Bibcode
Javanmardi, B.; Raouf, M.; Khosroshahi, H. G.; Tavasoli, S.; Müller, O.; Molaeinezhad, A.
Referencia bibliográfica
The Astrophysical Journal, Volume 870, Issue 1, article id. 50, 9 pp. (2019).
Fecha de publicación:
1
2019
Revista
Número de citas
14
Número de citas referidas
13
Descripción
There is a correlation between the bulge mass of the three main galaxies
of the Local Group (LG), i.e., M31, Milky Way (MW), and M33, and the
number of their dwarf spheroidal galaxies. A similar correlation has
also been reported for spiral galaxies with comparable luminosities
outside the LG. These correlations do not appear to be expected in
standard hierarchical galaxy formation. In this paper, and for the first
time, we present a quantitative investigation of the expectations of the
standard model of cosmology for this possible relation using a galaxy
catalog based on the Millennium-II simulation. Our main sample consists
of disk galaxies at the centers of halos with a range of virial masses
similar to M33, MW, and M31. For this sample, we find an average trend
(though with very large scatter) similar to that observed in the LG;
disk galaxies in heavier halos on average host heavier bulges and a
larger number of satellites. In addition, we study sub-samples of disk
galaxies with very similar stellar or halo masses (but spanning a range
of 2–3 orders of magnitude in bulge mass) and find no obvious
trend in the number of satellites versus bulge mass. We conclude that,
while for a wide galaxy mass range a relation arises (which seems to be
a manifestation of the satellite number–halo mass correlation),
for a narrow range there is no relation between number of satellites and
bulge mass in the standard model. Further studies are needed to better
understand the expectations of the standard model for this possible
relation.