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  Dust modeling of the combined ALMA and SPHERE datasets of HD 163296. Is HD 163296 really a Meeus group II disk?

Muro-Arena, G. A., Dominik, C., Waters, L. B. F. M., Min, M., Klarmann, L., Ginski, C., et al. (2018). Dust modeling of the combined ALMA and SPHERE datasets of HD 163296. Is HD 163296 really a Meeus group II disk? Astronomy and Astrophysics, 614.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0005-CC08-D Version Permalink: https://hdl.handle.net/21.11116/0000-0005-CC09-C
Genre: Journal Article

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https://ui.adsabs.harvard.edu/abs/2018A&A...614A..24M (Any fulltext)
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 Creators:
Muro-Arena, G. A.1, Author
Dominik, C.1, Author
Waters, L. B. F. M.1, Author
Min, M.1, Author
Klarmann, L.1, Author
Ginski, C.1, Author
Isella, A.1, Author
Benisty, M.1, Author
Pohl, A.1, Author
Garufi, A.1, Author
Hagelberg, J.1, Author
Langlois, M.1, Author
Menard, F.1, Author
Pinte, C.1, Author
Sezestre, E.1, Author
van der Plas, G.1, Author
Villenave, M.1, Author
Delboulbé, A.1, Author
Magnard, Y.1, Author
Möller-Nilsson, O.1, Author
Pragt, J.1, AuthorRabou, P.1, AuthorRoelfsema, R.1, Author more..
Affiliations:
1Max Planck Institute for Astronomy, Max Planck Society and Cooperation Partners, ou_2421692              

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Free keywords: protoplanetary disks scattering techniques: polarimetric techniques: interferometric stars: individual: HD 163296 Astrophysics - Earth and Planetary Astrophysics
 Abstract: Context. Multiwavelength observations are indispensable in studying disk geometry and dust evolution processes in protoplanetary disks.
Aims: We aim to construct a three-dimensional model of HD 163296 that is capable of reproducing simultaneously new observations of the disk surface in scattered light with the SPHERE instrument and thermal emission continuum observations of the disk midplane with ALMA. We want to determine why the spectral energy distribution of HD 163296 is intermediary between the otherwise well-separated group I and group II Herbig stars.
Methods: The disk was modeled using the Monte Carlo radiative transfer code MCMax3D. The radial dust surface density profile was modeled after the ALMA observations, while the polarized scattered light observations were used to constrain the inclination of the inner disk component and turbulence and grain growth in the outer disk.
Results: While three rings are observed in the disk midplane in millimeter thermal emission at 80, 124, and 200 AU, only the innermost of these is observed in polarized scattered light, indicating a lack of small dust grains on the surface of the outer disk. We provide two models that are capable of explaining this difference. The first model uses increased settling in the outer disk as a mechanism to bring the small dust grains on the surface of the disk closer to the midplane and into the shadow cast by the first ring. The second model uses depletion of the smallest dust grains in the outer disk as a mechanism for decreasing the optical depth at optical and near-infrared wavelengths. In the region outside the fragmentation-dominated regime, such depletion is expected from state-of-the-art dust evolution models. We studied the effect of creating an artificial inner cavity in our models, and conclude that HD 163296 might be a precursor to typical group I sources.

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 Dates: 2018
 Publication Status: Issued
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Title: Astronomy and Astrophysics
Source Genre: Journal
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Pages: - Volume / Issue: 614 Sequence Number: - Start / End Page: - Identifier: -