SIMBAD references

2009A&A...508..787K - Astronomy and Astrophysics, volume 508, 787-803 (2009/12-3)

Revealing the sub-AU asymmetries of the inner dust rim in the disk around the Herbig Ae star R Coronae Austrinae.

KRAUS S., HOFMANN K.-H., MALBET F., MEILLAND A., NATTA A., SCHERTL D., STEE P. and WEIGELT G.

Abstract (from CDS):

Unveiling the structure of the disks around intermediate-mass pre-main-sequence stars (Herbig Ae/Be stars) is essential for our understanding of the star and planet formation process. In particular, models predict that in the innermost AU around the star, the dust disk forms a ``puffed-up'' inner rim, which should result in a strongly asymmetric brightness distribution for disks seen under intermediate inclination. Our aim is to constrain the sub-AU geometry of the inner disk around the Herbig Ae star R CrA and search for the predicted asymmetries. Using the VLTI/AMBER long-baseline interferometer, we obtained 24 near-infrared (H- and K-band) spectro-interferometric observations on R CrA. Observing with three telescopes in a linear array configuration, each data set samples three equally spaced points in the visibility function, providing direct information about the radial intensity profile. In addition, the observations cover a wide position angle range (∼97°), also probing the position angle dependence of the source brightness distribution. In the derived visibility function, we detect the signatures of an extended (Gaussian FWHM∼25mas) and a compact component (Gaussian FWHM∼5.8mas), with the compact component contributing about two-thirds of the total flux (both in H- and K-band). The brightness distribution is highly asymmetric, as indicated by the strong closure phases (up to ∼40°) and the detected position angle dependence of the visibilities and closure phases. To interpret these asymmetries, we employ various geometric as well as physical models, including a binary model, a skewed ring model, and a puffed-up inner rim model with a vertical or curved rim shape. For the binary and vertical rim model, no acceptable fits could be obtained. On the other hand, the skewed ring model and the curved puffed-up inner rim model allow us to simultaneously reproduce the measured visibilities and closure phases. From these models we derive the location of the dust sublimation radius (∼0.4AU), the disk inclination angle (∼35°), and a north-south disk orientation (PA∼180-190°). Our curved puffed-up rim model can reproduce reasonably well the interferometric observables and the SED and suggests a luminosity of ∼29L and the presence of relatively large (>1.2µm) Silicate dust grains. Our study also reveals discrepancies between the measured interferometric observables and the puffed-up inner rim models, providing important constraints for future refinements of these theoretical models. Perpendicular to the disk, two bow shock-like structures appear in the associated reflection nebula NGC6729, suggesting that the detected sub-AU size disk is the driving engine of a large-scale outflow. Detecting, for the first time, strong non-localized asymmetries in the inner regions of a Herbig Ae disk, our study supports the existence of a puffed-up inner rim in YSO disks.

Abstract Copyright:

Journal keyword(s): stars: pre-main-sequence - circumstellar matter - accretion, accretion disks - planetary systems: protoplanetary disks - planetary systems: formation - techniques: interferometric

Simbad objects: 22

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2019.12.14-21:46:40

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