Infrared photometry and CaT spectroscopy of the most metal-poor in-situ globular cluster VVV-CL001

Abstract

Globular clusters in the Galactic bulge are difficult to study due to high extinction and severe crowding. VVV-CL001 is an old, metal-poor, and fast cluster in the inner bulge, whose extreme properties make it a key probe of the early chemical and dynamical evolution of the Milky Way. We derive its fundamental parameters by combining spectroscopy, astrometry, and near-infrared photometry. Metallicity and radial velocity were measured from medium-resolution FORS2/VLT spectra; proper motions from Gaia DR3; and FourStar/Magellan photometry was used to refine the cluster centre, derive its structure, and estimate age, distance, and reddening. VVV-CL001 is confirmed to be an old (12.1+1.0-1.2 Gyr), metal-poor ([Fe/H] = -2.25 0.05) cluster at a heliocentric distance of 7.1+1.3-1.1 kpc, with reddening E(J-Ks) = 1.40+0.01-0.02. Its mean proper motions are μα* = -3.68 0.09 and μδ = -1.76 0.10 mas yr-1, and its radial velocity is -334 4 km s-1. The orbit is eccentric (e = 0.76+0.10-0.14), confined to the inner Galaxy (|Z| ≈ 1 kpc) and within the bar's influence (R < 5 kpc), with pericentre 0.6+0.3-0.2 kpc and apocentre 4.5+2.5-1.2 kpc. Its old age, low metallicity, and orbital properties support an in-situ origin, identifying VVV-CL001 as one of the most metal-poor inner-Galaxy clusters formed in the early Milky Way. It likely belongs to the primordial disk cluster population later trapped by the bar, making it a fossil remnant of the earliest phases of Galactic assembly.

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