Holes in the BH? AGN signatures in the FUV spectrum of a black-hole dominated Little Red Dot at z=7.04

Abstract

It has been suggested that "Little Red Dots" (LRDs) might be accreting black holes enshrouded by dense gas in a nearly closed geometry, which completely covers the central black hole, leading to an atmosphere-like structure known as the "black-hole star" ( BH). We test this scenario by analysing new JWST spectroscopy in the far ultraviolet (FUV, rest-frame) of the prototypical LRD Abell2744-QSO1, at z=7.04. We found the presence of broad Lyα emission with an FWHM of 1000 km/s, and detections of OI, CIV, and/or FeII emission lines. The NIRCam imaging and NIRSpec slit images indicate that the low-velocity component (v 200 km/s) of Lyα is likely spatially extended, but the high-velocity component (v 200 km/s) of Lyα remains unresolved. Based on the multi-component kinematics and flux of Lyα relative to Balmer lines, we conclude that the observed line profile is unlikely to be broadened by subsequent resonant scattering through the interstellar medium. This suggests that the high-velocity component of Lyα originates in the broad-line region, although resonant scattering in the dense gas likely makes Lyα broader than Hα as observed. The nebular features of this LRD indicate that there is at least one relatively optically thin direction where Lyα can escape from the broad-line region (BLR). We also found indications that photons from the BLR are powering fluorescence of FeII and OI on a larger physical scale. The FUV features thus challenge the fully-covered geometry interpretation and suggest that there are "holes" in the BH, or the absorbing medium is simply clumpy.