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Details for article 14 of 114 found articles
| Title: |
A variational proof of existence of transit orbits in the restricted three-body problem |
| Author: |
Moeckel, R. |
| Appeared in: |
Dynamical systems |
| Paging: | Volume 20 (2005) nr. 1 pages 45-58 |
| Year: |
2005-03 |
| Contents: |
Because of the Jacobi integral, solutions of the planar, circular restricted three-body problem are confined to certain subsets of the plane called Hill's regions. For certain values of the integral, one component of the Hill's region consists of disk-like regions around of the two primary masses, connected by a tunnel near the collinear Lagrange point, L2. A 'transit orbit' is a solution which crosses the tunnel, in a sense which can be made precise using Conley's isolating block construction. For values of the Jacobi integral sufficiently close to its value at L2, Conley found transit orbits by linearizing near the equilibrium point. The goal of this paper is to develop a method for proving existence of transit orbits for values of the Jacobi constant far from equilibrium. The method is based on the Maupertuis variational principle but isolating blocks turn out to play an important role. |
| Publisher: |
Taylor & Francis |
| Source file: |
Elektronische Wetenschappelijke Tijdschriften |
Details for article 14 of 114 found articles
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