We analyse a dynamical scenario where a constantly charged spacecraft (follower) moves in the vicinity of another one (leader) that follows a circular Keplerian orbit around the Earth and generates a rotating magnetic dipole. The mass of the follower is assumed to be negligible when compared with the one of the leader and they are supposed to be in a high-Earth orbit, so the Lorentz force on the follower due to the geomagnetic field is ignored. With these assumptions, the motion of the leader is not perturbed by the follower and it is only subjected to the Earth’s gravitational force field, while the charged follower is under to both the gravitational force of the Earth and the Lorentz force due to the magnetic dipole of the leader. We focu...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2005....
The first three-quarters of this thesis reports on the results of the development of analytical theo...
The dynamics of a charged particle orbiting around a rotating magnetic planet is studied. The system...
In this paper, we consider a new dynamical scenario in which a constantly charged spacecraft (follow...
We consider several charged spacecraft configurations around a leader spacecraft provided with an ar...
Abstract Attitude stabilization of a charged rigid spacecraft in Low Earth Orbit us-ing torques due ...
The concept of Lorentz Augmented Orbits (LAO) is explored and developed. A spacecraft with a control...
A satellite naturally becomes charged in space filled with collisionless plasma. The relaxation meth...
The concept of Lorentz Augmented Orbits (LAO) is explored and developed. A spacecraft with a control...
Abstract: A charged artificial satellite moving relative to a magnetic field accelerates in a direct...
A spacecraft that orbits a planet with a significant magnetic field and that produces a higher-than-...
The magnetic field of a host star can impact the orbit of a stellar partner, planet, or asteroid if ...
Abstract: We investigate the angular motion of an axially symmetric artificial satellite w...
The paper investigates the dynamic behavior of a spacecraft when a single magnetic torque-rod is use...
The selection of orbit propagation models strongly affects various space situational awareness appli...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2005....
The first three-quarters of this thesis reports on the results of the development of analytical theo...
The dynamics of a charged particle orbiting around a rotating magnetic planet is studied. The system...
In this paper, we consider a new dynamical scenario in which a constantly charged spacecraft (follow...
We consider several charged spacecraft configurations around a leader spacecraft provided with an ar...
Abstract Attitude stabilization of a charged rigid spacecraft in Low Earth Orbit us-ing torques due ...
The concept of Lorentz Augmented Orbits (LAO) is explored and developed. A spacecraft with a control...
A satellite naturally becomes charged in space filled with collisionless plasma. The relaxation meth...
The concept of Lorentz Augmented Orbits (LAO) is explored and developed. A spacecraft with a control...
Abstract: A charged artificial satellite moving relative to a magnetic field accelerates in a direct...
A spacecraft that orbits a planet with a significant magnetic field and that produces a higher-than-...
The magnetic field of a host star can impact the orbit of a stellar partner, planet, or asteroid if ...
Abstract: We investigate the angular motion of an axially symmetric artificial satellite w...
The paper investigates the dynamic behavior of a spacecraft when a single magnetic torque-rod is use...
The selection of orbit propagation models strongly affects various space situational awareness appli...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2005....
The first three-quarters of this thesis reports on the results of the development of analytical theo...
The dynamics of a charged particle orbiting around a rotating magnetic planet is studied. The system...