Recurring Activity Discovered on Quasi-Hilda 2009 DQ118

Abstract We have discovered two epochs of activity on quasi-Hilda 2009 DQ 118 . Small bodies that display comet-like activity, such as active asteroids and active quasi-Hildas, are important for understanding the distribution of water and other volatiles throughout the solar system. Through our NASA...

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Bibliographic Details
Published in:Astrophysical journal. Letters 2023-11, Vol.957 (1), p.L1
Main Authors: Oldroyd, William J., Chandler, Colin Orion, Trujillo, Chadwick A., Sheppard, Scott S., Hsieh, Henry H., Kueny, Jay K., Burris, William A., DeSpain, Jarod A., Farrell, Kennedy A., Mazzucato, Michele T., Bosch, Milton K. D., Shaw-Diaz, Tiffany, Gonano, Virgilio
Format: Article
Language:English
Subjects:
Asteroid dynamics
Asteroids
Astrophysical research
Comet dynamics
Comet tails
Comets
Hilda group
Jupiter
Observatories
Perihelions
Solar system
Sublimation
Sunspots
Surface brightness
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Summary:Abstract We have discovered two epochs of activity on quasi-Hilda 2009 DQ 118 . Small bodies that display comet-like activity, such as active asteroids and active quasi-Hildas, are important for understanding the distribution of water and other volatiles throughout the solar system. Through our NASA Partner Citizen Science project, Active Asteroids, volunteers classified archival images of 2009 DQ 118 as displaying comet-like activity. By performing an in-depth archival image search, we found over 20 images from UT 2016 March 8–9 with clear signs of a comet-like tail. We then carried out follow-up observations of 2009 DQ 118 using the 3.5 m Astrophysical Research Consortium Telescope at Apache Point Observatory, Sunspot, New Mexico, USA and the 6.5 m Magellan Baade Telescope at Las Campanas Observatory, Chile. These images revealed a second epoch of activity associated with the UT 2023 April 22 perihelion passage of 2009 DQ 118 . We performed photometric analysis of the tail and find that it had a similar apparent length and surface brightness during both epochs. We also explored the orbital history and future of 2009 DQ 118 through dynamical simulations. These simulations show that 2009 DQ 118 is currently a quasi-Hilda and that it frequently experiences close encounters with Jupiter. We find that 2009 DQ 118 is currently on the boundary between asteroidal and cometary orbits. Additionally, it has likely been a Jupiter family comet or Centaur for much of the past 10 kyr and will be in these same regions for the majority of the next 10 kyr. Since both detected epochs of activity occurred near perihelion, the observed activity is consistent with sublimation of volatile ices. 2009 DQ 118 is currently observable until ∼mid-October 2023. Further observations would help to characterize the observed activity.
ISSN:2041-8205
2041-8213
DOI:10.3847/2041-8213/acfcbc