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基于Diviner热红外数据的Apollo 15登陆区元素含量反演 总被引:1,自引:0,他引:1
月球元素含量的反演是了解月球物质成分的分布和月球矿产资源开发利用的依据。通过比较月球样品元素含量与不同粒径样品光谱CF值所建立模型的反演精度,确定10~20μm粒径样品最适用于月表元素含量反演。以Apollo 15登陆点附近为例,利用Diviner热红外数据得到了完整覆盖度和更高分辨率月球CF值影像,反演了月表Al、Fe、Mn、Mg和Ca元素相对含量。与月球样品实测值进行了对比,均方根误差均小于3,验证了利用红外数据反演月表元素相对含量的可行性,为月表元素含量反演提供了新的思路。 相似文献
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利用NASA行星数据系统提供Apollo计划登月点采样线路影像数据,通过与嫦娥二号CCD数据、印度M~3数据空间校正获得采样路线坐标。开展嫦娥二号CCD数据与印度M~3数据MAP(后验概率)融合并选择Apollo 15、Apollo 16-62231的LSCC测得的标准岩石双向反射率光谱与M~3、嫦娥二号进行交叉定标。本文采用月球岩石光谱谱型全特征分析方法,选取涵盖Apollo计划登月获取的36个基站主要岩性87种、285件岩石样品,利用校正后的M~3数据分析月球典型岩石各阶吸收反射特征,建立月球典型岩石标准遥感影像光谱库,此后应用Apollo 623个岩石样品进行对比得到很好结果,同时完成Apollo 16登月点周围领域岩性分布图,并讨论了研究区的岩石成因,Apollo 16区域形成于高地大撞击,在早期的研究中已经被用于划分月球年代,本文方法对于月球岩石类别研究与理解月球的岩浆演化具有重要的研究价值。 相似文献
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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
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热红外遥感定量反演地表岩石的SiO2含量 总被引:6,自引:0,他引:6
硅酸盐矿物热红外发射率光谱特征与其SiO2含量有很好的对应关系.本文以ASU(Arizona State University)、JHU(Johns Hopkins University)光谱库为数据源,研究了硅酸盐矿物发射率光谱克里斯琴森特征(CF-Christensen Features)与SiO2含量、SCFM(SiO2/(SiO2 FeO MgO CaO))指数的定量关系,并与Copper对火成岩的研究结果进行了对比,二者吻合,可作为热红外发射率光谱线性混合的佐证.建立了表征硅酸盐矿物SiO2含量的SiO2指数(ε12/ε13)与SiO2含量的定量关系,在此基础上,利用ASTER热红外数据对东天山黄山东地区SiO2进行了定量反演,反演结果与地质事实相符.利用反演结果可以对基性超基性岩体进行圈定,对于寻找与基性超基性岩体有关的铜镍矿床有重要的应用价值. 相似文献
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元素在地表的分布对矿产的赋存具有指示作用,而不同元素都有各自对应的光谱特征;使用光谱数据元素含量可快速、大面积提取元素分布信息,指导找矿工作。本文基于实地测量的岩石光谱发射率数据重采样至ASTER各热红外波段,然后进行波段比值处理;将波段比值与岩石中的Ca进行相关分析。使用SPSS软件做多元逐步回归,排除相关系数小及具有共线性的波段比值,得出Ca与发射率光谱的数值关系;通过数值关系计算,得到Ca含量的大致分布区域。结果表明,Ca含量与ASTER波段之间有较好的相关关系;利用ASTER波段反演地表岩石Ca含量是可行的;在Aster影像上Ca高含量地区与地层的岩性吻合度高。 相似文献
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中国未来载人登月月震实验必要性和方案设计 总被引:1,自引:0,他引:1
Apollo被动月震台站仅覆盖了月球正面有限的面积,不能对全月球的内部结构进行精细分析,因此在我国未来的载人登月中继续开展月震探测是非常必要的。基于我国现有的空间探测技术条件,并针对未来载人登月的探测任务,设计了两种月震观测网络方案:一是基本方案,可以基本满足对月球内部结构进行探测的要求;二是优化方案,可满足较高分辨率的月球内部结构探测。两种方案中的月震仪网络在月球正面、背面和南北极均有覆盖,可对全月球的内部结构进行探测。最后对月震观测的基本技术参数、设备及布置地点提出了相应的要求。 相似文献
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月球风暴洋地区元素丰度研究:“嫦娥二号”X射线谱仪探测数据分析 总被引:1,自引:0,他引:1
月球表面的元素丰度是研究月表物质分布的基础数据,可以提供月球地质演化历史的重要信息。探月工程"嫦娥二号"卫星搭载了一台X射线谱仪,自2010年10月1日发射以来,获得了丰富的观测数据。在X射线谱仪长达7个月的对月球观测期间,发生过多次太阳爆发。文中利用2011年2月16日9时一次太阳M级爆发事件时X射线谱仪的观测数据,建立了定量反演元素丰度的方法,获得了月球正面风暴洋地区Mg、Al、Si、Ca和Fe的含量。通过各区域的元素含量比较,从风暴洋南部沿飞行轨迹向北,Si含量逐渐升高,这种差异可能反映了不同时期玄武岩浆的成分差异。Ⅱ区域的Fe含量高于其他5个区域,但Ca、Mg、Al含量低于其他5个区域,说明II区域相对其他地区受高地物质的混染影响较小。月球风暴洋中6个探测区域的元素平均含量分别是Mg 7.3%、Al 8.4%、Si 15.8%、Ca 6.0%、Fe 18.6%。最后,分析了"嫦娥二号"XRS数据反演月表元素含量可能存在的误差。 相似文献
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ASTER 热红外遥感地表岩石的二氧化硅含量定量反演 总被引:4,自引:1,他引:3
岩石的热红外发射率光谱特征与其SiO_2含量具有很强的对应关系,本文选择USGS、JPL和JHU光谱库中的52个火成岩光谱样本为数据源,分析了这些样本的SiO_2含量与热红外发射率光谱的基本关系,建立起SiO_2含量与发射率光谱两个多元线性回归分析模型,在此基础上,以内蒙古东乌珠穆沁北部地区为研究区域,对该区域内SiO_2含量进行定量反演,反演结果与地质图和实地考察相符.反演结果可以对区内酸性岩、中性岩、基性岩进行圈定. 相似文献
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Lunar surface geochemistry: Global concentrations of Th, K, and FeO as derived from lunar prospector and Clementine data 总被引:4,自引:0,他引:4
Accurate estimates of global concentrations of Th, K, and FeO have an important bearing on understanding the bulk chemistry and geologic evolution of the Moon. We present empirical ground-truth calibrations (transformations) for Lunar Prospector gamma-ray spectrometer data (K and Th) and a modified algorithm for deriving FeO concentrations from Clementine spectral reflectance data that incorporates an adjustment for TiO2 content. The average composition of soil samples for individual landing sites is used as ground-truth for remotely sensed data. Among the Apollo and Luna sites, Apollo 12 and 14 provide controls for the incompatible-element-rich compositions, Apollo 16 and Luna 20 provide controls for the feldspathic and incompatible-element-poor compositions, and Apollo 11, 15, and 17, and Luna 16 and 24 provide controls for Fe-rich compositions. In addition to these Apollo and Luna sample data we include the composition of the feldspathic lunar meteorites as a proxy for the northern farside highlands to extend the range of the calibration points, thus providing an additional anorthositic end-member composition. These empirical ground-truth calibrations for Lunar Prospector Th and K provide self consistency between the existing derived data and lunar-sample data. Clementine spectral-reflectance data are used to construct a TiO2-sensitive FeO calibration that yields higher FeO concentrations in areas of high-Fe, low-Ti, mare-basalt-rich surfaces than previous FeO algorithms. The data set so derived is consistent with known sample compositions and regolith mixing relationships. 相似文献
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虹湾幅月球数字地质图是中国首次编制的关于月球地质演化的地质图,应用的主要数据资料来源于"中国首次月球探测工程"嫦娥一号CCD影像数据、DEM数据,结合Clementine750nm影像数据,主要月坑的高分辨率图片,同时结合前人的研究成果,如主要矿物元素含量分布图、多波段反射率特征分布图等编制完成。所有的数据处理应用的是ArcMap平台,同时结合使用了MapGIS软件和Photoshop软件,数据模型采用Geodatabase地理数据模型。详细介绍了基于ArcGIS平台编制月球数字地质图的工作流程,编制方法及依据、编制规则及数据库的建立等,为今后开展月球数字地质图的编制积累了经验。 相似文献
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The Clementine spacecraft orbited the Moon and acquired science data for 10 weeks in the Spring of 1994. During this time
it collected global 11-band multispectral images and near global altimetry. Select areas of the Moon were imaged at 25 m/pixel
in visible light and 60 m/pixel in thermal wavelengths. From these datasets a new paradigm for the evolution of the lunar
crust emerged. The Moon is no longer viewed as a two-terrane planet, the Apollo samples were found not to represent the lunar
crust as a whole, and the complexity of lunar crustal stratigraphy was further revealed. More than ten years later the Clementine
datasets continue to significantly advance lunar science and will continue to do so as new measurements are returned from
planned missions such as Chandrayaan, SELENE, and Lunar Reconnaissance Orbiter. This paper highlights the scientific research
conducted over the last decade using Clementine data and summarizes the influence of Clementine on our understanding of the
Moon. 相似文献
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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
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月壤介电常数是当前月球微波遥感探测的基础, 是月壤厚度、成分等信息提取不可或缺的参数.为了实现全月介电常数反演, 通过对嫦娥二号卫星微波辐射计亮温数据进行时角校正, 得到同一时角的全月微波亮温图.全月微波亮温表现出随月球地形、月壤成分及纬度变化的特征.基于校正后的微波辐射亮温, 结合辐射传输模型, 通过解算相关参数, 反演得到3GHz频率下全月介电常数分布.其中, 月海地区的介电常数实部高于月陆地区, 且月球极地区域介电常数实部偏低; 而介电常数虚部则在月海区域和艾肯盆地较高.通过模拟月表介电常数实验对反演结果进行温度校正, 得到22℃下全月介电常数.将反演结果和月壤真实样品的介电常数测量值进行比较评价.结果表明介电常数实部相对误差都低于11%;虚部相对误差偏大, 但其差值最大仅为0.02.因此, 基于嫦娥二号卫星微波辐射计亮温数据反演月表介电常数的方法是可行的. 相似文献
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Mitsunobu Tatsumoto 《Geochimica et cosmochimica acta》1973,37(4):1079-1086
The concentrations of uranium, thorium and lead and the lead isotopic composition of Luna 20 soil were determined. The data indicate that the Luna 20 soil is mainly a mixture of highland anorthosites and low-K basalt, but little KREEP basalt. The U-Th-Pb systematics are discussed in comparison with other lunar soils, especially with Apollo 16 soils which were collected from a ‘typical’ highland region. The data fit well in the Apollo 16 soil array on a U-Pb evolution diagram, and they exhibit excess lead relative to uranium. This relationship appears to be a characteristic of highland localities. Considering the previous observations of lunar samples, we infer that lead enrichment in the soil relative to uranium occurred between 3.2 and 3.9 b.y. ago and that the soil was disturbed by ‘third events’ about 2.0 b.y. ago. A lunar evolution model is discussed. 相似文献
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L.J. Hallis M. Anand R.C. Greenwood I.A. Franchi 《Geochimica et cosmochimica acta》2010,74(23):6885-6899
To investigate the formation and early evolution of the lunar mantle and crust we have analysed the oxygen isotopic composition, titanium content and modal mineralogy of a suite of lunar basalts. Our sample set included eight low-Ti basalts from the Apollo 12 and 15 collections, and 12 high-Ti basalts from Apollo 11 and 17 collections. In addition, we have determined the oxygen isotopic composition of an Apollo 15 KREEP (K - potassium, REE - Rare Earth Element, and P - phosphorus) basalt (sample 15386) and an Apollo 14 feldspathic mare basalt (sample 14053). Our data display a continuum in bulk-rock δ18O values, from relatively low values in the most Ti-rich samples to higher values in the Ti-poor samples, with the Apollo 11 sample suite partially bridging the gap. Calculation of bulk-rock δ18O values, using a combination of previously published oxygen isotope data on mineral separates from lunar basalts, and modal mineralogy (determined in this study), match with the measured bulk-rock δ18O values. This demonstrates that differences in mineral modal assemblage produce differences in mare basalt δ18O bulk-rock values. Differences between the low- and high-Ti mare basalts appear to be largely a reflection of mantle-source heterogeneities, and in particular, the highly variable distribution of ilmenite within the lunar mantle. Bulk δ18O variation in mare basalts is also controlled by fractional crystallisation of a few key mineral phases. Thus, ilmenite fractionation is important in the case of high-Ti Apollo 17 samples, whereas olivine plays a more dominant role for the low-Ti Apollo 12 samples.Consistent with the results of previous studies, our data reveal no detectable difference between the Δ17O of the Earth and Moon. The fact that oxygen three-isotope studies have been unable to detect a measurable difference at such high precisions reinforces doubts about the giant impact hypothesis as presently formulated. 相似文献
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我国低钛月海型模拟月壤初始物质选择的地球化学依据 总被引:1,自引:0,他引:1
以Apollo14月壤样品和美国JSC-1模拟月壤的地球化学特征为基础,结合我国低钛玄武岩火山的分布,对我国不同地区新生代玄武岩的化学成分、年龄、储量等方面进行对比分析结果表明,滇西北金沙江地区和吉林辉南红旗林场-四海地区的玄武质火山喷发物的化学成分与Apollo14月壤样品和美国JSC-1模拟月壤相似,比较适合用于我国低钛月海玄武岩模拟月壤研制的初始物质。野外地质调查发现,吉林省辉南县金川镇红旗林场—四海一带产出的玄武质火山渣为距今1600 a的该玄武质火山岩的喷发物,其储量大、质地纯、粒度均匀,而且比滇西北金沙江地区最近一期的玄武质火山渣新鲜,最适合作为我国低钛月海玄武岩模拟月壤研制的初始物质。 相似文献