Lisa Randall, Jakub Scholtz
Published 2014-12-04Version 1
We show that dissipative dark matter can potentially explain the large observed mass to light ratio of the dwarf satellite galaxies that have been observed in the recently identified planar structure around Andromeda, which are thought to result from tidal forces during a galaxy merger. Whereas dwarf galaxies created from ordinary disks would be dark matter poor, dark matter inside the galactic plane not only provides a source of dark matter, but one that is more readily bound due to the dark matter's lower velocity. This initial N-body study shows that with a thin disk of dark matter inside the baryonic disk, mass-to-light ratios as high as O(30) can be generated when tidal forces pull out patches of sizes similar to the scales of Toomre instabilities of the dark disk. A full simulation will be needed to confirm this result.
Comments: 13 pages, 12 figures
Dissipative Dark Matter on FIRE: I. Structural and kinematic properties of dwarf galaxies
Dissipative Dark Matter on FIRE: II. Observational signatures and constraints from local dwarf galaxies
Comparing the observable properties of dwarf galaxies on and off the Andromeda plane
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