BlackTHUNDER strikes twice: rest-frame Balmer-line absorption and high Eddington accretion rate in a Little Red Dot at z=7.04
Abstract
JWST has revealed a population of 'Little Red Dots' (LRDs): compact, red objects at redshifts z=2-9 with 'v'-shaped spectral energy distributions, broad permitted lines, and, often, hydrogen Balmer absorption. We use NIRSpec/IFS data from the BlackTHUNDER survey to study the Hα line in the LRD Abell2744-QSO1 at z=7.04, which is a confirmed AGN due to time-variable equivalent width (EW) in its broad emission lines. The Hα spectral profile is non-Gaussian, requiring at least two Gaussian components. We also detect a narrow-line Gaussian component, and strong Hα absorption (EW relative to the continuum 22-7+12 A), confirming a connection between the strong Balmer break and line absorption. The absorber is at rest with respect to broad Hα, suggesting that the gas cannot be interpreted as an inflow or outflow, forming instead a long-lived structure. Its velocity dispersion is σ abs=110-10+20 km s-1, consistent with the value inferred from the analysis of the Balmer break. Based on Hα, we infer a black hole mass of log(M BH/ M)=7.2, smaller but close to the previous estimates based on Hβ. The Eddington ratio is 0.09. Combining the high signal-to-noise ratio of the narrow Hα line with the spectral resolution R=3,700 of the G395H grating, we infer a narrow-line intrinsic dispersion σ n=22-6+5 km s-1, which places a stringent constraint on the black-hole-to-dynamical-mass ratio of this system to be M BH/M dyn=0.15-1.2, confirming the overmassive nature of the black hole and potentially leaving little room for a host galaxy.
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