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Published July 1, 2018 | Published + Submitted
Journal Article Open

Do Close-in Giant Planets Orbiting Evolved Stars Prefer Eccentric Orbits?

Grunblatt, Samuel K. ORCID icon
Huber, Daniel ORCID icon
Gaidos, Eric ORCID icon
Lopez, Eric D.
Barclay, Thomas ORCID icon
Chontos, Ashley ORCID icon
Sinukoff, Evan ORCID icon
Van Eylen, Vincent ORCID icon
Howard, Andrew W. ORCID icon
Isaacson, Howard ORCID icon

Abstract

The NASA Kepler and K2 Missions have recently revealed a population of transiting giant planets orbiting moderately evolved, low-luminosity red giant branch stars. Here, we present radial velocity (RV) measurements of three of these systems, revealing significantly non-zero orbital eccentricities in each case. Comparing these systems with the known planet population suggests that close-in giant planets around evolved stars tend to have more eccentric orbits than those around main sequence stars. We interpret this as tentative evidence that the orbits of these planets pass through a transient, moderately eccentric phase where they shrink faster than they circularize due to tides raised on evolved host stars. Additional RV measurements of currently known systems, along with new systems discovered by the recently launched NASA Transiting Exoplanet Survey Satellite (TESS) mission, may constrain the timescale and mass dependence of this process.

Additional Information

© 2018 The American Astronomical Society. Received 2018 May 7; revised 2018 May 29; accepted 2018 June 6; published 2018 June 27. The authors would like to thank John Livingston, Jim Fuller, Masanobu Kunitomo, Alessandro Brani, Amaury Triaud, Benjamin Pope, Lauren Weiss, Teruyuki Hirano, Travis Berger, Jessica Stasik, Connor Auge, Aaron Do, and Nader Haghighipour for helpful discussions. This research was supported by the NASA K2 Guest Observer Awards NNX16AH45G and NNX17AF76G to D.H. D.H. acknowledges support by the National Aeronautics and Space Administration under Grant NNX14AB92G issued through the Kepler Participating Scientist Program. This research has made use of the Exoplanet Orbit Database and the Exoplanet Data Explorer at Exoplanets.org. This work was based on observations at the W. M. Keck Observatory granted by the University of Hawaii, the University of California, and the California Institute of Technology. We thank the observers who contributed to the measurements reported here and acknowledge the efforts of the Keck Observatory staff. We extend special thanks to those of Hawaiian ancestry on whose sacred mountain of Mauna Kea we are privileged to be guests.

Attached Files

Published - Grunblatt_2018_ApJL_861_L5.pdf

Submitted - 1805.11620.pdf

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