2019
DOI: 10.3847/1538-3881/ab0899
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Long-period Giant Companions to Three Compact, Multiplanet Systems

Abstract: Understanding the relationship between long-period giant planets and multiple smaller short-period planets is critical for formulating a complete picture of planet formation. This work characterizes three such systems. We present Kepler-65, a system with an eccentric (e = 0.28 ± 0.07) giant planet companion discovered via radial velocities (RVs) exterior to a compact, multiply-transiting system of sub-Neptune planets. We also use precision RVs to improve mass and radius constraints on two other systems with si… Show more

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Cited by 51 publications
(46 citation statements)
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References 78 publications
(98 reference statements)
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“…For example, dedicated RV monitoring of Kepler systems in search for outer CJs would help increase the sample size (e.g. Mills et al 2019).…”
Section: Dynamically Linked Inner and Outer Systemsmentioning
confidence: 99%
“…For example, dedicated RV monitoring of Kepler systems in search for outer CJs would help increase the sample size (e.g. Mills et al 2019).…”
Section: Dynamically Linked Inner and Outer Systemsmentioning
confidence: 99%
“…The authors argue that if the giant planet has an eccentric orbit, it is very unlikely that the system harbors any inner super-Earths (making the HD 137496 system a counter example). Nevertheless, the presence of a low-mass inner planet together with a cold Jupiter in eccentric and/or mutually inclined orbits has been the object of recent studies (Hansen 2017;Mills et al 2019;Carrera et al 2019;Masuda et al 2020;Poon & Nelson 2020;Pu & Lai 2021). This highlights the need for accurate characterization of such systems for our understanding of planet formation and evolution and stresses the importance of the HD 137496 system.…”
Section: A Low-mass Inner Planet With a Cold Distant Companionmentioning
confidence: 99%
“…To improve upon the RV + TTV solution, we used an iterative photodynamical forward-model to simultaneously fit the photometry and RVs of the Kepler-88 system. We used the code Phodymm, which has previously been used to model and fit photometry from the Kepler prime mission in Kepler-223, (Mills et al 2016), Kepler-444 (Mills & Fabrycky 2017a), and Kepler-108 (Mills & Fabrycky 2017b), and the combined Kepler prime photometry and Keck-HIRES RVs in Kepler-25, Kepler-65, and Kepler-68 (Mills et al 2019). Phodymm is a Runge-Kutta N-body integrator that can simultaneously forward-model photometry and RVs for N planets and one star.…”
Section: Photodynamical Fit To Transits and Rvsmentioning
confidence: 99%
“…Giant planets are present around a large number of the Kepler systems that host small, transiting planets (Marcy et al 2014;Mills et al 2019), and perhaps at greater frequency than giant planets occur around field stars (Zhu & Wu 2018;Bryan et al 2019). Kepler-88 joins their ranks.…”
Section: Comparison To Other Planetary Systemsmentioning
confidence: 99%