Bibcode
López-Corredoira, M.; Kroupa, P.
Bibliographical reference
The Astrophysical Journal, Volume 817, Issue 1, article id. 75, 7 pp. (2016).
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1
2016
Journal
Citations
22
Refereed citations
19
Description
We show that a significant correlation (up to 5σ) emerges between
the bulge index, defined to be larger for a larger bulge/disk ratio, in
spiral galaxies with similar luminosities in the Galaxy Zoo 2 of the
Sloan Digital Sky Survey and the number of tidal-dwarf galaxies in the
catalog by Kaviraj et al. In the standard cold or warm dark matter
cosmological models, the number of satellite galaxies correlates with
the circular velocity of the dark matter host halo. In generalized
gravity models without cold or warm dark matter, such a correlation does
not exist, because host galaxies cannot capture infalling dwarf galaxies
due to the absence of dark-matter-induced dynamical friction. However,
in such models, a correlation is expected to exist between the bulge
mass and the number of satellite galaxies because bulges and tidal-dwarf
satellite galaxies form in encounters between host galaxies. This is not
predicted by dark matter models in which bulge mass and the number of
satellites are a priori uncorrelated because higher bulge/disk ratios do
not imply higher dark/luminous ratios. Hence, our correlation reproduces
the prediction of scenarios without dark matter, whereas an explanation
is not found readily from the a priori predictions of the standard
scenario with dark matter. Further research is needed to explore whether
some application of the standard theory may explain this correlation.