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TOI-2490b- The most eccentric brown dwarf transiting in the brown dwarf desert

Authors :
Henderson, Beth A.
Casewell, Sarah L.
Jordán, Andrés
Brahm, Rafael
Henning, Thomas
Gill, Samuel
Mayorga, L. C.
Ziegler, Carl
Stassun, Keivan G.
Goad, Michael R.
Acton, Jack
Alves, Douglas R.
Anderson, David R.
Apergis, Ioannis
Armstrong, David J.
Bayliss, Daniel
Burleigh, Matthew R.
Dragomir, Diana
Gillen, Edward
Günther, Maximilian N.
Hedges, Christina
Hesse, Katharine M.
Hobson, Melissa J.
Jenkins, James S.
Jenkins, Jon M.
Kendall, Alicia
Lendl, Monika
Lund, Michael B.
McCormac, James
Moyano, Maximiliano
Osborn, Ares
Pinto, Marcelo Tala
Ramsay, Gavin
Rapetti, David
Saha, Suman
Seager, Sara
Trifonov, Trifon
Udry, Stéphane
Vines, Jose I.
West, Richard G.
Wheatley, Peter J.
Winn, Joshua N.
Zivave, Tafadzwa
Publication Year :
2024

Abstract

We report the discovery of the most eccentric transiting brown dwarf in the brown dwarf desert, TOI02490b. The brown dwarf desert is the lack of brown dwarfs around main sequence stars within $\sim3$~AU and is thought to be caused by differences in formation mechanisms between a star and planet. To date, only $\sim40$ transiting brown dwarfs have been confirmed. \systemt is a $73.6\pm2.4$ \mjupnospace, $1.00\pm0.02$ \rjup brown dwarf orbiting a $1.004_{-0.022}^{+0.031}$ \msunnospace, $1.105_{-0.012}^{+0.012}$ \rsun sun-like star on a 60.33~d orbit with an eccentricity of $0.77989\pm0.00049$. The discovery was detected within \tess sectors 5 (30 minute cadence) and 32 (2 minute and 20 second cadence). It was then confirmed with 31 radial velocity measurements with \feros by the WINE collaboration and photometric observations with the Next Generation Transit Survey. Stellar modelling of the host star estimates an age of $\sim8$~Gyr, which is supported by estimations from kinematics likely placing the object within the thin disc. However, this is not consistent with model brown dwarf isochrones for the system age suggesting an inflated radius. Only one other transiting brown dwarf with an eccentricity higher than 0.6 is currently known in the brown dwarf desert. Demographic studies of brown dwarfs have suggested such high eccentricity is indicative of stellar formation mechanisms.<br />Comment: Accepted for publication in MNRAS, 18 pages, 14 figures

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2408.04475
Document Type :
Working Paper