Bibcode
Kundert, A.; D'Onghia, E.; Aguerri, J. A. L.
Bibliographical reference
The Astrophysical Journal, Volume 845, Issue 1, article id. 45, 12 pp. (2017).
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8
2017
Journal
Citations
22
Refereed citations
21
Description
Using the Illustris cosmological simulation, we investigate the origin
of fossil groups in the
{M}200={10}13{--}{10}13.5
{M}⊙ {h}-1 mass regime. We examine the
formation of the two primary features of fossil groups: the large
magnitude gap between their two brightest galaxies and their
exceptionally luminous brightest group galaxy (BGG). For fossils and
nonfossils identified at z = 0, we find no difference in their halo mass
assembly histories at early times, departing from previous studies.
However, we do find a significant difference in the recent accretion
history of fossil and nonfossil halos; in particular, fossil groups show
a lack of recent accretion and have in majority assembled 80% of their
{M}200(z=0) mass before z˜ 0.4. For fossils, massive
satellite galaxies accreted during this period have enough time to merge
with the BGG by the present day, producing a more massive central
galaxy. In addition, the lack of recent group accretion prevents
replenishment of the bright satellite population, allowing for a large
magnitude gap to develop within the past few Gyr. We thus find that the
origin of the magnitude gap and overmassive BGG of fossils in Illustris
depends on the recent accretion history of the groups and merger history
of the BGGs after their collapse at z˜ 1. This indicates that
selecting galaxy groups by their magnitude gap does not guarantee
obtaining either early-forming galaxy systems or undisturbed central
galaxies.
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Galaxies in the universe can be located in different environments, some of them are isolated or in low density regions and they are usually called field galaxies. The others can be located in galaxy associations, going from loose groups to clusters or even superclusters of galaxies. One of the foremost challenges of the modern Astrophysics is to
Jairo
Méndez Abreu