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The treasure behind the haystack: MUSE analysis of five recently discovered globular clusters

Authors :
Gran, F.
Kordopatis, G.
Zoccali, M.
Hill, V.
Saviane, I.
Navarrete, C.
Rojas-Arriagada, A.
Carballo-Bello, J.
Hartke, J.
Valenti, E.
Ramos, R. Contreras
De Leo, M.
Fabbro, S.
Gran, F.
Kordopatis, G.
Zoccali, M.
Hill, V.
Saviane, I.
Navarrete, C.
Rojas-Arriagada, A.
Carballo-Bello, J.
Hartke, J.
Valenti, E.
Ramos, R. Contreras
De Leo, M.
Fabbro, S.
Publication Year :
2023

Abstract

After the second data release of Gaia, the number of new globular cluster candidates has increased importantly. However, most of them need to be properly characterised, both spectroscopically and photometrically, by means of radial velocities, metallicities, and deeper photometric observations. Our goal is to provide an independent confirmation of the cluster nature of Gran 4, a recently discovered globular cluster, with follow-up spectroscopic observations. The derived radial velocity for individual stars, coupled with proper motions, allows us to isolate cluster members from field stars, while the analysis of their spectra allows us to derive metallicities. By including in the analysis the recently confirmed clusters Gran 1, 2, 3, and 5, we aim to completely characterise the sample presented in Gran et al. 2022. Using Gaia DR3 and VVV catalogue data and MUSE@VLT observations, we performed a selection of cluster members based on their proper motions, radial velocities and their position in colour-magnitude diagrams. Furthermore, full spectral synthesis was performed on the cluster members, extracting surface parameters and metallicity from MUSE spectra. Finally, a completeness estimation was performed on the total globular cluster population of the Milky Way. We confirm the nature of Gran 4, a newly discovered globular cluster behind the Galactic bulge, with a mean radial velocity of ${\rm RV} = -265.28 \pm 3.92$ km s$^{-1}$ and a mean metallicity of ${\rm [Fe/H] = -1.72 \pm 0.32}$ dex. Additionally, independent measurements of the metallicities were derived for Gran 1, 2, 3, and 5. We also revise the observational lower mass limit for a globular cluster to survive in the bulge/disk environment. We estimate that $\sim 12-26$ globular clusters have still to be discovered on the other side of the Galaxy (i.e., behind the bulge/bar/disk), up to 20 kpc.<br />Comment: 8 pages, 5 figures, appendix: 5 tables and 1 figure. Accepted for publication for A&A

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1405321277
Document Type :
Electronic Resource