Dust emission from the bulk of galaxies at the Epoch of Reionization

L. Ciesla, S. Adscheid, B. Magnelli, M. Boquien, N. Laporte, M. Bethermin, C. Carvajal, E. Schinnerer, D. Liu

Published 2024-12-03Version 1

[Abridged] Our view of dust in primordial galaxies is limited towards a few tens of z~7 galaxies, pre-selected from UV-optical observations, and are thus not necessarily representative of the bulk of the sources at these redshifts. In this work, we aim at constraining the dust properties of galaxies at 6<z<12 by making the most of the A3COSMOS database in the JADES/GOODS-South field. We stacked ALMA band 6 and 7 observations of 4464 galaxies covered by the A3COSMOS database and used the measurements as constraints to perform UV-to-FIR SED modelling. We obtain tentative signals for the brightest UV galaxies (MUV<-19mag) as well as for the most massive ones (log Mstar>9) at 6<z<7, and upper limits for fainter (MUV>-19mag), lower mass sources (log Mstar<9), and at higher redshift (z>7). Fitting these 6<z<7 galaxies with ALMA constraints results in lower star formation rates (-0.4dex) and FUV attenuation (-0.5mag) for galaxies with log Mstar>8, compared to the fit without FIR. We extend the LIR vs MUV relation down to MUV=-19mag and show a tentative breakdown of the relation at fainter UV magnitudes. The positions of the JADES z~6.5 sample on the IRX versus beta and IRX versus Mstar diagrams are consistent with those of the ALPINE (z~5.5) and REBELS (z~6.5) samples, suggesting that the dust composition and content of our mass-selected sample are similar to these UV-selected galaxies. Extending our analysis of the infrared properties to z>7 galaxies, we find a non-evolution of beta with redshift in the MUV range probed by our sample (-17.24+/-0.62) and highlight the fact that samples from the literature are not representative of the bulk of galaxy populations at z>6. We confirm a linear relation between AV and 1/sSFR with a flatter slope than previously reported due to the use of ALMA constraints. Our results suggest that rapid and significant dust production has already happened by z~7.