Exoplanets and Stellar Physics

Transiting exoplanets from the CoRoT space mission XXV. CoRoT-27b: a massive and dense planet on a short-period orbit

(2014)

Authors:

H Parviainen, D Gandolfi, M Deleuil, C Moutou, HJ Deeg, S Ferraz-Mello, B Samuel, Sz Csizmadia, T Pasternacki, G Wuchterl, M Havel, M Fridlund, R Angus, B Tingley, S Grziwa, J Korth, S Aigrain, JM Almenara, R Alonso, A Baglin, SCC Barros, ASP Bordé, F Bouchy, J Cabrera, RF Díaz, R Dvorak, A Erikson, T Guillot, A Hatzes, G Hébrard, T Mazeh, G Montagnier, A Ofir, M Ollivier, M Pätzold, H Rauer, D Rouan, A Santerne, J Schneider

Hubble Space Telescope hot Jupiter transmission spectral survey: a detection of Na and strong optical absorption in HAT-P-1b

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 437:1 (2014) 46-66

Authors:

N Nikolov, DK Sing, F Pont, AS Burrows, JJ Fortney, GE Ballester, TM Evans, CM Huitson, HR Wakeford, PA Wilson, S Aigrain, D Deming, NP Gibson, GW Henry, H Knutson, A Lecavelier des Etangs, AP Showman, A Vidal-Madjar, K Zahnle

Identifying new opportunities for exoplanet characterisation at high spectral resolution

Astronomy & Astrophysics EDP Sciences 561 (2014) a150

Authors:

RJ de Kok, J Birkby, M Brogi, H Schwarz, S Albrecht, EJW de Mooij, IAG Snellen

Identifying new opportunities for exoplanet characterisation at high spectral resolution

(2013)

Authors:

Remco J de Kok, Jayne Birkby, Matteo Brogi, Henriette Schwarz, Simon Albrecht, Ernst JW de Mooij, Ignas AG Snellen

The Monitor Project: Stellar rotation at 13 Myr: I. A photometric monitoring survey of the young open cluster h Persei

Astronomy and Astrophysics 560 (2013)

Authors:

E Moraux, S Artemenko, J Bouvier, J Irwin, M Ibrahimov, T Magakian, K Grankin, E Nikogossian, C Cardoso, S Hodgkin, S Aigrain, TA Movsessian

Abstract:

Aims. We aim at constraining the angular momentum evolution of low-mass stars by measuring their rotation rates when they begin to evolve freely towards the zero-age main sequence (ZAMS), i.e., after the disk accretion phase has stopped. Methods. We conducted a multisite photometric monitoring of the young open cluster h Persei, which has an age of ∼13 Myr. The observations were done in the I-band using four different telescopes, and the variability study is sensitive to periods from less than 0.2 day to 20 days. Results. Rotation periods are derived for 586 candidate cluster members over the mass range 0:4 ≤ M=M⊙ ≤ 1:4. The rotation period distribution indicates a slightly higher fraction of fast rotators for the lower mass objects, although the lower and upper envelopes of the rotation period distribution, located respectively at ∼0.20.3 d and ∼10 d, are remarkably flat over the whole mass range. We combine this period distribution with previous results obtained in younger and older clusters to model the angular momentum evolution of low mass stars during the pre-main sequence (PMS) phase. Conclusions. The h Per cluster provides the first statistically robust estimate of the rotational period distribution of solar-type and lower mass stars at the end of the PMS accretion phase (≥10 Myr). The results are consistent with models that assume significant core-envelope decoupling during the angular momentum evolution to the ZAMS. © 2013 ESO.