The Astronomical Journal (Jan 2024)

The K2 and TESS Synergy. III. Search and Rescue of the Lost Ephemeris for K2's First Planet

  • Erica Thygesen,
  • Joseph E. Rodriguez,
  • Zoë L. de Beurs,
  • Andrew Vanderburg,
  • John H. Livingston,
  • Jonathon Irwin,
  • Alexander Venner,
  • Michael Cretignier,
  • Karen A. Collins,
  • Allyson Bieryla,
  • David Charbonneau,
  • Ian J. M. Crossfield,
  • Xavier Dumusque,
  • John Kielkopf,
  • David W. Latham,
  • Michael Werner

DOI
https://doi.org/10.3847/1538-3881/ad60bf
Journal volume & issue
Vol. 168, no. 4
p. 161

Abstract

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K2-2 b/HIP 116454 b, the first exoplanet discovery by K2 during its Two-Wheeled Concept Engineering Test, is a sub-Neptune (2.5 ± 0.1 R _⊕ , 9.7 ± 1.2 M _⊕ ) orbiting a relatively bright ( K _S = 8.03) K-dwarf star on a 9.1 day period. Unfortunately, due to a spurious follow-up transit detection and ephemeris degradation, the transit ephemeris for this planet was lost. In this work, we recover and refine the transit ephemeris for K2-2 b, showing a ∼40 σ discrepancy from the discovery results. To accurately measure the transit ephemeris and update the parameters of the system, we jointly fit space-based photometric observations from NASA’s K2, Transiting Exoplanet Survey Satellite, and Spitzer missions with new photometric observations from the ground, as well as radial velocities from HARPS-N that are corrected for stellar activity using a new modeling technique. Ephemerides becoming lost or significantly degraded, as is the case for most transiting planets, highlights the importance of systematically updating transit ephemerides with upcoming large efforts expected to characterize hundreds of exoplanet atmospheres. K2-2 b sits at the high-mass peak of the known radius valley for sub-Neptunes, and is now well-suited for transmission spectroscopy with current and future facilities. Our updated transit ephemeris will ensure no more than a 13 minute uncertainty through 2030.

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