The geology and evolution of the Near-Earth binary asteroid system (65803) Didymos - Observatoire de la Cote d'Azur
Journal Articles Nature Communications Year : 2024

The geology and evolution of the Near-Earth binary asteroid system (65803) Didymos

Olivier Barnouin
Ronald-Louis Ballouz
Simone Marchi
Jean-Baptiste Vincent
Harrison Agrusa
Yun Zhang
Carolyn M Ernst
Maurizio Pajola
Filippo Tusberti
Alice Lucchetti
R. Terik Daly
Eric Palmer
Kevin J Walsh
Patrick Michel
Jessica M Sunshine
Juan L Rizos
  • Function : Author
Tony L Farnham
Derek C Richardson
Laura M Parro
Naomi Murdoch
Colas Q Robin
  • Function : Author
Masatoshi Hirabayashi
Tomas Kahout
Erik Asphaug
  • Function : Author
Sabina D Raducan
Martin Jutzi
  • Function : Author
Fabio Ferrari
Adriano Campobagatin
Nancy L Chabot
Jian-Yang Li
Andrew F Cheng
Michael C Nolan
Angela M Stickle
  • Function : Author
Ozgur Karatekin
  • Function : Author
Elisabetta Dotto
Vincenzo Della Corte
  • Function : Author
Elena Mazzotta Epifani
Alessandro Rossi
Igor Gai
  • Function : Author
Ivano Bertini
  • Function : Author
Angelo Zinzi
Josep M Trigo-Rodriguez
Joel Beccarelli
  • Function : Author
Stavro Lambrov Ivanovski
  • Function : Author
John Robert Brucato
Giovanni Poggiali
Giovanni Zanotti
Marilena Amoroso
  • Function : Author
Andrea Capannolo
  • Function : Author
Gabriele Cremonese
  • Function : Author
Massimo Dall’ora
  • Function : Author
Simone Ieva
Gabriele Impresario
Michèle Lavagn
  • Function : Author
Dario Modenini
Pasquale Palumbo
  • Function : Author
Davide Perna
  • Function : Author
Simone Pirrotta
Paolo Tortora
Marco Zannoni
  • Function : Author
Andrew S Rivkin
  • Function : Author

Abstract

Images collected during NASA’s Double Asteroid Redirection Test (DART) mission provide the first resolved views of the Didymos binary asteroid system. These images reveal that the primary asteroid, Didymos, is flattened and has plausible undulations along its equatorial perimeter. At high elevations, its surface is rough and contains large boulders and craters; at low elevations its surface is smooth and possesses fewer large boulders and craters. Didymos’ moon, Dimorphos, possesses an intimate mixture of boulders, several asteroid-wide lineaments, and a handful of craters. The surfaces of both asteroids include boulders that are large relative to their host body, suggesting that both asteroids are rubble piles. Based on these observations, our models indicate that Didymos has a surface cohesion ≤ 1 Pa and an interior cohesion of ∼10 Pa, while Dimorphos has a surface cohesion of <0.9 Pa. Crater size-frequency analyzes indicate the surface age of Didymos is 40–130 times older than Dimorphos, with likely absolute ages of $$\sim$$ ~ 12.5 Myr and <0.3 Myr, respectively. Solar radiation could have increased Didymos’ spin rate leading to internal deformation and surface mass shedding, which likely created Dimorphos.
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hal-04668463 , version 1 (06-08-2024)

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Olivier Barnouin, Ronald-Louis Ballouz, Simone Marchi, Jean-Baptiste Vincent, Harrison Agrusa, et al.. The geology and evolution of the Near-Earth binary asteroid system (65803) Didymos. Nature Communications, 2024, 15 (1), pp.6202. ⟨10.1038/s41467-024-50146-x⟩. ⟨hal-04668463⟩
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