Tethers and asteroids for artificial gravity assist in the solar system
Abstract
Analytical models are defined for gravity-assist trajectory changes for spacecraft passing massive compact bodies. The models are applied in an examination of the benefits of lowering a tether to an asteroid during a flyby in order to gain a trajectory change equivalent to that from a massive body (planet). Direct flybys yield velocity gains while retrograde flybys shed velocity. The magnitude of the effects are a function of the proximity to the body during flyby. This inherently limits the gravity assist technique used around planets, which usually have atmospheres and can have intense radiation fields. If a spacecraft could extend a tether (such as to be tested on the Orbiter) to snag on an asteroid surface, the potential trajectory/velocity change of the spacecraft would be limited mainly by the tether strength. The encounter physics are treated as a soft collision. Possible applications of the asteroid tether technique are outer planet, Mars and main belt asteroid exploration missions.
- Publication:
-
Orbit-Raising and Maneuvering Propulsion: Research Status and Needs
- Pub Date:
- August 1984
- Bibcode:
- 1984aiaa.confU....P
- Keywords:
-
- Artificial Gravity;
- Asteroid Missions;
- Solar System;
- Tethering;
- Energy Storage;
- Mars Probes;
- Astrodynamics