English

Limits on Quaoar's Atmosphere

Earth and Planetary Astrophysics 2015-06-16 v1

Abstract

Here we present high cadence photometry taken by the Acquisition Camera on Gemini South, of a close passage by the 540\sim540 km radius Kuiper Belt Object, (50000) Quaoar, of a r'=20.2 background star. Observations before and after the event show that the apparent impact parameter of the event was 0.019±0.0040.019\pm0.004", corresponding to a close approach of 580±120580\pm120 km to the centre of Quaoar. No signatures of occultation by either Quaoar's limb or its potential atmosphere are detectable in the relative photometry of Quaoar and the target star, which were unresolved during closest approach. From this photometry we are able to put constraints on any potential atmosphere Quaoar might have. Using a Markov chain Monte Carlo and likelihood approach, we place pressure upper limits on sublimation supported, isothermal atmospheres of pure N2_2, CO, and CH4_4. For N2_2 and CO, the upper limit surface pressures are 1 and 0.7 μbar\mu{bar} respectively. The surface temperature required for such low sublimation pressures is 33\sim33 K, much lower than Quaoar's mean temperature of 44\sim44 K measured by others. We conclude that Quaoar cannot have an isothermal N2_2 or CO atmosphere. We cannot eliminate the possibility of a CH4_4 atmosphere, but place upper surface pressure and mean temperature limits of 138\sim138 nbar and 44\sim44 K respectively.

Cite

@article{arxiv.1308.2230,
  title  = {Limits on Quaoar's Atmosphere},
  author = {Wesley C Fraser and Chad Trujillo and Andrew W. Stephens and German Gimeno and Michael E. Brown and Stephen Gwyn and JJ Kavelaars},
  journal= {arXiv preprint arXiv:1308.2230},
  year   = {2015}
}

Comments

Accepted to the Astrophysical Journal Letters

R2 v1 2026-06-22T01:07:13.872Z