期刊
CELESTIAL MECHANICS & DYNAMICAL ASTRONOMY
卷 130, 期 1, 页码 -出版社
SPRINGER
DOI: 10.1007/s10569-017-9797-1
关键词
Chaotic diffusion; Hamiltonian systems; Planetary dynamics
资金
- Consejo de Investigaciones Cientificas y Tecnicas de la Republica Argentina (CONICET)
- Universidad Nacional de La Plata (UNLP)
- Universidad Nacional de Cordoba (UNC)
We present numerical evidence that diffusion in the herein studied multidimensional near-integrable Hamiltonian systems departs from a normal process, at least for realistic timescales. Therefore, the derivation of a diffusion coefficient from a linear fit on the variance evolution of the unperturbed integrals fails. We review some topics on diffusion in the Arnold Hamiltonian and yield numerical and theoretical arguments to show that in the examples we considered, a standard coefficient would not provide a good estimation of the speed of diffusion. However, numerical experiments concerning diffusion would provide reliable information about the stability of the motion within chaotic regions of the phase space. In this direction, we present an extension of previous results concerning the dynamical structure of the Laplace resonance in Gliese-876 planetary system considering variations of the orbital parameters accordingly to the error introduced by the radial velocity determination. We found that a slight variation of the eccentricity of planet c would destabilize the inner region of the resonance that, though chaotic, shows stable when adopting the best fit values for the parameters.
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