HYPERION. The SMBH-galaxy co-evolution at z>6 and the build-up of massive galaxies

We leveraged low to high frequency ALMA observations to investigate the cold gas and dust in 10 QSOs at z≳ 6. Our analysis of the CO(6-5) and CO(7-6) emission lines in the selected QSOs provided insights into their molecular gas masses, averaging around 10^10 M_⊙, consistent with typical values for high-redshift QSOs. Proprietary and archival ALMA observations in bands 8 and 9 enabled, for the first time, precise constraints on the dust properties and SFR of 4 QSOs in our sample. Examination of the redshift distribution of dust temperatures revealed a general trend of increasing T_ dust with redshift, which is in agreement with theoretical expectations. On the contrary, investigation of the dust emissivity index indicated a generally constant value with redshift, suggesting shared dust properties among sources. We computed a mean cold dust SED considering all 10 QSOs that offers a comprehensive view of high-z QSO's dust properties. The QSOs marked by more intense supermassive black hole growth (HYPERION QSOs) showed – on average – smaller dust masses and higher gas-to-dust ratios, while having H_2 gas reservoirs consistent with other QSOs at the same redshift. Beyond supporting the paradigm that high-z QSOs reside in highly star-forming galaxies, our findings portrayed an interesting evolutionary path at z>6. Our study suggested that QSOs at z≳ 6 are undergoing rapid galaxy growth, potentially regulated by strong outflows. In the M_ BH-M_ dyn plane, our high-z QSOs lie above the relation measured locally. Their inferred evolutionary path portends a convergence towards the massive end of the local relation, supporting their candidacy as progenitors of local massive galaxies. The observed pathway involves intense BH growth followed by substantial galaxy growth, in contrast with a symbiotic growth scenario.