Dark Matter and IMF normalization in Virgo dwarf early-type galaxies

Abstract

In this work we analyze the dark matter (DM) fraction, fDM, and mass-to-light ratio mismatch parameter, δIMF (computed with respect to a Milky-Way-like IMF), for a sample of 39 dwarf early-type galaxies (dEs) in the Virgo cluster. Both fDM and δIMF are estimated within the central (one effective radius) galaxy regions, with a Jeans dynamical analysis that relies on galaxy velocity dispersions, structural parameters, and stellar M/L ratios from the SMAKCED survey. In this first attempt to constrain, simultaneously, the IMF normalization and the DM content, we explore the impact of different assumptions on the DM model profile. On average, for a NFW profile, the δIMF is consistent with a Chabrier-like normalization (δIMF 1), with fDM 0.35. One of the main results of the present work is that for at least a few systems the δIMF is heavier than the MW-like value (i.e. either top- or bottom-heavy). When introducing tangential anisotropy, larger δIMF and smaller fDM are derived. Adopting a steeper concentration-mass relation than that from simulations, we find lower δIMF (< 1) and larger fDM. A constant M/L profile with null fDM gives the heaviest δIMF ( 2). In the MONDian framework, we find consistent results to those for our reference NFW model. If confirmed, the large scatter of δIMF for dEs would provide (further) evidence for a non-universal IMF in early-type systems. On average, our reference fDM estimates are consistent with those found for low-σe ( 100 \, km s-1) early-type galaxies (ETGs). Furthermore, we find fDM consistent with values from the SMAKCED survey, and find a double-value behavior of fDM with stellar mass, which mirrors the trend of dynamical M/L and global star formation efficiency with mass.