TESS Asteroseismic Analysis of HD 76920: The Giant Star Hosting an Extremely Eccentric Exoplanet

Jiang, Chen; Wu, Tao; Feinstein, Adina D.; Stassun, Keivan G.; Bedding, Timothy R.; Veras, Dimitri; Corsaro, Enrico; Buzasi, Derek L.; Stello, Dennis; Li, Yaguang; Mathur, Savita; García, Rafael A.; Breton, Sylvain N.; Lundkvist, Mia S.; Mikołajczyk, Przemysław J.; Gehan, Charlotte; Campante, Tiago L.; Bossini, Diego; Kane, Stephen R.; Joel Ong, Jia Mian; Yıldız, Mutlu; Kayhan, Cenk; Çelik Orhan, Zeynep; Örtel, Sibel; Zhang, Xinyi; Cunha, Margarida S.; de Moura, Bruno Lustosa; Yu, Jie; Huber, Daniel; Ou, Jian-wen; Wittenmyer, Robert A.; Gizon, Laurent; Chaplin, William J.
Referencia bibliográfica

The Astrophysical Journal

Fecha de publicación:
3
2023
Número de autores
33
Número de autores del IAC
1
Número de citas
3
Número de citas referidas
2
Descripción
The Transiting Exoplanet Survey Satellite (TESS) mission searches for new exoplanets. The observing strategy of TESS results in high-precision photometry of millions of stars across the sky, allowing for detailed asteroseismic studies of individual systems. In this work, we present a detailed asteroseismic analysis of the giant star HD 76920 hosting a highly eccentric giant planet (e = 0.878) with an orbital period of 415 days, using five sectors of TESS light curve that cover around 140 days of data. Solar-like oscillations in HD 76920 are detected around 52 μHz by TESS for the first time. By utilizing asteroseismic modeling that takes classical observational parameters and stellar oscillation frequencies as constraints, we determine improved measurements of the stellar mass (1.22 ± 0.11 M ⊙), radius (8.68 ± 0.34 R ☉), and age (5.2 ± 1.4 Gyr). With the updated parameters of the host star, we update the semimajor axis and mass of the planet as a = 1.165 ± 0.035 au and ${M}_{{\rm{p}}}\sin i=3.57\pm 0.22\,{M}_{\mathrm{Jup}}$ . With an orbital pericenter of 0.142 ± 0.005 au, we confirm that the planet is currently far away enough from the star to experience negligible tidal decay until being engulfed in the stellar envelope. We also confirm that this event will occur within about 100 Myr, depending on the stellar model used.
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Savita
Mathur