When Gas Dynamics Decouples from Galactic Rotation: Characterizing ISM Circulation in Disk Galaxies - INSU - Institut national des sciences de l'Univers
Journal Articles The Astrophysical Journal Year : 2020

When Gas Dynamics Decouples from Galactic Rotation: Characterizing ISM Circulation in Disk Galaxies

José Utreras
  • Function : Author
Guillermo A. Blanc
  • Function : Author
Andrés Escala
  • Function : Author
Sharon Meidt
  • Function : Author
Frank Bigiel
  • Function : Author
Simon C. O. Glover
  • Function : Author
Jonathan Henshaw
  • Function : Author
Alex Hygate
  • Function : Author
J. M. Diederik Kruijssen
  • Function : Author
Erik Rosolowsky
  • Function : Author
Eva Schinnerer
  • Function : Author
Andreas Schruba
  • Function : Author

Abstract

In galactic disks, galactic rotation sets the bulk motion of gas, and its energy and momentum can be transferred toward small scales. Additionally, in the interstellar medium, random and noncircular motions arise from stellar feedback, cloud-cloud interactions, and instabilities, among other processes. Our aim is to comprehend to what extent small-scale gas dynamics is decoupled from galactic rotation. We study the relative contributions of galactic rotation and local noncircular motions to the circulation of gas, Γ, a macroscopic measure of local rotation, defined as the line integral of the velocity field around a closed path. We measure the circulation distribution as a function of spatial scale in a set of simulated disk galaxies and model the velocity field as the sum of galactic rotation and a Gaussian random field. The random field is parameterized by a broken power law in Fourier space, with a break at the scale λc. We define the spatial scale λeq at which galactic rotation and noncircular motions contribute equally to Γ. For our simulated galaxies, the gas dynamics at the scale of molecular clouds is usually dominated by noncircular motions, but in the center of galactic disks galactic rotation is still relevant. Our model shows that the transfer of rotation from large scales breaks at the scale λc, and this transition is necessary to reproduce the circulation distribution. We find that λeq, and therefore the structure of the gas velocity field, is set by the local conditions of gravitational stability and stellar feedback.

Dates and versions

insu-03711472 , version 1 (01-07-2022)

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José Utreras, Guillermo A. Blanc, Andrés Escala, Sharon Meidt, Eric Emsellem, et al.. When Gas Dynamics Decouples from Galactic Rotation: Characterizing ISM Circulation in Disk Galaxies. The Astrophysical Journal, 2020, 892, ⟨10.3847/1538-4357/ab7a95⟩. ⟨insu-03711472⟩
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