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Media type:
E-Article
Title:
Young nearby open clusters and their luminosity functions
Contributor:
Žerjal, M.;
Lodieu, N.;
Pérez-Garrido, A.;
Olivares, J.;
Béjar, V. J. S.;
Martín, E. L.
Published:
EDP Sciences, 2023
Published in:
Astronomy & Astrophysics, 678 (2023), Seite A75
Language:
Not determined
DOI:
10.1051/0004-6361/202345920
ISSN:
0004-6361;
1432-0746
Origination:
Footnote:
Description:
Context. Open clusters are groups of coeval stars sharing properties such as distance and metallicity, and they are key to understanding stellar evolution.Aims. Our main goal is to study the evolution of open clusters with a special focus on the universality of the luminosity function.Methods. We applied an upgraded version of the convergent point technique on about 50 open clusters. The selection of cluster members was based purely on the exquisite astrometry of the Gaia DR3 and HIPPARCOS catalogues in the five-dimensional or full six-dimensional space.Results. We present updated lists of bona fide members of ∼50 open clusters within 500 pc and younger than 1 Gyr, exploiting the full depth of the third Gaia data release complemented by HIPPARCOS at the bright end, excluding regions in the Galactic plane. Our catalogues also are complemented by optical and infrared photometry from the major large-scale public surveys. All the data will be made available on a dedicated webpage with interactive plots and a direct link to Aladin and Vizier hosted at the Centre de Données de Strasbourg. We derived luminosity functions for all bound clusters and compared them in three age groups of ∼50 Myr, ∼150 Myr, and ∼600 Myr, discussing similarities and differences to constrain their dynamical evolution.Conclusions. Luminosity functions of clusters at 50 Myr are more likely similar to each other and show a greater degree of similarity than older clusters. We explain this observation with the universal luminosity function within the volume of our sample (500 pc). Luminosity functions of clusters with ages similar to the Pleiades or Hyades are more diverse, perhaps due to internal dynamical evolution, but more work is needed to provide additional evidence.