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Characterizing the eccentricities of transiting extrasolar planets with Kepler and CoRoT
Eric B. Ford
, Knicole D. Colon
Astronomy & Astrophysics
Center for Astrostatistics
Center for Exoplanets & Habitable Worlds
Institute for Computational and Data Sciences (ICDS)
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Dive into the research topics of 'Characterizing the eccentricities of transiting extrasolar planets with Kepler and CoRoT'. Together they form a unique fingerprint.
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Keyphrases
Johannes Kepler
100%
Extrasolar Planets
100%
Eccentricity
100%
CoRoT
100%
Giant Planets
60%
Transiting Planets
60%
Radial Velocity
40%
Circular Orbits
40%
Large Eccentricity
40%
Light Curves
20%
Photometric Observations
20%
Photometric Measurement
20%
Orbital Eccentricity
20%
Physical Parameters
20%
Radial Velocity Estimation
20%
Habitable Zone
20%
Velocity Observation
20%
Space-based
20%
Follow-up Observation
20%
Solar System
20%
Planet Formation
20%
Systems Theory
20%
Tidal Dissipation
20%
Eccentric Orbits
20%
Rocky Planets
20%
Prior Theory
20%
Physics
Radial-Velocity Method
100%
Extrasolar Gas Giants
100%
Extrasolar Planet
100%
Circular Orbit
66%
Light Curve
33%
Habitable Zone
33%
Eccentric Orbit
33%
Planet Formation
33%
Extrasolar Rocky Planets
33%
Velocity Measurement
33%