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Two Earth-sized planets orbiting Kepler-20

Fressin, Francois and Ciardi, David R. and Howard, Andrew (2012) Two Earth-sized planets orbiting Kepler-20. Nature, 482 (7384). pp. 195-198. ISSN 0028-0836.

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Since the discovery of the first extrasolar giant planets around Sun-like stars, evolving observational capabilities have brought us closer to the detection of true Earth analogues. The size of an exoplanet can be determined when it periodically passes in front of (transits) its parent star, causing a decrease in starlight proportional to its radius. The smallest exoplanet hitherto discovered has a radius 1.42 times that of the Earth’s radius (R_⊕ plus), and hence has 2.9 times its volume. Here we report the discovery of two planets, one Earth-sized (1.03R_⊕) and the other smaller than the Earth (0.87R_⊕), orbiting the star Kepler-20, which is already known to host three other, larger, transiting planets. The gravitational pull of the new planets on the parent star is too small to measure with current instrumentation. We apply a statistical method to show that the likelihood of the planetary interpretation of the transit signals is more than three orders of magnitude larger than that of the alternative hypothesis that the signals result from an eclipsing binary star. Theoretical considerations imply that these planets are rocky, with a composition of iron and silicate. The outer planet could have developed a thick water vapour atmosphere.

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Ciardi, David R.0000-0002-5741-3047
Howard, Andrew0000-0001-8638-0320
Additional Information:© 2012 Macmillan Publishers Limited. Received 08 November 2011. Accepted 13 December 2011. Published online 20 December 2011. Kepler was competitively selected as the tenth Discovery mission. Funding for this mission is provided by NASA’s Science Mission Directorate. Author Contributions: F.F. and G.T. developed the ideas and tools to perform the BLENDER analysis, and the statistical interpretation that led to the validation of Kepler-20e and Kepler-20 f. C.E.H. implemented important modifications to the BLENDER programto improve the mapping of the range of possible blends. T.N.G. and D.C. led the effort to validate the largest planets in the Kepler-20 system. W.J.B. and D.G.K. led the Kepler mission, and supported the BLENDER effort on Kepler-20. N.M.B. led the Kepler science team that identified viable planet candidates coming out of the Kepler pipeline. J.F.R. and S.T.B. performed the light curve analysis to extract the planet characteristics. G.T., G.W.M., A.H., L.A.B., S.N.Q., D.W.L., D.C.F. and J.F.R. established the stellar characteristics fromhigh-resolution spectroscopy and transit constraints. L.A.R., S.S. and D.D.S. worked on modelling the composition of the planets. J.M.J., T.B., F.M., S.E.S., M.S., S.E.T., J.D.T. and K.U. worked on the data collection, processing and review that yielded the time series photometry. D.R.C. provided the constraint on the angular separation from adaptive optics imaging using PHARO at Palomar. S.B.H. carried out speckle interferometry observations. S.T.B. worked on the pixel-level centroid analysis to reduce the sky area in which background binaries can reproduce the observed transits, which contributes to the statistical validation. D.C.F., E.B.F. and M.J.H. worked on the dynamical constraints on the planet properties. D.R. developed and calculated the coplanarity probability boost. C.D.D. worked on the Kepler incompleteness estimates. J.-M.D. analysed the Spitzer observations of Kepler-20. J.J.L. worked on estimating the planet prior. All authors discussed the results and commented on the manuscript. F.F. led the project and wrote the paper.
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Issue or Number:7384
Record Number:CaltechAUTHORS:20120227-103244018
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Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:29484
Deposited By: Ruth Sustaita
Deposited On:27 Feb 2012 21:00
Last Modified:03 Oct 2019 03:41

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