Photometric properties of Mars soils analogs

Pommerol, Antoine; Thomas, N.; Jost, Bernhard; Beck, Pierre; Okubo, C. H.; McEwen, A. S.

doi:10.1002/jgre.20158

Cited by 43 publications

(35 citation statements)

References 66 publications

(140 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Beck et al (2012) measured the bidirectional reflectance phase function of several meteorite samples in the VIS spectral range. Pommerol et al (2013) measured the bidirectional reflectance of Martian analogues in dry, wet, and frozen conditions over a wide range of phase angles in the visible spectral range. Visible/near-infrared reflectance measurements of lunar soil simulants, Apollo soils, and Martian analogue samples as functions of illumination and emission angles were described in Johnson et al (2013).…”

Section: Introductionmentioning

confidence: 99%

On the effect of emergence angle on emissivity spectra: application to small bodies

et al. 2016

View full text Add to dashboard Cite

Dependence of laboratory-measured emissivity spectra from the emergence angle is a subject that still needs a lot of investigations to be fully understood. Most of the previous work is based on reflectance measurements in the VIS-NIR spectral region and on emissivity measurements of flat, solid surfaces (mainly metals), which are not directly applicable to the analysis of remote sensing data. Small bodies in particular (c.f. asteroids Itokawa and 1999JU3, the respective targets of JAXA Hayabusa and Hayabusa 2 missions) have a very irregular surface; hence, the spectra from those rough surfaces are difficult to compare with laboratory spectra, where the observing geometry is always close to "nadir. " At the Planetary Emissivity Laboratory of the German Aerospace Center (DLR), we have set up a series of spectral measurements to investigate this problem in the 1-to 16-µm spectral region. We measured the emissivity for two asteroid analogue materials (meteorite Millbillillie and a synthetic enstatite) in vacuum and under purged air, at surface temperature of 100 °C, for emergence angles of 0°, 5°, 10°, 20°, 30°, 40°, 50°, and 60°. Emissivity of a serpentinite slab, already used as calibration target for the MARA instrument on Hayabusa 2 MASCOT lander and for the thermal infrared imager spectrometer on Hayabusa 2 orbiter, was measured under the same conditions. Additionally, a second basalt slab was measured. Both slabs were not measured at 5° inclination. Complementary reflectance measurements of the four samples were taken. For all the samples measured, we found that for calibrated emissivity, significant variations from values obtained at nadir (0° emergence angle) appear only for emergence angles ≥40°. Reflectance measurements confirmed this finding, showing the same trend of variations.

show abstract

Section: Introductionmentioning

confidence: 99%

On the effect of emergence angle on emissivity spectra: application to small bodies

et al. 2016

View full text Add to dashboard Cite

show abstract

“…It characterizes the angular distribution of energy for an average particle. We used the empirical 2-term Henyey-Greenstein function (Henyey and Greenstein, 1941) (hereafter referred to as HG2) for studying planetary surfaces (Cord et al, 2003;Jehl et al, 2008;Johnson et al, 2006b,a;Souchon et al, 2011;Beck et al, 2012;Pommerol et al, 2013):…”

Section: Direct Model: the Hapke's Photometric Modelmentioning

confidence: 99%

“…Please note that this method is somehow similar to genetic algorithms (Cord et al, 2003) and Particle Swarm Optimization (Beck et al, 2012;Pommerol et al, 2013), already used to solve this inverse problem empirically. Nevertheless, those previous methods, although much faster, are only heuristic since no convergence proof of the algorithms have been proposed.…”

Section: Monte Carlo Markov Chain (Mcmc) To Sample the Inverse Problemmentioning

confidence: 99%

“…The b and c couple can be correctly evaluated with a data uncertainty lower than 5%. Such uncertainty level can often be obtained in laboratory measurements (Pommerol et al, 2013;Johnson et al, 2013) but sometimes also in spaceborne measurements . Finally with 1% data uncertainty, the solution is well constrained close to the expected solutions.…”

Section: Effect Of Noise Level On Epfmentioning

confidence: 99%

“…Mishchenko, 1994;Hapke, 1996;Shepard and Helfenstein, 2007;Shkuratov et al, 2012;Hapke, 2013) but due to its relative simplicity and fast computation, many authors have been using it to analyze laboratory data (e.g. Cord et al, 2003;Souchon et al, 2011;Beck et al, 2012;Pommerol et al, 2013;Johnson et al, 2013), telescopic observation (e.g. Hapke et al, 1998), in situ data (e.g.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Realistic uncertainties on Hapke model parameters from photometric measurement

Schmidt

Fernando

2015

Icarus

View full text Add to dashboard Cite

The single particle phase function describes the manner in which an average element of a granular material diffuses the light in the angular space usually with two parameters: the asymmetry parameter b describing the width of the scattering lobe and the backscattering fraction c describing the main direction of the scattering lobe. Hapke proposed a convenient and widely used analytical model to describe the spectro-photometry of granular materials. Using a compilation of the published data, Hapke (2012, Icarus, 221, 1079-1083 recently studied the relationship of b and c for natural examples and proposed the hockey stick relation (excluding b > 0.5 and c > 0.5). For the moment, there is no theoretical explanation for this relationship. One goal of this article is to study a possible bias due to the retrieval method.We expand here an innovative Bayesian inversion method in order to study into detail the uncertainties of retrieved parameters. On Emission Phase Function (EPF) data, we demonstrate that the uncertainties of the retrieved parameters follow the same hockey stick relation, suggesting that this relation is due to the fact that b and c are coupled parameters in the Hapke model instead of a natural phenomena. Nevertheless, the data used in the Hapke (2012) compilation generally are full Bidirectional Reflectance Diffusion Function (BRDF) that are shown not to be subject to this artifact.Moreover, the Bayesian method is a good tool to test if the sampling geometry is sufficient to constrain the parameters (single scattering albedo, surface roughness, b, c, opposition effect). We performed sensitivity tests by mimicking various surface scattering properties and various single image-like/disk resolved image, EPF-like and BRDF-like geometric sampling conditions. The second goal of this article is to estimate the favorable geometric conditions for an accurate estimation of photometric parameters in order to provide new constraints for future observation campaigns and instrumentations.

show abstract

VIS‐NIR reflectance of water ice/regolith analogue mixtures and implications for the detectability of ice mixed within planetary regoliths

Yoldi

Pommerol

Jost

et al. 2015

Geophysical Research Letters

View full text Add to dashboard Cite

Permanently shadowed regions at the poles of the Moon and Mercury have been pointed out as candidates for hosting water ice at their surface. We have measured in the laboratory the visible and near infrared spectral range (VIS‐NIR) bidirectional reflectance of intimate mixtures of water ice and the JSC‐1AF lunar simulant for different ice concentrations, particle sizes, and measurement geometries. The nonlinearity between the measured reflectance and the amount of ice in the mixture can be reproduced to some extent by the mixing formulas of standard reflectance models, in particular, those of Hapke and Hiroi, which are tested here. Estimating ice concentrations from reflectance data without knowledge of the mixing coefficients—strongly dependent on the size/shape of the grains—can result in large errors. According to our results, it is possible that considerable amounts of water ice might be intimately mixed in the regolith of the Moon and Mercury without producing noticeable photometric signatures.

show abstract

Photometric properties of Mars soils analogs

Cited by 43 publications

References 66 publications

On the effect of emergence angle on emissivity spectra: application to small bodies

On the effect of emergence angle on emissivity spectra: application to small bodies

Realistic uncertainties on Hapke model parameters from photometric measurement

VIS‐NIR reflectance of water ice/regolith analogue mixtures and implications for the detectability of ice mixed within planetary regoliths

Contact Info

Product

Resources

About