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arxiv: 1402.5163 · v2 · pith:QBHU2IX4new · submitted 2014-02-20 · 🌌 astro-ph.IM · astro-ph.EP

The K2 Mission: Characterization and Early results

Steve B. Howell , Charlie Sobeck , Michael Haas , Martin Still , Thomas Barclay , Fergal Mullally , John Troeltzsch , Suzanne Aigrain
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Stephen T. Bryson Doug Caldwell William J. Chaplin William D. Cochran Daniel Huber Geoffrey W. Marcy Andrea Miglio Joan R. Najita Marcie Smith J.D. Twicken Jonathan J. Fortney
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classification 🌌 astro-ph.IM astro-ph.EP
keywords willfieldskeplermissionobservationsprecisionastrophysicsearly
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The K2 mission will make use of the Kepler spacecraft and its assets to expand upon Kepler's groundbreaking discoveries in the fields of exoplanets and astrophysics through new and exciting observations. K2 will use an innovative way of operating the spacecraft to observe target fields along the ecliptic for the next 2-3 years. Early science commissioning observations have shown an estimated photometric precision near 400 ppm in a single 30 minute observation, and a 6-hour photometric precision of 80 ppm (both at V=12). The K2 mission offers long-term, simultaneous optical observation of thousands of objects at a precision far better than is achievable from ground-based telescopes. Ecliptic fields will be observed for approximately 75-days enabling a unique exoplanet survey which fills the gaps in duration and sensitivity between the Kepler and TESS missions, and offers pre-launch exoplanet target identification for JWST transit spectroscopy. Astrophysics observations with K2 will include studies of young open clusters, bright stars, galaxies, supernovae, and asteroseismology.

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