In the standard paradigm, satellite galaxies are believed to be associated with the population of dark matter subhalos. The assumption usually made is that the relationship between satellite galaxies and subhalos is similar to that between central galaxies and host halos. In this paper, we use the conditional stellar mass functions of satellite galaxies obtained from a large galaxy group catalog together with models of the subhalo mass functions to explore the consequences of such assumption in connection to the stellar mass function of satellite galaxies and the fraction and fate of stripped stars from satellites in galaxy groups and clusters of different masses. The majority of the stripped stars in massive halos are predicted to end up a...
Halo-model interpretations of the luminosity dependence of galaxy clustering assume that there is a ...
International audienceIn previous work, we showed that a semi-empirical model in which galaxies in h...
Several occupational distributions for satellite galaxies more massive than m(*) approximate to 4 x ...
In the standard paradigm, satellite galaxies are believed to be associated with the population of da...
We compare the stellar masses of central and satellite galaxies predicted by three independent semi-...
International audienceSatellite galaxies in galaxy clusters represent a significant fraction of the ...
© 2021 Oxford University Press. All rights reserved. We study the stellar-to-halo mass relation (SHM...
We develop a new empirical methodology to study the relation between the stellar mass of galaxies an...
International audienceIn the formation of galaxy groups and clusters, the dark matter haloes contain...
We present an observational study of the stellar mass function of satellite galaxies around central ...
We present a new model to describe the galaxy-dark matter connection across cosmic time, which unlik...
In the currently most probable model of the formation of structure in the universe, clumps of dark m...
We study the properties of satellites in the environment of massive star-forming galaxies at z ~ 1.8...
Many properties of the Milky Way's (MW) dark matter halo, including its mass-assembly history, conce...
We study the statistical distribution of satellites around star-forming and quiescent central galaxi...
Halo-model interpretations of the luminosity dependence of galaxy clustering assume that there is a ...
International audienceIn previous work, we showed that a semi-empirical model in which galaxies in h...
Several occupational distributions for satellite galaxies more massive than m(*) approximate to 4 x ...
In the standard paradigm, satellite galaxies are believed to be associated with the population of da...
We compare the stellar masses of central and satellite galaxies predicted by three independent semi-...
International audienceSatellite galaxies in galaxy clusters represent a significant fraction of the ...
© 2021 Oxford University Press. All rights reserved. We study the stellar-to-halo mass relation (SHM...
We develop a new empirical methodology to study the relation between the stellar mass of galaxies an...
International audienceIn the formation of galaxy groups and clusters, the dark matter haloes contain...
We present an observational study of the stellar mass function of satellite galaxies around central ...
We present a new model to describe the galaxy-dark matter connection across cosmic time, which unlik...
In the currently most probable model of the formation of structure in the universe, clumps of dark m...
We study the properties of satellites in the environment of massive star-forming galaxies at z ~ 1.8...
Many properties of the Milky Way's (MW) dark matter halo, including its mass-assembly history, conce...
We study the statistical distribution of satellites around star-forming and quiescent central galaxi...
Halo-model interpretations of the luminosity dependence of galaxy clustering assume that there is a ...
International audienceIn previous work, we showed that a semi-empirical model in which galaxies in h...
Several occupational distributions for satellite galaxies more massive than m(*) approximate to 4 x ...