Lunar surface composition and solar wind-Induced secondary ion mass spectrometry

Lunar surface composition and solar wind-Induced secondary ion mass spectrometry

The Moon has no strong global magnetic field and only a tenuous atmosphere, so solar wind ions (∼95% H+, 5% He++) directly bombard the lunar surface, sputtering atoms and secondary ions from the exposed grains of the regolith. The secondary ions potentially provide surface composition information th...

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Veröffentlicht in:Geophysical research letters 1991-11, Vol.18 (11), p.2165-2168
Hauptverfasser: Elphic, R. C., Funsten III, H. O., Barraclough, B. L., McComas, D. J., Paffett, M. T., Vaniman, D. T., Heiken, G.
Format: Artikel
Sprache:eng
Schlagworte:
661300 - Other Aspects of Physical Science- (1992-)
ALUMINIUM IONS
ATMOSPHERES
CALCIUM IONS
CHARGED PARTICLES
CHEMICAL COMPOSITION
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
Fluxes
Geophysics
HELIUM IONS
HYDROGEN IONS
IONIC COMPOSITION
IONS
IRON IONS
Lunar soils
Lunar surface
MAGNESIUM IONS
MAGNETIC FIELDS
MANGANESE IONS
MASS SPECTROSCOPY
MOON
Nuclear weapons
OVERBURDEN
PLANETARY EVOLUTION
SATELLITE ATMOSPHERES
SATELLITES
Secondary ion mass spectrometry
SILICON IONS
SODIUM IONS
SOLAR ACTIVITY
SOLAR SYSTEM EVOLUTION
SOLAR WIND
SPECTROSCOPY
SPUTTERING
TITANIUM IONS
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Zusammenfassung:The Moon has no strong global magnetic field and only a tenuous atmosphere, so solar wind ions (∼95% H+, 5% He++) directly bombard the lunar surface, sputtering atoms and secondary ions from the exposed grains of the regolith. The secondary ions potentially provide surface composition information through secondary ion mass spectrometry (SIMS), a standard laboratory surface composition analysis technique. In this paper we report the results of laboratory SIMS experiments on lunar soil simulants using solar wind‐like ions. We find that H+ and He++, while not efficient sputterers, nevertheless produce significant fluxes of secondary lunar ions, including Na+, Mg+, Al+, Si+, K+, Ca+, Ti+, Mn+ and Fe+. We predict that lunar surface secondary‐ion fluxes range between ∼10 and 104 ions cm−2 s−1, depending on the species.
ISSN:0094-8276
1944-8007
DOI:10.1029/91GL02669