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Article Dans Une Revue Astronomy and Astrophysics - A&A Année : 2007

High latitude gas in the beta Pictoris system. A possible origin related to falling evaporating bodies

Résumé

Context: The puzzling detection of Ca II ions at fairly high latitude (⪆ 30°) above the outer parts of the β Pictoris circumstellar disk was recently reported. Surprisingly, this detection does not extend to Na I atoms, in contradiction with our modelling of the emission lines in and out of the mid-plane of the disk. Aims: We propose that the presence of these off-plane Ca II ions (and to a lesser extent Fe I atoms), and the non-detection of off-plane Na I atoms, could be the consequence of the evaporation process of Falling Evaporating Bodies (FEBs), i.e., star-grazing planetesimals that evaporate in the immediate vicinity of the star. Methods: Our model is two-fold. Firstly, we show numerically and theoretically that in the star-grazing regime, the FEBs are subject to inclination oscillations up to 30-40°, and that most metallic species released during each FEB sublimation keep track of their initial orbital inclination while starting a free expansion away from the star, blown out by a strong radiation pressure. Secondly, the off-plane Ca II and Fe I species must be stopped prior to their detection at rest with respect to the star, about 100 AU away. We revisit the role of energetic collisional processes, and we investigate the possible influence of magnetic interactions. Results: This dynamical process of inclination oscillations explains the presence of off-plane Ca II (and Fe I). It also accounts for the absence of Na I because once released by the FEBs, these atoms are quickly photoionized and no longer undergo any significant radiation pressure. Our numerical simulations demonstrate that the deceleration of metallic ions can be achieved very efficiently if the ions encounter a dilute neutral gaseous medium. The required H I column density is reduced to ~ 1017 cm-2, one order of magnitude below present detection limits. We also investigate the possibility that the ions are slowed down magnetically. While the sole action of a magnetic field of the order of 1 μG is not effective, the combined effect of magnetic and collisional deceleration processes lead to an additional lowering of the required H I column density by one order of magnitude. Appendices are only available in electronic form at http://www.aanda.org
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hal-00398326 , version 1 (06-07-2023)

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Hervé Beust, Pierre Valiron. High latitude gas in the beta Pictoris system. A possible origin related to falling evaporating bodies. Astronomy and Astrophysics - A&A, 2007, 466, pp.201. ⟨10.1051/0004-6361:20053425⟩. ⟨hal-00398326⟩
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