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Main Authors: Bado, F., de Laverny, P., Kam, Z., Recio-Blanco, A., Palicio, P. A., Koulidiati, J.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.23305
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author Bado, F.
de Laverny, P.
Kam, Z.
Recio-Blanco, A.
Palicio, P. A.
Koulidiati, J.
author_facet Bado, F.
de Laverny, P.
Kam, Z.
Recio-Blanco, A.
Palicio, P. A.
Koulidiati, J.
contents Stellar rotation is a fundamental parameter in stellar studies. However, large homogeneous catalogues of rotational velocities derived from high-resolution stellar spectra are still lacking. The main objective of this work is to determine the line-broadening parameter (Vbroad), a proxy for the stellar rotational velocity, in a large sample of FGKM stars based on their ESO/FEROS spectra, previously parameterised by the AMBRE Project. Vbroad was estimated by cross-correlating the FEROS spectra with AMBRE binary masks. This methodology also relies on a specific calibration of a coupling constant between the rotational velocity and the width of the cross-correlation function. This fundamental step was performed by adopting the AMBRE grid of synthetic spectra. The derived Vbroad were then validated using data from the literature, ground-based spectroscopic surveys, and Gaia/RVS. After analysing more than 5,000 FEROS spectra (including repeated spectra for several stars), we obtained the line-broadening coefficients for 2,584 stars covering the FGKM spectral types, any stellar gravity, and metallicities between the metal-poor up to sub-solar regimes. The mean Vbroad relative uncertainty of this sample was found to be smaller than 8%. As expected, most stars were found to be slow rotators (below a few km/s), in particular, cool dwarfs and giants. However, several hot dwarfs and high-luminosity stars with high-Vbroad rates were identified, most of them not previously classified as fast rotators and/or affected by large macro-turbulent effects. The measured rotational broadening values are of high-quality and verified on the basis of literature comparisons. We publicly provide this catalogue of Vbroad parameters, including stellar atmospheric and quality parameters, for the analysed AMBRE/FEROS sources.
format Preprint
id arxiv_https___arxiv_org_abs_2510_23305
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The AMBRE Project: Line-broadening and stellar rotation of ESO/FEROS archived spectra
Bado, F.
de Laverny, P.
Kam, Z.
Recio-Blanco, A.
Palicio, P. A.
Koulidiati, J.
Solar and Stellar Astrophysics
Stellar rotation is a fundamental parameter in stellar studies. However, large homogeneous catalogues of rotational velocities derived from high-resolution stellar spectra are still lacking. The main objective of this work is to determine the line-broadening parameter (Vbroad), a proxy for the stellar rotational velocity, in a large sample of FGKM stars based on their ESO/FEROS spectra, previously parameterised by the AMBRE Project. Vbroad was estimated by cross-correlating the FEROS spectra with AMBRE binary masks. This methodology also relies on a specific calibration of a coupling constant between the rotational velocity and the width of the cross-correlation function. This fundamental step was performed by adopting the AMBRE grid of synthetic spectra. The derived Vbroad were then validated using data from the literature, ground-based spectroscopic surveys, and Gaia/RVS. After analysing more than 5,000 FEROS spectra (including repeated spectra for several stars), we obtained the line-broadening coefficients for 2,584 stars covering the FGKM spectral types, any stellar gravity, and metallicities between the metal-poor up to sub-solar regimes. The mean Vbroad relative uncertainty of this sample was found to be smaller than 8%. As expected, most stars were found to be slow rotators (below a few km/s), in particular, cool dwarfs and giants. However, several hot dwarfs and high-luminosity stars with high-Vbroad rates were identified, most of them not previously classified as fast rotators and/or affected by large macro-turbulent effects. The measured rotational broadening values are of high-quality and verified on the basis of literature comparisons. We publicly provide this catalogue of Vbroad parameters, including stellar atmospheric and quality parameters, for the analysed AMBRE/FEROS sources.
title The AMBRE Project: Line-broadening and stellar rotation of ESO/FEROS archived spectra
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2510.23305