ALMA observations of super-early galaxies: attenuation-free model predictions

Abstract

The abundance and blue color of super-early (redshift z>10), luminous galaxies discovered by JWST can be explained if radiation-driven outflows have ejected their dust on kpc-scales. To test this hypothesis, we predict the ALMA detectability of such extended dust component. Given the observed properties of the galaxy, its observed continuum flux at 88 μm, F88, depends on the dust-to-stellar mass ratio, d, and extent of the dust distribution, rd. Once applied to the most distant galaxy known, GS-z14-0 at z=14.32, the fiducial model (d = 1/529) predicts F88 fid = 14.9\, μJy, and a dust extent rd=1.4 kpc. If the galaxy is very dust-rich (d =1/40), F88 max = 40.1\, μJy. These values are smaller (F88 fid = 9.5\, μJy) if the dust is predominantly made of large grains as those formed in SN ejecta. Forthcoming ALMA observations might come very close to constraining the fiducial predictions of the outflow-based attenuation-free model. Other super-early galaxies are predicted to be fainter at 88 μm, mostly because of their lower SFR compared to GS-z14-0, with fiducial fluxes in the range 2-5.2\ μJy.