HERMES spectroscopy of normal A and Am stars
Otto Trust, Edward Jurua, Peter De Cat, Santosh Joshi, Patricia, Lampens
TL;DR
This study uses high-resolution spectroscopy to analyze the chemical and physical properties of A and Am stars observed by Kepler, clarifying their classification and evolutionary status.
Contribution
It provides detailed spectroscopic analysis of Kepler A and Am stars, reclassifies some stars' chemical types, and links spectral features with chemical peculiarities.
Findings
Confirmed two Am stars and one marginal Am star.
Reclassified two stars based on chemical abundance patterns.
Placed stars in the HR diagram to estimate evolutionary phases.
Abstract
The nominal Kepler mission provided very high-precision photometric data. Using these data, interesting phenomena such as spots, and ``hump and spike'' features were observed in the light curves of some normal A and metallic lined A stars (Am stars). However, the connection between such phenomena and the chemical peculiarity of the Am stars is still unclear. In order to make progress on these issues, its important to collect high-resolution spectroscopic data to determine their fundamental parameters and individual chemical abundances. In this paper, we present a spectroscopic study of a sample of ``hump and spike'' stars in the nominal Kepler field. We used data collected with the High Efficiency and Resolution Mercator \'{E}chelle Spectrograph (HERMES). We determined the spectral type of these stars and obtained the atmospheric stellar parameters such as effective temperatures,…
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