The accretion of quasars at the epoch of reionisation: JWST catches the primeval monsters slowly feasting

Abstract

Quasars (QSOs) emit an enormous amount of light as a result of the accretion of gas onto supermassive black holes (SMBHs). Thanks to their luminosity, the most distant known QSOs allow us to trace the growth of SMBHs deep into the epoch of reionisation. In this work, we employed JWST/NIRSpec observations of eight luminous (log(L3000\,A/(erg \, s-1))>45.7) QSOs at z≥5.9 to constrain their accretion properties, namely black hole mass, accretion disc (AD) luminosity, and Eddington ratio (MBH, LAD, λEdd), by fitting the rest-frame UV and optical emission with different AD models. This method provided self-consistent measurements of both MBH and LAD. The uncertainties on MBH and LAD, obtained within the AD-modelling framework (σADMBH0.2 dex; σADLAD0.1 dex), are significantly smaller than the systematic uncertainties associated with single-epoch MBH (0.4 dex) and LAD derived via bolometric corrections (0.2 dex). Based on these results, in our sample we found an average Eddington ratio of (λEdd) =-0.9, with a dispersion of 0.2 dex. Assuming that our high-z QSOs are representative of optically-selected bright blue QSOs, we derive a fraction of systems accreting above the Eddington limit of 0.2%. In conclusion, this work i) demonstrates the suitability of JWST to test AD models on high-redshift (z4) QSOs, thanks to the large NIRSpec spectral coverage; ii) shows that AD modelling can yield robust M BH and L AD measurements, with smaller uncertainties than the typical calibrations; and iii) provides compelling evidence for sub-Eddington accretion in bright high-z QSOs, challenging the widespread paradigm of near- or super-Eddington accretion occurring in these sources.

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