The distribution of dark and luminous matter inferred from extended rotation curves

TL;DR

This study analyzes rotation curves of 12 spiral galaxies to understand the distribution of dark and luminous matter, comparing different models including maximum disc, MOND, and NFW halos, revealing cores are preferred over cusps.

Contribution

It provides a comprehensive decomposition of galaxy rotation curves using multiple models, highlighting the limitations of NFW halos and supporting core-like dark matter distributions.

Findings

Maximum disc fits require high mass-to-light ratios.

MOND can explain rotation curves if parameters are free.

NFW halos fail for low-mass galaxies, favoring cores.

Abstract

A better understanding of the formation of mass structures in the universe can be obtained by determining the amount and distribution of dark and luminous matter in spiral galaxies. To investigate such matters a sample of 12 galaxies, most with accurate distances, has been composed of which the luminosities are distributed regularly over a range spanning 2.5 orders of magnitude. Of the observed high quality and extended rotation curves of these galaxies decompositions have been made, for four different schemes, each with two free parameters. For a "maximum disc fit" the rotation curves can be well matched, yet a large range of mass-to-light ratios for the individual galaxies is required. For the alternative gravitational theory of MOND the rotation curves can be explained if the fundamental parameter associated with MOND is allowed as a free parameter. Fixing that parameter leads to a disagreement between the predicted and observed rotation curves for a few galaxies. When cosmologically motivated NFW dark matter halos are assumed, the rotation curves for the least massive galaxies can, by no means, be reproduced; cores are definitively preferred over cusps. Finally, decompositions have been made for a pseudo isothermal halo combined with a universal M/L ratio. For the latter, the light of each galactic disc and bulge has been corrected for extinction and has been scaled by the effect of stellar population. This scheme can successfully explain the observed rotations and leads to sub maximum disc mass contributions. Properties of the resulting dark matter halos are described and a ratio between dark and baryonic mass of approximately 9 for the least, and of approximately 5, for the most luminous galaxies has been determined, at the outermost measured rotation.