Bibcode
Wilkman, O.; Muinonen, K.; Parviainen, H.; Näränen, J.
Bibliographical reference
EGU General Assembly 2012, held 22-27 April, 2012 in Vienna, Austria., p.9150
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4
2012
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Description
Effects arising from the small-scale surface structure are significant
in remote studies of regolith surfaces on atmosphereless solar system
bodies, such as the Moon, Mercury and the asteroids. The important
properties determining these effects are the porosity of the regolith
and the roughness of the interface between the bulk material and empty
space. We concentrate on the regolith effects in visible light
photometry and X-ray spectrometry. The fluorescent X-ray spectrum
induced by solar X-rays contains information about the elemental
abundances of the surface material, while the photometry can be used to
constrain surface properties such as porosity. We have developed a
computer model simulating a regolith medium consisting of spherical
particles with variable size distribution and properties. The bulk
properties of the medium, such as porosity and surface roughness, can be
varied. The model can then be used in ray-tracing simulations of the
regolith effects in both visible light scattering and X-ray
fluorescence. In photometric studies the scattering law of the
constituent particles can be chosen to take into account scattering
phenomena such as coherent backscattering. In the X-ray simulations, we
can choose the elemental abundances of the material and the spectrum of
the incident X-ray radiation. The ray-tracing simulations then allow us
to determine the characteristics of the emitted radiation in different
observational geometries. We present results from various studies which
have been based on our regolith model. The model has been used to
simulate the regolith effects on X-ray fluorescence spectra under
specific situations. These can be compared to laboratory measurements.
The visible light simulations have been applied in a study of the
shadowing effects in photometry. The model was also used in a study of
lunar photometry from SMART-1/AMIE data. Applications in the analysis
of X-ray spectrometry from the BepiColombo MIXS/SIXS instruments are
planned. An application of the model to produce a numerical scattering
law for asteroid surfaces is currently in progress. Because in real
observations the actual surface properties are unknown, they must be
estimated somehow in order to take their effect into account. The
advantage of our approach is that we can use the same regolith model to
simulate both light scattering processes and X-ray fluorescence.
Combining photometry with X-ray spectroscopy can allow us to better
constrain the surface properties inferred from the data.