TY - JOUR
T1 - ASymba: H I global profile asymmetries in the SIMBA simulation
AU - Glowacki, M.
AU - Deg, N.
AU - Blyth, S. -L.
AU - Hank, N.
AU - Davé, R.
AU - Elson, E.
AU - Spekkens, K.
PY - 2022/11/1
Y1 - 2022/11/1
N2 - Asymmetry in the spatially integrated, 1D H I global profiles of galaxies can inform us on both internal (e.g. outflows) and external (e.g. mergers, tidal interactions, and ram pressure stripping) processes that shape galaxy evolution. Understanding which of these primarily drive H I profile asymmetry is of particular interest. In the lead-up to SKA pathfinder and SKA H I emission surveys, hydrodynamical simulations have proved to be a useful resource for such studies. Here, we present the methodology behind, as well as first results, of ASymba: Asymmetries in H I of SIMBA galaxies, the first time this simulation suite has been used for this type of study. We generate mock observations of the H I content of these galaxies and calculate the profile asymmetries using three different methods. We find that $M_{\rm H\, {\small I}}$ has the strongest correlation with all asymmetry measures, with weaker correlations also found with the number of mergers a galaxy has undergone, and gas and galaxy rotation. We also find good agreement with the xGASS sample, in which galaxies with highly asymmetric profiles tend to have lower H I gas fractions than galaxies with symmetric profiles, and additionally find the same holds in sSFR parameter space. For low H I mass galaxies, it is difficult to distinguish between asymmetric and symmetric galaxies, but this becomes achievable in the high H I mass population. These results showcase the potential of ASymba and provide the groundwork for further studies, including comparison to upcoming large H I emission surveys.
AB - Asymmetry in the spatially integrated, 1D H I global profiles of galaxies can inform us on both internal (e.g. outflows) and external (e.g. mergers, tidal interactions, and ram pressure stripping) processes that shape galaxy evolution. Understanding which of these primarily drive H I profile asymmetry is of particular interest. In the lead-up to SKA pathfinder and SKA H I emission surveys, hydrodynamical simulations have proved to be a useful resource for such studies. Here, we present the methodology behind, as well as first results, of ASymba: Asymmetries in H I of SIMBA galaxies, the first time this simulation suite has been used for this type of study. We generate mock observations of the H I content of these galaxies and calculate the profile asymmetries using three different methods. We find that $M_{\rm H\, {\small I}}$ has the strongest correlation with all asymmetry measures, with weaker correlations also found with the number of mergers a galaxy has undergone, and gas and galaxy rotation. We also find good agreement with the xGASS sample, in which galaxies with highly asymmetric profiles tend to have lower H I gas fractions than galaxies with symmetric profiles, and additionally find the same holds in sSFR parameter space. For low H I mass galaxies, it is difficult to distinguish between asymmetric and symmetric galaxies, but this becomes achievable in the high H I mass population. These results showcase the potential of ASymba and provide the groundwork for further studies, including comparison to upcoming large H I emission surveys.
KW - galaxies: evolution
KW - galaxies: formation
KW - galaxies: ISM
KW - radio lines: galaxies
KW - Astrophysics - Astrophysics of Galaxies
U2 - 10.1093/mnras/stac2684
DO - 10.1093/mnras/stac2684
M3 - Article
SN - 0035-8711
VL - 517
SP - 1282
EP - 1298
JO - Monthly Notices of the Royal Astronomical Society
JF - Monthly Notices of the Royal Astronomical Society
ER -