| Issue |
A&A
Volume 499, Number 2, May IV 2009
|
|
|---|---|---|
| Page(s) | 567 - 577 | |
| Section | Stellar atmospheres | |
| DOI | https://doi.org/10.1051/0004-6361/200811123 | |
| Published online | 27 March 2009 | |
The nature of the light variability of the silicon star HR 7224*
1
Department of Theoretical Physics and Astrophysics, Masaryk University, Kotlářská 2, 611 37 Brno, Czech Republic e-mail: krticka@physics.muni.cz
2
Observatory and Planetarium of J. Palisa, VŠB – Technical University, Ostrava, Czech Republic
3
Center of Excellence in Information Systems, Tennessee State University, Nashville, Tennessee, USA
4
Astronomical Institute, Slovak Academy of Sciences, Tatranská Lomnica, Slovak Republic
Received:
9
October
2008
Accepted:
16
February
2009
Context. Although photometric variations of chemically peculiar (CP) stars are frequently used to determine their rotational periods, the detailed mechanism of their light variability remains poorly understood.
Aims. We simulate the light variability of the star HR 7224 using the observed surface distribution of silicon and iron.
Methods. We used the TLUSTY model atmospheres calculated for the appropriate silicon and iron abundances to obtain the emergent flux and to predict the rotationally modulated light curve of the star. We also obtained additional photometric measurements and employed our own regression procedure to derive a more precise estimate of the light elements.
Results. We show that the light variation of the star can be explained as a result of i) the uneven surface distribution of the elements, ii) the flux redistribution from the ultraviolet to the visible part of the spectrum, and iii) rotation of the star. We show that the silicon bound-free transitions and iron bound-bound transitions provide the main contribution to the flux redistribution, although an additional source of opacity is needed. We confirm that numerous iron lines significantly contribute to the well-known depression at 5200 Å and discuss the connection between iron abundance and the value of peculiarity index a.
Conclusions. The uneven surface distribution of silicon and iron is able to explain most of the rotationally modulated light variation in the star HR 7224.
Key words: stars: chemically peculiar / stars: early type / stars: variables: general / stars: individual: HR 7224
© ESO, 2009
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