http://arxiv.org/abs/1706.07478
We measure HI rotation curves for simulated galaxies from the APOSTLE suite of $\Lambda$CDM cosmological hydrodynamical simulations with velocities in the range $60 < V_{\rm max}/{\rm km}\,{\rm s}^{-1} < 120$. These galaxies compare well with those in surveys of quiescent discs such as THINGS and LITTLE THINGS in terms of the mass, size and kinematics of their HI discs, as well as the local and global asymmetry of their HI velocity fields. We construct synthetic ‘observations’, akin to interferometric HI measurements of nearby galaxies, and apply a conventional tilted-ring modelling procedure. The modelling generally results in a large diversity of rotation curves for each individual galaxy, depending on the orientation of the chosen line of sight. These variations arise from non-circular motions in the gas and, in particular, from strong bisymmetric ($m=2$) fluctuations in the azimuthal gas velocity field which the tilted-ring model is ill-suited to account for. Such perturbations are often difficult to detect in model residuals. Still, we show that they are clearly present in DDO 47 and DDO 87, two galaxies with slowly-rising rotation curves in apparent conflict with $\Lambda$CDM predictions. Rotation curves derived using modelling procedures unable to account for non-circular motions are likely to underestimate, sometimes significantly, the circular velocity in the inner regions and risk being misinterpreted as evidence for possibly nonexistent cores in the dark matter. The extent to which these findings affect observed galaxies with an apparent ‘core’ should be investigated in detail before such cores may be used as dependable evidence against the simplest predictions of the $\Lambda$CDM paradigm.
K. Oman, A. Marasco, J. Navarro, et. al.
Mon, 26 Jun 17
29/40
Comments: 25 pages, 13 figures, 4 tables, MNRAS submitted
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