Dust masses of z>5 galaxies from SED fitting and ALMA upper limits

Abstract

We aim at constraining the dust mass in high-redshift (z 5) galaxies using the upper limits obtained by ALMA in combination with the rest-frame UV--optical spectral energy distributions (SEDs). For SED fitting, because of degeneracy between dust extinction and stellar age, we focus on two extremes: continuous star formation (Model A) and instantaneous star formation (Model B). We apply these models to Himiko (as a representative UV-bright object) and a composite SED of z>5 Lyman break galaxies (LBGs). For Himiko, Model A requires a significant dust extinction, which leads to a high dust temperature >70 K for consistency with the ALMA upper limit. This high dust temperature puts a strong upper limit on the total dust mass Md 2× 106 M, and the dust mass produced per supernova (SN) md,SN 0.1 M. Such a low md,SN suggests significant loss of dust by reverse shock destruction or outflow, and implies that SNe are not the dominant source of dust at high z. Model B allows Md 2× 107 M and md,SN 0.3 M. We could distinguish between Models A and B if we observe Himiko at wavelength < 1.2 mm by ALMA. For the LBG sample, we obtain Md 2× 106 M for a typical LBG at z>5, but this only puts an upper limit for md,SN as 2 M. This clarifies the importance of observing UV-bright objects (like Himiko) to constrain the dust production by SNe.