Exoplanets and Stellar Physics

Transiting exoplanets from the CoRoT space mission: XII. CoRoT-12b: A short-period low-density planet transiting a solar analog star

Astronomy and Astrophysics 520:14 (2010)

Authors:

M Gillon, A Hatzes, S Csizmadia, M Fridlund, M Deleuil, S Aigrain, R Alonso, M Auvergne, A Baglin, P Barge, SI Barnes, AS Bonomo, P Bordé, F Bouchy, H Bruntt, J Cabrera, L Carone, S Carpano, WD Cochran, HJ Deeg, R Dvorak, M Endl, A Erikson, S Ferraz-Mello, D Gandolfi, JC Gazzano, E Guenther, T Guillot, M Havel, G Hébrard, L Jorda, A Léger, A Llebaria, H Lammer, C Lovis, M Mayor, T Mazeh, J Montalbán, C Moutou, A Ofir, M Ollivier, M Pätzold, F Pepe, D Queloz, H Rauer, D Rouan, B Samuel, A Santerne, J Schneider, B Tingley, S Udry, J Weingrill, G Wuchter

Abstract:

We report the discovery by the CoRoT satellite of a new transiting giant planet in a 2.83 days orbit about a V = 15.5 solar analog star (M * = 1.08±0.08 M⊙, R* = 1.1±0.1 R⊙, Teff = 5675±80 K). This new planet, CoRoT-12b, has a mass of 0.92±0.07 MJup and a radius of 1.44±0.13 RJup. Its low density can be explained by standard models for irradiated planets. © ESO 2010.

Photospheric activity, rotation, and radial velocity variations of the planet-hosting star CoRoT-7

Astronomy and Astrophysics 520:9 (2010)

Authors:

AF Lanza, AS Bonomo, C Moutou, I Pagano, S Messina, G Leto, G Cutispoto, S Aigrain, R Alonso, P Barge, M Deleuil, M Auvergne, A Baglin, A Collier Cameron

Abstract:

Context. The CoRoT satellite has recently discovered the transits of an Earth-like planet across the disc of a late-type magnetically active star dubbed CoRoT-7, while a second planet was detected after filtering out the radial velocity (hereafter RV) variations due to stellar activity. Aims. We investigate the magnetic activity of CoRoT-7 and use the results for a better understanding of the impact of magnetic activity on stellar RV variations. Methods. We derived the longitudinal distribution of active regions on CoRoT-7 from a maximum entropy spot model of the CoRoT lightcurve. Assuming that each active region consists of dark spots and bright faculae in a fixed proportion, we synthesized the expected RV variations. Results. Active regions are mainly located at three active longitudes that appear to migrate at different rates, probably as a consequence of surface differential rotation, for which a lower limit of ΔΩ/Ω = 0.058 ± 0.017 is found. The synthesized activity-induced RV variations reproduce the amplitude of the observed RV curve and are used to study the impact of stellar activity on planetary detection. Conclusions. In spite of the non-simultaneous CoRoT and HARPS observations, our study confirms the validity of the method previously adopted to filter out RV variations induced by stellar activity. We find a false-alarm probability <10-4 that the RV oscillations attributed to CoRoT-7b and CoRoT-7c are spurious effects of noise and activity. Additionally, our model suggests that other periodicities found in the observed RV curve of CoRoT-7 could be explained by active regions whose visibility is modulated by a differential stellar rotation with periods ranging from 23.6 to 27.6 days. © 2010 ESO.

Transiting exoplanets from the CoRoT space mission. XV. CoRoT-15b: a brown dwarf transiting companion

(2010)

Authors:

F Bouchy, M Deleuil, T Guillot, S Aigrain, L Carone, WD Cochran

Transiting exoplanets from the CoRoT space mission XIV. CoRoT-11b: a transiting massive "hot-Jupiter" in a prograde orbit around a rapidly rotating F-type star

(2010)

Authors:

D Gandolfi, G Hébrard, R Alonso, M Deleuil, EW Guenther, M Fridlund, M Endl, P Eigmüller, Sz Csizmadia, M Havel, S Aigrain, M Auvergne, A Baglin, P Barge, AS Bonomo, P Bordé, F Bouchy, H Bruntt, J Cabrera, S Carpano, L Carone, WD Cochran, HJ Deeg, R Dvorak, J Eislöffel, A Erikson, S Ferraz-Mello, J-C Gazzano, NP Gibson, M Gillon, P Gondoin, T Guillot, M Hartmann, A Hatzes, L Jorda, P Kabath, A Léger, A Llebaria, H Lammer, PJ MacQueen, M Mayor, T Mazeh, C Moutou, M Ollivier, M Pätzold, F Pepe, D Queloz, H Rauer, D Rouan, B Samuel, J Schneider, B Stecklum, B Tingley, S Udry, G Wuchterl

The Gemini Nici Planet-Finding Campaign: Discovery of a close substellar companion to the young debris disk star PZ TEL

Astrophysical Journal Letters 720:1 PART 2 (2010)

Authors:

BA Biller, MC Liu, Z Wahhaj, EL Nielsen, LM Close, TJ Dupuy, TL Hayward, A Burrows, M Chun, C Ftaclas, F Clarke, M Hartung, J Males, IN Reid, EL Shkolnik, A Skemer, M Tecza, N Thatte, SHP Alencar, P Artymowicz, A Boss, E De Gouveia Dal Pino, J Gregorio-Hetem, S Ida, MJ Kuchner, D Lin, D Toomey

Abstract:

We report the discovery of a tight substellar companion to the young solar analog PZ Tel, a member of the β Pic moving group observed with high-contrast adaptive optics imaging as part of the Gemini Near-Infrared Coronagraphic Imager Planet-Finding Campaign. The companion was detected at a projected separation of 16.4 ± 1.0 AU (0. ′33 ± 0. ′01) in 2009 April. Second-epoch observations in 2010 May demonstrate that the companion is physically associated and shows significant orbital motion. Monte Carlo modeling constrains the orbit of PZ Tel B to eccentricities >0.6. The near-IR colors of PZ Tel B indicate a spectral type of M7 ± 2 and thus this object will be a new benchmark companion for studies of ultracool, low-gravity photospheres. Adopting an age of 12+8-4 Myr for the system, we estimate a mass of 36 ± 6 MJup based on the Lyon/DUSTY evolutionary models. PZ Tel B is one of the few young substellar companions directly imaged at orbital separations similar to those of giant planets in our own solar system. Additionally, the primary star PZ Tel A shows a 70 μm emission excess, evidence for a significant quantity of circumstellar dust that has not been disrupted by the orbitalmotion of the companion. © 2010. The American Astronomical Society. All rights reserved.