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    The MUSE Hubble Ultra Deep Field Survey : VII. Fe ii* emission in star-forming galaxies
    EDP Sciences ; 2017
    In:  Astronomy & Astrophysics Vol. 608 ( 2017-12), p. A7-
    Details
    In: Astronomy & Astrophysics, EDP Sciences, Vol. 608 ( 2017-12), p. A7-
    Abstract: Non-resonant Fe  ii * ( λ 2365, λ 2396, λ 2612, λ 2626) emission can potentially trace galactic winds in emission and provide useful constraints to wind models. From the 3.15′ × 3.15′ mosaic of the Hubble Ultra Deep Field (UDF) obtained with the VLT/MUSE integral field spectrograph, we identify a statistical sample of 40 Fe  ii * emitters and 50 Mg  ii ( λλ 2796,2803) emitters from a sample of 271 [O  ii ] λλ 3726,3729 emitters with reliable redshifts from z = 0.85−1.50 down to 2 × 10 -18 (3 σ ) ergs s -1 cm -2 (for [O  ii ]), covering the M ⋆ range from 10 8 −10 11 M ⊙ . The Fe  ii * and Mg  ii emitters follow the galaxy main sequence, but with a clear dichotomy. Galaxies with masses below 10 9 M ⊙ and star formation rates (SFRs) of ≲ 1 M ⊙ yr -1 have Mg  ii emission without accompanying Fe  ii * emission, whereas galaxies with masses above 10 10 M ⊙ and SFR s ≳ 10 M ⊙ yr -1 have Fe  ii * emission without accompanying Mg  ii emission. Between these two regimes, galaxies have both Mg  ii and Fe  ii * emission, typically with Mg  ii P Cygni profiles. Indeed, the Mg  ii profile shows a progression along the main sequence from pure emission to P Cygni profiles to strong absorption, due to resonant trapping. Combining the deep MUSE data with HST ancillary information, we find that galaxies with pure Mg  ii emission profiles have lower SFR surface densities than those with either Mg  ii P Cygni profiles or Fe  ii * emission. These spectral signatures produced through continuum scattering and fluorescence, Mg  ii P Cygni profiles and Fe  ii * emission, are better candidates for tracing galactic outflows than pure Mg  ii emission, which may originate from H  ii regions. We compare the absorption and emission rest-frame equivalent widths for pairs of Fe  ii transitions to predictions from outflow models and find that the observations consistently have less total re-emission than absorption, suggesting either dust extinction or non-isotropic outflow geometries.
    Type of Medium: Online Resource
    ISSN: 0004-6361 , 1432-0746
    URL: Article
    DOI: 10.1051/0004-6361/201731499
    RVK:
    UA 1000
    RVK:
    US 1090
    Language: English
    Publisher: EDP Sciences
    Publication Date: 2017
    detail.hit.zdb_id: 1458466-9
    SSG: 16,12
    Location Call Number Limitation Availability
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