Three body resonances in close orbiting planetary systems: tidal dissipation and orbital evolution

John C. B. Papaloizou

doi:10.1017/S1473550414000147

Abstract

We study the orbital evolution of a three-planet system with masses in the super-Earth regime resulting from the action of tides on the planets induced by the central star which cause orbital circularization. We consider systems either in or near to a three-body commensurability for which adjacent pairs of planets are in a first-order commensurability. We develop a simple analytic solution, derived from a time averaged set of equations, that describes the expansion of the system away from strict commensurability as a function of time, once a state where relevant resonant angles undergo small amplitude librations has been attained. We perform numerical simulations that show the attainment of such resonant states focusing on the Kepler 60 system. The results of the simulations confirm many of the scalings predicted by the appropriate analytic solution. We go on to indicate how the results can be applied to put constraints on the amount of tidal dissipation that has occurred in the system. For example, if the system has been in a librating state since its formation, we find that its present period ratios imply an upper limit on the time average of 1/Q′, With Q′ being the tidal dissipation parameter. On the other hand if a librating state has not been attained, a lower upper bound applies.

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Three body resonances in close orbiting planetary systems: tidal dissipation and orbital evolution

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Three body resonances in close orbiting planetary systems: tidal dissipation and orbital evolution

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