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Building up the Stellar Halo of the Galaxy | | Amina Helmi
; Simon D.M. White
; | | Date: |
11 Dec 1998 | | Subject: | astro-ph | | Affiliation: | Sterrewacht Leiden) and Simon D.M. White (MPA, Garching | | Abstract: | We study numerical simulations of satellite galaxy disruption in a potential resembling that of the Milky Way. Our goal is to assess whether a merger origin for the stellar halo would leave observable fossil structure in the phase-space distribution of nearby stars. We show how mixing of disrupted satellites can be quantified using a coarse-grained entropy. Although after 10 Gyr few obvious asymmetries remain in the distribution of particles in configuration space, strong correlations are still present in velocity space. We give a simple analytic description of these effects, based on a linearised treatment in action-angle variables, which shows how the kinematic and density structure of the debris stream changes with time. By applying this description we find that a single satellite of current luminosity $10^8 L_sun$ disrupted 10 Gyr ago from an orbit circulating in the inner halo (mean apocentre $sim 12$ kpc) would contribute about $sim 30$ kinematically cold streams with internal velocity dispersions below 5 km/s to the local stellar halo. If the whole stellar halo were built by disrupted satellites, it should consist locally of 300 - 500 such streams. Clear detection of all these structures would require a sample of a few thousand stars with 3-D velocities accurate to better than 5 km/s. Even with velocity errors several times worse than this, the expected clumpiness should be quite evident. We apply our formalism to a group of stars detected near the North Galactic Pole, and derive an order of magnitude estimate for the initial properties of the progenitor system. | | Source: | arXiv, astro-ph/9901102 | | Services: | Forum | Review | PDF | Favorites | |
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