Abstract
Like many galaxies of its size, the Milky Way is a disk with prominent spiral
arms rooted in a central bar, although our knowledge of its structure and
origin is incomplete. Traditional attempts to understand the Galaxy's
morphology assume that it has been unperturbed by major external forces. Here
we report simulations of the response of the Milky Way to the infall of the
Sagittarius dwarf galaxy (Sgr), which results in the formation of spiral arms,
influences the central bar and produces a flared outer disk. Two ring-like
wrappings emerge towards the Galactic anti-Center in our model that are
reminiscent of the low- latitude arcs observed in the same area of the Milky
Way. Previous models have focused on Sgr itself to reproduce the dwarf's
orbital history and place associated constraints on the shape of the Milky Way
gravitational potential, treating the Sgr impact event as a trivial influence
on the Galactic disk. Our results show that the Milky Way's morphology is not
purely secular in origin and that low-mass minor mergers predicted to be common
throughout the Universe probably have a similarly important role in shaping
galactic structure.
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