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Resonant Chains of Exoplanets: Libration Centers for Three-body Angles

Jared C. Siegel, Daniel Fabrycky

2021The Astronomical Journal24 citationsDOIOpen Access PDF

Abstract

Abstract Resonant planetary systems contain at least one planet pair with orbital periods librating at a near-integer ratio (2/1, 3/2, 4/3, etc.) and are a natural outcome of standard planetary formation theories. Systems with multiple adjacent resonant pairs are known as resonant chains and can exhibit three-body resonances—characterized by a critical three-body angle. Here we study three-body angles as a diagnostic of resonant chains through tidally damped N -body integrations. For each combination of the 2:1, 3:2, 4:3, and 5:4 mean motion resonances (the most common resonances in the known resonant chains), we characterize the three-body angle equilibria for several mass schemes, migration timescales, and initial separations. We find that under our formulation of the three-body angle, which does not reduce coefficients, 180° is the preferred libration center, and libration centers shifted away from 180° are associated with nonadjacent resonances. We then relate these angles to observables, by applying our general results to two transiting systems: Kepler-60 and Kepler-223. For these systems, we compare N -body models of the three-body angle to the zeroth order in e approximation accessible via transit phases, used in previous publications. In both cases, we find the three-body angle during the Kepler observing window is not necessarily indicative of the long-term oscillations and stress the role of dynamical models in investigating three-body angles. We anticipate our results will provide a useful diagnostic in the analysis of resonant chains.

Topics & Concepts

PhysicsLibration (molecule)Mean motionPlanetCelestial mechanicsOrbital inclinationClassical mechanicsTransit (satellite)Orbital mechanicsPlanetary systemOrbit (dynamics)Resonance (particle physics)Orbital elementsEccentricity (behavior)Order (exchange)Span (engineering)Motion (physics)Inclination angleAstrophysicsOrbital motionThree-body problemWakeComputational physicsStability (learning theory)Center of mass (relativistic)Circular orbitMass ratioLagrangian pointOscillation (cell signaling)Stellar, planetary, and galactic studiesAstronomy and Astrophysical ResearchAstrophysics and Star Formation Studies
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