Dimorphos’s Material Properties and Estimates of Crater Size from the DART Impact

Dimorphos’s Material Properties and Estimates of Crater Size from the DART Impact

On 2022 September 26, the Double Asteroid Redirection Test (DART) spacecraft intentionally collided with Dimorphos, the moon of the binary asteroid system 65803 Didymos. This collision provided the first full-scale test of a kinetic impactor for planetary defense. Images from DART’s DRACO camera rev...

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Main Authors: Angela M. Stickle, Kathryn M. Kumamoto, Dawn M. Graninger, Mallory E. DeCoster, Wendy K. Caldwell, Jason M. Pearl, J. Michael Owen, Olivier Barnouin, Gareth S. Collins, R. Terik Daly, Isabel Herreros, Jens Ormö, Jessica Sunshine, Carolyn M. Ernst, Toshi Hirabayashi, Simone Marchi, Laura Parro, Harrison Agrusa, Megan Bruck Syal, Nancy L. Chabot, Andy F. Cheng, Thomas M. Davison, Elisabetta Dotto, Eugene G. Fahenstock, Fabio Ferrari, Martin Jutzi, Alice Lucchetti, Robert Luther, Nilanjan Mitra, Maurizio Pajola, Sabina Raducan, KT Ramesh, Andrew S. Rivkin, Alessandro Rossi, Paul Sánchez, Stephen R. Schwartz, Stefania Soldini, Jordan K. Steckloff, Filippo Tusberti, Kai Wünnemann, Yun Zhang
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:The Planetary Science Journal
Subjects:
Asteroids
Craters
Impact phenomena
Planetary science
Online Access:https://doi.org/10.3847/PSJ/ad944d
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Summary:On 2022 September 26, the Double Asteroid Redirection Test (DART) spacecraft intentionally collided with Dimorphos, the moon of the binary asteroid system 65803 Didymos. This collision provided the first full-scale test of a kinetic impactor for planetary defense. Images from DART’s DRACO camera revealed Dimorphos to be an oblate spheroid covered in boulders of varying sizes and shapes. Very little was known about Dimorphos prior to DART’s impact, including its shape, structure, and material properties. Approach observations and those following the DART impact have provided crucial knowledge that narrows the parameter space relevant to modeling the impact into Dimorphos. Here we present the results of a suite of hydrocode simulations of the DART impact on Dimorphos. Despite remaining uncertainties, initial models of DART’s kinetic impact provide important information about the results of DART (e.g., potential crater size and morphology, ejecta mass) and the properties of Dimorphos. Simulations here suggest that Dimorphos has near-surface strength ranging from a few Pascals to tens of kPa, which corresponds to crater sizes of ∼40–60 m. Simulated crater sizes provide a crucial comparison metric for the European Space Agency Hera mission when it arrives at the Didymos system. Hera’s measurement of crater size in combination with measurement of Dimorphos’s mass will allow us to assess our simulations and provide the information needed to make the DART impact experiment both the first test of a planetary defense mitigation mission and the first full-scale planetary defense simulation validation exercise.
ISSN:2632-3338

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