中国月球及深空空间环境探测

王赤; 张贤国; 徐欣锋; 孙越强

doi:10.15982/j.issn.2095-7777.2019.02.001

中国月球及深空空间环境探测

doi: 10.15982/j.issn.2095-7777.2019.02.001

1.
中国科学院国家空间科学中心, 北京 100190;中国科学院大学, 北京 100049
2.
中国科学院国家空间科学中心, 北京 100190;天基空间环境探测北京市重点实验室, 北京 100190;中国科学院空间环境态势感知技术重点实验室, 北京 100190
3.
中国科学院国家空间科学中心, 北京 100190
4.
中国科学院国家空间科学中心, 北京 100190;中国科学院大学, 北京 100049;天基空间环境探测北京市重点实验室, 北京 100190;中国科学院空间环境态势感知技术重点实验室, 北京 100190

The Lunar and Deep Space Environment Exploration in China

1.
National Space Science Center, Chinese Academy of Sciences, Beijing 100190, China;University of the Chinese Academy of Sciences, Beijing 100049, China
2.
National Space Science Center, Chinese Academy of Sciences, Beijing 100190, China;Beijing Key Laboratory of Space Environment Exploration, Beijing 100190, China;Key Laboratory of Science and Technology on Space Environment Situational Awareness, Chinese Academy of Sciences, Beijing 100190, China
3.
National Space Science Center, Chinese Academy of Sciences, Beijing 100190, China
4.
National Space Science Center, Chinese Academy of Sciences, Beijing 100190, China;University of the Chinese Academy of Sciences, Beijing 100049, China;Beijing Key Laboratory of Space Environment Exploration, Beijing 100190, China;Key Laboratory of Science and Technology on Space Environment Situational Awareness, Chinese Academy of Sciences, Beijing 100190, China

摘要: 深空探测承载着人类航天技术发展、探索宇宙奥秘和寻找地外生命及人类宜居地的重任，成为各航天大国关注的热点。我国月球与深空探测虽然起步晚，但起点高，正在追赶并将实现领先。简要回顾了我国月球及深空空间环境探测的载荷情况、数据结果、理论和应用研究成果，简述了当前在研的自主火星空间环境探测目标以及规划中的未来深空探测任务，并根据当前国际发展态势，及我国在研、规划中的月球及深空探测任务情况，分析了我国月球及深空空间环境探测的关键科学问题、载荷技术发展趋势、理论与模拟的研究需求，最后对深空环境探测进行了展望。
- 空间环境 /
- 空间天气 /
- 深空探测 /
- 月球探测
Abstract: The payloads,data results,simulations,theoretical and applied research results of Chinese lunar and deep space environment exploration are briefly reviewed. The scientific objectives of the ongoing Mars space environment exploration and the future deep space exploration missions are also described. The exploration strategy, payload development, theoretical and simulation approaches are suggested.
- space environment /
- space weather /
- deep space exploration /
- lunar exploration

[1]	OFCM. The national space weather program,the strategic plan, FCM-P30-1995.[EB/OL]. (1995)http://www.ofcm.gov/publications/spacewx/nswpp30.pdf.
[2]	刘振兴. 日地空间环境的监测和预报[J]. 大自然探索,1996(4):3-5.
[3]	魏奉思. 空间天气学[J]. 地球物理学进展,1999,14(s1):1-7. WEI F S. Space weather[J]. Progress in Geophysics,1999,14(s1):1-7.
[4]	王赤. 空间物理和空间天气探测与研究[J]. 中国工程科学,2008, 10(6):41-45. WANG C. Exploration and research of space physics and space weather[J]. Engineering Science,2008,10(6):41-45.
[5]	LEACH R D,ALEXANDER M B. Spacecraft system failures and anomalies attributed to the natural space environment[R]. Huntsville, AL,United States:National Aeronautics & Space Administration NASA Reference Publication,1996.
[6]	朱光武,李保权. 空间环境对航天器的影响及其对策研究[J]. 上海航天,2002,19(4):1-7. ZHU G W,LI B Q. Space environment and effect and countermeasure research on spacecraft[J]. Aerospace Shanghai,2002,19(4):1-7.
[7]	朱光武,李保权. 空间环境对航天器的影响及其对策研究(续)[J]. 上海航天,2002,19(5):9-16. ZHU G W,LI B Q. Space environment and effect and countermeasure research on spacecraft[J]. Aerospace Shanghai,2002,19(5):9-16.
[8]	冯伟泉,徐焱林. 归因于空间环境的航天器故障与异常[J]. 航天器环境工程,2011,28(4):375-389. FENG W Q,XU Y L. Space failures and anomalies related with space environment[J]. Spacecraft Environment Engineering,2011, 28(4):375-389.
[9]	薛玉雄,杨生胜,把得东,等空间辐射环境诱发航天器故障或异常分析[J]. 真空与低温,2012,18(2):63-70. XUE Y X,YANG S S,BA D D,et al. Analysis of spacecraft system failures and anomalies attributed to the natural space radiation environment[J]. Vacuum & Cryogenics,2012,18(2):63-70.
[10]	赵晶. 空间环境对航天器影响的统计分析[J]. 航天器环境工程, 1998(4):41-53. ZHAO J. The statistical figures of spacecraft system failures and anomalies attributed to the natural space environment[J]. Spacecraft Environment Engineering,1998(4):41-53.
[11]	陈磊,李飞,任德鹏,等. 月面和近月空间环境及其影响[J]. 航天器工程,2010,19(5):76-81. CHEN L,LI F,REN D P,et al. Lunar surface and near lunar space environments and their effects[J]. Spacecraft Engineering,2010,19(5):76-81.
[12]	陈凤贵,王胜国,谢志辉,等. 空间环境对载人登月活动的影响及保障需求研究[J]. 装备环境工程,2014,11(1):77-96. CHEN F G,WANG S G,XIE Z H,et al. Research on the effects of space weather and support needs in manned lunar landing[J]. Equipment Environmental Engineering,2014,11(1):77-96.
[13]	GARRETT H,WHITTLESEY A,DAUGHTRIDGE S. Environment induced anomalies on the TDRS and the role of spacecraft charging[J]. Journal of Spacecraft and Rockets,1985,28(3):324-329.
[14]	朱光武,王世金. 日地空间环境探测[J]. 世界科技研究与发展, 2000,22(3):36-38. ZHU G W,WANG S J. Sun-Earth space environment detect[J]. World Sci-Tech R&D,2000,22(3):36-38.
[15]	刘振兴. 我国空间环境监测和预报系统亟待加强[J]. 中国科学院院刊,1997，12(3):218-220. LIU Z X. It's urgent to strengthen our space flight system on monitoring the environment & forecasting[J]. Bulletin of the Chinese Academy of Sciences，1997，12(3):218-220.
[16]	龚建村,刘四清,师立勤,等. 空间环境天基探测现状与需求分析[J]. 空间科学学报,2009,29(3):346-352. GONG J C,LIU S Q,SHI L Q,et al. Status and demand analysis of space-based observation of space environment[J]. Chinese Journal of Space Science,2009,29(3):346-352.
[17]	范全林,王琴,白青江. 2018年深空探测热点回眸[J]. 科技导报,2019,37(1):52-64. FAN Q L,WANG Q,BAI Q J. Review of 2018 global deep space activities[J]. Science & Technology Review,2019,37(1):52-64.
[18]	SIDDIQI A A. Beyond Earth:a chronicle of deep space exploration, 1958-2016[EB/OL]. (2019-2-28). https://history.nasa.gov/series95.html.
[19]	叶培建,邹乐洋,王大轶,等. 中国深空探测领域发展及展望[J]. 国际太空,2018(10):4-10. YE P J,ZOU LY,WANG D Y,et al. Development and prospect of Chinese deep space exploration[J]. Space International,2018(10):4-10.
[20]	欧阳自远,李春来,邹永廖,等. 深空探测的进展与我国深空探测的发展战略[J]. 中国航天,2002(12):28-32. OUYANG Z Y,LI C L,ZOU Y L,et al. Progress of deep space exploration and Chinese deep space exploration strategy[J]. Aerospace China,2002(12):28-32.
[21]	叶培建,彭兢. 深空探测与我国深空探测展望[J]. 中国工程科学, 2006,8(10):13-18. YE P J,PENG J. Deep space exploration and its prospect in China[J]. Engineering Science,2006,8(10):13-18.
[22]	吴伟仁,于登云. 深空探测发展与未来关键技术[J]. 深空探测学报,2014,1(1):5-17. WU W R,YU D Y. Development of deep space exploration and its future key technologies[J]. Journal of Deep Space of Exploration, 2014,1(1):5-17.
[23]	孙辉先,李慧军,张宝明,等. 中国月球与深空探测有效载荷技术的成就与展望[J]. 深空探测学报,2017,4(6):495-509. SUN H X,LI H J,ZHANG B M,et al. Achievements and prospects of payloads technology in Chinese lunar and deep space explorations[J]. Journal of Deep Space of Exploration,2017,4(6):495-509.
[24]	新华. 中国未来将实施四次重大深空探测任务[J]. 太空探索,2017(3):5-5.
[25]	王馨悦,张爱兵,荆涛,等. 高能电子爆发与绕月卫星表面电位大幅下降的联动效应研究[J] 地球物理学报,2016,18(5):585-589. WANG X Y,ZHANG A B,JING T,et al. Synchronization of energetic electron bursting and lunar orbiter surface charging to negative kilovots[J] Chinese Journal of Geophysics,2016,18(5):585-589
[26]	王馨悦,荆涛,张珅毅,等. 嫦娥一号卫星太阳高能粒子探测器的首次观测结果[J]. 地球物理学进展,2012,27(6):2289-2295. WANG X Y,JING T,ZHANG S Y,et al. The first results of Chang'e-1 high energetic particles detector[J]. Progress in Geophysics,2012,27(6):2289-2295.
[27]	WANG X Y,ZHANG A B,ZHANG X G,et al. Bursts of energetic electron induced large surface charging observed by Chang'E-1[J]. Planetary & Space Science,2012,71(1):1-8.
[28]	KONG L G,WANG S J,WANG X Y,et al. In-flight performance and preliminary observational results of Solar Wind Ion Detectors (SWIDs)on Chang'E-1[J]. Planetary & Space Science,2012,62(1):23-30.
[29]	欧阳自远. 嫦娥一号卫星的初步科学成果与嫦娥二号卫星的使命[J]. 航天器工程,2010,19(5):1-6. OUYANG Z Y. Science results of Chang'e-1 lunar orbiter and mission goals of Chang'e-2[J]. Spacecrafts Engineering,2010,19(5):1-6.
[30]	OUYANG Z Y,LI C L,LIAO Z Y,et al. Chang'E-1 lunar mission:an overview and primary science results[J]. Chinese Journal of Space Science,2010,30(5):392-403.
[31]	WANG X D,BIAN W,WANG J S,et al. Acceleration of scattered solar wind protons at the polar terminator of the Moon:results from Chang'E 1/SWIDs[J]. Geophysical Research Letters,2010,37(7):1-5.
[32]	王馨悦,张爱兵,荆涛,等. 近月空间带电粒子环境——"嫦娥1号" "嫦娥2号"观测结果[J]. 深空探测学报,2019,6(2):1-8. WANG X Y,ZHANG A B,JING T,et al. The lunar charged particle environment by Chang'E-1 and Chang'E-2[J]. Journal of Deep Space Exploration,2019,6(2):1-8.
[33]	吴季,朱光武,赵华,等. 萤火一号火星探测计划的科学目标[J]. 空间科学学报,2009,29(5):449-455. WU J,ZHU G W,ZHAO H,et al. Overview of science objectives of China-Russia joint Mars exploration program YH-1[J]. Chinese Journal of Space Science,2009,29(5):449-455.
[34]	孙越强,吕良庆,王世金,等. 萤火一号火星探测器有效载荷分系统设计[J]. 上海航天,2013,30(4):159-163. SUN Y Q,LV L Q,WANG S J,et al. Design of payload subsystem of YH-1 Mars probe[J]. Aerospace Shanghai,2013,30(4):159-163.
[35]	李磊,张爱兵,孔令高,等. 火星等离子体环境探测[J]. 空间科学学报,2009,29(5):462-465. LI L,ZHANG A B,KONG L G,et al. Exploring the plasma environment of Mars[J]. Chinese Journal of Space Science,2009,29(5):462-465.
[36]	孔令高,张爱兵,王世金,等. 萤火一号火星探测器离子分析器设计和仿真技术[J]. 上海航天,2013,30(4):164-168. KONG L G,ZHANG A B,WANG S J,et al. Design and simulation of iron analyzer onboard YH-1 Mars probe[J]. Aerospace Shanghai, 2013,30(4):164-168.
[37]	张爱兵,孔令高,王世金,等. 萤火一号火星探测器电子分析器设计和试验[J]. 上海航天,2013,30(4):187-191. ZHANG A B,KONG L G,WANG S J,et al. Design and test of electron analyzer onboard YH-1 Mars probe[J]. Aerospace Shanghai, 2013,30(4):187-191.
[38]	王劲东,赵华,周斌,等. 火星空间环境磁场探测研究——"萤火一号"磁强计的研制与应用[J]. 物理,2009,38(11):785-792. WANG J D,ZHAO H,ZHOU B,et al. Martian space environment magnetic field research:development and application of the YH-1 precision magnetometer[J]. Physics,2009,38(11):785-792.
[39]	周斌,赵华,王劲东,等. 火星空间环境磁场探测研究——高精度磁强计[J]. 空间科学学报,2009,29(5):467-474. ZHOU B,ZHAO H,WANG J D,et al. Martian space environment magnetic field investigation-high accuracy magnetometer[J]. Chinese Journal of Space Science,2009,29(5):467-474.
[40]	孙越强,杜起飞,朱光武,等. 中俄联合火星电离层星-星掩星探测[J]. 空间科学学报,2009,29(5):475-479. SUN Y Q,DU Q F,ZHU G W,et al. Joint Russian-Chinese satelliteto-satellite joint Russian-Chinese satellite-to-satellite martian radio occultation experiment[J]. Chinese Journal of Space Science,2009, 29(5):475-479.
[41]	贾瑛卓,邹永廖,薛长斌,等. 嫦娥四号任务科学目标和有效载荷配置[J]. 空间科学学报,2018,38(1):118-130. JIA Y Z,ZOU Y L,XUE C B,et al. Scientific objectives and payloads of Chang'E-4 Mission[J]. Chinese Journal of Space Science, 2018,38(1):118-130.
[42]	薛长斌,周晴,王雷,等."嫦娥4号"任务有效载荷系统设计与实现[J]. 深空探测学报,2017,4(6):516-521. XUE C B,ZHOU Q,WANG L,et al. Design and implementation of payload system in Chang'e-4 mission[J]. Journal of Deep Space of Exploration,2017,4(6):516-521.
[43]	朱岩,白云飞,王连国,等. 中国首次火星探测工程有效载荷总体设计[J]. 深空探测学报,2017,4(6):510-514. ZHU Y,BAI Y F,WANG L G,et al. Integral technical scheme of payloads system for Chinese Mars-1 exploration[J]. Journal of Deep Space of Exploration,2017,4(6):510-514.
[44]	王馨悦,张爱兵,孔令高,等. 嫦娥一号卫星太阳风离子探测器离子流量反演太阳风参数与初步结果分析[J]. 空间科学学报,2013, 33(2):143-150. WANG X Y,ZHANG A B,KONG L G,et al. In-flight experiment of Solar wind ion detectors on Chang'E-1 and the Solar wind near the Moon[J]. Chinese Journal of Space Science,2013,33(2):143-150.
[45]	石红,田立成,杨生胜. 嫦娥一号卫星太阳风离子探测器数据分析[J]. 物理学报,2014,63(6):069601(1-7). SHI H,TIAN L C,YANG S S. Analysis of data obtained by the solar wind ion detector on board the chang'e-1 lunar orbiter[J]. Acta Physica Sinica,2014,63(6):069601(1-7).
[46]	ZHONG J,XIE L,ZHANG H,et al. Chang'E-1 observations of pickup ions near the Moon under different interplanetary magnetic field conditions[J]. Planetary & Space Science,2013,80(s79-80):56-63.
[47]	ZHONG J,XIE L,PU Z Y,et al. Features of solar wind ions near the Moon observed by spacecraft Chang'E-1[J]. Spacecraft Environment Engineering,2013,30(3):225-229.
[48]	WANG X D,ZONG Q G,WANG J S,et al. Detection of m/q=2 pickup ions in the plasma environment of the Moon:The trace of exospheric H²⁺[J]. Geophysical Research Letters,2011,38(14):209-216.
[49]	WANG X Q,CUI J,WANG X D,et al. The solar wind interactions with lunar magnetic anomalies:a case study of the Chang'E-2 plasma data near the serenitatis antipode[J]. Advances in Space Research, 2012,50(12):1600-1606.
[50]	崔峻,王晓倩,王晓栋,等. 月球微磁层的探测[J]. 物理,2012,41(6):392-397. CUI J,WANG X Q,WANG X D,et al. Observation of lunar minimagnetospheres[J]. Physics,2012,41(6):392-397.
[51]	王洁,秦刚. 基于嫦娥一号高能粒子数据的地球磁层屏蔽效应研究[J]. 空间科学学报,2013,33(5):532-539. WANG J,QIN G. Study of magnetospheric shielding effect with energetic particles data from Chang'E-1[J]. Chinese Journal of Space Science,2013,33(5):532-539.
[52]	XIE L,LI L,ZHANG Y,et al. Three-dimensional Hall MHD simulation of lunar minimagnetosphere:general characteristics and comparison with Chang'E-2 observations[J]. Journal of Geophysical Research Space Physics,2015,120(8):6559-6568.
[53]	毛凯憨,孙延奎,张田,等. 嫦娥一号高能粒子分布数据的可视化[J]. 计算机辅助设计与图形学学报,2011,23(4):682-688. MAO K H,SUN Y K,ZHANG T,et al. Visualizing the distribution of the energetic particle data acquired by Chang'E-1 exploration[J]. Journal Of Computer-Aided Design & Computer Graphics,2011,23(4):682-688.
[54]	ZHANG T,SUN Y,TANG Z. 3D visualization of solar wind ion data from the Chang'E-1 exploration[J]. Computers & Geosciences, 2011,37(10):1711-1718.
[55]	张田,孙延奎,唐泽圣. 嫦娥一号太阳风离子数据在月表分布的可视化[J]. 中国图象图形学报,2011,16(3):488-494. ZHANG T,SUN Y K,TANG Z S. Visualization of the distribution of the solar wind ion flux data above the moon surface based on Chang' E-1 exploration[J]. Journal of Image and Graphics,2011,16(3):488-494.
[56]	XIONG J,WONG H C,WONG U H,et al. An intuitive software framework for visualizing the solar wind ion data from Chang'E-1 lunar orbiter[C]//Proceedings-4th International Congress on Image and Signal Processing. Shanghai,China:IEEE,2011.

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中国月球及深空空间环境探测

doi: 10.15982/j.issn.2095-7777.2019.02.001

The Lunar and Deep Space Environment Exploration in China

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中国月球及深空空间环境探测

doi: 10.15982/j.issn.2095-7777.2019.02.001

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The Lunar and Deep Space Environment Exploration in China

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中国月球及深空空间环境探测

doi: 10.15982/j.issn.2095-7777.2019.02.001

The Lunar and Deep Space Environment Exploration in China

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中国月球及深空空间环境探测

doi: 10.15982/j.issn.2095-7777.2019.02.001

English Abstract

The Lunar and Deep Space Environment Exploration in China

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目录