The DECam Ecliptic Exploration Project (DEEP) is a wide-field solar system survey that is well-suited for detecting superfast rotating main-belt asteroids (SFRs) due to its fast observing cadence and sensitivity to small, subkilometer objects.
In this work, the authors performed a preliminary search for SFRs in a single night of DEEP data, covering 686 main-belt asteroids. They identified three SFRs with rotation periods of 0.21 hours, 0.71 hours, and 0.21 hours. This implies an occurrence rate of 0.4 +0.3/-0.1%, which is higher than the incidence rates measured by previous studies.
The authors suggest that this high occurrence rate is due to DEEP's sensitivity to the small, subkilometer size regime, which is thought to be dominated by rubble pile asteroids. They compute the minimum required cohesive strengths for each of the three SFRs, finding values ranging from ~100 to ~10,000 Pa. These strengths are more than that of weak regolith but consistent with many cohesive asteroid strengths reported in the literature.
The authors note that the full DEEP survey has measured over 60,000 main-belt asteroid lightcurves, and they expect to identify ~300 SFRs across the entire data set. This will provide a robust distribution of required cohesive strengths within the main belt, which can probe the interior structure and collisional history of these objects.
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