A close look at the black hole masses and hot dusty toruses of the first quasars with MIRI-MRS
Abstract
The presence of supermassive black holes (SMBHs, MBH109 M) at z>7 remains a puzzle. While their existence appears to require exotic formation or growth processes, it is possible that BH mass estimates are incorrect due to differences from the low-z quasars where BH mass scaling relations are calibrated. In this work, we employ JWST MIRI-MRS spectroscopy to measure the rest-frame optical/IR properties of the four highest-redshift known luminous type-1 quasars at 7.08≤ z<7.64. We use three new broad lines to measure updated BH masses, Hα, Paα and Paβ, finding them to be in the range (4-15)·108 M. Our black hole mass estimates from all tracers agree with each other and with previous, less accurate, ground-based measurements based on MgII. The flux ratios of the H lines deviate from expectations for case A and B recombination in the same way as in z<3 quasars, indicating similar physical conditions in the Broad Line Region. Rest-frame near-IR continuum emission from a hot dusty torus surrounding the accretion disc is unambiguously detected in all four objects. We model the emission with SKIRTOR and constrain the inclination (face-on) and the opening angle (θ=40-60) of the tori. These constraints are consistent for the four objects and with expectations from luminous quasars. We estimate a total dust mass (1-4)·106 M in the tori, corresponding to (0.2-7)\% of the total dust in the quasar host galaxies. Given observed accretion rates, these SMBHs will deplete their tori in only 5 Myr. Overall, we confirm that z>7 SMBHs in quasars could not have grown from stellar-remnant BHs if the radiative efficiency of accretion is 10\%. We also find no evidence that inferred BH masses and accretion processes in z>7 quasars differ significantly from their near-identical counterparts at z<3.
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