Resonances of Multiple Exoplanets and Implications for Their Formation
Authors:
Zhang et al
Abstract:
Among ∼160 of the multiple exoplanetary systems confirmed, about 30% of them have neighboring pairs with a period ratio ≤2. A significant fraction of these pairs are around mean motion resonance (MMR), more interestingly, peak around 2:1 and 3:2, with a clear absence of more closely packed MMRs with period ratios less than 4:3, regardless of planet masses. Here we report numerical simulations demonstrating that such MMR behavior places important constraints on the disk evolution stage out of which the observed planets formed. Multiple massive planets (with mass ≥0.8 MJup) tend to end up with a 2:1 MMR mostly independent of the disk masses but low-mass planets (with mass ≤30 M⊕) can have MMRs larger than 4:3 only when the disk mass is quite small, suggesting that the observed dynamical architecture of most low-mass-planet pairs was established late in the disk evolution stage, just before it was dispersed completely.
Friday, July 11, 2014
Exoplanet Mass Effects Which Orbital Resonance Can Develop in a Multi Planet System
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