The Formation of Bilobate Comet Shapes through Sublimative Torques
Open Access
- 28 January 2021
- journal article
- research article
- Published by American Astronomical Society in The Planetary Science Journal
- Vol. 2 (1), 14
- https://doi.org/10.3847/psj/abc9c8
Abstract
Recent spacecraft and radar observations found that ∼70% of short-period comet nuclei, mostly Jupiter-family comets (JFCs), have bilobate shapes (two masses connected by a narrow neck). This is in stark contrast to the shapes of asteroids of similar sizes, of which ∼14% are bilobate. This suggests that a process or mechanism unique to comets is producing these shapes. Here we show that the bilobate shapes of JFC nuclei are a natural byproduct of sublimative activity during their dynamical migration from their trans-Neptunian reservoir, through the Centaur population, and into the Jupiter family. We model the torques resulting from volatile sublimation during this dynamical migration, and find that they tend to spin up these nuclei to disruption. Once disrupted, the rubble pile-like material properties of comet nuclei (tensile strengths of ∼1–10 Pa and internal friction angles of ∼35°) cause them to reform as bilobate objects. We find that JFCs likely experienced rotational disruption events prior to entering the Jupiter family, which could explain the prevalence of bilobate shapes. These results suggest that the bilobate shapes of observed comets developed recently in their history (within the past ∼1–10 Myr), rather than during solar system formation or collisions during planet migration and residency in the trans-Neptunian population.Funding Information
- NSF (1910275)
- NASA (80NSSC18K0497)
- JSPS Shingakujutsu Kobo (JP19H05071)
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