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A&A 430, 213-222 (2005)
DOI: 10.1051/0004-6361:20041463
Polarimetric line profiles for scattering off rotating disks
Jorick S. Vink1, T. J. Harries2 and J. E. Drew11 Imperial College London, Blackett Laboratory, Prince Consort Road, London, SW7 2BZ, UK
e-mail: j.vink@imperial.ac.uk
2 School of Physics, University of Exeter, Stocker Road, Exeter EX4 4QL, UK
(Received 14 June 2004 / Accepted 17 September 2004)
Abstract
We predict polarimetric line profiles for scattering off rotating disks using a
Monte Carlo technique.
We have discovered that there is a marked difference between scattering of line emission
by a disk that reaches the stellar surface, and a disk with an inner hole.
For the case with an inner hole, we find single position-angle
rotations, similar to those predicted by analytic models.
For the case of an undisrupted disk, we find double rotations in
the position angle - an effect not reported before. We show that this new effect
is due to the finite-sized star interacting with the disk's rotational velocity
field.
Since a gradual increase of the hole size transforms the double rotations smoothly back
into single ones - as the line emission object approaches that of a point source - our
models demonstrate the diagnostic potential of line polarimetry in determining not only the disk
inclination, but also the size of the disk inner hole.
Our models are generic, and relevant to any line emitting object that is embedded in a
rotating disk. Examples are: Herbig Ae stars, T Tauri stars,
other young stars,
early-type stars with disks, post-AGB stars, cataclysmic variables and
other binary systems, as well as extra-galactic objects, such as the disks around super-massive
black holes.
Key words: polarization -- scattering -- line: profiles -- circumstellar matter -- stars: formation -- stars: emission-line, Be
SIMBAD Objects
© ESO 2005
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