This paper uses the method of symplectic scaling to derive Hill's lunar equations from the equations of the three-body problem. This derivation gives a precise asymptotic statement about the relation between Hill's equations and the three-body problem. It is shown that any non-degenerate periodic solution of Hill's equation whose period is not a multiple of 2π can be continued into the full three-body problem
The N-body problem is the classical prototype of a Hamiltonian system with a large symmetry group an...
Abstract: We consider the planar circular restricted three-body problem for small values o...
The Augmented Hill Three-Body problem is an extension of the classical Hill problem that, among othe...
In the framework of the restricted, circular, 3-dimensional 3-body problem Sun-Earth-Moon, Valsecchi...
Agraïments: The second author is partially supported by CAPES/MECD-DGU 015/2010 Brazil and Spain, pr...
Abstract. By application of KAM theorem to Lidov-Ziglin’s global study of the quadrupolar approximat...
Arnold proved that the KAM theorem applies to the plane planetary three-body problem, yet Hénon gave...
Frozen orbits of the Hill problem are determined in the double-averaged problem, where short and lon...
AbstractUnder some nondegeneracy conditions we give asymptotic formulae for the stability parameter ...
Celestial Mechanics and Dynamical Astronomy, 93, pp. 87-100, http://dx.doi.org./10.1007/s10569-005-3...
Consider the restricted three body problem in which we have a central body S (the sun), a perturbing...
Abstract. We investigate the arrangements of periodic orbits in a restricted, circular, 3-dimensiona...
Abstract: We consider the plane circular restricted three-body problem for small mass rati...
Within the framework of the planar three-body problem we establish the existence of quasi-periodic m...
Two fundamental problems of celestial mechanics are considered: the stellar or planetary three-body ...
The N-body problem is the classical prototype of a Hamiltonian system with a large symmetry group an...
Abstract: We consider the planar circular restricted three-body problem for small values o...
The Augmented Hill Three-Body problem is an extension of the classical Hill problem that, among othe...
In the framework of the restricted, circular, 3-dimensional 3-body problem Sun-Earth-Moon, Valsecchi...
Agraïments: The second author is partially supported by CAPES/MECD-DGU 015/2010 Brazil and Spain, pr...
Abstract. By application of KAM theorem to Lidov-Ziglin’s global study of the quadrupolar approximat...
Arnold proved that the KAM theorem applies to the plane planetary three-body problem, yet Hénon gave...
Frozen orbits of the Hill problem are determined in the double-averaged problem, where short and lon...
AbstractUnder some nondegeneracy conditions we give asymptotic formulae for the stability parameter ...
Celestial Mechanics and Dynamical Astronomy, 93, pp. 87-100, http://dx.doi.org./10.1007/s10569-005-3...
Consider the restricted three body problem in which we have a central body S (the sun), a perturbing...
Abstract. We investigate the arrangements of periodic orbits in a restricted, circular, 3-dimensiona...
Abstract: We consider the plane circular restricted three-body problem for small mass rati...
Within the framework of the planar three-body problem we establish the existence of quasi-periodic m...
Two fundamental problems of celestial mechanics are considered: the stellar or planetary three-body ...
The N-body problem is the classical prototype of a Hamiltonian system with a large symmetry group an...
Abstract: We consider the planar circular restricted three-body problem for small values o...
The Augmented Hill Three-Body problem is an extension of the classical Hill problem that, among othe...
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