Publication details

New ACV variables discovered in the Zwicky Transient Facility survey

Authors

BAUER-FASCHING B. BERNHARD K. BRÄNDLI E. BURGER H. EISELE B. HÜMMERICH S. NEUHOLD J. PAUNZEN Ernst PIECKA M. RATZENBÖCK S. PRIŠEGEN Michal

Year of publication 2024
Type Article in Periodical
Magazine / Source Astronomy and Astrophysics
MU Faculty or unit

Faculty of Science

Citation
web
Doi http://dx.doi.org/10.1051/0004-6361/202347476
Keywords stars: chemically peculiar; stars: rotation; stars: variables: general
Description Context. The manifestation of surface spots on magnetic chemically peculiar (mCP) stars is most commonly explained by the atomic diffusion theory, which requires a calm stellar atmosphere and only moderate rotation. While very successful and well described, this theory still needs to be revised and fine-tuned to the observations. Aims. Our study aims to enlarge the sample of known photometrically variable mCP stars (ACV variables) to pave the way for more robust and significant statistical studies. We derive accurate physical parameters for these objects and discuss our results in the framework of the atomic diffusion theory. Methods. We studied 1314 candidate ACV variables that were selected from the Zwicky Transient Factory catalogue of periodic variables based on light curve characteristics. We investigated these objects using photometric criteria, a colour-magnitude diagram, and spectroscopic data from the LAMOST and Gaia missions to confirm their status as ACV variables. Results. We present a sample of 1232 new ACV variables, including information on distance from the Sun, mass, fractional age on the main sequence, fraction of the radius between the zero-age and terminal-age main sequence, and the equatorial velocity and its ratio to the critical velocity. Conclusions. Our results confirm that the employed selection process is highly efficient for detecting ACV variables. We have identified 38 stars with vequ in excess of 150 km s(-1) (with extreme values up to 260 km s(-1)). This challenges current theories that cannot explain the occurrence of such fast-rotating mCP stars.

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