Astronomy and Astrophysics – Astrophysics
Scientific paper
1998-06-22
Astronomy and Astrophysics
Astrophysics
11 pages, 5 figures, To be published in Astronomy & Astrophysics
Scientific paper
The dust disk around Beta Pictoris must be produced by collision or by evaporation of orbiting Kuiper belt-like objects. Here we extend the already proposed Orbiting-Evaporating-Bodies (OEB) scenario in which the disk is a gigantic multi-cometary tail supplied by slowly evaporating bodies like Chiron. We show that the number of these OEBs must be several tens of millions, and that this is consistent with the number of bodies needed to explain the presence of CO and CI in the gaseous disk. We explore some possible origin of the required perturbation on the OEBs. If dust is produced by evaporation, a planet with an eccentric orbit can explain the observed asymmetry of the disk, because the periastron distribution of the parent bodies are then expected to be non-axisymmetric. Following Malhotra (1995), we investigate the consequence for the Kuiper belt-like objects of the formation and the migration of an outer planet like Neptune in Fernandez's scheme (Fernandez 1982). We find that bodies trapped in resonance with a migrating planet can significantly evaporate, producing a Beta Pictoris-like disk with similar characteristics like opening angle and asymmetry. We thus show that the Beta Pictoris disk can be a transient phenomenon. The circumstellar disks around main sequence stars can be the signature of the present formation and migration of outer planets.
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