Title:
|
A note on the dynamics around the L1,2 Lagrange points of the Earth-Moon system in a complete solar system model
|
Author:
|
Tang, Guojian; Gomez Muntaner, Gerard; Masdemont Soler, Josep; Yijun, L.
|
Other authors:
|
Universitat Politècnica de Catalunya. Departament de Matemàtica Aplicada I; Universitat Politècnica de Catalunya. EGSA - Equacions Diferencials, Geometria, Sistemes Dinàmics i de Control, i Aplicacions |
Abstract:
|
The purpose of this paper is the study of the phase space around the collinear libration points
L1 and L2 of the Earth–Moon system when the gravitational effects of the remaining bodies of the
Solar System are taken into account. In the simplified model defined by the Circular Restricted
Three Body Problem (CR3BP), the description of the phase space around these two points has
already been done in the past, either using semi-analytical techniques1 or numerical ones.2 When
using more realistic models of motion, the refinement of the different kinds of libration point orbits
around both points (see G´omez et al.3) has some problems when the time interval used is large.
These problems are more evident for the Earth–Moon L2 point due to a 1:2 resonance between the
natural frequency of some halo orbits (!h) and the external frequency due to the perturbation of
the Sun (!s); in fact !h ' 2!s for some orbits of the halo family of periodic orbits around this
point. To analyse more closely this fact, Andreu4 introduced an intermediate model between the
CR3BP and the restricted n-body problem, which is the so called Quasi-Bicircular Problem. It is a
restricted four body problem in which the three primaries move following a “true” solution of the
three body problem along orbits close to circular (the Earth and the Moon around their barycenter,
and the Earth-Moon barycenter around the Sun). The description of the different types of orbits in
the neighbourhood of L2 is also done in Reference 4 by means of the reduction of the Hamiltonian of
the problem to the central manifold. The reduced Hamiltonian is then studied by means of Poincar´e
maps at different energy levels. |
Subject(s):
|
-Àrees temàtiques de la UPC::Matemàtiques i estadística -Celestial mechanics -Three-body problem -Mecànica celest -Problema dels tres cossos |
Rights:
|
Attribution-NonCommercial-NoDerivs 3.0 Spain
http://creativecommons.org/licenses/by-nc-nd/3.0/es/ |
Document type:
|
Article - Published version Conference Object |
Share:
|
|