Astronomy and Astrophysics – Astrophysics
Scientific paper
2002-09-17
Astron.Astrophys. 395 (2002) 853-862
Astronomy and Astrophysics
Astrophysics
A&A in press
Scientific paper
10.1051/0004-6361:20021300
In this paper the two-dimensional structure of protoplanetary disks around Herbig Ae/Be stars is studied. This is done by constructing a self-consistent model based on 2-D radiative transfer coupled to the equation of vertical hydrostatics. As a simplifying assumption a grey opacity is used. It is found that the disk can adopt four different structures, dependent on the surface density distribution Sigma(R) as a function of radius, i.e. on radial- and vertical optical depth of the disk. For the case of high to intermediate vertical optical depth, the temperature and density structures are in agreement with the simple ``disk with inner hole'' model of Dullemond, Dominik & Natta (2001, henceforth DDN01). At large radii the disk adopts a flaring shape as expected, and near the dust destruction radius (located at about 0.5 AU for most Herbig Ae stars) the disk is superheated and puffs up. The region directly behind this ``puffed-up inner dust wall'' is shadowed, as predicted by DDN01. For the case of intermediate to low vertical optical depth, but still high radial optical depth, the 2-D models show that the shadow can cover the entire disk. The disk is then no longer flaring. When the disk is optically thin even in radial direction, it becomes unshadowed again because the inner rim can no longer block the stellar light. Finally, for disks that flare at intermediate radii, but become too optically thin at large radii, the outer parts once again become shadowed. But this time the shadowing is caused by the flaring part of the disk instead of the inner rim. Observational consequences of these four geometries are discussed.
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