Detection of the Far-infrared [O III] and Dust Emission in a Galaxy at Redshift 8.312: Early Metal Enrichment in the Heart of the Reionization Era

Abstract

We present the Atacama Large Millimeter/submillimeter Array (ALMA) detection of the [O III] 88 μm line and rest-frame 90 μm dust continuum emission in a Y-dropout Lyman break galaxy (LBG), MACS0416Y1, lying behind the Frontier Field cluster MACS J0416.1-2403. This [O III] detection confirms the LBG with a spectroscopic redshift of z = 8.3118 0.0003, making this object one of the furthest galaxies ever identified spectroscopically. The observed 850 μm flux density of 137 26 μJy corresponds to a de-lensed total infrared (IR) luminosity of L IR = (1.7 0.3) × 1011 L if assuming a dust temperature of T dust = 50 K and an emissivity index of β = 1.5, yielding a large dust mass of 4 × 106 M. The ultraviolet-to-far IR spectral energy distribution modeling where the [O III] emissivity model is incorporated suggests the presence of a young (τ age ≈ 4 Myr), star-forming (SFR ≈ 60 M yr-1), moderately metal-polluted (Z ≈ 0.2 Z) stellar component with a mass of M star = 3 × 108 M. An analytic dust mass evolution model with a single episode of star-formation does not reproduce the metallicity and dust mass in τ age ≈ 4 Myr, suggesting a pre-existing evolved stellar component with M star 3 × 109 M and τ age 0.3 Gyr as the origin of the dust mass.