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A closely packed system of low-mass, low-density planets transiting Kepler-11
Authors:Lissauer Jack J  Fabrycky Daniel C  Ford Eric B  Borucki William J  Fressin Francois  Marcy Geoffrey W  Orosz Jerome A  Rowe Jason F  Torres Guillermo  Welsh William F  Batalha Natalie M  Bryson Stephen T  Buchhave Lars A  Caldwell Douglas A  Carter Joshua A  Charbonneau David  Christiansen Jessie L  Cochran William D  Desert Jean-Michel  Dunham Edward W  Fanelli Michael N  Fortney Jonathan J  Gautier Thomas N  Geary John C  Gilliland Ronald L  Haas Michael R  Hall Jennifer R  Holman Matthew J  Koch David G  Latham David W  Lopez Eric  McCauliff Sean  Miller Neil  Morehead Robert C  Quintana Elisa V  Ragozzine Darin
Affiliation:NASA Ames Research Center, Moffett Field, California 94035, USA. jack.lissauer@nasa.gov
Abstract:When an extrasolar planet passes in front of (transits) its star, its radius can be measured from the decrease in starlight and its orbital period from the time between transits. Multiple planets transiting the same star reveal much more: period ratios determine stability and dynamics, mutual gravitational interactions reflect planet masses and orbital shapes, and the fraction of transiting planets observed as multiples has implications for the planarity of planetary systems. But few stars have more than one known transiting planet, and none has more than three. Here we report Kepler spacecraft observations of a single Sun-like star, which we call Kepler-11, that reveal six transiting planets, five with orbital periods between 10 and 47?days and a sixth planet with a longer period. The five inner planets are among the smallest for which mass and size have both been measured, and these measurements imply substantial envelopes of light gases. The degree of coplanarity and proximity of the planetary orbits imply energy dissipation near the end of planet formation.
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