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06-05-2014
HI discs in real and simulated early-type galaxies
| Submitter: | Paolo Serra, Tom Oosterloo & Raffaella Morganti |
| Description: | One quarter of all nearby field early-type galaxies (ETGs) host a disc/ring of HI with size from a few to tens of kpc and mass up to ~1e+9 solar masses. We have investigated whether this HI is related to the presence of a stellar disc within the host making use of the classification of ETGs in fast and slow rotators (FR/SR). We find a large diversity of HI masses and morphologies within both families. Surprisingly, SRs are detected as often, host as much HI and have a similar rate of HI discs/rings as FRs. Accretion of HI is therefore not always linked to the growth of an inner stellar disc. The weak relation between HI and stellar disc is confirmed by their frequent kinematical misalignment in FRs, including cases of polar and counterrotating gas. In SRs the HI is usually polar. This complex picture highlights a diversity of ETG formation histories which may be lost in the relative simplicity of their inner structure and emerges when studying their outer regions. We find that hydrodynamical simulations have difficulties reproducing the HI properties of ETGs. The gas discs formed in simulations are either too massive or too small depending on the star formation feedback implementation. Kinematical misalignments match the observations only qualitatively. The main point of conflict is that nearly all simulated FRs and a large fraction of all simulated SRs host co-rotating HI. This establishes the HI properties of ETGs as a novel challenge to simulations. A paper presenting these results is now accepted for publication in MnARS as part of the ATLS3D effort: Serra P., et al. [including Oosterloo & Morganti], 2014, http://adsabs.harvard.edu/abs/2014arXiv1401.3180S “The Atlas3D project - XXVI. HI discs in real and simulated fast and slow rotators”. |
| Copyright: | ASTRON |
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