We present spatially resolved morphological properties of [C
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ALMA Reveals Extended Cool Gas and Hot Ionized Outflows in a Typical Star-forming Galaxy at Z = 7.13more » « less
Abstract II ] 158μ m, [OIII ] 88μ m, dust, and rest-frame ultraviolet (UV) continuum emission for A1689-zD1, a strongly lensed, sub-L* galaxy atz = 7.13, by utilizing deep Atacama Large Millimeter/submillimeter Array (ALMA) and Hubble Space Telescope (HST) observations. While the [OIII ] line and UV continuum are compact, the [CII ] line is extended up to a radius ofr ∼ 12 kpc. Using multi-band rest-frame far-infrared continuum data ranging from 52 to 400μ m, we find an average dust temperature and emissivity index ofM ⊙yr−1with an obscured fraction of 87%. While the [OIII ] line is a good tracer of the SFR, the [CII ] line shows deviation from the localL [CII ]-SFR relations in the outskirts of the galaxy. Finally, we observe a clear difference in the line profile between [CII ] and [OIII ], with significant residuals (∼5σ ) in the [OIII ] line spectrum after subtracting a single Gaussian model. This suggests a possible origin of the extended [CII ] structure from the cooling of hot ionized outflows. The extended [CII ] and high-velocity [OIII ] emission may both contribute in part to the highL [OIII ]/L [CII ]ratios recently reported inz > 6 galaxies.
