The Deepest GLIMPSE of a Dense Gas Cocoon Enshrouding a Little Red Dot

Abstract

The detection of strong Balmer breaks and absorption features in Little Red Dots (LRDs) suggests they host AGN embedded within dense gas envelopes, potentially powered by super-Eddington accretion. We present GLIMPSE-17775, a luminous (L bol1045 erg s-1) LRD at z=3.501 behind Abell S1063 (μ2), observed with deep JWST/NIRCam and a 20 hr (80 hr de-lensed) NIRSpec/G395M spectrum. The data reveal 40+ emission and absorption features, including a rich forest of low-ionization FeII lines and numerous broad hydrogen recombination transitions. We use this depth to test the dense-gas interpretation through five independent diagnostics. Nearly all permitted lines show exponential wings with consistent FWHM, the signature of Thomson scattering requiring ne108 cm-3. Adopting this width yields M BH106.7M, a factor of ten lower than Gaussian fits, and λ Edd1.8. Additional diagnostics support the same picture: a pronounced Balmer break (f,4050/f,3670=2.00.1), enhanced HeI λ7065 and λ10830 with P-Cygni absorption, Bowen-fluorescent OI λ8446-λ11290 emission requiring Lyβ pumping, and 16 FeII lines matching fluorescence models. These features indicate a dense (n108 cm-3), partially ionized cocoon where scattering and fluorescence dominate line formation, providing strong evidence that at least some LRDs are powered by super-Eddington black-hole growth in the early Universe.

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