Secular Evolution of Hierarchical Planetary Systems
Abstract
(Abridged) We investigate the dynamical evolution of coplanar hierarchical two-planet systems where the ratio of the orbital semimajor axes alpha=a1/a2 is small. The orbital parameters obtained from a multiple Kepler fit to the radial velocity variations of a star are best interpreted as Jacobi coordinates and Jacobi coordinates should be used in any analyses of hierarchical planetary systems. An approximate theory that can be applied to coplanar hierarchical two-planet systems with a wide range of masses mj and orbital eccentricities ej is the octupole-level secular perturbation theory (OSPT). The OSPT shows that if the ratio of the maximum orbital angular momenta, lambda ≈ (m1/m2) alpha1/2, for given aj is approximately equal to a critical value lambdacrit, then libration of the difference in the longitudes of periapse, w1-w2, about either 0 or 180 deg. is almost certain, with possibly large amplitude variations of both ej. We establish that the OSPT is highly accurate for systems with alpha<0.1 and reasonably accurate even for systems with alpha as large as 1/3, provided that alpha is not too close to a significant mean-motion commensurability or above the stability boundary. The HD 168443 system is not in a secular resonance and its w1-w2 circulates. The HD 12661 system is the first extrasolar planetary system found to have w1-w2 librating about 180 deg. The libration of w1-w2 and the large-amplitude variations of both ej in the HD 12661 system are consistent with the analytic results on systems with lambda ≈ lambdacrit. The HD 12661 system with the best- fit orbital parameters and sin i = 1 is affected by the close proximity to the 11:2 commensurability, but small changes in the outer orbital period can result in configurations that are not affected by mean-motion commensurabilities.
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