TOI-2322: two transiting rocky planets close to the stellar rotation period and its first harmonic

M. J. Hobson (1); A. Su\'arez Mascare\~no (2; 3); C. Lovis (1); F. Bouchy (1); B. Lavie (1); M. Cretignier (4); A. M. Silva (5; 6); S. G. Sousa (5; 6); H. M. Tabernero (7and 8); V. Adibekyan (5; 6); C. Allende Prieto (2; 3); Y. Alibert (9; 10); S. C. C. Barros (5; 6); A. Castro-Gonz\'alez (11); K. A. Collins (12); S. Cristiani (13; 14); V. D'Odorico (13); M. Damasso (15); D. Dragomir (16); X. Dumusque (1); D. Ehrenreich (1); P. Figueira (5; 6; 17); R. G\'enova Santos (2); B. Goeke (18); J. I. Gonz\'alez Hern\'andez (2; 3); K. Hesse (18); J. Lillo-Box (11); G. Lo Curto (17); C. J. A. P. Martins (19; 5); A. Mehner (17); G. Micela (20); P. Molaro (13); N. J. Nunes (21); E. Palle (2; 3); V. M. Passegger (23; 2; 3; 22); F. Pepe (1); R. Rebolo (2); J. Rodrigues (5; 6); N. Santos (5; 6); A. Sozzetti (15); B. M. Tofflemire (24); S. Udry (1); C. Watkins (12); M.-R. Zapatero Osorio (11); and C. Ziegler (25) ((1) Observatoire de Gen\`eve; D\'epartement d'Astronomie; Universit\'e de Gen\`eve; (2) Instituto de Astrof\'isica de Canarias; (3) Departamento de Astrof\'isica; Universidad de La Laguna; (4) Department of Physics; University of Oxford; (5) Instituto de Astrof\'isica e Ci\^encias do Espa\c{c}o; CAUP; Universidade do Porto; (6) Departamento de F\'isica e Astronomia; Faculdade de Ci\^encias; Universidade do Porto; (7) Institut d'Estudis Espacials de Catalunya (IEEC),(8) Institut de Ci\`encies de l'Espai (ICE; CSIC); Campus UAB; (9) Physics Institute; University of Bern; (10) Center for Space; Habitability; University of Bern; (11) Centro de Astrobiolog\'ia; CSIC-INTA; (12) Center for Astrophysics | Harvard & Smithsonian; (13) INAF- Osservatorio Astronomico di Trieste; (14) IFPU-Institute for Fundamental Physics of the Universe; (15) INAF - Osservatorio Astrofisico di Torino; (16) Department of Physics; Astronomy; University of New Mexico; (17) European Southern Observatory; (18) Kavli Institute for Astrophysics; Space Research; Massachusetts Institute of Technology; (19) Centro de Astrof\'isica da Universidade do Porto; (20) INAF - Osservatorio Astronomico di Palermo; (21) Instituto de Astrof\'isica e Ci\^encias do Espa\c{c}o; Faculdade de Ci\^encias da Universidade de Lisboa; (22) Hamburger Sternwarte; (23) Subaru Telescope; National Astronomical Observatory of Japan (NAOJ); (24) SETI Institute; USA/NASA Ames Research Center; (25) Department of Physics; Engineering; Astronomy; Stephen F. Austin State University)

arXiv:2508.18094·astro-ph.EP·October 8, 2025

TOI-2322: two transiting rocky planets close to the stellar rotation period and its first harmonic

M. J. Hobson (1), A. Su\'arez Mascare\~no (2, 3), C. Lovis (1), F. Bouchy (1), B. Lavie (1), M. Cretignier (4), A. M. Silva (5, 6), S. G. Sousa (5, 6), H. M. Tabernero (7and 8), V. Adibekyan (5, 6), C. Allende Prieto (2, 3), Y. Alibert (9, 10), S. C. C. Barros (5, 6)

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TL;DR

This study confirms and characterizes two transiting rocky planets around an active K4 star using advanced Gaussian Process modeling to disentangle stellar activity from planetary signals, revealing one planet with an Earth-like composition.

Contribution

First application of multivariate Gaussian Process framework to separate stellar activity from planetary signals in RV data for active stars.

Findings

01

Disentangled planetary signals from stellar activity using multivariate GP.

02

Identified two rocky planets with periods near the stellar rotation and its harmonic.

03

Found one planet with an Earth-like internal structure.

Abstract

Context. Active regions on the stellar surface can induce quasi-periodic radial velocity (RV) variations that can mimic planets and mask true planetary signals. These spurious signals can be problematic for RV surveys such as those carried out by the ESPRESSO consortium. Aims. Using ESPRESSO and HARPS RVs and activity indicators, we aim to confirm and characterize two candidate transiting planets from TESS orbiting a K4 star with strong activity signals. Methods. From the ESPRESSO FWHM, TESS photometry, and ASAS-SN photometry, we measure a stellar rotation period of 21.28 $\pm$ 0.08 d. We jointly model the TESS photometry, ESPRESSO and HARPS RVs, and activity indicators, applying a multivariate Gaussian Process (GP) framework to the spectroscopic data. Results. We are able to disentangle the planetary and activity components, finding that TOI-2322 b has a…

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