Probing Brownstein-Moffat Gravity via Numerical Simulations
Abstract
In the standard scenario of the Newtonian gravity, a late-type galaxy (i.e., a spiral galaxy) is well described by a disk and a bulge embedded in a halo mainly composed by dark matter. In Brownstein-Moffat gravity, there is a claim that late-type galaxy systems would not need to have halos, avoiding as a result the dark matter problem, i.e., a modified gravity (non-Newtonian) would account for the galactic structure with no need of dark matter. In the present paper, we probe this claim via numerical simulations. Instead of using a "static galaxy," where the centrifugal equilibrium is usually adopted, we probe the Brownstein-Moffat gravity dynamically via numerical -body simulations.
Cite
@article{arxiv.1006.1000,
title = {Probing Brownstein-Moffat Gravity via Numerical Simulations},
author = {C. S. S. Brandao and J. C. N. de Araujo},
journal= {arXiv preprint arXiv:1006.1000},
year = {2010}
}
Comments
33 pages and 14 figures - To appear in The Astrophysical Journal