The Planetary Science Journal (Jan 2023)
Ejected Particles after Impact Splash on Mars: Aggregates and Aerodynamics
Abstract
Our earlier laboratory measurements showed that low-velocity sand impacts release fine <5 μ m dust from a Martian simulant soil. This dust will become airborne in the Martian atmosphere. Here, we extend this study by measuring aerodynamic properties of ejecta and characterizing deviations from the behavior of spherical, monolithic grains. We observe the settling of particles emitted as part of an impact splash. The sizes (20 to 280 μ m) and sedimentation velocities (0.1 to 0.8 m s ^−1 ) of the particles are deduced from high-speed videos while the particles sediment under low ambient pressure of about 1 mbar. The particles regularly settle slower than expected, down to a factor of about 0.3. Using optical microscopy, the shape of the captured particles is characterized by simple axis ratios (longest/smallest), which show that the vast majority of particles are irregular but typically not too elongated, with axis ratios below 2 on average. Electron microscopy further reveals that the particles are typically porous aggregates, which is the most likely reason for the reduction of the sedimentation velocity. Due to the reduced bulk density, aggregates up to 10 μ m in diameter should regularly be a part of the dust in the Martian atmosphere.
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