Astronomy and Astrophysics – Astrophysics
Scientific paper
Apr 1997
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997a%26a...320..852h&link_type=abstract
Astronomy and Astrophysics, v.320, p.852-864
Astronomy and Astrophysics
Astrophysics
38
Line: Profiles, Line: Formation, Radiative Transfer, Stars: Be, Circumstellar Matter
Scientific paper
We present numerical model calculations for an especially interesting class of Hα emission line profiles from Be star disks, those with asymmetric shape and long-term variability (so-called class 2 profiles). As an underlying model for the disk we investigate the hypothesis of Okazaki (1997A&A...318..548O) that these profiles are caused by a distortion of a quasi-Keplerian disk. The distortion has the form of a one-armed global disk oscillation (density and velocity wave). The radiation transfer in the disk is calculated with an improved version of the spatially implicit 3D radiative transfer code of Hummel (1994). The resulting sets of Hα emission line profiles reproduce well the observed structures of fully-resolved class 2 Hα emission lines, like double peaks and winebottle-type shoulders. For high inclinations, shell-type profiles result. It is shown that the full variety of observed profile shapes is caused by the interaction of kinematical and non-coherent scattering broadening. While this result has already been found by Hummel (1994) for the symmetric (class 1) Hα profiles, it is proven here for the second major profile class as well. The comparison between observed and theoretical emission shows that the model of global disk oscillations is in full agreement with the observed shapes and the cyclic long-term variability of class 2 profiles.
Hanuschik Reinhard W.
Hummel Wolfgang
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