Globular cluster system and Milky Way properties revisited

Abstract

Updated data of the 153 Galactic globular clusters are used to readdress fundamental parameters of the Milky Way. We build a reduced sample, decontaminated of the clusters younger than 10Gyr, those with retrograde orbits and/or evidence of relation to dwarf galaxies. The 33 metal-rich globular clusters of the reduced sample extend basically to the Solar circle and distribute over a region with projected axial-ratios typical of an oblate spheroidal, x: y: z≈1.0:0.9:0.4. The 81 metal-poor globular clusters span a nearly spherical region of axial-ratios ≈1.0:1.0:0.8 extending from the central parts to the outer halo. A new estimate of the Sun's distance to the Galactic center is provided, RO=7.20.3 kpc. The metal-rich and metal-poor radial-density distributions flatten for RGC≤2 kpc and are well represented both by a power-law with a core-like term and S\'ersic's law; at large distances they fall off as R-3.9. Both metallicity components appear to have a common origin, which is different from that of the dark matter halo. Structural similarities of the metal-rich and metal-poor radial distributions with the stellar halo are consistent with a scenario where part of the reduced sample was formed in the primordial collapse, and part was accreted in an early period of merging. This applies to the bulge as well, suggesting an early merger affecting the central parts of the Galaxy. We estimate that the present globular cluster population corresponds to ≤236% of the original one. The fact that the volume-density radial distributions of the metal-rich and metal-poor globular clusters of the reduced sample follow both a core-like power-law and S\'ersic's law indicates that we are dealing with spheroidal subsystems in all scales.

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