Two massive rocky planets transiting a K-dwarf 6.5 parsecs away

Support for this work was provided by NASA. M.G. is grateful to NASA and SSC Director for having supported his searches for RV planets with Spitzer. M.G. and V.V.G. are Research Associates at the Belgian Scientific Research Fund (F.R.S.-FNRS). The research leading to these results has received funding from the ARC grant for Concerted Research Actions, financed by the Wallonia–Brussels Federation.HD 219134 is a K-dwarf star at a distance of 6.5 parsecs around which several low-mass planets were recently discovered1,2. The Spitzer Space Telescope detected a transit of the innermost of these planets, HD 219134 b, whose mass and radius (4.5 M⊕ and 1.6 R⊕ respectively) are consistent with a rocky composition1. Here, we report new high-precision time-series photometry of the star acquired with Spitzer revealing that the second innermost planet of the system, HD 219134c, is also transiting. A global analysis of the Spitzer transit light curves and the most up-to-date HARPS-N velocity data set yields mass and radius estimations of 4.74 ± 0.19 M⊕ and 1.602 ± 0.055 R⊕ for HD 219134 b, and of 4.36 ± 0.22 M⊕ and 1.511 ± 0.047 R⊕ for HD 219134 c. These values suggest rocky compositions for both planets. Thanks to the proximity and the small size of their host star (0.778 ± 0.005 R ⊙ )3, these two transiting exoplanets — the nearest to the Earth yet found — are well suited for a detailed characterization (for example, precision of a few per cent on mass and radius, and constraints on the atmospheric properties) that could give important constraints on the nature and formation mechanism of the ubiquitous short-period planets of a few Earth masses.PostprintPeer reviewe

Spitzer Observations of GJ 3470 b: A Very Low-density Neptune-size Planet Orbiting a Metal-rich M Dwarf

We present Spitzer/IRAC 4.5 μm transit photometry of GJ 3470 b, a Neptune-size planet orbiting an M1.5 dwarf star with a 3.3 day period recently discovered in the course of the HARPS M-dwarf survey. We refine the stellar parameters by employing purely empirical mass-luminosity and surface brightness relations constrained by our updated value for the mean stellar density, and additional information from new near-infrared spectroscopic observations. We derive a stellar mass of M_* = 0.539^(+0.047)_(-0.043) M_☉ and a radius of R_* = 0.568^(+0.037)_(-0.031)R_☉. We determine the host star of GJ 3470 b to be metal-rich, with a metallicity of [Fe/H] = +0.20 ± 0.10 and an effective temperature of T_(eff) = 3600 ± 100 K. The revised stellar parameters yield a planetary radius R_p = 4.83_(-0.21)^(+0.22)R_⊕ that is 13% larger than the value previously reported in the literature. We find a planetary mass M_p = 13.9^(+1.5)_(-1.4)M_⊕ that translates to a very low planetary density, P_p= 0.72^(+0.13)_(-0.12) g cm^(–3), which is 33% smaller than the original value. With a mean density half of that of GJ 436 b, GJ 3470 b is an example of a very low-density low-mass planet, similar to Kepler-11 d, Kepler-11 e, and Kepler-18 c, but orbiting a much brighter nearby star that is more conducive to follow-up studies

Histoire des sciences au Moyen Âge

Programme de l’année 2010-2011 : I. Les intérêts scientifiques dans les commentaires bibliques (suite). — II. Les transformations de la matière et leurs théories médiévales (suite)

Fibroscopie oeso-gastro-duodénale systématique chez des patients au stade d'insuffisance rénale terminale (étude rétrospective chez 135 patients)

LILLE2-BU Santé-Recherche (593502101) / SudocPARIS-BIUM (751062103) / SudocSudocFranceF

Radiocarbon Chronology of Human Settlement and paleoenvironment in Senegal, West Africa

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Radiocarbon Chronology of Human Settlement and paleoenvironment in Senegal, West Africa

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Transitions et continuités dans la vallée de la Falémé (Sénégal) : résultats de la 18ème année de recherche du programme international « Peuplement humain et paléoenvironnement en Afrique »

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Radiocarbon Chronology of Human Settlement and paleo environment in Senegal, West Africa.

International audienc