Prevalence and Properties of Dark Matter in Elliptical Galaxies
Abstract
Given the recently deduced relationship between X-ray temperatures and stellar velocity dispersions (the "T-sigma relation") in an optically complete sample of elliptical galaxies (Davis & White 1996), we demonstrate that L>L* ellipticals contain substantial amounts of dark matter in general. We present constraints on the dark matter scale length and on the dark-to-luminous mass ratio within the optical half-light radius and within the entire galaxy. For example, we find that minimum values of dark matter core radii scale as rdm > 4(LV/3L*)3/4h-180 kpc and that the minimum dark matter mass fraction is >~20% within one optical effective radius re and is >~39-85% within 6re, depending on the stellar density profile and observed value of betaspec. We also confirm the prediction of Davis & White (1996) that the dark matter is characterized by velocity dispersions that are greater than those of the luminous stars: sigmadm2 ~ 1.4-2 sigma*2. The T-sigma relation implies a nearly constant mass-to-light ratio within six half-light radii: M/LV ~ 25h80 Msun/LVsun. This conflicts with the simplest extension of CDM theories of large scale structure formation to galactic scales; we consider a couple of modifications which can better account for the observed T-sigma relation.
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