Résumé / Abstract Journal-club_Galaxies

Séminaire/Seminar Galaxies

« The accretion history of the Milky Way: how it shapes globular clusters and dwarf galaxies »

François Hammer
Dept. Galaxies, Etoiles, Physique et Instrumentation (GEPI), Obs. Paris-Meudon-Nancay (Meudon, France)

We have compared orbital and intrinsic properties of globular clusters and dwarf galaxies that include objects of similar stellar mass, which are often studied as self-dynamical equilibrium systems. We discover that the half-light radius of globular clusters depends on their orbital pericenter and total energy, and that Milky Way (MW) tides may explain the observed correlation. We have also calibrated the accretion epoch of stellar systems in the MW halo by the total orbital energy, which comes from both the mass growth of the MW and dynamical friction affecting mostly satellites with numerous orbits. This calibration starts from the bulge, to Kraken, Gaia Sausage Enceladus, Sagittarius stellar systems, and finally to the new coming dwarfs, either or not linked to the vast-polar structure. The most eccentric globular clusters and dwarfs have their half-light radius scaling as the inverse of their binding energy, and this over more than two decades. This means that earlier arriving satellites are smaller due to the tidal effects of the MW. Therefore, most halo inhabitants appear to have their structural parameters shaped by MW tides and also by ram-pressure for the most recent arrivals, the dwarf galaxies. The correlations found in this study can be used as tools to further investigate the origin of globular clusters and dwarfs, as well as the assembly history of our Galaxy.
jeudi 2 février 2023 - 11:30
Salle des séminaires Évry Schatzman
Institut d'Astrophysique de Paris
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