Wednesday, June 11, 2014

Tidal Dissipation Cannot Explain Kepler Compact & Near Resonant Exoplanet systems

Tidal dissipation and the formation of Kepler near-resonant planets

Authors:

Delisle et al

Abstract:

Multi-planetary systems detected by the Kepler mission present an excess of planets close to first-order mean-motion resonances (2:1 and 3:2) but with a period ratio slightly higher than the resonant value. Several mechanisms have been proposed to explain this observation. Here we provide some clues that these near-resonant systems were initially in resonance and reached their current configuration through tidal dissipation. The argument that has been opposed to this scenario is that it only applies to the close-in systems and not to the farthest ones for which the tidal effect is too weak. Using the KOI catalog and the exoplanet.eu catalog we show that the distributions of period ratio among the most close-in planetary systems and the farthest ones differ significantly. This distance dependance repartition is a strong argument in favor of the tidal dissipation scenario. Moreover, as recently demonstrated, tidal dissipation can lead to the breaking of resonant locking while eccentricities of the planets are still important. The subsequent evolution is then accelerated by several orders of magnitude compared to the departure at low eccentricities. This solves the slow timescale objection.

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