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Possible detection of phase changes from the non-transiting planet HD 46375b by CoRoT

TitrePossible detection of phase changes from the non-transiting planet HD 46375b by CoRoT
Type de publicationJournal Article
Year of Publication2010
AuteursGaulme, P, Vannier, M, Guillot, T, Mosser, B, Mary, D, Weiss, WW, Schmider, FX, Bourguignon, S, Deeg, HJ, Regulo, C, Aigrain, S, Schneider, J, Bruntt, H, Deheuvels, S, Donati, JF, Appourchaux, T, Auvergne, M, Baglin, A, Baudin, F, Catala, C, Michel, E, Samadi, R
JournalAstronomy & Astrophysics
Date PublishedJul-Aug
ISBN Number0004-6361
Numéro d'accèsWOS:000285342500045

Context. The present work deals with the detection of phase changes in an exoplanetary system. HD 46375 is a solar analog known to host a non-transiting Saturn-mass exoplanet with a 3.0236 day period. It was observed by the CoRoT satellite for 34 days during the fall of 2008. Aims. We attempt to identify at optical wavelengths, the changing phases of the planet as it orbits its star. We then try to improve the star model by means of a seismic analysis of the same light curve and the use of ground-based spectropolarimetric observations. Methods. The data analysis relies on the Fourier spectrum and the folding of the time series. Results. We find evidence of a sinusoidal signal compatible in terms of both amplitude and phase with light reflected by the planet. Its relative amplitude is Delta F-p/F star = [13.0, 26.8] ppm, implying an albedo A = [0.16, 0.33] or a dayside visible brightness temperature T-b similar or equal to [1880, 2030] K by assuming a radius R = 1.1R(Jup) and an inclination i = 45 degrees. Its orbital phase differs from that of the radial-velocity signal by at most 2 sigma(RV). However, the tiny planetary signal is strongly blended by another signal, which we attribute to a telluric signal with a 1 day period. We show that this signal is suppressed, but not eliminated, when using the time series for HD 46179 from the same CoRoT run as a reference. Conclusions. This detection of reflected light from a non-transiting planet should be confirmable with a longer CoRoT observation of the same field. In any case, it demonstrates that non-transiting planets can be characterized using ultra-precise photometric lightcurves with present-day observations by CoRoT and Kepler. The combined detection of solar-type oscillations on the same targets (Gaulme et al. 2010a) highlights the overlap between exoplanetary science and asteroseismology and shows the high potential of a mission such as Plato.

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