http://arxiv.org/abs/1810.10719
We utilise the final catalogue from the Pan-Andromeda Archaeological Survey to investigate the links between the globular cluster system and field halo in M31 at projected radii $R_p=25-150$ kpc. In this region the cluster surface density profile exhibits a power-law decline with index $\Gamma=-2.37\pm0.17$, matching that for the metal-poor stellar halo component with [Fe/H] $<-1.1$. Spatial density maps reveal a striking correspondence between the most luminous substructures in the metal-poor field halo and the positions of many clusters. By calculating the surface density of metal-poor halo stars in the vicinity of each globular cluster and comparing to the azimuthal distribution at commensurate radius, we reject the possibility of no correlation between clusters and field overdensities with high confidence. In contrast, we find no evidence for a similar association between clusters and metal-rich features ([Fe/H] $>-1.1$) even though this component contains the dominant fraction ($>70\%$) of the halo luminosity. Our data reveal that $\approx35-60\%$ of clusters exhibit properties consistent with having been accreted into the outskirts of M31 at late times with their now-defunct parent dwarfs. Conversely, at least $\sim40\%$ of remote clusters show no evidence for a link with halo substructure. The radial density profile for this subgroup is featureless and has a power-law index $\Gamma=-2.15\pm0.05$, identical to that observed for the apparently smooth component of the metal-poor stellar halo. We speculate that these clusters are associated with the smooth halo; if so, their properties support a scenario where the smooth halo was built up at early times via the destruction of primitive satellites. In this picture the entire M31 globular cluster system outside $R_p=25$ kpc is comprised of objects accumulated from external galaxies over a Hubble time of growth.
D. Mackey, A. Ferguson, A. Huxor, et. al.
Fri, 26 Oct 18
53/64
Comments: Submitted to MNRAS, comments welcome
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