The Japanese mission Hayabusa2 aims at studying and returning samples of the C-type asteroid "Ryugu", a first in the exploration of the Solar System. These asteroids are considered to have preserved among the most primordial materials in the solar system, and to possibly be the parent bodies of carbonaceous chondrites, primitive meteorites containing a significant fraction of organic matter (up to a few percent).
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Système Solaire et Systèmes Planétaires
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La mission japonaise Hayabusa2 a pour objectif l’étude et le retour d’échantillon d'un astéroïde de classe C, "Ryugu", une première dans l'exploration du Système Solaire. Ces astéroïdes sont considérés avoir préservé parmi les plus primordiaux des matériaux du système solaire, et constituer les corps parents des chondrites carbonées, météorites primitives contenant une fraction importante de matière organique (jusqu’à quelques pourcents).
Illustration du projet:
First year of coordinated science observations by Mars Express and ExoMars 2016 Trace Gas Orbiter
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Icarus, vol. 353. p. 113707, 2021.
CO₂ retrievals in the Mars daylight thermosphere from its 4.3 μm limb emission measured by OMEGA/MEx
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Icarus, vol. 353. p. 113830, 2021.
Collisional history of Ryugu's parent body from bright surface boulders
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Nature Astronomy, vol. 5. pp. 39-45, 2021.
Determination of optical constants from Martian analog materials using a spectro-polarimetric technique
Mon, 17/05/2021 - 20:35
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Planetary Space Science, vol. 195. p. 105138, 2021.
The SuperCam Instrument Suite on the NASA Mars 2020 Rover: Body Unit and Combined System Tests
Mon, 17/05/2021 - 20:33
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Space Sci. Rev., vol. 217. p. 4, 2021.
ExoMars Raman Laser Spectrometer: A Tool to Semiquantify the Serpentinization Degree of Olivine-Rich Rocks on Mars
Mon, 17/05/2021 - 20:33
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Astrobiology, vol. 21. pp. 307-322, 2021.
Oxia Planum: The Landing Site for the ExoMars ``Rosalind Franklin'' Rover Mission: Geological Context and Prelanding Interpretation
Mon, 17/05/2021 - 20:32
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Astrobiology, vol. 21. pp. 345-366, 2021.
Morphological and Spectral Diversity of the Clay-Bearing Unit at the ExoMars Landing Site Oxia Planum
Mon, 17/05/2021 - 20:32
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Astrobiology, vol. 21. pp. 464-480, 2021.