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Autores principales: Brandner, Wolfgang, Sorg, Artur, Röser, Siegfried, Schilbach, Elena
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2410.16369
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author Brandner, Wolfgang
Sorg, Artur
Röser, Siegfried
Schilbach, Elena
author_facet Brandner, Wolfgang
Sorg, Artur
Röser, Siegfried
Schilbach, Elena
contents Gaia characterizes the stellar populations of nearby open clusters with unprecedented precision. We investigate the Böhm-Vitense gap, which has been found as a prominent feature in the stellar sequence of open clusters. Using PARSEC isochrone fitting, we derive astrophysical parameters for more than 1100 stars in Praesepe, identify more than 1100 bona fide single stars in the alpha Persei (Melotte 20) open cluster, and confirm their approximate match in terms of age (approx. 710 Myr and 45 Myr) and metallicity ([M/H] approx. +0.15 dex and +0.13 dex) to the Hyades and Pleiades, respectively. By merging data of the cluster pairs, we improve number statistics. We do not find a clear gap in the combined observational G_abs vs. BP-RP color-magnitude diagram (CMD) in the stellar mass range corresponding to the location of the Böhm-Vitense gap. We reproduce gaps in simulated Hyades-type CMDs randomly drawn from an initial mass function. There is no strong evidence for a discontinuity originating in the transition from radiative to convective energy transport in the stellar photosphere. We conclude that the observed gaps in the stellar sequences of open clusters could be explained by small number statistics and the uneven mass-color relation at the transition from spectral type A to F.
format Preprint
id arxiv_https___arxiv_org_abs_2410_16369
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The radiative-convective gap: fact or fiction?
Brandner, Wolfgang
Sorg, Artur
Röser, Siegfried
Schilbach, Elena
Solar and Stellar Astrophysics
Astrophysics of Galaxies
Gaia characterizes the stellar populations of nearby open clusters with unprecedented precision. We investigate the Böhm-Vitense gap, which has been found as a prominent feature in the stellar sequence of open clusters. Using PARSEC isochrone fitting, we derive astrophysical parameters for more than 1100 stars in Praesepe, identify more than 1100 bona fide single stars in the alpha Persei (Melotte 20) open cluster, and confirm their approximate match in terms of age (approx. 710 Myr and 45 Myr) and metallicity ([M/H] approx. +0.15 dex and +0.13 dex) to the Hyades and Pleiades, respectively. By merging data of the cluster pairs, we improve number statistics. We do not find a clear gap in the combined observational G_abs vs. BP-RP color-magnitude diagram (CMD) in the stellar mass range corresponding to the location of the Böhm-Vitense gap. We reproduce gaps in simulated Hyades-type CMDs randomly drawn from an initial mass function. There is no strong evidence for a discontinuity originating in the transition from radiative to convective energy transport in the stellar photosphere. We conclude that the observed gaps in the stellar sequences of open clusters could be explained by small number statistics and the uneven mass-color relation at the transition from spectral type A to F.
title The radiative-convective gap: fact or fiction?
topic Solar and Stellar Astrophysics
Astrophysics of Galaxies
url https://arxiv.org/abs/2410.16369