Gas Morphology of Milky Way-like Galaxies in the TNG50: Signals of Twisting and Stretching
We present an in-depth analysis of gas morphologies for a sample of 25 Milky Way-like galaxies from the Illustris TNG50 simulation. We constrain the morphology of cold, warm, hot gas, and gas particles as a whole using a Local Shell Iterative Method (LSIM) and explore its observational implications...
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Veröffentlicht in: | arXiv.org 2022-10 |
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Hauptverfasser: | , , , , , , , , , , , |
Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | We present an in-depth analysis of gas morphologies for a sample of 25 Milky Way-like galaxies from the Illustris TNG50 simulation. We constrain the morphology of cold, warm, hot gas, and gas particles as a whole using a Local Shell Iterative Method (LSIM) and explore its observational implications by computing the hard-to-soft X-ray ratio, which ranges between \(10^{-3}\)-\(10^{-2}\) in the inner \(\sim 50 \rm kpc\) of the distribution and \(10^{-5}\)-\(10^{-4}\) at the outer portion of the hot gas distribution. We group galaxies into three main categories: simple, stretched, and twisted. These categories are based on the radial reorientation of the principal axes of the reduced inertia tensor. We find that the vast majority (\(76\%\)) of galaxies in our sample exhibit twisting patterns in their radial profiles. Additionally, we present detailed comparisons between 1) the gaseous distributions belonging to individual temperature regimes, 2) the cold gas distributions and stellar distributions, and 3) the gaseous distributions and dark matter (DM) halos. We find a strong correlation between the morphological properties of the cold gas and stellar distributions. Furthermore, we find a correlation between gaseous distributions with DM halo which increases with gas temperature, implying that we may use the gaseous morphology as a tracer to probe the DM morphology. Finally, we show gaseous distributions exhibit significantly more prolate morphologies than the stellar distributions and DM halos, which we hypothesize may be due to stellar and AGN feedback. |
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ISSN: | 2331-8422 |