Constraints on the Obliquities of Kepler Planet-hosting Stars

Stars with hot Jupiters have obliquities ranging from 0° to 180°, but relatively little is known about the obliquities of stars with smaller planets. Using data from the California-Kepler Survey, we investigate the obliquities of stars with planets spanning a wide range of sizes, most of which are s...

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Bibliographic Details
Published inThe Astronomical journal Vol. 154; no. 6; pp. 270 - 280
Main Authors Winn, Joshua N., Petigura, Erik A., Morton, Timothy D., Weiss, Lauren M., Dai, Fei, Schlaufman, Kevin C., Howard, Andrew W., Isaacson, Howard, Marcy, Geoffrey W., Justesen, Anders Bo, Albrecht, Simon
Format Journal Article
LanguageEnglish
Published Madison The American Astronomical Society 01.12.2017
IOP Publishing
Subjects
Astronomy
Extrasolar planets
Gas giant planets
Hot stars
Inclination
Jupiter
Obliquity
planet-star interactions
Planetary rotation
Planets
planets and satellites: formation
stars: rotation
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Summary:Stars with hot Jupiters have obliquities ranging from 0° to 180°, but relatively little is known about the obliquities of stars with smaller planets. Using data from the California-Kepler Survey, we investigate the obliquities of stars with planets spanning a wide range of sizes, most of which are smaller than Neptune. First, we identify 156 planet hosts for which measurements of the projected rotation velocity ( ) and rotation period are both available. By combining estimates of v and , we find nearly all the stars to be compatible with high inclination, and hence, low obliquity ( 20°). Second, we focus on a sample of 159 hot stars ( K) for which is available but not necessarily the rotation period. We find six stars for which is anomalously low, an indicator of high obliquity. Half of these have hot Jupiters, even though only 3% of the stars that were searched have hot Jupiters. We also compare the distribution of the hot stars with planets to that of 83 control stars selected without prior knowledge of planets. The mean of the control stars is lower than that of the planet hosts by a factor of approximately , as one would expect if the planet hosts have low obliquities. All these findings suggest that the Kepler planet-hosting stars generally have low obliquities, with the exception of hot stars with hot Jupiters.
Bibliography:AAS07188
The Solar System, Exoplanets, and Astrobiology
ISSN:0004-6256
1538-3881
DOI:10.3847/1538-3881/aa93e3