The dynamics of stars near Sgr A* and dark matter at the center and in the halo of the galaxy
2002
10 pages
Published in:
- Prog.Part.Nucl.Phys. 48 (2002) 291-300
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Abstract: (Elsevier)
After a discussion of the properties of degenerate fermion balls, we analyze the orbits of the star S0–1, which has the smallest projected distance to Sgr A∗, in the supermassive black hole as well as in the fermion ball scenarios of the Galactic center. It is shown that both scenarios are consistent with the data, as measured during the last six years by Genzel et al. and Ghez et al. We then consider a self-gravitating ideal fermion gas at nonzero temperature as a model for the Galactic halo. The Galactic halo of mass ∼ 2 × 10 12 M ⊙ enclosed within a radius of ∼ 200 kpc implies the existence of a supermassive compact dark object at the Galactic center that is in hydrostatic and thermal equilibrium with the halo. The central object has a maximal mass of ∼ 2.3 × 10 6 M ⊙ within a minimal radius of ∼ 18 mpc or ∼ 21 light-days for fermion masses ∼ 15 keV. We thus conclude that both the supermassive compact dark object and the halo could be made of the same weakly interacting ∼ 15 keV particle.- talk: Erice 2001/09/18
- star: orbit
- black hole
- fermion: matter
- galaxy: halo
- fermion: gas
- fermion fermion: weak interaction
- fermion: radiative decay
- dark matter
- numerical calculations: interpretation of experiments
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