English

Exploring the Sgr-Milky-Way-disc interaction using high resolution N-body simulations

Astrophysics of Galaxies 2022-04-13 v3

Abstract

The ongoing merger of the Sagittarius (Sgr) dwarf galaxy with the Milky Way is believed to strongly affect the dynamics of the Milky Way's disc. We present a suite of 13 NN-body simulations, with 500 million to 1 billion particles, modelling the interaction between the Sagittarius dwarf galaxy (Sgr) and the Galactic disc. To quantify the perturbation to the disc's structure and dynamics in the simulation, we compute the number count asymmetry and the mean vertical velocity in a solar-neighbourhood-like volume. We find that overall the trends in the simulations match those seen in a simple one-dimensional model of the interaction. We explore the effects of changing the mass model of Sgr, the orbital kinematics of Sgr, and the mass of the Milky Way halo. We find that none of the simulations match the observations of the vertical perturbation using Gaia Data Release 2. In the simulation which is the most similar, we find that the final mass of Sgr far exceeds the observed mass of the Sgr remnant, the asymmetry wavelength is too large, and the shape of the asymmetry doesn't match past z0.7z \approx 0.7 kpc. We therefore conclude that our simulations support the conclusion that Sgr alone could not have caused the observed perturbation to the solar neighbourhood.

Keywords

Cite

@article{arxiv.2107.08055,
  title  = {Exploring the Sgr-Milky-Way-disc interaction using high resolution N-body simulations},
  author = {Morgan Bennett and Jo Bovy and Jason A. S. Hunt},
  journal= {arXiv preprint arXiv:2107.08055},
  year   = {2022}
}

Comments

ApJ, in press

R2 v1 2026-06-24T04:16:25.455Z