We revisit black hole mass estimates for high-redshift broad-line active galactic nuclei (AGNs) discovered with JWST by jointly analysing their broad emission lines and their systematic non-detections in deep Chandra imaging. Building upon a self-shadowed, super-Eddington accretion framework in which the corona undergoes efficient radiative over-cooling, we couple funnel-dependent Comptonisation physics with slim-disc spectral models and explore the resulting parameter space through a full Markov Chain Monte Carlo inference. Using a recently compiled sample of JWST high-redshift broad-line AGNs, we show that the observed X-ray weakness – manifested as extreme bolometric corrections, suppressed 2−10 keV luminosities, and non-detections in the 0.5−5 keV Chandra band – naturally arises when the corona is confined and radiatively over-cooled inside a narrow super-Eddington funnel. The combined broad line+X-ray analysis yields strongly bimodal posteriors: either very massive, very low-Eddington black holes (physically disfavoured), or a population of low-mass (∼106 − 107 M⊙) black holes accreting at fEdd ≫ 1. The latter solution is strongly preferred for nearly all objects and returns masses consistent with, or lower than, local MBH − M★ relations, mitigating the extreme mass ratios implied by single-epoch virial estimators. The predicted intrinsic spectra are redder and exhibit reduced hard-X-ray output but higher bolometric luminosities, implying bolometric corrections larger than those typical of the local AGN population, yet consistent with low-redshift highly accreting counterparts. These results support a picture in which many JWST broad-line AGNs are powered by rapidly growing, super-Eddington black holes whose suppressed coronal emission and self-shadowed broad-line region geometry combine to mimic overmassive black holes at z ≳ 6.
Trinca, A., Lupi, A., Haardt, F., Madau, P. (2026). You can???t see me: Super-Eddington growth hindering X-ray detection in high-z broad-line active galactic nuclei. ASTRONOMY & ASTROPHYSICS, 710(June 2026), 1-10 [10.1051/0004-6361/202659544].
You can???t see me: Super-Eddington growth hindering X-ray detection in high-z broad-line active galactic nuclei
Madau, P
2026
Abstract
We revisit black hole mass estimates for high-redshift broad-line active galactic nuclei (AGNs) discovered with JWST by jointly analysing their broad emission lines and their systematic non-detections in deep Chandra imaging. Building upon a self-shadowed, super-Eddington accretion framework in which the corona undergoes efficient radiative over-cooling, we couple funnel-dependent Comptonisation physics with slim-disc spectral models and explore the resulting parameter space through a full Markov Chain Monte Carlo inference. Using a recently compiled sample of JWST high-redshift broad-line AGNs, we show that the observed X-ray weakness – manifested as extreme bolometric corrections, suppressed 2−10 keV luminosities, and non-detections in the 0.5−5 keV Chandra band – naturally arises when the corona is confined and radiatively over-cooled inside a narrow super-Eddington funnel. The combined broad line+X-ray analysis yields strongly bimodal posteriors: either very massive, very low-Eddington black holes (physically disfavoured), or a population of low-mass (∼106 − 107 M⊙) black holes accreting at fEdd ≫ 1. The latter solution is strongly preferred for nearly all objects and returns masses consistent with, or lower than, local MBH − M★ relations, mitigating the extreme mass ratios implied by single-epoch virial estimators. The predicted intrinsic spectra are redder and exhibit reduced hard-X-ray output but higher bolometric luminosities, implying bolometric corrections larger than those typical of the local AGN population, yet consistent with low-redshift highly accreting counterparts. These results support a picture in which many JWST broad-line AGNs are powered by rapidly growing, super-Eddington black holes whose suppressed coronal emission and self-shadowed broad-line region geometry combine to mimic overmassive black holes at z ≳ 6.| File | Dimensione | Formato | |
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