The Rossiter-McLaughlin effect reloaded: Probing the 3D spin-orbit geometry, differential stellar rotation, and the spatially-resolved stellar spectrum of star-planet systems
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[1] N. Santos,et al. MODELING THE ROSSITER–MCLAUGHLIN EFFECT: IMPACT OF THE CONVECTIVE CENTER-TO-LIMB VARIATIONS IN THE STELLAR PHOTOSPHERE , 2016, 1601.02054.
[2] A. Reiners,et al. Three-dimensional simulations of near-surface convection in main-sequence stars. IV. Effect of small-scale magnetic flux concentrations on centre-to-limb variation and spectral lines , 2015, 1505.04744.
[3] A. Reiners,et al. Three-dimensional simulations of near-surface convection in main-sequence stars - III. The structure of small-scale magnetic flux concentrations , 2015, 1505.04739.
[4] A. Santerne,et al. SOPHIE velocimetry of Kepler transit candidates XVI. Tomographic measurement of the low obliquity of KOI-12b, a warm Jupiter transiting a fast rotator , 2015, 1504.04130.
[5] D. Ehrenreich,et al. WASP-80b has a dayside within the T-dwarf range ? , 2015, 1503.08152.
[6] D. Ehrenreich,et al. Spectrally resolved detection of sodium in the atmosphere of HD 189733b with the HARPS spectrograph , 2015, 1503.05581.
[7] Debra A. Fischer,et al. Stellar diameters and temperatures - VI. High angular resolution measurements of the transiting exoplanet host stars HD 189733 and HD 209458 and implications for models of cool dwarfs , 2014, 1411.5638.
[8] X. Dumusque. DERIVING STELLAR INCLINATION OF SLOW ROTATORS USING STELLAR ACTIVITY , 2014, 1409.3593.
[9] David J Armstrong,et al. A window on exoplanet dynamical histories: Rossiter-McLaughlin observations of WASP-13b and WASP-32b , 2014, 1403.4095.
[10] A. Reiners,et al. Three-dimensional simulations of near-surface convection in main-sequence stars II. Properties of granulation and spectral lines , 2013, 1308.4873.
[11] G. Marcy,et al. LOW STELLAR OBLIQUITIES IN COMPACT MULTIPLANET SYSTEMS , 2013, 1302.4443.
[12] I. Boisse,et al. New analytical expressions of the Rossiter-McLaughlin effect adapted to different observation techniques , 2012, 1211.3310.
[13] I. Boisse,et al. SOAP-T: a tool to study the light curve and radial velocity of a system with a transiting planet and a rotating spotted star , 2012, 1211.1311.
[14] A. Triaud. The time dependence of hot Jupiters' orbital inclinations , 2011, 1109.5813.
[15] J. Winn,et al. IMPROVED MODELING OF THE ROSSITER–McLAUGHLIN EFFECT FOR TRANSITING EXOPLANETS , 2011, 1108.4430.
[16] Avi Shporer,et al. THE IMPACT OF THE CONVECTIVE BLUESHIFT EFFECT ON SPECTROSCOPIC PLANETARY TRANSITS , 2011, 1103.0775.
[17] N. Gibson,et al. Hubble Space Telescope transmission spectroscopy of the exoplanet HD 189733b: high‐altitude atmospheric haze in the optical and near‐ultraviolet with STIS , 2011, 1103.0026.
[18] D. Charbonneau,et al. THE CLIMATE OF HD 189733b FROM FOURTEEN TRANSITS AND ECLIPSES MEASURED BY SPITZER , 2010, 1007.4378.
[19] John Asher Johnson,et al. HOT STARS WITH HOT JUPITERS HAVE HIGH OBLIQUITIES , 2010, 1006.4161.
[20] C. Moutou,et al. Searching for star–planet interactions within the magnetosphere of HD 189733 , 2010, 1003.6027.
[21] A. Collier Cameron,et al. Line-profile tomography of exoplanet transits I: The Doppler shadow of HD 189733b , 2009, 0911.5361.
[22] John Asher Johnson,et al. ANALYTIC DESCRIPTION OF THE ROSSITER–MCLAUGHLIN EFFECT FOR TRANSITING EXOPLANETS: CROSS-CORRELATION METHOD AND COMPARISON WITH SIMULATED DATA , 2009, 0910.2365.
[23] Michel Mayor,et al. The Rossiter-McLaughlin effect of CoRoT-3b and HD 189733b , 2009, 0907.2956.
[24] Joshua N. Winn,et al. EXOPLANETARY SPIN–ORBIT ALIGNMENT: RESULTS FROM THE ENSEMBLE OF ROSSITER–MCLAUGHLIN OBSERVATIONS , 2009, 0902.0737.
[25] C. Moutou,et al. Stellar activity of planetary host star HD 189 733 , 2008, 0811.3923.
[26] M. Knoelker,et al. RADIATIVE MAGNETOHYDRODYNAMIC SIMULATION OF SUNSPOT STRUCTURE , 2008, 0808.3294.
[27] Xavier Bonfils,et al. Stellar activity of planetary host star HD 189733 , 2008, Proceedings of the International Astronomical Union.
[28] R. P. Butler,et al. Measurement of the Spin-Orbit Alignment in the Exoplanetary System HD 189733 , 2006, astro-ph/0609506.
[29] B. Scott Gaudi,et al. Prospects for the Characterization and Confirmation of Transiting Exoplanets via the Rossiter-McLaughlin Effect , 2006, astro-ph/0608071.
[30] C. Moutou,et al. ELODIE metallicity-biased search for transiting Hot Jupiters. II. A very hot Jupiter transiting the bright K star HD 189733 , 2005, astro-ph/0510119.
[31] H. Balthasar. On the contribution of horizontal granular motions to observed limb-effect curves , 1985 .
[32] Dainis Dravins,et al. Photospheric Spectrum Line Asymmetries and Wavelength Shifts , 1982 .
[33] M. Holman,et al. Accepted for publication in The Astrophysical Journal Preprint typeset using L ATEX style emulateapj v. 10/09/06 IMPROVED PARAMETERS FOR EXTRASOLAR TRANSITING PLANETS , 2008 .
[34] T. Emonet,et al. Simulations of magneto-convection in the solar photosphere Equations, methods, and results of the MURaM code , 2005 .
[35] N. Grevesse,et al. Abundances of the elements: Meteoritic and solar , 1989 .