Revised Radii of Kepler Stars and Planets Using Gaia Data Release 2

Revised Radii of Kepler Stars and Planets Using Gaia Data Release 2

One bottleneck for the exploitation of data from the Kepler mission for stellar astrophysics and exoplanet research has been the lack of precise radii and evolutionary states for most of the observed stars. We report revised radii of 177,911 Kepler stars derived by combining parallaxes from the Gaia...

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Bibliographic Details
Published in:The Astrophysical journal Vol. 866; no. 2; pp. 99 - 111
Main Authors: Berger, Travis A., Huber, Daniel, Gaidos, Eric, van Saders, Jennifer L.
Format: Journal Article
Language:English
Published: Philadelphia The American Astronomical Society 20-10-2018
IOP Publishing
Subjects:
Astrophysics
Circumstellar habitable zone
Exploitation
Extrasolar planets
Fluxes
Gas giant planets
Irradiance
Kepler mission (NASA)
Main sequence stars
Planetary evolution
planetary systems
Planets
Red giant stars
stars: fundamental parameters
Stellar evolution
techniques: photometric
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Summary:One bottleneck for the exploitation of data from the Kepler mission for stellar astrophysics and exoplanet research has been the lack of precise radii and evolutionary states for most of the observed stars. We report revised radii of 177,911 Kepler stars derived by combining parallaxes from the Gaia Data Release 2 with the DR25 Kepler Stellar Properties Catalog. The median radius precision is 8%, a typical improvement by a factor of 4-5 over previous estimates for typical Kepler stars. We find that 67% ( 120,000) of all Kepler targets are main-sequence stars, 21% ( 37,000) are subgiants, and 12% ( 21,000) are red giants, demonstrating that subgiant contamination is less severe than some previous estimates and that Kepler targets are mostly main-sequence stars. Using the revised stellar radii, we recalculate the radii for 2123 confirmed and 1922 candidate exoplanets. We confirm the presence of a gap in the radius distribution of small, close-in planets, but find that the gap is mostly limited to incident fluxes >200 , and its location may be at a slightly larger radius (closer to 2 R⊕) when compared to previous results. Furthermore, we find several confirmed exoplanets occupying a previously described "hot super-Earth desert" at high irradiance, show the relation between a gas-giant planet's radius and its incident flux, and establish a bona fide sample of eight confirmed planets and 30 planet candidates with < 2 R⊕ in circumstellar "habitable zones" (incident fluxes between 0.25 and 1.50 ). The results presented here demonstrate the potential for transformative characterization of stellar and exoplanet populations using Gaia data.
Bibliography:AAS11022
Stars and Stellar Physics
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/aada83