The dynamics of two massive planets on inclined orbits |
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| Authors: | Dimitri Veras Philip J Armitage |
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| Institution: | a JILA, University of Colorado, 440 UCB, Boulder, CO 80309-0440, USA
b Department of Astrophysical and Planetary Sciences, University of Colorado, Boulder, CO 80309-0391, USA |
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| Abstract: | The significant orbital eccentricities of most giant extrasolar planets may have their origin in the gravitational dynamics of initially unstable multiple planet systems. In this work, we explore the dynamics of two close planets on inclined orbits through both analytical techniques and extensive numerical scattering experiments. We derive a criterion for two equal mass planets on circular inclined orbits to achieve Hill stability, and conclude that significant radial migration and eccentricity pumping of both planets occurs predominantly by 2:1 and 5:3 mean motion resonant interactions. Using Laplace-Lagrange secular theory, we obtain analytical secular solutions for the orbital inclinations and longitudes of ascending nodes, and use those solutions to distinguish between the secular and resonant dynamics which arise in numerical simulations. We also illustrate how encounter maps, typically used to trace the motion of massless particles, may be modified to reproduce the gross instability seen by the numerical integrations. Such a correlation suggests promising future use of such maps to model the dynamics of more coplanar massive planet systems. |
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| Keywords: | Celestial mechanics Extrasolar planets Orbits Planetary dynamics Resonances |
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