Litcius/Paper detail

Breaking Resonant Chains: Destabilization of Resonant Planets Due to Long-term Mass Evolution

Yuji Matsumoto, Masahiro Ogihara

2020The Astrophysical Journal37 citationsDOIOpen Access PDF

Abstract

Abstract Recent exoplanet observations reported a large number of multiple-planet systems, in which some of the planets are in a chain of resonances. The fraction of resonant systems to non-resonant systems provides clues about their formation history. We investigated the orbital stability of planets in resonant chains by considering the long-term evolution of planetary mass and stellar mass and using orbital calculations. We found that while resonant chains were stable, they can be destabilized by a change of ∼10% in planetary mass. Such a mass evolution can occur by atmospheric escape due to photoevaporation. We also found that resonant chains can be broken by a stellar mass loss of ≲1%, which would be explained by stellar winds or coronal mass ejections. The long-term mass change of planets and stars plays an important role in the orbital evolutions of planetary systems, including super-Earths.

Topics & Concepts

PhysicsPlanetExoplanetPlanetary massAstrophysicsPlanetary systemStarsLow MassAstronomyStellar massAstrobiologyOuter planetsStellar evolutionPlanetary migrationOrbital elementsOrbital mechanicsHigh massGiant planetOrbital periodStellar atmosphereResonance (particle physics)Stellar mass lossCritical mass (sociodynamics)Mass ratioStellar, planetary, and galactic studiesAstronomy and Astrophysical ResearchAstrophysics and Star Formation Studies