近地小天体群:成分、源区和旋转特性

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS
Juan A. Sanchez, Vishnu Reddy, Audrey Thirouin, William F. Bottke, Theodore Kareta, Mario De Florio, Benjamin N. L. Sharkey, Adam Battle, David C. Cantillo, Neil Pearson
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引用次数: 0

摘要

对小型(300 米)近地天体(NEOs)的研究非常重要,因为与较大的天体相比,它们与落在地球上的陨石的前身关系更为密切。这些天体与地球的碰撞也更为频繁。虽然这种碰撞不会产生大规模的灭绝事件,但仍会对局部地区造成严重破坏。我们发现 S-复合小行星是近地天体中数量最多的,占样本的 66%。我们发现S-复合体中的大多数小行星的成分与LL-软玉相一致。我们的研究发现,有一些近地天体的光谱特征与 S-复合体中的近地天体相似,但由于其吸收带较弱,可能被隐藏在 C-或 X-复合体中。我们认为,金属或冲击暗化的存在可能是吸收带衰减的原因。这些天体被归入 S-复合体中一个新的亚类,称为 Sx-类型。动力学建模显示,83%的近地天体逃逸于ν6共振,16%逃逸于3:1共振,只有1%逃逸于5:2共振。根据测光数据得出了光曲线和旋转周期。没有发现近地天体的轴比与绝对大小或旋转周期之间有明显的趋势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Population of Small Near-Earth Objects: Composition, Source Regions, and Rotational Properties
The study of small (<300 m) near-Earth objects (NEOs) is important because they are more closely related than larger objects to the precursors of meteorites that fall on Earth. Collisions of these bodies with Earth are also more frequent. Although such collisions cannot produce massive extinction events, they can still produce significant local damage. Here we present the results of a photometric and spectroscopic survey of small NEOs that include near-infrared spectra of 84 objects with a mean diameter of 126 m and photometric data of 59 objects with a mean diameter of 87 m. We found that S-complex asteroids are the most abundant among the NEOs, comprising ∼66% of the sample. Most asteroids in the S-complex were found to have compositions consistent with LL-chondrites. Our study revealed the existence of NEOs with spectral characteristics similar to those in the S-complex but that could be hidden within the C- or X-complex due to their weak absorption bands. We suggest that the presence of metal or shock darkening could be responsible for the attenuation of the absorption bands. These objects have been grouped into a new subclass within the S-complex called Sx-types. The dynamical modeling showed that 83% of the NEOs escaped from the ν 6 resonance, 16% from the 3:1, and just 1% from the 5:2 resonance. Lightcurves and rotational periods were derived from the photometric data. No clear trend between the axis ratio and the absolute magnitude or rotational period of the NEOs was found.
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来源期刊
The Planetary Science Journal
The Planetary Science Journal Earth and Planetary Sciences-Geophysics
CiteScore
5.20
自引率
0.00%
发文量
249
审稿时长
15 weeks
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