4.6 Article

Disk and wind interaction in the young stellar object MWC297 spatially resolved with AMBER/VLTI

Journal

ASTRONOMY & ASTROPHYSICS
Volume 464, Issue 1, Pages 43-53

Publisher

EDP SCIENCES S A
DOI: 10.1051/0004-6361:20053924

Keywords

accretion, accretion disks; techniques : interferometric; stars : pre-main sequence; planetary systems : protoplanetary disks; stars : emission-line; Be-stars : individual : MWC297

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The young stellar object MWC297 is an embedded B1.5Ve star exhibiting strong hydrogen emission lines and a strong near-infrared continuum excess. This object has been observed with the VLT interferometer equipped with the AMBER instrument during its first commissioning run. AMBER/VLTI is currently the only near infrared interferometer that can observe spectrally dispersed visibilities. MWC297 has been spatially resolved in the continuum with a visibility of 0.50(-0.10)(+0.08) as well as in the Br. emission line where the visibility decreases to 0.33 +/- 0.06. This change in the visibility with wavelength can be interpreted by the presence of an optically thick disk responsible for the visibility in the continuum and of a stellar wind traced by the Br. emission line and whose apparent size is 40% larger. We validate this interpretation by building a model of the stellar environment that combines a geometrically thin, optically thick accretion disk model consisting of gas and dust, and a latitude-dependent stellar wind outflowing above the disk surface. The continuum emission and visibilities obtained from this model are fully consistent with the interferometric AMBER data. They agree also with existing optical, near-infrared spectra and other broad-band near-infrared interferometric visibilities. We also reproduce the shape of the visibilities in the Br. line as well as the profile of this line obtained at an higher spectral resolution with the VLT/ISAAC spectrograph, and those of the H alpha and H beta lines. The disk and wind models yield a consistent inclination of the system of approximately 20 degrees. A picture emerges in which MWC 297 is surrounded by an equatorial flat disk that is possibly still accreting and an outflowing wind that has a much higher velocity in the polar region than at the equator. The AMBER/VLTI unique capability of measuring spectral visibilities therefore allows us for the first time to compare the apparent geometry of a wind with the disk structure in a young stellar system.

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