http://arxiv.org/abs/1406.2693
Observations consistently show that elliptical galaxies follow a tight “fundamental plane” scaling relation between size, mean surface brightness and velocity dispersion, with the form R $\propto {\sigma}^a {\mu}^b$. This relation not only has very small (<0.05 dex) intrinsic scatter, but also has significantly different coefficients from the expect virial scaling (a “tilt”). We analyze hundreds of simulations of elliptical galaxies formed from mergers of spiral galaxies in groups to determine if the fundamental plane can emerge from multiple, mostly minor and hierarchical collisionless mergers. We find that these simulated ellipticals lie on a similar fundamental plane with a~1.7 and b~0.3. The scatter about this plane is even smaller than observed, while the tilt is in the correct sense, although a is larger than for typical observations. This demonstrates that collisionless mergers can contribute significantly to the tilt of the fundamental plane, contrary to previous claims that only gas dissipation could be responsible for creating the tilt. The tilt is mainly driven by a mass-dependent dark matter fraction, such that more massive galaxies have larger dark matter fractions within the effective radius. We further discuss the origin of this mass-dependent dark matter fraction and the tilt of the fundamental plane, as well as the relation of the fundamental plane and dynamical masses to the virial theorem.
D. Taranu, J. Dubinski and H. Yee
Thu, 12 Jun 14
36/50
Comments: ApJ submitted. 20 pages, 14 figures. Comments welcome
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