THE MAGELLANIC STREAM: BREAK-UP and ACCRETION onto the HOT GALACTIC CORONA

Thor Tepper-García, Joss Bland-Hawthorn, Ralph S. Sutherland

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    36 Citations (Scopus)

    Abstract

    The Magellanic H i Stream (≈2 × 109 Mo [d/55 kpc]2) encircling the Galaxy at a distance d is arguably the most important tracer of what happens to gas accreting onto a disk galaxy. Recent observations reveal that the Stream's mass is in fact dominated (3:1) by its ionized component. Here we revisit the origin of the mysterious Hα recombination emission observed along much of its length that is overly bright (∼150-200 mR) for the known Galactic ultraviolet (UV) background (≈20-40 mR [d/55 kpc]-2). In an earlier model, we proposed that a slow shock cascade was operating along the Stream due to its interaction with the extended Galactic hot corona. We find that for a smooth coronal density profile, this model can explain the bright Hα emission if the coronal density satisfies 2 × 10-4 < (n/cm-3) < 4 × 10-4 at d = 55 kpc. But in view of updated parameters for the Galactic halo and mounting evidence that most of the Stream must lie far beyond the Magellanic Clouds (d > 55 kpc), we revisit the shock cascade model in detail. At lower densities, the H i gas is broken down by the shock cascade but mostly mixes with the hot corona without significant recombination. At higher densities, the hot coronal mass (including the other baryonic components) exceeds the baryon budget of the Galaxy. If the Hα emission arises from the shock cascade, the upper limit on the smooth coronal density constrains the Stream's mean distance to ≲75 kpc. If, as some models indicate, the Stream is even further out, either the shock cascade is operating in a regime where the corona is substantially mass-loaded with recent gas debris, or an entirely different ionization mechanism is responsible.

    Original languageEnglish
    Article number94
    JournalAstrophysical Journal
    Volume813
    Issue number2
    DOIs
    Publication statusPublished - 10 Nov 2015

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