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Journal Articles Monthly Notices of the Royal Astronomical Society Year : 2022

The vertical structure of debris discs and the impact of gas

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Abstract

The vertical structure of debris discs provides clues about their dynamical evolution and the collision rate of the unseen planetesimals. Thanks to the ever-increasing angular resolution of contemporary instruments and facilities, we are beginning to constrain the scale height of a handful of debris discs, either at near-infrared or millimeter wavelengths. None the less, this is often done for individual targets only. We present here the geometric modeling of eight discs close to edge-on, all observed with the same instrument (SPHERE) and using the same mode (dual-beam polarimetric imaging). Motivated by the presence of CO gas in two out of the eight discs, we then investigate the impact that gas can have on the scale height by performing N-body simulations including gas drag and collisions. We show that gas can quickly alter the dynamics of particles (both in the radial and vertical directions), otherwise governed by gravity and radiation pressure. We find that, in the presence of gas, particles smaller than a few tens of microns can efficiently settle toward the midplane at the same time as they migrate outward beyond the birth ring. For second generation gas (Mgas ≤ 0.1 M), the vertical settling should be best observed in scattered light images compared to observations at millimeter wavelengths. But if the gas has a primordial origin (Mgas ≥ 1 M), the disc will appear very flat both at near-infrared and sub-mm wavelengths. Finally, far beyond the birth ring, our results suggest that the surface brightness profile can be as shallow as ~-2.25.

Dates and versions

insu-03705341 , version 1 (27-06-2022)

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Johan Olofsson, Philippe Thébault, Quentin Kral, Amelia Bayo, Anthony Boccaletti, et al.. The vertical structure of debris discs and the impact of gas. Monthly Notices of the Royal Astronomical Society, 2022, 513, pp.713-734. ⟨10.1093/mnras/stac455⟩. ⟨insu-03705341⟩
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