Article

Boulder size and shape distributions on asteroid Ryugu

Details

Citation

Michikami T, Honda C, Miyamoto H, Hirabayashi M, Hagermann A, Irie T, Nomura K, Ernst CM, Kawamura M, Sugimoto K, Tatsumi E, Morota T, Hirata N, Noguchi T & Cho Y (2019) Boulder size and shape distributions on asteroid Ryugu. Icarus, 331, pp. 179-191. https://doi.org/10.1016/j.icarus.2019.05.019

Abstract
In 2018, the Japanese spacecraft Hayabusa2, arrived at the small asteroid Ryugu. The surface of this C-type asteroid is covered with numerous boulders whose size and shape distributions are investigated in this study. Using a few hundred Optical Navigation Camera (ONC) images with a pixel scale of approximately 0.65 m, we focus on boulders greater than 5m in diameter. Smaller boulders are also considered using five arbitrarily chosen ONC close-up images with pixel scales ranging from 0.7 to 6 cm. Across the entire surface area (~2.7 km2) of Ryugu, nearly 4400 boulders larger than 5m were identified. Boulders appear to be uniformly distributed across the entire surface, with some slight differences in latitude and longitude. At ~50 km−2, the number density of boulders larger than 20m is twice as large as on asteroid Itokawa (or Bennu). The apparent shapes of Ryugu's boulders resemble laboratory impact fragments, with larger boulders being more elongated. The ratio of the total volume of boulders larger than 5m to the total excavated volume of craters larger than 20m on Ryugu can be estimated to be ~94%, which is comparatively high. These observations strongly support the hypothesis that most boulders found on Ryugu resulted from the catastrophic disruption of Ryugu's larger parent body, as described in previous papers (Watanabe et al., 2019; Sugita et al.,2019). The cumulative size distribution of boulders larger than 5 m has a power-index of −2.65 ± 0.05, which is comparatively shallow compared with other asteroids visited by spacecraft. For boulders smaller than 4 m, the power-index is even shallower and ranges from −1.65 ± 0.05 to −2.01 ± 0.06. This particularly shallow power-index implies that some boulders are buried in Ryugu's regolith. Based on our observations, we suggest that boulders near the equator might have been buried by the migration of finer material and, as a result, the number density of boulders larger than 5 m in the equatorial region is lower than at higher latitudes.

Keywords
Asteroids; Surfaces; Impact processes; Geological processes; Asteroid Ryugu; Regoliths

Journal
Icarus: Volume 331

StatusPublished
FundersSTFC Science & Technology Facilities Council
Publication date31/10/2019
Publication date online21/05/2019
Date accepted by journal17/05/2019
URLhttp://hdl.handle.net/1893/29777
ISSN0019-1035