The GECKOS Survey: Resolved, multiphase observations of mass-loading and gas density in the galactic wind of NGC 4666

Abstract

We present a multiphase, resolved study of the galactic wind extending from the nearby starburst galaxy NGC 4666. For this we use VLT/MUSE observations from the GECKOS program and HI data from the WALLABY survey. We identify both ionised and HI gas in a biconical structure extending to at least z8 kpc from the galaxy disk, with increasing velocity offsets above the midplane in both phases, consistent with a multiphase wind. The measured electron density, using [SII], differs significantly from standard expectations of galactic winds. We find electron density declines from the galaxy centre to 2 kpc, then rises again, remaining high (100-300 cm-3) out to 5 kpc. We find that HI dominates the mass loading. The total HI mass outflow rate (above z~>2 kpc) is between 5-13~M~ yr-1, accounting for uncertainties from disk-blurring and group interactions. The total ionised mass outflow rate (traced by Hα) is between 0.5~M~ yr-1 and 5~M~ yr-1, depending on ne(z) assumptions. From ALMA/ACA observations, we place an upper-limit on CO flux in the outflow which correlates to 2.9~M~ yr-1. We also show that the entire outflow is not limited to the bicone, but a secondary starburst at the edge generates a more widespread outflow, which should be included in simulations. The cool gas in NGC 4666 wind has insufficient velocity to escape the halo of a galaxy of its mass, especially because most of the mass is present in the slower atomic phase. This strong biconical wind contributes to gas cycling around the galaxy.