Context. The detection and characterization of exoplanets and brown dwarfs around massive AF-type stars is essential to investigate and constrain the impact of stellar mass on planet properties. However, such targets are still poorly explored in radial velocity (RV) surveys because they only feature a small number of stellar lines and those are usually broadened and blended by stellar rotation as well as stellar jitter. As a result, the available information about the formation and evolution of planets and brown dwarfs around hot stars is limited.
Aims. We aim to increase the sample and precisely measure the masses and eccentricities of giant planets and brown dwarfs transiting early-type stars detected by the Transiting Exoplanet Survey Satellite (TESS).
Methods. We followed bright (V < 12 mag) stars with Teff > 6200 K that host giant companions (R > 7 R⊕) using ground-based photometric observations as well as high precision radial velocity measurements from the CORALIE, CHIRON, TRES, FEROS, and MINERVA-Australis spectrographs.
Results. In the context of the search for exoplanets and brown dwarfs around early-type stars, we present the discovery of three brown dwarf companions, TOI-629b, TOI-1982b, and TOI-2543b, and one massive planet, TOI-1107b. From the joint analysis of TESS and ground-based photometry in combination with high precision radial velocity measurements, we find the brown dwarfs have masses between 66 and 68 MJup, periods between 7.54 and 17.17 days, and radii between 0.95 and 1.11 RJup. The hot Jupiter TOI-1107b has an orbital period of 4.08 days, a radius of 1.30 RJup, and a mass of 3.35 MJup. As a by-product of this program, we identified four low-mass eclipsing components (TOI-288b, TOI-446b, TOI-478b, and TOI-764b).
Conclusions. Both TOI-1107b and TOI-1982b present an anomalously inflated radius with respect to the age of these systems. TOI-629 is among the hottest stars with a known transiting brown dwarf. TOI-629b and TOI-1982b are among the most eccentric brown dwarfs. The massive planet and the three brown dwarfs add to the growing population of well-characterized giant planets and brown dwarfs transiting AF-type stars and they reduce the apparent paucity.
Acquisition Source
Goddard Space Flight Center
Document Type
Reprint (Version printed in journal)
Authors
Angelica Psaridi 
(University of Geneva Geneva, Switzerland) François Bouchy (University of Geneva Geneva, Switzerland) Monika Lendl (University of Geneva Geneva, Switzerland) Nolan Grieves (University of Geneva Geneva, Switzerland) Keivan G. Stassun (Vanderbilt University Nashville, Tennessee, United States) Theron Carmichael (University of Edinburgh Edinburgh, United Kingdom) Samuel Gill (University of Warwick Coventry, Warwickshire, United Kingdom) Pablo A. Peña Rojas (Núcleo Interactivo de Astronomia São Domingos de Rana, Portugal) Tianjun Gan (Tsinghua University Beijing, Beijing, China) Avi Shporer (Massachusetts Institute of Technology Cambridge, Massachusetts, United States) Allyson Bieryla (Harvard University Cambridge, Massachusetts, United States) Rafael Brahm (Adolfo Ibáñez University Santiago, Chile) Jessie L. Christiansen (California Institute of Technology Pasadena, California, United States) Ian J. M. Crossfield (University of Kansas Lawrence, Kansas, United States) Franck Galland (University of Geneva Geneva, Switzerland) Matthew J. Hooton (Cavendish Laboratory) Jon M. Jenkins (Ames Research Center Mountain View, California, United States) James S. Jenkins (Diego Portales University Santiago, Chile) David W. Latham (Harvard-Smithsonian Center for Astrophysics Cambridge, Massachusetts, United States) Michael B. Lund (California Institute of Technology Pasadena, California, United States) Joseph E. Rodriguez (Michigan State University East Lansing, Michigan, United States) Eric B. Ting (Ames Research Center Mountain View, California, United States) Stéphane Udry (University of Geneva Geneva, Switzerland) Solène Ulmer-Moll (University of Geneva Geneva, Switzerland) Robert A. Wittenmyer (University of Southern Queensland Toowoomba, Queensland, Australia) Yanzhe Zhang (University of Kansas Lawrence, Kansas, United States) George Zhou (Harvard-Smithsonian Center for Astrophysics Cambridge, Massachusetts, United States) Brett Addison (University of Southern Queensland Toowoomba, Queensland, Australia) Marion Cointepas (University of Geneva Geneva, Switzerland) Karen A. Collins (Harvard-Smithsonian Center for Astrophysics Cambridge, Massachusetts, United States) Kevin I. Collins (George Mason University Fairfax, Virginia, United States) Adrien Deline (University of Geneva Geneva, Switzerland) Courtney D. Dressing (University of California, Berkeley Berkeley, California, United States) Phil Evans (El Sauce Observatory) Steven Giacalone (University of California, Berkeley Berkeley, California, United States) Alexis Heitzmann (University of Southern Queensland Toowoomba, Queensland, Australia) Ismael Mireles (University of New Mexico Albuquerque, New Mexico, United States) Joshua E. Schlieder (Goddard Space Flight Center Greenbelt, Maryland, United States) Date Acquired
February 23, 2023
Publication Date
August 12, 2022
Publication Information
Publication: Astronomy & Astrophysics
Publisher: EDP Sciences
Volume: 664
Issue Publication Date: August 1, 2022
ISSN: 0004-6361
e-ISSN: 1432-0746
URL: https://www.aanda.org/articles/aa/full_html/2022/08/aa43454-22/aa43454-22.html
Funding Number(s)
WBS: 134180
CONTRACT_GRANT: FONDECYT 1201371
PROJECT: ANID BASAL ACE210002
PROJECT: ANID BASAL FB210003
CONTRACT_GRANT: ARC LIEF LE160100001
CONTRACT_GRANT: Discovery DP180100972
CONTRACT_GRANT: Discovery DP220100365
Distribution Limits
Public
Copyright
Portions of document may include copyright protected material.
Technical Review
External Peer Committee
Keywords
brown dwarfsplanetary systemstechniques: photometrictechniques: radial velocitiesstars: early-typebinaries: eclipsing 