On the Origin of Mass--Metallicity Relations, Blue Tilts, and Scaling Relations for Metal-poor Globular Cluster Systems
Abstract
We investigate formation processes and physical properties of globular cluster systems (GCSs) in galaxies based on high-resolution cosmological simulations with globular clusters. We focus on metal-poor clusters (MPCs) and correlations with their host galaxies by assuming that MPC formation is truncated at a high redshift (ztrun > 6). We find that the correlation between mean metallicities (Zgc) of MPCs and their host galaxy luminosities (L) flattens from z=ztrun to z=0. We also find that the observed relation (Zgc ~ L0.15) in MPCs can be reproduced well in the models with Zgc ~ L0.5 at z=ztrun when ztrun ~ 10, if mass-to-light-ratios are assumed to be constant at z=ztrun. However, better agreement with the observed relation is found for models with different mass-to-light-ratios between z=ztrun and z=0. It is also found that the observed color-magnitude relation of luminous MPCs (i.e., ``blue tilts'') may only have a small contribution from the stripped stellar nuclei of dwarf galaxies, which have nuclei masses that correlate with their total mass at z=ztrun. The simulated blue tilts are found to be seen more clearly in more massive galaxies, which reflects the fact that more massive galaxies at z=0 are formed from a larger number of dwarfs with stellar nuclei formed at z>ztrun. The half-number radii (Re) of GCSs, velocity dispersions of GCSs (sigma), and their host galaxy masses (Mh) are found to be correlated with one another such that Re ~ Mh0.57 and sigma ~ Mh0.32.
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