A z1 galactic-scale outflow transversally mapped to 50 kpc through gravitational-arc tomography
Abstract
We report spatially resolved measurements of cool gas traced by Mg II and Fe II absorption in the circumgalactic medium (CGM) of a star-forming galaxy at z1 (G1). The fortuitous alignment of a background gravitational arc at z2.4 provides seven closely spaced (6 kpc) transverse sightlines along the minor axis of G1, probing its CGM out to 50 kpc. This geometry allows us to detect a galactic-scale outflow simultaneously in down-the-barrel and transverse directions, where blue-shifted Mg II absorption is detected along both types of sightlines, revealing a large-scale, collimated wind. We measure blue-shifted line-of-sight velocities of vlos 62 - 239 km s-1 and line-of-sight velocity dispersions σlos 53 - 133 km s-1, suggesting a structure dominated by bulk motion. De-projection of vlos along the minor axis indicates that the outflow material barely approaches the escape velocity and is likely to be gravitationally bound to G1. We constrain an outflow opening angle θc 18 - 25, and a mass outflow rate of Mout 0.06 M yr-1, corresponding to a mass loading factor η 0.004, estimated within 10 - 50 kpc ( 0.05 - 0.3 Rvir) of the galaxy centre. Our measurements, combined with previous arc tomography data along the major axis, indicate that normalizing impact parameters by galaxy B-band luminosity substantially reduces scatter in the established anti-correlation between Mg II equivalent width and impact parameter, while also diminishing possible excess of Mg II equivalent width towards the minor axis.
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