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A stellar occultation by the transneptunian object (50000) Quaoar observed by CHEOPS

Morgado, B.E. ; Davies, M.B. LU and Westerdorff, K. (2022) In Astronomy and Astrophysics 664.
Abstract
Context. Stellar occultation is a powerful technique that allows the determination of some physical parameters of the occulting object. The result depends on the photometric accuracy, the temporal resolution, and the number of chords obtained. Space telescopes can achieve high photometric accuracy as they are not affected by atmospheric scintillation. Aims. Using ESA's CHEOPS space telescope, we observed a stellar occultation by the transneptunian object (50000) Quaoar. We compare the obtained chord with previous occultations by this object and determine its astrometry with sub-milliarcsecond precision. Also, we determine upper limits to the presence of a global methane atmosphere on the occulting body. Methods. We predicted and observed a... (More)
Context. Stellar occultation is a powerful technique that allows the determination of some physical parameters of the occulting object. The result depends on the photometric accuracy, the temporal resolution, and the number of chords obtained. Space telescopes can achieve high photometric accuracy as they are not affected by atmospheric scintillation. Aims. Using ESA's CHEOPS space telescope, we observed a stellar occultation by the transneptunian object (50000) Quaoar. We compare the obtained chord with previous occultations by this object and determine its astrometry with sub-milliarcsecond precision. Also, we determine upper limits to the presence of a global methane atmosphere on the occulting body. Methods. We predicted and observed a stellar occultation by Quaoar using the CHEOPS space telescope. We measured the occultation light curve from this dataset and determined the dis- and reappearance of the star behind the occulting body. Furthermore, a ground-based telescope in Australia was used to constrain Quaoar's limb. Combined with results from previous works, these measurements allowed us to obtain a precise position of Quaoar at the occultation time. Results. We present the results obtained from the first stellar occultation by a transneptunian object using a space telescope orbiting Earth; it was the occultation by Quaoar observed on 2020 June 11. We used the CHEOPS light curve to obtain a surface pressure upper limit of 85 nbar for the detection of a global methane atmosphere. Also, combining this observation with a ground-based observation, we fitted Quaoar's limb to determine its astrometric position with an uncertainty below 1.0 mas. Conclusions. This observation is the first of its kind, and it shall be considered as a proof of concept of stellar occultation observations of transneptunian objects with space telescopes orbiting Earth. Moreover, it shows significant prospects for the James Webb Space Telescope. © B. Morgado et al. 2022. (Less)
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keywords
Methods: observational, minor planets, asteroids: individual: Quaoar, occultations, techniques: photometric, Orbits, Photometry, Space telescopes, Stars, Asteroid: individuals, Methods:observational, Minor planet, asteroid: individual: quaoar, Minor planets, Occultation, Stellar occultation, Techniques: photometric, Trans-neptunian objects, Upper limits, Methane
in
Astronomy and Astrophysics
volume
664
article number
L15
publisher
EDP Sciences
external identifiers
  • scopus:85141329528
ISSN
0004-6361
DOI
10.1051/0004-6361/202244221
language
English
LU publication?
yes
id
a1330953-db33-4e77-9251-97f8db535556
date added to LUP
2023-01-10 16:20:23
date last changed
2023-05-10 14:15:09
@article{a1330953-db33-4e77-9251-97f8db535556,
  abstract     = {{Context. Stellar occultation is a powerful technique that allows the determination of some physical parameters of the occulting object. The result depends on the photometric accuracy, the temporal resolution, and the number of chords obtained. Space telescopes can achieve high photometric accuracy as they are not affected by atmospheric scintillation. Aims. Using ESA's CHEOPS space telescope, we observed a stellar occultation by the transneptunian object (50000) Quaoar. We compare the obtained chord with previous occultations by this object and determine its astrometry with sub-milliarcsecond precision. Also, we determine upper limits to the presence of a global methane atmosphere on the occulting body. Methods. We predicted and observed a stellar occultation by Quaoar using the CHEOPS space telescope. We measured the occultation light curve from this dataset and determined the dis- and reappearance of the star behind the occulting body. Furthermore, a ground-based telescope in Australia was used to constrain Quaoar's limb. Combined with results from previous works, these measurements allowed us to obtain a precise position of Quaoar at the occultation time. Results. We present the results obtained from the first stellar occultation by a transneptunian object using a space telescope orbiting Earth; it was the occultation by Quaoar observed on 2020 June 11. We used the CHEOPS light curve to obtain a surface pressure upper limit of 85 nbar for the detection of a global methane atmosphere. Also, combining this observation with a ground-based observation, we fitted Quaoar's limb to determine its astrometric position with an uncertainty below 1.0 mas. Conclusions. This observation is the first of its kind, and it shall be considered as a proof of concept of stellar occultation observations of transneptunian objects with space telescopes orbiting Earth. Moreover, it shows significant prospects for the James Webb Space Telescope. © B. Morgado et al. 2022.}},
  author       = {{Morgado, B.E. and Davies, M.B. and Westerdorff, K.}},
  issn         = {{0004-6361}},
  keywords     = {{Methods: observational; minor planets, asteroids: individual: Quaoar; occultations; techniques: photometric; Orbits; Photometry; Space telescopes; Stars; Asteroid: individuals; Methods:observational; Minor planet, asteroid: individual: quaoar; Minor planets; Occultation; Stellar occultation; Techniques: photometric; Trans-neptunian objects; Upper limits; Methane}},
  language     = {{eng}},
  publisher    = {{EDP Sciences}},
  series       = {{Astronomy and Astrophysics}},
  title        = {{A stellar occultation by the transneptunian object (50000) Quaoar observed by CHEOPS}},
  url          = {{http://dx.doi.org/10.1051/0004-6361/202244221}},
  doi          = {{10.1051/0004-6361/202244221}},
  volume       = {{664}},
  year         = {{2022}},
}