Characterisation of Martian dust aerosol phase function from sky radiance measurements by MSL engineering cameras
H. Chen-Chen, S. Perez-Hoyos, A. Sanchez-Lavega

TL;DR
This study characterizes Martian dust aerosol phase function using sky radiance data from MSL cameras, providing insights into particle shape and scattering properties crucial for atmospheric modeling.
Contribution
It introduces an iterative radiative transfer retrieval method to determine dust aerosol phase functions from sky radiance measurements, comparing multiple particle models.
Findings
Mean phase function parameters align with previous studies.
No clear seasonal variability in dust scattering properties.
Best fit with basalt dust analogues.
Abstract
Dust is the main driver of Mars' atmospheric variability. The determination of Martian dust aerosol properties is of high relevance for radiative modelling and calculating its weather forcing. In particular, the light scattering behaviour at intermediate and large scattering angles can provide valuable information regarding the airborne dust particle shape. The angular distribution of sky brightness observed by the Mars Science Laboratory engineering cameras (Navcam and Hazcam) is used here to characterise the atmospheric dust single scattering phase function and to constrain the shape of the particles. An iterative radiative transfer based retrieval method was implemented in order to determine the aerosol modelling parameters which best reproduce the observed sky radiance as a function of the scattering angle in the solar almucantar plane. The aerosol models considered in this study…
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