Comuna de Concepción, Chile
In the spatial Maxwell restricted N+1-body problem, the motion of an infinitesimal particle attracted by the gravitational field of (N) bodies is studied. These bodies are arranged in a planar ring configuration. This configuration consists of N−1 primaries of equal mass m located at the vertices of a regular polygon that is rotating on its own plane about its center of mass with a constant angular velocity ω. Another primary of mass m0=βm (β>0 parameter) is placed at the center of the ring. Moreover, we assume that the central body may be an ellipsoid, or radiation source, which introduces a new parameter e. The existence of several families of symmetric periodic solutions for the spatial Maxwell restricted (N+1)-problem with Manev potential is proved. More precisely, firstly we get symmetric periodic solutions around the central body (attractor or repulsor) close to the equatorial plane and small parameter of oblateness. Secondly, we obtain symmetric periodic solutions far away of the central body and peripherals, close to the equatorial plane with arbitrary oblateness. Furthermore, all these families of periodic solutions are stable.
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