CEERS: Forging the First Dust Grains in the Universe? A Population of Galaxies with spectroscopically-derived Extremely Low Dust Attenuation (GELDA) at 4.0<z<11.4

Abstract

We investigate the coevolution of metals and dust in 173 galaxies at 4.0<z<11.4 using NIRSpec spectroscopy. Focusing on galaxies with extremely low dust attenuation, we explore their physical processes using a new CIGALE version that incorporates spectroscopic and photometric data. Comparing observations with models, we derive key physical parameters. We identify 49 galaxies with extremely low dust attenuation (GELDAs), characterized by AFUV=0 within 2σ and Mstar<109 M. The stacked spectra reveal a very blue UV slope (βFUV =-2.451-0.066) and Balmer decrement Hα/Hβ = 2.932-0.660, consistent with no dust attenuation. GELDAs are more common at z>8.8 (83.3%) than at z<8.8 (26.3%) suggesting they dominate the early Universe. Assuming a prior FIR dust spectrum (from ALPINE), we examine dust-stellar mass trends. The Mdust vs. Mstar diagram shows upper and lower sequences linked by possible transitional galaxies. A transition at Mstar=108.5 M (Zcrit=12+10(O/H)=7.60 or Z/Z=0.1) may mark the shift from stellar dust production to ISM grain growth, in agreement with theoretical predictions. Our full sample has a high mean gas fraction (fgas>0.9), indicating retained gas across all galaxies. Their small sizes and large gas masses imply high gas surface densities but relatively low star formation efficiency. High-redshift GELDAs may naturally explain the observed excess of bright galaxies at z>9 compared to theoretical expectations.

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