributes Analysis of Chang’E-4 Lunar Penetrating Radar Data Acquired During the Yutu-2 Turnings.Geophysical Research Letters, 49, e2022GL099207. doi:10.1029/2022GL099207 (SCI, JCR Q1; IF= 5.58).

13.Haoqiu Zhou, Xuan Feng*,Chunyu Ding*, Zejun Dong, Cai Liu, Zhiguo Meng. (2022). Yutu-2 radar sounding evidence of a buried crater at Chang’E-4 landing site.IEEE Transactions on Geoscience and Remote Sensing, vol. 60, pp. 1–19, doi:10.1109/TGRS.2021.3090528 (SCI, JCR Q1; IF= 8.2)

14.丁春雨*,刘凯军,黄少鹏,苏彦,李佳威. (2021).微波雷达在嫦娥探月工程中的应用(特邀综述).地质学报. 95(09):2805–2822. (EI检索)

15.Ding, Chunyu; Xiao, Zhiyong*; Bo,Wu; Zhaojin Li; Yan Su; Bin Zhou; Kaijun Liu*; Jun Cui. (2021). Rock fragments in shallow lunar regolith: Constraints by the lunar penetrating radar onboard the Chang’E-4 mission,Journal of Geophysical Research: Planets.126, e2021JE006917. doi:10.1029/2021JE006917 (SCI, JCR Q1; IF= 4.43)

16.Ding, Chunyu; Xiao, Zhiyong*; Su, Yan; and Cui, Jun. (2021). Hyperbolic reflectors determined from peak echoes of ground penetrating radar.Icarus, 358, 114280. doi: 10.1016/j.icarus.2020.114280 (SCI, JCR Q2; IF= 3.66)

17.Ding, Chunyu; Xiao, Zhiyong*; Su, Yan. (2021). A potential subsurface cavity in the continuous ejecta deposits of the Ziwei crater discovered by the Chang’E-3 mission.Earth, Planets and Space.73(1), 1–12. doi:10.1186/s40623-021-01359-7 (SCI, JCR Q2; IF= 3.36)

18.Ding, Chunyu; Xiao, Zhiyong*; Wu, Bo; Li, Yuan; Prieur, Nils C.; Cai, Yuzhen; Su, Yan; Cui, Jun. (2020). Fragments Delivered by Secondary Craters at the Chang'E-4 Landing Site,Geophysical Research Letters, 47(7), doi:10.1029/2020GL087361. (SCI, JCR Q1; IF= 5.58)

19.Ding, Chunyu; Li, Chunlai*; Xiao, Zhiyong; Su, Yan; Xing, Shuguo; Wang, Yichen; Feng, Jianqing; Dai, Shun; Xiao, Yuan; Yao, Meijuan. (2020). Layering structures in the porous material beneath the Chang’e-3 landing site.Earth and Space Science,7, e2019EA000862. doi:10.1029/2019ea000862 (SCI, JCR Q2; IF= 3.68)

20.Ding, Chunyu; Xiao, Zhiyong*; Su, Yan; Zhao, Jiannan; Su, Yan; Cui, Jun. (2020). Compositional variations along the route of Chang'e-3 Yutu rover revealed by the lunar penetrating radar.Progress in Earth and Planetary Science, 32(7), doi: 10.1186/s40645- 020-00340-4. (SCI, JCR Q2; IF= 3.9)

21.Ding, Chunyu; Cai, Yunzhen; Xiao, Zhiyong*; Su, Yan. (2020). A rocky hill on the continuous ejecta of Ziwei crater revealed by the Chang’e-3 mission,Earth and Planetary Physics, 4(2), 105–110. doi:10.26464/epp2020016. (中国科技期刊卓越行动计划入选期刊, SCI Q3; IF= 2.9)

22.Ding, Chunyu; Su, Yan*; Xing, Shuguo; Dai, Shun; Xiao, Yuan; Feng, Jianqing; Liu, Danqing; Li, Chunlai. (2017). Numerical Simulations of the Lunar Penetrating Radar and Investigations of the Geological Structures of the Lunar Regolith Layer at the Chang'E 3 Landing Site,International Journal of Antennas and Propagation, 1–11. doi:10.1155/2017/3013249 (SCI, JCR Q4; IF= 1.24)

23.丁春雨,封剑青,郑磊,戴舜,邢树果,肖媛,苏彦. (2015).雷达探测技术在探月中的应用.天文研究与技术, 12(2), 228–242.(CSCD检索)



非一作/通讯论文

1.Jianqing Feng, Matthew Siegler, Yan Su,Chunyu Ding, Iraklis Giannakis. (2023). Layered structures in the upper several hundred meters of the Moon along the Chang'E-4 rover's first 1000-m traverse.Journal of Geophysical Research: Planets. 128, e2022JE007714. doi: 10.1029/2022JE007714 (SCI, JCR Q1; IF= 4.43)

2.Siting Xiong, Jan-Peter Muller, Yu Tao,Chunyu Ding, Bochen Zhang and Qingquan Li (2023).Combination of MRO SHARAD and deep learning based DTM to detect subsurface features in Oxia Planum, Mars.Astronomy & Astrophysics. 676, A16. doi:10.1051/0004-6361/202346197 (SCI, JCR Q1; IF= 6.24)

3.肖智勇,岳宗玉,谢明刚,丁春雨,杨晶,邸凯昌,胡森,林杨挺. (2023).月球的撞击历史及其对月表物质的改造.矿物岩石地球化学通报, Vol. 42,doi:10.19658/j.issn.1007-2802.2023.42.051

4.林红磊,陈剑,李超,丁春雨,肖潇,黄俊,籍进柱,芶盛,张金海,魏勇,林杨挺. (2023).嫦娥工程月球探测任务遥感科学研究进展.矿物岩石地球化学通报, Vol. 42,doi:10.19658/j.issn.1007-2802.2023.42.061.

5.Zhiyong Xiao, Pan Yan, Bo Wu,Chunyu Ding, Yuan Li, Yiren Chang, Rui Xu, Minggang Xie, Yunhua Wu, Yichen Wang, Yizhen Ma, and Jun Cui. (2022). Translucent glassy globules on the Moon.Science Bulletin, doi:10.1016/ j.scib.2021.11.004. (SCI, JCR Q1; IF= 20.58)

6.Yan Su, Ruigang Wang, Xiangjin Deng, Zongyu Zhang, Jianfeng Zhou, Zhiyong Xiao,Chunyu Ding, Yuxi Li, Shun Dai, Xin Ren, Xingguo Zeng, Xingye Gao, Jianjun Liu, Dawei Liu, Bin Liu, Bin Zhou, Guangyou Fang, Chunlai Li. (2022). Hyperfine Structure of Regolith Unveiled by Chang'E-5 Lunar Penetrating Radar.IEEE Transactions on Geoscience and Remote Sensing.60,1–14. doi:10.1109/TGRS.2022.3148200. (SCI, JCR Q1; IF= 8.13)

7.Wang ruigang; Su Yan; Zhang Zongyu; Zhang Qing; Liu Chendi; Hong Tiansheng; Liu Shuning; Du Wei; Dai Shun;Ding Chunyu;Li Chunlai. (2022). Study on the influencing factors of the new method for permittivityinversion based on the lunar penetrating radar.Research in Astronomy and Astrophysics. doi:10.1088/1674-4527/ac846b (SCI,中科院JCR二区)

8.Song Mi; Zhong Feiyan;Ding Chunyu; Liu Yuanzhou; Huang Shaopeng; Li Qingquan. (2022). Regolith mineral detection based on the in-situ spectra of Chang’E-5 lander.SCIENCE CHINA Physics, Mechanics & Astronomy. doi:10.1360/SSPMA-2022-0318 (In Chinese, ESCI)

9.Liu Yuanzhou, Wang Tong, Jia Yinzhou, Song Mi,Ding Chunyu, Huang Shaopeng. (2022). Effect of landing site thermal environment on the external temperature of the Chang'E-5.SCIENTIA SINICA Physica, Mechanica & Astronomica, doi:10.1360/SSPMA-2022-0339(In Chinese, ESCI)

10.Tiansheng Hong; Yan Su; Shun Dai; Zongyu Zhang; Wei Du; Chendi Liu; Shuning Liu;Chunyu Ding; Chunlai Li. (2022). An improved method of surface clutter simulation based on orbiting radar in Tianwen-1 Mars exploration.Radio Science. doi: 10.1029/2022RS007491. (SCI, JCR Q3; IF= 1.68)

11.Zhiyong Xiao;Chunyu Ding; Minggang Xie; Yuzhen Cai; Jun Cui; Ke Zhang; Juntao Wang. (2021).Ejecta from the Orientale basin at the Chang’E-4 landing site.Geophysical Research Letters, 48, e2020GL090935.doi: 10.1029/2020GL090935 (SCI, JCR Q1)

12.林红磊,丁春雨,许学森,张金海,魏勇,林杨挺. (2021).月球就位光谱和雷达遥感科学研究进展.地球与行星物理论评, 152(4), 373–390. doi:10.16738/j.dqyxx.2021-031 (封面邀稿,中文核心,优秀论文)

13.Wang ruigang; Su Yan;Ding Chunyu;Dai Shun; Liu Chendi; Zhang Zongyu; Hong Tiansheng; Zhang Qing; Li Chunlai. A novel approach for permittivity estimation of lunar regolith using the lunar penetrating radar onboard Chang’E-4 rover, (2021).Remote Sensing, 13(18), 3679.doi:10.3390/rs13183679. (SCI, JCR Q1)

14.Tiansheng Hong, Yan Su, Mingyi Fan, Shun Dai, Peng Lv,Chunyu Ding, Zongyu Zhang, Ruigang Wang, Chendi Liu, Wei Du, Shuning Liu, Chunlai Li. (2021).Flight experiment validation of altitude measurement performance of MOSIR on Tianwen-1 orbiter.Remote Sensing.13, 5049. https://doi.org/10.3390/rs13245049. (SCI, JCR Q1)

15.Chang,Yiren; Xiao, Zhiyong; Wang, Yichen;Ding, Chunyu; Cui, Jun; Cai, Yuzhen. (2021). An updated constraint on the local stratigraphy at the Chang’E-4 landing site,Earth and Planetary Physics. 5(1), 19–31. doi: 10.26464/epp2021007 (CAS- SCI Q4)

16.Roberto Orosei,Chunyu Ding, Wenzhe Fa, Antonios Giannopoulos, Alain Hérique, Wlodek Kofman, Sebastian Lauro, Chunlai Li, Elena Pettinelli, Yan Su, Shuguo Xing, Yi Xu. (2020). The global search for liquid water on Mars from orbit: Current and future perspectives.Life,10(8). doi: 10.3390/life10080120. (SCI, JCR Q2)

17.Li, Chunlai; Su, Yan; Pettinelli, Elena; Xing, Shuguo;Ding, Chunyu; Liu, Jianjun; Ren, Xin; Lauro, Sebastian E; Soldovieri, Francesco; Zeng, Xingguo; Gao, Xingye; Chen,Wangli; Dai, Shun; Liu, Dawei; Zhang, Guangliang; Zuo, Wei; Wen, Weibin; Zhang, Zhoubin; Zhang, Xiaoxia; Zhang, Hongbo. (2020). The Moon's farside shallow subsurface structure unveiled by Chang'E-4 Lunar Penetrating Radar,Science Advances, 6(9): eaay6898. doi:10.1126/sciadv.aay6898 (SCI, JCR Q1)

18.Cai, Yuzhen; Xiao, Zhiyong;Ding, Chunyuand Cui, Jun. (2020). Fine debris flows formed by the Orientale basin.Earth and Planetary Physics, 4: 212–222. doi:10.26464/epp2020027 (CAS- SCI Q4)

19.Xiao, Yuan; Su, Yan; Dai, Shun; Feng, Jianqing; Xing, Shuguo;Ding, Chunyu; Li, Chunlai.(2019). Ground experiments of Chang'e-5 lunar regolith penetrating radar,Advances in Space Research, 63(10): 3404–3419. (SCI, JCR Q3)

20.Li Chunlai; Xing Shuguo; Lauro Sebastian E; Su Yan; Dai Shun; Feng Jianqing; Cosciotti Barbara; Di Paolo Federico; Mattei Elisabetta; Xiao Yuan;Ding Chunyu; Pettinelli Elena. (2018). Pitfalls in GPR Data Interpretation: False Reflectors Detected in Lunar Radar Cross Sections by Chang'e-3,IEEE Transactions on Geoscience and Remote Sensing, 56(3): 1325-1335. (SCI, JCR Q1)

21.Feng Jianqing; Su Yan;Ding Chunyu; Xing Shuguo; Dai Shun; Zou Yongliao. (2017). Dielectric properties estimation of the lunar regolith at CE-3 landing site using lunar penetrating radar data,Icarus, 284: 424-430. (SCI, JCR Q2)

22.Xiao, Yuan; Su, Yan; Dai, Shun; Feng, Jianqing;Ding, Chunyu; Xing, Shuguo; Li, Chunlai. (2017). Overview of the Martian Subsurface Exploration and Research Using Radar.Astronomical Research and Technology, (02): 192–211. (In Chinese)

23.Xing Shuguo; Su Yan; Feng Jianqing; Dai Shun; Xiao Yuan;Ding Chunyu; Li Chunlai. (2017). The penetrating depth analysis of Lunar Penetrating Radar onboard Chang'e-3 rover,Research in Astronomy and Astrophysics, 17(5). (SCI, JCR Q3)

24.Wang, Yaming; Su, Yan; Feng, Jianqing; Dai, Shun; Xing, Shuguo; Xiao, Yuan;Ding, Chunyu. (2016). A Review of Lunar Polar Exploration.Astronomical Research and Technology, 6:300–309. (CSCD, In Chinese)

25.Shun Dai; Yan Su; Yuan Xiao; Jianqing Feng; Shuguo Xing;Chunyu Ding. (2014). Echo simulation of lunar penetrating radar: based on a model of inhomogeneous multilayer lunar regolith structure,Research in Astronomy and Astrophysics, 14(12): 1642-1653. (SCI, JCR Q3)



会议论文/摘要

1.丁春雨*,常伊人,苏彦,王嘉伟. (2023). Rover-Mounted Radar Observation of Discrete Layers within the Top 4 Meters of Regolith at the Chang'E-3 Landing Site, the Moon",第三届中国空间科学大学.

1.丁春雨,李静,胡荣. (2023).雷达观测嫦娥四号着陆区浅表层火山活动踪迹,第十二届“月球科学与比较行星学、陨石学与天体化学”学术研讨会.

2.丁春雨*,熊思婷,李静,苏彦,黄少鹏. (2023).探月雷达对嫦娥四号着陆区月壤内部非均匀性的探测研究.第八届青年地学论坛,武汉.

3.丁春雨*. (2023).探月雷达在观测月球熔岩管道的研究.第五届青年行星论坛,三亚.

4.Chunyu Ding*; Shaopeng Huang*; Yan Su; Jiawei Li, (2022). Yutu-2 Radar sounding over the Chinese Chang’E-4 landing site on the far-side of the Moon. The thirteenth moscow solar systemsymposium 2022. Moscow

5.Ding Chunyu*. (2021). Mysteries from the far-side of the Moon revealed by the Ground penetrating radar onboard Chang'E-4 mission. IEICE Tech. Rep., vol. 121, no. 236, pp. 22–29.

6.丁春雨*;肖智勇;苏彦. (2021).探地雷达在勘探月球空洞/熔岩管道中的应用. 2022/2021年中国地球科学联合学术年会.

7.丁春雨*;黄少鹏*;李清泉;徐讲湾. (2021).利用玉兔号高频雷达数据估算嫦娥三号着陆区月壤氦-3资源储量.中国工程科技论坛会议.深圳

8.Ding, Chunyu; Xiao, Zhiyong; Su, Yan. (2021). A potential subsurface cavity in the continuous ejecta deposits of the Ziwei crater discovered by the Chang’E-3 mission. 2021年全国行星科学大会,苏州. pp. 76-77

9.Chunyu Ding; Zhiyong Xiao; Yan Su. (2020). Comparsion of the layering structure within lunar regolith at Chang’E -3 and Chang’E-4 landing site. Paper presented at the 2020 Annual meeting of Chinese Geoscience Union (In Chinese).

10.Ding Chunyu;Li Chunlai*; Xiao Zhiyong; Su, Yan; Xing Shuguo; Wang Yichen; Feng Jianqing; Dai Shun; Xiao Yuan; Yao Meijuan. (2019). Laminar structures in the porous material beneath the CE–3 landing site. Paper presented at the 4th international conference on lunar and deep space exploration.

11.Ding Chunyu*; Su Yan; Xiao Yuan; Wang Yanming. (2014). Numerical simulation of the Lunar penetrating radar for ground-test experiment based on ray tracing method. 2nd Imaging Radar Conference, Beijing.

12.邱小航;雷钟涵;丁春雨*. (2023).基于随机霍夫变换识别探月雷达图像中熔岩管道特征研究. 2023年中国地球科学联合学术年会.

13.Feng, X., Zhou, H., Dong, Z., Lu, Q., Liu, C., Liang, W., &Ding, C. (2023). Full-Polarization Analysis for Chang'E-4 Lunar Penetrating Radar Data Acquired During the Rover Turnings. In 2023 12th International Workshop on Advanced Ground Penetrating Radar (IWAGPR) (pp. 1-4). IEEE.

14.Shaopeng Huang*; Yuanzhou Liu;Chunyu Ding; Songmi. (2022). Heat flow measurement a priority for upcoming lunar missions. The thirteenth moscow solar system symposium 2022. Moscow

15.Zhou, H., Feng, X.,Ding, C., Dong, Z., Liu, C., & Liang, W. (2022). Polarization analysis for Chang’E-4 lunar penetrating radar data acquired during the rover turnings. In 19th International Conference on Ground Penetrating Radar (pp. 163-166). Society of Exploration Geophysicists.doi:10.1190/gpr2022-071.1

16.黄少鹏;叶新;朱平;丁春雨;宋蜜;李清泉. (2021).全球气候变化与地球辐射能量变化月基探测.中国工程科技论坛会议.深圳

17.Su, Y., Li, C., Dai, S., Fu, Q., Zhang, G.,Ding, C., Zhou, B., Wang, R., Zeng, X., Kong,D. and Zhu, X., (2020). A complex geological history at China’s Chang’E-4 landing site revealed by the Lunar Penetrating Radar. In 18th International Conference on Ground Penetrating Radar (pp. 444-447). Society of Exploration Geophysicists.

18.Xing, S., Su, Y., Dai, S.,Ding, C., Li, H., and Li, C. (2017). The penetration depth estimation of Chang’e-3 500MHz radar data using Correlation Coefficient Method. 2017 IEEE Radar Conference. doi:10.1109/radar.2017.7944299

19.Feng, J., Su, Y., Xing, S.,Ding, C. and Li, C., (2015). The properties of the lunar regolith at Chang'e-3 landing site: A study based on LPR data. In AGU Fall Meeting (pp. P51C- 2073).

20.Su, Y., Xing, S., Fewwng, J., Dai, S.,Ding, C., Xiao, Y... and Liu, B. (2015). Data Processing and Primary results of Lunar Penetrating Radar on Board the Chinese Yutu Rover. In EGU General Assembly Conference (Vol. 17, p. 4282).

21.Shun Dai; Shuguo Xing; Yuan Xiao; Jianqing Feng;Chunyu Ding;Yan Su.(2015). Preliminary analysis of lunar regolith characteristic within the Chang’e-3 rover’s route, 46th Lunar and Planetary Science Conference



发明专利

1.丁春雨;邱小航;一种月球次表层下方熔岩管道勘探方法及相关设备, 2023,中国, CN116413719A

2.丁春雨;苏彦;邢树果;封剑青;戴舜;肖媛;一种多尺度非均匀月壤层内离散随机介质建模方法, 2018,中国, CN2104992029B.

3.苏彦;邢树果;戴舜;封剑青;丁春雨;肖媛;李春来;一种测月雷达探测深度计算方法, 2015,中国, CN201510458029.9.

4.邢树果;苏彦;封剑青;戴舜;丁春雨;肖媛;李春来;一种基于相关系数分析法计算测月雷达探测深度的方法, 2015,中国, CN201510458312.1.



学术报告与科学传播

1.2024/3/14–16, 5分钟, Title "探月雷达勘探嫦娥三号和四号着陆区月球次表层熔岩管道的研究",国家自然科学基金委“月球与深空探测科学研究基金委专项项目”年度交流研讨会,北京

2.2024/1/12, 15分钟, Title " Radar observation of lava tube/subsurface cavity on the Moon in the Chinese deep space exploration mission",“中俄深空探测器热管理与适应性”学术研讨会, Online Meeting

3.2024/1/4, 90分钟, Title "行星雷达天文学在我国深空探测任务中的发展与未来展望",湖南工业大学,株洲,中国

4.2023/12/3–5, 15分钟, Title " Rover-Mounted Radar Observation of Discrete Layers within the Top 4 Meters of Regolith at the Chang'E-3 Landing Site, the Moon", 2023 IET International Radar Conference,重庆,中国(英文特邀报告)

5.2023/11/29, 90分钟, Title "行星雷达天文学在我国深空探测任务中的发展与未来展望",黔南民族师范学院,黔南州,中国

6.2023/11/28, 90分钟, Title "行星雷达天文学在我国深空探测任务中的发展与未来展望",中山大学逸仙智绘论坛,珠海,中国

7.2023/11/10–14, 60分钟, Title "Radar Observation in China's Lunar Exploration Program: Progress and Prospects". The 31th International Space Settlement Design Competition China Finals 2023-2024, Guangzhou, China. (Invited Speaker)

8.2023/10/23–27, 15分钟, Title "雷达天文技术在观测月球熔岩管道的研究", 2023年射电天文前沿和技术研讨会,贵阳,中国

9.2023/10/14–18, 11分钟, Title " Rover-Mounted Radar Observation of Discrete Layers within the Top 4 Meters of Regolith at the Chang'E-3 Landing Site, the Moon",第三届中国空间科学大学,德清,中国

10.2023/09/24–26, 10分钟, Title "雷达观测嫦娥四号着陆区浅表层火山活动踪迹",十二届月球科学与比较行星学会议,桂林,中国

11.2023/09/21, 90分钟, Title "行星雷达天文学在我国深空探测任务中的发展与未来展望",南方科技大学“地空学术讲座”第319期,深圳,中国

12.2023/07/14–15, 15分钟, Title "探月雷达在观测月球熔岩管道中的研究",粤港澳高校联盟青年学者论坛,珠海,中国

13.2023/06/13, 60分钟,Title "火星“天问一号”探测任务的“所见所闻”",东莞市东城中坚实验学校,东莞科协特邀科普报告,东莞,中国

14.2023/05/25–27, 20分钟, Title "嫦娥四号着陆区浅表层火山活动踪迹—雷达反演月壤特性参数证据",行星雷达仪器应用第三次研讨会,北京,中国

15.2023/05/24, 90分钟, Title "雷达技术在我国月球和火星探测任务中的最新进展",清华大学,北京,中国

16.2023/05/11-13, 90分钟, Title "探地雷达在月球和火星探测任务中的应用和研究进展",广州大学,广州,中国

17.2023/05/07, 120分钟, Title "探地雷达在月球和火星探测任务中的应用和研究进展",中国地质大学“机电讲坛”,武汉,中国

18.2023/05/6–8, 10分钟, Title "探月雷达对嫦娥四号着陆区月壤内部非均匀性的探测研究",第八届青年地学论坛,武汉,中国

19.2023/04/24–26, 120分钟, Title "探地雷达在月球和火星探测任务中的应用和研究进展",中南大学“名师名家”学术论坛,长沙,中国

20.2023/03/25–29, 15分钟, Title "探月雷达在观测月球熔岩管道中的研究",第五届青年行星论坛,三亚,中国

21.2022/12/06–09, 15分钟, Title "探地雷达在勘探月球空洞/熔岩管道中的应用", 2021/2022年中国地球科学年会探地雷达新进展专题.

22.2021/12/23, 60分钟,Title "中国载人航天与探月工程的历史与未来",东莞市虎门宇华学校,东莞科协特邀科普报告,东莞,中国

23.2022/11/04, 45分钟, Title "New discoveries observed by the lunar microwave radar in China Lunar Exploration Program (CLEP)". The 30th International Space Settlement Design Competition China Finals 2022-2023, Online. (Invited Speaker)

24.2022/10/10–14, 20分钟, Title "Yutu-2 Radar sounding over the Chinese Chang’E-4 landing site on the far-side of the Moon". The thirteenth moscow solar system symposium 2022. Moscow, Russia, Online

25.2021/12/21–23, 60分钟, Title "嫦娥四号月球微波雷达最新研究进展",中国科学院月球与深空探测重点实验室特邀报告,北京,中国

26.2021/11/11–12, 20分钟, Title " Mysteries from the far-side of the Moon revealed by the Ground penetrating radar onboard Chang'E-4 mission". ICSANE2021/Workshop on subsurface electromagnetic measurement. Japan. Online.

27.2021/11/19, 60分钟,Title "中国探月工程嫦娥五号飞天之旅",东莞市厚街河田小学,东莞科协特邀科普报告,东莞,中国

28.2021/11/01, 80分钟,Title "中国探月工程嫦娥五号飞天之旅",东莞市南城第七小学,东莞科协特邀科普报告,东莞,中国

29.2021/07/13, 60分钟,Title "New discovery of lunar penetrating radar in the geological surface process of the Moon",深圳大学高等研究院学术讲座第134期特邀报告,深圳,中国

30.2021/03/20–21, 15分钟, Title "火星梅杜莎槽沟层最西端区域介电特性反演研究",火星表面主要地质过程及生命与环境宜居性研究研讨会,仙桃,中国

31.2020/10/29, 120分钟, Title "行星雷达技术在月球探测的应用与若干科学问题的研究",吉林大学地质宫学术论坛特邀报告,长春,中国

32.2020/10/11–14, 15分钟, Title " Applications of planetary penetrating radar on exploration of the Moon, and investigations of several scientific problems", 9thInternational Conference on Environmental and Engineering Geophysics, Changchun, China.

33.2020/10/12–14, 20分钟, Title "行星雷达技术在月球探测的应用与若干科学问题的研究",中国天文学会2020年学术年会太阳与行星分会场,北京,中国(Online).

34.2020/10/17–21, Title " Layering Structures in the Porous Material Revealed by the Lunar Penetrating radar",中国地球科学年会天体化学与行星科学专题,重庆,中国

35.2019/11/01–04, 13分钟, Title " Compositional variations along the route of Yutu revealed by the lunar penetrating radar",中国天文学会行星科学与深空探测前沿研讨会,成都,中国.

36.2019/07/22–24, 15分钟, Title " Laminar structures in the porous material beneath the CE– 3 landing site", The 4thInternational Conference onlunar and Deep Space Exploration, Zhuhai, China.



获奖与证明

1.高等院校教师资格证书,2022年

2.深圳鹏城孔雀计划特聘人才,2021年

3.南方科技大学“校长卓越博士后”,2021年

4.《地球与行星物理论评》期刊优秀论文奖,2021年

5.中国工程科技论坛会议论文奖,2021年

6.中国科学院大学博士研究生全额学业奖学金, 2014至2017年

7.中国驻意大利大使馆留学回国人员证明,2016年

8.中国科学院研究生国际合作培养计划,全额奖学金,2015年

9.中国科学院大学“三好学生”荣誉称号,2015年

10.中国科学院国家天文台与AMD(超微半导体)一等奖学金,2014年

11.中国天文学会第三届青年天文论坛墙报竞赛人气奖,2014年

12.中国科学院大学公费硕士研究生,全额奖学金, 2012至2014年

13.中国科学技术大学研究生暑期学校结业证书,2012年


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