Spectral properties, magnetic fields, and dust transport at lunar swirls

► Unique spectral properties of lunar swirls. ► Investigation of the Descartes lunar albedo anomaly. ► A new model for lunar swirl formation involving dust transport. Lunar swirls are albedo anomalies associated with strong crustal magnetic fields. Swirls exhibit distinctive spectral properties at b...

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Bibliographic Details
Published in:Icarus (New York, N.Y. 1962) N.Y. 1962), 2011-04, Vol.212 (2), p.480-492
Main Authors: Garrick-Bethell, Ian, Head, James W., Pieters, Carle M.
Format: Article
Language:English
Subjects:
Astronomy
Dust
Earth, ocean, space
Exact sciences and technology
Magnetism
Reiner Gamma
Solar system
Swirls
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Summary:► Unique spectral properties of lunar swirls. ► Investigation of the Descartes lunar albedo anomaly. ► A new model for lunar swirl formation involving dust transport. Lunar swirls are albedo anomalies associated with strong crustal magnetic fields. Swirls exhibit distinctive spectral properties at both highland and mare locations that are plausibly explained by fine-grained dust sorting. The sorting may result from two processes that are fairly well established on the Moon, but have not been previously considered together. The first process is the vertical electrostatic lofting of charged fine dust. The second process is the development of electrostatic potentials at magnetic anomalies as solar wind protons penetrate more deeply into the magnetic field than electrons. The electrostatic potential can attract or repel charged fine-grained dust that has been lofted. Since the finest fraction of the lunar soil is bright and contributes significantly to the spectral properties of the lunar regolith, the horizontal accumulation or removal of fine dust can change a surface’s spectral properties. This mechanism can explain some of the spectral properties of swirls, accommodates their association with magnetic fields, and permits aspects of weathering by micrometeoroids and the solar wind.
ISSN:0019-1035
1090-2643
DOI:10.1016/j.icarus.2010.11.036