Upper Limit on the Central Density of Dark Matter in the Eddington inspired Born-Infield (EiBI) Gravity

Abstract

We investigate the stability of circular material orbits in the analytic galactic metric recently derived by Harko et al. (2014). It turnsout that stability depends more strongly on the dark matter central density %0 than on other parameters of the solution. This property then yields an upper limit on 0 for each individual galaxy, which we call here 0upper, such that stable circular orbits are possible only when the constraint 0≤ 0upper is satisfied. This is our new result. To approximately quantify the upper limit, we consider as a familiar example our Milky Way galaxy that has a projected dark matter radius RDM 180 kpc and find that 0upper 2.37× 1011 M kpc-3. This limit turns out to be about four orders of magnitude larger than the latest data on central density 0 arising from the fit to the Navarro-Frenk-White (NFW) and Burkert density profiles. Such consistency indicates that the EiBI solution could qualify as yet another viable alternative model for dark matter.