Dual constraints with ALMA: new [O III] 88 μm and dust-continuum observations reveal the ISM conditions of luminous LBGs at z 7

Abstract

We present new [O III] 88 μm observations of five bright z 7 Lyman-break galaxies spectroscopically confirmed by ALMA through the [C II] 158 μm line, unlike recent [O III] detections where Lyman- α was used. This nearly doubles the sample of Epoch of Reionisation galaxies with robust (5 σ) detections of [C II] and [O III]. We perform a multi-wavelength comparison with new deep HST images of the rest-frame UV, whose compact morphology aligns well with [O III] tracing ionised gas. By contrast, we find more spatially extended [C II] emission likely produced in neutral gas, as indicated by a [N II] 205 μm non-detection in one source. We find a positive correlation between the equivalent width of the optical [O III] and H β lines and the [O III]/[C II] ratio, as seen in local metal-poor dwarf galaxies. Cloudy models of a nebula of typical density harbouring a young stellar population with a high ionisation parameter appear to adequately reproduce the far-infrared lines. Surprisingly, however, our models fail to reproduce the strength of [O III] 88 μm, unless we assume an α/Fe enhancement and a near-solar nebular oxygen abundance. On spatially resolved scales, we find [O III]/[C II] shows a tentative anti-correlation with infrared excess, L IR/L UV, also seen on global scales in the local Universe. Finally, we introduce the far-infrared spectral energy distribution fitting code MERCURIUS to show that dust-continuum measurements of one source appear to favour a low dust temperature coupled with a high dust mass. This implies a high stellar metallicity yield and may point towards the need of dust production or grain-growth mechanisms beyond supernovae.