The structure of the protoplanetary disk surrounding three young intermediate mass stars. II. Spatially resolved dust and gas distribution

Fedele, D; van den Ancker, ME; Acke, Bram; van der Plas, G; van Boekel, R; Wittkowski, M; Henning, T; Bouwman, J; Meeus, G; Rafanelli, P

doi:10.1051/0004-6361:200810126

The structure of the protoplanetary disk surrounding three young intermediate mass stars. II. Spatially resolved dust and gas distribution

Author:

Fedele, D

van den Ancker, ME ; Acke, Bram ; van der Plas, G ; van Boekel, R ; Wittkowski, M ; Henning, T ; Bouwman, J ; Meeus, G ; Rafanelli, P

Keywords:

Science & Technology, Physical Sciences, Astronomy & Astrophysics, stars: pre-main sequence, stars: circumstellar matter, stars: planetary systems: protoplanetary disks, HERBIG-AE/BE STARS, SPITZER-IRS SPECTRA, T-TAURI STARS, CIRCUMSTELLAR DISKS, INNER DISKS, ISO SPECTROSCOPY, PAH EMISSION, GRAIN-GROWTH, AE STARS, NE-II, astro-ph, 0201 Astronomical and Space Sciences, 5101 Astronomical sciences, 5107 Particle and high energy physics, 5109 Space sciences

Abstract:

[Abridged] We present the first direct comparison of the distribution of the gas, as traced by the [OI] 6300 AA emission, and the dust, as traced by the 10 micron emission, in the protoplanetary disk around three intermediate-mass stars: HD 101412, HD 135344 B and HD 179218. N-band visibilities were obtained with VLTI/MIDI. Simple geometrical models are used to compare the dust emission to high-resolution optical spectra in the 6300 AA [OI] line of the same targets. The disks around HD 101412 and HD 135344 B appear strongly flared in the gas, but self-shadowed in the dust beyond ~ 2 AU. In both systems, the 10 micron emission is rather compact (< 2 AU) while the [OI] brightness profile shows a double peaked structure. The inner peak is strongest and is consistent with the location of the dust, the outer peak is fainter and is located at 5-10 AU. Spatially extended PAH emission is found in both disks. The disk around HD 179218 is flared in the dust. The 10 micron emission emerges from a double ring-like structure with the first ring peaking at ~ 1 AU and the second at ~ 20 AU. No dust emission is detected between ~ 3 -- 15 AU. The oxygen emission seems also to come from a flared structure, however, the bulk of this emission is produced between ~ 1 -- 10 AU. This could indicate a lack of gas in the outer disk or could be due to chemical effects which reduce the abundance of OH -- the parent molecule of the observed [OI] emission -- further away from the star. The three systems, HD 179218, HD 135344 B and HD 101412, may form an evolutionary sequence: the disk initially flared becomes flat under the combined action of gas-dust decoupling, grain growth and dust settling.