A dynamical analysis of the 14 Herculis planetary system |
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| Authors: | Krzysztof Go&#;dziewski Cezary Migaszewski Maciej Konacki |
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| Institution: | ToruńCentre for Astronomy, Nicolaus Copernicus University, Toruń, Poland;Nicolaus Copernicus Astronomical Centre, Polish Academy of Sciences, Toruń, Poland;Astronomical Observatory, A. Mickiewicz University, Poznań, Poland |
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| Abstract: | Precision radial velocity measurements of the Sun-like dwarf 14 Herculis published by Naef et al., Butler et al. and Wittenmyer, Endl & Cochran reveal a Jovian planet in a 1760-d orbit and a trend indicating the second distant object. On the grounds of dynamical considerations, we test a hypothesis that the trend can be explained by the presence of an additional giant planet. We derive dynamical limits to the orbital parameters of the putative outer Jovian companion in an orbit within ~13 au. In this case, the mutual interactions between the Jovian planets are important for the long-term stability of the system. The best self-consistent and stable Newtonian fit to an edge-on configuration of Jovian planets has the outer planet in 9-au orbit with a moderate eccentricity of ~0.2 and confined to a zone spanned by the low-order mean motion resonances 5:1 and 6:1. This solution lies in a shallow minimum of (χ2ν)1/2 and persists over a wide range of the system inclination. Other stable configurations within 1σ confidence interval of the best fit are possible for the semimajor axis of the outer planet in the range of (6,13) au and the eccentricity in the range of (0, 0.3). The orbital inclination cannot yet be determined but when it decreases, both planetary masses approach ~10 m J and for i ~ 30° the hierarchy of the masses is reversed. |
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| Keywords: | methods: data analysis methods: N-body simulations techniques: radial velocities stars: individual: 14 Herculis |
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