Could the 47 UMa Planetary System be a Second Solar System: predicting the Earth-like planets

Details Could the 47 UMa Planetary System be a Second Solar System: predicting the Earth-like planets Could the 47 UMa Planetary System be a Second Solar System: predicting the Earth-like planets

2005-06-16

arxiv.org/abs/astro-ph/0506374v2

Astrophys.J. 631 (2005) 1191-1197

Astronomy and Astrophysics

Astrophysics

20 Pages, 4 figures, accepted for publication in ApJ, scheduled for 10 October 2005, v632, 1 issue

Scientific paper

10.1086/432787

(Abridged)We numerically investigated the dynamical architecture of 47 UMa with the planetary configuration of the best-fit orbital solutions by Fischer et al. We systematically studied the existence of Earth-like planets in the region 0.05 AU $\leq a \leq 2.0$ AU for 47 UMa with numerical simulations, and we also explored the packed planetary geometry and Trojan planets in the system. In the simulations, we found that "hot Earths" at 0.05 AU $\leq a < $ 0.4 AU can dynamically survive at least for 1 Myr. The Earth-like planets can eventually remain in the system for 10 Myr in areas involved in the mean motion resonances (MMR) (e.g., 3:2 MMR) with the inner companion. Moreover, we showed that the 2:1 and 3:1 resonances are on the fringe of stability, while the 5:2 MMR is unstable. Additionally, the 2:1 MMR marks out a remarkable boundary between chaotic and regular motions, inside, most of the orbits can survive, outside, they are mostly lost in the orbital evolution. In a dynamical sense, the most likely candidate for habitable environment is Earth-like planets with orbits in the ranges 0.8 AU $\leq a < 1.0$ AU and 1.0 AU $ < a < 1.30$ AU (except several unstable cases) with relatively low eccentricities. The Trojan planets with low eccentricities and inclinations can secularly last at the triangular equilibrium points of two massive planets. Hence, the 47 UMa planetary system may be a close analog to our solar system.

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