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Astron. Astrophys. 363, 995-1004 (2000)
Spectral variability of luminous early type stars
I. Peculiar supergiant HD199478
N. Markova and
T. Valchev
Institute of Astronomy and Isaac Newton Institute of Chile Bulgarian Branch, National Astronomical Observatory, P.O. Box 136, 4700 Smoljan, Bulgaria (rozhen@mbox.digsys.bg)
Received 15 June 2000 / Accepted 8 September 2000
Abstract
We have obtained time-series of high-quality
![[FORMULA]](img1.gif)
spectra with high resolution in
wavelength (R = ![[FORMULA]](img2.gif)
of 15000 to 22000)
and time (![[FORMULA]](img3.gif)
=1d) of the late-type B
supergiant HD199478. The spectra were analysed in terms of
line-profile variability (lpv) using contemporary techniques of
time-series analysis, such as Temporal Variance Spectrum and the 2d-
Discrete Fourier Transform. The
profile is found to consist of a highly variable emission core
(between -280 and +150 km s-1) superimposed on almost
constant, extended (![[FORMULA]](img4.gif)
1000 km
s-1) emission wings. Due to the lack of strong
line-emission, the latter is attributed to electron-scattering in deep
atmospheric layers.
The variability manifests itself
by variations in velocity and intensity of blue- and red-shifted
emission peaks, which result in drastic alterations in the shape of
the profile from almost symmetric and unshifted emission, with respect
to the stellar rest frame, through blue- or red-shifted asymmetric
emission, to double-peaked emission or a reverse P Cygni-type profile.
Significant variations in total emissivity (i.e. EW) of the
line are also noted, but these variations do not appear to be
obviously linked to changes in the line-profile shape. The pattern of
variability resembles that in Be-stars - though on a much shorter time
scale - and suggests interpretation in terms of an axially symmetric
and perturbed stellar wind. Since the time-scale of the V/R variations
is found to be 3 to 5 times longer than the radial fundamental
pulsation period but consistent with rotational period, rotational
modulation as a possible cause for this variability is considered.
Besides variations in , continuous
changes in velocity (typical dispersion of
![[FORMULA]](img5.gif)
5 km s-1) and strength,
i.e. EW, (up to 13% of the mean) of a sample of three absorption lines
(![[FORMULA]](img6.gif)
, 6578 and
![[FORMULA]](img7.gif)
) were also observed. The phenomenon
observed is more likely connected to changes in velocity and
temperature structures of the stellar photosphere. Pulsation
instability as a possible cause of photospheric variability is
suggested.
Key words: line:
profiles 
stars:
early-type
stars: emission-line,
Be
stars: individual: HD 199478
Send offprint requests to: N. Markova
Contents
- 1. Introduction
- 2. Observations and data reduction
- 3. Data analysis
- 4. Discussion and conclusions
- Acknowledgements
- References
![[FORMULA]](img8.gif)
line-profile variations![[FORMULA]](img11.gif)
line
and the CII resonance doublet
© European Southern Observatory (ESO) 2000
Online publication: December 5, 2000
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