SIMBAD references

Recent observations have constrained the orbit and structure of the Large Magellanic Cloud (LMC), implying a well-constrained pericentric passage about the Milky Way (MW) ∼50 Myr ago. In this scenario, the LMC's gaseous disk has recently experienced stripping, suggesting the extent of its H_I disk directly probes the medium in which it is moving. From the observed stellar and H_Idistributions of the system we find evidence of a truncated gas profile along the windward ''leading edge'' of the LMC disk, despite a far more extended stellar component. We explore the implications of this ram pressure stripping signature, using both analytic prescriptions and full three-dimensional hydrodynamic simulations of the LMC. Our simulations can match the radial extent of the LMC's leading (windward) edge only in scenarios where the MW CGM density at pericentric passage is n_p (R=48.2 ± 5 kpc) = 1.1_–4.5^+4.4 x 10^–4/cm3 The implied pericentric density proves to be insensitive to both the broader CGM and temperature profiles, thus providing a model-independent constraint on the local gas density. This result imposes an important constraint on the density profile of the MW's CGM at 50 kpc, and thus also on the total baryon content of the MW. From our work, assuming a β-profile valid to ∼r_vir, we infer a total diffuse CGM mass M(300kpc) = 2.7 ± 1.4 x 10¹⁰M_☉ or approximately 15% of a 10¹²M_☉ MW's baryonic mass budget.