A Holistic Review of a Galactic Interaction.

Our situation as occupants of the Milky Way Galaxy, which is currently being bombarded by the Sagittarius dwarf galaxy, provides the opportunity to study the process of the dynamical heating of a galactic disk in action. Using an N-body simulation which follows the interaction of a dwarf galaxy similar to Sagittarius with a parent similar the Milky Way, we map and quantify the dynamical influences of various components on the evolution of the disc. The accelerations in the plane from the satellite, dark matter halo and disk are calculated for each snapshot, and then decomposed into Fourier series on annuli. The analysis allows the separation and comparison of the scales of the different influences over space and through time. Throughout the simulation accelerations due to the satellite are only important around disk passages, but are enhanced by the distortion of the dark matter halo. The interaction drives disk asymmetries within and perpendicular to the plane. The self-gravity of disk distortions increase in importance with time, eventually leading to the formation of a bar. For our own Galaxy, at the present epoch, Sagittarius is close enough to a plane crossing to motivate a search for its direct influence on the disk at intermediate radii, while the distortion of the Milky Way's dark matter halo should leave its imprint in the outer disk. These results suggest fruitful directions to take to disentangle signatures of the ongoing interaction and learn about the dynamical processes that are currently shaping the Milky Way.