English

Simulated Observations of Multiphase Galactic Winds

Astrophysics of Galaxies 2020-12-07 v1

Abstract

Supernova-driven galactic winds are multiphase streams of gas that are often observed flowing at a range of velocities out of star-forming regions in galaxies. In this study, we use high resolution 3D simulations of multiphase galactic winds modeled with the hydrodynamics code Cholla to investigate the connection between numerical studies and observations. Using a simulated interaction between a hot T107KT\sim 10^{7}\,\rm K supernova-driven wind and a cool T104KT\sim 10^{4}\,\rm K cloud of interstellar material, we create mock observables, including the optical depth and covering fraction of six commonly observed ions (Si II, C II, Si IV, C IV, N V, and O VI) as a function of gas velocity. We compare our mock observables to surveys of galactic winds in the literature, finding good agreement with velocities and profiles of the low ions. We then compute "empirical" values for the optical depth and covering fraction following observational techniques, and compare them to the values calculated directly from the simulation data. We find that the empirically computed values tend to underestimate the "true" value of τ\tau for ions with high optical depth, and overestimate the "true" value of τ\tau for ions with low optical depth, relative to the simulated data.

Keywords

Cite

@article{arxiv.2012.02212,
  title  = {Simulated Observations of Multiphase Galactic Winds},
  author = {Lita M. de la Cruz and Evan E. Schneider and Eve C. Ostriker},
  journal= {arXiv preprint arXiv:2012.02212},
  year   = {2020}
}
R2 v1 2026-06-23T20:43:01.805Z