Bibcode
Bahé, Y. M.; Barnes, David J.; Dalla Vecchia, C.; Kay, Scott T.; White, Simon D. M.; McCarthy, Ian G.; Schaye, Joop; Bower, Richard G.; Crain, Robert A.; Theuns, Tom; Jenkins, Adrian; McGee, Sean L.; Schaller, Matthieu; Thomas, Peter A.; Trayford, James W.
Referencia bibliográfica
Monthly Notices of the Royal Astronomical Society, Volume 470, Issue 4, p.4186-4208
Fecha de publicación:
10
2017
Número de citas
192
Número de citas referidas
180
Descripción
We introduce the Hydrangea simulations, a suite of 24 cosmological
hydrodynamic zoom-in simulations of massive galaxy clusters
(M200c = 1014-1015.4 M⊙)
with baryon particle masses of ˜106 M⊙.
Designed to study the impact of the cluster environment on galaxy
formation, they are a key part of the `Cluster-EAGLE' project. They use
a galaxy formation model developed for the EAGLE project, which has been
shown to yield both realistic field galaxies and hot gas fractions of
galaxy groups consistent with observations. The total stellar mass
content of the simulated clusters agrees with observations, but central
cluster galaxies are too massive, by up to 0.6 dex. Passive satellite
fractions are higher than in the field, and at stellar masses
Mstar > 1010 M⊙, this
environmental effect is quantitatively consistent with observations. The
predicted satellite stellar mass function matches data from local
cluster surveys. Normalized to total mass, there are fewer low-mass
(Mstar ≲ 1010 M⊙) galaxies
within the virial radius of clusters than in the field, primarily due to
star formation quenching. Conversely, the simulations predict an
overabundance of massive galaxies in clusters compared to the field that
persists to their far outskirts (>5 r200c). This is caused
by a significantly increased stellar mass fraction of (sub-)haloes in
the cluster environment, by up to ˜0.3 dex even well beyond
r200c. Haloes near clusters are also more concentrated than
equally massive field haloes, but these two effects are largely
uncorrelated.
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