A family portrait of disk inner rims around Herbig Ae/Be stars. Hunting for warps, rings, self shadowing, and misalignments in the inner astronomical units
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2020Metadata
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Kluska, J.
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A family portrait of disk inner rims around Herbig Ae/Be stars. Hunting for warps, rings, self shadowing, and misalignments in the inner astronomical units
Author
- Kluska, J.;
- Berger, J. P.;
- Malbet, F.;
- Lazareff, B.;
- Benisty, Myriam;
- Le Bouquin, J. B.;
- Absil, O.;
- Baron, F.;
- Delboulbé, A.;
- Duvert, G.;
- Isella, A.;
- Jocou, L.;
- Juhasz, A.;
- Kraus, S.;
- Lachaume, R.;
- Ménard, F.;
- Millan-Gabet, R.;
- Monnier, J. D.;
- Moulin, T.;
- Perraut, K.;
- Rochat, S.;
- Pinte, C.;
- Soulez, F.;
- Tallon, M.;
- Thi, W. F.;
- Thiébaut, E.;
- Traub, W.;
- Zins, G.;
Abstract
Context. The innermost astronomical unit (au) in protoplanetary disks is a key region for stellar and planet formation, as exoplanet searches have shown a large occurrence of close-in planets that are located within the first au around their host star.
Aims. We aim to reveal the morphology of the disk inner rim using near-infrared interferometric observations with milli-arcsecond resolution provided by near-infrared multitelescope interferometry.
Methods. We provide model-independent reconstructed images of 15 objects selected from the Herbig AeBe survey carried out with PIONIER at the Very Large Telescope Interferometer, using the semi-parametric approach for image reconstruction of chromatic objects. We propose a set of methods to reconstruct and analyze the images in a consistent way.
Results. We find that 40% of the systems (6/15) are centrosymmetric at the angular resolution of the observations. For the rest of the objects, we find evidence for asymmetric emission due to moderate-to-strong inclination of a disk-like structure for similar to 30% of the objects (5/15) and noncentrosymmetric morphology due to a nonaxisymmetric and possibly variable environment (4/15, similar to 27%). Among the systems with a disk-like structure, 20% (3/15) show a resolved dust-free cavity. Finally, we do not detect extended emission beyond the inner rim.
Conclusions. The image reconstruction process is a powerful tool to reveal complex disk inner rim morphologies, which is complementary to the fit of geometrical models. At the angular resolution reached by near-infrared interferometric observations, most of the images are compatible with a centrally peaked emission (no cavity). For the most resolved targets, image reconstruction reveals morphologies that cannot be reproduced by generic parametric models (e.g., perturbed inner rims or complex brightness distributions). Moreover, the nonaxisymmetric disks show that the spatial resolution probed by optical interferometers makes the observations of the near-infrared emission (inside a few au) sensitive to temporal evolution with a time-scale down to a few weeks. The evidence of nonaxisymmetric emission that cannot be explained by simple inclination and radiative transfer effects requires alternative explanations, such as a warping of the inner disks. Interferometric observations can therefore be used to follow the evolution of the asymmetry of those disks at an au or sub-au scale.
Patrocinador
French National Research Agency (ANR) ANR-10-BLAN-0511
European Union (EU) SH-06192
Philip Leverhulme Prize PLP-2013-110
KU Leuven C14/17/082
National Science Foundation (NSF) 1210972 1616483
European Research Council (ERC) 639889
European Union (EU) 284405
French National Research Agency (ANR) ANR-16-CE31-0013
Australian Research Council FT170100040 DP180104235
Universite Joseph Fourier (UJF, Grenoble) through its Pole TUNES
Universite Joseph Fourier (UJF, Grenoble) through its Pole SMING
Institut de Planetologie et d'Astrophysique de Grenoble
French National Research Agency (ANR)
French National Research Agency (ANR)
Institut National des Science de l'Univers (INSU) via the "Programme National de Physique Stellaire"
Institut National des Science de l'Univers (INSU) via "Programme National de Planetologie"
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Artículo de publicación ISI Artículo de publicación SCOPUS
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A&A 636, A116 (2020)
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