Mass fractionation of the lunar surface by solar wind sputtering
نویسندگان
چکیده
The sputtering of the lunar surface by the solar wind is examined as a possible mechanism of mass fractionation. Simple arguments based on current theories of sputtering and the ballistics of the sputtered atoms suggest that most ejected atoms will have sufficiently high energy to escape lunar gravity. However, the fraction of atoms which falls back to the surface is enriched in the heavier atomic components in relation to the lighter ones. This material is incorporated into the heavily radiation-damaged outer surfaces of grains, where it is subject to resputtering. Calculations predict that an equilibrium surface layer, enriched in heavier atoms, will form with •i(•80) • +20%0 • •i(8øSi) and that oxygen will be depleted on the surface layers of grains relative to the bulk composition by about 12.5%. These results are in fair agreement with experiment. The dependence of the calculated results upon the energy spectrum of sputtered particles is investigated. We conclude that mass fractionation by solar wind sputtering is likely to be an important phenomenon on the lunar surface but that the complex isotopic variations observed in lunar soils cannot be completely explained by this mechanism.
منابع مشابه
Lunar Surface' Sputtering and Secondary Ion Mass Spectrometry
We combine laboratory and Apollo year on the moon) every surface species has been observations to describe the sputtering of the struck and subsequent ions eject chemicallylunar surface and the composition of the ejecta altered species. At high fluences sputtering with special reference to O. The atmospheric proceeds stoichiometrically (Johnson 1990). inventory appears to be dominated by microT...
متن کاملObservational Test for the Solar Wind Sputtering Originof the Moon’s Extended Sodium Atmosphere
We present observations of the lunar sodium atmosphere during four lunar eclipses between 1993 and 1997. With the Moon inside the magnetosphere, and therefore shielded from solar wind impact, we find its Na atmosphere to be comparable in abundance to cases near first and third quarter, implying that solar wind ion sputtering is not a significant source of the atmosphere. The atmosphere is azimu...
متن کاملSolar wind contribution to surficial lunar water: Laboratory investigations
0019-1035/$ see front matter 2010 Elsevier Inc. A doi:10.1016/j.icarus.2010.11.007 ⇑ Corresponding author. Fax: +1 434 924 1353. E-mail address: [email protected] (R.A. Baragiola). Remote infrared spectroscopic measurements have recently re-opened the possibility that water is present on the surface of the Moon. Analyses of infrared absorption spectra obtained by three independent space instrum...
متن کاملThe Lunar Atmosphere and Its Study by Lro
Current Understanding: The atmosphere of the Moon is extremely tenuous, with a total mass of only ~10 kg (i.e., at STP it would fit inside a large building) [1]. Since it is so thin, the lunar atmosphere is difficult to detect, and has only been partially sampled in situ on the nightside by Apollo pressure gauges & mass spectrometers (these were swamped by contamination on the dayside) [2]. Lik...
متن کاملThe self-sputtered contribution to the lunar exosphere
[1] The lunar exosphere is produced by a combination of processes including thermal desorption, micrometeoroid bombardment, internal gas release, photon-stimulated desorption, and charged-particle sputtering. Here we investigate an additional mechanism not previously considered for the Moon, namely the role that newly born ions from the exosphere itself play in sputtering additional neutrals fr...
متن کامل