Spectrophotometric analysis of the 5200A region for peculiar and normal stars

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Authors

STIGLER Ch. MAITZEN H.M. PAUNZEN Ernst NETOPIL Martin

Year of publication 2014
Type Article in Periodical
Magazine / Source ASTRONOMY & ASTROPHYSICS
MU Faculty or unit

Faculty of Science

Citation
Doi http://dx.doi.org/10.1051/0004-6361/201322300
Field Astronomy and astrophysics
Keywords stars: chemically peculiar; stars: early-type; techniques: photometric
Description Many chemically peculiar (CP) stars, especially the magnetic CP2 stars, show a flux depression at 5200A. The "Delta a" photometric System takes advantage of this characteristic to detect these objects in an efficient way. In addition, it is capable of finding metal-weak, emission-type, and shell-type objects of the upper main sequence. To compare available observations and to detect new peculiar objects, we used a spectrophotometric catalogue consisting of 1159 stars. From this catalogue, we selected 1067 objects to synthesize three different "a" indices to find the most efficient one for further observations. In addition, we extended the analysis to stars cooler than F5. We employed classical "Delta a" photometry described by Maitzen, using simulated filter curves, the spectrophotometric "Delta a" index by Adelman, and a modified index. During this investigation magnetic chemically peculiar stars could be confirmed using the data of the catalogue and in addition we noticed an unknown behavior for red stars in "Delta a", becoming independent of B-V. Even though the accuracy of the spectrophotometry used for this investigation is significantly lower than the photometric "Delta a" measurements, we are able to confirm peculiarity for most of the known CP2 stars above a certain limit of "Delta a". We investigated 631 stars hotter than spectral type F5 to find additional that are not yet identified peculiar objects. We find that for very low mass stars (M0), the "a" index is independent of the colour (effective temperature). The "Delta a" photometric system is very closely correlated with the effective temperature over a wide range of the main sequence. It is able to detect any kind of peculiarity connected to the 5200A region. Especially for low-mass stars, this opens up a new possibility of detecting peculiar objects in an efficient way.
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