The short-lived production of exozodiacal dust in the aftermath of a dynamical instability in planetary systems

Bonsor, Amy; Raymond, Sean; Augereau, Jean-Charles

doi:10.1093/mnras/stt933

The short-lived production of exozodiacal dust in the aftermath of a dynamical instability in planetary systems

Jun 3, 2013

9 pages

Published in:

Mon.Not.Roy.Astron.Soc. 433 (2013) 2938

e-Print:

1306.0592 [astro-ph.EP]

DOI:

10.1093/mnras/stt933

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Abstract: (arXiv)

Excess emission, associated with warm, dust belts, commonly known as exozodis, has been observed around a third of nearby stars. The high levels of dust required to explain the observations are not generally consistent with steady-state evolution. A common suggestion is that the dust results from the aftermath of a dynamical instability, an event akin to the Solar System's Late Heavy Bombardment. In this work, we use a database of N-body simulations to investigate the aftermath of dynamical instabilities between giant planets in systems with outer planetesimal belts. We find that, whilst there is a significant increase in the mass of material scattered into the inner regions of the planetary system following an instability, this is a short-lived effect. Using the maximum lifetime of this material, we determine that even if every star has a planetary system that goes unstable, there is a very low probability that we observe more than a maximum of 1% of sun-like stars in the aftermath of an instability, and that the fraction of planetary systems currently in the aftermath of an instability is more likely to be limited to <0.06. This probability increases marginally for younger or higher mass stars. We conclude that the production of warm dust in the aftermath of dynamical instabilities is too short-lived to be the dominant source of the abundantly observed exozodiacal dust.

Note:

MNRAS, accepted

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