SIMBAD references

2015A&A...573A..39K - Astronomy and Astrophysics, volume 573A, 39-39 (2015/1-1)

Signatures of massive collisions in debris discs. A self-consistent numerical model.


Abstract (from CDS):

Violent stochastic collisional events have been invoked as a possible explanation for some debris discs displaying pronounced azimuthal asymmetries or having a luminosity excess exceeding that expected for systems at collisional steady-state. So far, no thorough modelling of the consequences of such stochastic events has been carried out, mainly because of the extreme numerical challenge of coupling the dynamical and collisional evolution of the released dust. We perform the first fully self-consistent modelling of the aftermath of massive breakups in debris discs. We follow the collisional and dynamical evolution of dust released after the breakup of a Ceres-sized body at 6AU from its central star. We investigate the duration, magnitude, and spatial structure of the signature left by such a violent event, as well as its observational detectability. We use the recently developed LIDT-DD code, which handles the coupled collisional and dynamical evolution of debris discs. The main focus is placed on the complex interplay between destructive collisions, Keplerian dynamics, and radiation pressure forces. We use the GRaTer package to estimate the system's luminosity at different wavelengths. The breakup of a Ceres-sized body at 6AU creates an asymmetric dust disc that is homogenized by the coupled action of collisions and dynamics on a timescale of a few 105-years. After a transient period where it is very steep, the particle size distribution in the system relaxes to a collisional steady-state law after ∼104-years. The luminosity excess in the breakup's aftermath should be detectable by mid-IR photometry, from a 30pc distance, over a period of ∼106-years that exceeds the duration of the asymmetric phase of the disc (a few 105-years). As for the asymmetric structures, we derive synthetic images for the VLT/SPHERE and JWST/MIRI instruments, showing that they should be clearly visible and resolved from a 10pc distance. Images at 1.6µm (marginally), 11.4, and 15.5µm show the inner disc structures, while 23µm images display the outer disc asymmetries.

Abstract Copyright:

Journal keyword(s): planetary systems - circumstellar matter - planets and satellites: formation - zodiacal dust

Simbad objects: 4

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