The hierarchical build-up of the Tully-Fisher relation
ArXiv 1006.0229 (2010)
Abstract:
We use the semi-analytic model GalICS to predict the Tully-Fisher relation in the B, I and for the first time, in the K band, and its evolution with redshift, up to z~1. We refined the determination of the disk galaxies rotation velocity, with a dynamical recipe for the rotation curve, rather than a simple conversion from the total mass to maximum velocity. The new recipe takes into account the disk shape factor, and the angular momentum transfer occurring during secular evolution leading to the formation of bulges. This produces model rotation velocities that are lower by ~20-25% for the majority of the spirals. We implemented stellar population models with a complete treatment of the TP-AGB, which leads to a revision of the mass-to-light ratio in the near-IR. I/K band luminosities increase by ~0.3/0.5 mags at redshift z=0 and by ~0.5/1 mags at z=3. With these two new recipes in place, the comparison between the predicted Tully-Fisher relation with a series of datasets in the optical and near-IR, at redshifts between 0 and 1, is used as a diagnostics of the assembly and evolution of spiral galaxies in the model. At 0.4Photometric redshift estimation using Gaussian processes
\mnras 405 (2010) 987-994-987-994
The environments of z 1 active galactic nuclei at 3.6μm
\mnras 405 (2010) 347-358-347-358
Molecular Gas in SAURON Early-Type Galaxies: Detection of 13CO and HCN Emission
(2010)