Abstract
The conjecture that the ancient globular clusters (GCs) formed at the center of their own dark matter halos was first proposed by Peebles (1984), and has recently been revived to explain the puzzling abundance patterns observed within many GCs. In this paper we demonstrate that the outer stellar density profile of isolated GCs is very sensitive to the presence of an extended dark halo. The GCs NGC 2419, located at 90 kpc from the center of our Galaxy, and MGC1, located at ~200 kpc from the center of M31, are ideal laboratories for testing the scenario that GCs formed at the centers of massive dark halos. Comparing analytic models to observations of these GCs, we conclude that these GCs cannot be embedded within dark halos with a virial mass greater than 10^6 Msun, or, equivalently, the dark matter halo mass-to-stellar mass ratio must be Mdm/M_*<1. If these GCs have indeed orbited within weak tidal fields throughout their lifetimes, then these limits imply that these GCs did not form within their own dark halos. Recent observations of an extended stellar halo in the GC NGC 1851 are also interpreted in the context of our analytic models. Implications of these results for the formation of GCs are briefly discussed.
Highlights
Despite decades of intense theoretical effort, the formation of the ancient globular clusters (GCs) remains a largely unsolved problem. Peebles (1984) considered the possibility that GCs form within their own dark matter (DM) halos at high redshift
As mentioned in the Introduction, most ancient GCs are on orbits that would likely have resulted in severe stripping of an extended dark halo, were they originally embedded in such halos
Two GCs are noteworthy in this regard: NGC 2419 in the Milky Way (MW) and MGC1 in M31
Summary
Despite decades of intense theoretical effort, the formation of the ancient globular clusters (GCs) remains a largely unsolved problem. Peebles (1984) considered the possibility that GCs form within their own dark matter (DM) halos at high redshift. Later work highlighted the fact that even if Milky Way (MW) GCs were once embedded within massive dark halos, these halos would have been tidally stripped away by the present epoch (Bromm & Clarke 2002; Mashchenko & Sills 2005). This requires relatively strong tidal fields, which suggests that GCs in the outer halo of the MW may still be embedded within dark halos, if they formed within them
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