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1.
Wu Ji Li Dihui Zhang Xiaohui Jiang Jingshan A. T. Altyntsev B. I. Lubyshev 《Journal of Earth System Science》2005,114(6):627-632
Among many scientific objectives of lunar exploration, investigations on lunar soil become attractive due to the existence
of He3 and ilmenite in the lunar soil and their possible utilization as nuclear fuel for power generation. Although the composition
of the lunar surface soil can be determined by optical and γ/X-ray spectrometers, etc., the evaluation of the total reserves
of He3 and ilmenite within the regolith and in the lunar interior are still not available. In this paper, we give a rough analysis
of the microwave brightness temperature images of the lunar disc observed using the NRAO 12 meter Telescope and Siberian Solar
Radio Telescope. We also present the results of the microwave dielectric properties of terrestrial analogues of lunar soil
and, discuss some basic relations between the microwave brightness temperature and lunar soil properties. 相似文献
2.
3.
Robin Brett 《Geochimica et cosmochimica acta》1973,37(1):165-170
Several workers have proposed that lunar samples were magnetized by a field created by a lunar core of molten Fe. Low abundances of siderophile elements in lunar rocks are compatible with formation of a metallic lunar core. A molten Fe core requires that the bulk of the Moon was above, or close to, the melting point, a requirement which disagrees with most models of the lunar thermal regime.A core (or perhaps a layer or pockets) of molten Fe-Ni-S, at or close to the eutectic composition would act as a lunar dynamo, and be at a temperature (approx. 1000°C) consistent with some reasonable models of lunar thermal history. The existence of a Fe-Ni-S core would also partly explain the depletion in volatile elements in lunar basalts. Such a core, occupying up to 20 per cent of the Moon's radius requires a bulk S content for the moon of only 0.3 wt per cent. 相似文献
4.
SMART-1 after lunar capture: First results and perspectives 总被引:1,自引:0,他引:1
B. H. Foing G. D. Racca A. Marini E. Evrard L. Stagnaro M. Almeida D. Koschny D. Frew J. Zender D. Heather M. Grande J. Huovelin H. U. Keller A. Nathues J. L. Josset A. Malkki W. Schmidt G. Noci R. Birkl L. Iess Z. Sodnik P. McManamon 《Journal of Earth System Science》2005,114(6):689-697
SMART-1 is a technology demonstration mission for deep space solar electrical propulsion and technologies for the future.
SMART-1 is Europe’s first lunar mission and will contribute to developing an international program of lunar exploration. The
spacecraft was launched on 27th September 2003, as an auxiliary passenger to GTO on Ariane 5, to reach the Moon after a 15-month
cruise, with lunar capture on 15th November 2004, just a week before the International Lunar Conference in Udaipur. SMART-1
carries seven experiments, including three remote sensing instruments used during the mission’s nominal six months and one
year extension in lunar science orbit. These instruments will contribute to key planetary scientific questions, related to
theories of lunar origin and evolution, the global and local crustal composition, the search for cold traps at the lunar poles
and the mapping of potential lunar resources 相似文献
5.
月球表面的元素和物质成分分布是理解月球成岩与地质演化历史的重要线索。嫦娥一号干涉成像光谱仪(IIM)是我国首台月球探测成像光谱仪器,其获得的大量月球高光谱数据已成为我国未来探测月球成分与地质演化研究的宝贵基础数据。本文利用探月工程地面应用系统发布的IIM B版本2C级数据,开发出一套数据再定标流程,获得了较为可靠的月表相对反射率数据。我们在新校正数据的基础上开展月球表面FeO、TiO_2的反演建模,获得了全月FeO和TiO_2分布图,这些图件是进行月球地质填图的基础。校正数据反演的FeO和TiO_2分布与前人对Clementine UVVIS数据的反演结果相近,表明干涉成像光谱仪数据具有较大的应用潜力。高地的低铁岩石成分(一般小于8%)佐证了月球月壳形成的过程中的岩浆洋分异假说,而月海玄武岩的TiO_2成分变化范围较大(0~13%)则表明月海玄武岩来源于不同的月幔源区。根据嫦娥一号干涉成像光谱仪全月FeO分布图,可将月球表面物质类型总体划分为高地斜长岩和月海玄武岩,而根据TiO_2分布可以进一步将月海玄武岩划分为5种不同钛含量的玄武岩岩石类型。FeO和TiO_2在全月范围内的分布表明Apollo和Luna返回的月球样品不能够代表全月范围内的矿物成分多样性,月球岩浆演化历史比前人认为的要复杂。未来月球样品返回任务(如嫦娥五号)如能赴这些特殊地区进行取样,将很有可能返回重要的月球科学研究发现和成果。 相似文献
6.
Randy L Korotev Bradley L Jolliff Jeffrey J Gillis 《Geochimica et cosmochimica acta》2003,67(24):4895-4923
We present new compositional data for six feldspathic lunar meteorites, two from cold deserts (Yamato 791197 and 82192) and four from hot deserts (Dhofar 025, Northwest Africa 482, and Dar al Gani 262 and 400). The concentrations of FeO (or Al2O3) and Th (or any other incompatible element) together provide first-order compositional information about lunar polymict samples (breccias and regoliths) and regions of the lunar surface observed from orbit. Concentrations of both elements on the lunar surface have been determined from data acquired by orbiting spacecraft, although the derived concentrations have large uncertainties and some systematic errors compared to sample data. Within the uncertainties and errors in the concentrations derived from orbital data, the distribution of FeO and Th concentrations among lunar meteorites, which represent ∼18 source regions on the lunar surface, is consistent with that of 18 random samples from the surface. Approximately 11 of the lunar meteorites are low-FeO and low-Th breccias, consistent with large regions of the lunar surface, particularly the northern farside highlands. Almost all regoliths from Apollo sites, on the other hand, have larger concentrations of both elements because they contain Fe-rich volcanic lithologies from the nearside maria and Th-rich lithologies from the high-Th anomaly in the northwestern nearside. The feldspathic lunar meteorites thus offer our best estimate of the composition of the surface of the feldspathic highlands, and we provide such an estimate based on the eight most well-characterized feldspathic lunar meteorites. The variable but high (on average) Mg/Fe ratio of the feldspathic lunar meteorites compared to ferroan anorthosites confirms a hypothesis that much of the plagioclase at the surface of the feldspathic highlands is associated with high-Mg/Fe feldspathic rocks such as magnesian granulitic breccia, not ferroan anorthosite. Geochemically, the high-Mg/Fe breccias appear to be unrelated to the mafic magnesian-suite rocks of the Apollo collection. Models for the formation of the upper lunar crust as a simple flotation cumulate composed mainly of ferroan anorthosite do not account for the complexity of the crust as inferred from the feldspathic lunar meteorites. 相似文献
7.
月尘是广泛分布于月球表面的微小颗粒,大小约在30 nm~20 μm之间,95%以上小于2 μm,中值粒径约为100~300 nm,形态复杂多变,以玻璃小球、气泡构造、棱角状碎片为主,含有大量纳米颗粒金属铁和玻璃质,玻璃质含量超过50%,尤其是<2 μm的部分中,玻璃质含量高达80%~90%,化学成分与月壤基本类似,在不同地貌单元也体现出SiO2含量的差异.月尘的成分和颗粒特征使其具有独特的电磁性质和生物毒性,容易粘附于航天器表面和进入航天员体内,危害航天器和航天员的安全和健康,严重影响月面探测的正常实施.因此,对月尘的研究是保证月面探测工程正常实施的迫切需要;同时,月尘是月球表面物质经历长期的太空作用形成的,在颗粒成分和结构特征上保留了其演化过程的重要信息,是研究月表物质和大气演化、太空风化作用等科学问题的关键线索.但是目前对月尘的颗粒微观成分和结构差异、电磁特性和光学特性,纳米金属铁的特征和成因等方面的研究还不够深入,限制了月表物质演化历史的研究和月尘粘结腐蚀性、生物毒理学具体机理的认识.在月尘研究中利用模拟月尘弥补月尘样品稀缺的局限,并通过模拟实验加强以上方面的研究,能够更好地满足科学问题和工程探测的实际需要. 相似文献
8.
月球极区冻结模拟月壤物理力学特性研究 总被引:1,自引:0,他引:1
近年来越来越多的探测结果表明,月球极区永久阴影区月壤中存在水冰。水是人类赖以生存的化学物质,也是理解月球独特的形成与演化过程的关键环节。因此,各航天大国均将月球极区作为探月工程的重要目标。冻结月壤的导热系数和单轴抗压强度是月球极区原位探测取样的基础和关键参数。本研究采用低温试验研究了冻结模拟月壤的导热系数和单轴抗压强度。结果表明:冻结模拟月壤导热系数随含水率增大而线性增大,冻结模拟月壤的导热系数为0.2~1.3 W?m-1?K-1。冻结模拟月壤单轴压缩过程中发生脆性破坏,5%含水率冻结模拟月壤单轴抗压强度约为5 MPa,10%含水率冻结模拟月壤单轴抗压强度约为13 MPa。在初始加载阶段,干密度相同、含水率不同的冻结模拟月壤试样因微裂纹压密导致的应变量基本相同;在线弹性阶段,冻结模拟月壤有效弹性模量随含水率增大而增大,其主要原因是含水率增大使得月壤颗粒间的冻结强度增大;在破坏阶段,含水率较高的冻结模拟月壤表现出脆性破坏特征,含水率较低的冻结模拟月壤表现出更显著的塑性特征。研究结果将为月球永久阴影区水冰探测方案制定、探测器研制等提供基础的科学数据支撑。 相似文献
9.
月壤双轴试验的剪切带离散元数值分析 总被引:2,自引:0,他引:2
土体的破坏问题一般都是从其剪切带入手进行研究的。针对真实月壤所处的环境(无水、低重力场、低气压等)和内摩擦角较大的特点,采用最近提出的1种考虑粒间抗转动作用与粒间范德华力2个因素的月壤散粒体力学接触模型,用离散单元法模拟了柔性边界条件下月球环境(含范德华力)与地球环境(不含范德华力)2种试样的双轴压缩试验,通过试样局部变形、速度场、孔隙比及转动场的变化情况研究了2种试样剪切带形成与发展。研究结果表明,剪切带的形成是试样内部应变局部化的结果,同时也伴随着试样内部颗粒相对转动的局部化,月面环境对试样的破坏形式与性状(剪切带的倾角及厚度)有显著的影响,探月工程中必须考虑到月面环境对月壤力学性质的影响。 相似文献
10.
1Introduction Thelightscatteredfromthesurfacesofsolarsys temobjectsbearsinformationonthenatureoftheirsur faces,whichcanimproveourknowledgeontheorigin andevolutionofthewholesolarsystem.Theopposition effectreferstothenarrowpeakintheintensityoflight scatteredfromaparticulatemediumdirectlybackin thedirectiontowardthesource,whichalsomeansthe brightnessincreaseswithdecreasingsolarphaseangle (Hapkeetal.,1998).Itisoneofthemajorchallen gesinopticsofplanetarysurfaces.Seeliger(1887) discoveredfirstly… 相似文献
11.
The most fundamental character of lunar soil is its high concentrations of solar-wind-implanted elements, and the concentrations and behavior of the noble gases He, Ne, Ar, and Xe, which provide unique and extensive information about a broad range of fundamental problems. In this paper, the authors studied the forming mechanism of lunar regolith, and proposed that most of the noble gases in lunar regolith come from the solar wind. Meteoroid bombardment controls the maturity of lunar soil, with the degree of maturation decreasing with grain size; the concentrations of the noble gases would be of slight variation with the depth of lunar soil but tend to decrease with grain size. In addition, the concentrations of noble gases in lunar soil also show a close relationship with its mineral and chemical compositions. The utilization prospects of the noble gas ^3He in lunar regolith will be further discussed. 相似文献
12.
With the continuous development of science and technology and the human understanding of the moon, many scientists have planned the creation of a space station on the moon using lunar building materials. Environmental factors mainly include large temperature differentials, and the presence of a hard vacuum on the surface of the moon is a huge challenge for the performance of lunar building materials. Geopolymer materials have the following properties: approximately zero water consumption, resistance to high- and low-temperature cycling, vacuum stability and good mechanical properties. Additionally, they meet most of the requirements for use in the lunar environment. Here, we present a potential lunar cement material that was fabricated using volcanic ash and sodium hydroxide solution as activator, based on geopolymer technology. The compressive strengths of the volcanic ash geopolymer specimens processed for 24 h under vacuum conditions and 30 freeze-thaw cycles in liquid nitrogen are 45.53 and 44.95 MPa, respectively. Additionally, 98.61% of water could be recycled, in consistence with the water recycling-simulated lunar environment in the lab. Although volcanic ash is not equivalent to the lunar soil, we speculate that the alkali activation of lunar soil could be very close to that of volcanic ash because of their similar chemical and mineralogical composition. In summary, this study provides a feasible approach for the development of near-zero water consumption lunar cement materials based on geopolymer technology. 相似文献
13.
月球的构造演化:嫦娥月图解释的理论基础 总被引:7,自引:0,他引:7
基于月球研究资料的整理、综合及嫦娥1月图影像的实例解读和解释,本文介绍并总结了月球的构造及演化研究的若干概念、研究思路和新的观点。通过纲要性勾画,描绘月球不同类型和阶段构造演化的基本轮廓,重点论述了四个方面的问题:对月面建造历史和月球演化的历史进行了修正,将月球演化按照其特点三分为冥、古、新月宙/界,并提出建立南海纪/系的主张;以东海Hevelius抛射建造(/东海群)分析为例,主张建立构造一建造综合分析思路;从抛射建造与月面相互作用的角度,提出并阐述了掘积系统的概念、掘积系统内外带之间划分的新标志即蚀积盂及其所组成的捩侵蚀带(TSZ);在月球表面形貌构造区划分析的基础上,通过对月盆、月海的时空分布规律的分析、综合,提出月球晚期大轰击(LHB)所造成的月盆开掘期间,具有“轰击漂移”现象,并推测月球LHB过程中出现准对跖翻转;通过对古老月陆区所保存的线性构造解读和构造形迹的组合关系分析,尝试性地提出在冥月宙月球岩浆洋(LMO)演化晚期可能存在单板模式的月全球构造。月球构造演化从初始阶段的LMO所驱动的内动力体制转向冲击造成的外动力体制。 相似文献
14.
月面环境与月壤特性研究的主要问题探讨 总被引:6,自引:0,他引:6
月面环境与月壤特性是月球探测和月球科学研究的重要基础,对它们的研究一直在不断加深,本文对月球表面地形地貌、热环境以及月壤特性三个方面的研究现状进行了总结,初步分析了这三个方面研究目前存在的一些主要问题:(1)地形地貌对月球定量遥感的影响以及南极艾特肯(SPA)盆地等地貌单元的年代学划分和成因演化;(2)月面热辐射、月表物理温度和热流等月面热环境特征的进一步探测和全面分析,以及其对地球反照率变化的响应;(3)月壤形成演化过程及空间风化作用,月球极区氢富集机制和水冰探测,以及月球资源开发利用。 相似文献
15.
Ilmenite has played an important role in the petrogenesis of lunar high-Ti picritic magmas, and armalcolite is another high-Ti oxide that was first discovered on the moon. In this study, we examined the thermodynamic stability of ilmenite and armalcolite in the context of lunar cumulate mantle overturn. Two starting compositions were explored, an ilmenite-bearing dunite (olivine + ilmenite) and an ilmenite-bearing harzburgite (olivine + orthopyroxene + ilmenite). Experiments were conducted using a 19.05 mm piston-cylinder apparatus at temperatures of 1235-1475 °C and pressures of 1-2 GPa. In runs with the ilmenite-bearing dunite mixture, ilmenite is stable in the subsolidus assemblage at least up to 1450 °C and 2 GPa. In runs with the ilmenite-bearing harzburgite starting mixture, ilmenite is stable at pressures greater than 1.4 GPa, and armalcolite is stable at lower pressures. Solidi for both starting compositions were determined, and the phase boundary between ilmenite- and armalcolite-bearing harzburgite was shown to have little dependence on temperature. During lunar cumulate overturn, sinking ilmenite formed near the end of lunar magma ocean solidification transforms into armalcolite when in contact with harzburgite cumulates at depths of less than 280 km in the lunar mantle. Inefficient overturn could leave isolated, inhomogeneously distributed pockets of armalcolite-bearing harzburgite in the upper lunar mantle, underlain by an ilmenite-bearing lower lunar mantle. These high-Ti oxide-bearing harzburgitic pockets can serve as potential sources for the generation of high-Ti magmas through partial melting or through assimilation of high-Ti minerals during transport of low-Ti picritic magmas in the lunar mantle.FeO-MgO exchange between olivine and either ilmenite or armalcolite was also examined in this study. We found the FeO-MgO distribution coefficient to be effectively independent of temperature for the pressures, temperatures, and compositions explored, with an average value of 0.179 ± 0.008 for olivine/ilmenite and 0.319 ± 0.021 for olivine/armalcolite. Given the bulk composition of an overturned lunar cumulate mantle, our measured FeO-MgO distribution coefficients can be used to estimate the Mg# of coexisting minerals in armalcolite- or ilmenite-bearing harzburgite and dunite in the overturned lunar mantle. Finally, the transformation from ilmenite-bearing harzburgite to armalcolite-bearing harzburgite results in a density increase of up to 2%. Large armalcolite-bearing cumulate bodies in the upper lunar mantle may be detectable in future lunar geophysical experiments. 相似文献
16.
中国嫦娥工程三期将进行月球样品的采集与返回,这是继美国Apollo和前苏联Luna之后,国际上最新的月球样品返回计划。月球样品的存储与管理方法将成为中国探月工程中亟待解决的重要问题之一。特别是如何最大程度地保持月球样品的科学研究价值,避免或减少可能的样品污染等问题,不仅为工程部门所关心,也是月球科学家所极为关注的问题。文中主要回顾和总结了美国Apollo月球样品的处理与保存方法,包括月球样品实验室简况、月球样品初步处理方法、月球样品初步测试分析及相关实验简介和月球样品的保存方法等内容,以期为中国月球样品的返回和地面存储提供有益的借鉴。 相似文献
17.
WANG Xiang CHEN Jianping XU Yanbo ZHENG Yongchun YAN Bokun WU Yunzhao 《《地质学报》英文版》2015,89(6):1882-1894
Spectra are sensitive in detecting main minerals on the lunar surface from visible light to infrared light. Since spectral characteristics of minerals are closely related to their compositions and the maturity level of soil on the Moon, studying the compositions and distribution of elements and minerals on the lunar surface can help to understand the evolution of the Moon through remote sensing technology. The correlation between the spectral characteristics of Chang’e-1 interference imaging spectrometry (IIM) reflectance images and the mineral contents of LSCC (Lunar Soil Characterization Consortium) lunar surface mineral samples was discussed and the spatial distributions of FeO and Al2O3 contained in both pyroxene and plagioclase on LQ-4 were studied using the improved angle parameter method, MNF, and band ratio statistics. A comparison of the mapping results of the optical models by Lucey, Shkuractov and other researchers on Clementine and the gamma ray spectrometry data shows that the content error is within 0.6% for lunar mare areas and close to 1% for the highland areas. The tectonic framework on the lunar surface was also investigated. And based on integrated analysis of previous findings on topography of the lunar surface, Chang’e LAM, CCD and LOLA images and the gravity anomalies data (Clementine GLGM-2), the tectonic unit subdivision was established for LQ-4, the idea of subdividing the lunar tectonic units was proposed, and this will provide a good foundation for studying the lunar tectonic evolution. 相似文献
18.
“嫦娥三号”巡视器上搭载的测月雷达通过500 MHz频率的天线,对巡视路线上的月壳浅层结构进行剖面式观测,能探测到月球地底下30 m深土壤层的结构。为了更好地分析测月雷达的探测结果,文中对月壤分层进行正演模拟,月岩层的介电常数采用与“嫦娥三号”登月点位置最近的Apollo 15的电性参数近似代替,月壤的介电常数是一个和密度相关的值且随深度的变化而变化。根据以上参数建立模型,基于时域有限差分(FDTD)原理,利用GprMax对月壤分层结构进行模拟,建立的模型包括月表介电常数随深度变化二层模型和月岩层存在下界面三层模型,并对其波形特征进行分析,找到月壤层次划分的一般规律,对“嫦娥三号”测月雷达数据的分析提供理论依据。 相似文献
19.
ZHANG Xiaoyu LI Chunlai L Chang Graduate University of Chinese Academy of Sciences Beijing China National Astronomical Observatories Chinese Academy of Sciences Beijing China 《中国地球化学学报》2009,28(2):204-211
In the second phase of the Chang’E Program an unmanned lunar rover will be launched onto the Moon. When ground scientists
get a full understanding of the chemical composition of lunar soil around the rover, they can make more detailed survey plans
for the rover and various payloads onboard so as to satisfy their scientific objectives. There is an obvious relationship
between the reflectance of lunar soil and its chemical characteristics. Both principal component analysis (PCA) and support
vector machine (SVM) models were applied to establishing the relationship between the reflectance spectra and chemical compositions
of lunar highland and mare soil samples sent back by Apollo missions 11, 12, 14, 15, 16 and 17 and measured by Lunar Soil
Characterization Consortium (LSCC). PCA was used to reduce and select the features of the reflectance spectra of lunar soil
samples. Then, these features were put into SVM to estimate the abundances of various chemical components in lunar soil. We
also compared the results of our measurement with those obtained by the SVM model [partial least squares (PLS)] and the principal
component regression (PCR) model reported in literature. Our studies showed that with the exception of TiO2, the results of prediction of the abundances of chemical compounds in lunar soil by our model are much more reliable than
those reported in literature. The reflectance spectra of lunar soil are closely related to the materials from which it was
derived. 相似文献