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Carbonaceous dust grains seen in the first billion years of cosmic time.

Joris WitstokIrene ShivaeiRenske SmitRoberto MaiolinoStefano CarnianiEmma Curtis-LakePierre FerruitSantiago ArribasAndrew J BunkerAlex J CameronStephane CharlotJacopo ChevallardMirko CurtiAnna de GraaffFrancesco D'EugenioGiovanna GiardinoTobias J LooserTimothy D RawleBruno Rodríguez Del PinoChris J WillottStacey AlbertsWilliam M BakerKristan BoyettEiichi EgamiDaniel J EisensteinRyan EndsleyKevin N HainlineZhiyuan JiBenjamin D JohnsonNimisha KumariJianwei LyuErica J NelsonMichele PernaMarcia J RiekeBrant E RobertsonLester SandlesAayush SaxenaJan ScholtzFengwu SunSandro TacchellaChristina C WilliamsChristopher N A Willmer
Published in: Nature (2023)
Large dust reservoirs (up to ~10 8 M ⊙ ) have been detected 1-3 in galaxies out to redshift z ∼ 8, when the age of the universe was only about 600 Myr. Generating significant amounts of dust within such a short timescale has proven challenging for theories of dust formation 4,5 and has prompted the revision of the modelling of potential sites of dust production 6-8 such as the atmospheres of asymptotic giant branch (AGB) stars in low-metallicity environments, supernovae (SNe) ejecta, and the accelerated growth of grains in the interstellar medium (ISM). However, degeneracies between different evolutionary pathways remain when the total dust mass of galaxies is the only available observable. Here we report observations of the 2175 Å dust attenuation feature, well known in the Milky Way (MW) and galaxies at z ≲ 3 9-11 , in the near-infrared spectra of galaxies up to z ∼ 7, corresponding to the first billion years of cosmic time. The relatively short timescale implied for the formation of carbonaceous grains giving rise to this feature 12 suggests a rapid production process, likely in Wolf-Rayet (WR) stars or SN ejecta.
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