In this paper, we study the behavior of a pair of co-orbital planets, both orbiting a central star on the same plane and undergoing tidal interactions. Our goal is to investigate final orbital configurations of the planets, initially involved in the 1/1 mean-motion resonance (MMR), after long-lasting tidal evolution. The study is done in the form of purely numerical simulations of the exact equations of motions accounting for gravitational and tidal forces. The results obtained show that, at least for equal mass planets, the combined effects of the resonant and tidal interactions provoke the orbital instability of the system, often resulting in collision between the planets. We first discuss the case of two hot-super-Earth planets, whose or...
We analyze the orbital motion of two natural satellites initially in co-orbital configuration with a...
We study the effect of dynamical tides associated with the excitation of gravity waves in an interio...
We study the stability regions and families of periodic orbits of two planets locked in a co-orbital...
We study the orbital evolution of a two co-orbital planet system which undergo tidal interactions wi...
International audienceThe continuous action of tides modify the rotation of close-in planets togethe...
International audienceClose-in co-orbital planets (in a 1:1 mean motion resonance) can experience st...
30 pages, 19 figures. Published in Exoplanets, ed. S. Seager, University of Arizona Press, 2010, ISB...
We investigate the motion of a two-planet coplanar system under the combined effects of mutual inter...
We study the evolution of two planets around a star, in mean-motion resonance and undergoing tidal e...
The motion of two planets around a Sun-like star under the combined effects of mutual interaction an...
Close-in co-orbital planets (in a 1:1 mean motion resonance) can experience strong tidal interaction...
Since the first discovery of an extrasolar planet around a solar-type star, observers have detected ...
Planets close to their stars are thought to form farther out and migrate inward due to angular momen...
We study the tidal evolution of eccentric binary systems consisting of a solar type main sequence s...
Abstract: We study orbital evolution of multi-planet systems that form a resonant chain, with neares...
We analyze the orbital motion of two natural satellites initially in co-orbital configuration with a...
We study the effect of dynamical tides associated with the excitation of gravity waves in an interio...
We study the stability regions and families of periodic orbits of two planets locked in a co-orbital...
We study the orbital evolution of a two co-orbital planet system which undergo tidal interactions wi...
International audienceThe continuous action of tides modify the rotation of close-in planets togethe...
International audienceClose-in co-orbital planets (in a 1:1 mean motion resonance) can experience st...
30 pages, 19 figures. Published in Exoplanets, ed. S. Seager, University of Arizona Press, 2010, ISB...
We investigate the motion of a two-planet coplanar system under the combined effects of mutual inter...
We study the evolution of two planets around a star, in mean-motion resonance and undergoing tidal e...
The motion of two planets around a Sun-like star under the combined effects of mutual interaction an...
Close-in co-orbital planets (in a 1:1 mean motion resonance) can experience strong tidal interaction...
Since the first discovery of an extrasolar planet around a solar-type star, observers have detected ...
Planets close to their stars are thought to form farther out and migrate inward due to angular momen...
We study the tidal evolution of eccentric binary systems consisting of a solar type main sequence s...
Abstract: We study orbital evolution of multi-planet systems that form a resonant chain, with neares...
We analyze the orbital motion of two natural satellites initially in co-orbital configuration with a...
We study the effect of dynamical tides associated with the excitation of gravity waves in an interio...
We study the stability regions and families of periodic orbits of two planets locked in a co-orbital...