Dynamical Lifetimes of Objects Injected into Asteroid Belt Resonances
- 11 July 1997
- journal article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 277 (5323), 197-201
- https://doi.org/10.1126/science.277.5323.197
Abstract
Numerical simulations of particles placed in orbital resonances in the main asteroid belt show that the typical dynamical lifetimes of objects that could become near-Earth asteroids or meteorites are only a few million years, with the majority destroyed by being transferred to Jupiter-crossing orbits or being driven into the sun. Particles that fortuitously migrate to the terrestrial planet region may be pushed to high-inclination orbits by resonances but are still dynamically eliminated on time scales of ∼10 million years. These shorter lifetimes may require a reassessment of our qualitative understanding about near-Earth asteroids and meteorite delivery.Keywords
This publication has 21 references indexed in Scilit:
- Chaotic Diffusion and the Origin of Comets from the 2/3 Resonance in the Kuiper BeltIcarus, 1997
- Origin of the Spacewatch Small Earth-Approaching AsteroidsIcarus, 1996
- The Kirkwood Gap at the 2/1 Commensurability With Jupiter: New Numerical ResultsThe Astronomical Journal, 1996
- The Exchange of Impact Ejecta Between Terrestrial PlanetsScience, 1996
- The Dynamical Structure of the Kuiper BeltThe Astronomical Journal, 1995
- Secular Resonances and the Dynamics of Mars-Crossing and Near-Earth AsteroidsIcarus, 1995
- Asteroid orbit evolution due to thermal dragJournal of Geophysical Research, 1995
- Ungrouped Iron Meteorites in Antarctica: Origin of Anomalously High AbundanceScience, 1990
- Where do the Apollo objects come from?Icarus, 1988
- Nature of the Kirkwood gaps in the asteroid beltNature, 1983