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GJ 1252 b: A 1.2 R⊕ Planet Transiting an M3 Dwarf at 20.4 pc
Shporer, Avi
Collins, Karen A.
Irwin, Jonathan
Bonfils, Xavier
Collins, Kevin I.
Matthews, Elisabeth
Winters, Jennifer G.
Anderson, David R.
Armstrong, James D.
Charbonneau, David
Cloutier, Ryan
Daylan, Tansu
Gan, Tianjun
Günther, Maximilian N.
Hellier, Coel
Horne, Keith
Huang, Chelsea X.
Jensen, Eric L. N.
Kielkopf, John
Palle, Enric
Sefako, Ramotholo
Stassun, Keivan G.
Tan, Thiam-Guan
Vanderburg, Andrew
Ricker, George R.
Latham, David W.
Vanderspek, Roland
Seager, Sara
Winn, Joshua N.
Jenkins, Jon M.
Colon, Knicole
Dressing, Courtney D.
Léepine, Sébastien
Muirhead, Philip S.
Rose, Mark E.
Twicken, Joseph D.
Villaseñor, Jesús Noel
IOP
2020
We report the discovery of GJ 1252 b, a planet with a radius of 1.193 ± 0.074 ${R}_{\oplus }$ and an orbital period of 0.52 days around an M3-type star (0.381 ± 0.019 ${M}_{\odot }$, 0.391 ± 0.020 ${R}_{\odot }$) located 20.385 ± 0.019 pc away. We use Transiting Exoplanet Survey Satellite (TESS) data, ground-based photometry and spectroscopy, Gaia astrometry, and high angular resolution imaging to show that the transit signal seen in the TESS data must originate from a transiting planet. We do so by ruling out all false-positive scenarios that attempt to explain the transit signal as originating from an eclipsing stellar binary. Precise Doppler monitoring also leads to a tentative mass measurement of 2.09 ± 0.56 M⊕. The host star proximity, brightness (V = 12.19 mag, K = 7.92 mag), low stellar activity, and the system's short orbital period make this planet an attractive target for detailed characterization, including precise mass measurement, looking for other objects in the system, and planet atmosphere characterization.
Exoplanet astronomy
M dwarf stars
Exoplanets
Ciencias físicas