DREAMS. JWST Spectroscopy of a z=8.3 Galaxy with an ALMA Dust Continuum Detection: Early Dust, Very High T dust, and a Multi-wavelength [OIII] Ratio Discrepancy

Abstract

We present a deep DREAMS JWST/NIRSpec MSA medium-grating spectrum of MACS0416-Y1, a galaxy at z=8.312 with the highest-redshift ALMA dust continuum detection to date, in order to characterize its properties together with archival IFU and ALMA data. The deep NIRSpec spectrum reveals a broad Hβ line with a width of 1100 km s-1. We interpret it as a broad-line AGN whose line diagnostics are consistent with AGN activity across its clumpy structure, given the absence of little red dot signatures. MACS0416-Y1 clearly shows [OIII]4363 emission, suggesting a moderately low metallicity of 12+(O/H)=7.86+0.09-0.08 (0.15~Z). The combination of [CII]158μm and dust continuum emission indicates low dust mass ratios of (M dust/M gas)=-3.60+0.29-0.22 and (M dust/M metal)=-0.95+0.29-0.20. Because the metallicity of MACS0416-Y1 is around the critical metallicity of 0.1-0.2~Z, the system is expected to undergo dust growth, explaining these low dust mass ratios as well as its small dust mass, M dust106~M. The intense UV radiation from the AGN may contribute to a high dust temperature of T dust 91+62-35 K, boosting the dust-continuum emission above the ALMA detection limit despite the small M dust at z>8. We find a very high total flux ratio of [OIII]88μm/[OIII]5007 = 0.26 0.06 in MACS0416-Y1, above predictions from single ionized nebular models at any electron density. This discrepancy suggests that the [OIII]88μm and [OIII]5007 trace largely distinct regions, with the optical line suppressed in dusty nebulae, and thus requires careful interpretation when combining optical and infrared emission lines in JWST+ALMA studies.