Abstract
We investigate structural properties of old, metal-poor globular clusters (GCs) formed at high redshifts (z>6) and located inside and outside virialized galaxy-scale halos in clusters of galaxies with the total masses of M_CL based on high-resolution cosmological simulations with models of GC formation. We mainly derive the parameter dependences of physical properties of intracluster GCs (ICGCs) based on the results of 14 models. Our principle results are summarized as follows. (1) The projected radial density profiles (Sigma_GC) of ICGCs in clusters with different M_CL can be diverse, though ICGCs have inhomogeneous, asymmetric, and somewhat elongated distributions in most models. If Sigma_GC (R) ~ R^alpha, alpha ranges from -1.5 to -2.5 for GCs in clusters. (2) Although total number of GCs within the central 0.05 Mpc (N_GC,0.05) and 0.2 Mpc (N_GC,0.2) are diverse in different clusters, they can depend weakly on M_CL in such a way that both N_GC,0.05 and N_GC,0.2 are likely to be larger for clusters with larger M_CL. (3) Total number of GCs per cluster masses (specific frequency of GCs for clusters of galaxies) are more likely to be larger in more massive clusters, mainly because a larger number of earlier virialized objects can be located in more massive clusters. (4) Spatial distributions of old GCs in clusters can depend on the truncation epoch of GC formation (z_trun) such that they can be steeper and more compact in the models with higher z_trun. (5) The mean metallicity of ICGCs in a cluster can be smaller than that of GCs within the cluster member galaxy-scale halos by ~ 0.3 in [Fe/H]. Metallicity distribution functions (MDFs) of ICGCs show peak values around [Fe/H] ~ -1.6 and do not have remarkable bimodality.
Highlights
Structural, kinematical, and chemical properties of globular cluster systems (GCSs) have long provided valuable clues to the better understanding of how galaxies form and2 K
About 28 % of all globular clusters (GCs) are located within cluster-scale halos with Mh 1014M⊙ About 99% of all GCs formed before z = 6 are located in galaxy-scale or cluster-scale halos at z = 0, which means that only 1% of the GCs can be outside any virialzied halos and can be identified as intergalactic or intercluster GCs (“intergalactic GC (INGC)”)
We have investigated radial density profiles and kinematics of GCs located in clusters with the total masses (MCL) larger than 1014M⊙ based on high-resolution cosmological N-body simulations with a formation model of old GCs
Summary
Structural, kinematical, and chemical properties of globular cluster systems (GCSs) have long provided valuable clues to the better understanding of how galaxies form and2 K. Structural, kinematical, and chemical properties of globular cluster systems (GCSs) have long provided valuable clues to the better understanding of how galaxies form and. The specific frequencies (SN), colour bimodality, and structural properties of GCSs have been discussed extensively in many different contexts of galaxy formation (e.g., Searle & Zinn 1978; Forbes et al 1997; Ashman & Zepf 1998; Brodie et al 1998; Cote et al 2001; Beasley et al 2002; Bekki et al 2002). The physical properties of globular clusters (GCs) have not been so far considered as fossil records that contain valuable information on how groups and clusters of galaxies were formed and evolved. GC properties characteristics of giants Es located in the central regions of clusters (e.g., very high SN) have not been extensively discussed in the context of cluster formation processes via hierarchical merging of smaller groups and clusters of galaxies
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