Compositional differences between meteorites and near-Earth asteroids

被引:0
|
作者
P. Vernazza
R. P. Binzel
C. A. Thomas
F. E. DeMeo
S. J. Bus
A. S. Rivkin
A. T. Tokunaga
机构
[1] European Space Agency,Research and Scientific Support Department
[2] Keplerlaan 1,Department of Earth
[3] 2201 AZ Noordwijk,undefined
[4] The Netherlands,undefined
[5] Atmospheric,undefined
[6] and Planetary Sciences,undefined
[7] Massachusetts Institute of Technology,undefined
[8] Cambridge,undefined
[9] Massachusetts 02139,undefined
[10] USA,undefined
[11] Laboratoire d’Etudes Spatiales et d’Instrumentation en Astrophysique,undefined
[12] Observatoire de Paris,undefined
[13] 5 Place Jules Janssen,undefined
[14] Meudon,undefined
[15] F-92195,undefined
[16] France ,undefined
[17] Institute for Astronomy,undefined
[18] University of Hawaii,undefined
[19] 640 North A’ohoku Place,undefined
[20] Hilo,undefined
[21] Hawaii 96720,undefined
[22] USA ,undefined
[23] Johns Hopkins University Applied Physics Laboratory,undefined
[24] 11100 Johns Hopkins Road,undefined
[25] Laurel,undefined
[26] Maryland 20723,undefined
[27] USA ,undefined
[28] Institute for Astronomy,undefined
[29] University of Hawaii,undefined
[30] 2680 Woodlawn Drive,undefined
[31] Honolulu,undefined
[32] Hawaii 96822,undefined
[33] USA ,undefined
来源
Nature | 2008年 / 454卷
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摘要
New spectral measurements of near-Earth asteroids reveal, as might be expected, overall compositions similar to the most commonly falling meteorites, the ordinary chondrites. But the compositional distribution is un-expected: about two-thirds of near-Earth asteroids, including those most likely to hit us, match the class of meteorites known as LL chondrites, which comprise only about 8% of all meteorite falls. This may reflect an origin at the asteroid belt's inner edge, where the family of asteroids produced by the break-up of the Flora parent body predominates. A possible explanation might lie in the involvement of size-dependent processes in the transport of material from the main asteroid belt to the vicinity of Earth's orbit.
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页码:858 / 860
页数:2
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