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Hints of a close outer companion to the ultra-hot Jupiter TOI-2109 b

Harre, J.-V. ; Korth, J. LU ; Davies, M.B. LU and Westerdorff, K. (2024) In Astronomy and Astrophysics 692.
Abstract
Context. Hot Jupiters (HJs) with close-by planetary companions are rare, with only a handful of them having been discovered so far. This could be due to their suggested dynamical histories, which lead to the possible ejection of other planets. TOI-2109 b is special in this regard because it is the HJ with the closest relative separation from its host star, being separated by less than 2.3 stellar radii. Unexpectedly, transit timing measurements from recently obtained CHEOPS observations show low-amplitude transit-timing variations (TTVs). Aims. We aim to search for signs of orbital decay and to characterise the apparent TTVs in an attempt to gain information about a possible companion. Methods. We fitted the newly obtained CHEOPS light... (More)
Context. Hot Jupiters (HJs) with close-by planetary companions are rare, with only a handful of them having been discovered so far. This could be due to their suggested dynamical histories, which lead to the possible ejection of other planets. TOI-2109 b is special in this regard because it is the HJ with the closest relative separation from its host star, being separated by less than 2.3 stellar radii. Unexpectedly, transit timing measurements from recently obtained CHEOPS observations show low-amplitude transit-timing variations (TTVs). Aims. We aim to search for signs of orbital decay and to characterise the apparent TTVs in an attempt to gain information about a possible companion. Methods. We fitted the newly obtained CHEOPS light curves using TLCM and extracted the resulting mid-transit timings. Successively, we used these measurements in combination with TESS and archival photometric data and radial velocity (RV) data to estimate the rate of tidal orbital decay of TOI-2109 b, and also to characterise the TTVs using the N-body code TRADES and the photo-dynamical approach of PyTTV. Results. We find tentative evidence at 3σ for orbital decay in the TOI-2109 system when we correct the mid-transit timings using the best-fitting sinusoidal model of the TTVs. We do not detect additional transits in the available photometric data, but find evidence supporting the authenticity of the apparent TTVs, indicating a close-by, outer companion with Pc > 1.125 d. Due to the fast rotation of the star, the new planetary candidate cannot be detected in the available RV measurements, and its parameters can only be loosely constrained by our joint TTV and RV modelling. Conclusions. TOI-2109 could join a small group of rare HJ systems that host close-by planetary companions, only one of which (WASP-47 b) has an outer companion. More high-precision photometric measurements are necessary to confirm the existence of this planetary companion. © The Authors 2024. (Less)
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Contribution to journal
publication status
published
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keywords
methods: data analysis, planet-star interactions, planets and satellites: dynamical evolution and stability, planets and satellites: gaseous planets, techniques: photometric, Network security, Photometers, Planets, Jupiters, Methods. Data analysis, Orbital decay, Planet and satellite: gaseous planet, Planet-star interactions, Planets and satellites, Planets and satellites: dynamical evolution and stabilities, Techniques: photometric, Timing variations, Transit timing, Stars
in
Astronomy and Astrophysics
volume
692
article number
A254
publisher
EDP Sciences
external identifiers
  • scopus:85212947631
ISSN
0004-6361
DOI
10.1051/0004-6361/202451068
language
English
LU publication?
yes
id
182229e9-6369-430b-9cf5-519775f8b8d4
date added to LUP
2025-11-21 12:46:11
date last changed
2025-11-21 12:47:02
@article{182229e9-6369-430b-9cf5-519775f8b8d4,
  abstract     = {{Context. Hot Jupiters (HJs) with close-by planetary companions are rare, with only a handful of them having been discovered so far. This could be due to their suggested dynamical histories, which lead to the possible ejection of other planets. TOI-2109 b is special in this regard because it is the HJ with the closest relative separation from its host star, being separated by less than 2.3 stellar radii. Unexpectedly, transit timing measurements from recently obtained CHEOPS observations show low-amplitude transit-timing variations (TTVs). Aims. We aim to search for signs of orbital decay and to characterise the apparent TTVs in an attempt to gain information about a possible companion. Methods. We fitted the newly obtained CHEOPS light curves using TLCM and extracted the resulting mid-transit timings. Successively, we used these measurements in combination with TESS and archival photometric data and radial velocity (RV) data to estimate the rate of tidal orbital decay of TOI-2109 b, and also to characterise the TTVs using the N-body code TRADES and the photo-dynamical approach of PyTTV. Results. We find tentative evidence at 3σ for orbital decay in the TOI-2109 system when we correct the mid-transit timings using the best-fitting sinusoidal model of the TTVs. We do not detect additional transits in the available photometric data, but find evidence supporting the authenticity of the apparent TTVs, indicating a close-by, outer companion with Pc > 1.125 d. Due to the fast rotation of the star, the new planetary candidate cannot be detected in the available RV measurements, and its parameters can only be loosely constrained by our joint TTV and RV modelling. Conclusions. TOI-2109 could join a small group of rare HJ systems that host close-by planetary companions, only one of which (WASP-47 b) has an outer companion. More high-precision photometric measurements are necessary to confirm the existence of this planetary companion. © The Authors 2024.}},
  author       = {{Harre, J.-V. and Korth, J. and Davies, M.B. and Westerdorff, K.}},
  issn         = {{0004-6361}},
  keywords     = {{methods: data analysis; planet-star interactions; planets and satellites: dynamical evolution and stability; planets and satellites: gaseous planets; techniques: photometric; Network security; Photometers; Planets; Jupiters; Methods. Data analysis; Orbital decay; Planet and satellite: gaseous planet; Planet-star interactions; Planets and satellites; Planets and satellites: dynamical evolution and stabilities; Techniques: photometric; Timing variations; Transit timing; Stars}},
  language     = {{eng}},
  publisher    = {{EDP Sciences}},
  series       = {{Astronomy and Astrophysics}},
  title        = {{Hints of a close outer companion to the ultra-hot Jupiter TOI-2109 b}},
  url          = {{http://dx.doi.org/10.1051/0004-6361/202451068}},
  doi          = {{10.1051/0004-6361/202451068}},
  volume       = {{692}},
  year         = {{2024}},
}