Architecture of TOI-561 planetary system

G. Piotto; T. Zingales; L. Borsato; J. A. Egger; A. C. M. Correia; A.; E. Simon; H. G. Flor\'en; S. G. Sousa; P. F. L. Maxted; D. Nardiello; L.; Malavolta; T. G. Wilson; Y. Alibert; V. Adibekyan; A. Bonfanti; R. Luque; N.; C. Santos; M. J. Hooton; L. Fossati; A. M. S. Smith; S. Salmon; G. Lacedelli,; R. Alonso; T. B\'arczy; D. Barrado Navascues; S. C. C. Barros; W. Baumjohann,; T. Beck; W. Benz; N. Billot; A. Brandeker; C. Broeg; M. Buder; A. Collier; Cameron; Sz. Csizmadia; P. E. Cubillos; M. B. Davies; M. Deleuil; A. Deline,; O. D. S. Demangeon; B. O. Demory; A. Derekas; B. Edwards; D. Ehrenreich; A.; Erikson; A. Fortier; M. Fridlund; D. Gandolfi; K. Gazeas; M. Gillon; M.; G\"udel; M. N. G\"unther; A. Heitzmann; Ch. Helling; K. G. Isaak; L. L. Kiss,; J. Korth; K. W. F. Lam; J. Laskar; A. Lecavelier des Etangs; M. Lendl; P.; Leonardi; D. Magrin; G. Mantovan; C. Mordasini; V. Nascimbeni; G. Olofsson,; R. Ottensamer; I. Pagano; E. Pall\'e; G. Peter; R. Ottensamer; D. Pollacco,; D. Queloz; R. Ragazzoni; N. Rando; F. Ratti; H. Rauer; I. Ribas; G.; Scandariato; D. S\'egransan; D. Sicilia; M. Stalport; S. Sulis; Gy. M.; Szab\'o; S. Udry; S. Ulmer-Moll; V. Van Grootel; J. Venturini; E. Villaver,; N. A. Walton; J. N. Winn; S. Wolf

arXiv:2410.18169·astro-ph.EP·November 1, 2024

Architecture of TOI-561 planetary system

G. Piotto, T. Zingales, L. Borsato, J. A. Egger, A. C. M. Correia, A., E. Simon, H. G. Flor\'en, S. G. Sousa, P. F. L. Maxted, D. Nardiello, L., Malavolta, T. G. Wilson, Y. Alibert, V. Adibekyan, A. Bonfanti, R. Luque, N., C. Santos, M. J. Hooton, L. Fossati, A. M. S. Smith

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TL;DR

This study uses CHEOPS and TESS data to precisely characterize the architecture of the old, metal-poor TOI-561 planetary system, confirming four transiting planets and a non-transiting candidate with improved orbital and physical parameters.

Contribution

It provides the first comprehensive orbital and physical characterization of the TOI-561 system, including a new candidate planet and stability analysis, using combined space-based observations and data analysis.

Findings

01

Confirmed at least four transiting planets with precise periods and radii.

02

Improved mass and density estimates for planet e, suggesting a specific internal structure.

03

Validated the long-term stability of the outer planet TOI-561 f.

Abstract

We present new observations from CHEOPS and TESS to clarify the architecture of the planetary system hosted by the old Galactic thick disk star TOI-561. Our global analysis, which also includes previously published photometric and radial velocity data, incontrovertibly proves that TOI-561 is hosting at least four transiting planets with periods of 0.44 days (TOI-561 b), 10.8 days (TOI-561 c), 25.7 days (TOI-561 d), and 77.1 days (TOI-561 e) and a fifth non-transiting candidate, TOI-561f with a period of 433 days. The precise characterisation of TOI-561's orbital architecture is interesting since old and metal-poor thick disk stars are less likely to host ultra-short period Super-Earths like TOI-561 b. The new period of planet -e is consistent with the value obtained using radial velocity alone and is now known to be $77.14399 \pm 0.00025$ days, thanks to the new CHEOPS and TESS transits.…

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Taxonomy

TopicsSpacecraft Design and Technology · Astronomy and Astrophysical Research · Astronomical Observations and Instrumentation