共查询到20条相似文献,搜索用时 171 毫秒
1.
本文选取3种类型的陨石分别进行脉冲激光辐照实验,模拟距离太阳1个天文单位(1 AU)处,10亿年(1 Ga)期间微陨石轰击的太空风化作用对E型、S型、C群等近地小行星光谱特征的改造。结果显示,激光辐照后,顽辉石无球粒陨石光谱的可见光波段反射率降低且近红外斜率增加,与E型小行星光谱改造特征一致;普通球粒陨石的可见光-近红外波段反射率均降低、吸收深度变浅且近红外斜率增加,与S型小行星光谱改造特征一致;CV3型碳质球粒陨石和CO3型碳质球粒陨石在激光辐照后可见光波段反射率降低,但近红外波段反射率升高,吸收深度变浅且近红外斜率增加,与贫挥发分的C群小行星光谱改造特征一致; CM2碳质陨石在激光辐照后,可见光波段反射率增加,但近红外波段反射率及近红外斜率降低,与富挥发分的C群小行星光谱改造特征一致。研究结果可为近地小行星探测任务备选目标的确定、光谱遥感数据以及表面物质演化过程的反演提供一定的参考。 相似文献
2.
在南极格罗夫山普通球粒陨石的风化等级划分中出现了和Wlotzka(1993)标准矛盾的现象。部分普通球粒陨石的金属和陨硫铁氧化不足20%,然而硅酸盐却发生了蚀变。如果考虑金属的氧化量,这种风化程度应为W1,如果考虑硅酸盐的蚀变,这种风化程度应为W5。对于存在如此大的差异本文给出了折衷的解决办法——对金属和硅酸盐同时进行风化等级划分。金属的风化等级划分为W_m0-W_m4五个,硅酸盐风化等级划分为W_s0-W_s3四个。依据新方案,GRV 021588、021636、021772和021957等4块无法用Wlotzka(1993)标准来确定风化等级的陨石的风化等级均为W_m1-W_s1。而陨石GRV 023312的风化等级为W_m3-W_s0,其相当于Wlotzka(1993)标准中的W3。 相似文献
3.
顽火辉石球粒陨石中的大量金属硫化物形成于早期极还原的太阳星云条件。GRV13100是一块发现于南极格罗夫山的顽火辉石球粒陨石,不透明矿物包括陨硫铁、陨硫铬铁矿、陨硫镁矿、陨硫钙矿、含硅铁纹石、陨磷铁矿、硅磷镍矿等金属硫化物和磷化物,总丰度达21%,经历了一定程度的热变质。通过对其岩石学和矿物化学特征研究,并和其它顽火辉球粒陨石进行对比分析,结果表明:(1)陨硫镁矿中FeS含量可以反映母体变质温度,GRV 13100中大部分陨硫镁矿变质温度为200℃~300℃,个别经历了400℃~800℃的高温,可能为外来吸入成因,或者代表了原始星云的凝聚或结晶温度;(2)陨硫镁矿形成于太阳星云的直接凝聚,并在橄榄石和顽火辉石冷凝结晶之后形成;(3)陨硫铁的成因分为原生和次生两种,原生的陨硫铁由太阳星云直接凝聚而成,次生的陨硫铁是在后期热变质过程中由铁镍金属经过硫化作用或者由陨硫镁矿分解而形成;(4)硅磷镍矿可能来自含硅铁纹石的出溶。本论文的研究工作为太阳系早期高度还原星云演化及其后期热变质提供了约束。 相似文献
4.
1997年降落在山东省鄄城县的陨石雨,是橄榄石-古铜辉石球粒陨石。该陨石中的金属矿物主要为铁纹石和陨硫铁,其次为镍纹石,金属矿物呈填隙状分布于以橄榄石和古铜辉石为主的硅酸盐矿物粒间及球粒周围。陨石中可见由铁纹石和镍纹石组成的显微蠕虫状连晶,是陨石中金属矿物在降温冷却过程中发生固溶体分离作用而成。陨石中金属矿物的分布特征表明,金属Fe-Ni和硫化物(FeS)应该是星云凝聚不同阶段的产物。陨石中金属矿物的成分和组构特征及陨石中出现的球粒结构、橄榄石的炉条结构等特征表明,该球粒陨石是星云物质快速冷却的产物。 相似文献
5.
不同球粒陨石群的物理和岩石学性质,包括球粒的平均大小、球粒结构类型、复合球粒、带火成边球粒及含硫化物的比例、化学组成及矿物学特征等可用以划分球粒陨石的化学-岩石类型和小行星类型,这些性质提供了不同球粒陨石群有用的分类参数及其形成环境的信息.由于不同球粒陨石群的△17O与日心距离存在有相关关系,因此,依据不同球粒陨石群形... 相似文献
6.
地球、月球和其它地球行星可能是从如球粒陨石之类厘米级金属、硫化物和硅化物颗粒的混合物中分出来的。为了弄清我们行球系的最早期历史,对球粒陨石进行了一系列熔融实验,并做出Allende C3球粒陨石初始相图。实验条件是:用一个活塞圆筒产生的≤3GPa的压力,又在T.IT(SPI-100)TSTS条件下由新的多砧装置产生的≥5GPa压下所做的。碳质的球粒陨石液态和固态的温度均低于地幔橄榄岩温度(例如,KLB-1)。低于硅酸 相似文献
7.
月壤颗粒微观环带的太空风化成因 总被引:2,自引:0,他引:2
太空风化是迄今31亿年以来影响月球表面物质演化过程的主要因素,主要包括陨石、微陨石的轰击,太阳风粒子的注入,太阳/银河宇宙射线的辐射以及周期性的加热作用等。通过深入剖析太阳风粒子的注入与溅射、微陨石轰击的蒸发与沉积、宇宙射线辐射的辐射损伤等过程的作用机理,探讨了不同太空风化过程对矿物颗粒环带厚度、化学组成、晶体结构等特征的影响,认为微陨石轰击与太阳风注入是形成月壤颗粒微观环带的主导因素,宇宙射线辐射与周期性加热的影响可忽略不计。进一步结合非晶质环带、富内含物环带、多环环带以及小泡环带等月壤颗粒主要环带的基本特征,在总结和对比分析各类型环带的厚度、结构以及化学组成特征基础上,对不同类型环带的成因进行初步推断,认为非晶质环带、小泡环带以及多环环带的内层环带具有太阳风作用特征,而富内含物环带、多环环带的外层环带则具有微陨石轰击的成因特征。根据目前单纯依靠环带的化学组成分析解释环带成因存在的不足,指出了通过补充分析矿物晶体结构在模拟太空风化实验过程中的变化特征来研究环带成因的新思路。 相似文献
8.
本文通过我国新近降落的几块普通球粒陨石、顽火辉石球粒陨石、新疆铁陨石和某些地球岩石的粉末样的反测谱测定,可以看出,随着陨石中Fe~o/Fe_t值增加,球粒陨石的近紫外、可见光和近红外光谱反射率强度,依LL—L—H—E顺序递减,吸收带趋于平缓。同一化学群的陨石,变质程度越高吸收谷越深。而地球火成岩反射谱,则依酸性、基性和超基性逐渐显示出H群球粒陨石的反射谱型。 各类陨石的反射谱特征,可用来判定行星表面和某些小行星的物质组成。 相似文献
9.
《矿物岩石地球化学通报》2016,(2)
为了解不同种类小行星母体的起源与演化信息,选取8块近期在西北非地区发现的未经过详细研究的球粒陨石,利用扫描电子显微镜观察其显微结构,利用能谱仪及电子探针测试样品的成分。结果显示,NWA 7613与NWA 8340为CV3_(oxA)型陨石,另外5块普通球粒陨石的热变质程度变化更为广泛且球粒中橄榄石铁含量更高。NWA 7613(LL3)球粒中橄榄石CaO含量稍高(0.08%~0.24%),高于平衡型普通球粒陨石(小于0.05%)。NWA 6468(R4)与普通球粒陨石具有相似的岩相结构,但不发育铁镍金属,且橄榄石铁含量(Fa_(35.9~42.1))及镍含量(平均含0.23%)更高,是强氧化环境下的产物。NWA 7251(Limpact melt)具有特殊的火成结构,是大规模灾难性撞击事件产物,橄榄石铁指数(Fa_(21.4~26.7))与L型球粒陨石的橄榄石成分一致,但CaO含量(0.16%~0.31%)高于平衡型普通球粒陨石。 相似文献
10.
在建立了小行星区星云凝聚模型的基础上,对类地行星区中上物质(硅酸盐、氧化物、金属、硫化物等)的凝聚作用,以及凝聚物的水化作用进行了讨论,进而建立了包括小行星区在内的整个类地行星区的星云凝聚模式。根据地球核慢质量比和关于地球初期演化的研究结果;使用顽火辉石球粒陨石和C1陨石的化学成分分别做为地球形成区中类顽火辉石球粒陨石质星子和类C1陨石质星子的成分数据;假定类顽火辉石无球粒陨石质星子的成分与类顽火辉石球粒陨石质星子的硅酸盐部分成分相同,计算出原始地球可能由1.58%的类铁陨石质星子、13.9%的类顽火辉石无球粒陨石质星子、82.52%类顽火辉石球粒陨石质星子、2%的类C1陨石质星子组成。 相似文献
11.
Visible and near-infrared spectra are routinely used to achieve mineral abundances and mineral chemistry of the global surfaces of the Moon and asteroids.However,these spectra can be significantly modified by space weathering,including micrometeorite impacting,solar wind implanting and cosmic ray irradiation.In this paper we report results of laser-bombarding experiments on the Jilin ordinary chondrite,simulating micrometeorite impacting on the surface of asteroids.After laser bombardment,the spectra became significantly redder and moderately darker. With the Modified Gaussian Model(MGM)method,the absorption band positions of olivine can be decoded from the modified spectra,which are correlated with their fayalite contents.In addition,a continuum of the modified spectra can be decoded,and its slope may be used to depict the degree of space weathering.However,relative strengths of the absorption sub-bands of olivine and pyroxenes show significant variant after the bombardment, hence they cannot be used to estimate the relative abundances of high-Ca to low-Ca pyroxenes of the lunar surface and other matured surfaces of asteroids. 相似文献
12.
Sorokin E. M. Yakovlev O. I. Slyuta E. N. Gerasimov M. V. Zaitsev M. A. Shcherbakov V. D. Ryazantsev K. M. Krasheninnikov S. P. 《Doklady Earth Sciences》2020,492(2):431-433
Doklady Earth Sciences - One of the signs of “space weathering” on the Moon, including the effect of the solar wind and micrometeorite bombardment, is the formation of nanophase... 相似文献
13.
Devin L. Schrader Harold C. Connolly Jr. Dante S. Lauretta 《Geochimica et cosmochimica acta》2008,72(24):6124-6140
We report the results of a detailed study of sulfide-bearing opaque assemblages from the MAC 87320, EET 92011, and Renazzo CR carbonaceous chondrites. The objectives of this study are to (1) characterize sulfide and associated phases within CR2 chondrites; (2) determine the petrographic relationship between sulfides, metals, and chondrules; (3) constrain the history of type-II chondrules; (4) ascertain the environments in which type-II chondrules formed and were altered; and (5) unravel the formation and alteration history of the CR parent body as recorded in sulfide-bearing assemblages. Sulfide-bearing opaque assemblages occur primarily within type-II (FeO-rich) chondrules. The sulfide assemblages are concentrated near the chondrule edges. Assemblages in MAC 87320 are composed of troilite, phosphate, and Ni-rich metal. EET 92011 contains assemblages composed of pentlandite, troilite, and Ni-rich metal. The assemblages in Renazzo contain tochilinite, magnetite, troilite, pentlandite, and phosphate. In all of the assemblages in Renazzo the tochilinite is fine grained and intimately mixed with troilite, pentlandite, or magnetite. Opaque assemblages in CR chondrites record a complex history that includes both high- and low-temperature processes. The morphology and composition of sulfides in CR2 chondrites suggests that the sulfide-bearing assemblages originally formed in gas-solid reactions in the nebula at temperatures above the Fe-FeS eutectic (988 °C). Many of the assemblages were subsequently aqueously altered on the CR-chondrite parent body to various degrees at temperatures from ∼50 to 200 °C. We combine these observations and interpretations to provide a detailed model of the history of the CR parent body. 相似文献
14.
CK chondrites are highly oxidized meteorites containing abundant magnetite and trace amounts of Fe,Ni metal. Although the group is predominately composed of equilibrated meteorites (types 4-6), in recent years a significant number of new samples have been classified as being either CK3 or CK3-anomalous. These unequilibrated CKs often display a close affinity with members of the CV oxidized subgroup. CKs and CVs (oxidized subgroup) may therefore form a continuum and by implication could be derived from a single common parent body. To investigate the relationship between these two groups a detailed study of the oxygen isotope composition, opaque mineralogy and major and trace element geochemistry of a suite of CV and CK chondrites has been undertaken. The results of oxygen isotope analysis confirm the close affinity between CV and CK chondrites, while excluding the possibility of a linkage between the CO and CK groups. Magnetites in both CV and CK chondrites show significant compositional similarities, but high Ti contents are a diagnostic feature of the latter group. The results of major and trace element analysis demonstrate that both CV and CK chondrites show overlapping variation. Supporting evidence for a single common source for both groups comes from their similar cosmic-ray exposure age distributions. Recent reflectance spectral analysis is consistent with both the CVs and CKs being derived from Eos family asteroids, which are believed to have formed by the catastrophic disruption of a single large asteroid. Thus, a range of evidence appears to be consistent with CV and CK chondrites representing samples from a single thermally stratified parent body. In view of the close similarity between CV and CK chondrites some modification of the present classification scheme may be warranted, possibly involving integration of the two groups. One means of achieving this would be to reassigned CK chondrites to a subgroup of the oxidized CVs. It is recognized that a full evaluation of this proposal may require further study of the still poorly understood CK3 chondrites. 相似文献
15.
A set of troilite-silicate-metal (TSM) inclusions and chondrule rims in the Bishunpur (LL3.1) chondrite provide information regarding impact brecciation of small bodies in the early solar system. The TSM inclusions and chondrule rims consist of numerous angular to subrounded silicate grains that are individually enclosed by fine networks of troilite. FeNi metal also occurs in the troilite matrix. The silicates include olivine (Fo55-98), low-Ca pyroxene (En78-98), and high-Ca pyroxene (En48-68Wo11-32). Al- and Si-rich glass coexists with the silicates. Relatively coarse silicate grains are apparently fragments of chondrules typical of petrologic type-3 chondrites. Troilite fills all available cracks and pores in the silicate grains. Some of the TSM inclusions and rims are themselves surrounded by fine-grained silicate-rich rims (FGR).The TSM inclusions and rims texturally resemble the troilite-rich regions in the Smyer H-chondrite breccia. They probably formed by shock-induced mobilization of troilite during an impact event on a primitive asteroidal body. Because silicates in the TSM inclusions and rims have highly unequilibrated compositions, their precursor was presumably type-3 chondritic material like Bishunpur itself. The TSM inclusions and the chondrules with the TSM rims were fragmented and dispersed after the impact-induced compaction, then reaccreted onto the Bishunpur parent body. FGR probably formed around the TSM inclusions and rims, as well as around some chondrules, during the reaccumulation process. Components of most type-2 and 3 chondrites probably experienced similar processing, i.e., dispersal of unconsolidated materials and subsequent reaccumulation. 相似文献
16.
《Chemie der Erde / Geochemistry》2019,79(4):125528
Primitive CO3.00–3.1 chondrites contain ∼2-8 vol.% magnetite, minor troilite and accessory carbide and chromite; some CO3.1 chondrites have fayalite-rich veins, chondrule rims and euhedral matrix grains. All CO3.00–3.1 chondrites contain little metallic Fe-Ni (0.4–1.2 vol.%). CO3.2–3.7 chondrites contain 1–5 vol.% metallic Fe-Ni, minor troilite, accessory chromite and 0-0.6 vol.% magnetite. Magnetite is formed in primitive CO3 chondrites from metallic Fe by parent-body aqueous alteration, resulting in decreased metallic Fe-Ni and an increase in the proportion of high-Ni metal grains. The paucity or absence of magnetite in CO chondrites of subtype ≥3.2 suggests that magnetite is destroyed during thermal metamorphism; thermochemical calculations from the literature suggest that magnetite is reduced by H2 and reacts with SiO2 to form fayalite and secondary kamacite. Analogous processes of magnetite formation and destruction occur in other chondrite groups: (1) Primitive type-3 OC have opaque assemblages containing magnetite, carbide, Ni-rich metal and Ni-rich sulfide, but OC of subtype >3.4 contain little or no magnetite. (2) Primitive R3 chondrites and clasts (subtype ≲3.5) contain up to 6 vol.% magnetite, but most R chondrites contain no magnetite. The principal exception is magnetite with 9–20 wt.% Cr2O3 in a few R4-6 chondrites. Magnetite grains with high Cr2O3 behave like chromite and are more stable under reducing conditions. (3) CK chondrites average ∼4 vol.% magnetite with substantial Cr2O3 (up to ∼15 wt.%); these magnetite grains also are stable against reduction during metamorphism. (4) The modal abundance of magnetite decreases with metamorphic grade in CV3 chondrites. (5) Chromite occurs instead of magnetite in those rare samples classified CR6, CR7 and CV7. 相似文献
17.
安徽亳县陨石不透明矿物研究 总被引:3,自引:2,他引:3
毫县陨石的不透明矿物有陨硫铁、铁纹石、镍纹石、镍黄铁矿、镁铁尖晶石、自然铜、石墨、方铁矿、铬铁矿、钛铁矿、磁铁矿、张衡矿及x矿物等。本文对它们进行了反光显微镜鉴定、X射线分析、反射率测定和电子探针分析。总结了不同化学群的球粒陨石中FeO和MgO的含量变化规律。 相似文献
18.
Chromite-plagioclase assemblages as a new shock indicator; implications for the shock and thermal histories of ordinary chondrites 总被引:1,自引:0,他引:1
Alan E Rubin 《Geochimica et cosmochimica acta》2003,67(14):2695-2709
Chromite in ordinary chondrites (OC) can be used as a shock indicator. A survey of 76 equilibrated H, L and LL chondrites shows that unshocked chromite grains occur in equant, subhedral and rounded morphologies surrounded by silicate or intergrown with metallic Fe-Ni and/or troilite. Some unmelted chromite grains are fractured or crushed during whole-rock brecciation. Others are transected by opaque veins; the veins form when impacts cause localized heating of metal-troilite intergrowths above the Fe-FeS eutectic (988°C), mobilization of metal-troilite melts, and penetration of the melt into fractures in chromite grains. Chromite-plagioclase assemblages occur in nearly every shock-stage S3-S6 OC; the assemblages range in size from 20-300 μm and consist of 0.2-20-μm-size euhedral, subhedral, anhedral and rounded chromite grains surrounded by plagioclase or glass of plagioclase composition. Plagioclase has a low impedance to shock compression. Heat from shock-melted plagioclase caused adjacent chromite grains to melt; chromite grains crystallized from this melt. Those chromite grains in the assemblages that are completely surrounded by plagioclase are generally richer in Al2O3 than unmelted, matrix chromite grains in the same meteorite. Chromite veinlets (typically 0.5-2 μm thick and 10-300 μm long) occur typically in the vicinity of chromite-plagioclase assemblages. The veinlets formed from chromite-plagioclase melts that were injected into fractures in neighboring silicate grains; chromite crystallized in the fractures and the residual plagioclase-rich melt continued to flow, eventually pooling to form plagioclase-rich melt pockets. Chromite-rich “chondrules” (consisting mainly of olivine, plagioclase-normative mesostasis, and 5-15 vol.% chromite) occur in many shocked OC and OC regolith breccias but they are absent from primitive type-3 OC. They may have formed by impact melting chromite, plagioclase and adjacent mafic silicates during higher-energy shock events. The melt was jetted from the impact site and formed droplets due to surface tension. Crystallization of these droplets may have commenced in flight, prior to landing on the parent-body surface.Chromite-plagioclase assemblages and chromite veinlets occur in 25 out of 25 shock-stage S1 OC of petrologic type 5 and 6 that I examined. Although these rocks contain unstrained olivine with sharp optical extinction, most possess other shock indicators such as extensive silicate darkening, numerous occurrences of metallic Cu, polycrystalline troilite, and opaque veins. It seems likely that these rocks were shocked to levels at least as high as shock-stage S3 and then annealed by heat generated during the shock event. During annealing, the olivine crystal lattices healed but other shock indicators survived. Published Ar-Ar age data for some S1 OC indicate that many shock and annealing events occurred very early in the history of the parent asteroids. The common occurrence of shocked and annealed OC is consistent with collisions being a major mechanism responsible for metamorphosing OC. 相似文献
19.
随州陨石不透明矿物有陨硫铁、铁纹石、镍纹石、自然铜、含镍黄铜矿、洛铁矿、钛铁矿等。本文对它们进行了反光显微镜鉴定、X射线分析、反射率及硬度的测定和电子探针分析,总结了不同化学群的球粒陨石铬铁矿、钛铁矿中FeO、MgO含量变化规律。 相似文献
20.
Polarization and radiation measurements and microwave studies show that the planets and the great majority of asteroids in the solar system are covered by soils similar to regolith on the moon surface.The soils repesent the composition of the asteroids and the geological elements of the planets. The spectral reflectance shows a tendency of decreasing from near ultraviolet,visible to near-infrared in order of LL→L→H→H with increasing Fe^0/Fet rato and toward to absorption for Jilin,Xinyang and Zanoyang ordinary chondrites and Qinzhen enstatite chondrite recently fallen in China,The same chemical group of meteorites feature deeper absorption valleys with increasing metamorphic grade.The spectal reflectance of igneous rocks varies from strong to what is like that of H-group chondrites in order of acid→basic→ultrabasic rocks. 相似文献