On the formation of extended galactic disks by tidally disrupted dwarf galaxies

Abstract

We explore the possibility that extended disks, such as that recently discovered in M31, are the result of a single dwarf (109--1010 Msun) satellite merger. We carry out N-body simulations of dwarf NFW halos with embedded spheriodal stellar components on co-planar, prograde orbits in a M31-like host galaxy. As the orbit decays due to dynamical friction and the system is disrupted, the stellar particles form an extended, exponential disk-like structure that spans the radial range 30--200 kpc once they have relaxed. The disk scale-length correlates with the initial extent of the stellar component within the satellite halo: the more embedded the stars, the smaller the resulting disk scale-length. If the progenitors start on circular orbits, the kinematics of the stars that make up the extended disk have an average rotational motion that is 30--50 km/s lower than the host's circular velocity. For dwarf galaxies moving on highly eccentric orbits (e=0.7), the stellar debris exhibits a much lower rotational velocity. Our results imply that extended galactic disks might be a generic feature of the hierarchical formation of spiral galaxies such as M31 and the Milky Way.

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