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Resonant Excitation of Planetary Eccentricity due to a Dispersing Eccentric Protoplanetary Disk: A New Mechanism of Generating Large Planetary Eccentricities

Jiaru Li, Dong Lai

2023The Astrophysical Journal16 citationsDOIOpen Access PDF

Abstract

Abstract We present a new mechanism of generating large planetary eccentricities. This mechanism applies to planets within the inner cavities of their companion protoplanetary disks. A massive disk with an inner truncation may become eccentric due to nonadiabatic effects associated with gas cooling and can retain its eccentricity in long-lived coherently precessing eccentric modes; as the disk disperses, the inner planet will encounter a secular resonance with the eccentric disk when the planet and the disk have the same apsidal precession rates; the eccentricity of the planet is then excited to a large value as the system goes through the resonance. In this work, we solve the eccentric modes of a model disk for a wide range of masses. We then adopt an approximate secular dynamics model to calculate the long-term evolution of the “planet + dispersing disk” system. The planet attains a large eccentricity (between 0.1 and 0.6) in our calculations even though the disk eccentricity is quite small (≲0.05). This eccentricity excitation can be understood in terms of the mode conversion (“avoided crossing” between two eigenstates) phenomenon associated with the evolution of the “planet + disk” eccentricity eigenstates.

Topics & Concepts

PhysicsEccentricity (behavior)PlanetProtoplanetary diskPlanetary systemPrecessionApsidal precessionPlanetary migrationOrbital eccentricityAstrophysicsExoplanetCelestial mechanicsGiant planetPlanetary massAstronomyClassical mechanicsLawPolitical scienceAstrophysics and Star Formation StudiesStellar, planetary, and galactic studiesAstro and Planetary Science
Resonant Excitation of Planetary Eccentricity due to a Dispersing Eccentric Protoplanetary Disk: A New Mechanism of Generating Large Planetary Eccentricities | Litcius