DOI:
10.1051/0004-6361/202348131
Authors:
Orell-Miquel, J.;Carleo, I.;Murgas, F.;Nowak, G.;Pallé, E.;Luque, R.;Masseron, T.;Sanz-Forcada, J.;Dragomir, D.;Dalba, P. A.;Tronsgaard, R.;Wittrock, J.;Kim, K.;Stibbards, C.;Collins, K. I.;Plavchan, P.;Howell, S. B.;Furlan, E.;Buchhave, L. A.;Gnilka, C. L.;Gupta, A. F.;Henning, Th.;Lester, K. V.;Rodriguez, J. E.;Scott, N. J.;Osborn, H. P.;Villanueva, S.;Seager, S.;Winn, J. N.;Jenkins, J. M.;Vanderspek, R.;Latham, D. W.;Rowden, P.;Watanabe, D.;Torres, G.;Burke, C. J.;Daylan, T.;Barclay, T.;Twicken, J. D.;Ricker, G. R.
Journal:
Astronomy and Astrophysics
Abstract:
The Transiting Exoplanet Survey Satellite (TESS) provides a continuous suite of new planet candidates that need confirmation and precise mass determination from ground-based observatories. This is the case for the G-type star TOI-1710, which is known to host a transiting sub-Saturn planet (M<SUB>p</SUB> = 28.3 ± 4.7 M<SUB>⊕</SUB>) in a long-period orbit (P = 24.28 days). Here we combine archival SOPHIE and new and archival HARPS-N radial velocity data with newly available TESS data to refine the planetary parameters of the system and derive a new mass measurement for the transiting planet, taking into account the impact of the stellar activity on the mass measurement. We report for TOI-1710b a radius of R<SUB>p</SUB> = 5.15 ± 0.12 R<SUB>⊕</SUB>, a mass of M<SUB>p</SUB> = 18.4 ± 4.5 M<SUB>⊕</SUB>, and a mean bulk density of ρ<SUB>p</SUB> = 0.73 ± 0.18 g cm<SUP>−3</SUP>, which are consistent at 1.2σ, 1.5σ, and 0.7σ, respectively, with previous measurements. Although there is not a significant difference in the final mass measurement, we needed to add a Gaussian process component to successfully fit the radial velocity dataset. This work illustrates that adding more measurements does not necessarily imply a better mass determination in terms of precision, even though they contribute to increasing our full understanding of the system. Furthermore, TOI-1710b joins an intriguing class of planets with radii in the range 4-8 R<SUB>⊕</SUB> that have no counterparts in the Solar System. A large gaseous envelope and a bright host star make TOI-1710b a very suitable candidate for follow-up atmospheric characterization.
URL:
https://ui.adsabs.harvard.edu/#abs/2024A&A...684A..96O/abstract
Keywords:
techniques: photometric;techniques: radial velocities;planets and satellites: individual: TOI-1710b;stars: individual: TOI-1710;Astrophysics - Earth and Planetary Astrophysics